##gff-version 3
sequence1	MetaGeneAnnotator	CDS	101	1501	.	+	0	ID=MGA_1;product=chromosomal replication initiator protein DnaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947895.1;translation=MEEMNAVEVWKRILKILKWNINETDYNSWMLNVKPIDLTEDKLILEVDNKFIKDRIESKFKEKIIEILNEILILKGYKDLEFRIKENEDNKLFFQKEEEPIKQEKKESKQSKQYKIQQNLFSKGYYNLNDKYLFNNFIVGKSNEFAHAASEAVANAPGKVYNPLFIYGGVGLGKTHLMHAIGNSVLKNNSNKKVYYCSSEQFTNDLINSLKNDKMMEFRSKYRKLDLLLIDDIQFIAGKDSTQEEFFHTFNELHQAGKQIVLSSDRPPKEIDNVEKRLVSRFEWGLIADIQQPDYETRVAILSKKAEMENIKISKEVLEFIAETINSNIRELEGNLNRIVAKASILKKEINIDLVKDVFYDVVKRNNKVVNKDKIIKVVSEYYEISIEDMISSKRKKDIAKSRQVAMYLLRDILSESFSAIGGIFGGKDHTTVMHSVSKIEKDMKENKYFEKDIMSLKEKILNNSN;locus_tag=LOCUS_00010;gene=dnaA;note=WP_011947895.1 chromosomal replication initiator protein DnaA (Clostridium botulinum) [pid:47.2%25%2C q_cov:97.4%25%2C s_cov:98.0%25%2C Eval:2.7e-110],MGA_1
sequence1	MetaGeneAnnotator	CDS	1519	1731	.	+	0	ID=MGA_2;product=S4 domain-containing protein YaaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903607.1;translation=MEIIEISTEYIKLDQFLKWVNIVGSGVEAKFLIKEGQVKVNKEVELRRGKKLRDEDIIEIDKNIYKIKRV;locus_tag=LOCUS_00020;gene=yaaA;note=WP_005903607.1 S4 domain-containing protein YaaA (Fusobacterium nucleatum) [pid:54.4%25%2C q_cov:97.1%25%2C s_cov:95.8%25%2C Eval:5.8e-14],MGA_2
sequence1	MetaGeneAnnotator	CDS	1788	2870	.	+	0	ID=MGA_3;product=DNA replication/repair protein RecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016062.1;translation=MQLLDVYLLNFRNLEEINLSFDKGINLFYGENGQGKTSFIEALYFNITGKSFRTKNISEIVKYSKLDCGIFLNFLDIYGEKSLALKYEKKHKKYFYNKKKVNYDEYIGKVNVISFIPEDIELINSSPSTRRTYFDYEISQSNYNYYLELKELNKILKVRNKFLKEKNIKNEMYNIYNEKFIDISAKLLIKREDYIKKLSILLNLNYRKLFKSSSELKLIYKPFIDNIEKKSLEEIKEKIKDKSLKVQKKELIYGYSLVGPQRDEYVFNLNEKDAKKYSSQGEKKSIIFSLKISEIDLIVKDKKEYPIFLLDDVSSYFDLMHKDSILNYFFNKNIQVFITSTEKLDIKGKKFLVKEGKIYE;locus_tag=LOCUS_00030;note=WP_011016062.1 DNA replication/repair protein RecF (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:99.4%25%2C s_cov:97.8%25%2C Eval:3.5e-83],MGA_3
sequence1	MetaGeneAnnotator	CDS	2863	3708	.	+	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKPVKLKEVIESKIKNNVFYKLEFLKINWVDIVGKNLAKKSFPLFVKEDVLIIGVTSSIWSQQMLFLKNQIIKNSNLKLNGEYIKNIRFKVSKYEKTINYIEKKQKVKREKIDFNNISIQPFEIKQLKKAIEFIKDDDIKRHIYKVSVLNKKREKYLLENGYKKCEKCGELFVGEGKICILCKNDIQKENRRRIYNKIKNNLLITYTEMKYEEKYLTKIEFEDIKNRVKDGIYREILINIKELKYKKARDLLEKYFILDSGTDNKRVIFEKIDMFFQSFT;locus_tag=LOCUS_00040;note=MGA_4
sequence1	MetaGeneAnnotator	CDS	3728	3985	.	+	0	ID=MGA_5;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIYLENNFFIPLNEIIAIVDYEKFTESENGKDFFEINKKNIINISKNKKSMVITDTYSYVSSYRLRALYSRGKEFERLKTGKVK;locus_tag=LOCUS_00050;note=MGA_5
sequence1	MetaGeneAnnotator	CDS	4042	5940	.	+	0	ID=MGA_6;product=DNA topoisomerase (ATP-hydrolyzing) subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895130.1;translation=MTNYTAKDITVLEGLEAVRKRPGMYIGSTSIRGLHHLVYEIADNSVDEALAGYCNKISIKILEGNVIEVEDNGRGIPVDMHPKHKKSALEIVMTILHAGGKFEHKGYKVSGGLHGVGVSVVNALSSTLEIEVKRDGKIWYQKYHEGKPEEPVKTIGDTNRTGTKVKFKADDTIFESLEYEFDVLSNRLKELAYLNRGLKISIEDLREGKKKKEVYEFEGGAVDFVKEVVSGEKTIITNPVSMIGEESGVYVEIVLTYIENQKETLYSFVNNINTHEGGTHVSGFKTALTRVINDIARTTGLLKEKDSNFVGNDVREGIVAIINTRVPEPQFEGQTKTKLGNSEVTGIVSSIITNKLKEYLEDNPTDAKVIVEKILISKRAREAAKKARELVIRKSALEVGSLPGKLSDCSSKVPEECEVFIVEGDSAGGSAKQGRDRRFQAILPLRGKILNVEKAGINRALENTEIRAMITAFGTNIGDEIDLEKLRYYKIIIMTDADVDGAHIRTLMLTFFYRHLRELIDEGHIYIAQPPLYKVTQGKNFSYAYSDEELEEITSELGDKKYTLQRYKGLGEMNPEQLWSTTMDPESRSLLKVTLEDATYADKLFNVLMGDKVEPRRKFIEEHATYVKNLDI;locus_tag=LOCUS_00060;gene=gyrB;EC_number=5.6.2.2;note=WP_005895130.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Fusobacterium nucleatum) [pid:67.0%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:5.1e-251],MGA_6
sequence1	MetaGeneAnnotator	CDS	6472	8925	.	+	0	ID=MGA_7;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903616.1;translation=MAKETQIYIEDEIKNSYLDYSMSVIVSRALPDVRDGLKPVHRRILFAMNEMGMFHEKPHKKSARIVGEVLGKYHPHGDTAVYLTMVRMAQDFNYRYMLIDGHGNFGSVDGDSAAAMRYTEARMSKITRELLLDIDKNTIDYRKNFDDSLDEPIVLPGKLPNLLLNGAAGIAVGMATNIPPHNLVELSDGIIATIDNRDIEDDELIKIVKGPDFPTGGIINGVSGIISAYKTGRGKVKVRGKVKIEEIRSGKEAIIINELPYQVNKARLIEKIANLVKEKKISGITDLRDESDRDGIRIVIELKKGEISELILNKLYKYTELQNTFGIIMLALVNNVPKVLTLKQILNHYLDHRYEVVVRRTKYELEKAEKRAHILEGFRKALDNISEIIKIIRGSKDAATAKESLIKIFEFTEIQAKSILDMRLQRLTGLERDKIETEYKELLKVIDELKFILGNDSKVFEIIKDEVIELRDKYGDKRRTEIRAAAEDILLEDLIKDEEVIVMMTNKGYIKRIGLDKYKAQNRGGKGVSSHNAASEDFVENMYLTKNLDSLLIFTNKGRALSLKVYEIPESSKKARGKLINNLINLTTNEKVKAVLKVREFEENKNIFFATKSGVVKKVSLNKFKKISKAGLIAINLKENDNLIYVGVANGDNDIFLATKQGYSIRFNESEIRSMGRTATGVKGINLRKNDEVVSGLVIENPEATVLTVTENGAGKRTKLKGYRLQSRGGKGLINMKINPKTGDVVEVKGVTDSDEIMLISSNGIVIRTAADTISTTGRSTQGVRVMKVDENEKVVSVIKRHKDKEIESDIESGEEE;locus_tag=LOCUS_00070;gene=gyrA;EC_number=5.6.2.2;note=WP_005903616.1 DNA gyrase subunit A (Fusobacterium nucleatum) [pid:61.8%25%2C q_cov:97.7%25%2C s_cov:98.6%25%2C Eval:1.7e-289],MGA_7
sequence1	MetaGeneAnnotator	CDS	9504	10610	.	+	0	ID=MGA_8;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228038.1;translation=MAKVVLTDMEKTYPNGFKAVHGHNLEIKDGEFMVFVGPSGCAKSTTLRMIAGLEEITGGTVAIGDIIVNELPPKDRGIAMVFQNYALYPHMNVYDNMAFGLKLAKTPKEEIDKRVKDAAEILGITDLLDRKPKEMSGGQRQRVAVGRAIVRDPEVFLFDEPLSNLDAQLRVHMRVEITKLHKRLGTTMIYVTHDQVEAMTMGDRICVMELGVIKQVDTPLNLYNKPENKFVAGFIGSPSMNIVEAKLEKDGDTTYAVTEHMKLRLPKEKADKVQSHIGKEIWFGIRPEHIGSHETHPNEKDNYVNSEIYVVEQMGNEVFVYFTPGKNQYIARLGSEGVTVKSGEKYEIWFDTSKCHIFDKETEENISL;locus_tag=LOCUS_00080;gene=ugpC;note=WP_011228038.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Thermus thermophilus) [pid:58.2%25%2C q_cov:99.5%25%2C s_cov:97.1%25%2C Eval:8.6e-114],MGA_8
sequence1	MetaGeneAnnotator	CDS	10628	11893	.	+	0	ID=MGA_9;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256399.1;translation=MSSKFTELIESINIFNKIERSSGYMWLTGAILSFIVFIYGLVLLIKGVMYGNGAGTYKIAGLKLTAPAMGFILIFIGLIVLFITITQTIHNSKEEFKRKYNNLGTAYVYTSPAIIGMVVLVFFPLVFGVWVAFTNYRIDIPLAKANFPTLSRFLDVFTSKNSDFRDIFFTNIWWTVINIVLAVSLGVMLALILNREDMKLKKVYRTLLVLPWAVPNYVTALMWKAMFQKEFGAVNQILSPIYAMLHMDNLQWLSKSFISLKFLDHIPYLGSLLIDAIGLKGYLVSLPFIAVVIVNVWLGFPFMMIVALGGLQSISKTFYEAAEIDGATKFQMFKFITVPLLKPTMIPAIILSIIWTFNQFNVIYLITTNDKMSLLVVSAYREAFEKGRYSYAAAYSVIIFIILAAYSIFTMKVSKATEEVY;locus_tag=LOCUS_00090;note=WP_012256399.1 sugar ABC transporter permease (Chloroflexus aurantiacus) [pid:34.5%25%2C q_cov:79.1%25%2C s_cov:96.4%25%2C Eval:2.9e-55],MGA_9
sequence1	MetaGeneAnnotator	CDS	11893	13740	.	+	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKKYTKKQFIRSLIVVLTSLLIAVLFTGWYSNYAKKTVITSVTKSSEFFSKKIVEDINKKFAKSKRIIFIRAKKIIDPKSLFKYIPEGRSDISKLSVASIAIWSKKDGKIVNEIHTISSLNRKNLYGLRKGETLNKNNVKNYFESKIENSWIENNFDKIQENQFVVENINGFLKNKKRNNLHTVRKFNLKGKDYLLDIQYSKRSIVSNRITKKIQTEVIVIIFIYLLFLLVYSLIMDRNLLMHVLVLYVLVFTTYPLTWVISLTFKSSNSMGGTNLNPIPKNATLDNYKAALLNLKKVKEEGIVLDKNNKLFIGQEVIVDGKGAMIEAKNIKSVYNVFDPNSTNLLKDVKFEVKEKDTKVTYNGKEKIIKQDAYYLRLNKVSELPQDMQIYNVEYYTHINFLFLSGIFNSLFIAILTALIGMILSSAAAYAFSRFRFPGRDGFMMSFLVTQMFPGTMMLIPLYIIFSNLGFINTFKGLIFAYSITALPFNIWNLKGFFDTVPKELEEAALIDGCSASQTFYKIVLPLSLPALAISALFSFMGAWNEYIMAATFMNTESKYTIPVVIKMLVGSNSVNWPMFATMAVLVSIPVVIVFLMSQKYLVGGLTAGGVKG;locus_tag=LOCUS_00100;note=WP_012259004.1 ABC transporter permease subunit (Chloroflexus aurantiacus) [pid:41.5%25%2C q_cov:34.1%25%2C s_cov:75.1%25%2C Eval:4.0e-43%2C partial hit],MGA_10
sequence1	MetaGeneAnnotator	CDS	13839	15053	.	+	0	ID=MGA_11;product=maltose/maltodextrin ABC transporter substrate-binding protein MalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080109.1;translation=MKKRVLVILALFTLVFSSVVSAKTVKLWYGWTGQEKEAMLGILAKYEQVSGNKVDALMVPFDALQGKFQTMAPQGQGPDVIVGPADWIGTFKIQNLLAPIDGFASESTLKGFIPTVLGACKYENKLYGLPESYKVVALIYNKDLIPNPPKTTEEMIKIGKELTNEDESQYGLVYDKGNYYYHMGWIGGFGGKILDKNNNPTFDSKAQIEAAKFVASLSEDPQKIMPEEVDYNVMMTLFNDGLAGMIINGPWAIGDLVESGVNFGVTRIPMVNQTGLWPAPALGPEVMMMSAYSKDKKNGYDLIKFLTSADSQAEMSKVGHLPSRSEVYEYRTVKNSSVYQYIKGFKSQAEVGTPMPTAPEMNAAVWANGATMLSQVLSGDATAEEAAKDVQEKAMESVKELRQK;locus_tag=LOCUS_00110;gene=malE;EC_number=7.5.2.1;note=WP_004080109.1 maltose/maltodextrin ABC transporter substrate-binding protein MalE (Thermotoga) [pid:34.2%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:6.3e-52],MGA_11
sequence1	MetaGeneAnnotator	CDS	15207	17477	.	+	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRTNKKGTLSLKAKLILINSVIVFAILVASTITAINISGSKLGEVSDNIKDNLGKALNEKLKKAGEISINILKDKENVILREANIMGSNSDLITLVEYNMKRKTSKLSKNSFIPDEKNKKKFFVEYKKTKSILNYIRIVGDLQKSMYGDGAEKQIEIVDATGKVKAKTKGIKRAFREKSNSDKIKQILGTAGGLTLTDVIPSSNGLIIKAYGKIDKDSTDNQQKGILIVTLPLNVAFANQLKNMTDTEIGLYNGTKFFTGTLFGDNGKPLDLGDGSKILKKLETGEKIVIENKELDFGNVQGKNVKKSYRFAYIPITNYLGKIVGMMAVGVKTENLNKAISVSEKNKKEVKSEIVKSLVIVAIFGILIGMIFIYIYSGTITKEIKKILDAVNKVSEGNLTLEVKTKRKDEIGDLADGINNMTKNLKLMVYQITDMSERIASSTEQISATSEANRSSMEGIVNISGEIKDKSNEEMLRIQEAVEFISQINAGIKDISKYSEKVTEKSNDSSELAIEGGKAVKDAVDSINEIKSTVEETSEIVKSLRTKTEVVDKVVTVITGIADQTNLLALNAAIEAARAGEVGKGFAVVANEVKKLASQSAEAAEEIRTIILGIQSEANNVSKSMKKGLEEVEKGVNISNKAGEALKSIIDSVYDTTEMVTEITASTQEQSASSEEALKTMEDIAAASEQTNAISESIAKEAEERLKGVEEIVEGVNSILDGAETLNNLTDTFDIGKDFDMSENVKKELKELDD;locus_tag=LOCUS_00120;note=WP_003244077.1 methyl-accepting chemotaxis protein (Bacillus) [pid:33.3%25%2C q_cov:51.2%25%2C s_cov:58.5%25%2C Eval:2.3e-59%2C partial hit],MGA_12
sequence1	MetaGeneAnnotator	CDS	18082	20388	.	+	0	ID=MGA_13;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKLALAFFTILSSLAFASFNDVPDNHWASNAVRNLYNKGLLAPSLDNATKFKGEGVFSRYEIASMLYSNLSYVNEKLEKKASAQDLEAIKVLVTNFAPELVKLGAKSEELDKKIAKMEKEIGDKLGKKIDKLKDDVNKVKISGDFSAEQIVGMKDNNPGMRDLDYTGNLTLSGKVNKNVSAKVKLGIDQGKDASVDAIELKAKSKKLTVAVFKDSDKEVASFEDTFNLFAGDVVDPDNGVIANGNLSLLGNSNKYVAMMYKTGSGDFYGMQVKQNFDVLKKMGINAFVRGSYAEKVINYKWDDAKDSDNARGLYAVDGELVMKPLPIWSLTVSGEYGTRRSPGIENVESDAINAYVPSRDAIYLYTKNLFKLGWLGKIDVRAGLYNSGEYFDVAGMGKNTKTVFAETDIVKLEADKKAYLAYASYDLFSKGWLTTNVMYSSYGANIKDSFPKEKINSLTTLNLWPGKIKLELEGTLEKDEKLPADAKAGKLEAAKGKITIEQRNKFTLIPKWTENVNFHYEMDRDKDEKVKDDARIAEVYVDHGMDITKNSYFKVAGKINIKGLGLGKEEDAEKKTYDEDGKWVIDHSYDKKVTVETGSDYEIRNVKLAGFNNKFIVGGRFSIEDKQGKRVNAKDKDGNDIKVKNGDKDVNVTTTKNTEKLDDNYKYRAFVYHKLEKGNFTLYCGAKYEKELTYQADSKNFKDTDDSDDVKYAVGMEYNFGNDTTATLKYGDPTVTEDSGDFISDKTSFADGEQDQLAFNISAKF;locus_tag=LOCUS_00130;note=MGA_13
sequence1	MetaGeneAnnotator	CDS	20412	23207	.	+	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKYSLLAVLTTFLLLFSGCIYENNNMKKPDTASLKLTVQVKKSAGENAVTALTKEDYVKFWYFVPSTSGSKSIIATKLADDSTDLDDIKNDFNEGNTGEKITNKIDADLADDAMDDYVISEVPLNAKWLAVGIPGKGYDVQLIDLSKKGTMKKDTELDLGTIILQPRPDKTFTVKAVPEMFGKAELSKPIYISGPFNGWHGNENSSPVMVKGADGIYTYTFTGIAPGEFEYKFNPSEFSSPWSADPTGDKLVDDGNGGSNPKAIVNGKAKSKYMPVIALDTKSFSKNTTADAIEVTVDISKYIKDPVSDKTIKSVKINYAGKMVSGKIIKGTEFSTLSNKAMTLEDGKYKVKNIKIPEVGEYLFTITAVDEYGITAMSSVYITVMDSAPVVKSVTVKHKNLETVLKQKDDWSYETTVTTPGAYELGFMVDGNWQNATASDAVQVETKKDWSYTTTISAPGTYELGFMVDGNWQNAVATNSVSGTGVTFEPASGGNAKFTTTTTDTAITINYAGPAKVVTVKGGFNGWAEVALSSSTFVDFTYEKSTSGNAKFTTTVTNTAIKIVFNNSDYNLIPYGVKVKGSFNSWAEVALTGGKTVSVAPGSNKRMVVLLAAKVEDNDGMKDIESVKADLTQFDKGMLTLLNDGQATVSGDESSTDKVYTNSIEMNLLIGTYMIPVIVKDKSGQETTYNAELKVEEDNDYSDDENSSTIIKDMGSLSNSVKIVFDATKMSEMSGVDLSKINKVIIKGSIIDGSWAKHIELTKDDTGDTWSGFIPIDSKTGEFGFAYWTSDGTANDKWAGKNPDTGNNYTYSEGVAKGLIVEGKKTVKVVFDATKLSEMDGVDLTKIDKMIIKGSIIDSGWARQIRLTKSNDDNTWYCYTEIASKTGEFGFTYWTSDGTANDKWAGKNPDTGNNYTYSEGMEKGLIVEF;locus_tag=LOCUS_00140;note=MGA_14
sequence1	MetaGeneAnnotator	CDS	23560	26814	.	+	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNILLLFIVVFSLFGCIEKSNNVEKETKTDTTNLTGNTIRVHYSGDNSWGLHLWGASIKTEKDGVFYIGNTKHDWTTPLNFDKSDSFGVYVDFKILDSSQDLNFIIHKGDVKDSADRDDKNPRKLDVSNGNREFWVIKNESTIYTKLPTITQKIERAEIVNDKTLKCYITLNEDIKLSEIKAYKRDGKEEIITNVLRDGKILTLTLNNASKIVKLEYKENYFYTTISSEALRGDIFYYSGDDLGAKLNSDGTVDLKVWSPLAMEISVNIYDKTDQNKKVAGAIKLNLGDAGVWSVKLNKANTTLDNMDGYFYQYEVKAYYPQEKAVKTKQALDPYAKSMASFDSNSNDKIGKGAFVDINSINAGEKSSSIGNTNLENSVEEIAYETHVRDFTISAEDVPENERGTFKGFSDFTKGLTHLKNLGITDVQFLPVQNYYTVNEKEKSYMPVGNGDKTNYNWGYDPHNYFTVEGWLSSDSEDPYNRIKEYRELVGKLHENGIGVIMDVVYNHTYGWDVFENIAPGCYYRTIEGTISTKSGAGPTVESRNKMVRKLIIDSLKHFVNEYGVDGFRFDLMGFIDTDTMKEIRKEVGDKIILQGEAWNFTDLDKGESPIKGETASYPHNIDLAVFNDTSRDSYSGSTSAEGDNGFVQGNIKLTGKVKAGIIGGITGFDNGGTPLNITENGYDLFADSPKETLNYQSIHDGFTLWDKINLNIKGTKEIRAKYVKQAMAMLFTSEGKIIIQGGDEIGRTKPLALDDANGSNRAHTNSNYDSDGEPDSSGGKLHENSYKSPDYTNMFRWDRMDKEPYASLDEYVQGLVKMRKSIPAFRYENSESIKNGLKFIGEEGFNSGETTGPFSNFSELQDLTLKFINGVPDSVYYVVGEVFSTAGDGGVNGNPATNAFKIVFDSEGKGEITFTKGQISEFNLSGWSDPNNLQVKLVKTPGKWDFVPGGYSGSGNNSIKIGTISNSREVQIDLGVEDDIPGQVPFENNNYIAYELDNSLESGGDTNYTKIIVVHNVGSVTEKISVPEIVNNSNWKVIVDEDDAGILPLDYNENGGRGKTNVKILNGEIDVPANSTSVIAK;locus_tag=LOCUS_00150;note=WP_011836521.1 pullulanase (Streptococcus sanguinis) [pid:29.1%25%2C q_cov:77.7%25%2C s_cov:69.1%25%2C Eval:4.1e-97%2C partial hit],MGA_15
sequence1	MetaGeneAnnotator	CDS	26929	27237	.	+	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDCSEEYFWIFKEIKLSKLKLVIYVEEVEIELTKLEYLLMEFFIKNPGRVFYRGQIIERVWGDNYIGEDRVVDSCLKRLKKKEEKLKEHFKSVRGIGYIFE;locus_tag=LOCUS_00160;note=WP_013222396.1 response regulator transcription factor (Amycolatopsis) [pid:34.1%25%2C q_cov:86.3%25%2C s_cov:39.7%25%2C Eval:1.8e-10%2C partial hit],MGA_16
sequence1	MetaGeneAnnotator	CDS	27339	28007	.	+	0	ID=MGA_17;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAIIDSGEPEKSKLNIIKSINVTESVQKDENGHSTAIYKILERYLNEEDEIINIKILNKDLKGSSFELLKALNLLKNEKVDIIGLSLGTTTYKHVYGMHKAINYLIKQNIVVVAAKNNSGKISFPAEFDKVIGVGNSMVDVNEKKCFIDYFNTNIYLNINEELDIENKKIELIGNSYLVPHIVGLTSKILKENSIKDLEELLYILETEKIEELSIENEIL;locus_tag=LOCUS_00170;note=WP_003243950.1 minor protease Epr (Bacillus) [pid:26.8%25%2C q_cov:69.8%25%2C s_cov:25.1%25%2C Eval:1.3e-08%2C partial hit],MGA_17
sequence1	MetaGeneAnnotator	CDS	28027	29076	.	+	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSLYPLNNIAKQIINTKEYLDYELKYLILDENEEFVGEVETGKEIKNVIMKSDIILFTDVDNKEREDNIIKIMLEANKQNKDIILLELPTSEKIKTLIKDNNIDVLTCFEGKKDIVKYIGEYLNFEENFRKRGYVGKGEKIKKIGFFEISEKQESLKILLELNEKLKEHYNIGNIVNEKIGFLYDFKQLKNIYENYNLNWQYVEAMFREFEKEKKELIFIEEKLSFPIYDNDIHDFMKKNSKLLGYRLDEAVLIIDELNEKFINKLSNMFRIYYGLEEILACIIEKSFYYENKKSIDNITAKYNIKNVIFKDELEKFEKILLLEKLEERLENKYKKMSDRYYEFKNA;locus_tag=LOCUS_00180;note=MGA_18
sequence1	MetaGeneAnnotator	CDS	29109	30164	.	+	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQAVLYPFDKITMGIIRFRELLDFKINCVVDFTKYDECDAVKLAIGEKSDIKITKDIKKGLKDSEILILNDAGAPVQVPAAIKFYEENRLQEKWKDLVKTAHEKGMKILSTHTILDVGLKKWLEEEEINVEIGKQITNEEAKNRVEKNENYTFKNKLKKIGIYGTNSCVGKFTTQMELLRSLSKKSKTKAIITEPTAFLFNQPQFVNIQSDELLAGEYMGAMLKEMEQDDVEYVINSGQSGLSFILNRSAGWINYNIMRLTSFNPDKVIIVCGLDDDKDVRDVIDFLEITLGISKPIAIMIADKKENKGVFERIEKEKLEQRKKELREKFGVKNVEIIKDIEKIIPEILN;locus_tag=LOCUS_00190;note=MGA_19
sequence1	MetaGeneAnnotator	CDS	30177	30998	.	+	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIILYPNNDKSKFLLKHKEIFNYKIAGMFSSKQELEENLNKGDSIFITGEDKNFNEFKEIIKLGNEANKNIIFNYNIFDKQTKEYILDNKYEVFANYETESEIMKMLSKQTKKPLKKTIKKTMLLCIDDVEDKLDVELRYLKKIGFKSEEYEVVTDDKRGRLFGFKEIYSGLSEYTVYDYTKNIIEEAEKSKSKNLFLAYTNDFLDFEDYYKMLKNMSLLYSFMPEELIIATKTKNEKIDMLVKFINIYTNLNSVKIFFYDKGEEKIEILN;locus_tag=LOCUS_00200;note=MGA_20
sequence1	MetaGeneAnnotator	CDS	31031	32086	.	+	0	ID=MGA_21;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKVSIYPNNKVTQGLIRFRELLNIEIKSVIDFVFDVGKDAQEILDGEKSGIMIMNEVDEALEGVDTLLLNEEGTPLAHFQDFYFENELDKKWRLVVETAFNKGKKIISSHNIYSKKTLDWLSEKKIKIDFPEPIEKENIEKKYFENLKNDYKTKNMTRIGIYGTRSCIGKFTTQQMLFKELRKKRKVKTIITEPTAFLFKDTYPLYSTIPLSQYENTAYLRKLVEEEDKNETEYFIFSDQGSVVLDFGLGWYMTKLSYLKGFHPDKVIIIADYRDDEVLEKMITFFKVFSNIDKPMAVLIPDRVEKEYGIYEKKTEEEMKQRKKEIKEKFNISTVEIIRDIDKVAQTILN;locus_tag=LOCUS_00210;note=MGA_21
sequence1	MetaGeneAnnotator	CDS	32132	32347	.	+	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKVTEEMFLEEEFDLEGYNYGVDGDDGIDGDGETDSGSTSTGIDGDGETDSGIISIGIDGDDGIDGDQ;locus_tag=LOCUS_00220;note=MGA_22
sequence1	MetaGeneAnnotator	CDS	32538	34289	.	+	0	ID=MGA_23;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583190.1;translation=MNYITTVKEIFKFMRYLKPFYKFQFSIMFVLLISTILGLINPLVYKMVVDDFFIGKNIEILYFAIAIQIIVFIFTKILSISKEYLSAYMGNFISMTMRKNAFDKIMKAEASEMNKINIGEIFVTFDNDILAIENAITGTIINLILTLFNFITNTLVMFLLSWKYGIVVFLVIPFQLINNNIWIKHVMEKNKAIRKSVSEMFEFVNEAFSNMKYLKLLTKENFARRVFFKRNSNMVIKIFDSLKISWITGTISEVIGLGDSIFLLIVGGGLIYKGEITLGTYMALMSYSGTAKGSFMSLLNFNINMAPVMISIERLEKLLQLSQDNLKGEKPKEFSGDIELKNLDFYYEENNYILKEFELKIKRGEKLALIGESGSGKSTIINLIMGLYNPINGEIRVNGYELRELDKRYFRKKIGIVSQDSFFFSDNIRNNLLLGDKAKDEEIMRVCKICQIDKFINDSPNGLETLLEFGGTNLSGGQRQRLSIARMLLRQPEIIILDEATSALDNITEACILKSLEEELKTKTVITIAHRLSTIESSDRIIVLKDGVIVEEGTHEILLEKRGDYYNLQKLRSEDKANDENSA;locus_tag=LOCUS_00230;note=WP_012583190.1 ABC transporter ATP-binding protein (Dictyoglomus turgidum) [pid:28.5%25%2C q_cov:97.6%25%2C s_cov:99.7%25%2C Eval:1.2e-76],MGA_23
sequence1	MetaGeneAnnotator	CDS	34270	35331	.	+	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKTPHKIMKLIKSTVVLFLVVIIATLFLFQKTEYVEGNGIVIADRYNVYSPASGEIKRIEKDFGDIVKKGETVIEIDPKETENKYIENKIAMDNLFTELKIKEMDENQLDLEQKSYENNLELLEMDYINLEDEYKNSEFLYKKGEKSEYELKKSRYLLKKKKLEISDYKIKNNIKIKKNLIKKEKRDLKNQINYYENKGKDLKEEIKKCIVKSEYEGVTIITKDLKELMGSTVNKGELLFTLADLKNLKMIVTLQENAIGKVKDGQKVIIMLDAIPYEKFTTIEGEVIKLYPQAKDGMTYNKVEIIIKGFTNKLKKDKLKEINLKNGLKGKAKIIVKEKKIIAKYLWDKLFE;locus_tag=LOCUS_00240;note=WP_002208949.1 HlyD family secretion protein (Yersinia pseudotuberculosis complex) [pid:22.7%25%2C q_cov:79.3%25%2C s_cov:72.1%25%2C Eval:2.2e-10%2C partial hit],MGA_24
sequence1	MetaGeneAnnotator	CDS	35340	36221	.	+	0	ID=MGA_25;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVIILVIIIQSTIYSGTLEILKKEYNVINKEIKGYLENKELGYSEIELSKLYNSLFLKEIDIEEEKKNIKKEYLDYNNQIKIITKSLKFYSRKIREYITNLKLMKDNLENTKKSDIEELEYTIAYSNGEIKKLEKRKEYIEYMLKESEYNSGIKSIKREDYINKKYELFDKILKKELFLIKLEESGKQKQDLKEEEIEINKMKYKEELEKLKKEKLGKKKDLYILKIDVEILKRNLILKNKEVAVLKDKVEKGVSGYKKYLDKEQEVTELEIKKIEMEGNIKYLEMELEE;locus_tag=LOCUS_00250;note=MGA_25
sequence1	MetaGeneAnnotator	CDS	36218	37504	.	+	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQNFIKVIILMILFQTNLFAVEKINLEGVIKSFIEKSSYREKEKIEIKKLDIEKQGNVAEEWRKISFNINPIYNSYKNKDTNKYFGNTTLNFGYKMFYLNFNYDNSTDKLKRTIYKIGLSESLDDVIYSEQKYKKKLLKLKEKVTMNRLSSEKITEIKSIIELYADIKNIESEIDIKRKTLKNRNKEFENLKEKYKQNEAVKIDVDYMSIKIKEIKNNIVYLEESFENNSKKLLEKVGIKSRKKIVFEDISDVNIDKIGVNELEITSKGLEINSKEEEIKYSVIRSCPEVKLDVNYDIENKIWMAGVVFTGNVLESKTDIKTEKEELKKLKIEKKEIEAKRNRTEQQLEIEYQNLLNKKKILKDKRDNFGKRYLISKSVYKKGYMSLINYIKSQEDYEKAEMEYKKAKNELNAFKYKIKFGKKTFYI;locus_tag=LOCUS_00260;note=MGA_26
sequence1	MetaGeneAnnotator	CDS	37606	40290	.	+	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIISLFGILTLLLGCANNNVKMKKEVNKKIEKKVTKQKKKKEGLLVNLNKPIAEGTLRIHYYRTDGDYMKWGLHLWGNAIDFPVAWDSPLKFEAQDDFGAFKDIAIADSGKKLNFIIHSGGTKDVAKDRTFPSLKGVKEVWLLEGIEDAFLKKPDVNIKLLQSALLKKSNKLELILTNNKNLKKDDFIILNSDNKKIDISDLKLIGNKKVELTANFDLSKIYSIKYGDKKIGIRVAPELIDENYFYNGDDLGFTYKDNKATFKLWAPLAENVKLYLYDKNDQYKLISTDNMIKKDKGVWEYQQNIDFGNIVGYFYQYGVTINGKEKKVLDPYAKSMAAFEDKEKDLVGKAAIVNPSDYSVESYAKIPGYTKREDAIIYEVHVRDFTSDPNLKTKANFGTYRAFIEKLGYLKKLGVTHIQLMPVLNYYYSNELDQKRELKYSARGNNYNWGYDPHNYFSPEGMYSENPRDPNVRVEELKELINAIHNAGMGVILDVVYNHTAKTDIFENIVPGYYYRMTNDGNFKSKSGCGNDVATTHKMVRKLIVDSLRYWTKEYKVDGFRFDLMGLIDTKTIEDGYKAAKKLDSKTLFVGEGWKMYDGPDSTKGADQDWMNKTDDVAVFSDSYRDVLKAGGFHEGEKAFLTKGRQRVKDVFENIVGRATNFTADDPGDSVQYISAHDGLTWHDTVAYTVRLDSEKDKAEIYKRLKLGNLIVLTSQGVAFLHAGEEMGRTKEWKGKGKPEGENVGKFIRNSYDSSDIINRIDWNLAEKDPFGKNLVDYTKGLIAIRRSTDAFRLGTEELIKSNTKLIMSKPKKRKDFALGYLYKSTKGEEYYIFINSDKNERDFTIDADLTNAKILVDDDEASVNGVKKLTGVKIENNKIILSPLTATIIKK;locus_tag=LOCUS_00270;note=WP_164925492.1 pullulanase (Streptococcus suis) [pid:39.3%25%2C q_cov:95.1%25%2C s_cov:43.2%25%2C Eval:8.3e-181%2C partial hit],MGA_27
sequence1	MetaGeneAnnotator	CDS	40464	41861	.	+	0	ID=MGA_28;product=argininosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000041296.1;translation=MAKLWGGRFKNNTSEIMDKFNASITFDKRMYEEDIRGSVAHSKMLAKQGIIKEEEQKKIEEGLFRILEEIKKDEFEFLISDEDIHMSIEKRLIEITGTVGGKLHTARSRNDQVAVDIRLYLRKEIKEIEDLLKELQYVIVKKAEENKKVILPGYTHLQRAQPIVFGHHLMAYYEMIKRDLDRLKDCYKRVNQSPLGAGALAGTTFPIDREYVAKELGFEKATENSLDSVSDRDFIIELNFVISMIMMHLSRFSEEIVLWSTTEFGFVTLDDRYSTGSSIMPQKKNPDAAELVRGKTGRVYGNLMGILTVMKGLPLAYNKDTQEDKEGVFDSIDTVKLSLNVFVGMLETLKINEENMKNAIYAGFTNATDVADYLAKKGMPFRDAHKVVGEIVLYCEQNKKLISDMKLEEYNKFSELFEEDITEKASIEGCVRERKSYGGTAYVEVERQIENAKKELKIGGWNGNN;locus_tag=LOCUS_00280;gene=argH;EC_number=4.3.2.1;note=WP_000041296.1 argininosuccinate lyase (Bacillus cereus) [pid:57.4%25%2C q_cov:97.4%25%2C s_cov:98.1%25%2C Eval:9.2e-151],MGA_28
sequence1	MetaGeneAnnotator	CDS	41848	43035	.	+	0	ID=MGA_29;product=DUF438 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964839.1;translation=MEIIKNHEEKINKLLEFSKGMISGEDGKFLVDKYQKVIDEITPFDVIELEDRQIKMGITPAIIKNSIEKIMNIFYTPLENYNWEKPEEGNPLYYYMKENDKLKEILEEIKKEAIMKQDITKLKEYMVKIKEINNHYIRKENVLFPYLEKLWTNYTPLKVMWSLHDDIRKMLKNIDKLIEQNSSFNVEINKTVGEFFFLIYGMIFKEELVVFPVAMQTVPEKSWQEMMKEELGFEFSFIEKPIIKFDDEVKKDNMGNLKELFFKVETGELNKNQLELILNSLPIDITFIDENDEVKYFSKPKDRFFPRTPAIIGRKVQNCHPPESVNIVERILDSFKSGEKDSEKFWLKMRNKYIYIQYFAVRDDKNRYIGTLEVGQDITEISKLEGEKRLVDDTK;locus_tag=LOCUS_00290;note=WP_010964839.1 DUF438 domain-containing protein (Clostridium) [pid:36.1%25%2C q_cov:98.7%25%2C s_cov:99.3%25%2C Eval:5.3e-64],MGA_29
sequence1	MetaGeneAnnotator	CDS	43163	44422	.	+	0	ID=MGA_30;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583297.1;translation=MKKLVALLMVLFTSFVWAGEIKIGVIAPLSGPIAVYGQATVNGFKLAAEKINEKGGILGNKIKLIIEDNKGDAAEAVNAAKKLINLDKVVAVLGPVISTNSLAVAPIMQESKIPMLTPTGTNVKITEAGDYVSRVCFIDPFQGDVMANFAIDNLKVNSAVIMKDVNSDYSDGLGQAFKKRFEARGGKVISEISYAAGDVDFTSQLTKIKIKKPDVIFVPGYYSEVALIVKQARDLKINSTFLGGDGWDNGKLFEIAGSAINGSYISTHFSPESADPMVQNFLKDYNSRFGEAPSVLAALGYDGADVMFAAMNRAGEINSEKIKDEINKTTKFKGVTGVITLDKNRNAVKSAFVIEAKDGKFVYKTTVEPVVESTAKEVKQAATKEPVKAPKKSNSNNTVIIAIIAVVALFIGVSLVKKK;locus_tag=LOCUS_00300;note=WP_012583297.1 ABC transporter substrate-binding protein (Dictyoglomus turgidum) [pid:48.8%25%2C q_cov:87.6%25%2C s_cov:98.7%25%2C Eval:1.5e-101],MGA_30
sequence1	MetaGeneAnnotator	CDS	44670	45548	.	+	0	ID=MGA_31;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583298.1;translation=MTEFIQQLLNGLSLGSIYALIALGYTMVYGILQLINFAHGEIYMLGAFTAYYLVFYFKLNFILALVLSMIITAGIGVVIEKLAYKPLRNSSRVSALLTALGVSMLLQNLGLKIFGGDPKAFPQLIPNKPIFIGDLIIFNQQIVIVVVAIILMVILEIIVHYTKIGKAMRAVAFDKDAAKLMGIDSNMVISFTFAIGSALAAAAGVLIGMRFNRIDPLMGMMPGIKAFVAAVLGGIGSIPGAVLGGLIMGISESLVVGYLSSTYRDAIAFALLIIILIIKPAGLLGKNIKEKV;locus_tag=LOCUS_00310;note=WP_012583298.1 branched-chain amino acid ABC transporter permease (Dictyoglomus turgidum) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:3.8e-87],MGA_31
sequence1	MetaGeneAnnotator	CDS	45564	46409	.	+	0	ID=MGA_32;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583299.1;translation=MEVYITQILIIIAINIILAVSLNLINGMTGQFSLGHAGFMAVGAYTSAVLAKTYGVNILLAILVGAAVAGVVGFIIGFPVLRLKGDYLAIVTLGFGEIIRVIILNMKITGGAKGLPGIPGGINLLISYTFAIATVIIIRNIMLSSEGRAFLSIREDEIAAEAMGVNITRYKVLAFIIGAFFAGIAGGVYAHFYQFLKPDSFNIFKTVDILLMVVLGGMGSITGSIIAAIILTIVPELLRGFSEYRMVVYSLTLIILMIARPDGILGKKEITDIISFKKRGA;locus_tag=LOCUS_00320;note=WP_012583299.1 branched-chain amino acid ABC transporter permease (Dictyoglomus turgidum) [pid:50.4%25%2C q_cov:91.5%25%2C s_cov:83.8%25%2C Eval:8.3e-68],MGA_32
sequence1	MetaGeneAnnotator	CDS	46412	47173	.	+	0	ID=MGA_33;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017145.1;translation=MLLEVKELSKMFGGLKAVDNFSIEIKQNEIMGLIGPNGAGKTTVFNLLTGVYEPTMGYVKLLGEDVTAQKPYIITEKGIARTFQNIRLFKDLTVLQNVLVSKHFTVEYGLFGAIFRTKIYNKEEIRVRKEAEELLDRFGLLEKMNLPANSLPYGEQRRLEIVRALATNPKLLLLDEPAAGMNPQETAELMDLIKGIKDDFDISVLLIEHDMKFVMGLCERLVVLDYGKIIAKGKPEEVKNNPRVVEAYLGEAE;locus_tag=LOCUS_00330;note=WP_011017145.1 ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:59.1%25%2C q_cov:99.6%25%2C s_cov:96.9%25%2C Eval:6.7e-79],MGA_33
sequence1	MetaGeneAnnotator	CDS	47261	47965	.	+	0	ID=MGA_34;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_081214215.1;translation=MLKIKDLHVHYGNIHAIKGINLDVNEGEIVTLIGANGAGKTTTLRAISKLQSPSAGEINFLDEDITKMSATNIVKRGLIQVPEGRRVFSPMSVMENLELGAYLRKDKAEIKKDLEHIFNIFPRLYERKTQLAGTLSGGEQQMLAIGRALMSKPKLLLLDEPSMGLAPLLVKEIFEIVKDINKNQGIAVLLVEQNANMALKIADRAYVIETGKVVMKGNAKDILENADVKEAYLG;locus_tag=LOCUS_00340;note=WP_081214215.1 ABC transporter ATP-binding protein (Moorella thermoacetica) [pid:62.8%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:5.9e-79],MGA_34
sequence1	MetaGeneAnnotator	CDS	48164	48952	.	-	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKWGLLVCSIFSMLSLMALGGEFSGKTFKAAGDVGEWPPYEFFIRKNSKKTDKISGFTYDLLKTIAKNENFTINVRLLPWKRSKKYVETGKYQVLMDASINEERKKIYYYSEPIYTINSYYFYNIKKFPNGLDIKNKSDLKKYKVGGLLGYNYKTYGFNNTEIDTGAKNYTQLVKKLKKNRFDIFLAEYEIMKGFEYVGQKYLDSDIKFVKIQDMAPRKFYFLFPKTDLGLNLRNIFNKNIKKLEKSGELQKMLDKYLK;locus_tag=LOCUS_00350;note=MGA_35
sequence1	MetaGeneAnnotator	CDS	49192	51609	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMKRFAVKMMVLGVMLFSVLGCFNNALEDGVQKGELVENLALPPEEQGEMDRIQEEISRSFPLEVRNIDITRASNPSKRTIKATMKEVGRKYNIPYEILYGLALEESHLRQFKSNGKPLISRDKGYGLMQVTPWAVRTKFNTNSLAYDYRYNIEAGAQVILGKWRYITRRNPVGNNNPKILENWYFAIWAYNGFCKVNNPNYYKNGPHRWRNRHMSWVRYSAYQSEVLRGIRRHLNINITPIPMNKIPRYGIPKRGVRFSTPTSTHYTGNGSDENYPPKEKGWIKFDKEYKEAYKGATMFNVSTSINVKRVEVSLDDKYKRIKDVKNGKFDFTYRFGVLGKRDLKVIGYDKYGREIARLVHPIIIEEKPVENISYVKVNAKEIYYTGIEQEFIFEGSKDIVKIGLKINGENSGEILLKDGKGEMKGPFTQVGTFKVELVGYDKDGKVEATNSYNIIVREKSYIKMESKSEIYKENTTFNVEASNDIKEIEVSLDGKYNKRKAVINGKYEFSYRFGILGERTIKLVGYNANGEVVLTKEEKIVVREKSYIKMESKSEIYKENTTFNVEASNDIKEIEVSLDGKYNKRKAVINGKYSFSYRFGVLGERTIKLVGYNANGKVLLTKEEKIVVREKSYIKMESKTEIYKENTTFNVEASNDIKEIEVSLDGKYNKRKAVINGKYEFSYRFGVLGERTIKLVGYNANGKVLLTKEEKIVVREKSYIKILNNQYYYSRGRRYYFNGTTSSDIVKVRVTLDGKYPGVRYVRSGKYSFSYKFGVRGYRTIKVVGYDRKNKAVVSMIKRIRVR;locus_tag=LOCUS_00360;note=WP_011461044.1 cell wall-binding repeat-containing protein (Desulfitobacterium hafniense) [pid:33.2%25%2C q_cov:24.0%25%2C s_cov:30.8%25%2C Eval:2.2e-20%2C partial hit],MGA_36
sequence1	MetaGeneAnnotator	CDS	51976	52887	.	+	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNTRANAVLVLSMVLNIGLIIYIFNIQQKASQYKIKAKSNELILAKYKGKVFTQKMMDFEMKRLSKDYNNKDYKKFILESWIKNNIYADKALKEGLIKDDYLKYWLDKQKIEMLASEYLNNRLKKEVKITEIEIKNEYTNNPFYKKRPERRKVRHILIRVPYNSTKEEIEKYRKKAKLIRDRILKGAEFSIMAESYSDDKFSRKKGGDLGFISKGMFSEEFDKAAFSLKENELSPIIATPVGFEIMRIEKIELSKRQSFESVKEDIKKNLEKKKREKIYKEIEKDVMGKNKKDYKIYDEKL;locus_tag=LOCUS_00370;note=WP_010942716.1 peptidylprolyl isomerase (Geobacter sulfurreducens) [pid:34.7%25%2C q_cov:62.7%25%2C s_cov:58.9%25%2C Eval:3.4e-22%2C partial hit],MGA_37
sequence1	MetaGeneAnnotator	CDS	52980	53219	.	+	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNKKDYKIFTIRDYEWRRREDKREDKRINAETLREQRAAEEEFCRSGTCVFLWGNFTIIRGLNNEKEDVYSSTYFKC;locus_tag=LOCUS_00380;note=MGA_38
sequence1	MetaGeneAnnotator	CDS	53176	64833	.	+	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKMFIAALILSANLYSAEMSNYSFDGNKLNIGNKQIITQTVKKDGDSYILNGEFSFQGLVIGFENGVLTDKGLDISLNKEVVYKNYKLNIKNILISDKTIVNMSVNVGDREILVETDEKFSYFKFENSVINLDGFEIALENMKLSKEGLILKGEIFLPQLGEGAKTNISLNVNSDETYNGEIGNFKFSYNGENYEILNSDFSSNGLSLNSISKDKVVNFLIATSGVKIVDINSYNGVFNYNNFKIAYKKDNGKMYGILKVGENYIKLLNIETSGDKITKIGGFDISKFKIGDVVLNIKSLEITEAGLKLDGEVNGIETEIIVDNSGNLVSYTFSKKSYDIEYNGVKLNLTNLKFRNSGIDSNFNVKLGDNSLNGEINITESDINITKLNSSKIELNGVDFRIKNMDISKNGVVLNLDGNLASKLGGGKIVVDNLVIGNNGEITANDIKVENLSINGKEINLISAKIDKEAIYLKGYSFNSVINLKISRESVGVDEVGIDTKYEVGGYILKATSKYVKDDKVIVNGLLYLPDNLGVVELKNVEFDLNGKLLSNVDLSLNEIELDGYRVNIAGSYLDKDGVHLSGLLKLKDGGMLNLSELSINSDGDYIGKVSAQNISINGFEITGNGIIENGNISLAGIGKYGELTFNLNRLDYKNGKLENLDIQVRNYSFAGQNLDILSANFNKNGLEIKGVVRLSDEFSGNKIDVSGIFDKNGNLKIDYQRLEDKTLTYNGKSYENVEVVVKDNSIILTGEVQGLGFKNLIITKNGVSVETVSYKGKMNIKGYSIYVNSLYNNFDGSKSLDGYLILPNGVRAEINSLKLDNENNIIGEARVELSKINLNGYTVEVENCIFSNNGLKIAGTIDNRFHANLSIDYSGKVEGDLKLDSVSINGWSFENLSGSYNNGEMILNGSLNYFGTILKVENVILSKDLVSGKLILNKLNLYGLNIDVINAKLENGVVDINGKANYNGAEILLNLEADSNGAVKGNGSVKDLEYKGYKVNVYDLSATNDNLLIKGEIETETGKTGINMEFSSNGVKIKEISYATKGIIELSNGYSIEVEEAKVIDGKNSSIKGRVLIDGVGEIEVENLIIDLSNRIVKEGIIKDTNLNIGNGVLKLAGIKFDNNGVEIGSANYILNGASYRLSDFKVDRESGISGTISGENILFGGYTLKEFNGKLTNEKIVLNGTFKGITIKELEYNFKLKKFAFKSLNILTEIEYEGFKLHSVTLSFVNNKLNIKGDLELPESLTVASSMLKRGVTRGITTNKNKFSLNIVVDNDNSYRIELKNIPNLKYKGGVFEVTESYIDKDGITLTGKYNKNGNELKVAKLKIFKDGTIKFENIQYSGEKTINGYTLKIKDSTVDSNGNILINGAVVIDGVGEIEIQNLTITPSNEILVAGKIVAENLKIGGYNLAVKSGEFGKDGLTIISGELSNGNMSAEIERLTINRDGDYSGVVLIENLVYKGYKLSQFKGEFKNGIIIASGVKIEAGKAEIAINNLKIENGTVTIDKFRVGYYKLANLDMKVDNIKFVNGKIQFSGEADTTNGVLLFSNISISKSGDYSGKIEIKDFSYRNMKLESIKASITKDGVILNGILNSGNIQYEIAKLKVSKSGVELLDSIAIKGDTVIGGFPIKVEKIAYNKDGLKVINGELKLPNGMGAVKIVNLKVNPKTDKIVDELEINANLINLGGYSVNLKSVKLTDKGVVATGDFAYKGNKVYVKNLLITGDGKVTGDIGALDISAGALTIRSANTKITEDGFKIDGNVEFAGVVDGKISVKNLVITKKGDISVESINSDRLEVKGVIVENANLSFDKTGLNISGNLKIGDGYAKIERLTITKDGDIAGELALNSINYKGKTLEVARAIFTNSGVEIWGTYRDGGRVVDVEKLTVNKSGITDGIVDYKDIININGYSVLVKDSKYNFANNSFEVAGDIILPEIGKVEISNLNISFDGSKIIGEAEINAKELKLDGYTVEISKAKLNNSGFILEKGEVLFKNGVIGTINDLEIYENGDFNGDVAISNILLNGVEIKTVEAFISNREGIVLNGEAKLPKEFGNGKIEVVNVKLNREGILEKGKVIANSIAYKGFALENFNLEFGYGNLYLSGAVNSKYGKFAIEDLAIGKTVATEVNLSATNIGIDGLKMDIVKAKLTDDGIQITAKNSFIEIKDMIITKDGLKLVNAKVTNIEVADIFKLENAEVSYDSVKGLTLWSNISINSKYGAIKSQIENVKITENGLESFNLETEADLDINGTKLTIEKIKLDKNRIIAYNSTLEGKIFNGGKTTLKELRIDKDGNIYSKIADSYLNIEGYKVFVDSVEFTNNYLKVENAGVELADNAGTITLKNLDVDFNGKLLKRAEFTVAELKLKGMTLNNVDLAFSQDGLEITNGKLIFDKLGGEFTIDSLKVGKDKRLSGKLNLNSMNYKGFNLTNATVEYENNRFVMSDVELSTNTTKIKLKELSFNLNGEVELTDNIVEVAGNIIKVSNFAINSEGIEGTGEIDLDSKVVNGKIKIENMKIGHDGRVYGKVIVSNMKVNDMNLKLASSEFVGDGIVLNGELISAGMAYKVVNLKISKDGVQLLGAVSVSGDSVIAGYPVQVENVSYDSTGKIAIINGILKLPNNVGVFKINSLKLNTETGEIVEEAEVSGKIATFNGYKVELSKLRFDNSGFYMSGDILFPYGTIAKAENIKVTPEGEISGKISAENIKFNGYEVKSTAIEVKDREFILSGDMKLPGNVDGTIKLKGLHIGFNGKVKVDSFVATGLKAYGSEINVTNVSFDDTGLKLAGDIKLPETVGGAKAELKNLHILRDGTFVGNISVGKVNYKNSSIEIETANFSNEYLILSGKLANNSAGELTVKRLMVARTGKVSFDEISYQGTVNVSGYPVYITSSVYNPSEGAYTINGELNLNGGIVKINNLQVDTLGADAKIVKAGEIEIGNINIGRTLIKSTKAVLDKDGVKLDAKFIVDGVGEFEGKDILIKPDGTYEGELTAKDIKVRGYKLDVVSVKLNNNGFAINGQLTIPKEYGAGVIALNNLQLDYNGGFEEIAVALNNIEVSGYNLKNATFYFNRDNGMVINATLKVPNNGLVSIENIELTSDMKLRGGKAAVKDIKVGSSVIKVVSINFVKEGIELAGDFERENSDGTNLKIGVEKVLVAKSGIDVSGAYIKNAKLGDFTVSIDKFDFTDKDGMILDGTIVLPKSAGNGIVMVKGIRIDGAKNFSIDEISAGHITIGNYVIKNVKLTFINNELNLAGDGYVETGNGTVTYGVDNILISKSDIAIDKLTIQNVDIDGYHFDVNNFSFKENKLYLSIKGGLPYGVVIGVKNLIIGKDSFDLDGMSVENLKVGDWKVDVKEISYIKGKFLLDSRIKLPKTVGGNTAKLKIELSKESMAVNAAINKITVGDYSIAIRNIGYKDGEFILAGTVKIPGSYGYLTGNIDNMIITKDGFSNGVVSIGADLNIKGLKLYLNQAKLTTDGVVIEYAKFAVAHISDIELGAGIGVKNLVINYNGDIDGELVGASVKIGGFAVGFENAKLKSTGISIVKAGIMLPSPFNTGVSVKNLIINGNGITMQGGKVSLPNITVGGYNLSGISAEFAYTPVGWRVVGDGVLGIPGYFDVEVGFIAEKDGLKQLSAKSSALMIPLGNTGFEISNMGLGVDLTKYRAVGIVKVSAYGTLEPVVDKGIIKTLEGDLTLDISTNGTAKGTKLEGRGDVTIVGFPMADAGVAIDYYGVYGDGELDPFGLGALSVKGDFKVLYTGQVYMKNSGNLTILGRNFVNTSMELKYDDSFYMFAKAGIDVPLKGKVLWSRFDFSTKFDGKFGVYPRTEYKGGYAKGDAHGTQYMRLGFIHMSPSMKMDFYANSNRLDFNSRLVDIRWSRGHYPRLSFF;locus_tag=LOCUS_00390;note=WP_010886297.1 autotransporter outer membrane beta-barrel domain-containing protein (Rickettsia prowazekii) [pid:20.4%25%2C q_cov:44.8%25%2C s_cov:69.4%25%2C Eval:6.2e-13%2C partial hit],MGA_39
sequence1	MetaGeneAnnotator	CDS	64875	65009	.	+	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWEKRGGVIGDNILIVAVSTITEGVSEVKEGYLNILVQDIKGSI;locus_tag=LOCUS_00400;note=MGA_40
sequence1	MetaGeneAnnotator	CDS	65210	65770	.	+	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAEKDYCLDKSFEINNNNFNSIRNIKHKTALMLIYSCGLRISEAVNIKTADINIDRGLINIVKSKGNKDRVVTLSKQFLIKLEEYKKIYKPKKYLFEGGNGVEKYSTRSIQSVFKKALKDANVKRNYTVHSLRHSYATHLLEKGTDLRIIQELLGHKSSKTTEIYTHVSNKLLAKVVAPFDDIEL;locus_tag=LOCUS_00410;note=WP_011964234.1 site-specific integrase (Flavobacterium psychrophilum) [pid:56.2%25%2C q_cov:86.0%25%2C s_cov:46.1%25%2C Eval:1.8e-44%2C partial hit],MGA_41
sequence1	MetaGeneAnnotator	CDS	65929	66663	.	+	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQDLKSIMLSYIAGLLTSGTVAFISRKCNSFEECIMALKILVKARKEVRLSVSYLFRIEIENKYLLIKGNRIEQFQPVGGVYKAYRSAEGLFKKIEVKKDNGIDIDGASENDLRIKVKSKNVLSFIRWFKERKNREINVNREFYEELVVSNFIDKSVLETFSPEYLKTVYTDLKYSTHFKCYEILIYDIFEIKLDSQYEEMLKNEINTKRGNLILATDDEIESENIKIDGISKKIGEHSKYII;locus_tag=LOCUS_00420;note=MGA_42
sequence1	MetaGeneAnnotator	CDS	66680	68158	.	+	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIEYEDINDFFNEISNDLDIPDSYYEKADKSYKSLGSFLLRDDSLIKEYAPDVFLQGSFKLGTMIKPISENIHYDIDLVCKLSNINKNEITQEDLKKKIGKEVKQYVKTKNMINEAIDGKRCWTLNYHDEAQFHMDILPCLNNRRTFEELLEKYSMNTDYKEEAIAITDKNSIYYKVISDEWETSNPKGYYRWFMKKMNFEDKKRKFAEQLMESVENIPDYKVKTPLQKAAQVLKRHRDYSFKGKKDKPSSVVITTLLGLTYNGSENILDIISNMIENIHLFLIEKDGRYYLTNPVNPLENFTDKWNTNKKRAFFRWINTVSEDLLFYNKKINYYGDNVIDKMKEIYNIKKSKYIKGSSELIKKEKHIKRTKWNMLNKTEVDIIAYKKESKDIISKRFKSGEIVKKSSDLKFKANAKNIKDYEMFWRVTNTGYDAEIENNLRGDFYESEIIEGDKVREEKAKYFGSHFIECFLIKDNDCYGKSDVFVVNIL;locus_tag=LOCUS_00430;note=MGA_43
sequence1	MetaGeneAnnotator	CDS	69122	69784	.	+	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTSINLQELRKRIYFKSKEEKAKEVTKQKGKYYELDYARFADDLVVTVSSHSSMRRLLSKVIERLKEEFEKIEVTINKEKSRVVDLKKGGVINFLGFTMKRRRNKSGKWGILTIPQSKKRKGLLEKIKELIRRHRTLGIFQILVNELNTTLRGWVNYFSIGNSSKCFSYVRNYVEKKLRRYLMKQRGKKGYGWKKWSNDWLYNEIGLFDNYKVKYIPE;locus_tag=LOCUS_00440;note=WP_011108208.1 group II intron reverse transcriptase/maturase (Bacteroides thetaiotaomicron) [pid:26.6%25%2C q_cov:77.7%25%2C s_cov:29.0%25%2C Eval:6.2e-11%2C partial hit],MGA_44
sequence1	MetaGeneAnnotator	CDS	69959	70363	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKLLIIKITLWWGIVADLFETIRMIFPQLFIKTTGATLSLNDGIRFTLLYGAPVMLGWIIILFWASRKPIDRRGVFLCLMPVIISYFIVEIMSVNLGRLSLNQTIPTFILQSVLLSLTIISYIFAREMSKKR;locus_tag=LOCUS_00450;note=MGA_45
sequence1	MetaGeneAnnotator	CDS	70517	71143	.	+	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERDLLIKTIIEKANNLNDSETIKKFYNNEFNDYYKINYQTLKSEPKIYSLITISKLNRGGRSRKIKNISINLGDTITALVGFISGGIGSTLDNQYGIFFNIFSGVSVLLTAISTINKTIDLKIGVKEGITMWVLHCLKYKQSPEIKGDLTVDNIFLNVNMLLKKYDMNDLKMGDLELILDNLKLMNCVEKSNNNWIPCEIVILETPK;locus_tag=LOCUS_00460;note=MGA_46
sequence1	MetaGeneAnnotator	CDS	71164	72186	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLAKKHFFETFPNKHFQEEFSNVYAYGIKEQINSGKLTEEDMYVDTLENFYLRVKNRSLNYSNDYLTDILLEKIFHNIPQEISKEITNTFVGVSVFDSSLNAYAYQQFDDSSYLIVYTTSLMNKISIVLCIITCYICERNYHFNLNTLKELFLEQLTSDYNEMINIQEIIDDLLKTSLIHVREDFDRIFGKLHEYSTCFVLGHEIGHHFFLHTKNIDLKENLNILSENIKNNHINELYCDKFSAFITFETFAKDQKNSALEIIGIVSALLALTLEENFYEHSTTHPSFKNRFDMVFNYFNERFPDYKLKEHISDFFLCCDLFYDKDFLDDRWWENYYS;locus_tag=LOCUS_00470;note=MGA_47
sequence1	MetaGeneAnnotator	CDS	72293	73579	.	+	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKVDLNIKSIFYKGEFLVINAEFINNDNIIAFNFKDIYIKIIGKNGDDVVTTIINGENLNKLLLKANEKKDWIFEVENPNYTDISKYKWETNLQFLFKENTSETEEIENENSQTITNIEKEGESLMEEGKSTIKSKFEYDVAFSFAGEDRKYVEKVAEQLKDKINIFYDKFEEIDLWGKNLYTHLNEIYSKKSKYVVMFISEHYSKKLWTNHERQSAQERAFNENKEYILPARFDNTEIPGVLKTVGYIDLKKIDEIEFSNIILKKIKKYKEEEVPEKNSKKNEKNISLNQKIYKSDIELYNKIKEIIKNSVEFSKDWDFGSPHRDNSLNGLFHIELQFESPDFEFINEKLEIIKKELFESIKKFILSVSINTFPKGNGFQEIPYEWSYEQPELFEKTRNEINSLADEMWKKYCNFVKMGRICLEL;locus_tag=LOCUS_00480;note=MGA_48
sequence1	MetaGeneAnnotator	CDS	73712	74389	.	+	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILVFVKEILPYGVFVFLAIWFGDQIKILIPKISKLIFKDNQVVFDQAKKSEQDVINRYICKKCSNLVKMGSLCAKCGEKIGEENTIDLLVYTKAIHAIEKCVCPVCGNGILGKTTYVCPNCGFGFEAKGKKSSTFQVLKREIGVLATIYLLLGAFIFPAIIYILVEKYLYIDLTKNTFGVIIYFVGAIIPVLLIAINLNKDERRERGLYRIVKKYKKIESDAN;locus_tag=LOCUS_00490;note=MGA_49
sequence1	MetaGeneAnnotator	CDS	75806	76849	.	+	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDRAMQALYSLALDPISESTADKNSYGFRKCRSTNDAADHIFKCLAKKDSAQWILEGDIKGCFDNINHKWIIDNIPLNKKILKQFLKAGFIYKKDVFPTKEGTPQGGIISPILANMTLDGIEKMIKLKYWTSPSGNSINRKYNSKNRINFIRYADDFVVTSRSKEILEDIKSMIKEFRETRGLEQSETKTLITHIDIGYDFLGFNFRKYKGKLLIQPSKKSIKNIVKKIKSVVKKHTTSNQDELIKSLNPIIRGWCNYHNSICSKLTYQKLDRHIFFYLWRWAKRRHQDKSKQWIKDKYWKTISTRDWIFSDGENKLMFATETKIIRHCLIKGNANPYLREYDDYY;locus_tag=LOCUS_00500;note=WP_048122254.1 group II intron reverse transcriptase/maturase (Methanosarcina vacuolata) [pid:57.1%25%2C q_cov:98.0%25%2C s_cov:67.3%25%2C Eval:1.9e-107%2C partial hit],MGA_50
sequence1	MetaGeneAnnotator	CDS	77112	78530	.	+	0	ID=MGA_51;product=Eco57I restriction-modification methylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002263383.1;translation=MIPKCQIFTPLEYVTKLLDIAEYKEFLYGKKILENSCGNGNILVEIVKRYIADCIEKGFLLDEIKNGLENDIYAFEIDLAHSEECKRRLNEIVNFYNIYEVKWNINNNDYLKNIDNQKFDFIIGNPPYIMYKELDNETRKFLKEKYKVCENGKFDYCYAFIEKSIKDLKTNGKMSYLIPGSIFKNVFGKNLRNFLLPHINEIYDYSEKALFTNVLTSSTILNLEKDSNNDEIIYHNIIMENSKKIQKIKLGEKWIFHNIKFSSSKKKFGDYFKVSNSVATLSNKVFIIDKYEEVDENYIKVEEFLIEKTLLKKAASPKGMSKNKNEYIIFPYYYTNENKIKRYSEVDFVKRFPEAKKYLISRIEELEKRKSDKNSSWFEYGRSQALNHLNQDMLILSSIITGNAKIYDIDKEYIPYSGFYITKKDKYGLEVAKENLMSKEFLNYVKGIGISASGNSKRITVKDIAEFPLFKI;locus_tag=LOCUS_00510;note=WP_002263383.1 Eco57I restriction-modification methylase domain-containing protein (Streptococcus mutans) [pid:45.3%25%2C q_cov:98.7%25%2C s_cov:99.1%25%2C Eval:8.3e-107],MGA_51
sequence1	MetaGeneAnnotator	CDS	78560	80713	.	+	0	ID=MGA_52;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_209627475.1;translation=MKKLLFTIEDKAIAELFGRQNFSTKESAIFELVKNSYDAGSKECIVEIKQTENEEFIKIIDFGCGMNEEDIKKNWMHVGKSNKGYIDEKISKRVLAGAKGVGRFALARLGDEIEMTSQKLDSYPIIWKTNWESSSILNLPNKIKSGTEIKIKTLREKWKEKDKDKLIEFLSRAYYGNEMKISVIYNETKEEVQELFSKLKMGINYTSKILLDYVSEDNTLNIEVVSDEFKKEVQEISNDFNILNFNMTKDMSEELSSNILKEEFTKETLTDVGSFKMELYFAMDRVPVDATEKFMYKHGTLIDPIKSGIILYRNAFSISSLEGKKDWIGLGARARKSPAAATHPTGAWRVRANQLSGFVQIDKKRNNFLIDLANRQGLEENEYYESFLKIIDSGIKEFERYRQNIIRVIDKKNKSLTELEPKKTKIMDRFIKNPKIIERLPKKDIKKLATEMETIKKTVTQQTKESKEKEARYKYDVRILNSLATQGLKAGATAHEFHADRNKLAKGTTLIIDALKKYEYWEELKSPDKTKFAYANVPQLLLSLDKINKKLGIFLDTILKKMKKDAFTSPIKSLEKELKFIINNWKKDYEWLEIKLNGKNIELDKYSFTADVLDVIFDNLILNSIQNNQLKDKLIIEIDYLIKNNVINFSYKDNGIGLNKKYLKNPFKILEVHETSRKDGHGLGMWIINNTLQMYGGQIDKILNDDGFKLEFQFIGG;locus_tag=LOCUS_00520;note=WP_209627475.1 ATP-binding protein (Streptococcus oricebi) [pid:25.5%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.2e-41],MGA_52
sequence1	MetaGeneAnnotator	CDS	80717	81343	.	+	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKEIIKICYIDDDFDVQLSKYLVENYIVDKKDNIEIDYSEYKFNTEDNYKKLLKKDIVKQANIILIDSRLFENMSNKKTKFTGEKFKIILRQIYPFIKTVVISQNETTEESSVVSKFKQAESKGISFVEHYDDNLKKILDENIKFILEERKTLEELNDDEFIDELLLETIDKTFNGLESYSEFEKKELDNLIEVFEEVRSHYDNQK;locus_tag=LOCUS_00530;note=MGA_53
sequence1	MetaGeneAnnotator	CDS	81327	81962	.	+	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKNDYRNTSYTLVDFSIDDKKEKFMKEFRKKHKRAKNVYTIVKEKQNEFNRPFREIYNNRCVYCGVTNQIITDSNFEVDHIFPKSKEGETSINVNGIDNIASACKTCNRGKSDYTCKDENFDKINPDKNFLPHIFFREKDYSIQIKTDYILNDDIKALYNALEFGTQLRRIDYLVMQLKDFCEKYSEESIIEKMNKIISKLEQNRREIY;locus_tag=LOCUS_00540;note=MGA_54
sequence1	MetaGeneAnnotator	CDS	82495	83316	.	+	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNIELSNQLERIKIDSSRLFINKEVDCSYCLIKKGRKWIFFFTERGERREEKTFKDEDSACNYALNFIKNMYLETDTKERLKNNPVLIRNCIEAINLLRNNDVIIDDGLLKKEISEIENKYNIVFPPDLREFYSYGLPVSKGFINWRNSDPEYIKTIKERLSWPYEGIIFDIKNNKFWIEEFGEEPTEIDEKIRKFSEYFKKVPKLIPIYGHRYIPIEPYEENNPIISVYQTDIIFYGENLFDYFKIEFGKKNYEVDYNKVKKIRFWSEVVE;locus_tag=LOCUS_00550;note=WP_013230911.1 hypothetical protein (Amycolatopsis mediterranei) [pid:32.6%25%2C q_cov:65.9%25%2C s_cov:93.2%25%2C Eval:5.2e-27%2C partial hit],MGA_55
sequence1	MetaGeneAnnotator	CDS	83549	83986	.	+	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIIIKKIWNDDDVIEFEIYLIDENFKFRTTVYTGNFEISETYKKLIEFGSLIPNKKSLIELGGFGEKYANGAISLELQCNSRGIIHLEIEMETEFYEFNKRNISDKLLCHKKTDPALYDKFVKNFKRIEKFELGEEIEFELI;locus_tag=LOCUS_00560;note=MGA_56
sequence1	MetaGeneAnnotator	CDS	84027	84563	.	+	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEIKILEDLSKSGEYSEYNFGKTNDLLWILFLNLETGEEWIGKFDIGIRNKSKIKIFQNNTAIILARGNIYIVNCKIKKVQYIFEYDDYEDIEIDLVNNYIIITDGLYISVHDKNGKFIKKTKRISLDGIEFIEIKNGKVYGRLNDLTFEWCDFKYNIVENEVISKWSFIAKILRIG;locus_tag=LOCUS_00570;note=MGA_57
sequence1	MetaGeneAnnotator	CDS	84782	85867	.	+	0	ID=MGA_58;product=Fic family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_049613991.1;translation=MKIDLEKPFNELPLLSPNIQLETINILKQLAKSHKALAELKGYSELIPNKDILINSIILKEAKVSSEIENIVTTHDSIYKALVSKETFIDRNTKEVLNYRSAIWKGVSLIKENDILTTNMIIEIQKELEKNDAGIRKVPGTSLKNDKTGEVIYTPPSGEAIIMNLMSNLEKYINQDSDVDDLINMAVIHYQFESIHPFYDGNGRTGRIVNVLFLVLKDLLESPILYLSNYIIKNKFDYYKLLQEVKTNGNWEEWIIFMLKAVEETSIETLSMIRGIKDLLDKTIEDVKEKAPKIYKKELVELLFYHPYTKISFLVEEGFAARKTASLYLKELESIGILEGIKIGRETIYINKKLFELLRQS;locus_tag=LOCUS_00580;note=WP_049613991.1 Fic family protein (Yersinia) [pid:47.4%25%2C q_cov:97.5%25%2C s_cov:95.4%25%2C Eval:1.6e-88],MGA_58
sequence1	MetaGeneAnnotator	CDS	86057	86665	.	+	0	ID=MGA_59;product=YjjG family noncanonical pyrimidine nucleotidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080184.1;translation=MKAVILDMYGVILKEPGEGFISHVHKTFSELDESVIFKYIDMADVGTITSLEMFEALGYKGDLEAIEKEYLDTIKIDESFYDFAKNIKKKYKLGLISNDSSRWSEYLRSKYKVNELFDSISISGDLKYKKPDPRIFNHSLSNLSCLASDCIYADDRRYNMEAANAVGIESILFNSRKVEYTGKQVSSFQELTKHIMYVLKIL;locus_tag=LOCUS_00590;note=WP_004080184.1 YjjG family noncanonical pyrimidine nucleotidase (Thermotoga maritima) [pid:25.3%25%2C q_cov:86.1%25%2C s_cov:88.0%25%2C Eval:2.7e-07],MGA_59
sequence1	MetaGeneAnnotator	CDS	86719	86889	.	+	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYNLIVQGQGFSLGEKTSPLQAISYIVYISCKSCIALKIKQGGLNCLVLVFFEDN;locus_tag=LOCUS_00600;note=MGA_60
sequence1	MetaGeneAnnotator	CDS	87124	87432	.	+	0	ID=MGA_61;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEVKNIKKEFKTYKRKPGFVGSLKGLFNKEAVITNAVDDVSFHIAEGEIVGYIGPNGAGKSTTIKIMTGILTPTSGECKINGKIPYKERKEYTKDIGVVFG;locus_tag=LOCUS_00610;note=WP_000843645.1 ATP-binding cassette domain-containing protein (Bacillus) [pid:55.9%25%2C q_cov:100.0%25%2C s_cov:30.3%25%2C Eval:1.5e-28%2C partial hit],internal stop codon at [87430:87432](+),MGA_61
sequence1	MetaGeneAnnotator	CDS	87460	88134	.	+	0	ID=MGA_62;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEESFLILKEIYEVEDDLYKERMEFLDSVLELNKFISSPVRTLSLGQRMRADLAAALLHNPKVLYLDEPTIGLDIIAKANIREAIKGINAKYKTTVILTTHDLDDIENLCERMIMIDNGKKIYDGEIKAIKEKYGEIKKIKIDVKNIDEFEKLDFRKEFNLEKEDLKLNIEKNSLIIEFNRKKSSVSDIISYILKKIDVLDINIFETEIEEIIRKIYKNEVEMN;locus_tag=LOCUS_00620;note=WP_000061734.1 ATP-binding cassette domain-containing protein (Streptococcus) [pid:46.6%25%2C q_cov:98.7%25%2C s_cov:65.5%25%2C Eval:4.8e-51%2C partial hit],internal stop codon at [87430:87432](+),MGA_62
sequence1	MetaGeneAnnotator	CDS	88131	88946	.	+	0	ID=MGA_63;product=ABC-2 family transporter protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001080087.1;translation=MKKIKIYLPFLTSVFQRMLSFRINFFMFTFGGFLETFIIFYLWKAIFISSGKNMIEGFSLNDMLIYVFMSGMIVRLVNSRVVRDVGEEIRDGSIAMNLIKPISYRGRHLFQAIGHSLFQFIFIGIPLWIGVELYRGLVLKENMIGLVTIFYFLISVILSFLLMFFLNFCVGILAFFVINIWGLNHLKGTVISFLSGELIPIAFFPLWAKGVMKYLPFSSINYTPVMIYLEKYQGNIMLEKIFLQLFWVIIMFVISNLLWKKSISRLTVQGG;locus_tag=LOCUS_00630;note=WP_001080087.1 ABC-2 family transporter protein (Streptococcus) [pid:39.9%25%2C q_cov:97.8%25%2C s_cov:97.4%25%2C Eval:4.2e-61],MGA_63
sequence1	MetaGeneAnnotator	CDS	88952	89743	.	+	0	ID=MGA_64;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000170564.1;translation=MKKYFKLYRMFLAQYLKGLMEYRVDFFIGLLGFFLVQATGIIFIYLIFQRIPNLNGWSFYQVMFIYGFAQLPRGLDHMFTDNLWALSGRIVAKGEFDKYLLRPINPLFHLIAEVFQPDAFGEIIVGIFLVAVAAGKLGISFSILNILFFILVIVFSTIVYTSIKIIFASLAFWIKYSQAIVYMVYSLSDFAKYPIKIYAGWLQKILTFIIPFAFTAYFPAGYFIGKINFVYAAIGTVLAGVLSFMVAYLVWLQGIKVYESSGS;locus_tag=LOCUS_00640;note=WP_000170564.1 ABC transporter permease (Streptococcus) [pid:49.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.4e-79],MGA_64
sequence1	MetaGeneAnnotator	CDS	90072	90764	.	+	0	ID=MGA_65;product=aspartate/glutamate racemase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011263461.1;translation=MKTIGLIGGMSWESSAEYYRIINEIVKNQLGDLHSCKSIMYSVDFAEIEKLQHDGKWNELTSIMIKAAQSLESAGADNLIICTNTMHKMANEVQESVRVPLIHIADATGECINKKGYKKVGLLGTKFTMGEEFYRGRLEEKFGIEVLVPSEEDQKVVHKIIYDELVKGVINEQSRKEYKNIIDKFRSQGAEGVILGCTEIPLLIKQEDSSIEIFDTTMIHAKAAVESVLR;locus_tag=LOCUS_00650;note=WP_011263461.1 aspartate/glutamate racemase family protein (Aliivibrio fischeri) [pid:57.5%25%2C q_cov:98.3%25%2C s_cov:96.6%25%2C Eval:4.7e-73],MGA_65
sequence1	MetaGeneAnnotator	CDS	91125	91256	.	+	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFINIYFGIKYYENHSNKLKVKEIMTIFERYGHKGIDYYKKI;locus_tag=LOCUS_00660;note=MGA_66
sequence1	MetaGeneAnnotator	CDS	91270	92022	.	+	0	ID=MGA_67;product=nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012027810.1;translation=MYPILEFDEERKSVINPEDFIEKLENCEYCVITFFKEVLDKLNNEGELKLKSMHYSEMGEHPLYEIEFEGKKIGVYLSGVGGPLAIGMFEEVIAHGYTKFIACGSAGVLDKEIATNKIVIPTSAIRDEGISYHYLPASREVIGNEETIITIEEVLKSKGISYLKGKTWTTDAFFRETIEKVKKRKEEGSVTVEMEAASFMAVAEFRGIKFGQILYGGDDVSGEYWDTREWKDKSVREKIFWLAVEACSKI;locus_tag=LOCUS_00670;note=WP_012027810.1 nucleoside phosphorylase (Streptococcus suis) [pid:38.6%25%2C q_cov:98.8%25%2C s_cov:97.7%25%2C Eval:2.6e-43],MGA_67
sequence1	MetaGeneAnnotator	CDS	92332	93276	.	+	0	ID=MGA_68;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003429183.1;translation=MKILVLGGTQFVSWYFVKRFLENGNDVITLNRGTKKGVHGHKIEEIYANRHNAEELNTALEKIEADYIIDVSGYTVSDVKNSYEAVKNKNIEGYIFISSSAVYKESEIFPICEDFSVGENKFWGKYGTNKLEAETFLIDKFKQNEFPAVILRPPYIYGEGNNIYREGFIFDRLKEEKTVVIPNKGKTLIQFIHIEDLFQTVCKIIERKIKGEIFNVGNYEGITFKGWVESCMNAFGKETKIIELDYEKYKYNPRDFFPFYDYQYYLDIRKISDIYTPQISMKEGLEKSLKWYLENEDKVMKRNHYYENSEKIIK;locus_tag=LOCUS_00680;note=WP_003429183.1 SDR family oxidoreductase (Clostridioides difficile) [pid:34.1%25%2C q_cov:95.5%25%2C s_cov:95.2%25%2C Eval:1.5e-47],MGA_68
sequence1	MetaGeneAnnotator	CDS	93311	93592	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGVIRNDKSYVLIPFKDINKDGKYELKEIIKYRDIIKKARKAKIDFDKRINWSRKNKKIEGIINFNNPRYPAIFQFIAVDSNDGIINVNMKE;locus_tag=LOCUS_00690;note=MGA_69
sequence1	MetaGeneAnnotator	CDS	93611	95446	.	+	0	ID=MGA_70;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNLNLVTGLVLVLMAFGCSNVKKQAITKEKKAPKVKKVITQKVDLKKYRIDNIEGMKFDDFVKILKGSEIKNRQNIVDANFDLLLKSNSFPIIKGELVTFVYKGKTNKVDVTGDFTNNFSGKIPLEKIKGTNLFYKTIKIYINSAVEYKFVVNGSYVNDKLNPNVSNNSYKNSRLLMPEYQLVSERKNRDNIKKGTIVKEIFENKSLISDKNLKRRVQIYLPYNYTEGKKYKVIYFTDGKEYLKDGNAKNILDNMIFDGEIEPVIGVFVDSIERESEYIYNTRDEYIKYFVENMMPKIENKYSVSKNRNDRILVGDSFGGDFVVYLSYKYSDKFKNVICQSGNLMSLYAKGFNSATTVGKFATKESIYNEISQNSNYPVKMFITYGDYEIIGKNSKVLYNLLKKNKTVDSVKLVSYPQGHGFSLWGDTLKEGLIWIINNKNINKKVVEKKEEKKVDVNIEWYTQEKQNKIRDKKKYYFAIGKRSKELFKYSSGDEIVADILNSDRYIELKPEVDNKITIEFPNEDYSKYFIFPFYDINGNGKVDREDILQQSYTKEHILGAGFSYFTIKDWLYYVGLTVFKYEDKVVPFFDYNFIDTEENSWIYIYPFF;locus_tag=LOCUS_00700;note=WP_001076848.1 alpha/beta hydrolase-fold protein (Bacillus) [pid:28.3%25%2C q_cov:24.1%25%2C s_cov:60.9%25%2C Eval:7.6e-10%2C partial hit],MGA_70
sequence1	MetaGeneAnnotator	CDS	95976	96551	.	+	0	ID=MGA_71;product=flavodoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392158.1;translation=MKIAIINGSPRSDENSGFIAKKANEYLEKLGAESSIINVNEVLKDLEFPFCTACTTPCIQKCENNSPKLKEAFDILRESQGVIMISPVYFGTVTGQLKAFWDLGRHLRNEKALYKKPGIAVAVGASRFGGQETTVRTMIDMMLIQGMSVTGDGFDDNLGHQGVCFQKKSSDDLEGVKSLERGTKRLLEILS;locus_tag=LOCUS_00710;note=WP_011392158.1 flavodoxin family protein (Moorella thermoacetica) [pid:43.7%25%2C q_cov:99.0%25%2C s_cov:94.0%25%2C Eval:2.3e-42],MGA_71
sequence1	MetaGeneAnnotator	CDS	96587	96952	.	+	0	ID=MGA_72;product=chemotaxis protein CheY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081049.1;translation=MGNKVLIVDDMLFMRVTLKKMLEEVGFEVVAEAENGEDGIAKYKKFLPDIVTLDITMPEMNGIEALEEIKKINPDVKVVMISAMGQQPNVIKAVKLGAKGFIVKPFKIEKIKEAMLPLMEK;locus_tag=LOCUS_00720;gene=cheY;note=WP_004081049.1 chemotaxis protein CheY (Thermotoga) [pid:57.4%25%2C q_cov:95.0%25%2C s_cov:95.8%25%2C Eval:1.1e-33],MGA_72
sequence1	MetaGeneAnnotator	CDS	96972	97931	.	+	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKIYRDSNFTIHIQLKEQLKGLILNNILENGMQLPTVRQLGEFLRINKNTVSKVYKELEVEGYVYSVKGRGTFVSNTDKPQKTREFLKVVDSMLNMGIKNSISLEEIWGIVYSRSQHYKVLQGDIKKRKFAFIECNDISTKDFEKMLKLELPDVEMDGILIEDLQNNYEKVKKEVEDIQLIVIPYIHYEEVKKELKNLGKEVIIIGTNQTLKILTSSKKIKNKIVGVIGFSADDEIAISRQFNKIDVKEFNYYGGLDEVGEDKLRPFLRKVDSLIICSSIIEDIVNKLKPKKPYVLFEGKYDKNDFKPLVEIFSHKK;locus_tag=LOCUS_00730;note=WP_000548042.1 GntR family transcriptional regulator (Bacillus) [pid:37.1%25%2C q_cov:30.4%25%2C s_cov:69.8%25%2C Eval:1.7e-11%2C partial hit],MGA_73
sequence1	MetaGeneAnnotator	CDS	98083	99153	.	+	0	ID=MGA_74;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965121.1;translation=MAKKPSKVDSNKEKALDAAIKQIRKGFGDGAIMKLGENTKMNIDVIPTGSINLDLALGIGGVPRGRVVEVYGPESSGKTTLALHIIAEAQKKNGVAAFIDAEHALDPEYAKNLGVDIEELLISQPDTGEQALEIADMLARSGAVDIVVIDSVAALVPKAEIDGEMGDSHMGLQARLMSQALRKLTGTLSKSQTLMLFINQIREKIGGFGSFGPNETTTGGRALKFYASVRLDVRRVGRVKQGEDIIGSEVKVKVTKNKVAPPFKEARFEIMYGTGISRAGEVLNMAIDHDIVSKSGSWFSYGDMRLGQGRENVKARFIEEKELFAEIEKKVYEKLMPIEQEEVKDELLENNEDNKE;locus_tag=LOCUS_00740;gene=recA;note=WP_010965121.1 recombinase RecA (Clostridium) [pid:65.9%25%2C q_cov:93.5%25%2C s_cov:95.1%25%2C Eval:2.8e-125],MGA_74
sequence1	MetaGeneAnnotator	CDS	99116	99700	.	+	0	ID=MGA_75;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNCLKITKIIKNKVYFTNEEKEEILNLNKYLLYKYKIVIGKEISIEDFDKMVEELIREKAIYLLSRRDYSEKELKLKLKEKYNYSEKIDKVMSVLLERGYIDNFRYAVNFIENKKFGYIRMKYELNLKGISEDMISKIYEISDFDEKEFLKYHLKKVKNRDREKKIAYLMRRGFKFEDITKMIGRDEDEYSDSI;locus_tag=LOCUS_00750;note=MGA_75
sequence1	MetaGeneAnnotator	CDS	99678	100655	.	+	0	ID=MGA_76;product=deoxyguanosinetriphosphate triphosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392159.1;translation=MNIRTQYEELELKILSKYASKSKDCKGREKEEELCEIRTIYQQDRDRIIHSKSFRRLKHKTQVFISAYAGDHYRTRLTHTLEVSQIARTIARGLRLNEDLTEAIALGHDLGHTPFGHSGESILNKLASFGFKHNEQSLRVVEKLERKGKGLNLSFEVRNGILNHTGDITPQTLEGQIVKIADRMAYINHDIDDAIRAKLLKIDEIPKEYLDILGYKHSDRINTLVKDMIFSSYEKGEIAQSKTIKTAMLGLRSFLFSNFYLKDEIRGKFKKAEKIVELLYDYYMENPNKIEIGFEDGEIERKVVDYISGMTDIYAINKFKEIYLP;locus_tag=LOCUS_00760;note=WP_011392159.1 deoxyguanosinetriphosphate triphosphohydrolase (Moorella thermoacetica) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:9.6e-98],MGA_76
sequence1	MetaGeneAnnotator	CDS	100670	101761	.	+	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLNIDNVEKGMDIGESIFDDKGKLLIKSGTTLTDRIIKKLKLENKKTIKILEEGEKGAEETDSVGMSFLNGLKNRYGSIKNIKDNKNSSKEKKNSLKNKTSLVSNKRGSTDKNKKAPIVSIIRKDTKVSEDEVKILNEFLKELKKDLKKIVLEIKEEGTIIKFNLNEKILKIFNNIITKKTVLKALKNLKKYDEYLYLHAIYVSLVSMVTGEKLGYDIRILQSIGIAGLFLDTGMSSVPKEIINKKALLKPEEREIVNKHPAKSYAILSKVSIATEIAKEIVLNHHERVDGTGYPKKKNKEKLSEYVKLVTIIDVYHALRSDRPYHKAKNSKEAFFTIFMYKGKQFDADILAELVKLQGGN;locus_tag=LOCUS_00770;note=WP_010963797.1 HD-GYP domain-containing protein (Clostridium) [pid:32.1%25%2C q_cov:51.5%25%2C s_cov:53.3%25%2C Eval:1.0e-26%2C partial hit],MGA_77
sequence1	MetaGeneAnnotator	CDS	101761	102498	.	+	0	ID=MGA_78;product=lysophospholipid acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000616588.1;translation=MLRTIYVYTAGILYLIMTFLIQLPIVLFVYYFVSKEKGIKVARKYAKKWGKNLIGSTGCEVEVIMKDKNLKEKIENETIVVVSNHQSNFDIPLLLEYFPKDIGFVAKKEMEHWPILGAWMKMIQCVFLDRSNPREGIKSIKEAVKKIKTGYSIVIFPEGTRSKTGEIMEFKKGSFKLATDSKVKLIPVTIKGTNNIQVKGSMKIQKAKVKIIIDNPIDVKELDRTELKELNVKVKDIIEKNYRGN;locus_tag=LOCUS_00780;note=WP_000616588.1 lysophospholipid acyltransferase family protein (Bacillus) [pid:43.7%25%2C q_cov:77.6%25%2C s_cov:77.8%25%2C Eval:6.9e-41],MGA_78
sequence1	MetaGeneAnnotator	CDS	102620	103237	.	+	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKITKKELLLNASEKLMSKKGYEKTTVEEITNEAGVAKGTFYIYFKSKEDVLFELLESRLVLYKEQFEKVRDKGVTLYEKILNLTIFNIEIAKKQSDFFMIYVREIFKAEENEFNNKLKKELFKLENSGSKLMIGIFEDAIKKGEIKIKYEERLEDIVSIFNFMRNHIIRKRFFIEKKNLTLEEVESEAKFLIDIYFNGIIEEVQ;locus_tag=LOCUS_00790;note=WP_011460829.1 TetR/AcrR family transcriptional regulator (Desulfitobacterium hafniense) [pid:35.5%25%2C q_cov:52.2%25%2C s_cov:53.5%25%2C Eval:3.2e-11%2C partial hit],MGA_79
sequence1	MetaGeneAnnotator	CDS	103238	104602	.	+	0	ID=MGA_80;product=TolC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005791704.1;translation=MKKIFMVLGIVIVSFNTFAMELSVEKAVGMALKKNIEIKKAEIDVENAKLQVKEAIKGSLPKIGYSFIYNKQQDKISMNQLVGGTKFVGNTLTGIPVYSDGTVKNLEIANSDNIYMHTLTLTQPIYNGGLEIAGIKNSKLAENMSKYNLTKKEQDLKVQIIEEYINIIKLKHQKNILENSIKEMKENREKLNEMYKEKMITKTPILDIEYAVINLEGNMIGVENGIEISKEKLKNDIGLDESEDIKVSELSNISVDFDKINLEDDIQKALDKGISVKLIENMTKLQKASEAIQMAGLLPKINFQFKYSSPTGAFKISDSVKLEDWNWSAGVSFNMDVWDWGTNLSKLKRAKNETKKKKYDEENAKENIKLGIKSKYLELKKLKKMLESKNKAMESAKENYQLEKQKFEYSIISTTDLISAENKYRSSEIDVDNTKLDYYLADLKYKNMIDGEVK;locus_tag=LOCUS_00800;note=WP_005791704.1 TolC family protein (Bacteroides fragilis) [pid:21.5%25%2C q_cov:97.6%25%2C s_cov:97.9%25%2C Eval:1.3e-27],MGA_80
sequence1	MetaGeneAnnotator	CDS	104603	106015	.	+	0	ID=MGA_81;product=efflux RND transporter periplasmic adaptor subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017032.1;translation=MKNIKKILIGVMAINLLFVYGCGKNAKKEGVKTEKIVVVRTVELKKMELSKRIEVGAEAKPFKEVVQITETGGDVKKVDTINGRWVKEGETIVELENTQIEASYMQAKAAYLNAKANYERTEKFAKDQLLNRLAQARFALTSAKMNLEKVTKGARQEDLDRATYGVETAKKNYEVMKSTYEKNKKLYEKKLISEQAFLNIENGYKSSENGYKSAKKGLELLKKGAQVEDRNTLKEAVKNAEDGYNLTKKMVDGKSWKYDIQAAKSGYIQAEAMYKLAKKNYNDLTVKAKISGVVINLDLKEKNRVNPMTPLFRIVNNDDMVLEVGLAESEIEGVQKFNKVRVKVKAVNSEYEGQVYEINPAADPKTKKFKVKIKFKNVGHKIKKGMFANAIILAGKHEALVVPKAATVVENLSTYIFKEEENRAEKIKVKLGDSNDRYQEIISDNISEGDKIIVEGQFILNDKDKVKEVK;locus_tag=LOCUS_00810;note=WP_011017032.1 efflux RND transporter periplasmic adaptor subunit (Fusobacterium nucleatum) [pid:12.4%25%2C q_cov:98.7%25%2C s_cov:98.1%25%2C Eval:9.0e-45],MGA_81
sequence1	MetaGeneAnnotator	CDS	106016	109051	.	+	0	ID=MGA_82;product=efflux RND transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017033.1;translation=MKWLSSLSIERPVTTIMLIVTMIALGLVSLVGLPVELMPNLNFPVITVATGYSGVAPQDMEELVTKPIENAIESIEGVKTMTSSSKEGMSHVVVEFEWGTNLDSKSIDIKDKINLIKRMLPSDIDDPIVSKRNIMKNEVAMKLNLSGGNLSDLKKIADDVLKPKFERIPGVGSVDIYGGLDKEILVKVDPYKLESYGLTVDSLINLLRTASVNMPAGNIKEGGKEFLVRILGKAESVNDIKNIVISNKNGNTLYLKDVVDIMLGTEDRDNYNRFNGKESISLNLIKESGGNTVSIADNAKKMMKTLKNELPEGVKLTIGQDKSTYIKDSMSMVRDSALMALVLAAIILFIFLKNIRATLIISTAIPTSIIFTFVLIKYKGISMNLLSLGGLALGVGMLVDNSVIVLENIYRHLTEYKKPVIEAARDGAAEMGLPILASTATTVAVFLPVAFTKGIAGEIFRDFSYTVAFSLLASMIVALTFVPMISSKILKEGRETNKEGKLFVKLKEKYSKWIGIALSNRWKTLGIAVFIFAIVITAGIKFVGLDFFPSTDSGEYTVTATLPTGFDLEKANKIGKKIEKIVKANKYTKKYITQVTKKTIIVDVETPSKDLRKVSIEDISSNIREKMKNIPDITYTVKGSSRGGGGGGAAIQVSIQGDNYVILEKLSNKVKEKIKSLKGIVDVESSFEGGNPEVRIKINREKAEYYGLNISYISSIINSKMAGIVPLKIQSSGQDIKVKLILKKEYRDSIKKLEDILISTRNGETVRLKEIANFEQGEGPTQILREDKRREIIVSANNSGISLGNATKEITKAINGIKFPSGYSYKFGGSQKSMMEAMQSLVVAFLIAIFLVYMILASQFESFILPAIIMISVPFSLVGVYLGLMITGFSLSITVMIGIIMLAGIVVNNAIVLIDYINLLKAREIDRHEAIKKAGKTRLRPILMTTTTTVFGMIPLAMGIGASSDFYQPLAISVIFGLSVSTLLTLIVIPVLYSLFDDFHIWYMKKRGKAE;locus_tag=LOCUS_00820;note=WP_011017033.1 efflux RND transporter permease subunit (Fusobacterium nucleatum) [pid:38.4%25%2C q_cov:98.5%25%2C s_cov:97.7%25%2C Eval:5.7e-210],MGA_82
sequence1	MetaGeneAnnotator	CDS	109071	109367	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKGIRIVYDSVIEDRILKILKSENIEKYIKFPKLEGVWGKELRHLNSHIWPGTDGIIFLMLPEEKSVTVLDKFRNFKKKLEIDVPFMIVVSPIEEII;locus_tag=LOCUS_00830;note=MGA_83
sequence1	MetaGeneAnnotator	CDS	109440	110618	.	-	0	ID=MGA_84;product=homoserine O-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943101.1;translation=MKNLTGKQLREEKFPPNLPETINLKHGKFTFATGNSEFPLLKLESGMKFGPITLDYETYGTLNKNKDNAILICHALTGNSHVAGRLDKDSETGWWDPIIGPGRPLDTNKYFIVCSNILGGCSGSTGPNSINPETKEPYAMKFPTITIKDMVETQKILLEKHFGIYHLKSVIGGSIGGMQALQWGVTYPDFMDKLVVIAATSKLSPQSIAFNKIGRHAIMIDPKWNGGNYYKEKRLLDGLALARMVAHITYLSDEAMQIKFGRKHANITEYFDFDEKFEVENYLDHQGYKFVKKFDANSYLYLSKAMDLFDISRDFNSLEDALDNIKAKEILIMSFTSDWLFPSYQSQEMSNILKEKEKNVEYHEINTYSGHDSFLIEYDKINPIIDNFINKD;locus_tag=LOCUS_00840;EC_number=2.3.1.31;note=WP_010943101.1 homoserine O-acetyltransferase (Geobacter sulfurreducens) [pid:50.9%25%2C q_cov:89.0%25%2C s_cov:94.0%25%2C Eval:3.4e-103],MGA_84
sequence1	MetaGeneAnnotator	CDS	110845	112254	.	+	0	ID=MGA_85;product=sigma-54 dependent transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896128.1;translation=MEKTSLLVISTNKELQQNLRKELKEDYEVITFDNLLDGLDMLRESDFEVMLLDENLNWFTFDEAMKKVKGIGKDIFVLGLLSDENPARIKEIKMAGIYDYILKPINKREFDRLIDHVLNNIEILKEKRDLEKKLLIIEKEEEMIGQSNSIKQLKQMIEKVALGDTTVLILGENGVGKELVAKEIYRRSPRYRKPFITLNCAAISSNAIEAELFGYEKGAFTGANLSKKGIIEEAHTGTLFLDEIGELDVKTQAKLLRVIEYGELRRVGSSKTLKVDVRFIAATNKKLEDEVRRGNFRKDLYHRLTNFPIYVMPLKDRKEDIPLLVNYFLNKIVEELHKDMIVFSGEAMKYLIDYNYPGNVRELRNIIERIVILSNDRVISVEDLPLELKMKSDTLENKVVIGLGPLKQILEKEIYELAEVERVVIGMALQRTRWNKQETAKVLGIGRTTLYEKIKRYNLDRRLIEKEMM;locus_tag=LOCUS_00850;note=WP_005896128.1 sigma-54 dependent transcriptional regulator (Fusobacterium) [pid:53.0%25%2C q_cov:98.1%25%2C s_cov:99.8%25%2C Eval:3.9e-141],MGA_85
sequence1	MetaGeneAnnotator	CDS	112258	113658	.	+	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFNLVQSYILKLPKIEELKDIPQIKILIEGYSERIVDEYLSKILEERHKKIVKSDVEEDLKKMDFSIDYYIKELKKGIEIEKGKSLKKVINCMGTIYSDYIGNRFYSKEVLDNFSKVFFEYTNMELDEENGKKTDIDSDFEKLLVQLFAQKNCLLVNNMGSAFYLLVDTIFKDKNIILSNSDWLYFSELKYGISDVIKNANGKIKIAGYLNDINIENYIELIEEKDDLCLYSEMFNGKKEFVSNVKEDEFQALKEKSKTVYITDKVYIETESNAIKKIGYDIKTVLEKKYDFYILELSKLGNFPPVGIIFADEESIEKMKKNFIYSLISLNKEMKVLLYFSIKLYLEKKVNKVWINETLAEDRVKDKNIKFIKNIEGKLFEKAEIELVETKQFSFFESMGDSKNENREFIKIYPLKKDVYEAEKELRVGYPIVLCWVVEDSLLLNIDLLKNEEIEILNKKLLEVL;locus_tag=LOCUS_00860;note=WP_012048015.1 L-seryl-tRNA(Sec) selenium transferase (Clostridium botulinum) [pid:24.6%25%2C q_cov:72.5%25%2C s_cov:72.3%25%2C Eval:1.5e-20%2C partial hit],MGA_86
sequence1	MetaGeneAnnotator	CDS	113838	114206	.	+	0	ID=MGA_87;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545079.1;translation=MPTINQLVKKGRKKIEKAKATPALQSNPQKRGVCVRVYTTTPKKPNSALRKVARVKLTNGIEVSAYIPGIGHNLQEHSIVLVRGGRVKDLPGVRYRIIRGTLDAAGVSDRKQARSRYGAKKK;locus_tag=LOCUS_00870;gene=rpsL;note=WP_012545079.1 30S ribosomal protein S12 (Thermodesulfovibrio) [pid:79.3%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:2.1e-51],MGA_87
sequence1	MetaGeneAnnotator	CDS	114229	114699	.	+	0	ID=MGA_88;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005888149.1;translation=MARRRVAKKREVLPDSVYGDKIVTKFINGIMKDGKKSLAENIFYTAMDKIKEKTGEEGIDTFRKALENIQPLLEVKSRRIGGATYQIPIEVRPERSQTLAIRWLVKYTRARKEYGMIDKLASELIAAANEDGATFKKKEDTHKMADANRAFAHYKW;locus_tag=LOCUS_00880;gene=rpsG;note=WP_005888149.1 30S ribosomal protein S7 (Fusobacterium) [pid:74.8%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.5e-63],MGA_88
sequence1	MetaGeneAnnotator	CDS	114720	116795	.	+	0	ID=MGA_89;product=elongation factor G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015672.1;translation=MARQVSLQKTRNIGIMAHIDAGKTTTTERILFYTGITHKIGEVHEGAAEMDWMEQEKERGITITSAATTCFWKKHRINIIDTPGHVDFTVEVERSLRVLDGTVAVFSGVDGVQPQSETVWRQADKYKVPKMVFINKMDRVGADYFMCMNDIKEKLGANPVPIQLPIGAEDYFEGIVDLVTMKEIVWETEDMGANYTVQDIREDLKEQAEEYRDKLLESISEVEDDLMEKYIGGEEISEEEIRAALRKGTIDNTLVPMLCGTAFKNKGVQTLLDAVVEYMPSPLDIGAVKGTDPKTEEEIDREPSDDASFSALAFKIMTDPFVGKLAFFRVYSGVLDKGSYVLNSTKGKKERIGRILQMHANKRNEIDKVYAGDIAAAIGLKGTTTGDTLCDESNPIILEKMEFPEPVISVAVEPKTKKDQEKMGIALQKLAEEDPTFRVKTDEETGQTIISGMGELHLEILVDRMKREFSVEATVGKPQVAYRETIKGNARVESKYIKQSGGKGQYGHVWIDVEPLERGKGFEFVNKIVGGAIPREYIPAVEKGIVEALEGGILAGYAMQDVKVVLFDGSYHDVDSSEMAFKIAGSMAIKNAAKKANPIILEPIFDVEVVTPEEYMGDIIGDLNSRRGRIEGMEDRAGAKIVKAKVALSEMFGYATDLRSKSQGRATYVYRFDHYEEVPTNIAKEIIEKRS;locus_tag=LOCUS_00890;gene=fusA;note=WP_011015672.1 elongation factor G (Fusobacterium nucleatum) [pid:74.1%25%2C q_cov:99.9%25%2C s_cov:99.7%25%2C Eval:1.1e-299],MGA_89
sequence1	MetaGeneAnnotator	CDS	116853	118037	.	+	0	ID=MGA_90;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903497.1;translation=MAKEKYERTKPHVNIGTIGHVDHGKTTTTAAISKILADKGLAEKVDFENIDQAPEERERGITINTAHVEYETEARHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVYLNKADMVEDEELLELVEMEVRELLSEYQYPGDDVPVIIGSSLKALEGDKKYEDKIMELMAAVDEYIPTPTRPLDQPFLMPIEDVFTITGRGTVVTGRVERGIVKVGEEISIIGIKDTVKTTVTGVEMFRKLLDQGQAGDNIGVLLRGIKKEDVERGQVLAKPGSITPHTKFKSEVYVLKKEEGGRHTPFFAGYRPQFYFRTTDITGSIKLPEGVEMVMPGDNIEMEIELIHPIAMEKGLKFAIREGGRTVGAGVVATIME;locus_tag=LOCUS_00900;gene=tuf;note=WP_005903497.1 elongation factor Tu (Fusobacterium nucleatum) [pid:81.1%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:9.3e-186],MGA_90
sequence1	MetaGeneAnnotator	CDS	118109	118420	.	+	0	ID=MGA_91;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897308.1;translation=MSSGKIRIYLNAYDHKLLDQSAQKVAETAKKTGAKIAGPLPLPTKTKRYTVLRSVHVNKDSREQFEMRIHRRMVELLSSNQKTIAALTALSLPSGVGIEIRQA;locus_tag=LOCUS_00910;gene=rpsJ;note=WP_005897308.1 30S ribosomal protein S10 (Fusobacterium) [pid:69.6%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:5.9e-38],MGA_91
sequence1	MetaGeneAnnotator	CDS	118467	119096	.	+	0	ID=MGA_92;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015720.1;translation=MLGLLGKKIGMTQIFEDGKTIPVTVVEAGPNYILQKKTEEKEGYNAIQVGFGTKSEKNVNKPMMGIFKKANVGPLRFVKEFKVDNVDEFELGQVVKADALSEIKYVDVVGTSKGKGYQGVMKRHNFGGNRKTHGVSRAHRSPGSIGQSSSPSKVLKGLKMAGQLGGVQVTVQNLEVVKVDVANNLLLIKGAVPGPKNGLLVIKPAVKKY;locus_tag=LOCUS_00920;gene=rplC;note=WP_011015720.1 50S ribosomal protein L3 (Fusobacterium nucleatum) [pid:69.7%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:7.0e-78],MGA_92
sequence1	MetaGeneAnnotator	CDS	119120	119755	.	+	0	ID=MGA_93;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904141.1;translation=MPILDLYNMQGDKTGTIELKNEVFGIEPNKTVLHEVLLAELAGSRQGTAATKTRAMVRGGGRKPLKQKGTGRARQGSIRAPHWVGGGVTFGPQPRSYEQKINKKVKKLALRSALSEKVNEGNLVVVDEFNFDAPKTKSIIAFNTKVGADKKQLFVLNDLAGDKDWNTYLSARNLKDAVILQPNEMGVYWLLKQNKVIITKDAISTIEEVLA;locus_tag=LOCUS_00930;gene=rplD;note=WP_005904141.1 50S ribosomal protein L4 (Fusobacterium nucleatum) [pid:70.0%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:3.4e-80],MGA_93
sequence1	MetaGeneAnnotator	CDS	119755	120042	.	+	0	ID=MGA_94;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015719.1;translation=MTIYEMIRKPIITEKSELLRREFNKYTFEVDKRVNKLEIKNAVEKIFGVTVESVATITSKPKTKRHGMKLYKTPLKKKAIVKLKDGDNIKYFEGV;locus_tag=LOCUS_00940;gene=rplW;note=WP_011015719.1 50S ribosomal protein L23 (Fusobacterium nucleatum) [pid:63.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-28],MGA_94
sequence1	MetaGeneAnnotator	CDS	120070	120903	.	+	0	ID=MGA_95;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904139.1;translation=MPIKKFKAMTNGTRHMTMLVNPDLDKNVRPEKSLTVPLKSAYGRDNYGHRTGRNVQKGHKRLYRLIDFKRNKLDIPAKVKTIEYDPNRTANIALLVYADGEKRYILAPEGLKQGDTVLAGAGADITPGNAMKLKDLPVGTRIHNIELQPGKGGQLARSAGVYGRLVAKEGTYCHVEMPSGELRLIHKECIATIGVVGNGEHQLVTIGKAGRNRHMGRRPHVRGSAMNPVDHPHGGGEGGAPVGRKSPVTPWGKPTLGKKTRGKKLSDKFIVRGRKKK;locus_tag=LOCUS_00950;gene=rplB;note=WP_005904139.1 50S ribosomal protein L2 (Fusobacterium) [pid:76.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-120],MGA_95
sequence1	MetaGeneAnnotator	CDS	120921	121193	.	+	0	ID=MGA_96;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001829710.1;translation=MARSLKKGPFVDDHLMKKVEILNKESKKQVIKTWSRRSTIFPDFIGHTFAVYNGKKHVPVYVTEEMVGHKLGEFSPTRTFRGHGKDAKKK;locus_tag=LOCUS_00960;gene=rpsS;note=WP_001829710.1 30S ribosomal protein S19 (Bacteria) [pid:82.0%25%2C q_cov:98.9%25%2C s_cov:96.7%25%2C Eval:6.8e-39],MGA_96
sequence1	MetaGeneAnnotator	CDS	121209	121550	.	+	0	ID=MGA_97;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897300.1;translation=MEAKAIGRYFRVSPQKARLVADLVRNKNAEEALNILKFTNKKAAPLIEKVLKSAIANAVNNFDMDEEKLYVSTIYIDKGPFLKRIKPRAMGRADRILKKTSHITVCVGEKKEG;locus_tag=LOCUS_00970;gene=rplV;note=WP_005897300.1 50S ribosomal protein L22 (Fusobacterium) [pid:68.5%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:1.2e-35],MGA_97
sequence1	MetaGeneAnnotator	CDS	121555	122211	.	+	0	ID=MGA_98;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005892367.1;translation=MGQKVDPRGLRLGITRTWDSNWYADKKSYANYFHEDLKVRNFIKKNYYHAGIAKILIERTSPSQVVIAIYTAKAGILIGRKGVEIEALKKKLEKLTGKKIIVKVQEVKQPNRNAQLVAEGVAFSIEKRIAYKRAMNQAIRRAEKSGAQGIKVSVSGRLNGAEIARAEWSLSGRVPLHTLRADIDYATAEADTTYGKIGIKVWIFNGEVLPKKAEGGQK;locus_tag=LOCUS_00980;gene=rpsC;note=WP_005892367.1 30S ribosomal protein S3 (Fusobacterium) [pid:71.1%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:5.2e-87],MGA_98
sequence1	MetaGeneAnnotator	CDS	122212	122643	.	+	0	ID=MGA_99;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904138.1;translation=MLMPKRTKYRKQMRGRLKGKAHRGNYVAFGDFGLQALEPHWITNRQIEACRVTINRTFKRTGKVFIRIFPDKPFTQKPAETRMGKGKGNVEGWVGVVKPGKILFEVSGVTEELAREAMRKAAHKLPIKVKFVKRENGGDVNEG;locus_tag=LOCUS_00990;gene=rplP;note=WP_005904138.1 50S ribosomal protein L16 (Fusobacterium) [pid:76.1%25%2C q_cov:97.2%25%2C s_cov:99.3%25%2C Eval:1.9e-58],MGA_99
sequence1	MetaGeneAnnotator	CDS	122633	122836	.	+	0	ID=MGA_100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKANELKALAAEELVNKEKELKEELFNLKFQLSLGQLTNTTRVRQVRRDIARIKTILGERELVNKEG;locus_tag=LOCUS_01000;note=WP_011015718.1 50S ribosomal protein L29 (Fusobacterium nucleatum) [pid:79.5%25%2C q_cov:58.2%25%2C s_cov:65.0%25%2C Eval:2.7e-11%2C partial hit],MGA_100
sequence1	MetaGeneAnnotator	CDS	122841	123098	.	+	0	ID=MGA_101;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904137.1;translation=METRNDRKVREGVVVSDKMDKTVVVAEVRMIMHPLYKKRVKSTKKYKAHDEENICKTGDKVRIMETRPLSKDKRWRVVDILVKAK;locus_tag=LOCUS_01010;gene=rpsQ;note=WP_005904137.1 30S ribosomal protein S17 (Fusobacterium nucleatum) [pid:68.3%25%2C q_cov:96.5%25%2C s_cov:98.8%25%2C Eval:6.1e-27],MGA_101
sequence1	MetaGeneAnnotator	CDS	123118	123486	.	+	0	ID=MGA_102;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869919.1;translation=MIQQQTVLNVADNSGAKKIMCIRVLGGSKRKFGRIGDVIVASVKESSPNGNVKKGEVIKAVVVRTRKEIRRADGSYIKFDDNAAVIIDENKNPKGTRIFGPVARELRTKDFMKIVSLAPEVL;locus_tag=LOCUS_01020;gene=rplN;note=WP_012869919.1 50S ribosomal protein L14 (Thermanaerovibrio acidaminovorans) [pid:76.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.6e-49],MGA_102
sequence1	MetaGeneAnnotator	CDS	123504	123848	.	+	0	ID=MGA_103;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897291.1;translation=MAKPKIKFVPNKLHVKTGDTVYVISGKDKGKVGKIVKVFTKKGKVVVEGINIVTKHMKPTQMNPQGGVVEKAAPIYTSKVMLYCDKCGKPTRISKKVLDDGKKVRICKHCGEVL;locus_tag=LOCUS_01030;gene=rplX;note=WP_005897291.1 50S ribosomal protein L24 (Fusobacterium) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-33],MGA_103
sequence1	MetaGeneAnnotator	CDS	123866	124420	.	+	0	ID=MGA_104;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005892302.1;translation=MAEKYVPRLMEKYNKDVVPALMNKLGIKNIMAVPKIEKIVVSIGVGEATQNSKLIDAALSDLRTITGQQPIVARAKKSEAGFKLREGVAIGVKVTLRKEKLYEFLDRLIAIALPRVRDFEGVSANSFDGRGNYTLGLREQLVFPEIEYDKVEKIFGMSITVVTSATTDAEAKALLDEFGMPFKK;locus_tag=LOCUS_01040;gene=rplE;note=WP_005892302.1 50S ribosomal protein L5 (Fusobacterium) [pid:69.2%25%2C q_cov:98.9%25%2C s_cov:99.5%25%2C Eval:4.6e-69],MGA_104
sequence1	MetaGeneAnnotator	CDS	124437	124619	.	+	0	ID=MGA_105;product=type Z 30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459104.1;translation=MAKKSMINRDARKKQRVQHRNRCKICGRPRGYMREFEICRICFRKLAGEGKIPGVKKASW;locus_tag=LOCUS_01050;note=WP_011459104.1 type Z 30S ribosomal protein S14 (Desulfitobacterium) [pid:68.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-18],MGA_105
sequence1	MetaGeneAnnotator	CDS	124639	125037	.	+	0	ID=MGA_106;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904135.1;translation=MYFTDPIADMLTRIRNANSASHEKADMPFSKEKEAIASVLKAEGYILNYKVIEKNNKKDLRIYLKYGVNNEKVIKGIKRISTPGRRAYSGVKEMPKVLGGLGIAIVSTPKGIITGKECKKENVGGEVLCYVW;locus_tag=LOCUS_01060;gene=rpsH;note=WP_005904135.1 30S ribosomal protein S8 (Fusobacterium nucleatum) [pid:63.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.4e-44],MGA_106
sequence1	MetaGeneAnnotator	CDS	125063	125596	.	+	0	ID=MGA_107;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904134.1;translation=MSRVGRNPITVPEGVTVEINGSNVSVKGPKGKLENAFNENISIKQEAGQVIVERPNDTPQMRSLHGTTRALIANMITGVNQGFTKTLELIGVGYRVAAKGKGLTLALGYSHPIEILPIEGITFKLEGNTKINVEGIDRALVGQVAADIRAKRAPEPYKGKGVKYSDEVIRRKEGKKA;locus_tag=LOCUS_01070;gene=rplF;note=WP_005904134.1 50S ribosomal protein L6 (Fusobacterium nucleatum) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.0e-62],MGA_107
sequence1	MetaGeneAnnotator	CDS	125616	125984	.	+	0	ID=MGA_108;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904133.1;translation=MYKRIDRNANRLKRRYRIRKIVSGTAERPRLAVFRSLNNISVQLIDDIKGHTLLSASTIDKELKSEVKNGSNVEAAKLVGKKIAERALAKGMKVVVFDRGGYLYTGRVKALADAAREAGLEF;locus_tag=LOCUS_01080;gene=rplR;note=WP_005904133.1 50S ribosomal protein L18 (Fusobacterium) [pid:65.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.9e-39],MGA_108
sequence1	MetaGeneAnnotator	CDS	126003	126512	.	+	0	ID=MGA_109;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015714.1;translation=MRRDRKNSEKDSNLQEKIIRINRVSKTVKGGRRISFSVLAAVGDGEGSVGLGLGKANGVPDAIKKAIAVAKRNMVKMSFKGHTIPHEIIGEFSSTKVLLKPASAGTGVIAGSSARDLLELVGVHNILTKVMGSKNRLNVAKATINGLQNLRTPEAIAALRGKTVEEIIG;locus_tag=LOCUS_01090;gene=rpsE;note=WP_011015714.1 30S ribosomal protein S5 (Fusobacterium) [pid:62.7%25%2C q_cov:95.3%25%2C s_cov:98.2%25%2C Eval:3.2e-52],MGA_109
sequence1	MetaGeneAnnotator	CDS	126525	126707	.	+	0	ID=MGA_110;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005892817.1;translation=MAGKLKIKLVKSIIGRKPKHVGTVKSLGLKKLNDVVEQNATADIIGKINQISYLLEVEEV;locus_tag=LOCUS_01100;gene=rpmD;note=WP_005892817.1 50S ribosomal protein L30 (Fusobacterium) [pid:68.4%25%2C q_cov:95.0%25%2C s_cov:93.4%25%2C Eval:3.8e-16],MGA_110
sequence1	MetaGeneAnnotator	CDS	126711	127157	.	+	0	ID=MGA_111;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000766081.1;translation=MKLNELAPAQGSKKNRKRVGRGESSGVGKTSGKGSNGQKSRSGSYIHVGFEGGQMPLIRRVPKRGFSNYRFKKEFAIVNLKTLEERFEDGAEITPEILLEAKAIKKLSDGVKVLSKGDLTKKFTVKAHKFSAAAKEKIEAVGGKVEVI;locus_tag=LOCUS_01110;gene=rplO;note=WP_000766081.1 50S ribosomal protein L15 (Bacillus cereus group) [pid:64.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-46],MGA_111
sequence1	MetaGeneAnnotator	CDS	127159	128436	.	+	0	ID=MGA_112;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904128.1;translation=MSMLQNFSDKIMGINKIPDLRKKVIFTLIMFLVARVGTHIPSPGVDVARLTSMVNTNDILGFINMFSGGAFKRVSIFALGVMPYINASIVVQLLTVIVPQLEEMQKEERERAKIVQWTRYLTIIIGGIQGFGVSIWLQSMGLVYNPGFLFLFTTVTILTAGTVFLMWLGEQITVNGVGNGISLIIFLNIIARMPAALIQSVQKMSGSKFFIIEISFLILIVVAITAAIVAFQLANRKIPIQYAGKGFGGKNSIASKTYLPLKINTAGVIPIIFASVLLMLPAMLVKALPNTDLRVFLERIFSTTSPVYLTLYAALVIFFTFFYTAIMFDPEKVAENLKKSGGTIPGIRPGSETVDYLEKVVTRITFGGAIFLALIAIVPMLIFGMFGLPVYISGTGLLIIVGVALDTVQQINANLVVREYEGFLS;locus_tag=LOCUS_01120;gene=secY;note=WP_005904128.1 preprotein translocase subunit SecY (Fusobacterium) [pid:59.6%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.6e-149],MGA_112
sequence1	MetaGeneAnnotator	CDS	128557	129204	.	+	0	ID=MGA_113;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005810125.1;translation=MNIMLLGAPGAGKGTQAKYLIENFGIPQISTGDILRAAVKSGTEMGIKAKNYMDKGELVPDDVILGIIKDRLAEDDCKKGFILDGFPRTVAQADSLEVVLKELGKKMDGVIALTVKDEELITRLTGRRVCKDCGSSFHIKFNPPKVENICDYCGGELIIRKDDNIDTVKNRLEVYKKQTEPLIEYYRNKGSFIEINGEQDITAIRKDIVEALKGE;locus_tag=LOCUS_01130;EC_number=2.7.4.3;note=WP_005810125.1 adenylate kinase (Desulfitobacterium hafniense) [pid:58.7%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:5.4e-73],MGA_113
sequence1	MetaGeneAnnotator	CDS	129206	129970	.	+	0	ID=MGA_114;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017049.1;translation=MIIYKTREEIKKIEKADKILAEILDDLLPKYIKAGVTTYELDKIAEDYILSKGAKPGFKGYRAGYLTFPSTLCTSINEEVVHGIPSKKRKLKDGDIISVDVGSIVEGYYGDSARTYSVGKIDDIAKKLMDVTEKSLYIGIEQAKVGNRISDIGHAIQEYIELNGFGVVRDYCGHGVGRYLHEDPQIPNFGPVGRGSKIEDGMVIAIEPMATEGSYKVKTLHDGWTVITKDKKRAAHFEHSIAIIDGKPVILSKL;locus_tag=LOCUS_01140;gene=map;EC_number=3.4.11.18;note=WP_011017049.1 type I methionyl aminopeptidase (Fusobacterium nucleatum) [pid:58.7%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:3.1e-84],MGA_114
sequence1	MetaGeneAnnotator	CDS	130108	130326	.	+	0	ID=MGA_115;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005899265.1;translation=MAKEDVIELEGKVLESLPNAMFKVELENGHVILGHISGKMRMNYIKILPGDKVTVQISPYDLTRGRIVYRKK;locus_tag=LOCUS_01150;gene=infA;note=WP_005899265.1 translation initiation factor IF-1 (Fusobacterium) [pid:87.5%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:7.0e-31],MGA_115
sequence1	MetaGeneAnnotator	CDS	130601	130969	.	+	0	ID=MGA_116;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258255.1;translation=MARIAGVDIPRNKRVEISLTYIYGIGRKRSLEVLGKAGVNPDIRVKDLTEDEVGKIRNVITEELKVEGDLRKEVRLNIKRLMDIKSYRGLRHRNGLPVRGQKTKTNARTRKGPAKAAVKKKK;locus_tag=LOCUS_01160;gene=rpsM;note=WP_012258255.1 30S ribosomal protein S13 (Chloroflexus aurantiacus) [pid:71.4%25%2C q_cov:91.8%25%2C s_cov:88.2%25%2C Eval:2.7e-43],MGA_116
sequence1	MetaGeneAnnotator	CDS	130983	131375	.	+	0	ID=MGA_117;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903915.1;translation=MAKKRESSSKKKKLRNIPSGIAYIHSTFNNTIITITDEQGSVITWKSGGQAGFKGTKKGTPFAAQLAAEEAAGIAMENGIKKLEVRVKGPGSGREASIRSLQAVGIEVTAIRDITPIPHNGCRPPKRRRV;locus_tag=LOCUS_01170;gene=rpsK;note=WP_005903915.1 30S ribosomal protein S11 (Fusobacterium) [pid:72.5%25%2C q_cov:92.3%25%2C s_cov:93.0%25%2C Eval:7.4e-49],MGA_117
sequence1	MetaGeneAnnotator	CDS	131402	132019	.	+	0	ID=MGA_118;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869903.1;translation=MARYIGPVCRLCRASGQKLYLKGNRCFSDKCALERRNTKPGMHGASSSKMTEYAVQLREKQKVKNIYGLLEKQFYKYYEEADKKEGITGELLLSLLEQRLDNIIFRLGVAKSRSQARQIVRHKHVKVNGKIVNIPSFRVKEGDVISVSEKSKDITIIKEAVETAKVPSWLDFNAEKLEGKLVQLPKRDAIDYEINEQLIVEFYSR;locus_tag=LOCUS_01180;gene=rpsD;note=WP_012869903.1 30S ribosomal protein S4 (Thermanaerovibrio acidaminovorans) [pid:53.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-62],MGA_118
sequence1	MetaGeneAnnotator	CDS	132046	133026	.	+	0	ID=MGA_119;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023041516.1;translation=MLKIEKISKNITISEEKINEKSYVYTVEPLYRGYGNTLGNALRRVLLSSIPGAAIKGLKIDGVLNEFSTIEGVKEAVTDIILNIKEIVVKTEVPGERKMSLTVTGPKEITGADIICDPDLEIVNKDKVIATVTTDREINMEFLVDTGESFVVAEDIDNSNWEIGYIPVDAIYTPIRTISYRVEDTMVGRITNYDKLIMNIETDGSVKINDAISYAVELLENHLNPFLEIGNKMETFKEEQEEIAEEELKEQEKKEKEKEISNLKIDELDLTVRSYNCLKKAGIESLGELGGLGVSELLKIKNLGRKSLTEIMEKLKEYGFDVSTEA;locus_tag=LOCUS_01190;EC_number=2.7.7.6;note=WP_023041516.1 DNA-directed RNA polymerase subunit alpha (Fusobacterium nucleatum) [pid:59.9%25%2C q_cov:98.8%25%2C s_cov:97.9%25%2C Eval:4.8e-105],MGA_119
sequence1	MetaGeneAnnotator	CDS	133058	133408	.	+	0	ID=MGA_120;product=50S ribosomal protein L17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903918.1;translation=MRHHKAYRKLGRRSDHRKAMLKNLTISLLDKERIETTVTRAKELRKFAERMITLGKKGTLHDRRRAFAFLRSEEVVYKLFSDIAKRYEDRNGGYTRIMKTAVRRGDSAEMAIIELV;locus_tag=LOCUS_01200;gene=rplQ;note=WP_005903918.1 50S ribosomal protein L17 (Fusobacterium) [pid:78.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-46],MGA_120
sequence1	MetaGeneAnnotator	CDS	133586	134260	.	+	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIILKVAIIILGVIILLFIRSQKKIKYEKMILEDENESLKTDNEDIKEQLKKGRKINMELYSEINNESNNLEIENAKLFYKNLESELYRKGRNSAFIFSVIIVSIDYYEEYKKLYTEKVEEFKNRLETDLNYGRRKIDILSRGKKDDSWILLLPMTDKDGAAVVIDRIKNISKKYSDNPVISLTIVALEVENCEDVNEIFFNLEERVKKLQNSGGNTSIVDKI;locus_tag=LOCUS_01210;note=MGA_121
sequence1	MetaGeneAnnotator	CDS	134299	135363	.	+	0	ID=MGA_122;product=3-isopropylmalate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868467.1;translation=MEVKRIALIPGDGIGKEVIPEGVKVLKAAAEAEGFKLEFTNFDFGADRYLRDNGHLIDDDELEELKKYDAIYLGAVGDPRVPAGVLEHGILLKLRFDLDLYLNLRPIKLFDEKYCPLKNKTTADIDFTVIRENTEDLYISAGGFLRKGTPQEIATQEMIATRFGVERAIRYAFEEARRINKKKTVALCDKSNVLTYAHNLWLRAFNEIGEEYPDIKKEHYYVDAICMKMVRSPEIFDVIVTPNMFGDIITDLGAEIQGGMGTAVSGNVNPNGISMFEPVHGSAPDIAGQGIANPIAAILSAAQMMDVLGFETASKKIEKAVIRAMEEKETTKDMGGTLNTAQAGDVIAKFVKEA;locus_tag=LOCUS_01220;EC_number=1.1.1.85;note=WP_010868467.1 3-isopropylmalate dehydrogenase (Pyrococcus abyssi) [pid:61.5%25%2C q_cov:98.3%25%2C s_cov:96.9%25%2C Eval:8.0e-117],MGA_122
sequence1	MetaGeneAnnotator	CDS	135583	136584	.	+	0	ID=MGA_123;product=patatin-like phospholipase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011706729.1;translation=MQKEIVKILTIDGGGIRGLIPSIILKELESKLQKLGNDKKFYEIFDLIAGTSTGGIIALGLSVPPNGLKTEEIINFYETDGKKIFPNDIFSKLKNDIRQLTDEKYEKKPLEKILKNIFNEYTLQDSLTNLLIPAYDTENRNTIFFKKRARKKWQKKDLNFYMKDVARATSAAPTFFEASKITSVNKEKKICCIDGGVFCNNPAMAGYIEALKIFPNAKEYVIVSLGTGQDRKKYDYNEIKDWGIIDWVNPIKGTPILSILTGGESASVNHQMKNIPNVNFFRYDDKNLLKECEAIDDSSNENRERLKKIAFNIIKENEESLDEICKILLGKEF;locus_tag=LOCUS_01230;note=WP_011706729.1 patatin-like phospholipase family protein (Aeromonas hydrophila) [pid:33.7%25%2C q_cov:97.0%25%2C s_cov:97.9%25%2C Eval:9.7e-45],MGA_123
sequence1	MetaGeneAnnotator	CDS	136930	137616	.	-	0	ID=MGA_124;product=tRNA threonylcarbamoyladenosine dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000903177.1;translation=MNTIFTRTETAIGKDNLNKLKKSRIIIFGVGGVGSFSAESLARVGIGEITIVDFDTIDITNVNRQIEATTLNIGKNKVDEMAYRMSIINPELKINILKEKVSTKNISSFNIKNYDYVIDAIDDVPAKIAIIKHAYENRVKIISSMGAGRKIDPTRFKVADISKTNTCPLAKTIRLNLRKIGINKGVKTVFSDEIPKNRSSQLIGSLSFVPSVVGLIISSVVVRELIDF;locus_tag=LOCUS_01240;note=WP_000903177.1 tRNA threonylcarbamoyladenosine dehydratase (Bacillus) [pid:46.7%25%2C q_cov:97.4%25%2C s_cov:94.1%25%2C Eval:1.8e-48],MGA_124
sequence1	MetaGeneAnnotator	CDS	138113	140521	.	+	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEDTIKNLYKLLEKRENEVELVDESDKLVYVNRKVVNLTKYTKDEFFGKNPNILKSGKHSKEFYEKLWNRVLEGESWEGFFINKKKDGRLFYEKAIIVPFLDEKGKVREFLKIGNQIKKEEYSEKKLKWIVEKIDDVFVDISNAMILVCGDKISSFNVLAKKLSENNNGNLKIEDIFDWKSSLEFENSIYKNLDFNEFKNILLKCIKDNIDFVTKLKDGTWVEVTSYKINCKDVNLLILKNIDARRKKEEKNLSYRIGLENEIEVRDKFVRTITHEIRSPLSVILGYSENIMKENRDIKGVKEIYQTSKYLLELVNNILDFSKFSSGKIILEKIDFDIYELVSSVKSMVLAEITRKKLKLKLVVDNDVPRLLNGAEYRIRQILLNLISNSIKFTKEGFVDVEIYYKENKLIIVEKDSGVGIPKGKQKAIFDPFVQADESVERKYGGTGLGLSIVKEIVMAMGGTIVLESERNKGCKFTLKIPIEKSEKSENILEIENWIENMGGDYESRELMMSAIESLEKRDKKLKEAIKNKKIEKIKFITHKLKGVSGNFGFIKLEKISKEINDEVKKEKFDFEKIDKLFLELNKNIEEISNYYEEGIEERNNLNGKVLVIEDDIFNNRLLKKVIEEKGLDVETAFNGKEGLNKILNEDYDLIFLDEKMPILDGIGLLNIIKERELKKDTYIILLTGNYFGGKEIENLKEKGVDEIIQKPLEIEALNYKLKTFFYVPNNIKNRLKELVKDLSREEFMTKEEFEEKLGFSDLNNLIFRKLISNWKENESYLKTEVVLNNLLDFFLQNKDK;locus_tag=LOCUS_01250;note=WP_003115063.1 hybrid sensor histidine kinase/response regulator (Pseudomonas aeruginosa) [pid:36.7%25%2C q_cov:33.4%25%2C s_cov:29.3%25%2C Eval:2.5e-43%2C partial hit],MGA_125
sequence1	MetaGeneAnnotator	CDS	140670	141818	.	+	0	ID=MGA_126;product=ATP phosphoribosyltransferase regulatory subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949109.1;translation=MALIPKGVKVYFGNSLKKKLWIENSIRDYFEKNYYNYIELPVYEYYDDIKENFSEDVQDEMFKFLDRDSGKILTLRPDMTSLLSKLIKLKKEKIKFPERIYYIGDVFRHHKIKSGVYREIAEAGVELIGGKDKDRSDLEIAVMAIELMKKLGLKNAKLEIGTVNLFKDICKKVNISNSDIKEIKKYLSGKDITSLSKIVKEKNYDEIILKLPSLIGKKDILKEVEGYDISEIEKLTTALDELGYENDYIIDLGIVRELEYYTGIVFNGLVEGYGDYILSGGRYDELMGEKAIGFVLKIDSIFELLEVKIKSELKGYYIYGSDYIKLMKKKKELLLKNEFVEISAGDLSESELKEYVKLKGFKYIYNIDTDEKISLEEDENDK;locus_tag=LOCUS_01260;note=WP_011949109.1 ATP phosphoribosyltransferase regulatory subunit (Clostridium botulinum) [pid:30.2%25%2C q_cov:95.3%25%2C s_cov:93.7%25%2C Eval:5.3e-45],MGA_126
sequence1	MetaGeneAnnotator	CDS	141808	142425	.	+	0	ID=MGA_127;product=ATP phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943722.1;translation=MTNKLTIALPKGRLAELSMEYFAKLGITSSEMEKESRKLVFPSDCGNYEFILVRASDVPVYVEHGAADMGVVGKDTLLEYGSDVYEPKDLGFGYCRMCIAKAKDKDINLNFEEWGNLRVATKFENVAKDYFKKKGINAEIIKLYGSIELAPILGLSDVIVDIVSSGATLRENGLEEVVTLFESTARMIVNKASMKLYYDKVKKLI;locus_tag=LOCUS_01270;gene=hisG;EC_number=2.4.2.17;note=WP_010943722.1 ATP phosphoribosyltransferase (Geobacter sulfurreducens) [pid:51.7%25%2C q_cov:100.0%25%2C s_cov:96.7%25%2C Eval:1.3e-57],MGA_127
sequence1	MetaGeneAnnotator	CDS	142440	143528	.	+	0	ID=MGA_128;product=histidinol-phosphate transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392052.1;translation=MFDKIAKQNILNVGAYVPGKPIEDVKREYGLERVIKLASNENPIGVSPKAVEAMKKYIENLNLYPDGYAYKLREKLSKKLEVNMENLIFGDGTDEVIEMLFLAFVNIGDEVIYGWPSFVEYKRYAGIAGAVSKEIDLTDDYKFDLDEISKSVTEKTKMIFICNPNNPTGTIVKKEDVEKFIKTVRKDVLIIFDEAYFEYAKDDKNYPNSLDYQKMGYRNVITLRTFSKAYGMAGIRIGYGVADKEIIDILERVRLPFNVSVIAQAGAEGAIDDDKHIDDSIRINEAGKKYLYKEFERLGIKFVKTYSNFIYFEMKNAKKIFEEMMKKGVIVRQMGNNNIRVSIGLPDENEQFIKILEGVMKK;locus_tag=LOCUS_01280;gene=hisC;EC_number=2.6.1.9;note=WP_011392052.1 histidinol-phosphate transaminase (Moorella thermoacetica) [pid:46.2%25%2C q_cov:97.8%25%2C s_cov:92.5%25%2C Eval:5.0e-90],MGA_128
sequence1	MetaGeneAnnotator	CDS	143525	144538	.	+	0	ID=MGA_129;product=3-deoxy-7-phosphoheptulonate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545770.1;translation=MIIVMKPTATENNIEKVKERLVELGFKIHESKGEERYIIGAIGDENILRAHPVDSYEGVEEVLEVTQPFKLASRDFKREDSVIDVKGVKIGGENFVVMAGPCAVESREQIIETAKFVKKSGAHILRGGAFKPRTSPYSFQGLGEEGLKYLKEASEITGMPIITEVMSEDDIELICKYADILQVGARNMQNFALLKKLGKIDKPIFLKRGMAATAKDFLMSAEYIMAGGNYNVILCERGIRTYETATRNTLDLNLVPVVKEWSHLPVIIDPSHGTGRRTAVSPMARASMAVGADGIMIEVHPDPDKALSDGPQSLTFDMFEKLMKDLKDIAKVVNKKL;locus_tag=LOCUS_01290;gene=aroF;EC_number=2.5.1.54;note=WP_012545770.1 3-deoxy-7-phosphoheptulonate synthase (Thermodesulfovibrio) [pid:57.1%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:4.6e-111],MGA_129
sequence1	MetaGeneAnnotator	CDS	144840	145811	.	-	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHIFTIFLFLFFSILVFSEPFTLNEGHFDSVTDIVKYPFGNKAISVSNDETAIIWDLDKNIIIKTFELYQGALTTVAISPGGKYFAVGSSTGKVFIFDFNSKKLIASVKNHTGKVMDVTFGSKENIVISGGVDGNLVFYDINSLSRVNMISMPCKIISVTTSPNKQYIAIGGDNGSLYLIKSSDLKKIDTISNVHNDWITGIAFSPDNNYIASVSWDLKLCITSVKDLKVTNTIDVPADKNLNSVSWSSDNDLIAVASSDKYVYLYGANSLSLVDKIQTNDKQVYNAVFFPTSSTLLTSGGDAKVNLWDVKKRELLKSYTGY;locus_tag=LOCUS_01300;note=WP_011022493.1 PQQ-binding-like beta-propeller repeat protein (Methanosarcina acetivorans) [pid:25.9%25%2C q_cov:89.2%25%2C s_cov:22.8%25%2C Eval:9.4e-21%2C partial hit],MGA_130
sequence1	MetaGeneAnnotator	CDS	146199	148829	.	+	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKLIEDIENEIGHKICGYPTKKGTPCKNLPEPGEKFCKLHSKILKEKIELGEEEPILLEESNKLEEIDKISELLIDEDKRLDIESDIMAEQEIEGLLSEESEKIENEKNGFNTEELNENIDLEELLEEVPEEKIEESEEEAENSEDLEESEEEVENPESEEEFLEEENEKSEDVEPESEDLGENIDLEELLEEVPEEKIEESEELEPESEELDENIDLEELLEEVPEEKIEYSEEAVENSEDLEESLEEENEKSEELESESEELDENIDLEELLEEVPEEKIEYSEEAVENPEDLEESLEEENEKSEELESESEDLAENVNLEELLEEAPEEKKEELEGETVENPEDLKELLEEENEKSEELEPESEELDENIDLEELLEEVPEKKIEDSEEAVENPEDLEESLEEENEKSEEVEFESEELGENIDLEELLEEAPEEKKEELEGEEAENPENLEESLEEENENAEELESESEDLAENVNLEELLEEAPEEKKEKSEESKKGEKSMPDDLEDIDKLISENLNSNDEIPIIDDDEDDFLSGLDEIDEDTNIDEMVSENVEKEEEELFEKASLEPEINKKTDEEEFSSLELAEGESLEKEKSKKRKKEKKKVNIDLKYFIIKNKYKILAIIGGLILIFILGKIFIFKGTKKNKASVKSINNGSLSKKKSIKKESSPLGGEIVESENINQNNIVDTENKEVMENNSENVINNNDLNGYLITLDNLLKKLSEEKNKETQIEIKKKISELKLKISELSKKEDVLLENRVKRINSNLLVLNIDKIKIDGFTLVLGLQGKSLNLKNEITKEKSYRDIFYVVKNIFEKEKKINTININVFQGDKEVNKKIEITARRYEYENIKNKKDTYENLIDNFKVTIIER;locus_tag=LOCUS_01310;note=MGA_131
sequence1	MetaGeneAnnotator	CDS	148836	150152	.	+	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKNKKDVMLEASLMMVRNELEQKTGKVVASKSKPKNQDEFLKKIKSKKKEQSLNGVDIFKLNRTNKFDKEINIDAVIEVVKKKLWNSPRSLKLINVMLASYILQRNYSKAGLELKKGLNIDSNDLDINYNGAELLFKIGEINRAKELLKNIISKYKDKEALYFLGMILYLEGNKEQAIVVIAESLKDDSNVTRVDKNFAFLFIIKEDVEKELEILSKSLKRVVGNLDFRIVKSYYEILTGKLEKNDANEKIIMKLIAEDKKYLPCLKVNMGLKAKKSGDLKEAVENYNQAIKQNPKCICAKLEKIDIYLEESKYEKAGEILETIIKSNGKYLPVLQRALEFEFYSKNQSETEKIARKIVKIKKDSLIEVYNKEKIILKLSLNDIIEGFYGKLKIILDKYRDLNPKFRFLGYSEMATYKLFRNIKLCEIDFYKEGFVK;locus_tag=LOCUS_01320;note=MGA_132
sequence1	MetaGeneAnnotator	CDS	150149	151000	.	+	0	ID=MGA_133;product=shikimate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870596.1;translation=MRIDSKTKLISLLGYPVGHSKSPLMHNAELETLGVNAIYTAMEIEPQKLGAVVNGLKSINNFIGANVTIPHKENVMKYVDGLTEEAKSIGAVNTLYFEDDKLIGDNTDGRGFILSLMNDSGFDPKEKEVLVLGAGGAAKAIITKLIQESVKVVNIYELNIEKSREVKKQIENINSSTKINLILKDELENCAKKSDLIINCTPVGLKENDPLILSENVFNEKQVVFDLIYNPEKTKLLLAAEKKGAKILNGLGMLVYQGALSFEKWIGEKPNVENMKETIKKSM;locus_tag=LOCUS_01330;gene=aroE;EC_number=1.1.1.25;note=WP_010870596.1 shikimate dehydrogenase (Methanocaldococcus jannaschii) [pid:40.4%25%2C q_cov:97.9%25%2C s_cov:97.5%25%2C Eval:7.9e-50],MGA_133
sequence1	MetaGeneAnnotator	CDS	151093	152817	.	+	0	ID=MGA_134;product=type IV-A pilus assembly ATPase PilB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942137.1;translation=MVITRRQEMLGEKLLKAGLIKKEQLEEALSQQKMTKEKVGEILVRLGYISIDEILPLLASHLGVKSTRIELEELDEDLKDVLPLDLMRKHHIFPIRKRGNKLILAMANPNDLFVADDVQLRTKSVVIPVLALKSEIESAIDHISQREEKSSEEQMSDDILNELEGFESTDLEFVEDKDENLEDSLNSDSAPIVKAVNALIAKAIAVGASDIHIEPYEKKVRVRFRIDGVLSEIKSFPKRVIGPMASRIKITSGLDIAEKRLPQDGRFKTTTRGRSIDFRVSTLPTVHGEKIVMRILDKGNLKLNMEDLGFEKEELERFDKALSNPYGMILVTGPTGSGKSTTLYSALNRLNKPDVNISTAEDPVEFQLEGINQVHCKKEIGLDFASALKSFLRQDPDIIMVGEIRDKETAEISVKAALTGHLVLSTIHTNDAPSTIQRLTNMGMEPFMLSSSLLLIEAQRLGRRICSNCKTEVKAKKGQIVALGLDYEEYKDVVFYKGTGCPKCNGTGYKGRVGFYEVMYIDEDIREAIAKGASSDELRKLARKNGMRTLREQAIIKAKNGVTTIEEVLRVTME;locus_tag=LOCUS_01340;gene=pilB;note=WP_010942137.1 type IV-A pilus assembly ATPase PilB (Geobacter sulfurreducens) [pid:49.4%25%2C q_cov:98.3%25%2C s_cov:98.6%25%2C Eval:1.6e-150],MGA_134
sequence1	MetaGeneAnnotator	CDS	152888	154135	.	+	0	ID=MGA_135;product=type II secretion system F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942139.1;translation=MFNFKYTAIDKQGNKKNGELQAKNEKDLKSALKAAGFILIKAQKKGGSKSGSSGSKSSSNKTGEKKVSMFSRVTLKELTIFSRQLATMISSGVTLLKAITILSEQNENPLFKQKLTQIKSDIESGQPFSNALSKHPKQFDKLYVSMVRAGEESGALEVVLNRLATSMEKNQELRGKVKGAMMYPAIVMIVALSITFMLLTFVVPTFTSMFKDAGMQLPGLTQKVVDVSDFLRVYWWVVIIGVILLVVGIKKYINTPKGRKKLDGLMLKLPIMGSFTRKVSVGRFTRTMATLLDSGVPILMAFDIVSETVGNEIISEAIMVAKSSIKEGNTIAKPLADSGEFPLMVTQMIEIGEESGSISEMLSKVADFNEREVEEAVAVVVSAMEPLAIVVMAIIVGTIVIAMFLPMFKLSDLAG;locus_tag=LOCUS_01350;note=WP_010942139.1 type II secretion system F family protein (Geobacter sulfurreducens) [pid:42.5%25%2C q_cov:96.6%25%2C s_cov:99.3%25%2C Eval:4.6e-90],MGA_135
sequence1	MetaGeneAnnotator	CDS	154167	155075	.	+	0	ID=MGA_136;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403950.1;translation=MIGTRDIIEIKNISKNYKEIDIFKRLKGHKSKIGINNISLNVKEGEIFSIIGLNGSGKTTLMKCMLGLLKPDFGEIKVFGKSKLKRKDYYNIGYLPEISYYPKEVRLKDLINYYAELYNMDRLNRNKIIDEIFEILKLKGREKDKLENFSKGMVQKVGIAQAIMNEPKLLFLDEPMSGLDPLGRKLVMDIIKKMKSKGTTIILNTHILSDVEKLSDRIVILDSGELKSVVDFKNYMQIKSKYQIKITKPYKNFVRLGSFYVKNVIETELDEIIGDLILRGVKIVDIEKLNVSLERYFIEQIS;locus_tag=LOCUS_01360;note=WP_011403950.1 ABC transporter ATP-binding protein (Salinibacter ruber) [pid:33.3%25%2C q_cov:97.4%25%2C s_cov:97.8%25%2C Eval:9.3e-44],MGA_136
sequence1	MetaGeneAnnotator	CDS	155089	155844	.	+	0	ID=MGA_137;product=ABC-2 transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942145.1;translation=MRQIISIAKFTIKENIFNRVFNGFIMFGVVLILATSVLKDISLYEESRVIQDTGLFLIEFFVLLIAIFISSNQFLKDKKEKSIYIVLTKPVTRGMYIVGRLLGMILSILLNIAIMGGILFGIVIWQHGKIDINYIYMLTAIFYKLSIVASIGVFFSVISDSFITSNIFTFSVYILGHAVLELKMLGDKVSNPIYKWILDLLYYILPNFRVLNYRDYLTPEKFDFVNLTLYTFGYIFVITAMTNIIFQNRKI;locus_tag=LOCUS_01370;note=WP_010942145.1 ABC-2 transporter permease (Geobacter sulfurreducens) [pid:23.3%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:9.4e-09],MGA_137
sequence1	MetaGeneAnnotator	CDS	155856	156536	.	+	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIIKNLIFLGIGVAFIFFSGNYMMQMDNKLKNEEYHGEKGKSTITVNFKLMGMKRFGSDVLWIKQVLDTGSFDYGADRIKKNSEAVSYLDPYFIGNYYFSGTVVALIKKYKRYDYGLEILGRGLKYNPKDKYLKNYISGIVAASKGDIEGVLKEFERILKTHRDDRMIHTVAFIYEEKYKKTKEIKYLKKAIGYWKRLEESKDENYRKIAVVKLGKLEEVIGVNK;locus_tag=LOCUS_01380;note=MGA_138
sequence1	MetaGeneAnnotator	CDS	156960	157469	.	+	0	ID=MGA_139;product=type II secretion system protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583242.1;translation=MKRRMEKGFTLVELMIVVAIIAILAAVAIPQMGNQIRKAKDSAALGSIGAIRTTVSVMMTDNGGVAPSNFGEVFNGITAANAQEGVAIASAIDTKTVKKFGYTAATTLAGINVGTGVTAATTYTTNGADYKATNGIHKISIALNTADGSIDIDQGGTNTDTKNKQWNKY;locus_tag=LOCUS_01390;note=WP_012583242.1 type II secretion system protein (Dictyoglomus turgidum) [pid:33.8%25%2C q_cov:76.9%25%2C s_cov:85.2%25%2C Eval:2.0e-09],MGA_139
sequence1	MetaGeneAnnotator	CDS	157814	158212	.	+	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISEKPIIGHGTGSYYKEELNYYNRLENYFKQNKKIKISEKKELENFYSIAGHTHNEFLQIYVENGILGFLLMLFIVIYIIYDFVVDYRAGKIITFLPLLAIVIITNFSFPLHMIHNLVLTGIMLGGNKIDN;locus_tag=LOCUS_01400;note=MGA_140
sequence1	MetaGeneAnnotator	CDS	158620	159063	.	+	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVIAIIAILSVVALPELSSNIKKAKDSNVLKVVGTLRDGINIYKTDNEQGDNPESIQKIKYYILGQIKNSIEDKDIDITDGITSLEILAGTVNKDGIISKGSKGKLNGLNNIAEIYYNNGTGTIYVDGANGISGFKDTKNKNWNSY;locus_tag=LOCUS_01410;note=MGA_141
sequence1	MetaGeneAnnotator	CDS	159093	162197	.	+	0	ID=MGA_142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKKGFLLVAILVLFMAGCSLPPFNTKAKLDYDLEGATTEYSNLSADNTNEFIMSIPIKDENAVGANLVEATVSINGENKTVKIIENKVSGNTITQVKINPFLDTNGNLIKAFTALEDSNTIKIVKMKFKDINENEIVLGEMYKSIKVSKSSSGTTSGGEVDNKPVPPTNLSYDVSADGSKITLNWIDNGNSLENDILGYKVYREETSNGVYEEGKETALLASSVAIVTTYSTQYIDSSVTAGKAYIYLVTAVDRASQESTYKSKPLYVAIYKPGNYKVTSLVGASVEGTINIKLTWTKPVNSTESNTATVKGYKIYRKDNSSGYILIKDINNADTAEFIDYDKNLVENKEYTYKVVVYDEIGKEGEAAETTSIRVKDITAPTAPSGIVLTLKPAYKLNIAWSKNNDLDLKDYTIEYTDNINSTTWSSITISGITTTEISLNSSETEKTIYVRMKATDTSDNKSDYSNTESIIIDYSSYIPAPSNIVLSGGPKNVTLTWDKVTAVAGYDVIGYKIKYGTTPTNLTEIIETFSNNTNITSATTPGGIKTAGIWYFSIAAVEKGDGENKVEGAYSRIEDVVVYDDLPFLRDVSTDLSPKGVMVKWKDVYDSETTGYVIYRAVTTGGTPTEDDFSYLEAKSKSDFEVQPDFNGGSYSWKVYQDESANEIGKTYWYKVALYNGVYDSTNPKTGKFSQSVAVEDKGAPKAIEYSTLNVSAMEPQHKMRISWGGYVFDREDLAGFKVYISRTGEGTYYYAGKTSNSYIDLNVNKDGDFDTISSTYPLEREDAKWKNIGITTGSGITSGAAIISNSEVSGIVTNVNKDDYLKIEEHYYKVTDKTADHVSVKPNIIGNISAEKEVYMYQGDTGPITETRTVSLKDPMGNRMFYIKVDAYNKAGRESSLTAYKWIDMVPPAPKRLNVKVSQYTDDNSKQVAKIEWSNNIEATNFQVYKFVGQNSLSSSDLSIEGLPITGVLLGETSDYKYEDATFNDLTASTNVVYAVVPVDSYGNKGSLYVLDSNYKVTSTIITEAYGTVAR;locus_tag=LOCUS_01420;note=MGA_142
sequence1	MetaGeneAnnotator	CDS	162394	162987	.	+	0	ID=MGA_143;product=Uma2 family endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005812610.1;translation=MALKKLKEKYSYNDYKNWEDSEDWEIINGVAYNMSPSPSSEHQEIGSKILIELGNFLKNKECKLYYELDVILSDENILKPDIIVVCDKSKIKKRGIFGAPDLAIEILSPSTSIKDKTLKLELYKKYGVKEYWLVDPIYKDITVHIFEKDEIKLYTLNNENIPVNIFEKFAINMDDIFEKEETKQKKEEQNEIEQEAK;locus_tag=LOCUS_01430;note=WP_005812610.1 Uma2 family endonuclease (Desulfitobacterium hafniense) [pid:38.2%25%2C q_cov:89.8%25%2C s_cov:98.4%25%2C Eval:1.7e-30],MGA_143
sequence1	MetaGeneAnnotator	CDS	163015	163755	.	+	0	ID=MGA_144;product=A24 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942686.1;translation=MVIMYIYIFIIGAVIGSFLNVCIYRIPRGESIAYPPSHCPNCGYKIKWYDNIPIISYFILLRGKCRQCKTKISLQYPLIELLTGILFLGLFLKYEFSILTIKYMIFTALLIVLSGIDIEEHILPDKITFFMIVIGFIFSFFSETNILYSFIGAATYSFPFMLLYGFGEDLLKKDIMGFGDVKLTAAIGAFFGYRGFYNLYMFFMLAFTIGAVISLILIILKIKTRKDIIAFGPFIAVAGYIMIMIM;locus_tag=LOCUS_01440;note=WP_010942686.1 A24 family peptidase (Geobacter sulfurreducens) [pid:41.2%25%2C q_cov:98.4%25%2C s_cov:92.3%25%2C Eval:3.8e-47],MGA_144
sequence1	MetaGeneAnnotator	CDS	163806	164315	.	+	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKGFTLIELMIVVAIIGVLSFTGGVTISSSIIKNSVNKAKAQVPAYLNNGVDRAFEEGSGYTIGFNSNEITLTGKESLTLPRNLKYLYRIGSAIPSNSSISVNINEQGKLSGEFDFYIGDKKNNFYYRIHGRNIAGINLGVIEEYNPNATATVSQAGIGVETNWTLVE;locus_tag=LOCUS_01450;note=MGA_145
sequence1	MetaGeneAnnotator	CDS	164332	164937	.	+	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRSKGFSLIEVLAAFAILSIAILPIMSMYPTVLKMDRKSRGHEEGARLAFTIVDYIKSKGYANLMQTTITSTAIKNFITGKKYTDLVKTSGQSYYSSASFCDDFNIASNLFILNSKSLDLSKVNIWIGLHKSIAKLGDGSGNLKSPEVDLYATTRAGIGYIENKIIMGRVIVGWGDDDTAHLTGKEKEYSLQFIVTSLEK;locus_tag=LOCUS_01460;note=MGA_146
sequence1	MetaGeneAnnotator	CDS	164971	165462	.	+	0	ID=MGA_147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKCEKSNGVTLIELLVAMAILVILVGMITPLFRSIGRVNTKQKELNRIDTSIGKSIDIIKREIRGAKNIVVNTSGTAVTITKADNTIVNFKLEDYSPARSEKNRSGGTSLVKWLQVNNDDAHLADNISNLNFQFTDNIFTLYMKIVYRGNEKEIRDAVTSRIN;locus_tag=LOCUS_01470;note=MGA_147
sequence1	MetaGeneAnnotator	CDS	165477	166145	.	+	0	ID=MGA_148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKREKGSAIILAILILSFFMALSMNMFYISRQKANKATIKIKGNKVLSKIDVGASLGALEYATAILYEQPGVLDDVNNSNLDILLNRYGEYFIGRIDTTTYANGGANYDIALHHFEDNRNNSTGTTVADGIPDNTITKRICEEASTKLSIGLYDYTTNAAITYPASTNNYTINYKKEVIIPGDGGNIKDMVFEIVYTENINTDASKKISAYNPGTITVTYQN;locus_tag=LOCUS_01480;note=MGA_148
sequence1	MetaGeneAnnotator	CDS	166159	166428	.	+	0	ID=MGA_149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLKNHMEYLVNEELERYLGTQEGICKCEKCKLDMKAYALNLLPAYYIVSEKGYVYSKISEMRQQFKVDVIKAVVEAVEKISENPRHK;locus_tag=LOCUS_01490;note=MGA_149
sequence1	MetaGeneAnnotator	CDS	166441	167493	.	+	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKDKIEGSIDVGSGMIKGISIKKGEIENISSERLPMGAVVSGNIEDSLSIVDKLKTIVERLSLKNKKVVVSLPIQNFVIKFLEIPEMEEEAKLPFIEGELDEIVPNFSGEDFITNYYSLEFKNNNEKVMVVTIKKEKINDIIEILTSVKLKPIKIIPDFLSLFNLEQIQKHKIIEDTKGASIMTIDIGAEATKIFIENDGIIKMQRLIAIGGNDFSDIVQREKSVDYDEAEQYKKELEVFEDEEVNDEFYVQDDIEKEISNLVEELGEQIERTIEFYKMQEGLLGVDGIIISGGGTLLKGLKLVIEKKIVQEFNEMKTEQYFMKIKDKIAGEDIAIYDIALGNIVEEVI;locus_tag=LOCUS_01500;note=MGA_150
sequence1	MetaGeneAnnotator	CDS	167494	168054	.	+	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEMNFITKEYKMKLFLENLLKASIVIVVLIVLAEIGVGFYLNTIVKSQQNKIEIVNGKINELNKKNKEIRKLYKNIPDYSSRIQVLNDLVSEKKLRLSEVLYYIKEVTPLKIWYSSLTYKDGKVILKGYAAGKNKNSPEVVALSLEEKFRESKLFRNVIAEGFKRGNVLGNDVVVFTYQLVLGGE;locus_tag=LOCUS_01510;note=MGA_151
sequence1	MetaGeneAnnotator	CDS	168059	168724	.	+	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEIFGKEIDIDVKIDEKGIMALSIVASIILIAATGYFIIYPKVIKITQNKQEVKKKNQEIVKVEKAYKSIKSKYDLANKIYSNQKDKLEILNSKFANSSLKNETDLKIAIQKFIDYFKLDILKTGSVQIDAKEIKIEPANDKDKKIKIYKRMYIPYTVQGNLKDITTFFYYLENSKWLLTFKKSDLSIKKLETKNMSQDTGKIEVNFKVGAYVLEKVVSK;locus_tag=LOCUS_01520;note=MGA_152
sequence1	MetaGeneAnnotator	CDS	168725	169162	.	+	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKFRYIMIFFIVMNVMAIADSNPLKEYISDKVYFEGQKKFKGGNDIFRTKVYSKADISKELDAARGRIKSVFLKVSFIIERNHKLTATFYYKGEDGRAARKVITNRKTLKIGKYSYSVIVVKNGIEVIDLKTKVKVKIEKKGR;locus_tag=LOCUS_01530;note=MGA_153
sequence1	MetaGeneAnnotator	CDS	169170	170750	.	+	0	ID=MGA_154;product=carboxypeptidase-like regulatory domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480816.1;translation=MKKLAAVLFAFVFLIGNIYGATSESRFEKRLEKIKYPSELDFKGTPLSDALSTISKTSNINMVAASEIADLPIDLYLPKGQTLKRIIETIKNTNGLVSRIVNGTMILSRATNQGVKVASKGKVVGKVTEIDKITGIRGVTLSLGDDINTLVLSDVGGAFIIGDVNPGTYILKASLRGYKPNAEIVEVKPGGITNINIVLAKVESAAQRSGKLTSKQDIGKVVKTNGDIRNTKMINLIYADPKDVKGIVTNIVPLDNIVVDEKNNILILIGTEDNIKTATKLIEKLDIPTKQIRIKAKIWDINQDVVNKVGLNWTAVPIDGEYQLSKNSSDGTFLTGSKFNGTDGMTLSFMYGGINNENALGTTLNMLASTNDAEILAEPEVTTLNGKEANIQIVNEEIVGYKETSDDKGNSDKSPLFKDAGVVLRVKPIIKSDETILIEFYSKVSKFTSDGVHGAAEKKSETTTKIRVKNGETIRIGGLVRQDKGHGVTKTPILGDIPLIGILFQNSTTTNNKRNLYIELTPEIVK;locus_tag=LOCUS_01540;note=WP_198480816.1 carboxypeptidase-like regulatory domain-containing protein (Fusobacterium canifelinum) [pid:28.8%25%2C q_cov:92.4%25%2C s_cov:95.1%25%2C Eval:9.4e-54],MGA_154
sequence1	MetaGeneAnnotator	CDS	170942	171247	.	+	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMINGFYGNNNISSLTTVNQTKEPKQNENIEKPQDDQPKTDTVEIKNNINAKPTETEQINEEGRANDIEKQLNEVIKKAPEQAISTQGMGITPERVANLL;locus_tag=LOCUS_01550;note=MGA_155
sequence1	MetaGeneAnnotator	CDS	171514	172116	.	+	0	ID=MGA_156;product=D-glycero-beta-D-manno-heptose 1%2C7-bisphosphate 7-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966334.1;translation=MNKKNRAIFLDRDGTINIEKNYLHKIEDFEWIKGTKEAIKIFNNLGYKVIIVTNQSGVARGYYKEEDVEILNIYMKEEIEKKGGNIDKIYFCPHHVDGIGKYKKQCKNRKPEIGFFLDAKDKFNIDFVNSFIVGDKISDLEAAIRLGMNPILVETGYGEKTKKEIYFKTKIYKDLYEFALNLKKNIESKKTKKEENVLLK;locus_tag=LOCUS_01560;gene=gmhB;EC_number=3.1.3.82;note=WP_010966334.1 D-glycero-beta-D-manno-heptose 1%2C7-bisphosphate 7-phosphatase (Clostridium) [pid:53.7%25%2C q_cov:87.0%25%2C s_cov:96.7%25%2C Eval:6.2e-49],MGA_156
sequence1	MetaGeneAnnotator	CDS	172154	173854	.	+	0	ID=MGA_157;product=acetolactate synthase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023692.1;translation=MYINGARILLETLKREGVTDIFGYPGGAVIPLYNELYDFEGINHILTRHEQGAAHAADGYARVTGKVGVCIATSGPGATNLVTGIMTAYMDSVPMVAITGQVPTSLIGKDAFQESDITGITMPITKHNYLVKDIKNLPRIIREAFKIARTGRPGPVLIDLPKDVQINEIEEKEFEKLYKAPLKLEGYSPTYEGHPMQIKKAAKFIAQSKKPVILAGAGVYKSMAQKELREFAHKNNIPVTMTLLGLGSIAADDELNLGMLGMHGTVAANYAVYEADLVIAVGMRFDDRVTGKLETFAENAKIIHIDIDPAEIGKNKNPDVPIVGDVKLVLDKLIGKIKENDRKFWIEQITEWKNEYKLVYKNSETEIKPQKVIELISKITDGNAIIVTDVGQHQMWAAQYYQFKNANKFCTSGGAGTMGYGLPAALGAQVGKPDQKVIAIVGDGGVQMTAQELMTLSHFNIPVKVVVLNNGFLGMVRQWQEIFHKRRYSSVDLEISPDFVKLADAYKIKGVRIEDPNELEQKLRENIESNEAVLIDCKITREENVLPMVPPGGVGNKMVGIRGELE;locus_tag=LOCUS_01570;note=WP_011023692.1 acetolactate synthase large subunit (Methanosarcina acetivorans) [pid:59.1%25%2C q_cov:98.8%25%2C s_cov:98.0%25%2C Eval:8.6e-186],MGA_157
sequence1	MetaGeneAnnotator	CDS	173851	174339	.	+	0	ID=MGA_158;product=acetolactate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023691.1;translation=MRHVISVIVENKPGVLTRVSGLFSRRGYNIESLTVGTTENPNLSRMTIVVEGDQSILEQIEKQLYKLVDTLKVIDLPHATSVSRELVLVKVCSDKNNRSEIIQTADIFRGKIVDVGESTLTIEVTGEEGKLGAFINLMSKFGIKELVRTGKIALHRGERTII;locus_tag=LOCUS_01580;gene=ilvN;EC_number=2.2.1.6;note=WP_011023691.1 acetolactate synthase small subunit (Methanosarcina acetivorans) [pid:57.8%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:1.5e-48],MGA_158
sequence1	MetaGeneAnnotator	CDS	174428	175420	.	+	0	ID=MGA_159;product=ketol-acid reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942554.1;translation=MAKIYYEKDCNFEVLKGKKITVVGFGSQGHAHALNLKDSGADVTVGLYKGSKSWEIAEKAGLKVAVTAEAVKGADVVMILVPDERQADIYREDIAPNLKEGAYLGFGHGFNIHYGQIVPRADVNVFMAAPKGPGHMVRRTYTEGSGVPALVAVYKDPSGDTMDVALAWAAGIGGSRSGVLETTFKQETETDLFGEQAVLCGGVTALMKAGFETLVEGGYDPMNAYFECVHEMKLIVDLIYEGGFATMRDSISNTAEYGDYITGPKVITDETKKVMKGVLKDIQDGIFAKNFILETKAGMPSMHAIRKNEKEHQVEKVGGELRSMMSWIKK;locus_tag=LOCUS_01590;gene=ilvC;EC_number=1.1.1.86;note=WP_010942554.1 ketol-acid reductoisomerase (Geobacter sulfurreducens) [pid:68.1%25%2C q_cov:98.8%25%2C s_cov:96.4%25%2C Eval:2.1e-129],MGA_159
sequence1	MetaGeneAnnotator	CDS	176052	177341	.	+	0	ID=MGA_160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIKKTFIIVLLLLCNSFYLLANVTDVSNMKKLEKELKEGKKLEVEKELIEKYNLKEEEAYITILNLSEKIKDYTTEIYYAKKILEKNEKFYLMWFKLGKLYFENNDFENSKIIFKNLITKDKKVDKILVSKSKNYLMKIKKIENKIKNEVETWNFKIKTGYENINKIELLSMDSYEKMYGTFRGSHLMDEAVIIGAYSNYRKKIAEIAEINFKIGYEKLSYSLDDNYNVEIPELSLKLLLNLIDTKKIHLKLPLNYEFKQGYAKISDIKLEGEYKITSNVSLENSLGYIQKSSSINELNNKFDEIKLKYSGNIIKKIEILYKYSVEKEKEISKLNKSDIFGLNISKQVYLGFNLDYSMNMKNKIFGERDISVDMKRVDKILDTKLLLSKTFCDLEIKLEYDYMKINSNISKYSYAGDGFGIIMGYNF;locus_tag=LOCUS_01600;note=MGA_160
sequence1	MetaGeneAnnotator	CDS	177530	181582	.	+	0	ID=MGA_161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTLAVALLALSFAGCFTDKTTTEDNTTKQETTTTVTTEGKIVNTASPKGIFAGVVRDSFNNPLEAVTVSIGGKSIVTDKTGTFKIEGLDVGGAGAGKEVSYTAVFSKKNYLSITKSIVFKEDTLTNDDTNATIHIDATTGTSVNSGEDGLIVGTVVIPLNNATATVDAEMVELVTAKGTISLPETLSTTAAIKVIPYISGSSVPMSDYSQEISDSLEYTIKNIPAQETSVTLKIYINGNIYASYYVNEEAVNFHTAKRIDSKVQGGQREVIQNFSAKKYGEVSGIVYKNYKLANATDNTVGAGAKVELYRDVYPSPVKMGEAFTNAAGKYIIHEILPGVYSLKLLDFDKENDGEFDFVNGKTFMDIAVAEGDNVTNGVSPYSIVKDLWFTGYQNYSVSGKVEAGIEGNIIANVNVKVYYSSTNKLLKETRTTTTGAFSVSGIQFKNIKIVAEAIDTDNNLINNFNQATKDITNNEGIDVNDVYLFMAPNSDEYGLHVVSTNFTMKKTVSGETKLLTKVNGVEPNGTVVLTFDNAVSTDSENEILAKLDKVVKLIGSSDVDIDYSFDSTRKIMTITPKKPLTGNLYTVWINSELATSNGYKYSVANTINTDLLNSTNVDIDVEAYQLKVAGASFLTKDEYGNWSANDVEGQDANTAIAITFNKEISQSKITELVNKGENIVTVTDMATLKDILTDYTFDTANKIMTISPKVSLTPGNQYRITLNSELKAKSASDNGLDIKINGDKVFTGKIYKANNESLTSIKPEIFIDGAYVDNYTASNFAMDWNFGNAGIYKTTDLDETVQTYGASSFDVKFSVSGLESKKANIKEFDIYAKTESSYWEKLSAININAITKTEWKLGVKKTTVNLNNVNGLDSSDKLKWGESLEIIVIPVDAKGKPADFPTTEDATKVLTLKDNYGVKLAGLNGTSLLNAGTNTLTMSEDIYPAGYGVTITGINSNIGINTTTAGAVSNLRIGSSLNELKFEAYPTSKFVVGADYNHGESDPANRLTLVSSNGLYDGMKLETTDGEIVVSNIVNGTTIDFSYVATPFDMAKDVEFTISKDNTDIYSRADSTKVYNITGTGYGEIHEIAVSAYADGGDGDYTNGGIVTLSGTNPLLGVTSGMVLSLHDNNGVVTTNINVTVTNVGTNGNDKQFSTSSSIEGLTTGGTSFVVTNIYQLTGVTSVNSLIIGEKLYLEHATDGTSKEVTIMAVDNLNNIVKISASPENYTKSFKLKTVDTTAKTFIAKEVKKYAVGDKVVINKDTSSIIATGTNIMTNITGISPVETVGGTKLYKYTTTDDITGAAENQTIDFVSNVQLKVVAKDSSENMIQADDDTLRYDEAKGWIID;locus_tag=LOCUS_01610;note=MGA_161
sequence1	MetaGeneAnnotator	CDS	181729	182997	.	+	0	ID=MGA_162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMRFDYFLSILKTNRLKTNSKDIKKGDIFVAIRQGNSYLQEAIQNGASVVVYDSEKIFCDFKNSYKVENSIEFLQKLAKKYRETLNTKIIGITGSNGKTTTKDIIYEILSLNKIGKKTEGNLNNHIGVPITILGLEEKDEFAVIEMGMSNLGEIDLLADIVKPEYSIITNIGDSHLEFLKNRKNIFKAKSEIINHTRNRLFINGDDEYLKKLSGIKIGFGKSNDLSARNIIFNEEYSTYLLKCDLGEFNVKLNLVGEHNILNSMFGIAIGLEFGYTINEILDRIANIKISKMRFEKIKRGDTIFINDAYNASPISTKYSLKTFSKLYEDRLKIVILADMLELGEKSRKLHEDLSDNIMDTKADIFIFYGNEMKYLYKKVLKDKRAYYFENKKDIIKLINELSGKKAILLKGSRGMKLEEIIC;locus_tag=LOCUS_01620;note=WP_124797249.1 D-glycero-beta-D-manno-heptose 1%2C7-bisphosphate 7-phosphatase (Fusobacterium canifelinum) [pid:43.3%25%2C q_cov:99.1%25%2C s_cov:68.6%25%2C Eval:2.4e-94%2C partial hit],MGA_162
sequence1	MetaGeneAnnotator	CDS	183007	184098	.	+	0	ID=MGA_163;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902299.1;translation=MLYYIYQYLYHDLSVFRIFRYITLRAMIAFVTSFLFVLIIGKPFIKFIKNKKVGEDIRELGPATHFSKKGTPTMGGVLILSSIIFTTLITGNLENKFIILLLLITILFGVIGFLDDFLKWSEKNKKGLSPKKKILGQVIISILVFVFIIKYKLIGNNIDFSLVNPLIKNSYLELGAFFYFIFLLFFITGTSNAVNITDGLDGLVIGPVMITSSILGIVAYFTGHLELSKYLNLYYIEGSGEILVYILAIVGSGLGFLWYNFYPAEIFMGDTGSLTLGGIIAVISILLKQELLLLVIGFVFVIETLSVIIQVGSYKTRKKRVFRMAPIHHHFELKGLPETKVTIRFWIISIICGLIGLLILKLR;locus_tag=LOCUS_01630;gene=mraY;EC_number=2.7.8.13;note=WP_005902299.1 phospho-N-acetylmuramoyl-pentapeptide-transferase (Fusobacterium nucleatum) [pid:52.4%25%2C q_cov:95.3%25%2C s_cov:94.5%25%2C Eval:1.1e-100],MGA_163
sequence1	MetaGeneAnnotator	CDS	184130	186127	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNKIKNNLIFGFISFSIIVILIVVGFFYINIRSSVIDFNKDIVSNNEQTILTMINSNQTQGKKVILQANSKVMKNTKERLNSFIKKASKENNESLLKIFSKTIDQEIKMKEFELKNIVKSQMFVWEDIKSERDSLKKLLKKNSDYKGFIVYGELIDPFFQVGKITENFYKSKIVEKTRRGKTYFYNINNTNYFYLAVPIYNSKQKYNGFIIAKIDIKPILSKLFKEITLGSDRTIFVINSNKKIIKHINKKYENKKFTRVNFNKRLDFQQIIKNKIIYTIKKYNYGNFTIFIVIKEYISDAFSYVDSLKDDTEKVLIQSFNDFNKDLKKASKKTYDVSKEKALDKLNSFIKNIANIFYVVFFIGVLVSILLGIFFADGITKPIKELSFAAKKIGDGNLEYNFDKKLLKRKDEIGELSREFSEMKIRLKENIETVKELERKKAHSERLSIMGQIVSGIVHEIKNPLTSISGFAQIIEETSGEETIRRQSKMIFEEAQRLNKLTLDLLEYAKGSKLDMRRVKVKLLAEEVFDKLSPKITEKNIKVSVDVPENFPTIYADRDKIMQVFINLISNAVEAIKMRRGNIEFIADRIGTGKVEIKIRNDGPVIPEDIIKDLFLPFISHKKGGTGLGLAMVKKIIEDHKGNIKITKGLEKGAEFVIVLPIK;locus_tag=LOCUS_01640;note=WP_012545672.1 ATP-binding protein (Thermodesulfovibrio) [pid:28.6%25%2C q_cov:48.1%25%2C s_cov:68.8%25%2C Eval:7.8e-40%2C partial hit],MGA_164
sequence1	MetaGeneAnnotator	CDS	186323	187639	.	+	0	ID=MGA_165;product=UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029597345.1;translation=MKKVLVYGNGKSGKAVTKLLNKKKYIVDIIDDRIGYDKDEILKKIGNYEFIVKSPGISNENLLIDILNKKRIKILDETEVAAKYIDNSKIIAITGTNGKTTTTTKITEMLNFAGYKAISAGNIGVPFSEIIEKEKEYDYIVLELSSYQLEYIDEMNPFIAMVINLTPDHMNRYESLESYYSTKFNIFKNQTKEEHSIINLDDENSGSILKKLNIESEMLTVTKGDRLTEKADLYVKDDLLFYKNENILDINKLTLKGIPNLENTLFIVGVAKIIGIKNSIIKEFLYNNKGLEHRMEEFLKIKNTVFINDSKGTNTDSTIKALQGYKERITLICGGKDKKLDLVPLCNEILRHTKEVYLIGETKQLLEKILIKIGYDKNKIYNLEILENVIKKLKENLDINKKNIVVFSPAASSFDQFNSFEERGKIFKKLVMENFMEE;locus_tag=LOCUS_01650;gene=murD;EC_number=6.3.2.9;note=WP_029597345.1 UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase (Fusobacterium nucleatum) [pid:44.2%25%2C q_cov:99.3%25%2C s_cov:99.8%25%2C Eval:1.9e-97],MGA_165
sequence1	MetaGeneAnnotator	CDS	187639	188733	.	+	0	ID=MGA_166;product=stage V sporulation protein E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949037.1;translation=MTNNKKLIRGILIIIIILAVISFMFIYSSSAYIAEEKNLGQWYFVKKQAIWYMLGFALMMIFRHIDYKRYKHNQIKIFLIGFFLLLAVLMFGKTVNGSRRWLAIFKYTIQPSEFAKILYILFFASLIEKYKMKKRTDPELIIAGLTTLGIYAGLIFLEKDLSTTFHLILISAIMFFATDIKIKYVITGFFVSISGAVLSIVSSKNRARRVIEYWEGIKKTGVGGGGQVKQSIIGIGNGGLFGTGFGKGLQKYNFLPEQHTDFIFSIIAEELGFILTTILLTIYLVFITIGGVAIFRVKSYYGKFVILGIFSMIITQVLLNIFVALGIIPATGIPLPFISAGGSSIVALLIGMGIVFNILSEGEN;locus_tag=LOCUS_01660;gene=spoVE;note=WP_011949037.1 stage V sporulation protein E (Clostridium botulinum) [pid:32.3%25%2C q_cov:95.6%25%2C s_cov:94.1%25%2C Eval:3.6e-48],MGA_166
sequence1	MetaGeneAnnotator	CDS	188733	189797	.	+	0	ID=MGA_167;product=undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626926.1;translation=MKKVLIAAGGTGGHIYPALAVANELRKKDIEVIFVGTKTRMEKDIIPANNFKFVGLDIIPFRKLKSLFKALKATIKIMKIIKKEKIENVIGFGNYISVPAILAGLIYKKNIYLHEQNVKMGQANRWFYRFSKKTFVSFDDTFEEMPLKYQDKVIVTGNPLREEFYNVNRLEERKRLKISENEKVILITGGSLGAKSINEFVLKNWERFFKEKDFRVYWATGKINFDEINNKITKLKNNDVIKPYFENMHSIMEVADIVISRAGASIISELIELSKPSILIPYNFVGQYENAKILEDIGATVLFKDEEIDSAMDYIFELGNDRKKLLEISNNIKKLKKGNSTRKIVEELDIWRKI;locus_tag=LOCUS_01670;gene=murG;EC_number=2.4.1.227;note=WP_201626926.1 undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase (Fusobacterium canifelinum) [pid:48.3%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:1.3e-95],MGA_167
sequence1	MetaGeneAnnotator	CDS	189798	191147	.	+	0	ID=MGA_168;product=UDP-N-acetylmuramate--L-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626924.1;translation=MKKVFFIGISGIGMSGLAKIMLKKGYEVYGSDISEKDVTSELVKLGAVIYKKHIDLNAKKMDLVVYSTAIKKSNPEYIFAKLNGIKLLKRGELLAELFNEKKGIAVAGTHGKTTTSSMLGVSLFDINPTIIVGGIIPEIGSNSKFGKSEYMVVEADESDNSFLYLNPEYSIITNIEADHLEKHGTFENIKKSFLKFMEKTKKEVIVCKDCEVLDELAKQISERDEEKKIITYSLKDKTANIYCENIYIKNGITHYTVIENGEEIGEFELKIPGEHNILNSLGVIYIARKLKIEKEKLKNKLKNFKGAKRRFDILYENSVRIIDDYAHHPTEIKATLTAAREIYKDRIIAIFQPHRYSRTKFLMDSFEGAFGNADKVILLPIYSAGEKNIYDINENILADKINNNVKIIRNREEITKTILDDKVKGDTYIFMGAGDIYKLAYEMKEILER;locus_tag=LOCUS_01680;gene=murC;EC_number=6.3.2.8;note=WP_201626924.1 UDP-N-acetylmuramate--L-alanine ligase (Fusobacterium canifelinum) [pid:53.5%25%2C q_cov:99.8%25%2C s_cov:99.1%25%2C Eval:8.3e-133],MGA_168
sequence1	MetaGeneAnnotator	CDS	191177	192022	.	+	0	ID=MGA_169;product=UDP-N-acetylmuramate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460695.1;translation=MQIIKNANIKKYSYIKIGGELRELIIIEKKDELKELENIFTGNNFIIIGKGSNILFSDEKIDKTAIYLKGLKKIKEVFTNIIKVESGVLASELIGYMREHNFSGIEELAGIPGTIGGMLVMNAGANGKEIFDVVKEVELFDTLNMKFINLKKEDIDFGYRYTNLLNDKIITSVKIKLEKGFKNSVVESVLKKRAEKQPLEYPNLGSVFKNPDKDYAGRLIEEVGLKGFRIGDVQIANKHANFIVNLGNGKSKDMISLIDIIKSKIKDKFNIELKEEIKKID;locus_tag=LOCUS_01690;gene=murB;EC_number=1.3.1.98;note=WP_011460695.1 UDP-N-acetylmuramate dehydrogenase (Desulfitobacterium hafniense) [pid:38.3%25%2C q_cov:89.3%25%2C s_cov:88.2%25%2C Eval:1.2e-39],MGA_169
sequence1	MetaGeneAnnotator	CDS	192043	192912	.	+	0	ID=MGA_170;product=D-alanine--D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480619.1;translation=MRIAVLMGGISAEREISLKTGRAVLKKLLELGYDAFEVNLTKENIVSELTRDDYDIAFIALHGEFGEDGRVQAFLDIVGKKYTGSGFIASAISIDKEITKKIIKNIGICIPKSYMNIEEVKKFPVIVKPAFEGSSIGLHICKNRDELEKAVNNLKSKKILIEEFIEGEELTIGVLNREGLGVVKIKPKSGVYDYKSKYTKGETEFEVPAKIKKEIYDKAVLYSEIIYKELELKGAIRVDMILSEDKLYFLEVNTIPGMTETSLLPKLANLKGYSFGDLLKKIIEPIAKN;locus_tag=LOCUS_01700;EC_number=6.3.2.4;note=WP_198480619.1 D-alanine--D-alanine ligase (Fusobacterium canifelinum) [pid:54.0%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:8.1e-82],MGA_170
sequence1	MetaGeneAnnotator	CDS	193027	193641	.	+	0	ID=MGA_171;product=cell division protein FtsQ/DivIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898188.1;translation=MEKKIYDFLEKSYFTVTNINLSGNTNLTVDIIKKLEKLKGKNIFYIDTKKLELFFNNDIRVEKIKIKKEIPDTIDIEIKERTPYIYINYNKKILIADKNCKIYANYNEYQNFDFIILTISDLKLLRNGYNILELLPQNLKNIVSEIIINEKEPEIILKDGTIFKIDKDVDREKYLIGLKLYKKLKLDGKNIKYIDLRFSDYIVM;locus_tag=LOCUS_01710;note=WP_005898188.1 cell division protein FtsQ/DivIB (Fusobacterium) [pid:29.4%25%2C q_cov:96.6%25%2C s_cov:88.6%25%2C Eval:3.6e-15],MGA_171
sequence1	MetaGeneAnnotator	CDS	193654	194928	.	+	0	ID=MGA_172;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957399.1;translation=MNNQNIVVSIDVGTTKIFVIVSEIDRETEKFKILGYGMSASNGGLNKGRVVDIDRAAKDIESAIKAAEIMSSVPITKAFVGIAGRHIESLESSGIITLSENEPREITKADKRRLEDIAENKVVPVERTVIHRIGYNYRIDDSGIIKNPIGMRGCKLEGTVHVVTGMINTIDALIKSVNKLSIEVEDVVLEPYASGKAVLTDTEKRTGVILVDIGGGTTDIAVFKNEKLIYTSVLPLGGEYFTSDIATLLGIETRVADNLKKDFSINNEDYKMDEVVEIPNYDRYTEKKEVEVKHLKEIIDSRTEEILENIEKKIEASGVKHQVYNGIVFTGGSSKIAGLKERAEKYFDMPVRFAVPIKKDGLSDQMLKPEDATGVGLLLYGVEKSLEGKVISLNEEEQEGKKSMFDVIIGKLKKGFDIFFSDSE;locus_tag=LOCUS_01720;gene=ftsA;note=WP_010957399.1 cell division protein FtsA (Coxiella burnetii) [pid:36.2%25%2C q_cov:91.7%25%2C s_cov:93.0%25%2C Eval:9.3e-70],MGA_172
sequence1	MetaGeneAnnotator	CDS	194948	196048	.	+	0	ID=MGA_173;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902285.1;translation=MTEINVYENVAKIKVIGIGGAGGNAINNMIESGINGVEFIAANTDSQDLLKSKAEVKIQLGEKLTKGLGAGANPEVGKLAAEEDKEKIREHLEGTDLLFITAGMGGGTGTGAAPVIAEIAKELNILTVSIVTKPFRFEGLKRKRNSESGIMELENKVDTLVVIPNEKLLENTDRKVSIKNAFEGADDVLKIGIKGISELITTEGFINLDFADVRSTMSNSGIAMLGFGYAEGEDKARVAAEAALSSNLLERDIHGASKILLNITGGMDLTLNEASEIAQRVTEAAGERTTDVIFGTVIDESMEGSIKITVIATSFEDNKKEYIEEIDGINSEEKEPEERVIESKKMSVNDEYKDLDIPAFIRRKKN;locus_tag=LOCUS_01730;gene=ftsZ;note=WP_005902285.1 cell division protein FtsZ (Fusobacterium nucleatum) [pid:51.2%25%2C q_cov:94.0%25%2C s_cov:94.4%25%2C Eval:7.5e-94],MGA_173
sequence1	MetaGeneAnnotator	CDS	196137	196424	.	+	0	ID=MGA_174;product=30S ribosomal protein S6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023040534.1;translation=MKKNYELMFIVVPEITEEERDAVITSVEEVLKRAEAQDVITEKMGEKKLAYAIDKKTTGFYVLIKFAVEGVNLVDVEKRLNINEKLMRYILVKQG;locus_tag=LOCUS_01740;gene=rpsF;note=WP_023040534.1 30S ribosomal protein S6 (Fusobacterium nucleatum) [pid:48.9%25%2C q_cov:96.8%25%2C s_cov:97.9%25%2C Eval:2.1e-19],MGA_174
sequence1	MetaGeneAnnotator	CDS	196433	196828	.	+	0	ID=MGA_175;product=single-stranded DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902513.1;translation=MNIAILVGRLTSDPELKYGQSGKAFAKFSLAVARTFNRNEVDFINCVAFGKTAELIAEYLRKGNKAGVQGEIRVSSYENSEGQKIRRTEIIVGNIEFLESKGTKDRYNDNQPSGAEVEKTSKPSDDDEFPF;locus_tag=LOCUS_01750;note=WP_005902513.1 single-stranded DNA-binding protein (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-26],MGA_175
sequence1	MetaGeneAnnotator	CDS	196843	197079	.	+	0	ID=MGA_176;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003420527.1;translation=MRRENDSRKRKKKQCDFCKNKKAKIDYKNVDMLKRYLSDKGKISPARVTGACAKHQRALTQAIKRARNIALLPYTVEN;locus_tag=LOCUS_01760;gene=rpsR;note=WP_003420527.1 30S ribosomal protein S18 (Clostridioides) [pid:63.5%25%2C q_cov:80.8%25%2C s_cov:84.0%25%2C Eval:4.6e-19],MGA_176
sequence1	MetaGeneAnnotator	CDS	197219	198934	.	+	0	ID=MGA_177;product=YgiQ family radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016615.1;translation=MFLPTTKAEMKKLGWNKLDVILVTGDTYIDSSYIGAAVIGKTLFNAGYKVGIIAQPNIDNAEDITRLGEPELFWGVTAGSIDSMVANYTALKKKRRNDDFTPGGENNRRPDRATIVYSNLIKRYFKGGKPIVLGGIEASLRRIAHYDYWSKKIRKSILFDAKADILLYGMGEKTVLELTKAIKNSESIKNIKGICYISKNGEDEIEKTDKYIILPSFESVKQDKIEFIKMFNLFYVNQDPKTAKGLIQKQDTRYLIHNPPQNYLTQSELDEIYNIEYERDVHPFYKKMGKTKALETIKFSITTHRGCYGECNFCAIAVHQGRTIRSRSEESILKEAKEIVGRKDFKGYINDVGGPTANMYQIECLKKENYGSCENKRCLYPKKCKTLTVSHKKQIELLKKLRSLENIKKVFVASGIRYDLILEDKKYGMEYLKEIVEHHVSGQMKIAPEHIEDNTLDKMGKPGKEYLKQFKDKFYELNEKTGKKQFLTYYFIAAHPGTTEKEMKKLKTFVSKELRMNPEQVQIFTPTPMTYSTLMYYTEMNPFTGEKLFVEKDMNKKRKQKDIVVQKGGRR;locus_tag=LOCUS_01770;note=WP_011016615.1 YgiQ family radical SAM protein (Fusobacterium nucleatum) [pid:63.4%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:6.0e-219],MGA_177
sequence1	MetaGeneAnnotator	CDS	198931	200250	.	+	0	ID=MGA_178;product=ribosome biogenesis GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016201.1;translation=MKPVVAIVGRPNVGKSTLFNKLIGERAAIVKDVPGVTRDRLYRDIEWSGHEFLLVDTGGLEPNTKDYIMSKVRYQAEVAIEEADVVVFIVDGQAGVTALDEEVAYVLRKKNKHVILAVNKIDNLEKHSELVYEFYGLGFENFIAISGEHKQNLGDLLDLVIEKFKDIELIEEEEGLRIAVIGRPNVGKSSLVNKLMGEERTIVSNIAGTTRDAIDTKFEYDGNSYVLIDTAGIRRKSKVEESLEYYSVLRAIKSIKRANICFVLIDSKEGVTDQDKRIAGLAFEEKKPIIIVINKWDLVKKDNYTMKDYEKEVKDQLPFLSYAPVIFISALTGQRVLKLIEKSEQIFAEYTKKITTGVLNQVLKEAMMLNPVPTRKGRVVKINYATQIRTAPPKFVLFANNPDLLHFSYLRYLENKIREAFGFEGSPIEFTVRRKGKDD;locus_tag=LOCUS_01780;gene=der;EC_number=3.6.5.-;note=WP_011016201.1 ribosome biogenesis GTPase Der (Fusobacterium nucleatum) [pid:65.7%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.4e-169],MGA_178
sequence1	MetaGeneAnnotator	CDS	200525	200923	.	+	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023037397.1;translation=MKEESNFKGIEDDLLQELEDFKRDKERIRKIIGNIGGKAYSKLDMTINIVFLGIILVIFLLEMTIHLLPAFTSLEIGVLLVSIKIAFMIHSQQRFNHFQFWILSSMEFKINEIDKKVKQIEKRTREEKIINK;locus_tag=LOCUS_01790;note=WP_023037397.1 hypothetical protein (Fusobacterium) [pid:37.6%25%2C q_cov:88.6%25%2C s_cov:95.1%25%2C Eval:2.5e-17],MGA_179
sequence1	MetaGeneAnnotator	CDS	200972	202663	.	+	0	ID=MGA_180;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MEKNKKKRLPIGISDFKTVIEKDMYYVDKSMFIKDVIDSGQVILITRPRRFGKTLNQSMMKYFFNIQEENSELFKNLKIYKDKEIIEEYMNKYPVIYLTFKDMKALDIQAMMNKMKMELSSLYIEHDYLLNDKILKDVEKNVYNKIMNLDENNQLYESSIKKLSEYMYRYYRKKVILIIDEYDTAIQQSYLNGYYKEFIMFMSNLLGSGLKDNKYLEKGVLTGITRVSKESIFTGVNNLKVSTILDELFNDKFGMLKEEMEDILKYYNLEYEEKDVMTWYDGYNFGRVGIYNPFSIINLVDNKGKIKPYWVNTSGNKLIKDLIRKGNVSIKKKIELLLSGETIESSIEEAMIYNDLSTENESYVWTLFLFSGYLKWVEKVEESIYKLKIPNKETEGFYRKILRNILDDKNIDIENILEKLILGKIKGFKKDFKKLVMGTLSYFDVKGDEPERFYHGLILGMIVSLNKKYVVKSNRESGLGRADLLLIPRDKKDKGIVIEFKKYDEDVDKDLVDSAKRGIKQIEFKKYEEEIKSYGVEEVIKVGIAFEGKELEIVSNLENIIDN;locus_tag=LOCUS_01800;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:40.0%25%2C q_cov:97.3%25%2C s_cov:98.9%25%2C Eval:5.5e-108],MGA_180
sequence1	MetaGeneAnnotator	CDS	202733	204745	.	+	0	ID=MGA_181;product=NAD-dependent DNA ligase LigA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015784.1;translation=MKDISEKILSEIKELRELIDKYNYFYYAKDESIISDYEYDMLTKKLEKYEKEYPELINEFSPTQLVGKLDKNSKFKKVEHKVPMLSLANTYGINDIKNFNDRVLKIIERDNIEYVLELKLDGLSISLNYENGKLKRGVTRGDGKIGEDVTENILQINSIPKYLKENINIEVRGEVILPLDKFKKINKERIEKGQEVFANPRNAAAGTLRQLDSKIVKERELDCYVYYLVNSENYNLEKHSQSLEYMKKLGFKVNDNYKIVNNIFEITDFIKEWEEKRKELNYETDGLVIKVNEYMFYEELGYTTKSPRWAIAYKFPTTQVTTKLISITYQIGRTGVITPVANLEPVRISGSMVRRATLHNFEEIARKDIRIGDIVFVEKAAEIIPQVVKPVIELRTGEEKEVEMPTICPSCREKLYKDENEVALKCVNNSCPEKLKRKIEYFVSRDAMNIEGLGPKLIERFINEGYIKNICDIYKLEDKFNEISEMENFGIKSIENLLESINKSKTREYNKVLYSLGIPYVGKFLADTLSNYSKNIVFLMQMSKEELLEIDGVGEKVASSVIKFFQDENNREIIEKLKQIGLNFEFLEKDNQDEDLKKLIGKTFLVTGTLKNYKRSELKDIIEKNGGKNVSSVSKKLNYLIVGENPGSKFKKAEVLGIPIINEDEFFKMI;locus_tag=LOCUS_01810;gene=ligA;EC_number=6.5.1.2;note=WP_011015784.1 NAD-dependent DNA ligase LigA (Fusobacterium nucleatum) [pid:53.8%25%2C q_cov:98.7%25%2C s_cov:95.4%25%2C Eval:2.6e-200],MGA_181
sequence1	MetaGeneAnnotator	CDS	204834	205649	.	+	0	ID=MGA_182;product=3-methyl-2-oxobutanoate hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287874.1;translation=MITVNDILSKKGKEKITMITAYDYQTSKLADEAEIDMILVGDSLGMVVLGYESTLPVTMDEMIHHAKAVNRGRKNSFLVVDMPYLSYNVDMKDSLYNAGRIIKETGANAVKLEGGKRTIETIKRIIDLEIPVVGHLGLTPQSVNKMGGYKIQGKEKTAAEEMIEDAKELEKAGVLAIVLEGVPENLAKLITKEVNIPTIGIGAGIYTDGQVLVIYDMLGYNELVPKFVKKYATLKENSIAAIKKYIEDVKNGDFPSKEYIYKAQSKIEKIY;locus_tag=LOCUS_01820;gene=panB;EC_number=2.1.2.11;note=WP_002287874.1 3-methyl-2-oxobutanoate hydroxymethyltransferase (Bacteria) [pid:58.1%25%2C q_cov:97.0%25%2C s_cov:96.4%25%2C Eval:1.6e-81],MGA_182
sequence1	MetaGeneAnnotator	CDS	205746	206042	.	+	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKEMFHTEDLENVIEELVFKELHKIISEKSVEFCTCKICLQDIAAIVLNRIPPRYKNSIIDKMYPNKREEEKLEKLENLIDEQLLVAIEKIKENPHH;locus_tag=LOCUS_01830;note=MGA_183
sequence1	MetaGeneAnnotator	CDS	206082	206630	.	+	0	ID=MGA_184;product=cupin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903986.1;translation=MTLGDRIKKIRNEKGYSLRELAEKVEVSASFLSQIEQGKASPSIENLKKIANELEVRVSYLIEDEDVKKDAVFTKKEDRYIVESLNSKTTISLLTTPDIDKNMEPIFYEIEPGGESGKGYYYHPGEEFVFVIAGELDVYINEKKYILKKGDSLYFKSTQKHKFKNSSKLKAKVLWVVTPPTF;locus_tag=LOCUS_01840;note=WP_005903986.1 cupin domain-containing protein (Fusobacterium nucleatum) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-57],MGA_184
sequence1	MetaGeneAnnotator	CDS	206651	207154	.	+	0	ID=MGA_185;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016229.1;translation=MTENIKLIVLDVDGTLTNGTIYIGNSGEELKGFNVKDGFAIVKAQKVGYKFAIITGRKSVIVEKRAKELSINEIHQGIENKRDKLKEVLDKYNMNMKNVAYIGDDINDLPAMKDVGLVGVPYDGAQEVKKISDFISSKKGGQGAVREFIEYILRNNGDWEKILRDYK;locus_tag=LOCUS_01850;note=WP_011016229.1 HAD family hydrolase (Fusobacterium nucleatum) [pid:58.5%25%2C q_cov:98.2%25%2C s_cov:97.6%25%2C Eval:7.7e-51],MGA_185
sequence1	MetaGeneAnnotator	CDS	207260	209746	.	+	0	ID=MGA_186;product=DegV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015924.1;translation=MGIKYINAIRLKKMLIAGSRWLVKHQDILNELNIYPVPDGDTGTNMSMTVKSIEEELNKFNEKQDMDSLINVVSETVLLGARGNSGTILSQIIHGFLKPLEGKEKIYAKDIAVSLDSAQKTAYEAVQEPVEGTILTVVRIVSEKANEFVKTNNDLIELLEYIKRIAEKEVENTKNLLPKLKEADVVDAGAKGFFYILEGFEKLIKDGIIIEEIEENITTKELSGIFNLSNSEEELKYKYCTEFIINGSDFDFEEFKDKLSELGDSMVAVQVANKTKAHIHTNNPGLAIEFALKHGELIMIKIDNMGVQHKSVVIKDKVEKIMINKIQNKEDGYIAVADTIEIANLFLKLGANAVIVGGQSNNPSVADISEAISKIDAKRIVLLPNNKNIISTANLASQRAGKNSLVMDTKSIVEGYFILRNKIENIEDLLNALKRNYSIEVTQAVKDTKINDLAIKKGDYIALVNNKIEIAEKKLEDIIEKISEKYIDNKTIQVSIFKGENVTQKSETKIKDKFKNIKTECFTGNQKNYFYYMYIENRDEELPEIAIVTDSTSDLEQEMINGLPVYIVPLKVNLDGEYKKEKEEITKGQFWKSLLEMDGLPKTSQPSPAEFKNLYKKLLEKGYKKIISIHISGKLSGTHQAARVARNMIGKNENDIKIIDSKTVMSSLGHLVIEAGKKAVEKENFEQIIEWVEKTKDKGLLIGSVSSLKYLEKGGRIGKAASLIGGILKMHPIVKIEDGEVYSAKKVIGDLGVYNYFEKILKEEMKKGPIIVYNLWGGTATELANAKKLFKLEEKYDKITVRGVVETGSVVGSHVGPIYGLVIYPKLN;locus_tag=LOCUS_01860;note=WP_011015924.1 DegV family protein (Fusobacterium nucleatum) [pid:47.5%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:1.7e-212],MGA_186
sequence1	MetaGeneAnnotator	CDS	209802	210122	.	+	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKLILLIMTIAIITGCSADVTVNTLDARGGIVSSALVNIYDKKNNLIASNGSGPDGVLKVNLDYNEYIIKVTRDGYNSAQGNVQVNLIGALSGISLDIPLVRAK;locus_tag=LOCUS_01870;note=MGA_187
sequence1	MetaGeneAnnotator	CDS	210496	211413	.	+	0	ID=MGA_188;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903984.1;translation=MRLSSFLDSELIFVNLNEKGKDQIIETMVEKAALVDEKLKKRKREIEDAVLKREHEISTAMGNHIAIPHARIEGYDDVMVIVGILSNDLECETAIHTKDSIKMIFMIIAGQTKNKLVLQLMKGIMKLSTKQDVLKKISNLKDAEKIISIIKDEEIEVSERITAEDVMSTDVEPAKLTDTLEEIAKRFVVEELRGVPVTDNKGKFIGEITQRELIQYGMPKYTSLMGDLGFMTVGEPFEEYFKNEKKVTVKELYRKNPITVDKKASIMEVSFLMVTKGNTRIYVVENGKYYGMILRSDIIKKILHV;locus_tag=LOCUS_01880;note=WP_005903984.1 PTS sugar transporter subunit IIA (Fusobacterium nucleatum) [pid:43.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-68],MGA_188
sequence1	MetaGeneAnnotator	CDS	211424	212719	.	+	0	ID=MGA_189;product=ArsB/NhaD family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903983.1;translation=MNTLVIALIIFLVTYLFIITEWIPASTAAFLGGIAMVGTRVLTQEEAFHSIDLGVIFLLTGMMMIVFVMSETGVFQWVAIKIAQLVKGEPFALMAVLSIVTAVFSAFLDNVTTVLLIAPVSILLAEQLELDAVPFLITEAIASNIGGTATLIGDPPNILIGTAAHISFNDFLIQLGPVILLNLVFLVITLWFLFGKNMHVSRDLKAKIMELDSSRAIKDKKMLKFSLVVMGLVILGFLTHPFTGLEPAVIAMTGGIILIVLSGKHPEEIYKEAEWDTLFFFMGLFMLVDGVVKVGLLKIMADRALALTGGDLGVTSMLILWLSGIASAVVNNIPYTATMIPMIKEIIPQIAAHSTVPLKDIGYALWWALALGACLGGNGTLVGASANVVAAGIATKSGKPISFMRFTKYGAIITLESLVVSSVYILIRYIK;locus_tag=LOCUS_01890;note=WP_005903983.1 ArsB/NhaD family transporter (Fusobacterium nucleatum) [pid:46.2%25%2C q_cov:99.1%25%2C s_cov:99.8%25%2C Eval:4.7e-109],MGA_189
sequence1	MetaGeneAnnotator	CDS	212909	213928	.	+	0	ID=MGA_190;product=M50 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017067.1;translation=MVYLLITLLMLTLIAFVHELGHFTMAKFFKVPVSEFSLGMGPKLFSKKKNETVYSLRALPIGGFVNIDGMEPDNEMENGFNTKKPYQKFIILVAGVFMNFVLAYIILFFMAIFIGELKPNNNPIVGNVSKDSSVYSTLKKGDRIISIDNEKVETWDDIIKKLSIKKSDVNLIISRNNKIIKIKGKMKYNENAKRYLLGISGDVINVKYGIGQSFIKAGDNFIKVFDLTFKGLKMLVAGKVKSNEIAGPVGVVKVVKTFSAWGVSSLIFLIALLSVNIGIVNLFPLPALDGGRIIFVILEGLGMKVNRTVEENIHKVGFILLLSLIVLLTFNDIKNIFIK;locus_tag=LOCUS_01900;note=WP_011017067.1 M50 family metallopeptidase (Fusobacterium nucleatum) [pid:43.7%25%2C q_cov:97.9%25%2C s_cov:98.5%25%2C Eval:6.0e-74],MGA_190
sequence1	MetaGeneAnnotator	CDS	214139	215860	.	+	0	ID=MGA_191;product=alpha-amylase family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584022.1;translation=MKKIILAVYMMVGIVAFGEIVWVKTDKITEDSAKIIFETDKNEIGYINGLKIDEVPKKSHYFYLDNLVPNSLNKVLIKADEDIKTIEIKTTIKNIDYSKTPDFLNNAIFYEIFVRAFADSNNDGIGDLNGITENLDYIKSLGVNGIWLMPINSSPSYHGYDVTDYYSINKEYGDLDDFKNLIKEAHKKGIKILMDLVLNHTSSKHPYFKLARKSKKAPYRDWYVWNDKPKSSEWYKNNDGEFYYSAFWSEMPDLNYHNPLVVSEAKNISDYWLNMGVDGFRLDAAKHIDDTDSKFTHEFWYSWRKSIKNTNKNAIIVAENWTNSNEIAPYYKEFDMNFNFDLSKMMIDTISRKKDMGLVDFINGIYKEYKMQNPNFVDAPFLTNHDMKRIMNHFIIKKYRDLQMKQISTMLFTMGGVPFIYYGEEIGQRGNKPDEHIREPFDWYKNMTGQYMAKWITPKDIKADDGVSVEEEKDIKSSLLNHYKKMIKLRNKYKVLRNYNISSINLKERKIYGYIKSDNKEKIIILFNFGRKNAEIKLEDLFKENECYDLYNNKKLIKKVEIPKYGFAILKKE;locus_tag=LOCUS_01910;note=WP_012584022.1 alpha-amylase family glycosyl hydrolase (Dictyoglomus turgidum) [pid:43.7%25%2C q_cov:81.3%25%2C s_cov:93.0%25%2C Eval:5.1e-117],MGA_191
sequence1	MetaGeneAnnotator	CDS	215863	216936	.	+	0	ID=MGA_192;product=histidinol-phosphate transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545615.1;translation=MLKKLVNENIKNLEPYKVPDLDYNIKLDANENPYPMPEFLGENIKIDMEKEIFNALWNYYPDAQSKDLREELAKKLKLKKENIILGNGSDELILNLMLTYVSKGKKVLIHTPTFAMYKITTQIVNGEVIEVPLNSEDFSINKDEMIKNVIKDDVAMTFITYPNNPTGNLFEEKSIIEIIEKAKGLVVIDEAYSEFAGKSFVDKVSKYENIAILRTFSKAYGIAGLRIGYMVASEEVINEVNKVRLPYNINKITQIIALKVLKNSENMKKIVKDILEERERMEKELSEITEIKLYKSDSNALFFKTEKAEIIFSKMLENKILIRRFKGDLKNFIRISIGRRDENDKVLNIIKELFGKN;locus_tag=LOCUS_01920;gene=hisC;EC_number=2.6.1.9;note=WP_012545615.1 histidinol-phosphate transaminase (Thermodesulfovibrio) [pid:39.1%25%2C q_cov:98.3%25%2C s_cov:97.4%25%2C Eval:2.9e-66],MGA_192
sequence1	MetaGeneAnnotator	CDS	217036	217953	.	-	0	ID=MGA_193;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005814609.1;translation=MCRINPRVDFAFKKLFGTESNKKLLIDLINSIVSEEDQVKELELKNPYNDKNFRNDKLSILDIKATDQRGQWYNIEMQVIDQEYFDKRALYYWARLYSGQLSAGVNYDNLKKTISINILNFRCLDEEKYHNIYKIINSESGKEFIDHLEIHFIELEKYDEKMSTMLDRWVNFLKKAEGYDKNRLPKELAEVESIKKAVELLDDMSLNYEERESYEARLKWLRDEEAAIKTAEKKGFAKGIKKGIEKGIEQGIEQGIEQGIEQGIEQGIEKGIENTAKEALKNGLSLEMISKITGLSETEILNLKK;locus_tag=LOCUS_01930;note=WP_005814609.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:32.3%25%2C q_cov:98.7%25%2C s_cov:96.0%25%2C Eval:3.5e-38],MGA_193
sequence1	MetaGeneAnnotator	CDS	218113	218502	.	+	0	ID=MGA_194;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941941.1;translation=MKFLVVEDDFVSRNLLVRYLRKYGESDVAVNGREGLDIYKLEVEEKRSYDLIFLDIMTPEMDGMEFLEEIRKFEKEKGILGMNGAKIVMTTALGDMDHVKKAFRYQVESYLIKPIEVSKIEEIIKGITE;locus_tag=LOCUS_01940;note=WP_010941941.1 response regulator (Geobacter sulfurreducens) [pid:44.4%25%2C q_cov:96.9%25%2C s_cov:96.2%25%2C Eval:9.7e-25],MGA_194
sequence1	MetaGeneAnnotator	CDS	218514	219851	.	+	0	ID=MGA_195;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582875.1;translation=MKNYFDDIEDKNEVQKYLIGTIENNFEIVIITNNDGVISYISKSGENYTGYELIDIEEKSIFDFIKGKTIRDKFLKKSLNKTSVEFKLKKRGIRNFKITIYKIETNKYIWYFTDITMEVKKIETILESLSLRNIIYNIMEEFIFSFQILVGDKLTSLYEVNSSLEKVLGYNREELYKKKVVDIIKCDFNKMISKLYSEKQFTEETLLIKSNGDELPIKAKFILLEGYEPKTVVVIARDISVEKEVKSLLLENIKNNDIMVDNIVETMSKIVEKRDPYTVGHQKSVSEISVKIGKEMGFSKDRLRGLEIAGILHDLGKVAIPIEILTKPGKLMEEEFNLIKKHSEIGYDILKDIKFPWEIAEFVLQHHERINGSGYPLGLKGDNISLESKILAVADVIDAMASHRPYRAALGLKSAMEEIEGKKGILYDERVVNSAIKVLGKGEKL;locus_tag=LOCUS_01950;note=WP_012582875.1 HD-GYP domain-containing protein (Dictyoglomus turgidum) [pid:39.3%25%2C q_cov:87.9%25%2C s_cov:96.4%25%2C Eval:7.1e-68],MGA_195
sequence1	MetaGeneAnnotator	CDS	219848	220240	.	+	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVVDDDYLSKNLLSRIFKGSFIVEGASNGKEAIEKFRRENYDIVFLDIMMPLMTGMEVLKKIREYEKEKKVIESEKSVIIIVTALGEIENIETAYEMGCDLYLKKPITIKNLREKLGELGIELKKI;locus_tag=LOCUS_01960;note=WP_002263646.1 response regulator transcription factor (Streptococcus mutans) [pid:36.7%25%2C q_cov:92.3%25%2C s_cov:49.1%25%2C Eval:5.3e-15%2C partial hit],MGA_196
sequence1	MetaGeneAnnotator	CDS	220253	220654	.	+	0	ID=MGA_197;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868673.1;translation=MDEKIGVKENGIPYKILIVDDSPLIHKMIKKGLLPLGFEVVGDAKNGKEGVELYKKLNPDLVTMDVTMPIMDGVAASEEIMKINPNANILMLSAMGDNDIKKQAEEKGVRNFITKPFKKENLAKSVMDTLGMA;locus_tag=LOCUS_01970;note=WP_010868673.1 response regulator (Pyrococcus abyssi) [pid:49.1%25%2C q_cov:84.2%25%2C s_cov:93.3%25%2C Eval:3.0e-26],MGA_197
sequence1	MetaGeneAnnotator	CDS	221067	221546	.	+	0	ID=MGA_198;product=chemotaxis protein CheX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002668974.1;translation=MAVNLEYINPFLSSVINVMNEMIDEKPIKSEVKMQKTNFKSEGISTIVGITEGGKGNIIIDMKQETAIKIAEIVNEEEYGKLTDFVFITLAEIGNMIAGNGITVINNKNSKLNLRLTPPSIFAGDDLEIDSPKLSSIGVKFKLSFGEISLNVAFEGVEV;locus_tag=LOCUS_01980;note=WP_002668974.1 chemotaxis protein CheX (Treponema) [pid:28.5%25%2C q_cov:95.0%25%2C s_cov:96.8%25%2C Eval:6.9e-19],MGA_198
sequence1	MetaGeneAnnotator	CDS	221549	222016	.	+	0	ID=MGA_199;product=chemotaxis protein CheX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004450459.1;translation=MSINVELINPFIKGTSNVLEQFGIIEIKKGKIVKKNRLDSKYPVTIVVGIVGELKGNITYNLSLETSKKLVSAMMMGMEVVEMDEMAKSALSELSNMITGNAASIFESMGKVIDISPPTLITGKNIIAWISQVETIALELVMPIGIIELNIGLEI;locus_tag=LOCUS_01990;note=WP_004450459.1 chemotaxis protein CheX (Clostridium botulinum) [pid:39.6%25%2C q_cov:89.7%25%2C s_cov:90.2%25%2C Eval:8.0e-22],MGA_199
sequence1	MetaGeneAnnotator	CDS	222098	223573	.	+	0	ID=MGA_200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNLMNFFEENYEAIIVMDKTGIVENINKVGLKQIGYNKEDIIGHHLSKFSKNYSEELYNKMLRKVIKNKRYNDIFYFREKSGKEIIWDSHLYLWRNSGDEKIVKVAKNISKKLKLEECLRESHERFFQAFEKSPIGIVLISEDMKIIEENESFKNILEISDNRYLKRNFKKNIYVDDIEKIENGLKESKKYENTKKIDIRIVTQKRNLRDISLTISYTKQVEIEKEFFILQLEDITNEKITNEKLKLLIKESQSLNKIKDSLLSNISHEFRTPLNRISIALDLLIEEIGKGTAENDLIQIIKKSMNNILEYLENIILMSKIVSKSLTYNLEKFQTKEIIDGILDIKEKNIGNKNVKFEINDKKLGDKIIWGDKEKILKIVSEIVKNSIIFTQIGYIKINLGIVENMLEIKVKDTGIGIPEDIKERMFNILEQGDMSYKKSHSGIGIGLSITKTYVEGLGGTIDFITEVGKGTEFKVMIPIEIIKVGKIDI;locus_tag=LOCUS_02000;note=WP_011948124.1 PAS domain-containing sensor histidine kinase (Clostridium botulinum) [pid:30.2%25%2C q_cov:82.5%25%2C s_cov:66.1%25%2C Eval:4.8e-36%2C partial hit],MGA_200
sequence1	MetaGeneAnnotator	CDS	223598	224761	.	+	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDMNMFMDEFVSDISEILENLELDTIELEKNGKDKEILNRIFRSFHSLKGMCGTMGFHKMESTSHLVEDLIQDIREDKIESNQEIIDVILYDRDIIEKLYKSIMETGKEKEIETETEELKLKLDKIRGINDDKKDDKKSRDMATNRVKIRFIGDSYKKDMISSALKMGLKLHEMTIKLNKNSDMPLVRGFMVYSSILKEARIIYSNPSYESLLEGEEVEETFDFKVIFTTNKKIIDLKNRVRKLVDVESIKVSEVIEYGKTIKDKYLINEEWESGSFKPFTLEEIVEMTDEFDYEYEENLIKELKIKISSSDDKKTDLMFMQEIYSRLHQIENIFKIYKIKLLADIFKDLKIKFDNNIKNEKITENIKKLIISGCEFSELYLETIGK;locus_tag=LOCUS_02010;note=WP_010891851.1 response regulator (Campylobacter jejuni) [pid:32.7%25%2C q_cov:26.1%25%2C s_cov:13.1%25%2C Eval:7.8e-12%2C partial hit],MGA_201
sequence1	MetaGeneAnnotator	CDS	224786	225862	.	+	0	ID=MGA_202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELLEKLENGKTEEKLDIIEEIFEKRNFENYLVEIVDYLEKSKEGIVREKIVNYLKKYNNPKIVDKLLKFYESNDIFLRNVAVDIISQFYELPFANLTKMLNHENKHVRKLALDTLYNTHNPMVAGFISTALYDDEDINNVITAVEYLGKLKAYKYADDIAELLKDAEAPFLIITILGTLSLIGNKYSYMKVKDIYPDIEKVDALFLAPLLKFYKKFNGGELIEEILKLKSKYSLLYKEVIDIVKDFIDNGKPEEIDEKGEDIYNLLKELLEEKIPEANKYEVIHILALFEGEEVEYILVESLHNGSDILKIGATEELLKIDFNKYKDEIKKVIEDEKDENTKENLIILLEGDNNEA;locus_tag=LOCUS_02020;note=MGA_202
sequence1	MetaGeneAnnotator	CDS	225852	226757	.	+	0	ID=MGA_203;product=protein-glutamate O-methyltransferase CheR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942855.1;translation=MKLRANRFNLNKVENKVEMEFGLNEFRQIRDIIYDYAGIYINENKLYFLKKRIEDRMEIQNMNNVNEYINFLKYFDKAKKEMNELMNSVTINETYFFREFEQLKVFGEYGIDDVLKNKGRFNKKIRVLSAGCSTGAEPYTLSIILKELLEEDEGVDFEIVGIDIDDNVLDKAKKGIYDKRSIKYVPISYLKKYFIQDDAETFRVINSIKEKVKFYKKNLTDSNGLLALGYDFDFLFCRNVLIYFDSDSRRKVIETYYKMMNDGGYIYLGHSESLSRITTAFKLKRMGGQLVYQKPIRGDEK;locus_tag=LOCUS_02030;note=WP_010942855.1 protein-glutamate O-methyltransferase CheR (Geobacter sulfurreducens) [pid:40.4%25%2C q_cov:92.7%25%2C s_cov:95.8%25%2C Eval:6.0e-59],MGA_203
sequence1	MetaGeneAnnotator	CDS	226754	227125	.	+	0	ID=MGA_204;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545197.1;translation=MKIMIVDDSEMTRNFHAYILRTAGFEVIDAVDGADALDKLYRFSDEIKLVLTDLNMPIMDGYTFIKKVREDKIFDELPIGIITTIDEQKNRDEGYEAGVDFYLVKPTEPSVLIESIKMVLGGD;locus_tag=LOCUS_02040;note=WP_012545197.1 response regulator (Thermodesulfovibrio) [pid:45.0%25%2C q_cov:97.6%25%2C s_cov:95.2%25%2C Eval:2.0e-22],MGA_204
sequence1	MetaGeneAnnotator	CDS	227128	229632	.	+	0	ID=MGA_205;product=chemotaxis protein CheA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001192618.1;translation=MMKKFDEENIEILVDVLEEIDIYKETIERSILKFEKESNNEIVDELFRAYHSIKGIVGFANLDSIATIASFTEKILKTLKDKNENIENKDEIVSLLLDSIDLLKEIEMKINEALSSKGDKKEISIDIVDIGEEEFKKRVLDIIGEKEEKSELVFDNLNYEYEDKIISQSFEKYTYEFGDNLKIAEESLLNLENKFSEEEINVLMRAFHSIKGGAGLLLILQTNENTKKIFKLIEKVAHSLEDLVQVAEYENDSKDFDSFYKGIDILKGIYRSLSSKEKTIKINNDYLEKVNRVSKEENKKQNEDKQEEDKQEEKDKKKIAKIKTLKNFNNQFIEYLKKNVIEKEEYNVGKSKRISKGLRGSLKNLKFNEKLDFINDIINSIENEEMQEIKDKLEELKKWDFEVEKPLKNKSQNEEAEKKNINIKSNGKGDNETTLKKVATNRSIRLSKDKVDKMVNLVSELLTLKNQQANLTKDVSGYKEISGKMKKVYGNFERLTLEFQNIVMSMRMVGIENLFNRYRRTVRDSAKALGKEVELIIEGGETAIDEDIMELLSDPLTHMVRNSVDHGLGMPEEREENGKTRTGHVTLRAYNKGGFIFIEVEDDGRGLNHNKILQKAGEKELINDIDIEKLTPEDIYQFIFLPGFSTSEKVTNLSGRGVGMDVVKTNITSLGGRIIINSKEGEGTKFILKIPLSLSIIKGLMVKLDKGKYILPLENIRENIKLKKSNIRRYKNSYLAVIRDEPIPLIDIKFLTGKSLGEIINKEYFYDLIPIVVLDIDGENYGIVADGFIEENEYMVKPIPDFLKGNNLFSGTTILGDGSLVLILNPTTTVTLKE;locus_tag=LOCUS_02050;note=WP_001192618.1 chemotaxis protein CheA (Bacillus cereus) [pid:28.8%25%2C q_cov:78.1%25%2C s_cov:97.9%25%2C Eval:5.1e-76],MGA_205
sequence1	MetaGeneAnnotator	CDS	229637	230428	.	+	0	ID=MGA_206;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000516556.1;translation=MKEIIVFSNRKGGTGKSSSVYNLGYFLSEKNKVLLIDFDSQGHLGVWAGLKQSKVKEKNIYISLVKFIKNKTIDKDDVFKIKENLYILPSNQDLSALDMELMNVENNKTVLKDFIIEIEEDYDYIIIDTEPAFGMTALNGYVAATQLIIPIKTDYLSMIGVSQLMSLYYKVKSTMNPSIEFVGILPTFYNKRTNLAKNLMKELIETFGKDKIFSPIRKDIKLSEAPYYGKSIFEFAKKSHGEQDYRKFGEEYLKKAGEKNGIR;locus_tag=LOCUS_02060;note=WP_000516556.1 AAA family ATPase (Leptospira) [pid:35.4%25%2C q_cov:97.0%25%2C s_cov:99.6%25%2C Eval:7.3e-39],MGA_206
sequence1	MetaGeneAnnotator	CDS	230415	230732	.	+	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELGKGLKLFFGEMEENSEDVEDINNYFEKAKKEKNPLISFAYYFQVILKSEDEKLKSKAYNNLAIILYQEEYEKKAIEYLKKAIECDNENINAKENLEEIDSNR;locus_tag=LOCUS_02070;note=MGA_207
sequence1	MetaGeneAnnotator	CDS	231091	232560	.	+	0	ID=MGA_208;product=molecular chaperone DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582444.1;translation=MIGIDLGTVNSLVAYIGEDNKPKIISTERGEKFTPSVVYFKNSLEVLIGELAKSQMYLYPERTIRFVKRDIGKEIDYTIFDRKFNPAEISALILRKLMKISDEYFGKKKEAIITVPAYFDDNQRFYTINAAKLAGIEKVHLLNEPDAAAIAYGIFNDNTNLMVLDIGGGTFDISLMNIKDGVFKVIGNGGDTNFGGLDFDNAISDYILKTVQETQNIDLSKDPIAMQQILIHSEKAKLDLSTVDETNIMIPYISQNDNGPIHINITITKDIFYKLTENLFKKFEKLIEETLLENKIEDNWLNKIIFVGGTSRIKKFKDIIKNKFPTVEIKQDINPEDVVAEGAAIKAGILSGKLKDVEFKDILSHSYGIINDEGEFVEILNKGREYPTVESKLFTNSFDEQDEIILEIRQKIAEEIISLGSFKFKSTKKWKKNESNIEVVFNVDINGVLNVTAIDIDTHQSEELIIENALYGNRENETQVRRGKEIIVK;locus_tag=LOCUS_02080;gene=dnaK;note=WP_012582444.1 molecular chaperone DnaK (Dictyoglomus turgidum) [pid:38.0%25%2C q_cov:99.2%25%2C s_cov:79.9%25%2C Eval:2.7e-92],MGA_208
sequence1	MetaGeneAnnotator	CDS	232582	234537	.	+	0	ID=MGA_209;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390074.1;translation=MVRKMESPEDYSEKKYVTTGITTKQTNGDDSLKKRETAKKLAIQRAKARTMAKRQAMAEKIGAATAELAANVEQVSENGENLANAVEKIAAASHQAASATQEAIGSSKMINENVKASTKDMMDLNETINENEKMVQTMVVSVGELIENIKDIVEKNNVSVKMIQELEDKSNKIGDIVKTVVMISDQTNLLALNAAIEAARAGEHGTGFAVVADEVRNLAEVSEKSANTIRDVVDEMKVDIDGIVKDINEIINDSNKQTEKGGIVTEALRKFREDFVEIINKTEENIGLFNEIDKMSERIVSESETVAAATEQMSAATLESAKANEEQAKALEEISIATRELMEIAEELKTSTDSEKSAEIVASAAEQLSSNIEEVTATSHQIMSGLEQVSKGTEVVAAGAELGKKIVIEIEEKMNIFQENIKKDYENIENVKKELKNNTGIIKEIAVGLDGSDNLFQELSDNILNLQEKGFNINKTVNKIDKVTIQTNMLAVNGFVEAAHAGDYGKGFNVVSNDIRNLANDSGENADQIQELVEGIQRQIGKTSVNIAESTKYTAIGVKESHGTQKILTDMGENIESLIGVYKNVLNNMEIINNALEEEKTGIVQIALAAKDSNEAVKAVMEDAKKQFKTMEEISMAIEDIATIADELQTE;locus_tag=LOCUS_02090;note=WP_011390074.1 methyl-accepting chemotaxis protein (Rhodospirillum rubrum) [pid:36.5%25%2C q_cov:93.1%25%2C s_cov:94.4%25%2C Eval:5.9e-101],MGA_209
sequence1	MetaGeneAnnotator	CDS	234551	236074	.	+	0	ID=MGA_210;product=chemotaxis protein CheW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390075.1;translation=MKTTKEGQSIVFEIKDENYAVPLIYVKEIIRVPEITELPMSEESLKGIINLRGIIVPVISIREKFGIEKSIENKEQERIVILEKEGTQFGVTVDKMRGVINVNENEIEENDGNFESEFIKNVIKKDKEIYMELNLEKLIEIKTFGNSANGNLGNSNKSTENRQNILEVREKFVTFKIGENDYGFNIEDVKEIIRYIKPREVPAESEYMLGVIKLREEILPISDLRIKLGAEKTEVDEFTKVVVIESKNHKIGYVVDRIEEVINIEKDKILPPPLYLKTQGNDEIKSIIKDKNENITIILDIEKLMADVSENLDKLSETKNSIKENESNIKKDEDVQFIIFELEKTLYGIEIEDVREINRLSNITKIPKAPEFVEGIINLRGDVIAVVDLRKRFSLNKKEIGEFTRIIISEVKGVSIGFIVDYVKYVSKVNRNEILPVETLGFVNNDFLKGVYKNKDNNSMVLILNFENVMTEKEVKDLGKIGSKPVTKKRETKKKVPKKKKTLKINE;locus_tag=LOCUS_02100;note=WP_011390075.1 chemotaxis protein CheW (Rhodospirillum rubrum) [pid:28.6%25%2C q_cov:93.5%25%2C s_cov:93.4%25%2C Eval:5.2e-54],MGA_210
sequence1	MetaGeneAnnotator	CDS	236239	237333	.	+	0	ID=MGA_211;product=chemotaxis response regulator protein-glutamate methylesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878541.1;translation=MNEIRVIVADDSALMRRTLKKIIEMDSRLVVIETARDGEDAVNKVKELKPDVVTMDINMPKMDGLTALQIIIEEDICPIVVVSSLSQRGALTTYEALELGAFACVGKPGGTVSTNMADVQKELCDVLYEAALIGHNGEKLKRLSNKMKTIKKIRKEEEVLLNEIEVKVKKGGILKAVALGISTGGPKNIYDVLPLLPKNLNAAIFVVQHMPPNFTESYAKRLNKYCDMEVVEAKNGMLVERGVIYIGKGGYHIRTRKNFNNDLVIRLSRVPKHMFMPSVGIMMESILDSFGENTLGVLMTGMGDDGANGMVKIKQAGGYTIAEAEETCIVFGMPQEAIKRGGADIVLPSYKIAKEIINKVGLYK;locus_tag=LOCUS_02110;note=WP_010878541.1 chemotaxis response regulator protein-glutamate methylesterase (Archaeoglobus fulgidus) [pid:43.4%25%2C q_cov:97.3%25%2C s_cov:97.1%25%2C Eval:6.2e-72],MGA_211
sequence1	Aragorn:1.2.38	tRNA	237430	237506	.	+	.	ID=Aragorn_1;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00010;note=Aragorn_1
sequence1	Aragorn:1.2.38	tRNA	237510	237585	.	+	.	ID=Aragorn_2;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00020;note=Aragorn_2
sequence1	Aragorn:1.2.38	tRNA	237591	237667	.	+	.	ID=Aragorn_3;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00030;note=Aragorn_3
sequence1	Aragorn:1.2.38	tRNA	237697	237772	.	+	.	ID=Aragorn_4;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_4
sequence1	Aragorn:1.2.38	tRNA	237813	237889	.	+	.	ID=Aragorn_5;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00050;note=Aragorn_5
sequence1	Aragorn:1.2.38	tRNA	237934	238009	.	+	.	ID=Aragorn_6;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_6
sequence1	Aragorn:1.2.38	tRNA	238050	238133	.	+	.	ID=Aragorn_7;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_7
sequence1	Aragorn:1.2.38	tRNA	238156	238231	.	+	.	ID=Aragorn_8;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00080;note=Aragorn_8
sequence1	Aragorn:1.2.38	tRNA	238244	238319	.	+	.	ID=Aragorn_9;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00090;note=Aragorn_9
sequence1	MetaGeneAnnotator	CDS	238805	240424	.	+	0	ID=MGA_212;product=peptide ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000824544.1;translation=MKKRVLSIALLMTFVSAVSFGGIFDFLLGKKKEVKNLKAITVNLGQEPGSMDPQLLTDSVAIQVKGLTSEGLTRIGKDGGIMPGMAKSWEIKGNKWFFHLRDAKWSNGDSVTANDFYFGIKRAIDPATASEYAYMTYYIKGAQEFNEGKLKDFSQVGVKVIDDKTLEIELSKPAAYFASVTAFPTYLPVNEKFYNAHKEEFALEADALLFEGPFILKRWDHDSKMILVKNPNYWNKDNIKLDQVTFVMVNDTNTALNMYKNGELDIAGLSGDQLPAYKDSKDLRTYSDGSVWYFEFNTTDKLFKNVKIRKAIALAIDREALVNKIKKDGSKAGTGMVPFGFPGKTAKGFRGDYGNQLYSYNPVEAKKLFAEGLKEVGYTGPVVVSMLTGTSDGATKEAQFYQEQLRTNLGIEAKIEQVTFQIRLQRMSSKDFQIVLAGWGPDYLDPMTYMDLWVTGGGNNQTSWSNPEYDKYIETAQKSSDNAVRMDAMAAAEKILAKDFPVAVTFYRNRNRLVNPKLKGVKFRSVGSETDLYWAYLED;locus_tag=LOCUS_02120;note=WP_000824544.1 peptide ABC transporter substrate-binding protein (Bacillus) [pid:37.3%25%2C q_cov:99.6%25%2C s_cov:99.5%25%2C Eval:2.7e-96],MGA_212
sequence1	MetaGeneAnnotator	CDS	240812	241756	.	+	0	ID=MGA_213;product=oligopeptide ABC transporter permease OppB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245554.1;translation=MLKFILKRILSGVVTLWIVTTITFFLMHALPGDPFASEKAIPPKIKANLMKKYHLDKPLVVQYVYYLGGIVKGDFGMSMKVRGRKVSRIIARAYPISLDLGMRAIIFAFIFGIFFGIIGAFNRGKWEDTGAMAVAIIGVSVPSFIIAGTLQWIDIFVSKKAGISLLPVAGYDSPAHKIMPTIALGLMAVAVIARMMRASMIEVLNQDYIKTAKSKGLASKIVIWKHAFRNAIMPVITYLGPLIAAITTGSFVIEKVFAIPGLGKYYVESIYNRDYTMVLGITVFYSLLLIVMVLIVDILYGFIDPRVRIGKGRE;locus_tag=LOCUS_02130;gene=oppB;note=WP_003245554.1 oligopeptide ABC transporter permease OppB (Bacillus) [pid:49.7%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:1.1e-87],MGA_213
sequence1	MetaGeneAnnotator	CDS	241760	242683	.	+	0	ID=MGA_214;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048146.1;translation=MKNLDFTLVGKNLEESEKIYKPSLTYWKDVWRRLKQNKAAMFFLVSLVVLIIMAIIGPYLNKYDFREQHLDWQYKFWDKASFEKGFFFGTDDFGRDMFTRIWEGGRISFTIAFVVVFIEGVVGTLYGGIAGYFGGKIDFYMMRFVEIMMAVPSIIYIILLMVVMGAGVNTIIIAMGLTTWMVMAMIVRGEVIKIKQQEFVMASVALGASSFRIILRHLIPNAMGQIIVRLTLDIPSAIFTEAFLSFIGIGVPAPIASWGSLANNGYQLLAVAPHLFILPALFISFTTMAFNIVGDALRDAMDPKLRK;locus_tag=LOCUS_02140;note=WP_012048146.1 ABC transporter permease (Clostridium) [pid:46.8%25%2C q_cov:98.4%25%2C s_cov:97.4%25%2C Eval:4.4e-81],MGA_214
sequence1	MetaGeneAnnotator	CDS	242702	243733	.	+	0	ID=MGA_215;product=oligopeptide ABC transporter ATP-binding protein OppD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886477.1;translation=MVKDKILDVKDLYVSFDTYAGEVQAIRGVSFDLKRGESLAIVGESGSGKSVTVQTIMKLIPMPPGRVKSGEIIFEGEDIAKKSEHDMQNIRGGKIGMIFQDPMSSLNPTMSVGAQIAEGIIKHQRLSKKEAKIKALEMLKLVGIPNAEKRIKQYPHEFSGGMRQRVMIGIALSCNPDLLIADEPTTALDVTIQAQILDLMKDLKSKLGTAIILITHDLGVVADIAERVVVMYGGEIMEEADVKTIFYAPKHPYTWGLLQSMPRLDLGKDEEETLRSIEGTPPDLFNPPKGCPFAPRCEYAMKVCLEKKPHFFEIEEGHKAACWLLHEDAPNIESPIESRRKKI;locus_tag=LOCUS_02150;gene=oppD;note=WP_010886477.1 oligopeptide ABC transporter ATP-binding protein OppD (Bacillus subtilis) [pid:63.6%25%2C q_cov:98.8%25%2C s_cov:94.7%25%2C Eval:1.2e-122],MGA_215
sequence1	MetaGeneAnnotator	CDS	243730	244698	.	+	0	ID=MGA_216;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966891.1;translation=MSKEKLVEIKELKKHFDVGHKQILKAVDGVSFDIYKGETLGLVGESGCGKTTLGRTLTVLYKKTAGNIFYKGENVDKISYKEFAKKVQMIFQDPQASLNPRMTVGDIIAEGLDIHEMYTTKEERNKIVFELLEKVGLNREHASRFPHEFSGGQRQRIGIARALAIKPEFIVCDEPISALDVSIQAQVVNLLKDLQKEQQLTYLFIAHDLSMVKYISDRIAVMYLGDMVELAATDELYNKPLHPYSEALLSAVPIADPEAEITKNRIKLEGELPSPINPPVGCKFSTRCRYADETCMAERPKLREIIPGRLAACHYAERFLDK;locus_tag=LOCUS_02160;note=WP_010966891.1 ATP-binding cassette domain-containing protein (Clostridium) [pid:67.9%25%2C q_cov:96.0%25%2C s_cov:96.6%25%2C Eval:1.5e-119],MGA_216
sequence1	MetaGeneAnnotator	CDS	245040	245993	.	+	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVIFVFLIILFVGCSNEEIRKGGTSWDKINIPKEKNYYDSNGSLLEKIVYNGKIEGMLDKKVIVEGKIIDYKKKEIGKIRNSYSMENKILEEKMFDRAGEVIKNIKYIYSKDGKLISKTIIGKNYKLENVYSGDNGLDIKKTGKNGGDLILNIREEKYDLKGNLIKDYYEDNNGNLLLGYDYKYKYDLKGRLVEKIITRNDGFEFNQSYETELNRDEKVTSIAEYDSDGRVKKYTEYAYDDLGKLSSKIIKDELEEIKEKEDYDLNGNISNKIFYYQDGSKIYEIHKEYDDKNRIVLEDKKDSKGNKILTITYIY;locus_tag=LOCUS_02170;note=MGA_217
sequence1	MetaGeneAnnotator	CDS	246005	247261	.	+	0	ID=MGA_218;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164929215.1;translation=MKKISYILIFILFSISIFAKTNLLFWHGMEKGANEELLKRKVAEFESKNPEITVTLENYGEQDYLEKKLNKKLLSNEGPDMLWLGPQMLGKLVNTGKLLSLDKYMENDDIFSDFDVYRSLIEGTKYNGKTYSLPFDGNNLELSYNKEIFKKLGIDAKKIKTWNDFLKAAKRATIDTTGDGKIDQYGFLIPFGDKEWTVWIWQTFLWGNGGEFLSDDNKTPLFNSGAGIKALEFWKNLIYKEKVAKLSDYNKGWDISSFINGKVAMVINGPWNFMKLQKEFKGKYGAIYLPTNDKRVTNIGGENLYIFKSNKEKEDAAWRFGKYILSDNFQVEWATKTGYLPVTNSAVNTTTYKKFLSGNDFLKIYVEQMRYGKMRPTIPEYDNISSYLGYQLKTVLEDKIPVEIGLENAEEFANDILN;locus_tag=LOCUS_02180;note=WP_164929215.1 ABC transporter substrate-binding protein (Gloeobacter violaceus) [pid:39.0%25%2C q_cov:89.5%25%2C s_cov:84.0%25%2C Eval:9.4e-75],MGA_218
sequence1	MetaGeneAnnotator	CDS	247427	248209	.	+	0	ID=MGA_219;product=dihydroorotate dehydrogenase electron transfer subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016380.1;translation=MRLEDIIIKENKKVAHDTYLLSFVSSDMAKEILPGQFLEIKVGEGLNNLLRLPISIHDVIDDTIYMLYKVIGNGTKDLTEYKTGAKISALGPLGNGFPKLEGEKEVLLVAGGIGYGPFPLVIRNNNNYKLFYGVSTKNEIAKDTTFKLENDKVNVATVDGSEGHKGFVTDILEEYILKNGEKDKIIFSCGPEIMMKKVAQIANKYNIESYLSLEEYMACGIGACVGCVKKIKNSEKKEGWEYKKVCKDGPIFKGDEVIWE;locus_tag=LOCUS_02190;note=WP_011016380.1 dihydroorotate dehydrogenase electron transfer subunit (Fusobacterium nucleatum) [pid:36.2%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:3.4e-41],MGA_219
sequence1	MetaGeneAnnotator	CDS	248206	249111	.	+	0	ID=MGA_220;product=dihydroorotate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393617.1;translation=MNMKVKLGNIILQNPIMTASGTFGYGDEFKELVDLNRIGGICVKGTTLEERQGNPTPRILETPGGMLNAIGFQNVGIDRFKKEKYSFLKELKAKTFVNITANTIEEFGILANKLNDIEIGGIEINISCPNIKAGGINMGTDPDMAFKVVKEVKKNTKHHVMVKLTPNVTDIKVIAKAVEDAGADSISLINTLVGMAVDIKTRKPKIKNIIAGLSGPAIKPVALRLVWEVAKTVKIPIVGMGGISNFEDVLEFLIVGATAVQIGTANFYNPRVTMDILDGLEKYMKENEIKDINEIVGSFKI;locus_tag=LOCUS_02200;EC_number=1.3.1.14;note=WP_011393617.1 dihydroorotate dehydrogenase (Moorella thermoacetica) [pid:53.6%25%2C q_cov:100.0%25%2C s_cov:85.8%25%2C Eval:2.2e-93],MGA_220
sequence1	MetaGeneAnnotator	CDS	249157	251733	.	+	0	ID=MGA_221;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015646.1;translation=MKEYKFSEIESKWQKEWEEQKIFKTENKDENRENYYLLEMFPYPSGKIHMGHVRNYSIGDVIARYKKMNGYNVLHPIGWDSFGLPAENAAIQNGVDPKKWTLENIESMKKQLKKLGFSYDWDREIATCKEDYYKWNQWIFTKLYEKGLVYKKKSYVNWCDSCKTVLANEQVEDGKCWRCGNEVHQKDLEQWFFKITDYAEELLEGHKELKGNWPDKVIAMQKNWIGKSYGTEVNFKLENSDIDVPVFTTRVDTIFGVTYMVLAPEHPLVEEILKENKDIKEKVYKMRNEDKISRTAENSEKTGVFSGKYVINPVNNEKVPLWIGNYVLMDYGTGAVMAVPTHDERDFQFAKKYNLKLKIVITPEEDEINKDEMTEAYIKKGILINSGEFNGLKNREAISKIADYIEKKGYGKKTTNYRLKDWLISRQRYWGTPIPAIYCEKCGVVMEKEENLPVRLPSDVEFTGTGNPLETSNEYKNVVCPKCGGKARRETDTMDTFVDSSWYYLRYTDSKNSSIPFEKEIVDGWVPVDQYIGGIEHAVMHLLYSRFFHKLLRDLGLLSSDEPFKKLLTQGMVLGPSYHCPDCKKYYYASEVEEGNRCKTCGKDLKIKVEKMSKSKNNGVDPNHIIAEYGADTARLFTLFAAPPEKELEWNEKSLAGAFRFLNRVWRIVLENKEHVNIGNKIEIDVKKLNKDDKNLMKKLNQTIKKVTESMEDNFHFNTAIAAIMELVNEMYLYKNSIFDNKKESNIWREVIEKLVILVSPFVPHIADELWEEAGFKGFVYEEKWPISNEEFLVEDEVNVAFQVNGKLRDAATVAKEIGREELKELALNSDKVKKYTDGKNILKVIVVPNKIVNIVVK;locus_tag=LOCUS_02210;gene=leuS;EC_number=6.1.1.4;note=WP_011015646.1 leucine--tRNA ligase (Fusobacterium nucleatum) [pid:62.2%25%2C q_cov:97.8%25%2C s_cov:97.6%25%2C Eval:0.0e+00],MGA_221
sequence1	Barrnap:0.8	rRNA	252180	253695	.	+	.	ID=Barrnap_1;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00010;note=Barrnap_1
sequence1	Barrnap:0.8	rRNA	253804	256739	.	+	.	ID=Barrnap_2;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00020;note=Barrnap_2
sequence1	Barrnap:0.8	rRNA	256884	256991	.	+	.	ID=Barrnap_3;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00030;note=Barrnap_3
sequence1	Aragorn:1.2.38	tRNA	257019	257094	.	+	.	ID=Aragorn_10;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00100;note=Aragorn_10
sequence1	Barrnap:0.8	rRNA	257156	257264	.	+	.	ID=Barrnap_4;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00040;note=Barrnap_4
sequence1	MetaGeneAnnotator	CDS	257367	257552	.	+	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMKDLINEINDLSRKSKSIGLTSQEKKKQKKLREEYLEIFRNNFRNHLDRIKIVDVEETR;locus_tag=LOCUS_02220;note=WP_000371297.1 DUF896 family protein (Streptococcus) [pid:53.8%25%2C q_cov:85.2%25%2C s_cov:61.2%25%2C Eval:1.5e-09%2C partial hit],MGA_222
sequence1	MetaGeneAnnotator	CDS	257837	258418	.	+	0	ID=MGA_223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDMFFFFILLGMSFFFLILGVYLLRKKPLIAKGGVFVSIVSLCFFPTVIKNIIESYEYGGVYFKIIGLVFILFYIWLIFILIKSYGDIVVFNSKEEELYKSVYNSLENLGIEFEENRGKIISNQNKIELKLNHSSFFKITNLYIKSDEKFKNVFSSEIKKEMKDIRLSKISPGSVTYIIGGVFLITILTLWII;locus_tag=LOCUS_02230;note=MGA_223
sequence1	MetaGeneAnnotator	CDS	258763	261393	.	+	0	ID=MGA_224;product=pyruvate%2C phosphate dikinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583674.1;translation=MAKEIFMFEEGNKELKALLGGKGANLSEMTRIGLPVPYGFIITSEVCVDYMKQGEEVVEKLKDDILESLIKVEDKVGKSFAASENTLLVSVRSGAKISMPGMMDTILDLGLNDNNVEGFSEQFNDRRFAYDCYRRLIQMFGNVVMGIEHDRFEEVLTAIKKEKKIKYDIEFSIEDLKNIIVEYKKLVKNATGREFPQDPYEQLFMAIKSVFESWNNKRAITYRKLNNIPDDLGTAVNIQMMVYGNKNDISATGVAFSRSPSTGEKKLYGEYLKNAQGEDVVAGIRTPREINEMEKEFPGIYNQLKGISQKLELHYKDVQDMEFTVMDGKLYMLQTRNGKRTADAAIKVAVDFVKEGIIDKKNAIRRIDPELLIKIMHSRISPNAKKINRVIAKGLPASPGAAIGEVVFTADKAELLGKKGKKVILVRIETTPDDINGLAQAEGILTARGGMTSHAAVVARGMGKPCVAGCNELEIDLKEKIAKVGDVTFKSGDIITLDGGSGELYLGEVATIEPNLSEEAKLLLEWADEFRKLGVMANADTPFDAKKARSNGAEGIGLCRTEHMFFEKERLEFVQKMIMAGSKKDRIKYLDELEKFQIKDFQGIFEAMDGLSVTIRLLDPPLHEFLPKKDKIKDQIGFELKRHNIDKVKYLEKMLKKLDALQEVNPMLGHRGVRLGIVYKEIYEMQIRAIFIALIKRPDIKIKLGIMVPLVADINEFTVIKDLAKRIELEEIPHSGRKIEYEIGTMIELPRACMVADEIGKEAEFFSFGTNDLTQTTFGFSRDDAEGKFLHYYLENKILERDPFQTIDVKGVGALMKIAIEKGRNIKTDIKIGVCGEHGGDIESIDFFNEIGLDYVSCSPYRVPVARLSAARAEIG;locus_tag=LOCUS_02240;gene=ppdK;EC_number=2.7.9.1;note=WP_012583674.1 pyruvate%2C phosphate dikinase (Dictyoglomus turgidum) [pid:58.7%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:3.5e-293],MGA_224
sequence1	MetaGeneAnnotator	CDS	261883	262293	.	+	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEKKFVEVLSEVIKQLIGPSHENLKTVETHIVENLTKKGYELEEISEMLDEIFESMNISRAKDFKIRMIHPLEVENLTPEARSYLFDLRSSEVIDDEKFEELLNETIAVDFKVGINSLKTLLSRKGIIVNKIIN;locus_tag=LOCUS_02250;note=MGA_225
sequence1	MetaGeneAnnotator	CDS	262304	264538	.	+	0	ID=MGA_226;product=type I DNA topoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902939.1;translation=MVKRLVIVESPAKAHTIKKILGKNYEVTASYGHIRDLPKTKLGVDIENNFEPSYITIKGKGKVIAELKKKAKKVDQVYLASDPDREGEAIAWHIYNALKLKDKNIRVEFNEITKEAIKNAVKNPKPIDEKKVNSQQTRRILDRIVGYKISPLLWKILSPHASAGRVQSVALKLICDLERKIKAFIPEKFWEVSGIFNKKLKLEIYKIDKKRVKKIKDIKVVEKLKKEIINKEFEVITAKVKKKSKRAPFPLKTSTLQQLASSYLGFTASRTMGIAQSLYEGVSIGGSYVGLITYMRTDSSRISKEAKEAAQEYIKNIFGEKYVGDYVPQKSKGKIQDAHEAVRPTDVNRSPELIKDSLNKDQYKLYKLIWERFLISQFSNMEYEQFELVSEYEKYQFRGTVNRILFDGYYKLFKENDEDSYGGDFPEIKEGDKLLLDKLDITEGITKPPARLTESSLIKKLETDGIGRPSTYAAIIETLKKREYVILTKKSFIPTEFGFEVEEILEKYFPTVMDIKFTAKMEKELDEIEDGNLEWKKVLGDFYGELKEYLEGYNKEISKILNQDIYSDLICKKCGGKMLLKTGRFGKYLECENYEEDKERVSIPKSIKITKEEMELGEIKIADRLSVVVKEKAGIETDVVCKKCGGKMIVKTGRYGKYLECENYAEDKERVSIPKGIELIEEDGIIKIKEQMAKLDAEDEAALKEVGPCDKCGSPMIVKMGRYGKFLACSNYPECKNIKKYPKK;locus_tag=LOCUS_02260;gene=topA;EC_number=5.6.2.1;note=WP_005902939.1 type I DNA topoisomerase (Fusobacterium nucleatum) [pid:55.9%25%2C q_cov:99.6%25%2C s_cov:98.5%25%2C Eval:4.3e-236],MGA_226
sequence1	MetaGeneAnnotator	CDS	265041	266318	.	+	0	ID=MGA_227;product=methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016878.1;translation=MAGSEAAYQLAKRGIKVKLYEMKPIKYTEVHKSENFAELVCSNSLGSNLLTSASGLMKEELRYFDSFLIDIADKVKVPAGQALAVDREGFSEMVTKKIQENENIEIINEELLEIPKDKYVIIASGPLTSEGLSKKITELVGDDYLYFYDAVAPILTYESLNQEKVYFASRYDKGEGEYINCPMSKEEYTLFYNELINAETIPLKKHEKEKLFEACMPVERIASRGEKTLLFGPLKPKGLTNPRTGEEDYAVVQLRQDDKNGELYNMVGFQTNLKWGEQKRVFSLIPGLENADFIRYGVMHRNTFINSTKLLNKDLSLKSNDKIFFSGQITGSEGYVSAIATGLLAAINLYNKMNEKEVIVLPTITAMGAIVNYITEERKKFQPMGPNFGIIEKLDERIKDKRERYKAVSERSINYLNEVFKKDFK;locus_tag=LOCUS_02270;gene=trmFO;note=WP_011016878.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Fusobacterium nucleatum) [pid:67.7%25%2C q_cov:99.1%25%2C s_cov:97.0%25%2C Eval:4.2e-163],MGA_227
sequence1	MetaGeneAnnotator	CDS	266290	267183	.	+	0	ID=MGA_228;product=site-specific tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003700300.1;translation=MRYLKKILNDFLYYEEMGVNKSENTLKIYRVDILQFINYIIEYEDIHDFSNVNHYTIRSFMAYLDRNNRGKRTINRKISSLRMFFKYLKKKDLIDKNYMTLISNPKFGQNLPTVLNKNEVIKILREIKTSNILGIRDRCIVELLYSTGLRAAELLDIKEKLIDFSAREIRVIGKGEKERTSFFSNSSKNWILKYIEEKRKKGFLSEYLFLNSRGGKLTDRSLRRLIENYSKKAGIEKEVTPHTFRHTYATYLLNEGVDIRYVQELLGHSNITTTQIYTHVSKEILRDIYIKTHPMAK;locus_tag=LOCUS_02280;gene=xerD;note=WP_003700300.1 site-specific tyrosine recombinase XerD (Ligilactobacillus salivarius) [pid:42.8%25%2C q_cov:96.6%25%2C s_cov:99.7%25%2C Eval:8.8e-63],MGA_228
sequence1	MetaGeneAnnotator	CDS	267239	267772	.	+	0	ID=MGA_229;product=ATP-dependent protease subunit HslV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005769770.1;translation=MENMRATTILAVKKNGKVVIGGDGQVTLGATIVKSKAKKIRKLYNGKILAGFAGAAADAFSLFDKFENKLEEHQGNLKRAAVELAKDWRTDKILRKLEAMLIVANEDELLIISGNGDILEPDFDIAAIGSGGNYAYSAARALHENTDFTAKEIVEKGLKIASDICIYTNSNIVVEEI;locus_tag=LOCUS_02290;gene=hslV;EC_number=3.4.25.2;note=WP_005769770.1 ATP-dependent protease subunit HslV (Coxiella burnetii) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:1.1e-58],MGA_229
sequence1	MetaGeneAnnotator	CDS	267884	268888	.	+	0	ID=MGA_230;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_078130565.1;translation=MKKNLKRDDMFKKLFSDKKLFLMLLKDFIKESWVKDVDENKLELVPSLFTDGVETNRESDIIYRIQQDDNEIYVFVLLEQQSTVNFLMSFRILEYMVKLWRKYIDDNKKESKNKRFLLPPIYPILFYDGVKNWTAETEFKDKIKSKEDFKKYIPNFEYELIDLNKIEFKELESYEDLLSILLIIDKIKKPEDLLKLSDIEKSYWNRVKVNTGSKRELEKVVEVMNLLLIRINVPEEERKEVLEQIYEGRMENMFEMAVHYDVQAERKKYIMQGMEEGIEKGIEKGMEKGMEKGMEKGIEKGMEEVARKMYAKGIEISLITEFTGFSEEKIKSIL;locus_tag=LOCUS_02300;note=WP_078130565.1 Rpn family recombination-promoting nuclease/putative transposase (Leptospira alexanderi) [pid:21.6%25%2C q_cov:92.8%25%2C s_cov:91.0%25%2C Eval:4.0e-14],MGA_230
sequence1	MetaGeneAnnotator	CDS	268933	270051	.	+	0	ID=MGA_231;product=ribosome biogenesis GTPase YqeH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016880.1;translation=MNKKKCNGCGAELQSNDENRAGYVPKDKLKKTGNVVCKRCFQITNYGKYVPVGIADEEYIEEVKMIIKELDVVILILDIIDFEGSFNEKILNIIRDKPIIVAINKIDLVPTDKHPSEISDWVKKRFIEKRINPLDISIISAKTRYGVNGILTKLNHFYKGRTNVGVVGVTNVGKSTVINRLLGNKKNLTVSKYPGTTLKIVKNIIPGTEFTLIDTPGIIPNGRISDMVCHECNLKIVPSSEISRMTFKMEKDRVLMLGGLAVIRVLNEEGEKPIFAAFASKDVKFHKTNINRIEDMKSKHIGEMLIPPCNNCKDEYSSLKMKKEVHTVNEGEELVLKGLGWLSVKRGPLKVEVELPENAEIIIRKAFIVPRR;locus_tag=LOCUS_02310;gene=yqeH;note=WP_011016880.1 ribosome biogenesis GTPase YqeH (Fusobacterium nucleatum) [pid:52.8%25%2C q_cov:99.2%25%2C s_cov:99.5%25%2C Eval:3.2e-108],MGA_231
sequence1	MetaGeneAnnotator	CDS	270113	270493	.	+	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRESGLTVIEVVIAFLIIIIVSFYTYPKYEEFIKLSKETALVQELKVLREGVYFYVLKYNKYPASLKELEQKGFIDFNGQSYTGLIIKKEKKDKNGNFLDPFGNIYIYEKEKGNVRSGTEEYKNE;locus_tag=LOCUS_02320;note=MGA_232
sequence1	MetaGeneAnnotator	CDS	270575	271066	.	+	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKVRIEKKEKGFTLIELMIVIAIIALLASVALPKFAGVTDSAKAAKVQGDLANLRTSIAMFYAKEGSYPTIGTTSASSITKGTGALDSTFQKYYAKTTMPKTPKGSGTIAAEEVSDVKDITGGDSLDSTGGWAYKSSNGEIHADLGDASNNQYKQSIDWTTE;locus_tag=LOCUS_02330;note=MGA_233
sequence1	MetaGeneAnnotator	CDS	271304	272035	.	+	0	ID=MGA_234;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000111483.1;translation=MAVISMKQLLEAGVHFGHQTKRWNPKMKKYIFTKRNGIHIIDLHKTLKKVEEAYKVVKEISENGGKVLFVGTKKQAQEAVKNEAKRAGAFYVNNRWLGGMLTNFKTIQTRINRLKKLEKMVEDGTMEVLPKKEAAKLGKELVKLEKNLGGIKDMNGLPSLIFIVDTKKEELAITEAKKLGIPIVAMVDTNVDPELIDYVVPSNDDAIRAVTLISKVVANAIIEANQGEEKNVVEEKAAEVSAK;locus_tag=LOCUS_02340;gene=rpsB;note=WP_000111483.1 30S ribosomal protein S2 (Bacillus) [pid:68.7%25%2C q_cov:93.4%25%2C s_cov:97.4%25%2C Eval:1.1e-88],MGA_234
sequence1	MetaGeneAnnotator	CDS	272062	272952	.	+	0	ID=MGA_235;product=translation elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015713.1;translation=MKVTAAMVKNLREKTGAGMLDCKKALVETEGDVEKAIDFLRKKGIAKAVKKSGRVAAEGIVVSAVSEDLKSGVILEFNSETDFVAKNDEFKGLANDIANIVLVNDFSNVEELKAADLNGKTVEVRVHELIAKIGENMNIRRFKKVVSTEGFVSTYIHLGGKIGVILNLKGEATEEAKVASKDVAMHIAAMSPRFLAQTEVTEEVLDREKDIARVQLEKEGKPANIIEKILIGKMRKFYEENCLLNQKFVKDPDTTIEKYIKGKFEIVSFDRFLLGEGIEKEEVDFAEEVKRQVEGK;locus_tag=LOCUS_02350;gene=tsf;note=WP_011015713.1 translation elongation factor Ts (Fusobacterium nucleatum) [pid:57.1%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:2.9e-90],MGA_235
sequence1	MetaGeneAnnotator	CDS	273014	273733	.	+	0	ID=MGA_236;product=UMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904124.1;translation=MKPAFKRILLKLSGEALMGNEKFGISGEIISSFASQIKEIVDMGVEVAVVIGGGNIFRGISGAAKGVDRVTGDHMGMLATVINALALQNAIEKLGISTRVLTAIEMQKIAEPYIKRRAIRHLEKGRVVIFGAGIGNPYFTTDTAAALRAIEINAEILAKATKVEGVYDKDPVKYKEAKKYDKVSYSEVLNKGLKVMDATAISLCMENNLPIVVFNSLVEGNIKKLVEGETIGTLVEGGK;locus_tag=LOCUS_02360;gene=pyrH;EC_number=2.7.4.22;note=WP_005904124.1 UMP kinase (Fusobacterium nucleatum) [pid:77.3%25%2C q_cov:97.5%25%2C s_cov:97.5%25%2C Eval:3.7e-100],MGA_236
sequence1	MetaGeneAnnotator	CDS	273735	274292	.	+	0	ID=MGA_237;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904126.1;translation=MAETLMKEIEERMQKSIDATKGKLAAIRAGRASINMLDGIMVNYYGNPTPLNQVANLSAPEARALTIEPWDINAIKDIEKAIQMSNLGLTPNNNGKLIRLQIPELTEERRKDYLKLAKKEDEDGKIAIRNVRKDINNKLRKMQKDSDITEDELKSYETKVQKITDKYIKNVDELFVKKEKEIMGK;locus_tag=LOCUS_02370;gene=frr;note=WP_005904126.1 ribosome recycling factor (Fusobacterium nucleatum) [pid:60.7%25%2C q_cov:97.8%25%2C s_cov:96.3%25%2C Eval:1.1e-59],MGA_237
sequence1	MetaGeneAnnotator	CDS	274395	274571	.	+	0	ID=MGA_238;product=4Fe-4S binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002670897.1;translation=MAYRIDADTCVGCGACAGVCPVSAISEGENGKYVIDEDTCIDCGACAGVCPVNAIAEA;locus_tag=LOCUS_02380;note=WP_002670897.1 4Fe-4S binding protein (Treponema) [pid:61.4%25%2C q_cov:98.3%25%2C s_cov:98.2%25%2C Eval:7.1e-12],MGA_238
sequence1	MetaGeneAnnotator	CDS	274715	275401	.	+	0	ID=MGA_239;product=isoprenyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017071.1;translation=MEIKKPKHIAIIMDGNGRWAKKRMLPRTAGHNAGVKTVRRILKAADKYGIKYLTLYAFSTENWKRPQKEVDALMHLFHLFLNRERKKMMKDNVKLIFSGIREGISEKLLILMDEVVDELKNNSGIVLNIAFNYGGRREIIDAINLVLKDGKKEITEENFKKYLYHPEIPEPELVIRTSGEFRISNFLLWEIAYSEFYITKKLWPDFKQEDLLEAINVYMKRERRFGGV;locus_tag=LOCUS_02390;note=WP_011017071.1 isoprenyl transferase (Fusobacterium nucleatum) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:2.2e-75],MGA_239
sequence1	MetaGeneAnnotator	CDS	275403	276248	.	+	0	ID=MGA_240;product=phosphatidate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583559.1;translation=MKGRIIVAVIFIPLLIWIMLCGEYSLLLFVEVVVGVALYEFYKMFEKKDMNVYLKTGVIIGLLIPIFYSYSIWAKLKREKYAYFALVAIILYFMIKQVISGRIKEAISEISYTIFGVIYISFMFSHLLLLRYISNTPKNILGFNFTEGRLWILTIFLLIWASDSAAYFIGVKYGKHKIMPKVSPKKSVEGSIAGIIAPILSMILLKYVFFNELSFLHIILIGALVGIFGEFGDLSESLLKREFEIKDSGTILLGHGGIWDRFDSLIFAIPVLYYYLKFFVF;locus_tag=LOCUS_02400;note=WP_012583559.1 phosphatidate cytidylyltransferase (Dictyoglomus turgidum) [pid:37.9%25%2C q_cov:98.2%25%2C s_cov:97.7%25%2C Eval:5.8e-45],MGA_240
sequence1	MetaGeneAnnotator	CDS	276300	277439	.	+	0	ID=MGA_241;product=1-deoxy-D-xylulose-5-phosphate reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373191.1;translation=MKKIAILGATGSIGKNGLKVIDQFKDKFEIIALSANKNYKLLIEQIKKYKPKYVSIGTEEGYKAIKKEFSNIEIFIGESGLKKIGQIDEMDILLTAVSGSIGIESTIEAIKNGKRIALANKETLVAAGDIITKMDREILPVDSEHSAIFQSLKSGKNKEVENIILTASGGPFRGYTLNELKNISVEQALKHPNWKMGSKITIDSATLVNKGLEVIEAHYLFNVDYDKIKVLVHPESIVHSMVEFKDSSVIAQMGMPDMKLPIQYAFTYPDRMSNVELPKLNLGKIGKLTFEEPNLELFKGLKLAYEAGKNGNGYPIVFNMANEELVKLFLDRKIKFLEIYDYIEEVLNQFNSEKIETVEQIKHIEKITKEKLRRMINEK;locus_tag=LOCUS_02410;gene=dxr;EC_number=1.1.1.267;note=WP_147373191.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Fusobacterium nucleatum) [pid:52.5%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:6.1e-110],MGA_241
sequence1	MetaGeneAnnotator	CDS	277429	278076	.	+	0	ID=MGA_242;product=dTMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391590.1;translation=MKNKRGLFITFEGGEGAGKTTQIELFKKYLEEKGYEVEVTREPGGTLIGEKIRELLLDVKNKDMNYLAELLLYYASRAQHLYEKIIKLKNEGKIVICDRFSDSTLAYQGFGRGLDKELIKNLTKIVENGNGPDITFLIDIEPKIGLDRARKLTSDKRGDRMEQEKIDFYEKVRDGYLKISEDEPERVKVIDGNQEIKIILEKLKATFEKIEEEKL;locus_tag=LOCUS_02420;gene=tmk;EC_number=2.7.4.9;note=WP_011391590.1 dTMP kinase (Moorella thermoacetica) [pid:50.0%25%2C q_cov:93.0%25%2C s_cov:94.2%25%2C Eval:1.6e-48],MGA_242
sequence1	Aragorn:1.2.38	tRNA	278352	278439	.	+	.	ID=Aragorn_11;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00110;note=Aragorn_11
sequence1	Aragorn:1.2.38	tRNA	278447	278523	.	+	.	ID=Aragorn_12;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00120;note=Aragorn_12
sequence1	Aragorn:1.2.38	tRNA	278536	278612	.	+	.	ID=Aragorn_13;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00130;note=Aragorn_13
sequence1	MetaGeneAnnotator	CDS	279273	280394	.	+	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVLTLDIISALINALKYANINRLIKLEKRAVLTNLLSMEIDENITYQATMASFLKDIGKIGVREVKEKRMNYKSSEIMRIMPEIIPFQYNIADIILESNEKIDGTGCPSNKEDVLIEAQIIVIVEEYLKTMSFEELSNEKRYNRKIVLQLKKLLENGKIIDILNDEKKLNKVFSGEINKYNVYKEQLEGVEEEQFMHTIASIIDAKHQYTGGHTQRVATFSYAIAKNMGYEKEKLSEIRYAAYLHDIGKLAVDLDILDKPGKLTDEEFEKIKLHAKYSYDILSDSPRLRKFAFGALHHEKMDGTGYPFGLKGDEIPEGSRLIAIADILDALTSDRNYRKPFTFKEAFELMEMMKGTALDSKIFDIAKTTFNI;locus_tag=LOCUS_02430;note=WP_010966912.1 HD-GYP domain-containing protein (Clostridium acetobutylicum) [pid:35.1%25%2C q_cov:66.5%25%2C s_cov:69.0%25%2C Eval:3.1e-34%2C partial hit],MGA_243
sequence1	MetaGeneAnnotator	CDS	280431	281528	.	+	0	ID=MGA_244;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546515.1;translation=MNILYSVMADGWGGLEKYPLTIYEELLKKGNNIYILTVNGSRLHQECMKRGIKVFVVDKIKKIDLKTIKYIKKLILELKIDVIHSNTTRELYNFYFALIGNKNIKYFITYHIGVPNHKEILHKILYKRVNKIIAINSREKNLMLENIPILNNKIELLYNGVDLKRFDRKKVELKNIREQFGIPEQGLLITGIGNLSDGKGISEFIDAAKIICDKYKNIYFLWIGEATYTKNKKALEEAKETIKNYEIDKNVYMAGYRNDIPEILKESDIFTLPAYGESFGIVYIEAMAMELPVIGCNSGGVPELIKDGKNGFLAEPRSAKSLANQFEKYIKNSELIKKHGKIGKEISERFSMKSHVEKLIKIYEG;locus_tag=LOCUS_02440;note=WP_012546515.1 glycosyltransferase family 4 protein (Thermodesulfovibrio yellowstonii) [pid:28.2%25%2C q_cov:99.5%25%2C s_cov:97.3%25%2C Eval:1.2e-35],MGA_244
sequence1	MetaGeneAnnotator	CDS	281532	282284	.	+	0	ID=MGA_245;product=LPS biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016468.1;translation=MYKKLKKEKYKNWDMRFDAKFENILEIIGIIKNIIDKKEIKFDEILKDTDRSFVGVVKVKDKNIIFKQPKEKNRRKWIRFLTLFRKGEALKNFYIMNKAEKIGIKSNKPYLSVEKKEYGMVVDSWVIYEYIDGRECANREEYEKLFKILDDIHNKGYLHGDSQVQNFVFSGDEVYTIDCGLKKNIYGKFGKMYEYIYLRESRREIEKYYKFDIQNFYYKAAEFYKKWLYFLGRNRKKVKKLIQGVHNGKD;locus_tag=LOCUS_02450;note=WP_011016468.1 LPS biosynthesis protein (Fusobacterium nucleatum) [pid:37.1%25%2C q_cov:83.6%25%2C s_cov:99.0%25%2C Eval:4.6e-32],MGA_245
sequence1	MetaGeneAnnotator	CDS	282271	282678	.	+	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKIRKVEEKNLEEVLLENGYLVEKKEGIYFVKFKEFDAKAVMLEEGETLFVQVDLVGVDDLHNDVALYKKLLDLNTEILPVSIAIDSTDKGNQRLVINESLEIENLDENELLKVFDTIDMSFGKIFNLLKEYKK;locus_tag=LOCUS_02460;note=MGA_246
sequence1	MetaGeneAnnotator	CDS	282692	283369	.	+	0	ID=MGA_247;product=PspA/IM30 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011140900.1;translation=MGIFDRISNVFKSNVNSMLDKVEDPEKILDQNIIDMEKEYTKAKESIARAKAEEIGLNKRIAYLKQEMEKWTNNAKLALGKGNEELAKKALAKKQGYEQELNAIVGDRDSIEKNVEELLGSLKMMENKISEAKRKKDLLKMRLQTAKAKKKIVETKAKIGGIGEGAFDSFNKMEEKANKMINEADALEQINNSLAEEDVDEEFKQLETSGNVESDLEKMKKELGM;locus_tag=LOCUS_02470;note=WP_011140900.1 PspA/IM30 family protein (Gloeobacter violaceus) [pid:35.7%25%2C q_cov:99.6%25%2C s_cov:92.0%25%2C Eval:1.3e-35],MGA_247
sequence1	MetaGeneAnnotator	CDS	283369	283503	.	+	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDRLENKIINYLTNQLEVELIYMFGSYVKGNFNKNSDIDIAI;locus_tag=LOCUS_02480;note=MGA_248
sequence1	MetaGeneAnnotator	CDS	283763	285523	.	+	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISVSMITYNEENKLEKTLKSVYNWVDEIVIVDSYSSDKTVEIAKKYGAKVYIEDWKGFGKQKNSALEKCTGDWILLIDADEEITENLRDEILNIINSDKIEKNVYKIPRISWWFGKKTHEKDSVIRLVKKDSGKYNEKEVHEEFVTKENIGVLKNSINHYTYVSLEEYFMKFNKYTTLAALELRKKGRKFNLGRLFFEPIRNFLKIYIGKKGILEGYYGFLRAILSGMYGIVRYSKLYLLEKENPNILISRTDKIGDLVLSVPSFSKIRNMYPNAKIAILVRNYNYDIVKNLPYIDEVIKIDDYSEKELIKKIRKFNANIFIALFTNKFIGKLSIKSKAKYRIGPYSKLHSFFSYNKGVFQKRSKSIKNEAEYNLDLIKRVDGKLFYNSKDGESKIYLGESNKKLAEKFYVEKRINKKLKTIVIHPFSGGSAKNLTIEQYIELIKRIKQELDINVVVTGGIGDKAKIDYFRKKIIDVNYFIGKRSILDLAAIINKGDIFIGSSTGPTHIAGILGKDIVAIYPKIKAQSKIRWGVLGNGKVEYIEPEENCKEKYKCNEKCEYYDCFSKIKLEKIVIKIKKIIDEE;locus_tag=LOCUS_02490;note=WP_029495222.1 glycosyltransferase family 9 protein (Fusobacterium hwasookii) [pid:50.7%25%2C q_cov:51.4%25%2C s_cov:89.1%25%2C Eval:7.6e-84%2C partial hit],MGA_249
sequence1	MetaGeneAnnotator	CDS	285530	286612	.	+	0	ID=MGA_250;product=glycosyltransferase family 9 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017015.1;translation=MYKKLRKIHMNLKDKIKDKRIKGFKFLFDKKKVKADLKNIKKNKILFLRHDGKIGDMIISTMMYREIKKNNPNITIGVITRENTFDLIKNNPYIDNIYIYKKKYKYIKKIAGDISKVNYDVLIDFGDGISEKTIYLLNKIQAKVNIGFMKKDYKIFDISLDEKELNEHITNRYKKVLNFLGFEVSSYKYDIFENRSNDKIKLIKKNSVGEKTICINRFGASKHRTLSENNMLEIIYGILKLNKNIKILLLTPSNKKSLNKRVIDKIGDEKVKLIESENIMNAIEIMKKVDLIVTPDTSIIHIASALQKPLVGIYRKGNAMKCWGPKGTNYKIVTSNSKDEINELETDKVVENIKKILQEI;locus_tag=LOCUS_02500;note=WP_011017015.1 glycosyltransferase family 9 protein (Fusobacterium nucleatum) [pid:32.4%25%2C q_cov:86.9%25%2C s_cov:85.8%25%2C Eval:1.5e-38],MGA_250
sequence1	MetaGeneAnnotator	CDS	286616	287842	.	+	0	ID=MGA_251;product=O-antigen ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896290.1;translation=MLNINKKKILEKIKILQEVGLYILALSFFVSTAGFNIGLGIIAIGTIVKLFIAPKDINLGNKNILYWFLFSYIVLAIWSLFSVGGIDSFIYHLNRQSRFIVILLIGEAIRDKRVFFRFLVFLGISISLSSFNGIFEHLKYPSKRIDSFLKLTHYGPALMEMLILFFAMIITKTYSYRYRIILFSSFYLLGITNILYMKTRAVWVGLFLGQLAIMFFNKKKRYFILSIVIILIIAFIGKETYLRRAESIGNIKTDTSNTTRMKLWKAGIYTFENNIIFGAGSNNDNSTPFFKQYIIKKSFKIFHFNGDPHNMYISFLAEYGLGGLLYMILIFYIIPKEFFRYYKARKRFDLDGIFYGVIGMTIGFYIVGIFWNIWYRDYHPSLGFFIGLGIFNFLYSNNERTENEKKIS;locus_tag=LOCUS_02510;note=WP_005896290.1 O-antigen ligase (Fusobacterium nucleatum) [pid:24.9%25%2C q_cov:89.2%25%2C s_cov:91.5%25%2C Eval:2.5e-16],MGA_251
sequence1	MetaGeneAnnotator	CDS	287823	288905	.	+	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLVRYFLLRNRNKKIDIKKIDKILFIAYDAIGDMIMTTPVFRELKKIYPEKKIGVLCSERNKDVLKYNPYVDKIFIKNSKKWYFKDLRILKKIRDEKYDICINLWNKISMTEMSFIKLLNVKYRASGVFQKNSENKYNILTEDIKMYDYIFGDRKEKHFSKQQISSLEVFGIKTDNLKYDIFISEKEKEKAKKFFKEFSGKIKIFINMFSSEEKRNIKFEDVCFIVEKVKEKYKNAIFFLNSIPEKRVELIEKIKKSNFENIKIMYETESILDAVAGIEYADLLITPDTSFTHIAEALDKPMIVIYSGVLKNYEKVKTFSKKHYAIFSDNKDENIIEKYDKNKIIEKLELILDEEKI;locus_tag=LOCUS_02520;note=WP_011017015.1 glycosyltransferase family 9 protein (Fusobacterium nucleatum) [pid:30.3%25%2C q_cov:79.7%25%2C s_cov:72.3%25%2C Eval:1.4e-31%2C partial hit],MGA_252
sequence1	MetaGeneAnnotator	CDS	288902	289996	.	+	0	ID=MGA_253;product=glycosyltransferase family 9 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011707880.1;translation=MKILVIQLKQIGDVLLSTPVCNSLKKTYSSAQIDYIIYDYTAGVVDNNPSISKIIKITKKERESYIEFLKLLLKIRKEKYDIVLNIQGKLEGTLITLASGAKLKIGFDRKGWEIFHTKIVNESNSKKITGAGNTIDGRLSLLTALDDEVKYDYDLKIYLKDDEVIRIKNKMIKFGINIDRPIISMGITSRRDYRIWPVEYFSKIMDYLIKKYNAQIILFYAPNDKKYNSEKDYCEAAKKLVENNKNVFTNIETENVRELLCLLKNSDIYIGNDNGPRHFAQGVDTPAFCIFSPTANKWDFNPHNNPRFRAIDLQDALGLDNEKYKEYTKNLDRDKNSMEYFKEIKPEFVISEIDKMIKELNLFK;locus_tag=LOCUS_02530;note=WP_011707880.1 glycosyltransferase family 9 protein (Aeromonas hydrophila) [pid:37.4%25%2C q_cov:97.0%25%2C s_cov:96.9%25%2C Eval:1.1e-63],MGA_253
sequence1	MetaGeneAnnotator	CDS	290006	291022	.	+	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKLKIKELLFEILIFFFKRKKSNFNNKITKILVVRQDNRIGNMLFITPLLKLIFEVYNVKSDVLVGGRFYKIIDSNPNVNKTLVYNQKEFIKKPWKFIKFILEMRKVEYDIVIDCKNAFSFNNSMLTLISKGKIKLGFENNLSDKYLDFSINFDELLKENKHEYEYLAMLLLRFINENREIPKMEYYYSDKELDKKSYNIVIHIGGRGEKSLKANLINELVEEILKKEDKVAIIYGPNEIDKVNNIKNLKGVIKINPKSIDELAYYIEKSEWFITPDTGALHIASALNKNIIALFYNKTFDRYGPVTTGKSIVIKAFEKLDSEILNEIISFFRKVN;locus_tag=LOCUS_02540;note=WP_011017015.1 glycosyltransferase family 9 protein (Fusobacterium nucleatum) [pid:28.1%25%2C q_cov:80.2%25%2C s_cov:73.1%25%2C Eval:1.1e-19%2C partial hit],MGA_254
sequence1	MetaGeneAnnotator	CDS	291038	292111	.	+	0	ID=MGA_255;product=serine-pyruvate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081619.1;translation=MDKTLLFTVGPVEMSSKIKDIGGAGIPYFRTKEFSEVMLEIENKLKKFLYTNQNSKVITLTASGSGAMEASIINIFTENDKVLIVNGGSFGDRFEKICKIHNINYNVIKLKKGESLKKEELDKYSNKGYTGLLINVHETSTGVLYDMKMVGEFCKKENILLVADAISSFLADEYKMDEWGIDVTILSSQKALALPPGLSFLIINKKVNDIIIKNSVKSLYFDLKDYLMNMERGQTPFTPAVGIIYQLYERLKEIEEVGVEKEIGIRKNLAEDFRNRIKKLPLELFAETMSNAVTAIVPKTMKANEIYEKLRYDYEMTVLPSGGDLKEKLFRVGHLGDLTIDDNEKLVDALKEILKGE;locus_tag=LOCUS_02550;EC_number=2.6.1.51;note=WP_004081619.1 serine-pyruvate aminotransferase (Thermotoga maritima) [pid:31.3%25%2C q_cov:99.4%25%2C s_cov:92.2%25%2C Eval:4.7e-48],MGA_255
sequence1	MetaGeneAnnotator	CDS	292113	292829	.	+	0	ID=MGA_256;product=NTP transferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878638.1;translation=MKVIIMAAGKGSRISRHIGEKPKCTLEIKDNLPLIENTVKNLNNKGIYDITIILGYNGKEIEKVLKGYKVKFYYNYFYDVTNSIASLWFAKKELETDKDIMFMNGDVFFEEHFLDEIKKEELSPVLYADGSRKEEADYKLFYENGILYKYGKELKLNETTGEYIGVAKILNKDINIIKNKLDNMIKDGKHSLWWENVLYELNSNMKIYVKEIKNIFWAEVDYIEDYMRIKEFIDSENR;locus_tag=LOCUS_02560;note=WP_010878638.1 NTP transferase domain-containing protein (Archaeoglobus fulgidus) [pid:28.9%25%2C q_cov:96.6%25%2C s_cov:96.3%25%2C Eval:4.0e-22],MGA_256
sequence1	MetaGeneAnnotator	CDS	292816	293703	.	+	0	ID=MGA_257;product=LicD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002902065.1;translation=MKIDELFPDERKKYIEMSKLRQIQLIELRIFKIFDYICKKNNIEYWRDWGNLLGAVRHKGFIPWDDDIDIGMTLENYQKMIEIFPKKLPKDIFFQTPKTDKNYDNIEGIKLRDRYSNLNIDDKSPKIHNGIFIEVFPVYKVPSNKILQKLQISLYRNLISCRIEKGNKLKLKVRRGISKFITNFISFEKLDEKILNMYKLTKNYMYRHALHSSSKEVDYYFSKDSIFPLKEIEYEGYKFRSVNDYDEYLKTAFGDYMKLPPENERGERHMKLDEVVIFEACNHIESLNWKDKEKI;locus_tag=LOCUS_02570;note=WP_002902065.1 LicD family protein (Streptococcus sanguinis) [pid:30.2%25%2C q_cov:86.1%25%2C s_cov:87.6%25%2C Eval:1.8e-28],MGA_257
sequence1	MetaGeneAnnotator	CDS	293700	294611	.	+	0	ID=MGA_258;product=LicD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003641097.1;translation=MSINYNEIFPDEREKYIELSKLRQVQLIELRILKIFDDICKRNGIKYWLDFGNLLGAVRHKGFIPWDDDIDVTILYKDYKKLINILKKELPEDLFLQTLKSDKDFLDVELIKIRDRYSNSNNNKSYKFHNGIFIDIFPLYKLPESNFLRFIQKRLYRLLISSRKKRLKYEKLNHRRVIRIVKGNIRKLLSKFITIFIELDILEEKILNMYKLTKKHIYSFSLHKNFSEKFKKEDIFPLKELEYEKFNFFVPNNYDKYLKIEFGDYMKLPPKEEQRPHHFNPDEIDITKPCEHKESLYWEEKKQ;locus_tag=LOCUS_02580;note=WP_003641097.1 LicD family protein (Lactiplantibacillus) [pid:31.4%25%2C q_cov:87.1%25%2C s_cov:97.4%25%2C Eval:2.9e-29],MGA_258
sequence1	MetaGeneAnnotator	CDS	294608	296338	.	+	0	ID=MGA_259;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016512.1;translation=MKLKIDLRVKRALKYIKPYLGLSILSIVLASLAAATAASPIFIIKQVVNDVLMKKNYNMLIMINIAIILIFILKGFVFYYQAYVSAYISNKITFNVRQELFEHLQKLSMGYFAKTEVGELMARFYNDTEKFKAFIVLAFSSIVKLFTILIAVIAIFQMSWKLSIISLIFIPLLSKIVRTFTKKLYKTGGEIQKKIGIITTVIQENLSGIRVVKAFANEDYEIEKFRKINDENFNANIKNVKISSKVTPVVDFFNAVSLVIILMIGGVQVIKGEVDSGQFLAFLTALALLSDPLRVLTSNINKMTTNLSSVERVFEILDEIPEIREIETPITKEEIIGKVDIKDIYFKYDREYVLKNVNISGNPGEVVALVGQSGSGKTTLVNLIPRFYEVEKGEILVDGENIKNLEIKFLRKNIGIVPQETFLFSGTIRENIMYGKRDATFKEVKKAAESANAIEFIEKLPNGFDTEVGERGVLLSGGQKQRIAIARAILKNPKILILDEATSALDTESERLVQDALDKLMKNRTTFVIAHRLSTIINADKIVVMKNGEIQEVGTHKKLLEKRGMYKELYDKQFKN;locus_tag=LOCUS_02590;note=WP_011016512.1 ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:44.8%25%2C q_cov:93.4%25%2C s_cov:92.8%25%2C Eval:1.2e-129],MGA_259
sequence1	MetaGeneAnnotator	CDS	296348	297178	.	+	0	ID=MGA_260;product=carboxylating nicotinate-nucleotide diphosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583119.1;translation=MNIYLDKFIKMALEEDLGILGDITTDNIFSDEDISIGNINYREEAVVGGLEFAKRVFELIDENIKFEIYKKDGEIANPNEIVAKVEGKTKAILTGERIALNIMQRVSGIATNTKRYVDKIKQYNVKLADTRKTTPLFRYFEKYGVKIGGGINHRFGLYDAVMIKDNHIAAAGTITKAVENIKSNVGHTVKIEVEVESREQLLEALNMKVDIIMLDNIRGKELKEYAELIGDKAIIEASGNINIDNIEDIAKSGVDVISTGSIIYNAKNIDIGMDFE;locus_tag=LOCUS_02600;gene=nadC;EC_number=2.4.2.19;note=WP_012583119.1 carboxylating nicotinate-nucleotide diphosphorylase (Dictyoglomus turgidum) [pid:49.3%25%2C q_cov:98.6%25%2C s_cov:97.1%25%2C Eval:3.1e-72],MGA_260
sequence1	MetaGeneAnnotator	CDS	297241	298974	.	-	0	ID=MGA_261;product=hybrid sensor histidine kinase/response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545601.1;translation=MIEIHELENEIKKIKEKNIKLMENQVKLGDITNNYMMLYYLNKTIHESKTSKMLWKNYLTNITSGGFNYENAFIILPDDENNFNIKLFLNEFGELKKETFSLTEAGGFVNTAVYSKASTNSVSNTSTAIPILNNNNKITAILVADKSCGISFEDIQLLEIYAQQTVSTIENILLNEKLIEHQKMLGEKVDQFIMLHYVTKEIHDSTRYFEVLTKYLVALSSPMGFNFTNACIYIIESPIKKVTFENEKLVFKNLQTLDDILVENSKKENYWKLSKNETSLALPLFSNRKLNAIIKIESDKKFTQEDIQLLEIFAMQTASVLENTKLNFNLEKEVKKRTLDLQKAYDELKKLDFAKDEFLAIVSHELRTPLTSIMAYLETLSYGGVDPETTEEFINIIYSESKRLKIIVDDILDLSKLEAGKMTFDLTPTNLNELLNKSIKEFSEKAKEKSIDVEFIAEELPFIDLDYNRMLQVISNIISNSIKFTPNFGTIKVSTYSKDSKIGFKIKDSGIGINKNNKNKIFSKFEQIENTDNHSKGTGLGMPISKMLVEQLNGNIWFESEVNKGTTFYVEFPINSD;locus_tag=LOCUS_02610;note=WP_012545601.1 hybrid sensor histidine kinase/response regulator (Thermodesulfovibrio yellowstonii) [pid:26.4%25%2C q_cov:96.5%25%2C s_cov:90.9%25%2C Eval:1.3e-40],MGA_261
sequence1	MetaGeneAnnotator	CDS	299235	299726	.	+	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKNGMDYEGYLNSSLEEYKEKQIKVSNFIKLEEKIIEKLKEIKSEKNILVFAETYCPDSREVMAVLNEMKKYVKINLYIFPRKDNEDELKKITGYAKIPTLIKLDESKKITNNYFIEFPEKFRAILKNKSETEIKNKIHQFRRGEYNHLIVEEIINKMFDA;locus_tag=LOCUS_02620;note=MGA_262
sequence1	MetaGeneAnnotator	CDS	300032	301630	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLRNKFIIPTVGTVILIFIVMIWVVRNRDYKIGMAELNSKVERVSSIIGFTNINNIWNFDEDGMKKNLNSFFKDKEIISIVLKDADGNVASKVERKGKGDLIKKDIKIVNGSDKVGTAEVVFTDYYVKSSISSQVNFLIITVIIIILILIIVIFIISKMITNPIDDMVKILNKVAGKDLREKVVIKTKDEIGVLGKNINNVVDILKESVSDISVRASNLTAISENLAAASEESFRSVENVGEILEDAKLKAKDSVSYLDNINEIMLEMDKYLEQNDKNSKQTSQDASNTVESVKEGVEIVTKVAISMEDVKVQVATSSDTVLKLAGLLEKIDDFSQVITKISEQTNLLALNAAIEAARAGEAGKGFAVVATEVKNLAEESNKAAEEIGNMVKNIRSEANRSVEMMKETQNRVTDGSEKLSLATKVLNEINSYGANMAKNISTIVESLETQNREQLKIKDELATAVKASNDNYSSMETASEGLKDQIGAVQVVSESATEVVNNSENLAGLVSEFKLSLEKSEQNEKGLKEKN;locus_tag=LOCUS_02630;note=WP_211477748.1 methyl-accepting chemotaxis protein (Bacillus cereus) [pid:27.4%25%2C q_cov:68.6%25%2C s_cov:55.3%25%2C Eval:2.0e-43%2C partial hit],MGA_263
sequence1	MetaGeneAnnotator	CDS	302020	303336	.	+	0	ID=MGA_264;product=electron transport complex subunit RsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480691.1;translation=MKLFTFKGGIHPPERKELAEDKEIEVFAAPKVVYIPLIQHIGSPLDPLVKVGDEVKVGQKIGDSKGFMSAPVHSSVSGKVLKIVKHPFPVNGYANSVIIENNGEDEWIESKAVDDYTKLSSEELLGIVRENGIVGLGGATFPTHIKLNPPKDKVIDTLVINGAECEPYLNADNRLMIEYGKEFVEGVKIILHILGIKKAVIGIEENKEEAIEKIQNLVANEDGIEVGVLKTKYPQGGEKQLIKALLDRVVPSKKLPSEVGVVVQNVGTAKAIYDAVVKGKPIVERVLTVSGLGVKTPKNLLVRIGTQFKEILESVGIDEEKTEKLIMGGPMMGLAQFTDEVPVIKGTSGILALTEKEMNSYESRSCISCGKCVSVCPMNLMPLMYAKLARFKEWGEMDRYNLMDCIECGSCQFICPSNRPLTEGIKIGKAKLRGMKRK;locus_tag=LOCUS_02640;gene=rsxC;note=WP_198480691.1 electron transport complex subunit RsxC (Fusobacterium canifelinum) [pid:57.0%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.2e-144],MGA_264
sequence1	MetaGeneAnnotator	CDS	303355	304305	.	+	0	ID=MGA_265;product=RnfABCDGE type electron transport complex subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015691.1;translation=MNKKLRVSPSPHIRTKETVENVMWDVVIALTPAILAAIYFFRLGAVKVLSVSIITAVVSEAIAQKLMGRKIQIKDGSAIITGILFAFVVPPTLPWWITMIGAGVSIILGKMVFGGLGHNVFNPALIGRAFLLASWPVAMTSWIGVDGKAGPTILGVLKEHGFSKVLDMFGNQGAMYTKLFLGNVGGSLGETSVLALLIGAGYLLYKKQITWHTPVVYIGTVFVLMWIFGQDPLMEIMSGGLILGAFFMATDMVTTPYTSKGKILFGLGAGILVVWIRLKGGYPEGVAYSILLMNGVTPLINMYTRPRIFGGVKNNG;locus_tag=LOCUS_02650;note=WP_011015691.1 RnfABCDGE type electron transport complex subunit D (Fusobacterium nucleatum) [pid:57.0%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.8e-98],MGA_265
sequence1	MetaGeneAnnotator	CDS	304298	304822	.	+	0	ID=MGA_266;product=RnfABCDGE type electron transport complex subunit G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015690.1;translation=MGKIIHYGLVLMTIAVISAGILGFADIKTKDTIANINIKMEKAAMKEVMQKVKKFDKSKEKKSGNFKFIPGYNSNNSLEGYAVKVVTPGYGGDIVFMLGIDLSGNIVGLKVISSSETPGLGANINKKKWQKHWVGKNRNYKFNKSVDAFAGATISPRAVYRGISEALAAFEKIK;locus_tag=LOCUS_02660;note=WP_011015690.1 RnfABCDGE type electron transport complex subunit G (Fusobacterium nucleatum) [pid:49.7%25%2C q_cov:97.1%25%2C s_cov:95.5%25%2C Eval:4.5e-44],MGA_266
sequence1	MetaGeneAnnotator	CDS	304836	305441	.	+	0	ID=MGA_267;product=electron transport complex subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904084.1;translation=MAENKYYSTFIKGIFKENPTFVLLLGLCPTLGVTSSAINGFAMGAATLAVLFVSNILISLIRNIIPDKIRIPAYIMVIASLVTVVDMTMHAYAYDLYKVLGLFIPLIVVNCIILGRAEAFASKNGILLSALDGLGIGLGFTLSLTVLGAIREILGNGSIFNIHLFGAHFQPAIIFILPPGAFITIGFLMAGINIIKNRKTK;locus_tag=LOCUS_02670;note=WP_005904084.1 electron transport complex subunit E (Fusobacterium) [pid:71.4%25%2C q_cov:94.0%25%2C s_cov:92.2%25%2C Eval:5.3e-72],MGA_267
sequence1	MetaGeneAnnotator	CDS	305454	306038	.	+	0	ID=MGA_268;product=electron transport complex subunit RsxA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904083.1;translation=MELSKLFAIIIGSIFINNFIFSRFLGLCPFMGVSKKISSSVGMGMAVTFVMTLASSVTWVVYEYLLKPFNLEYLQIIAFILIIASLVQFVEMVIQKTSPNLYKALGVFLPLITTNCAVLGVAILNIQEKYNFIETTVNGFAAAVGFTMALLLLAGVRERLDYADVPKAFQGIAIAFISAGLLALAFMGFSGMKI;locus_tag=LOCUS_02680;gene=rsxA;note=WP_005904083.1 electron transport complex subunit RsxA (Fusobacterium nucleatum) [pid:73.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-78],MGA_268
sequence1	MetaGeneAnnotator	CDS	306057	307058	.	+	0	ID=MGA_269;product=RnfABCDGE type electron transport complex subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428486.1;translation=MGAILIPVLVLGGLGLFLGGFLAYSAKKFEVKMDPNVEKVFEALPGANCGACGYPGCSGYAEAVAGGKAEINLCAPGGGAVVEKISEIMGLNADIDEEKKVARVMCHGDNSKTTKKFEYDVTLKSCAASNLYYIGDKSCTYGCLGYGDCVAVCPFDAIHINDKGIAEVDEEKCTACGKCVIECPKHIINIVPEKSRHTVFCSSKDKGADSRKVCDVSCIGCGICAKNCPVNAITVENNLAKIDPEICINCGICELKCPTNAIKSDIKEIKKAHIEEEKCVGCTMCAKVCPVDAIEGELKHKHKIIEEKCVGCGACVEKCPTKAITLNTVVEKN;locus_tag=LOCUS_02690;note=WP_003428486.1 RnfABCDGE type electron transport complex subunit B (Clostridioides difficile) [pid:48.2%25%2C q_cov:93.4%25%2C s_cov:95.4%25%2C Eval:9.0e-83],MGA_269
sequence1	MetaGeneAnnotator	CDS	307412	308071	.	+	0	ID=MGA_270;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010967771.1;translation=MKILDYLLRNKDKIILETANHIFLVFVSIIIASIFGILIGIFISKNKKKEKIVLKIAEIFMTIPSLALFGVLVIVLSPLKMGIGKVPAIIALVIYSLMPIIRNTILAINNVRNELIEVAVGMGMSKTEILFKIKIPLTVPTIMAGVRNSAVMGIGIATIGYYIASGGLGYFIFYGLTRGNYEMVILGVIILSSLGILVNYLFLKLEYFLTPKGIREDKK;locus_tag=LOCUS_02700;note=WP_010967771.1 ABC transporter permease (Sinorhizobium meliloti) [pid:37.2%25%2C q_cov:98.2%25%2C s_cov:97.7%25%2C Eval:3.6e-35],MGA_270
sequence1	MetaGeneAnnotator	CDS	308089	309150	.	+	0	ID=MGA_271;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_021106579.1;translation=MSIEFINISKKYGKFWALKDINLKLQKGKINILIGTSGSGKTTLLKLINRLIDRDSGEILINNKKINDIDVIELRKSMGYVVQEIGLFPHYTVYENIAVVPKLLKWDEEKIKNRVCELLEMVNLDPERFMDKYPRELSGGQKQRIGVARGLASDPEIILMDEPFGAIDPINREELQNSFLEIQKKIKKTIVFVTHDIREALKLGDYITVMNKGIIEGTGKKEDIIKETKNSFIKDILGDFSYIKYLEFMNSDNKIEEIKRIENQNNVYEDKQIVYSDFSENYYFLTDREEKFVGYLKKEEFNKNMKNLKKDFIDESSNLLEALNKMIFNKETMIPVLNNKKLIGVLRFESIIE;locus_tag=LOCUS_02710;note=WP_021106579.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:42.1%25%2C q_cov:99.2%25%2C s_cov:94.5%25%2C Eval:4.6e-72],MGA_271
sequence1	MetaGeneAnnotator	CDS	309251	309871	.	+	0	ID=MGA_272;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002293405.1;translation=MGFDIYYILEKIFQHLYIFIISWGMAIVVGSLISIFITREKHKKIGTKILILTGTLQAVPSIAIIAIIFLFVGIGIVPAIISLFLYSLVPIIFNNTSALLNVDKNYIEIAKGMGMNKKEILLKIEIPLSMSSFFSGIKNAAVIDIATATVASAIGGGGLGEIIYIGISNFDNESIILGSLLVSLLAIFVNESIEIVERKVIKYKEY;locus_tag=LOCUS_02720;note=WP_002293405.1 ABC transporter permease (Enterococcus) [pid:36.4%25%2C q_cov:93.7%25%2C s_cov:89.7%25%2C Eval:6.6e-33],MGA_272
sequence1	MetaGeneAnnotator	CDS	310064	310354	.	+	0	ID=MGA_273;product=DUF427 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259052.1;translation=MIKVMFNNTLIAETNNCIAVEGNYYFPLEDVMIKYLGKSDYHTVCPWKGDGSYYNLKAEGKVVENAAWYYPEPKEEAKKIKNYIAFDKKVFNISEE;locus_tag=LOCUS_02730;note=WP_012259052.1 DUF427 domain-containing protein (Chloroflexus aurantiacus) [pid:54.7%25%2C q_cov:89.6%25%2C s_cov:91.5%25%2C Eval:2.6e-22],MGA_273
sequence1	MetaGeneAnnotator	CDS	310439	312430	.	+	0	ID=MGA_274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYIILVVIILIIFHIFIHKKKLYLLPEKNNNPIILIRKKKIKYMNGAAKCIFYQKEDLDILENEVMKSNYKEFEVKINNSYYNFNVSTIDKNSYNLYGKNITKLKETEKKLEITSKIFEISKDGILILDENFVIIAVNDAFTKISLFTEEEYIGKKIWDTTGLLERKEEFKNILKALLKLDYWEGETWFRKKTKEIYNVYLKIKIIRRNKKIINYIISIEDITYLNKIEQRTNFIKNYDLLTGLHNRNFIIEKVEKYFAENKKIYLLYLDIDNFKKVNDSLNYKAGDKILNDLSEYLKSCVNSSDELGRLEGDKFVLLYEEKDYNEKEILDKLYKIFKLPFKTYENPFLDEVKDVYLNFSLGIAYSENSNKSAFDLVKNAEIAMYDSKVDKKNSFRNYEKLKNRDLIKEVELESDLRKAIENDEFIVYYQPQIMIPEEKILGMEALIRWQSPKRGFVNPGGFIEFAEKSGLIVEIGEIVFEKSCKFFKELMENGRKDLLLSVNLSPLQFDDIDLIDKIMSIVEKYNIPTNKIKLEITESLIMKDMDNNIKKMEELKSLGFKFSMDDFGTGYSSLSYLKNFPLDFLKIDQSFIRNLRDDESDKNLVKAILDIGKIFKLGVIAEGVETKEQLEFLKGIGVTEIQGYYYSKPISDTEFIKFLEKE;locus_tag=LOCUS_02740;note=WP_011105092.1 EAL domain-containing protein (Pseudomonas syringae group genomosp. 3) [pid:34.9%25%2C q_cov:82.7%25%2C s_cov:43.2%25%2C Eval:1.7e-95%2C partial hit],MGA_274
sequence1	MetaGeneAnnotator	CDS	312447	313319	.	+	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLLGISLLLFVNVMAKDVVVGAKMFTEGYVVSNLISELLKKDGFNVKENFGMSSFPLRKAQETGQIDIYPEYTGTAWGAYFKKKELIKNPKKLYEEVKKLDYQKNKLVWLDMINVNNTYALAIRKDFAKKYNLKSLTDLANLIKVNKKIKFGINPEFYKRADGFWAMAKHYKMKIKRNEVKLMDAGIVYQAVASKKIDVAMAYSTDAKIKKYNLKVLKDDSSFFPYYNLAVVVREETLKKYPEIREDLKVLSDKLTEEDLIDLNYKVDVEGKEPKEVAKWYLKNKM;locus_tag=LOCUS_02750;note=WP_011986277.1 glycine betaine ABC transporter substrate-binding protein (Clostridium botulinum) [pid:40.1%25%2C q_cov:93.1%25%2C s_cov:50.7%25%2C Eval:1.5e-48%2C partial hit],MGA_275
sequence1	MetaGeneAnnotator	CDS	313498	313827	.	-	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNINEFITQHNNYITSENLDINIHRTAITILSHERLIHLIIMLFTILFTFIFLALSLILNFISLYIIFLIFLLLSIAYIAYYFKLENTTQNWEIILYKKINSASSGRT;locus_tag=LOCUS_02760;note=MGA_276
sequence1	MetaGeneAnnotator	CDS	313990	314352	.	+	0	ID=MGA_277;product=MmcQ/YjbR family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962382.1;translation=MNINDLKNYCLNKKGVYIDFPFDDRTITFKIGSKMFALSDIKTGEEKNLKVNLKCNPELAMDLRNIYEGVIPGWHMNKKHWNSVFLNSDIPINEIFKMIDHSYELVFKSLKKSEKAKIEV;locus_tag=LOCUS_02770;note=WP_011962382.1 MmcQ/YjbR family DNA-binding protein (Flavobacterium psychrophilum) [pid:52.1%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:7.0e-31],MGA_277
sequence1	MetaGeneAnnotator	CDS	314391	315059	.	+	0	ID=MGA_278;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965730.1;translation=MKNVLIVEDESAMRKIIKDYLIRDNFRVFEAEDGEKAIDMFYSQKIDLIILDIMIPGYDGWSICRRIREDSTVPIIMLTARSAEEDEIFGLELGADEYITKPFSPKVLMARIKNIFRRVENSDNENGNTEFGELKINNKSHQVYLENKELKLSPKEYELLLFFSENKDKAISREEILNKIWGYDYFGDLRTIDTHIKRLRKKLNGKFIITVRGTGYRFEVEE;locus_tag=LOCUS_02780;note=WP_010965730.1 response regulator transcription factor (Clostridium) [pid:54.0%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:3.1e-66],MGA_278
sequence1	MetaGeneAnnotator	CDS	315056	316495	.	+	0	ID=MGA_279;product=HAMP domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965729.1;translation=MKIKMSLTIKFYLIIVSSLIFAIGISILISNFMLSKYYIVQREKKIKNIAVTLQEIDVNSAFKDEFEKLKNKNDINILFLNKVPDFIAENSMLQIMMALSYVTKDEIKRVYNGEIILKKEYSVITSRNEIIVLTKTKNGIILALTSSIASVKEYVNTVIRFGIFTGIIALILTIFINGFFVKKILFPLKKLKEIAEKMAKLDFSDKFDIETGDEIEEFGKTFNYLSNELEFNLTKIKSVSEKLTLEIKKEKEIERKRKEFIGNVSHELKTPIALIMAYSEGLKDNVAIVEDRNYYCDVISSEAKKMDNLVKELLGLMKIEKEEKKLKFEKIKIRDIIKKTIKKFDFDLKELGVKLKCSKNQNNDYIVMADIVKIEQVLDNLISNAINNVNKNGIISIDVLEKNSKIEIEIYNSGSHIPADKIDEIWEPFVKLDKSRNRKYGGTGLGLSIVKGIIKIHNSEIKVENIDNGVKFSFFLEMA;locus_tag=LOCUS_02790;note=WP_010965729.1 HAMP domain-containing sensor histidine kinase (Clostridium) [pid:35.3%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:3.9e-67],MGA_279
sequence1	MetaGeneAnnotator	CDS	316678	317289	.	+	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRMFIGALFILAIGAIAYANVGNFRGGMMGGGIQCNGVYNNTNVNSEESKVVDEFVKKLKGKYKVGESEKLNPDKLTGKELEELGDLVMDVMIPNKYQHETMDNMMGGEGSSRLTAVHQNIAYNYLRGNGFAGMGMMGMMGNGMMGNWNNSYNSNNSNNLNRLNNSNRGQESALEILQRRYANGEITKEQYEDMKKVLNKK;locus_tag=LOCUS_02800;note=MGA_280
sequence1	MetaGeneAnnotator	CDS	317302	317688	.	+	0	ID=MGA_281;product=DUF302 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946746.1;translation=MKYEFNKEVKGEFESVKKIVIEKLKDEGFGALYTLDMKEKFKKALNEEFRRYEILGACNPKFAKKVIDIDKNIGLLLPCNVLIEQKDEDTIYVSIVNPSAVINISGNDKIIKLAKEIAEKLERVIKNI;locus_tag=LOCUS_02810;note=WP_010946746.1 DUF302 domain-containing protein (Legionella pneumophila) [pid:40.0%25%2C q_cov:97.7%25%2C s_cov:95.4%25%2C Eval:2.8e-24],MGA_281
sequence1	MetaGeneAnnotator	CDS	317709	317924	.	+	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMGYYGFGGGFWMMGILIIVVVFVILFFFKENKGLGRDISLNKSTPMEILKERYAKGEITKEEFDDIKKDL;locus_tag=LOCUS_02820;note=MGA_282
sequence1	MetaGeneAnnotator	CDS	318108	318896	.	+	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFLVLILIVGFVTAGLSIRFDRFFTILLLLFVFKLTIFNAINLFLWVILFGALMIILDNADKISKLPKAMKMKLFTFIPIMTFIFSWLGSYVFMLSSKTVLIVTLGIIAILYGLRLVFIHFAPDELDLTNASPTIVKLCGIFGPIISGFFIGFIGTSLKPLKIPFAIKFGKMNAKQVYLGNTITTFFAAFFTIIWHFVMSKGAITGAIFYQQMILGAALWTGIHYTFELTNIFFKNSWRKPFQIIIGLTLLLVSIKVFMMI;locus_tag=LOCUS_02830;note=MGA_283
sequence1	MetaGeneAnnotator	CDS	319097	319360	.	+	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEILKVSKGLSDKTRLKILLYLIDGEKCVCDISRHISRSQPTTSLQLIKLESLGLVSFNIYGRSRCYYIKSEKVKRIFEIFELKNQ;locus_tag=LOCUS_02840;note=MGA_284
sequence1	MetaGeneAnnotator	CDS	319379	319978	.	+	0	ID=MGA_285;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010938652.1;translation=MIKLTNENYNDFIDLPFDSIRNKILDIIKEKKAKKIVDLCCGAGEQLTLLKENGYDNIIGIDISDHMLEIANLGEDKPICKKGDATNTDFKDNSFDVAIISFALHDKSLNSQKTLLKEAKRIVKKNMYIIIVDYNFDKKTERLGEVGVELIEQAPNEHYENYKKYIKKGGLDSLVKGKFIKIEEYYFYFNAVRCRVYKN;locus_tag=LOCUS_02850;note=WP_010938652.1 methyltransferase domain-containing protein (Desulfovibrio) [pid:27.3%25%2C q_cov:83.9%25%2C s_cov:77.4%25%2C Eval:3.2e-13],MGA_285
sequence1	MetaGeneAnnotator	CDS	320074	320622	.	+	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKERVSLSYCPTMLPYVEEIKKNLEEVEIIPGGSAAGVLSMLRNGNVDMIIIGRKAYERELTNEIKERRLQEGYTLAYSQKMGISEEKLKEISVKTYVDEKIVKEKFAMLKNVTYYEDKDECINSGVNIPMLVDWQDFKEEFELLIPLNNEGGKTSVFRAPVVYYNKNVDDKIIDKIEKILK;locus_tag=LOCUS_02860;note=MGA_286
sequence1	MetaGeneAnnotator	CDS	320718	321329	.	+	0	ID=MGA_287;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010938652.1;translation=MSKFIADIYDTSLYIPLKGIRKKIIDIIDELGVEEIIDICCGTGNQLKLLRKAGFTYSVGIDLSDDMLAVANNEKNNLNCKKEDATNLSFKDNKFEVGIISFALHEKPLEIQEAVLKEAKRVIKKDMYLIIVDYMFDDKVNFLGRFGIDIMERIAGEEHYKNFKNYIKNGGLENLTKDKFEKIKEYYFHFNGTRCVVYRNVKR;locus_tag=LOCUS_02870;note=WP_010938652.1 methyltransferase domain-containing protein (Desulfovibrio) [pid:33.1%25%2C q_cov:84.2%25%2C s_cov:78.8%25%2C Eval:5.3e-19],MGA_287
sequence1	MetaGeneAnnotator	CDS	321687	325880	.	+	0	ID=MGA_288;product=2-hydroxyacyl-CoA dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948786.1;translation=MLGIDLGSATAKIVLLDKNNNVKYKNYIRHNGKIKEVLIDSLKELKKEIGEEKFSLAITGTAGMGVANRNNFEFVQEVIAISKAIVKFYKEAHTLIELGGEDAKIILFEEGKTPEMRMNGSCAGGTGSFIDQMATILNVEISELNELAKKATKNLYIASRCGVFAKTDVQALLNMGESKEDIAKSVFLAVANQSITTLMAGATVKEKVIFAGGPLTFLSELRKAFYETLKLSEDKFILPENSEVLVAIGAALHSEKTDEKYTVDEIIYKLKNEKKGEKTIRVLEPLFENNKEYKQFKERHSQKDVKYLSEKTDFEKKDLYIGIDAGSTTTKLIMIDNENNVVDSFYRNNFGTPLEAAVEGLKKISKYISNGNLKGVYATGYGEEFITKALNLDGGIVETMAHFTAGKSFGDNLSFIVDIGGQDIKSIKIENDMISDIQLNEACSSGTGSFIETFAKNLNLTLDEFVEKAIAAKNPVDLGTRCSVFMNSKVKEALKDGVEVGDIAAGLAYSVVKNALYKVIKLKNADELGENIFVQGGTFKNDAVLRAFEKITGKNVYRLNISEYMGAFGAAIYAREFYKGNKNYKTKFNINNIDKIDYKKDFLQCKGCGNKCNITKFSFDNNNIFYTGNKCEKYFSNRTIKRDNTKNFFVEKEKMVFDMEKEYKYDENKPVIGIPRILSMYEHFQFFYNLLKKLGFKVVVSGKTTRAMYYSGLRTVSADNICFPAKIANGHILNLIEKKVDRIFMPTIIYEKLEGNDAKNSYNCPIVTGYGEVLKRNIETDIPMDTFAISFGYEKGLKKNLFNYLKQFGVEKQEFNKAFEIGNSAEVEFLEKQRELAGEIIEKAEKEDKILVVVLGRPYHLDSMVNAGIMDLIYELGAYGITENAIPDLYDMNLDGVLPLTQWSYHNRLYLAAKWVAKQKYKKVTVIQLNSFGCGPDAVVVDEVKSIVESGGKIFTALKIDEMSNIGAAKIRIRSTFEALNQNRDINLKKRKYTKNYTKEDEKKTILIPNFSKVYSELYEGVMYNLGYKVKTIIEQSEEAVDEGLKYVNNDMCYPATVVIGDIIKALQSEDIEPKDVVVGLSQTGGQCRASNYVPLLKKAMVDAGFEDTPVIAIGTDATAEGLNINPLKLLKYSVISFGAGDVLSKLRLATKPYEKEAGASKNLFYELLYELREKMFSKKPNGDMLKKFTRDAVRRFNEIEINEPKERKRIGLVGEIYMKTNCFSNNYIVDTLEKKGYEVVVPTFLKFLEYDYYSRKFNKEENVSNNYKEYLTKKVIKKTIDHYRNITEKELTKFDRYIPEIKLEKNSKSDNNILPRSLQFGEGWLLANEIAGMESEGIKDVISLQPFGCISNHIISKGIYRELKDKLDVNLLLLDYEAGTSDANIMNRLKLFLEMK;locus_tag=LOCUS_02880;note=WP_011948786.1 2-hydroxyacyl-CoA dehydratase (Clostridium botulinum) [pid:43.1%25%2C q_cov:99.7%25%2C s_cov:97.8%25%2C Eval:0.0e+00],MGA_288
sequence1	MetaGeneAnnotator	CDS	326039	326515	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKIEKAIQLLRLAEELEWQMSDLYMLYYKLYDEDKAFWWEIANEELKHQSLLEAGEEFVKIGKFPEELLEIEKDTLEEVVGVLGKKIEEYKKKAPSKKEAYEYALKMEDSAFEKHYQYVMVVEKSDSKILDIFKRLNAADKDHYERIKKLIEGSVN;locus_tag=LOCUS_02890;note=MGA_289
sequence1	MetaGeneAnnotator	CDS	326696	327961	.	+	0	ID=MGA_290;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582741.1;translation=MKKNKLKEINISLFEFILEFAEIFNFIDGEIHGHSYDVAYIVMRIVEKMDFNNNEKLEIVLAALLHDIGVLKENEMKDLMNFEVANTQRHEKIGFFLLNNYRPFKTVAYIVRHHHIKWNEKILDEDIHIGSYIISLADRFAILINGDKNYYKKKTEILDIINKEKGKMFSPELVDILNELVTKEEFWLNIVYGDKKNIIYENYKDKVTKTGLKDILSLGKIISFFTDSRDRFTAIHSTGVAYVAGKLAKILNYSERDQEYFLLAGFLHDIGKVAIPIEIIDKKSALTNCEFETIKSHTYHTYRILDRIKGFDEIAKIAAYHHEKLNGKGYPFGLKGEEITKEARIMAVADVFTALSEKRPYRDRMGKEKIIEILESMGKDNHLDKEIVNKVKENYENLEKINIEVQKEVLEELKIIDEFIY;locus_tag=LOCUS_02900;note=WP_012582741.1 HD domain-containing protein (Dictyoglomus turgidum) [pid:34.2%25%2C q_cov:92.9%25%2C s_cov:99.2%25%2C Eval:1.9e-54],MGA_290
sequence1	MetaGeneAnnotator	CDS	328430	329185	.	+	0	ID=MGA_291;product=peptidoglycan editing factor PgeF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015675.1;translation=MFEECNNYYKIDEFEKNGVKAIYTKKNVGNLAYYTAETNEELKQVKDNRDKILLDIGAGNRKLFYAKQIHSDKIKIIRNTDIAKEYDGYDGFITNRNDVVILMHYADCLPIYFYDKSKKIIGICHAGWKGSYKNIGLKLINMMKKEFGSELKDVLIGLGIGIKGCCYETGKEIYEKFNNQFNNSIIEKSFDIRNDKIYFDLEEFNYNLFLEYGIKPENIIKSEMCTYCNEDFFSYRKDADKRGRNGAFIFL;locus_tag=LOCUS_02910;gene=pgeF;note=WP_011015675.1 peptidoglycan editing factor PgeF (Fusobacterium nucleatum) [pid:33.7%25%2C q_cov:99.2%25%2C s_cov:95.9%25%2C Eval:1.6e-40],MGA_291
sequence1	MetaGeneAnnotator	CDS	329337	330497	.	+	0	ID=MGA_292;product=cysteine desulfurase NifS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016111.1;translation=MKEVYFDNNATTKVDERVFEAMLPYFVDNYGNPSSIHRVGQKVRKKIEDSRDIISNLLKINPNELIFTSCGTESNNIAIKGVARAYKNRGKHIITSVIEHPSVLNTCKALEKEGFEVSYIPIDDKGIVNLEKLKEAIREDTILISIMHGNNEIGTVQPIKEIGAIAKENKIFFHVDAVQTIGKMELNIKENNISLLSFSGHKFYGPKGIGGLYVKNGIKLEKVLTGGHQERNRRPGTENVASIVGMTKALELSYENMEEESKREKELRNYFEEEIVKKIPELILNGDREKRLPGTSSVTIKFVEGESILLNLDFKGIAVSSGSACTSGSLEPSHVVLALGVPMEHAHGTIRFSLGRYNTKEEVDYVLEVLPPIVEKIRSMSPFWNN;locus_tag=LOCUS_02920;gene=nifS;EC_number=2.8.1.7;note=WP_011016111.1 cysteine desulfurase NifS (Fusobacterium nucleatum) [pid:58.6%25%2C q_cov:99.0%25%2C s_cov:96.2%25%2C Eval:4.3e-135],MGA_292
sequence1	MetaGeneAnnotator	CDS	330536	330910	.	+	0	ID=MGA_293;product=Fe-S cluster assembly scaffold protein NifU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796962.1;translation=MYSEKVIDHFSNPRNVGKIENPDGYGKVGNAACGDVMEIFLKIEEDKIKDVKFRTFGCAAAIATSSMSTEMILNKPVEEALKLTNKAVAEALDGLPAKKMHCSVLAEEGIQSAIEDYMSKKDKS;locus_tag=LOCUS_02930;gene=nifU;note=WP_124796962.1 Fe-S cluster assembly scaffold protein NifU (Fusobacterium canifelinum) [pid:71.1%25%2C q_cov:97.6%25%2C s_cov:96.8%25%2C Eval:5.2e-47],MGA_293
sequence1	MetaGeneAnnotator	CDS	331072	332193	.	+	0	ID=MGA_294;product=D-alanyl-D-alanine carboxypeptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986421.1;translation=MKRISVILLLLLTIFSISYSNTNYVARILTDQNGNFIEGENITLKHPLASLTKMMTILVAIDEVEQGKIAYTDMVKVSRRADRTGGSSAYLKAGEKISLSDLMKAVIVRSGNDAAIAIAEYIAGSEDKFVKLMNEKAKELGMIDTNFYTATGLTKDMTGKNLDKSTVKDIAILSSVLLKKDVFMKDADKAKITISKRRKFANRNKLIGKVKGVDGLKTGHHSKAQYNVAITVKRDGLRFIVVSFGSPTEKIRDKEVTKYIDYAYKTYEKVKIASKGDFAIEIKVKDAVNRKIPLYLGRDIYGIIDKEKKWNFYKVAYIPKEVTAPVKANEKIGVISVKYRSRVIDEVPLVSKIDIKKISGFRNFLRIITFNLF;locus_tag=LOCUS_02940;note=WP_011986421.1 D-alanyl-D-alanine carboxypeptidase family protein (Clostridium) [pid:35.6%25%2C q_cov:90.9%25%2C s_cov:82.8%25%2C Eval:1.1e-52],MGA_294
sequence1	MetaGeneAnnotator	CDS	332270	332983	.	+	0	ID=MGA_295;product=biotin--[acetyl-CoA-carboxylase] ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015921.1;translation=MDLTILEKIDSTNKYLKEKKYKKNWEIVMAKEQTAGKGRRGKVWNSNKGGAWFSFCFAEDKYLSKTEYGKIPLIAGLAVIKGLEEIEKLNYKIKWPNDVYVGKRKISGILLEKSGDFFIVGIGINVNNVDFGEFKDIGISLNKITDKIYNIEKLVMLVASKFKKEYYRFLRGEWEEILLEIKEKNYLKNRVVEVMVNSEVIKGEVIGINNSAELCIKKNNEIYEIKSGEIRIVYTNN;locus_tag=LOCUS_02950;EC_number=6.3.4.15;note=WP_011015921.1 biotin--[acetyl-CoA-carboxylase] ligase (Fusobacterium nucleatum) [pid:39.6%25%2C q_cov:95.4%25%2C s_cov:95.3%25%2C Eval:8.8e-38],MGA_295
sequence1	MetaGeneAnnotator	CDS	333072	333623	.	+	0	ID=MGA_296;product=ComEA family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495314.1;translation=MKENNKKLLYIIILILIGAIGLKFFENKSDEKDINIRKLKTYKVDYHKKFNKGKLDINKVSEKELIDRGMSEKMAYNIIKYRGIVGNILKIDELTRVKGIGVKRVEKLRDIIFVDNKDLKPKMININKVNEEALKYFGFSKKEIGNIIKWRKNNGSIYSNMDLIEIIGEKRYYEISDRVDYLE;locus_tag=LOCUS_02960;note=WP_029495314.1 ComEA family DNA-binding protein (Fusobacterium hwasookii) [pid:35.7%25%2C q_cov:91.3%25%2C s_cov:94.3%25%2C Eval:7.9e-21],MGA_296
sequence1	MetaGeneAnnotator	CDS	333620	333757	.	+	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYIRQIKIKKLDNCSVEVVLFLYNLTIRLPQKNKKEVGFYDMDI;locus_tag=LOCUS_02970;note=MGA_297
sequence1	MetaGeneAnnotator	CDS	333741	335414	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIWIFDIETILDAELIRKTMNLEGTDVEVMNLAKDIYQGKKGNRFLPLPYHKIVNISILGLDKDKNFLKLSSINDEDEKEIIEKFLDALNKNNPQVITFNGRSFDLPVLMIRAMKYSLSCNTYFENENSKIGKNRWSNYRARYNEKFHLDLMDSLSEFGAVRGLSLDLLSSMIGAPGKYEVNGSQVIDLYYNGELEKIKEYCESDVLNTYWLYLKYEVLRGNITREEFGKKLEILKENLIKNRYYFEIFEENINKELDNLNGVEKGIEEENKKENKGEKMILLTGANGQLGTDFKKLFDEKQLKYIATDYKELDITNIDNVREFVKNKNIKYIINCAAYNNVDKAEEERDKVYALNCDAPKNLAIIAKEIDAIFVTYSTDFVFDGEKGEAYVEKDKVSPVSVYGQSKADGEKKVLEAYEKVFVIRTSWVFGTGNSNFNTQVINWSKSRTELSIVDDQISVPTYSWDLAEFSWKLIETNEFGLYHISNDGIASKYDQAKYLLDKIGWKGELKKAKTSDFNLAAKRAKFSKLSSEKVEKLVGEKLPNWKSGIDRYLGMA;locus_tag=LOCUS_02980;note=WP_011015768.1 dTDP-4-dehydrorhamnose reductase (Fusobacterium nucleatum) [pid:52.1%25%2C q_cov:49.2%25%2C s_cov:98.0%25%2C Eval:3.7e-80%2C partial hit],MGA_298
sequence1	MetaGeneAnnotator	CDS	335541	335960	.	+	0	ID=MGA_299;product=nucleotidyltransferase substrate binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957957.1;translation=MLDLKSFEKAINSLEQLILKMKDKELMNSLDEIVIYGLKAGIIQNFEFTYEISWKYIKRWLELNIGSSFVDGVSRRQLFRLAIEHHLIENVDIWMDYHLARNRTSHTYNLNTAEEVYKTAIEFLGDVKKLYKELELKND;locus_tag=LOCUS_02990;note=WP_010957957.1 nucleotidyltransferase substrate binding protein (Coxiella burnetii) [pid:40.3%25%2C q_cov:99.3%25%2C s_cov:90.5%25%2C Eval:1.1e-23],MGA_299
sequence1	MetaGeneAnnotator	CDS	335953	336249	.	+	0	ID=MGA_300;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005693849.1;translation=MINLKDDELEIVKRILKKYFDKCEIIIFGSRITDDIKKYSDLDIAIKGTKKKDIRLLNRAIEEFEYSELAFRVDLLDYWRLSESFKNIIDDKNEKLYL;locus_tag=LOCUS_03000;note=WP_005693849.1 nucleotidyltransferase domain-containing protein (Haemophilus influenzae) [pid:43.2%25%2C q_cov:89.8%25%2C s_cov:77.2%25%2C Eval:5.5e-12],MGA_300
sequence1	MetaGeneAnnotator	CDS	336291	336827	.	+	0	ID=MGA_301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYKKLRRGFTLIELMVVIAIIGILAFLEGADVSKSGEGRDLDTAKTKIMTFMRGISDKSFETGNVYEINFEFDKYRIVAKKDEKIIDSITVPKRFEYRDVNWNNNFNRKTTSLGNISKSLSIFIIDKKNSKFCARATFLNMSSVHYMGISLYAPTDKLTFEKKDYSDTNNWKRLSWN;locus_tag=LOCUS_03010;note=MGA_301
sequence1	MetaGeneAnnotator	CDS	336915	338249	.	+	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIITFSILLLISTLIAIHINISIYIYFLMLLITIIFFSIYKKKIILIVLILILFNIFSLMRIYKINIKSNEYYHISGKIIGDKIKVNKINNKYISNKIYLSINRELDGESVDLDFICKKIDKFHNILYLQGKMLNVKLHNNYLKEFIKNRIYKFSYVYGENLYGFLLAVFLGDSSELNQDMIKKYRYTGVSHLLVISGLHMSILLFLSLKLFDKLKFNYYSQYLLTLVVLTVYIFITGALTSVLRAYIMIVIYILSMLMYEKVDPLKSLSIAVIINIIINPTSIISVSFILSYLAVLSLLIIYPRIKIGIFKFDFVNQMIFITLSIQLMLAPVFLYNFNLIPFLSFFSNIIVVALGSFLIGVSFILIFIGIFSTNLAIILGFLVDFLLKILNFYVNILSKISFMQIEYKSKIPLLFIMLFYTTIFIIIYKEKIHEKLKIYFNN;locus_tag=LOCUS_03020;note=WP_010889773.1 ComEC/Rec2 family competence protein (Borreliella burgdorferi) [pid:22.7%25%2C q_cov:65.1%25%2C s_cov:68.0%25%2C Eval:1.4e-15%2C partial hit],MGA_302
sequence1	MetaGeneAnnotator	CDS	338321	339574	.	+	0	ID=MGA_303;product=dTDP-glucose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015738.1;translation=MKTYLVTGGAGFIGANFVKYMLKKYDDIKIIILDKLTYAGNLGTIKEELKDKRVEFVKGDIGNRELVENIFMQHNIDYVVNFAAESHVDRSIENPKIFLETNILGTQNLLDISKQHWIIGKDENGYPTYKEGKKFLQVSTDEVYGFLNREYPDGKLLIDNGQLTVDNGLKIEELKKVLEDREVMPKIFGEKFFTEETALNPRSPYATSKTAADMLTRAYSETYHMPINVTRCSNNYGPYHFPEKLIPLIIKNILEGKKLPVYGDGKQVRDWLYVEDHCKGIDMVINGGKLGEAYNIGGFNEEQNINIVKLTIDTIRKLIIDNGQLAIKEEYKNIVKCNLNDISYDLITYVQDRLGHDARYAIDPSKTVRELGFYPETPFNIGIEKTIKWYLNNQDWVNEVVSGDYQKYYEKMYSNKN;locus_tag=LOCUS_03030;note=WP_011015738.1 dTDP-glucose 4%2C6-dehydratase (Fusobacterium nucleatum) [pid:64.0%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:5.2e-158],MGA_303
sequence1	MetaGeneAnnotator	CDS	339753	341492	.	+	0	ID=MGA_304;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017064.1;translation=MGYNKKDVENLIENLDIVEIIGEYVELKKSGSGYKGLCPFHDEKTPSFSVSPEKGIYNCFGCGAKGNALQFYMEKNGLDFITAIEELAKKYNYKLRNETGYSIKKNSNYDRYYSLMEEVQKYFGEILFSKQGILGLEYLKNRGLDEDFLKRYHLGYAIDGWNNIGDYLKEKGYTEQEIFDMGLIKKGEKGYYDTFRGRVIFPIFSPKGKTIGFGGRILNSEKSTAKYLNSPETKIFTKGDNLYGFINKGSNIRKNGFVMLMEGYMDVLAAHKNGFANAVASLGTSLTEKQASLMKKYTQNIVICYDMDNAGRKAVERASIILKRYKFNIRVLELSEGKDPDEYLMKNGKEKFKKELRNSIEIFDFLYNYYIEGINLNDIILKKNFIYRFKDFFNSIEDEIEHSIYIEKLSIAVDIPKEDLKSIFKKDNKIINKRYKYAKINKNNKIDKLEKETIRIILKNIDYYNKLNFIEIENPLLRKVLGIIAQKLEFKDLKIEKEIINNEDFDEEEKAMIIDILFSVDEIENEKEFFKDILESWEKKRFQNELEEVKKQLENQNLTIGEKRILVGKRMEIIKKLKF;locus_tag=LOCUS_03040;gene=dnaG;note=WP_011017064.1 DNA primase (Fusobacterium nucleatum) [pid:40.4%25%2C q_cov:98.8%25%2C s_cov:97.8%25%2C Eval:3.0e-125],MGA_304
sequence1	MetaGeneAnnotator	CDS	341507	342676	.	+	0	ID=MGA_305;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796886.1;translation=MKKFFKDEKLLKLVRKAQESKIVTYEEINENLPENFPLEEIDTLIKGFKGFGIKVIPKKINDEKEDESKKISKEGIPIVEIDEEEDFIEEDEDVNDAAVEELLKENLLEFENNMKVDEPIKMYLREIGQIPLLKYSEEVELAKRAAALDREAEQELVKANLRLVVSIAKKHTNRGLKLLDLIQEGNIGLMKAVEKFEHEKGFKFSTYATWWIRQAITRAIADQGKTIRIPVHMIETINKIKKETRIYIQETGKEPTPEILAKRLKMETEKVKSILKMNQEPISLETPVGSEEDSELGDFVEDKKVQTPHEVTNNNMLKEQLGRVLETLSEREEQVIRLRYGLDDGYPRTLEEVGKIFNVTRERIRQIEVKALRKLRHPSRRKKLEDYLE;locus_tag=LOCUS_03050;gene=rpoD;note=WP_124796886.1 RNA polymerase sigma factor RpoD (Fusobacterium canifelinum) [pid:59.3%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:2.5e-130],MGA_305
sequence1	Aragorn:1.2.38	tRNA	342787	342863	.	+	.	ID=Aragorn_14;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00140;note=Aragorn_14
sequence1	Aragorn:1.2.38	tRNA	342868	342942	.	+	.	ID=Aragorn_15;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00150;note=Aragorn_15
sequence1	Aragorn:1.2.38	tRNA	342966	343041	.	+	.	ID=Aragorn_16;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_16
sequence1	Aragorn:1.2.38	tRNA	343045	343119	.	+	.	ID=Aragorn_17;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_17
sequence1	MetaGeneAnnotator	CDS	343362	344390	.	+	0	ID=MGA_306;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964612.1;translation=MNNEYLLREIKKRTKNNSIKQSDIEDILSMEKIDENSYEEIIDYLVSKNIKVLDEEIIIESEEDMESVSLMKDVDIMKQYMKEVSEYELLSPKVQMEYLNIKDNDEKVKNLLVESNLRLVVGLAVKYSKQGVSFLDLIQEGTLGLMKAIDKFDGTKGYRLSTYATWWIKKYMIDFLNEKVASMKVPTHIYLKYQMLKKAEKAISQENGRAATLEEIAERTYMTVDEASRIKSIIESKMIAIDSYTGEDGNGKFDISDDSTEEEIEAELEKLASENKINKMLKKLDSREIKIIKMYFGFSEDGRRYTFKEIGEELNLSAERIRVIKERSLKKLRYIGKKIWKD;locus_tag=LOCUS_03060;gene=rpoD;note=WP_010964612.1 RNA polymerase sigma factor RpoD (Clostridium) [pid:33.4%25%2C q_cov:95.0%25%2C s_cov:86.8%25%2C Eval:1.2e-45],MGA_306
sequence1	MetaGeneAnnotator	CDS	344378	345478	.	+	0	ID=MGA_307;product=Nif3-like dinuclear metal center hexameric protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438644.1;translation=MERLMKLSKIISKLESRFPLKLQEDWDNSGLLVGDLNSEINRIQISLDVTDEVIENAIKIGANLIITHHPLIFKPIKRVTSGDNIGKKILKLIKNGISLYSMHTNLDSAKMGLNEYIMNLLGVENGEVLDKNYKNIYRIGIYIPEDKFIEFRKKIISFDKIYKDERYEKVSYSTEVEETFFAKEKANPAIGEKGKLSIVENKKLDIIIEKKYINNFLNYVSKNHPYEDFSYELIKLENKIENGGIGRIYKLDEKIKISEYIKIVKEKLNINNIRAVYDEDKEIKKIGLVNGSGASYISRMKNRGVELFITSDIKYHEAFDARELGMALLDIGHYETEIWFSDIIKKELLEIVEVDVFNSEKVFKYF;locus_tag=LOCUS_03070;note=WP_003438644.1 Nif3-like dinuclear metal center hexameric protein (Clostridioides difficile) [pid:39.6%25%2C q_cov:97.0%25%2C s_cov:97.3%25%2C Eval:5.4e-76],MGA_307
sequence1	MetaGeneAnnotator	CDS	345493	346176	.	+	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCNKKLIKIIILYFVIINSIFANVTDELGVFNQEEKNNLEKKIKNVEKEYKISYYIYILNKDSEVEKTLVDLKRSVIIKIVKKYKVKLYFTKDISIEGYSDEIDNLLNKTTDLIAGKDYLDYIYEVIGDTKDIINIIDVGEKTDSKQLINNTMKNIFIGILVFLIIIVLIFRYIKKYKENMKICKHCNLEMDLIDKYYEKNKEIKLYSCKICGYSKKIISLKKNIGK;locus_tag=LOCUS_03080;note=MGA_308
sequence1	MetaGeneAnnotator	CDS	347334	349670	.	+	0	ID=MGA_309;product=endopeptidase La;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545466.1;translation=MNIEEKIELPLLVVRNVVIFPYMVIPLNVGREFSVRAVEESLKRNSEIAIFTQKKIEKDEMKKDDIYEFGVLTNILKMVRFPDGTLRILVEAIKRIELKDFKIDEKTKMSKGEVVVLNEIGNQKDKDKEEEALYKIVKNKFETCLSRGLTVTPEIISPTIDVELPGRLSDIITAQLDINLEEKYNALKELDVKKRLELTIENLNKELDVLEIKNKIQDKIKKGMDETQKEFFLREQLKAIEEELGIQVENDEEVERYKNEFNKRKFPNNVKKLAEKEIDRLSRLPLDSSEAGVIRSYLDFIIELPWKDVSKGKLDVKKAKEILDETHYGLKDVKERILEYLSVKKISKELKTPILCLVGPPGVGKTSIGKAIAEAMSRKFIRISLGGVRDEAEIRGHRRTYVGALPGRILTGIKQSGKSNPVFMLDEIDKLGYDFRGDPSSAMLEVLDPEQNIDFVDHYLEMGYDLSKVFFITTANRLDTIPAPLRDRMEIIRIPGYSLNEKAIIAEKYLIPRQKKQNGIEKYEIVIEKMALEKLILNYTREAGVRNLEREIGKVFRKIVKKIVMGEEYPEVVNENEIEKLLGIPKYEMSDTEDIHDIGVVTGLAWTEFGGDVLNIEVNLVPGHGELILTGKLGDVMKESARIALTYIRSKIDNYNGDKEYYKNYDLHIHVPEGAVPKDGPSAGITLTTAIASKLLNKPISNKIAMTGEITLTGRILPIGGLKEKLLAAKLRGIKKVFVPKKNEKDLIEIDEEIKSGIEIKFVNYAEEVFEELQLQQG;locus_tag=LOCUS_03090;gene=lon;EC_number=3.4.21.53;note=WP_012545466.1 endopeptidase La (Thermodesulfovibrio) [pid:49.3%25%2C q_cov:99.1%25%2C s_cov:95.5%25%2C Eval:7.5e-215],MGA_309
sequence1	MetaGeneAnnotator	CDS	349685	350800	.	+	0	ID=MGA_310;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545648.1;translation=MKVLLIDDGGLFGKVLRDILITKDLEVVNITQKKDAMKILDEKPDEIGVVILDGGISLNDHIGLINHVKNSDRTEYIPIIFIDSYNEVVNIEEFLNIGVYDYLKKPFDNGIFYLKVKNAIKYYENFKKLKDAKNKIEKMNLNLRENYRRADELNRRLEEKNKILGFLVDARTEELERMTTSLISALENANLYNDENTGKHIIRVSLYAELISEKAGFDKLFSKKIKMYAPLHDIGKVGISDNILKKPGRYTEEEFEEMKKHVTIGYNMIKDSPLPKLAKEIILYHHEKWDGTGYTNGLKGEEIPLAARIVAIADVFDALTTKRTYKEAFSLMKALKILEDGRGKHFDPFLLDIFFDNIDSVLEIREENKDE;locus_tag=LOCUS_03100;note=WP_012545648.1 response regulator (Thermodesulfovibrio yellowstonii) [pid:35.5%25%2C q_cov:99.5%25%2C s_cov:98.3%25%2C Eval:3.9e-53],MGA_310
sequence1	MetaGeneAnnotator	CDS	351091	352191	.	+	0	ID=MGA_311;product=maltose/maltodextrin ABC transporter substrate-binding protein MalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080109.1;translation=MRKMIFIGIIILGTAVYMFRTTFIDKSKSIKKLDIMVFSPNYESLNGILYKYSEENNIKINLEEAQYFNFTSAFKEKSKKNEKIPDIFLVVNDWIGDLVEKNLIEEVKKENLNELSKIAVESIKYKNRYYGYPFKEETLFLFYNPKYIKKVPNKISDLLILSKKIKEKYGIEGMVFPTDEYYYHFPWYSYVGGDVKELINISDKTLNNMEKEMKIIKNNFKYMNSNLATTLFKDDKAAMMINGPWSIDYLKGVNYKIKTIKDEKFKPFVGIKTFVIYKKSKEKVEAEKLLKYLIGKDIQEKWSKDPKFISVNKNVKNSMKNGIIMPNSPKLNRFWMESNKMIYDILKNSLDIKKSIKKNLIKEKIQ;locus_tag=LOCUS_03110;gene=malE;EC_number=7.5.2.1;note=WP_004080109.1 maltose/maltodextrin ABC transporter substrate-binding protein MalE (Thermotoga) [pid:29.5%25%2C q_cov:79.8%25%2C s_cov:84.4%25%2C Eval:2.1e-27],MGA_311
sequence1	MetaGeneAnnotator	CDS	352188	353969	.	+	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNIGFKTKVVVVIFAVMFLGMFMSYYIQQNFMLKMIQDNLKLNMENNLKIISNEIENKKKDLMVKAVIIEKDNAILELFNKNDYNIAQNILLKYIEIYKDVAIEIYDLNGNIITKSLNYSNDMNFNMINNFIKTRKKEKILDSWLVENKNGAYIKSFITIRKNAENIGWVILTYRISDKFLDNIKNRIDMEINIYNNKNRLIGTTMYNKKGVRIKSRKSLNTDREKINFEEKKEELVAVKKNKNLNIKIEVVYRLKEFVKNQQRIRNKIFYLNFLLMLGIVISLNLILGKLIKPVGELIKGLQKIETGNFEYKIEKSSYDELGQAVESFNKMVEKLKENKENEKRIANLDKIASVGRLAASIAHEIKNPLSSISMIANMYYQEFDSIDFTREDFKVISKEINRINDIIERLLDFSRERKIVLKDVDINLLFSELIMLLSKKMMEKGNKLILNSDYKEIYIKADENMLKQAFLNILINSNDSMEKGVVYINIEEKEKNKDKEIKIEIKDNGKGMKPEVLKKAFEPFYTTKTKGSGIGLAVVKKMFDIHRFKCNIDSQSGVGTTITIIIDVEKNKKLTFEGVKYESEILERRD;locus_tag=LOCUS_03120;note=WP_010941630.1 cache domain-containing protein (Geobacter sulfurreducens) [pid:28.0%25%2C q_cov:53.0%25%2C s_cov:48.2%25%2C Eval:3.6e-33%2C partial hit],MGA_312
sequence1	MetaGeneAnnotator	CDS	353973	355337	.	+	0	ID=MGA_313;product=sigma-54 dependent transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002675346.1;translation=MGEYRVLLIDDEEDVLYSLQRILLRDKELKIDTAENGVVGLELCKKNRYDIIITDLIMGEINGLEIIEEVKKIDENSIIILITGKGNEEIYKEAIEKGAYDYFSKPFNYTEFFKVIRNAKEKLDLELYQEKYKNITEKENKFYNIYYKSEEMREVIEKIKKISKIDSPVLINGESGVGKELIAESIHMNSLRNNKPFIKINCGALPENLIESELFGYEKGAFTGAEKNKKGKLELGNNGSVFLDEIGELNIYSQVKLLRVLEDGQLEKLGSEGTKKIDIRIIAATNVDLKKNISENKFRMDLYYRLGVFNIVIPPLRERREDIIFLAEKFLDDFSNKFNIERKIMSDGLKLKLLNYSWPGNIRELKNVIQNILLLSGDKNVISVEMLPEFLFERHLEDEKLEFEELPLREYMKKNEKKYLKKMYSKYKDNKSHLAKILGVTRKTLYDKLKEYGI;locus_tag=LOCUS_03130;note=WP_002675346.1 sigma-54 dependent transcriptional regulator (Treponema) [pid:41.6%25%2C q_cov:99.1%25%2C s_cov:93.9%25%2C Eval:2.5e-92],MGA_313
sequence1	MetaGeneAnnotator	CDS	355470	355820	.	+	0	ID=MGA_314;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898626.1;translation=MKEKLIELVEKDYIREDIPQFKAGDTVKVHYSVKEGEKERIQIFEGVVLRVSGGSVAKTMTVRKMSYGVGVERIIPVNSPLVAKIEVTKIGKVRRARLYYLRELKGKAARIKEIRK;locus_tag=LOCUS_03140;gene=rplS;note=WP_005898626.1 50S ribosomal protein L19 (Fusobacterium) [pid:72.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-43],MGA_314
sequence1	MetaGeneAnnotator	CDS	355864	356796	.	+	0	ID=MGA_315;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029491539.1;translation=MKNIYINILIYIVVTSFFAYIWIKEKELGKKIQNIKDKFSDKIIGKYEVKSPMKKKVIRGTVNWTETIVTAVVLVLVIQHFYVGNFLVPTGSMIPTIEIGDRVFGDMVSYNFRDPKRGEIVVFREPMDNKLLFTKRLIGESGDKVKIGSDKRIYINGKKLTDKKYDRDYFQLGYLGAGEWYIPKKGDTIQIAGEFKPAEGKLSDIGKLNDVQRYLMSRGDVITRALPYAKFIVNGKYETGIIMDFLRDDEIAKKLLSGEKITLKENYYFVLGDNSKTSFDSRWWGLVAEHRFRGRAMFRFWPVNRMGLLK;locus_tag=LOCUS_03150;gene=lepB;EC_number=3.4.21.89;note=WP_029491539.1 signal peptidase I (Fusobacterium hwasookii) [pid:49.8%25%2C q_cov:97.4%25%2C s_cov:97.7%25%2C Eval:7.8e-78],MGA_315
sequence1	MetaGeneAnnotator	CDS	356807	357232	.	+	0	ID=MGA_316;product=ribosomal protein S18-alanine N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546589.1;translation=MNKKITILDSISFIEMESFNKPWNKNIIKSMFESKEYLILVEYVKKEIVGYIILYNTSDVVEVLRVAVMKKFRNQGIGKTLLEKAIDETKKIGYNEIFLEVRVTNYSAIYLYKKVGFEKINIRKNYYKDSNEDALIMKKKL;locus_tag=LOCUS_03160;gene=rimI;EC_number=2.3.1.266;note=WP_012546589.1 ribosomal protein S18-alanine N-acetyltransferase (Thermodesulfovibrio) [pid:37.9%25%2C q_cov:99.3%25%2C s_cov:95.2%25%2C Eval:1.1e-18],MGA_316
sequence1	MetaGeneAnnotator	CDS	357259	357729	.	+	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKIEKIMQNYNYNFDSEEYIKKNILENIYLTYSELKEVIEILYELEYIKEMDLKEVFESIKFDTVKSKKEKGSYFLKELLYYKYPLYQKTMKKLKFHLNKIKDSKIKLTYPQNLEGDNLKIEITIKNEKDVDNILDKLLKNRDNLKDIISLIKK;locus_tag=LOCUS_03170;note=MGA_317
sequence1	MetaGeneAnnotator	CDS	358024	360111	.	+	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKLEITLLSISFVVLFLFSIIFSTKTLIYSSFIYFNLFSLVVISAIMILSLRSYLILKNFMHLFFSISYGILMFIYILIMKEYYFNNMYIDYMIPIIKYTEVLIFMFGIFVLREKVDKRKILKSFIILIIVNLFYFFITIFFIESNVSIVIFYIELLLVYSYLSDESIKDYFTKILWYKIFSWLFGVIYTVTSFNYFNLISFFMYFYSLYKFLEYLNYVLNRGFFKEIYNREQKIRKLIKYHNSGIIIIDDYYINYINDSALKILGKDSKRELKNKSIYLALEGISSELLEDTLKKFPEENVVEIVNFNKKNKKIKIKAYKTGDEFSEEIIIILDELLTQKEVFEKANNLLSNNVVYLYNEDEREYVYMNNGVKNILNKSPEDFYNNSTMMFDMIPEGNSKWYMEFMANKKDGLEEFSYVKENGELVWLLGERRKFEFYGNEYYYGVGADISRYKIRENELLLKNEKLEKENKIKDMSVSVISHEIRTPITSIIGFLENIIMNKKFIYPKVLTMVYKVYNNSMRLKELINNLLDINKLNAGKMEISKEILVLKDMVTEIMLNNEILMEIRDIEYSVNIDEELEAYADYNLIYQSINNIVSNAIKYNKDNGKIIVSGIDNEKSVTLSFKDTGIGIKLENINSVFEEYERIEGSHIQGTGIGMPLTKKMVELNGGKIWIESVYGEGSTIFIELLK;locus_tag=LOCUS_03180;note=WP_011022273.1 PAS domain S-box protein (Methanosarcina acetivorans) [pid:32.9%25%2C q_cov:35.4%25%2C s_cov:43.9%25%2C Eval:2.2e-32%2C partial hit],MGA_318
sequence1	MetaGeneAnnotator	CDS	360447	361316	.	+	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYVSIYILVGLIFAFFISTIVYDKALTKGFSLKEYLFEKDSKAVWVDYFGGFILPAFLITYNSVTGGEAKSLILDLLTILIILSVAIAVLAVVRVLNDKIILNISSKYGDKTTLNNEIFNQSNLSASFFNIAFTSVITNILLQESIFEEKISVMLLRALLIFLFNIIVFIAYKFLEVKREVKIYENLFEKDNSASGLTFLGYIVSWQIILYKLVNFYDLKELYSMVVSFMLILVFYEIIKLIIKFGIKYILKEDIEDEIYLQKNIGAGFGMFVIYTGIALLISGVLFG;locus_tag=LOCUS_03190;note=MGA_319
sequence1	MetaGeneAnnotator	CDS	361313	362845	.	+	0	ID=MGA_320;product=polyamine aminopropyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001192488.1;translation=MKIKSENLLAIAILMTGITGMVAEYSLSTIASYFVGNSITQFSLVIGITMFFMGIGSKISKYIEKEIFYKFILFESLLSIISAYSIIFTYYLMGISGEKLFYIYMLSGIVGTLIGLEIPLITRINEHYNIALKENISKVLSYDYFGSLIGSILFAFLFLPYLGLTNTSILLGFFNFLVAFFVYVSIIKRGIEVDSKKIKNIFILSFLVILSAFIFGKKIVMYSEQMQYKDKIVFKEQTKYQNIILTKFKKDYRLYLDGQTQFSTFDEYRYHESLVHTPVTFLDNIPKRVLVLGGGDGMAVRELLKYKKIESITLVDLDDQMTKLFSTNKLLRSFNKSSLLNKRVEVINEDAYIYLKNNKSKYGLIIIDFPDPNNIALNKLYTVEFYKLVKRNLEKSGVFVTQSTSPIYSKEAYICIRKTIKEVGFNVYSYKTLVPSFGMWGFNIGSMQKRDLNKIFNKKIEIPTIYLTNGVMKSNFSLGKDIKLDDEKIEVNKLLEPKLLKYYNNSWVYY;locus_tag=LOCUS_03200;EC_number=2.5.1.16;note=WP_001192488.1 polyamine aminopropyltransferase (Leptospira interrogans) [pid:39.0%25%2C q_cov:98.4%25%2C s_cov:98.8%25%2C Eval:3.6e-103],MGA_320
sequence1	MetaGeneAnnotator	CDS	363011	363382	.	+	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLEEKYIDYLLDEVNKKLRMEYSIIEDLNYILNDFERFQVMIKGNNKIRSDIKKVILSKNINFKKIKNDYYLKLNRNRVMKLIPIIRLFIKIQEKNFENKFVKEQLDFFRFEFNSIKLAMLS;locus_tag=LOCUS_03210;note=MGA_321
sequence1	MetaGeneAnnotator	CDS	363433	364194	.	+	0	ID=MGA_322;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494599.1;translation=MKLIDAHCHINLDEFKDDFNEVVERINKKLEFAVNIGFDMKTSLESVELAKKYDFIYSAIGIHPNEAKEYSDEVEKKLIKLAENPKVLAIGEIGLDYYREGAPRDLQKDVFRKQIELAIKLDKPILIHCRDAYGDTFDILNEYKEARGIMHSYSGSYEFAKKLMDRFYFSISGPVTFKNAKNVKEMVRELPIERIMVETDSPYLTPTPYRGKRNEPIFVEYVAREVADLKNMKYEEVKDITNKNTKKAFEIEV;locus_tag=LOCUS_03220;note=WP_029494599.1 TatD family hydrolase (Fusobacterium hwasookii) [pid:57.0%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:5.3e-84],MGA_322
sequence1	MetaGeneAnnotator	CDS	364197	364997	.	+	0	ID=MGA_323;product=23S rRNA (guanine(745)-N(1))-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011262328.1;translation=MQIICPVCKEELKKENNKMSCINGHSFDFAKQGYINLHTKRGEKNPGDNKEMVKNRRAFLEIGLYNNLKEKIKKVLYKYRDLYNFNSLLDCGCGEGYYTSSFELKDVIGIDISKFAILEAAKKYKKLKFIVASGKDIPIKSESVEIVTSIFTKLFPNEYYRILKNNGIVITVHSGINHLKEIKEVVYENVKYDVYNPDRDMLDKFKKIDSINYFYKEKLKTNLEIKELFEMTPYKWKSPKEGIDRLYSLDNLEITIDVNIDIYKKV;locus_tag=LOCUS_03230;gene=rlmA;EC_number=2.1.1.187;note=WP_011262328.1 23S rRNA (guanine(745)-N(1))-methyltransferase (Aliivibrio fischeri) [pid:39.4%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.4e-45],MGA_323
sequence1	MetaGeneAnnotator	CDS	364999	365364	.	+	0	ID=MGA_324;product=holo-ACP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861979.1;translation=MKILGIGNDIIEIYRIQEAIEKNSKLEKRVYTEKEIEYANSNRKYEVLAGRFAAKEAISKAFGTGIRGFKLTDIEILNDELGKPYVNLYGKLKEKYLGYNIMVTISHNKSNAISTAIISCE;locus_tag=LOCUS_03240;gene=acpS;EC_number=2.7.8.7;note=WP_011861979.1 holo-ACP synthase (Clostridioides difficile) [pid:52.9%25%2C q_cov:96.7%25%2C s_cov:96.0%25%2C Eval:1.2e-27],MGA_324
sequence1	MetaGeneAnnotator	CDS	365727	366932	.	+	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKIVIFMFLIMGSFIFAENLGTNIILDDAIFYYEGNNENILDLKDDTIKEYQDVLMKYKSFYDLDITKLFESNYAISFHKRKDEKKFFIYKKIETADFVGTKFYNNKFFERDIISGMTTYYILGDNQFIYSYDSGNLYISNDIALYFEMLDNLKKEKHTLRKDKNFVNLLNYNKEYKYKYYLLQSKPIEKNGYVIKKYSEINGEKRIKRYLVDNLSEKEEDNINLADLISGDVDRIYIGKNIQGVTSLLNDDFKIMNYTVSKELLNYLNTNIKLAVYIEKGKDFYILLLPKENFDNSIELLRKEYEKVFFYDKKLKLLKNEYGYEIHIPILQIDRYIDVYKNKYLILSNSSEVLKNIEIGKYYNYDYSKINLQSTIYKDFINNIDESFEVKNNIIEEIE;locus_tag=LOCUS_03250;note=MGA_325
sequence1	MetaGeneAnnotator	CDS	367055	368671	.	+	0	ID=MGA_326;product=putative manganese-dependent inorganic diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015853.1;translation=MKEKILVVGHKNPDSDSICSAIVYANLKEKLGLDTKPVRLGKINKETEFILNYFGVETPELIETIKPQLKDLRKGVKDVIREEDSLRKVIKLMTEKNYSSLAVVDSENRLKSMLHISEIADAYLEMGAIDIFKNYETTFENLWQALGKEASLVNGIYPKGIIRGNLRGVSELSKIKKGDIVITTLLSKNINNAEKAGAELIIICVDETDVIPDCNVKIPIVRVNNGIFKVFKRISESVPIKSILSDSKFIHFYTNDYIDDVEEIIDNSEQNNFPVVDENGKVVSTIRLKHIMNIEKNEVILVDHNEAPQSIDGIETAKILEIVDHHKFGNFETIEPLMIRAEPVGATSTVIYGLYKEAKIIPSKKMAGLMLSAILSDTLIFKSPTCTQKDINYAKELAKIADIDIESYGMKMLIAGTSLGDITPSEIINIDKKEFSMGKFNVAVAQVNSVDVEGVLEKRDELKKVINDEILEKNYDMFLFMITDIIRNGSKIVALGKAKELVTKGFNIELVEDEAWLDGVVSRKKQIIPFLMDASQMI;locus_tag=LOCUS_03260;EC_number=3.6.1.1;note=WP_011015853.1 putative manganese-dependent inorganic diphosphatase (Fusobacterium nucleatum) [pid:48.8%25%2C q_cov:99.3%25%2C s_cov:99.4%25%2C Eval:5.7e-147],MGA_326
sequence1	MetaGeneAnnotator	CDS	368911	370461	.	+	0	ID=MGA_327;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKEFNIIGTCIPEEHYMVDTTSKLNQIIKLIEKRKYFTINRPRQYGKTTTIYLLEERLKKSKEYLMISISFEGLGDENFENSEILGKSLIRKINKMLKIKKFENLVIDIEKTQMKTMDDLSDIITDFVLKTDKKVILMIDEVDKSSNNQLFLNFIGMLREKYLSAIKKQDYTFHSVILAGVHDVKNLKLKLRPDENRTLNSPWNIAVDFDVDMCFNPQEIATMLREYEADVKTGMDIKNMSEKIYMYTTGYPFLVSKLCKVMDEKLDRNFSEKGLEEAIKITLETPNTLFDDIIKNIENNREFYKFIEKVILGNDKVDYVHTDTMVSIGKMYGIIREKNRKVEIDNKIFEILLYNHIIAKREREKGAVLTYEFRTKFIDDNGNLDMELVLSKFQELMKAEYRKIDEKFVEREGRLLFLAFLKPIINGTGFYFVESETRESNRMDIVVTYNMKKYVIELKIWRGGKYEQEGREQLCGYLESQNLDKGYMIFYSFNKGKKYIKDKVMVKGKEVFEIVV;locus_tag=LOCUS_03270;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:46.0%25%2C q_cov:96.7%25%2C s_cov:95.6%25%2C Eval:2.7e-130],MGA_327
sequence1	MetaGeneAnnotator	CDS	370859	370987	.	+	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIMENRQEKNEFKSGGFMDILEIKRDYEKMKEKLEEMRRHL;locus_tag=LOCUS_03280;note=MGA_328
sequence1	MetaGeneAnnotator	CDS	371235	372011	.	+	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEYDTKILLSGDYDINNAIVTIHSGAGGTEACDWADMLYRMYSRWCNDKKYKIEVLDRLDGDGAGIKAITFLVKGEYSYGYLKSEKGVHRLVRISPFDSNKRRHTSFASVDIMPEVDDNIEIVINSQDLRIDTYRASGAGGQHVNMTDSAVRITHLPTKTVVTCQNQRSQIQNRETAMKILKSKLFEMEMKKKEEELKKMQGEMSEIGWGNQIRSYVFQPYTMVKDHRTNFEIGNVASVMDGNIDGFIRAYLKWIKR;locus_tag=LOCUS_03290;note=WP_197551829.1 peptide chain release factor 2 (Fusobacterium nucleatum) [pid:70.4%25%2C q_cov:99.6%25%2C s_cov:70.2%25%2C Eval:1.4e-108%2C partial hit],frameshifted%2C insertion/deletion at around 370981,MGA_329
sequence1	MetaGeneAnnotator	CDS	372023	373303	.	+	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKLIYLFFIMLFSTTIYASREQTKKINFSVLSVGDFNGEYKKIPKIFNIVKQTERLRDNLVKIDIGNNFSKIDNYNDIIMRFLKKSKFDFNFLGIDEFKSKVYIKENKFFSSLNLIENSVIPYKLIKKDNYILAIVGISNLYGKTDNLVDYKKELEKLIYKLDSKSDFVFIVSDLTRAENLNILAQFKDISILFESNSFSYNPIEKIGEQYIIANKNPILLDFVYNPNVAKQINKHNKNFSLKNLFIEDYKIIDDYSYYEEDNKLKDYINWKEEVEKKKNSEFKIFNNKTFYKENVLLGERIPFLDSIGEYLSYYYDSDTVAFVSSDIKRGLKKGIVTVKELKELLKNDNIEIYNISDLELQKLIKANKFFKGTDKYIYFINEYKNLGKKESYKIISTEEFENRFGYKGKVLNYTISDFLLQRR;locus_tag=LOCUS_03300;note=MGA_330
sequence1	MetaGeneAnnotator	CDS	373307	373858	.	+	0	ID=MGA_331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFVLFIILCNLIVAQDYNKAVMENKNIKSIEQKQITEQEISLIGVNVDGIRVDKIYTNLLSQKSEVVILKKDLETAFLAKNKDIKEINLTIGKDKLIAKGKVSLLGIIMSVYLEGEFILNDNQELEFDIKKAKVNGIIGVPKKIIEGFKKRLNPIFKLKKFGIPLYVSKIIFEKDKIKFI;locus_tag=LOCUS_03310;note=MGA_331
sequence1	MetaGeneAnnotator	CDS	373869	375380	.	+	0	ID=MGA_332;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373220.1;translation=MREVKVRIAPSPTGDPHVGTAYIALFNYVFAKHNNGKFILRIEDTDRTRSTEDSEQQIFDALKWLGLNYDEGPDVGGEFGPYRQSERFDIYKKYALELVEKGAAYYCFCTQERLKKLRERQIAMKKAPGYDGHCRSLTKEEVEANLKEGKPYVIRLKMPYEGKTVIKDLLRGEVSFENDKIDDQILLKSDGFPTYHLANVVDDHLMGITHVIRAEEWIPSTPKHIQLYKAFGWEEPVWVHMPLLRNADKSKISKRKNPVSLNYYIETGYLKEGILNFLALMGWGLGEEKEMFGLDEMIEKFTFDRASLGGPVFDLKKLGWLNNLHMRNKDLGELTKLAIPYFVKAGYLKDENMTDEEFENLKSVIKIAREPSQTLSDLPKESKIYFVDDFMLPEVEEGMFAKQKKTIVRLHKAIEDEIGKKAIQLFIEKIEKMEENISEEDAKNILHSLLDEIGEGAGKILMPIRAVLTGEPKGPDLYTVINVIGKTRVLKRVNNIVEKYNLK;locus_tag=LOCUS_03320;gene=gltX;EC_number=6.1.1.17;note=WP_147373220.1 glutamate--tRNA ligase (Fusobacterium nucleatum) [pid:68.7%25%2C q_cov:99.6%25%2C s_cov:98.4%25%2C Eval:2.9e-206],MGA_332
sequence1	MetaGeneAnnotator	CDS	375462	377186	.	+	0	ID=MGA_333;product=phospho-sugar mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124795646.1;translation=MKEYMKKYEEWLASDYIEAEDKKELEAIRDDEKEIEERFYQDLEFGTGGLRGIRGMGTNRINEYVIRKATQGLINYMLKNDEKAKEKGIVIAYDSRIKSYEFALNTALVAAGNGVKAYLFESLRPTPMLSFAVRELGALSGVVVTASHNPSEYNGYKAYWEDGAQVTAPHDVLIIEEVKKMTDLSQVKIATEEEAKKNGLLTIIGKEIDDKFIAELKKLAIKPNIVKEVADKLKVVYTPLNGTGNVPVQRILKDIGLKNLYVVKEQEMPDGNFTTVGYPNPEDPKVFKLGIKLAEEVGAKIIMANDPDADRIGISIKSKTGEWIYPNGNQVGILLSEYILSNMKKIPENGVIISTVVSTPMLDKVAKAYGVEVIRTLTGFKFIGEKIKEFKEGKYDKEFIFGFEESYGYLRGTHSRDKDAIVATMLITEMVAYFESIGTTVEEQIEKMYEKYGYYKEGIKAVTMQGKEGAEKIVSIMKNLRENSPKEILGKKVRILNDFLLQKEKNLIDGTEKELILPKSNVLQFILEDDTYITARPSGTEPKIKFYFGVNADTKAGVEEKLSSAMEDFLKIVM;locus_tag=LOCUS_03330;note=WP_124795646.1 phospho-sugar mutase (Fusobacterium canifelinum) [pid:51.1%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:2.9e-165],MGA_333
sequence1	MetaGeneAnnotator	CDS	378027	378179	.	+	0	ID=MGA_334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQVRVTTGFLTSGGKALYVRNRFRANEFPKNLCSIKIRIKTNEVKSVII;locus_tag=LOCUS_03340;note=MGA_334
sequence1	MetaGeneAnnotator	CDS	378317	380077	.	+	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINKLIVIIIAILFVGCSTLRQDVKDIKKKNEKVKIDNKKEKIKFYSSENDYYNEGKIGEYNLIKKNDIYWISFSELNNLLIKARIRKYGNDKYMAYGRKIIIEKEMNVVKLETRYIINDIVINNYDIDSKENLIMKMKKKYPEYNMTSLDINKAGFNKFVYKAENLSKEKIEVRFDLDNRRAIKNEYKIYSLKELNLKFFKVNKEYYFPLFLIGEIFFNDNLYFVHNKNKVNIYKGTNIDQLGQKILPPINKESSLRLRKLSTNYLFYLLDSYYPNKKIIAELRKKYIEKIRMSKDNNSYYKEINKMFSELNDWHTTLVNPVYDLESVQIEESKYLKAVTEEIPNKNIKMNKKINIKMKDVYKIRNKYPYAEKYIKGRSKISFTQPEEGTFVIKIKDFKHIENFEKVKKKIEYIFKEINKRGIKNLIFDLRNNPGGSPDLVEEMLSYLGNKSINIYYKGQNILYKEEVLTKDKDNFMGKVVVLSNKNDYSAANYFILIVKTNNLGKIIGEKSHGGAHTPNYYILPDNTVIHMSNDCIVDTDKFGNDFEKGVEPDIYVEENFKGKNDDILDAALRYLNEEERGR;locus_tag=LOCUS_03350;note=WP_011166316.1 S41 family peptidase (Mycoplasma mycoides) [pid:27.3%25%2C q_cov:68.1%25%2C s_cov:53.7%25%2C Eval:2.4e-29%2C partial hit],MGA_335
sequence1	MetaGeneAnnotator	CDS	380678	381130	.	+	0	ID=MGA_336;product=inner membrane protein YiaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004524062.1;translation=MENKNIEGKKFEKVEVKENKLKKTIEPSGAFVGASWVALFSGIIAYLIGLWNATMLLNEKGYYFTVLMFGLFSAVSLQKTVRDKEEGIPITNIYYGISWLSLMTSIGLLSIGLWNAGLTKSEKGFYAMAFILSIFSSIVVQKNIRDTNSK;locus_tag=LOCUS_03360;gene=yiaA;note=WP_004524062.1 inner membrane protein YiaA (Burkholderia) [pid:65.5%25%2C q_cov:79.3%25%2C s_cov:79.3%25%2C Eval:2.5e-41],MGA_336
sequence1	MetaGeneAnnotator	CDS	381655	383784	.	+	0	ID=MGA_337;product=glutamine synthetase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005812354.1;translation=MYRKVVDYAEQPLEKMYGENSFSDAKMRERLPKSIYKEFKKVQNGDKELTIEVAEVLANAIKDWAIEKGATHYTHWFQPLTGLTAEKHDSFISPTADGSVILEFSGKELIQGEPDASSFPNGGLRATFEARGYTAWDVTSPIFLKEDNTGITLYIPTAFISYTGEALDKKVPLLRSMDALNKQAMRVLKALGNKDSKKVITTVGPEQEYFLVDKEYFEKRMDLVLAGRTVFGAMPPKGQEMDDHYFGQIKDRVAAYMRELDYELWKLGIAAKTKHNEVAPNQFELAVIFGTTNVAADHNQLVMETMRRVAGRHNLVALLHEKPYAGVNGSGKHNNWSMATDDGKNLLEPGKTPHENMQFLLFMTGVIKAVDKYAPMLRLSAANAGNDHRLGANEAPPAIISIFLGDLLSDILEKISNGEAAKGKDGVKLELGTDSLPKLPKDLTDRNRTSPFAFTGNKFEFRMVASSDSISGVNVILNTMVADVLKEFADELENATDKKAAVEKIIKDAYSAHKRVVFNGDGYAEGWVAEAEKRGLPNLKSTVDVLPEGKTKEVIDLFTKHGVFTEEELVSRFYIYSEKYSQQINIEANIMVEMANMQIFPSANKYAKQLADTIKSVKEVLSDADTVEQEKSLKAVLNNIKGLKEGIAELEKLIIDAQNTEGEYEQAKFYREKVLAKMEEARVYGDNLEKLVEKELWPFPTYEDLLFRL;locus_tag=LOCUS_03370;note=WP_005812354.1 glutamine synthetase III (Desulfitobacterium hafniense) [pid:59.7%25%2C q_cov:97.7%25%2C s_cov:99.6%25%2C Eval:1.5e-246],MGA_337
sequence1	MetaGeneAnnotator	CDS	383878	385113	.	+	0	ID=MGA_338;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868206.1;translation=MGRRFYLYILGRLVSIIGTGVQMLALPLYVLDISKSAAVMGGFVAVTTLPSIIFLPFFGVIADKKNKKNIMVLSDILSGITTLFMFLTIFFNFNSIYILGFLQMILLLINSFFYSSTMAFFGEIVQEKDLQKASSISETNNNIAKLGAPFLGGIIYMAYGIKLIFLINSISFFISALLEKFIKYEFKKVENNNKLKLKNFIEDIKETLIYINSYLDLKEVVILAIFLNLFVMPLFSVVLPYGLRVVLKVNSSEYGIIETIFALGTIVGSLVYGMLNNKVKFKKYYLLGAFFIILFIYGISFNIGIKNVFMLSSIFFMIFSLMITIINLPLMVEFQKLVDNKIKARFFSIFMFLSQILVPLTSYLFGLMVSKINIYLFIYFISISSIIFLLIMKKRYEFIRKIEMLKINKEY;locus_tag=LOCUS_03380;note=WP_010868206.1 MFS transporter (Pyrococcus abyssi) [pid:35.2%25%2C q_cov:89.8%25%2C s_cov:88.0%25%2C Eval:8.6e-57],MGA_338
sequence1	MetaGeneAnnotator	CDS	385371	386282	.	+	0	ID=MGA_339;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948255.1;translation=MEKFEIKGIDGNKINVYKWVPKGEVKGVVQIFHGMAEHALRYKKFAIFLNDKGYAVYANDHRGHGNSVDNISELGRIGENGFYGIVEDEKILMEKIKKENLGLPIIILGHSMGSFIAQEYITKYGNEISGVILSGTAMKSGMDLKLALILAKLQMKLFGRYKPAKFISNLSFGSNNKKIQNAKTSNDWLSRDEKEVDKYNKDKYCGTTFPIEFYYEFFKGLSKLYEKEKLNQIPLELPIYIFSGDADPVGNYGKSTKDLYNLYEKLGLKNLEIKLYSGGRHEMLNEKNRMKVYENVYNWIREV;locus_tag=LOCUS_03390;note=WP_011948255.1 alpha/beta hydrolase (Clostridium botulinum) [pid:51.7%25%2C q_cov:98.0%25%2C s_cov:95.5%25%2C Eval:7.3e-89],MGA_339
sequence1	MetaGeneAnnotator	CDS	386599	387678	.	+	0	ID=MGA_340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRKVFFIFIIFSNFTFSYELVLKNIDYLNYKSNKIKGYKIEINRKNDIYIKYLCGGYSNSAINDKLNLDIMHGKVYFFDMKRLDIDSKQITFLNEKFSFINQNLNIYGVNLKKYYISYKLRYMNDNLKVENNKGKLEFNKLNYINNNLKISILKFNYININSRLLINKIDIGNIKVKSYILSLEIKKANLFIGKFELDSNLKVDNNSLGVLGLGRTYNLIGKEEIYTLGFKIKKNLWDLKIDLLTGIFIKGKYNECNINSKIIKYIFPFDIKVENGIEKYYLDIDKKIYGIIRLNYEKHFKNNIILGVEKFMPYIGSINLKNVINKKEEEKNHKFKINKSEILDYLKAGNSIYIKINF;locus_tag=LOCUS_03400;note=MGA_340
sequence1	MetaGeneAnnotator	CDS	387689	389296	.	+	0	ID=MGA_341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLVSAILLGVMLLTTGCFSEATKEEDSSEAVQETHLQNSEPKEVVLNFNQEDSTKISNMMEENKDIFSLVEGIRNEGILSENATIGYVEDAILSFKGVEDEFNISFDNGGNIYNSLKRGVKRVGNSDVNLEDMKNQIKTKLLPKLDTAISKLKLAVEENQIIVIKIGEGSSSKVKIYPAHILMLQSILRGYKGLLEYICAYDLNITEDQMSEFMNKMKNIPTDKVVRVGDYIFNNLPSNLLNITDKSYILKSKESFNTAFNEFLEAIDNIPTGDLWKIDLATGKLDINENHVFSEGENMAVLPLNLINEIKSTVKEMKAVITGKTTVNIIGVKIDMDLSVIFKSDFAVKDIIKRVSNYFAYTNNVNDQNTEALATETLGGVFPNGLKAVVEKILLKINDPNSGDPTNWEQFTERINADCINPNNSKDTADLSSGKYELSDVKKGDIFKIKGVAENEKYKIYVKEKNVSYSLKIEFYNKNVIKLNDYTWFDESYGYNYDYYYHEINEFSKIGYLKIGDLNMYDSNSVTLIIEKM;locus_tag=LOCUS_03410;note=MGA_341
sequence1	MetaGeneAnnotator	CDS	389751	390935	.	+	0	ID=MGA_342;product=class I SAM-dependent RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016322.1;translation=MEKITLIASTTMGLESIVAQELKKLGYKDINTLNGKVEFTGTYRDICKGNINLRCADRLYVKMGEFKATTQTELFDGIKNIGWEKIMPIDANFPISWISTVKSELNSERKSQASIKKAIATRLEEKYKTTELLERGAKYAVKVQINKNNVVVMIDTSGEGLNKRGYRAINNLASIKETLAAGLVLIARWDGYKPLIDPTCGTGTILIEAAMIARNIAPGANRKFESEKWDVIPSEFWIEERDEAYSREDNDKKIEIYGSDIDGEIIKVAKENAKLAGVEDDIVFEQRHLLEVENYIKAEKGTIICNPPYGERMGEKEDAIKTTRILGDVCRRFPKWNYYVISSLGADRHKNGIKFEEIFGQKFDKNRKLYNGGIMCYYYQFFGNRKNVFVKNRL;locus_tag=LOCUS_03420;note=WP_011016322.1 class I SAM-dependent RNA methyltransferase (Fusobacterium nucleatum) [pid:52.6%25%2C q_cov:96.7%25%2C s_cov:98.2%25%2C Eval:4.1e-109],MGA_342
sequence1	MetaGeneAnnotator	CDS	391148	392137	.	+	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNRGYILILILWIIVISNIIFLSMYNSILLENKISLNYMNKKENNQIFLSGLNYAIAILKSDDNNFDSLNEKWAKKKRLNYSEYSYDVSISDLSKININYTNVNILKNLKFWKKESSKKLKDNRFLKNSYEISMLFPKNFNFFTIYGEFNINFDSLESLKLLLKKLKLNEMDIKYAITLISKNRSNSNIKDLKELRKILKPLHLSDSFYEKFEKFITFSGNFNINTISKENFELLFKSNALLPLSSYKNKIWDFKLNNSIEKIKDFDNKFIVPIKYINLLESVFSVRTKYYLVKINYNNNIATAVLRKKKIKDKEYEISILNYYQEK;locus_tag=LOCUS_03430;note=MGA_343
sequence1	MetaGeneAnnotator	CDS	392270	393352	.	-	0	ID=MGA_344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFTVLAILSSFIFTGFSKNTQIKKDSLNEITITHPANKLNYLQGEQLNLSGLEVTGVYSDKTTKVINITNNNITGFHSDILGKQTLTINFNSKTTSFDIQYLKATDSKEFKYENNNNKITITEYIGTDTSIFIPNKIDGIPVTSIGNLAFFDKKLTSVNIPDSVISIGKEAFSNNQLTNVFIGNSVTSIGKGAFYYNQLHNIIIPNSVVSIGDSAFYHNQLTSVNIPDSVISIGKAAFSNNQLINVIIGNSVTSIGKKAFYHNQLTSVTIGSSVTSIDEEVFSNNKLTSVNIGNSVTSIKYSAFSDNQLTNVTMGNSVTSIGFWAFERNPNITIKSFAGSYAETYAKDNNIPFIQKK;locus_tag=LOCUS_03440;note=WP_157860391.1 leucine-rich repeat protein (Methanosarcina acetivorans) [pid:46.4%25%2C q_cov:64.2%25%2C s_cov:11.9%25%2C Eval:8.3e-37%2C partial hit],MGA_344
sequence1	MetaGeneAnnotator	CDS	394105	399438	.	+	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRCWKELVKLLLFTIIIVPITAQNGTVSDVKNDGMQRRIIGYFSEWRPNDYTVADIPWGKITHINYAFAKVNSETNKIDFCNKKDAIELDFPGQDLTLPYKGHFNLLTVYKRKYPKVKTLISVGGWAAAKGFYTMSETELGRETFADSAVEFIRKYGFDGVDIDYEYPTATVGAGNPDDFDVAEPRRKTLYQDYVKLMKVLREKLDVAGQNDNKHYLLTIAAPASSWILGGMGLGDYAQYLDFINIMSYDFHGSWNGYVGNNSALLPDDRDLETKPLGTPVLNIDWSYRYFRGVVPPSKINIGIPYYTRGWKNVQGGIDGHGLYGTAKLGSGGDGAVGIDNVWHDFDKDGKELPGGGNPLWHVKNLLAGRHDFSYIDHPVFGGFDPNYQGNYIRYWDDVSKVPYVWNDAKKVFLSFEDEQSLKEKINYIINKGLGGMMIWELAGDFSKKADGEYYIGDTMTSLAYNMLKNAPAPDNRMYTIDMPQKIMNFEIKFSYKYDHPNATYEFSIVNHTDKTIDKGWVLEFNMPTTTTMSEGTWSGLKVKEIGRGYDYVRYRVIGDAWGTEIQPNGTYTFTGMSKLCFAGGPKAVTLNGFASSYEITIKDTDGDGLSDNIEAKLGTDPKKKDTDGDGYTDKEEYDNGTNSLDPNDPKYFNVTILSVDDNGNRIGKAQYEIKSGEKFTVNALSIITDPSLSFVKWDNNSTNSEREITVLKNTTLTATFKTVIINYINIITEAHDRNGNVIGTVTKKVKANETVKIDIKDLKINSEYSFIKWEDGTLSSIRDVKSDKDLKIVVLFKKSDSGNSGNNNKKRIVAYFPEWGIYSGHNNYTPADIPWDKVTHINYAFATIKNGEIAVFDDWAATGVSLGEAWDSPYKGCLGQFKKLKKLHPKTKTMISIGGWSQSANFHFVAATAESREKFADSVVKFIRKWDFDGVDIDWEYPTFKREPDKTDNPNDQGTPYADDTEKETFTLLLKSLRTTLDKAGLTDNKHYELSAAVGCGKDKIEKTEPAKYSKYLDFINIMTYDIHGAWDKVTGHQSPLYANLYAPYSDLIKQYYNVDASMNLFAGYGIPKSKLLVGSPYYSRGWKGVKDDGPIDSLPGLYATATGGAKGTWDGGVPGGMNPFYYIKSTLEKDNSFKKYRDPWTKMPYLYSKSKGEMYTYEDEESLQTRVDYVKDNGYGGIIFWELSGDYPSKGGTTLTDIIYNGFKDNTPVEKVKIIVKTSIDGVLSVVKSEDVIKNSDYVIDAGKLSDMEFIKWEDNSTNAVRTLKADSDKELIAYYKKVVVPEKVKLTLKAIDEKGTLLKTETVDVVKDADYTADAKQLSDLEFVKWSDGETSAVRVIKVSSDMVLTAEFKKVENNTNYPAWDSNTIYLKDDKVVHNEKIWQAKWWNKGNEPGTTQWGPWEDLGEASNNGGDSGNTGGNTGGNTATIPWPTTVGEKVIFTDKEIKATFGEISPNTYPDKVGEKVQELMSKSEYENIFPYRYGSTKWNEFNNKSEQEYYSYENLISALKELSRFMLRVETKKYTNRVFRLDKITKEVTLLKEDKDFNGDWLQNVNPIIDTADYGKFLNEGTMEERKRDLAAFLANISHETTGGWKTAPGGPQSWGLYYKEEMNHDDNSVGGYVAASEEYPAQDGQSYHGRGPIQLSYNYNYGYMSQIIYGDKMVLLKNPKLVSHNGKLGFMTGIWFWMTPQNPKPSCHDVMVGNWIPTAEDLAENRKPGFGVTINVINGGLEAGKPHDSRVDDRIAFYEKITEALGVTPGDNIDCYTQKRF;locus_tag=LOCUS_03450;note=WP_011987103.1 glycosyl hydrolase family 18 protein (Clostridium botulinum) [pid:54.9%25%2C q_cov:33.3%25%2C s_cov:81.6%25%2C Eval:1.4e-182%2C partial hit],MGA_345
sequence1	MetaGeneAnnotator	CDS	399603	400103	.	+	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSQIRKMKKYIYIFILLSILNLIIELSPINKSNVLDIKKTKENIKKIKKKLENKTENFNIKAINISSDKILIKDIKKIKENNFFLKSTNIKNKKEVQEELKLPLDLLAISEQGDKSKILVRYMGQTYILGEGEKIASRYKVKKISGDKVIFEYNNSEYIIKFEK;locus_tag=LOCUS_03460;note=MGA_346
sequence1	MetaGeneAnnotator	CDS	400118	401593	.	+	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDIETKMDNVKKKYKIIYKNSENGLNFFATEKLSLEILDDLETYLEEKVNIEIISKNDMKKYMEEYSNEHKAETEEIISDLGKEYLQKYKNINIDTEIEDLEELAKEAPIINLVNTIITEAVKKGASDIHIEPFDNNVNVRYRVDGVLHQETTLPNSLTPAITTRIKIMSNLDIAEKRLPQDGRIRIKVMGKEIDIRVAIIPTLHGENSILRLLDKTALSLSIESIGFTDENKEKFMDLIKNSSGIILVTGPTGSGKTTTLYSTLSHLNTTEKKIITIEDPIEYQLKGINQIQVKPEIGFTFAKGLRSVLRQDPDIIMVGEIRDLETAKIATQAALTGHLVFATLHTNDAVGAVARLIDIGVEDYLVASSLKGVISQRLVRKLCETCKEEYIPDEIELKGYKKIINKDDKVYKAKGCELCNELGYSGRTGIHEVLVLNDNIRETITNFNGVMDIKKAAIASGMKDLTEDGLEKVKEGITTIDEVMRVTKS;locus_tag=LOCUS_03470;note=WP_012583238.1 type II secretion system ATPase GspE (Dictyoglomus turgidum) [pid:49.2%25%2C q_cov:91.9%25%2C s_cov:51.7%25%2C Eval:3.3e-122%2C partial hit],MGA_347
sequence1	MetaGeneAnnotator	CDS	401721	402926	.	+	0	ID=MGA_348;product=type II secretion system F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546785.1;translation=MPLYKYKAIEKDSGKNVEGEIEGNNESDLIKKLELSGKYVFELNEKTEQKIESNGISLGREKEVIFFTQQMSDLLNAGVQLGEALKIINSLVKKGKIKPIISDVYENMKQGETLSDSLEKYPSYFGKSYTNMVRAGEEGGFVGVTFQRILQGMEEGRQLRSFVISSLIYPAVLMIVSIFAAIIMLVYILPKFMRIYSNYGKALPASTKMLLNISYFFQHYGIYLLAGIVGVIIGGIFYYKNSAGKKILDKLLLNIPIIGQLYIFIAVSNVIKSIATMLESGVPLLKSLEVAKYITPNVILQREIENIKNEVTKGTNLSDSIKESKYFPEIVYYMVAIGERTGKLSEMLLKTSTNFDKKIKGNMEIFVKTFEPVLIVVMGIFVGFMVFAMLLPILSINDMGM;locus_tag=LOCUS_03480;note=WP_012546785.1 type II secretion system F family protein (Thermodesulfovibrio) [pid:29.7%25%2C q_cov:96.8%25%2C s_cov:96.0%25%2C Eval:6.4e-57],MGA_348
sequence1	MetaGeneAnnotator	CDS	402979	403401	.	+	0	ID=MGA_349;product=GspG family T2SS major pseudopilin variant XcpT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003119751.1;translation=MGNKKENGFTLIEIIIVVVIIGFLAATIGPNLFNRVSQAEKTTSENQLKIIGLSLDNYRLDNKRYPSTEQGLIALIEKPITYPLPKNWNGPYLEKKEIPKDAWGNEYKYVSPGYNNKNSYDLWSLGADGEDGTADDIKNW;locus_tag=LOCUS_03490;gene=xcpT;note=WP_003119751.1 GspG family T2SS major pseudopilin variant XcpT (Pseudomonas) [pid:48.9%25%2C q_cov:97.9%25%2C s_cov:92.6%25%2C Eval:1.1e-31],MGA_349
sequence1	MetaGeneAnnotator	CDS	403370	403822	.	+	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQQMILKTGKENGFTLLEIVVVIIVLGFLMGVMLPTLSKIADSTEERAFEQGVINIFMQARGNAVIQNETNKIQIGTKTIESKLNSKFLNKLNSEIKKINSDKKEVLFYSDGTSSGLNIEIFLLSNRKILIKIDEITGKVMVEGDTQND;locus_tag=LOCUS_03500;note=MGA_350
sequence1	MetaGeneAnnotator	CDS	403815	404165	.	+	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKSKGFTLIEVLIAVIILGVAFPTLIEGLISIVNSFQKNREYTKFYIFEENKLNEFEAGIEISDHGEKVIDDIEYRWWILQEIKENNQKKIVINIQKQGDNKKYSLEREINYEK;locus_tag=LOCUS_03510;note=MGA_351
sequence1	MetaGeneAnnotator	CDS	404155	404688	.	+	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNKGFTLLEIIIAVVITGIVMGTAFSFFKINFSTWNKIENSENQEIRVFDSKFRADIKNMYYLNIMNENPFKGDYNKVEFYKQDINGDVIKIEYSYNELNSSIEREKLKNGVSIKKNIFFNGKVGKSIKIFYFDKFWKDKWDYKEEMKFPVSIKIVFEENKEQLEIIENILLNRKY;locus_tag=LOCUS_03520;note=MGA_352
sequence1	MetaGeneAnnotator	CDS	404704	405888	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKAFIEIGKDNIRVINKEGAKQASWNEVSKWIFKNNYQEIDIIISPEKVFVKSLELPSKLSGKIENLIKLKVINELPLKEKDVYYTYSTRKINKKNIEVAVFIIEKAFIDNINSFFEERNVKIKSILPLNLLGYNYYLNNYNNKLRLYADVAEKYIQFYFFYEKKAFFRKSIRIDEYELECKKTIKYIKEKFGIEKNIEIIKGNIDIKYYKYFDISKKKSENSIFNTKGVESVKKKELKKIYVLIFIMIIINILTFSLKIYKKKLYLKEITKINDSLQPIVKNIETIKKEYNEKLVKEEKFKNKLKDKSSSYLKWIKEIGDKLPKGTVIDQVIFKDNRLALLSGKAVSATEVMRKMEKSKKFKNLKFIGSIVSSRGQELFKIEGDLADEKTE;locus_tag=LOCUS_03530;note=MGA_353
sequence1	MetaGeneAnnotator	CDS	405872	406414	.	+	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLNKNEKILLILAIIIIGGTSLFKWGIIPIINYSKNSNKKTLKLEEKIKENIFLAKNFSRYKKALEEENIEIDRYKNKFFEEKPALAQLELLNNLQSEVKKVHLIILNKNVWYSKENNSIYCKLNLEGSYQKVIEFLGNLKNNRPKIFIEQLDMKKKFRSNRLNVNMVVRGFLENFEK;locus_tag=LOCUS_03540;note=MGA_354
sequence1	MetaGeneAnnotator	CDS	406477	408237	.	+	0	ID=MGA_355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGKFKWILVLFIVLSAISFSAGKKIKLSVRGAEIKDVLIMLTQQSGINVVPDRTVTGRVTINLENVNIAEAFKVLNKVYGYKFDKIGDNTYMVTKKNINAGKKEIKIKHGLISFNIQNSDIREVLNDISQKSGINIIMEGSVNGKISGSVKDVDIEDGLTALLQANGFSLMKDNNIYRVLNRRSINSRKNKMNISIVNNKISIDVENESIVKILREIGRLSNLNMIIVGGGVETINVKLHDISVQDSIETILSGTSYTYSQNEDGTYIIGRKNIGSASYAMFTRTELIPLQYVHAEKIPTMLPNNFPVSNIKVISEQNAILATGTDKELKRLKGYLKELDKKAPQISVEALVIEISHNNNNSSKLELQGFYGDEKNILANSSTGDFRYLSLTKVSNQFYSEIKLLVQKGEARIKASPSITTLNGEKATINVGTVQYYKVTTLDENGKEKNDYKSVDAGVSLNVTPWITSSGEINLKINPTISNIGASPAEGPPSVSKREANTVVRIKDGGTIVIGGLTQNVVSNKVSGVPFISDIPLLGELFKSRTKDLNQIELIIYITPKILKNASEREAKNSMKEMIKKVENK;locus_tag=LOCUS_03550;note=WP_012583398.1 AMIN domain-containing protein (Dictyoglomus turgidum) [pid:26.3%25%2C q_cov:92.7%25%2C s_cov:37.0%25%2C Eval:3.4e-44%2C partial hit],MGA_355
sequence1	Aragorn:1.2.38	tRNA	408575	408649	.	+	.	ID=Aragorn_18;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_18
sequence1	MetaGeneAnnotator	CDS	408678	409526	.	+	0	ID=MGA_356;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902040.1;translation=MKKYFVKKDYKGYAVFDYLKEVEGFSSRLLRNAKVYVNKKNAKPNKKLRYRDSIWVLEKEKSTNIKPIKLNLDIAYEDNELLIVNKEPFLITHPTLKKVDITLANGIVYYFKNKNINMVPRFYNRLDMNTSGLIIIAKSGFAQGFLQNRGEVKKYYVTVVKGIINEDEFTIEKNIGVSEGGIKREINENGQYAKTVFKVLNRNIEKDVTLVEAQLFTGRTHQIRVHLSSIGHPILGDTLYGGEDLRVKRQLLHSYKAIFINPETKAIQKIESNFPEDIKKFI;locus_tag=LOCUS_03560;note=WP_005902040.1 RluA family pseudouridine synthase (Fusobacterium nucleatum) [pid:53.7%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:4.9e-76],MGA_356
sequence1	MetaGeneAnnotator	CDS	409780	410793	.	+	0	ID=MGA_357;product=type I glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016560.1;translation=MAVKVAINGFGRIGRLAFRLMFGEADYEIVAINDLTDPGTLAHLLKYDTAQGNYKIDTVKAEGDSVVVDGKAIKIYSERNPEDLPWGKLGVDVVLECTGFFVSEEGAGKHIKAGAKKVVISAPAKGNLKTVVYNVNHDILDGTETIVSGASCTTNCLAPVAKVLNDTFGIEKGFMTTVHSYTNDQTTLDRPHPKGINSRRGRAAAANIIPTSTGAAVAVGLVIPEIKGKLDGIAMRVPTVTGSVVDLVVELKKDATVESINAAMKAAANETLRYTEDPIVSSDVIGSNNGSIFDALLTKEIAVDGKKMFKLVSWYDNEMSYTAQLVRTVKYFAGLSK;locus_tag=LOCUS_03570;gene=gap;note=WP_011016560.1 type I glyceraldehyde-3-phosphate dehydrogenase (Fusobacterium nucleatum) [pid:66.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-127],MGA_357
sequence1	MetaGeneAnnotator	CDS	410892	412091	.	+	0	ID=MGA_358;product=phosphoglycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002295135.1;translation=MAKKTVRDIEVKGKKVLMRVDFNVPIKDGVITDDTRIKAALSTINYVIDNGGKAILMSHLGRVKTEDDKASKTLAPIAKRLEELLGKTVNFVSETRGEKVENAVASLKDGEVMMIENTRFEDIDGKKESKNDPELGKYWASLADVFVIDAFGTAHRSHASNVGVASNIEAVAGFLMEKEIKFIGGVVENPQKPLVAILGGAKVSDKIGVIESLIEKADKIIIGGGMMFTFLKALGKNIGSSLLEADKVELATSLMEKAKAKGVELILPVDTVVAKEFKNDTEFKTVSVDAVEDGWMGLDIGADSVKLFAEALKGVKTVVWNGPMGVFEMENYAKGTIGICKAIAGLDEAITIIGGGDSAAAAEQLGYADDFSHISTGGGASLEYLEGKELPGIAAISEK;locus_tag=LOCUS_03580;note=WP_002295135.1 phosphoglycerate kinase (Enterococcus) [pid:73.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-163],MGA_358
sequence1	MetaGeneAnnotator	CDS	412310	413593	.	-	0	ID=MGA_359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIFFLIVTSFNIFAANSVDEISIQYYKNIRGMGMGNTYVTSASDESVLLYNPAMLNYIDRYKFSLFGLAVGMNDEGKDVIGTMIDVSNDISDGSFEDNDWNNDGKVDDSDQFKYLKDKQSEINNLSLNGYFGDFTGLINKNFGIGLFAYSNINKLAIVNPVNPTVIANMSLNVEAPIGIATKIGPFSFGASIRYLNYINFDSKLTSNKLISAQNVNDSKAMFSLLGATKNEGFGLDFGGLIGNDKFKLGFALQDAYTKVDTWRDSEEVNINGHPTNSGNYVTYYIGEHTVTPNLRAGISIKPSKWLQLSGEVENLLNKDMNNDGEDDTNIYKKLHLGSEISMFPHSINLKLRAGINQGYGTYGFYVQPLRFMERAPLFLKVVLLPLWILNDVEFEYADFTEELSPHVGVKPNHMQALSFTLRF;locus_tag=LOCUS_03590;note=MGA_359
sequence1	MetaGeneAnnotator	CDS	413595	414461	.	-	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKFIGMLVGISLLIFSGCETNIFSTLDKVDANSQEAVSQSKYEAEEGLNSGDYATAIKNADVVIRSYEEQGKNSVNDFSDTETAERNEYIKFQTIKAESYLGQGGVSALDILDKIYQLNSTTPNTAIKRGTSDNNSSTLINIVNGINSSDLKYAMEAFKKGLPSPEILSPEERDNLKSTYQTAGITYGLNTVIIILNALDTNGDSEIDSSDFNASIINNWNVHKDEIITSLNSTINYLAVALDSSDAVEVLDILRKINTQLKKIPNNFTSDDLDKISKILTGKEVY;locus_tag=LOCUS_03600;note=MGA_360
sequence1	MetaGeneAnnotator	CDS	414939	424421	.	+	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSIVIVLIGLLGLSGCIGVWGDKTTVKPKYEKTAVDYYEAARTNFADPYKVTTPEEVDKNVVENAKMAEGKSLLEKDSEIEMKSKLLRAMAQNYKGQLLVEEGEDSPTGAISRARAISINNSKAELEFAEANIELSALEYKSIAAKAIKVNVLSNWSQIDDTKLTAAEDAADNLSMVQDQIDSDPNLQNIKVAGEKIESEDVLTKVADIYIKKGDNKKAMESLAKAQEITDGKNKTTKDSKVLKIKIKMADVLIDSGQPEAAAKVLKSVVDESQSMSASTDIKEKAKAKLVAEGLQRVQAIAEAGVDLSDTGIDTEKVKKGLKNVTDVANAGTQNLITDEKLNSIKGKVADKINEAKDNVEVGKDKEINNAYSQLLIGELDKSEKLFETLIQDSEVLASGKYTRDVIFGLALVYTKKGETENAIETYKRVSVLIPEDGDSVKRAAMEISKLSEDKTEEVGGNKLVIIPPTFKKTSFLPGDSLSLAIDIMYSDMSNIDKNIELKASIYNKQGEEEKDIMRAINFKYDEKNVFKGEAVISLTAISGQYKLVIMAKEKNGALYSRFEMPIFIGRISDIKNNVKIDMVKIDKDILKVELMNFKTNSGIKLKINSTEAAISMAGEAIYSLTGSDKLDGEHEMNIELYQNNKVVDTRIFKYKIGTLEVISDESRAAIEVKVKDIVSRFNGDKANILSLVDDKSNLYRVLSDKLTTASAIDITREEINKPIVDKYGNFAIVRTNEKVTVNDNEIPYYQEYKLVKIVDEDGAESWKIRNIAFLDILFVNSKNIDTDNDGLTDEEEEQLGTNPNNPDTDGDGYTDGEEVAKNSDPNNKDSVPAEEEGVNATETVNILNQVFDILSNSEAKDTIEGFINGSTTESAISFINKYYTENIDETFKEELTNKIKENLEFLSNKKVTLKFIKPNVEEKKLNEIPFDLRKKSNIYILNLDVVFDLRDDSDRPIFTDNMHFEFVGKKSEDGSLSWKVRYASKLENGFFIPEILKSADNQDNDGDGYIDEELPNGEDDDGDGLVDEDLRAPIGGGVDDTGVVKFTLNNNHMKFVKIIAKYSVNSTDTTESAIILKGAIRRFGRIQTETTEDKLPLNTELKVKIDVEGVGKYESDWFTLTADSQEEDLGDITNKLMEPMKITFPENEHEFDLSTTNGGVRIEWTKLNSDEIKTYAVVVVTDMRDIEQGNFDNFVAVKFMDATTTESAMSWDYKESSMDDFDVNNGFGRKLLPNTNYIAVIGAFKEDISTLMQESNESDPVVISKPVMFKVKGIEGLYKVGGNIYNNNFIPFGVNIAVMENMPDNAEDVTPDYIFRIDSSNAAGWDNGERAFRLPFEISIPEGKYYIGAYLDVNNNGRIDEGDLLSNLLGEEDNDNNGEPDGFVVDKDKTATKLYLRENMGGDTIKGTITNKTDMAGNLMVAILEYNKESQEPHGNFVTDMIAGNINANDDNDYKMNFKPYGDGNIAFGIETFIDLNGDRMPEPNEPKSSFTKFYDNGGYIIDKEHIDLTINKIVTPGDGIDNDKDGKVDEELPNGIDDDGDGLIDEDTKIPENTAGDGEVIGKVELEGGYGSFIDYGVLIYNTKEDFYNFLFGGTTDGGGNYDITGLPVDLPENEKLMIEFKKEGYQQVTTEAGITKDMHTNTLQTIILKKRLKITKPNTQFVMWNIGDSNLDTEVMWELKSGVKYKIVVGWDYETAQSKPIFEKDLGSDIDTYTFTKEDLQNIGIGHRVILVIGAGAASAPIDVEIQDNTTYNNKIIGEIVTKEPINQNIILGLFENDPKNMNEFRPKYRFDIDRMNYTTTNSAISGEMSYIYSYNFTIPETGFYYIAAMVDNDANNMITPNDFVGMLNYAMQIKAGDNQISRFGLERMQGGDNLDITIDVDNSITVGNIMLGLYKWDSATGNWKEKPEEQSNEPFMYHQEFGRQYDLEYKDENGEVNRYALMAFVDVDGDGMPKNTEEVKSDYIELTFDNTGRIINRNIYLPIMKNKVTGTSKIDVTVIADDNSTITGANVEIYNEKYNLRIMMVTNASGEVVFEKLPAGKYDVKVRKEGYSEEYEEIYTVDGETTTKSFTMQQQLGETYFLRGTIMIEGATETLNMGRVVVNIINSDNTEEYVTDSSIMNNNFEIGNLVSGSYRLHVVDIAGYPEEVRDFVIDKSDIYIDDIVLKKLGEGSISGNVSARNFPWGEIRVNTLSGKEVGQAQIDPVTGSFVVDGLPIGTELKYEINVEGYMWYGNKVTIDETIKTVDFGTINLQEAGTNTLEVTITNPEVVTDFWHAGILKVDENGNKDYITNGEWNGVDKIYFRNIPTGNFVIEISGNGFMDVQDMPVEVINENTILNITLKTPIKIVSPATHSIEKDGSGNYTVNFQWEDNTAAVNTYVIAVKQGEINNDNITGPEYFDTALILVDKTTKEWTYVDKAKATGSLEFANSLTPNYMYGYMILGFAETTTELEAKINNSEDVEPIITSEPDSFMLASDAVGEVEVKVINTNNVPIPSDGSILVAIFKDYMPMGEDGGPTGDQIVGIKENVPVSTSLLPGNAGGMPGQTITVPISQEMVSTGATTGYVAFVMVQDGMGNEIKDLFGADLVKFNSTGLVEPIDINMIGGASDEVMGMFAKKIVTLNLTLPTDMNIDYSKNVKMEADIYSEDKHDGIAWKEFKVNSDSELPTTITLYIMKDYDINNNYKIHTSIYYDNGAGNKENIAGDYDVVFDDGDSYNMDLQLDNGNQQPSGKDITLIGNITNNVNQGAIVMDILKTDEQGNPLLDGNNDPLPPVYHRDNVSEGALNEVANLENGSYKAVFILDLGPQGPSPEDIKEFRDFNVTDITTDISLGDIEFNATQPTGKDVTLTGTITNNVTQGAIVMDILKTDEQGNPLLDGNNNPLPPVYHRDNVSEGALNEVANLENGSYKAVFILDLGAQGPSPEDVKEFRDFNITDTTTDISLGDIEFNATQPTGKDVTLTGTITNNVTQGAIVMDILKTDEQGNPLLDGNNDPLPPVYHRDNVSEGALNEVANLENGSYKAVFILDLGPQGPSPEDVKEFRDFNVTDTTTEIPLAEVKFVINVILTGTNSTGGGELFILVNGQKLVSNLPAERVGNELKVEYNLPIGTYKAEAFIDTNGNGQYDSGERKVEIQTFDITKDNYYTTQQYNTDIF;locus_tag=LOCUS_03610;note=MGA_361
sequence1	MetaGeneAnnotator	CDS	424622	426826	.	-	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNFLFRIYFYKFKKKFIKITLLTFFATLFFILSSFSFADDFTQVSFSVLSKETKLPVENVSISIGDLKLSTNKSGIATSLLFPATYEITFFKNNYISFKKNIEITTTKNQFVFYIESNFIPIRVQIIDDFNNDFLKTSIKVINLTDNTFSFFTTNKKGILNIKIKKNKKYKFNIKEKNYKEFNYNLTPKNLLSSDFLFKLSRLKGNLNISTSLDNYKIKITSLENKSYIKEFETKNKIFNINLPYGKYNVELNSDNYKSATKFFDFYSNEKTINLKFIPNFKFFNFITIFNQKSNILITANSSLDKLEIANNSTIKLFNLKNELINSFKIEDKFYKIKLNYGIYNIEVSNNIGKNVTFKKIELSENSDSNIFLSLQKLEATITGTIKDKNNLIGGAVISFINNENKFSTTSDIDGTFTIKVPAIKYNITIFKSGYRISKNQNLTINYLESNKKYKLNFSIEEIPSIIKGVITHLNGEPIDKAKITLRNNSEEKYFFTNKKGEYSAEINSGLIFIKVEKDGFKSKGTVKNVNKYSTLSGLDFKLEQIYSSIKGTLTNGINPLENIKITLINLDNNSKTTTLSSQNGSFQFDSVPILNTYTIEIDNKNYTKYINKKFSINNNEVKIFNILLKDNKVKIILELKNSDENPLSNTKLKINNKEYTSDINGIVEYSTINNFKDLSLKIQINKYKFDKNILIKKEEFTNLILKKSIIIGENLNKEKININSTTNSAIK;locus_tag=LOCUS_03620;note=MGA_362
sequence1	MetaGeneAnnotator	CDS	426919	429381	.	+	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVGIKDKFTLTLVLMNFLAIIFSFSISMYIVYKSIQKNLGSTATKNLKNMEKKLENLNVELKTEARILSKNIQVISILDSNKYIDINSEKTGEKTYYRTYDIDKKKYYRYKFISEISEMFQNYSIGNEKIEIDIISINGKSILNRDKKISKENLKKYLSKFIGNSSADYSFYEIESGKMYSKTLSPIYSKKDKNKFIGFVLLKLPIEEKMLKEILSEEQDEVMVIDNNYKIISTTIDLEKTDKIDLKNSKKITIDRSIYLLKKIELKGFLWEKSGEIIVAAKENYIWEISKEISLHLFLELFLIFVMIFVVFNYMLDMFLDSIRELTLKINLLRGGKFNIDLTKLKNRKDEIGLLAHDFDEMADVLKIKTEKLEEIKEENEQNSSELKAKNEILAKMKYDFEKINSNRDKSNKILNSRISEVTNLYYLIIKMTDNITNEKFYSIIVRGIREGLFIKNVIYYEKEENILIPKAKTGTNKNLNEIKITKELEYKMLKNSIIEVTECKSSLDINFKNPYILVLKTKEDGKNEIFGVIIFDNNKKMDEYLEQTLNTYSKTIILALENRKLYKKMVEQLKRTEKVAEKLKNADMTKNTILSNMSHELKAPLVPIMGYVEMFLNSELGDITVNQRKALFTVLNNVERLQEMIENILNYSKLENGEYDFYNKEFNIKELVYNVSSTFENRVIRKNININIEMNLKDYLVDGDKDVLGQVLKNIISNAVKFSYEGKEIKLIVTEKDDKIKLTVKDSGVGIEIEKIKNIYDDFRQLEEGYTRKHNGVGLGLTVVKKILEKYDEKLYIKSFKGIGTEVSFYIKKLKKID;locus_tag=LOCUS_03630;note=WP_012546240.1 ATP-binding protein (Thermodesulfovibrio yellowstonii) [pid:27.1%25%2C q_cov:52.1%25%2C s_cov:50.8%25%2C Eval:1.3e-34%2C partial hit],MGA_363
sequence1	MetaGeneAnnotator	CDS	429435	430652	.	+	0	ID=MGA_364;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583842.1;translation=MNVEKEIERQLSILKRGVEDLISEEELRKKIKKSIETGKPLKVKFGIDPTGNSIHIGHAVPIRKLKQFQDLGHTVQFLIGTYTAKIGDPTGKSETRKVLSDDEINENIKGYLEQVGKILDIDKTEIRYNGEWLSKLTMEEILNLTSQFTVSQMISREDFSKRLKENKPVSLVEFMYPILQGYDSVALECDVELGATEQKFNLLRGRDLQKYFNQEQQVCMMMPILEGTDGVNKMSKSLNNYIGITEAPNDMFGKVMSISDELMINYYEMATEIPLEDIRKMEEDIKSGVLHPMEAKKRLGEEIVKLYHNEESAKAARDYFEKMFSKKDIPDDIPEIKVEENEMAVIDLIFEKIKFGKSKSEARRLIKGNGFRINGEVFNDINGTIKMMDGMILKAGKKKIVKIIK;locus_tag=LOCUS_03640;gene=tyrS;EC_number=6.1.1.1;note=WP_012583842.1 tyrosine--tRNA ligase (Dictyoglomus turgidum) [pid:53.2%25%2C q_cov:92.8%25%2C s_cov:92.8%25%2C Eval:5.0e-118],MGA_364
sequence1	MetaGeneAnnotator	CDS	430668	431099	.	+	0	ID=MGA_365;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003431315.1;translation=MNIREENIFFNLQGDSKYEIINSMIASSKLNENLKEIAIEKVKLREEIQPTFVGNGIGLAHAKFHEMEEIQVILSTNKLGVEYGVGEDEVANIIFVVLAPLENNRDYLEVLARIGRVCRNKNIISKIKNANSKKEILDVIEKI;locus_tag=LOCUS_03650;note=WP_003431315.1 PTS sugar transporter subunit IIA (Clostridioides difficile) [pid:24.1%25%2C q_cov:98.6%25%2C s_cov:96.0%25%2C Eval:5.3e-08],MGA_365
sequence1	MetaGeneAnnotator	CDS	431239	431754	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKKVMVVILFSFVLSSFAGAADRELLKKVFDKYKKLKNYAIELNIENKSIKKDDKKLKKMMIDDYNKGIDLLNSLDTKENIRKDLSNAKNVEIYKEINGLLEKITGIIMNEMTDDLQGIREKLVSDYNKGISLYEKLSGNKYKRKNIENMNTVDMYNEVNNVLEKILESK;locus_tag=LOCUS_03660;note=MGA_366
sequence1	MetaGeneAnnotator	CDS	431779	432414	.	+	0	ID=MGA_367;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895383.1;translation=MNKKTKAEKVILILKDIYGEPVPTLNYENEFELLIAVILSAQCTDKRVDIVTAELFKKYKTPKEFMEMDIKELEKIIHSTGFYKNKSKNIKKCAKMLVEKYDGIVPNNMDDLIKLPGVGRKTANVMLGHIFNIPGVVVDTHVKRLSNRIGLTKQQDPVKIEFELMKIIQKKDWFLYSNLLIYHGRAICTARNPKCDNCKIRVYCEYGRGIK;locus_tag=LOCUS_03670;gene=nth;note=WP_005895383.1 endonuclease III (Fusobacterium nucleatum) [pid:55.8%25%2C q_cov:98.1%25%2C s_cov:96.3%25%2C Eval:8.4e-63],MGA_367
sequence1	MetaGeneAnnotator	CDS	432414	433520	.	+	0	ID=MGA_368;product=type IV pilus twitching motility protein PilT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940822.1;translation=MIEQLLKELTEKKGSDLHVKVGSRPMIRIDGELQPINGVEVILPKDMEIMERELLDERKREKFRKNKNIDFSYAIPALGRYRINMFMQRGTIAVAIRRILQNIQSLEKLGLPDVLKEVIKEKRGLILITGAAGNGKSTTVAAMIEYINENLTRNIITLEDPIEYLFKDKKSLISQREIPSDIENYNQALKYIIRQDPDIIYIGELRDKETLEAAFKAAETGHLVISTVHTVNASQTITRILDYFPKELQQRIRNQLSSNLLMVTSQRLLPKKQGKGRVAAIEVMRTTPTIKDLILTVDGYKKIPEAMKLGKKEDGMKTFDQSIEKLYTNGEIEYETALSAATVKKDIQLLKRGINHASASDYYKEMIE;locus_tag=LOCUS_03680;note=WP_010940822.1 type IV pilus twitching motility protein PilT (Geobacter sulfurreducens) [pid:46.0%25%2C q_cov:98.1%25%2C s_cov:93.5%25%2C Eval:1.8e-87],MGA_368
sequence1	MetaGeneAnnotator	CDS	433532	435850	.	+	0	ID=MGA_369;product=adenylate/guanylate cyclase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164924872.1;translation=MFRKKTFLLGIFLTFLVTIIFFMYSNLKINLFEIFELKTVDLRYKIRGTEKKDLGVIIIGIDEKSLDKIGKWPWKRSIHGELVKKLNEDGVKSIAFDVSFTESSTSKELLDYKLNLKKIILNGYKNGDIKKKTALSLAKELNKLKLDEDYLFAKALKKAGNVSIGTYNILNEKDVKLSKEVLDNKVYIFNRYVNVPGLAEQLKEVGRTGKRSFEPFSVYKVIPPIKLIGTFCYGVAPYEIGRPDPDGVFRSIPMATYEKYTGLYFPPLYLLAYLNANKYTMDKNVVLDIKNNRLKIYKNAAQLSGLEKSIPLNKDGYQRLNYYGKGHTFEYVSYIDVLNGNVSKDKLKDKIALVGYTDTAKGLYDLRATPFDPNTPGVEIHATAIQNLIDNKYLVRWEVGEHTILILIFGLLITMSLSMKKANFKTTNFMALGIITGYIAMAQILFNNGIWIEIFYPTMSYITIYLSLLILNYVNEELEKKRVKNAFRHYTPPALIDELLKNPDKLKLGGERKILTAFFSDIQGFTSISEGMGPEELVEFLNEYLSYMTDIILNDNGMVDKYEGDAIMAVFGAPVYIEDHALRACYAALEYQKKLDELREKWSGRGLPPIYARIGINTGEMIVGNMGSQDRFDYTVIGDNVNLASRLEGANKQYGTYIMISSDTYREVKDYVEVRELDIIRVKGKNKPVDVYELICKKGELTEQKKGVLKYFLKGLVYYRAQEWEEAINSFEKVLEIDKNDSPAKVYIKRCEIFQKNSPEENWDGVYTFTTK;locus_tag=LOCUS_03690;note=WP_164924872.1 adenylate/guanylate cyclase domain-containing protein (Thermodesulfovibrio yellowstonii) [pid:36.0%25%2C q_cov:98.3%25%2C s_cov:98.0%25%2C Eval:1.6e-108],MGA_369
sequence1	MetaGeneAnnotator	CDS	435883	437733	.	+	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRILMILLGLMLVVNMGVFAQGDDLESLLQEDDTSLEQQLLGTAEKKSGDLMGGSVKDIIGQAVLQYPNEKVWKQVYKGMGVKEGTTVVTMENSEAKIELENGAIIDLRPKTQAIFNTLREDPEKKEMTETGIQLFVGKIYSNVKKLVKTGSKYEVKTGSATAGVRGTKFTVAVNETGDTEITTYEGTVAVTTVQSPEPVFVMAGEKIKALKGGKVNPKEKHNELPPKSLEKPVKEKKKAEKKAKVEEKKPTEKGNAGVTMEAGSNVVNGKSYGTLEIKPDFAHIFGTPIGLGLKIMVLQGDENGKNVTKYGPNASDKWYDSVSLRWAEYDSKTFGIRYGELSGVSYGQGLLMSGYSTFGIKTRVTLPKNGFKAMVPLKEASDSKLDTVYAVRLESKVMDKSPLTLGITAITDTDVADDSKLNKTAVGLDASYPVSKYLIPYAEFAKLMDFGQGMGAGFRGGSKFFNYKLEYRNIGKEFTPVLYDYYYNKNKDTYDLSKVEAYSGYLLQVGSNIFDILTMGIKYEDYGDNSKVLTGTALFSKLKFLPGMWSRLQAGFNYMQKGVDFNDFSWEDKEKAVINGYIVYPASGSVDVRIEYNKEAGEEAYQTFRTIIRF;locus_tag=LOCUS_03700;note=MGA_370
sequence1	MetaGeneAnnotator	CDS	438157	438405	.	+	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHIIVKNFLELGRDVLYSNIKRNFEKGKKLVLDFRGIDEIDEEFLGETLGRVIEEHNFQAISTQINFINVNNDIKKSIKKLI;locus_tag=LOCUS_03710;note=MGA_371
sequence1	MetaGeneAnnotator	CDS	438586	439890	.	+	0	ID=MGA_372;product=homoserine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881180.1;translation=MKIEKVGIVGLGTVGTGTLKILINEREKIHQKTGVWIDVKKACDLNIEREFDFDVDRSIFTNNYNELIEDDEISIIVELIGGYTIAKDIIIKALKAGKNVVTANKALIAKYSKELFAIANSNGTKIYYEASVGGGIPIITPLQESLAGNNILSIKGIINGTANYILTEMTEKNIEFEKVLKKAQELGYAEADPTFDIEGIDTAHKITILASLAYGGYVDFEKVGVKGITSITGEDIKFANDLGYNIKLLATAKKYEDEEIEVRVQPTLISQKEILSNVNDVYNAIEVIGDYVGKTMFYGKGAGMEPTGSAVVADVIKLATEDLANNIPKGNYYYNINKELSLRALEKSISKYYIRLNVKDEIGTLAFVTNKFKDNNISIESMIQTCKSFDDNKFVSLIFITHDVLEADLKKSLDEIYISENVNVEKSILLKIDE;locus_tag=LOCUS_03720;note=WP_010881180.1 homoserine dehydrogenase (Aquifex aeolicus) [pid:47.3%25%2C q_cov:97.2%25%2C s_cov:96.6%25%2C Eval:1.8e-100],MGA_372
sequence1	MetaGeneAnnotator	CDS	439990	440871	.	+	0	ID=MGA_373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKDSLSLGEGNTPLIKAIRLNLYFLENFNVYFKNELLNPNGNIEDRGVYNYLKDYIDKGKEGVIVYSTGEAAASVASYASRMGLKSFIFVAKEQYKEKRYKKALKFDTKIFVIDEEEKEIIKNIYKLTENYPYLSIIPLENKIFMDGIKTIIKEIEDKIKKIDYIIVKKAEVNSGRFRFYKEIFSSEDIKVLGVSTEESGSDIITVDEYDVIEALNTNRKQEGIVEEEAAILTAGVMKCAEENVFKSGDNIVCLVDERENIEELEEYEKQNIYMLKNGIEEIKFKMGLKNIL;locus_tag=LOCUS_03730;note=WP_010880238.1 threonine synthase (Aquifex aeolicus) [pid:33.6%25%2C q_cov:43.7%25%2C s_cov:36.4%25%2C Eval:5.1e-15%2C partial hit],MGA_373
sequence1	MetaGeneAnnotator	CDS	440969	441451	.	+	0	ID=MGA_374;product=Lrp/AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_025774673.1;translation=MEKIIEILKEDSRVTVKDIAVMLGMTEEDVKTEIKRLEKNGIILKYTTIINEEKWETDKVKAFIEVKVTPERERGFDAIAERIYKFPQVTSLYLMSGGFDFLIAVEGDSLKDVALFVSEKLSSLDYVNSTATHFLLKKYKENGISMIAEKKDDNRIAVMP;locus_tag=LOCUS_03740;note=WP_025774673.1 Lrp/AsnC family transcriptional regulator (Moorella thermoacetica) [pid:47.8%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:8.0e-39],MGA_374
sequence1	MetaGeneAnnotator	CDS	441451	442599	.	+	0	ID=MGA_375;product=aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020963.1;translation=MINKISNRLKEIKPSGIRKFFDLVQAKKDVISLGVGEPDFTTPWGIIESAFYNMGKGKTHYTSNNGLLELRLEIKNYLKKYNLDYDEDEIIVTVGGSEGIDLALRGLINPGDEIIVPEPIYVPYKPLSMLNEAKAVTIDTSKTNFRLTAKSLEEKITSKTKALILCYPNNPTGIILDKEEVEEIAKVIKKHKIWVISDEIYSELNYGKEHFSIASIEGMKDYVIYLNGFSKAFAMTGWRIGFLAAKKELINELIKIHQYAIMCAPVMSQYGAIEALKNSFPEVEKMKNSYDRRRRLMLNGFREIGLDVIEPEGALYIFPSLEKLGIKGEEFAIRLLEEKGVAVVPGTAFGEGFEYNIRCCYATDIEDIKEAIKRIKEFVDEL;locus_tag=LOCUS_03750;note=WP_011020963.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Methanosarcina acetivorans) [pid:49.9%25%2C q_cov:99.0%25%2C s_cov:95.0%25%2C Eval:3.1e-106],MGA_375
sequence1	MetaGeneAnnotator	CDS	442666	443904	.	+	0	ID=MGA_376;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545682.1;translation=MGIIVQKYGGTSVANTERIREVAKRVLETKKNGNDVVVVLSAPAGTTDKLIKMAEEISPNPHVREMDMLLSTGEQISIALLAMAIYEMGYKAISFNATQVGIKTDKAHTKAKIQSINSKKILEELKEDKVVIIAGFQGVTENMDITTLGRGGSDTTGVALGIALKADEVEIYTDVDGVYTADPRIVKDAKKINCISYEEMLELAGSGAKVLHLRSVELAAKYGMKIHLRSSFLPELGTIVKEEGENMEKAVVRGIGHSKNEAKITIVGVPDKPGIAAKIFGRIATENVNVDIIIQNLGGDGRNDISFTLPYTDLKRALEVSEELKNELSAEKVIYDEKIGKIAVVGVGMKSHPGVAATMFKALAEAEINIDMISTSEIKIACVIKDEDLVKAVEVLHNTFKLDNGGIKIEEL;locus_tag=LOCUS_03760;EC_number=2.7.2.4;note=WP_012545682.1 aspartate kinase (Thermodesulfovibrio) [pid:58.1%25%2C q_cov:97.1%25%2C s_cov:99.0%25%2C Eval:3.3e-125],MGA_376
sequence1	MetaGeneAnnotator	CDS	443891	444886	.	+	0	ID=MGA_377;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545714.1;translation=MKSYRVGIVGATGAVGQEMLNVLGNRNFPVKELRLFASARSAGKKIKFKGKDIVVEELTKEFYKGLDIALFSAGGNISKEFAPIAAQNGVVVIDNSSAFRMDDNVPLVVPEVNPEDIKKHKGIIANPNCSTIQMCVALWPIHKEFGIKRLLVSTYQAASGAGAKGMQELLDQTKAFVEGKEIPIDKFVHQLLFNVIPHIDEFTDNGFTKEELKMINETRKIFHDNEIKISATTVRVPVLRAHSESINLELEKKSTSKEIRELLRESEGVKVIDNPKNNEYPMPIDAAGTYATYVGRIRDDEVFENGISLWVVADQILKGAALNAVQIAELL;locus_tag=LOCUS_03770;EC_number=1.2.1.11;note=WP_012545714.1 aspartate-semialdehyde dehydrogenase (Thermodesulfovibrio) [pid:62.1%25%2C q_cov:99.7%25%2C s_cov:97.1%25%2C Eval:1.7e-113],MGA_377
sequence1	MetaGeneAnnotator	CDS	444980	445423	.	+	0	ID=MGA_378;product=ACT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902336.1;translation=MNKKREFYIVDKKILSTSIQKVIEVNELIQRENISKYEAIKRIGISRSTYYKYKDYIKPFFEENTDSVFNLYLSLTDHPGVLSMVLDLIAKYDTNILTVIQNIPIDNIAHATLSIQTKKESMKNIEKMLEGIRGVNGVKDIRIIGNS;locus_tag=LOCUS_03780;note=WP_005902336.1 ACT domain-containing protein (Fusobacterium nucleatum) [pid:51.7%25%2C q_cov:98.6%25%2C s_cov:94.8%25%2C Eval:1.1e-38],MGA_378
sequence1	MetaGeneAnnotator	CDS	445441	447270	.	+	0	ID=MGA_379;product=acetyl-CoA carboxylase biotin carboxyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393034.1;translation=MVRFTDTTLRDAHQSLWATRLKTDEMLPILKELDEAGFYSLEVWGGATFDVSLRYLNEDPWERLRRIKSEVKNTPLQMLVRGQNLVGYKHYSDDVVDSFIGKAVDNGIDIIRTFDALNDLRNLEKVISAGKREGAHVQGAIVYTISPIHKMEYNIELAKRLADMGVNSLAIKDMAGLLTPYDAFHLVKKLKEETGLMIQLHSHYTSGMAAMTYLKGIEAGADIVDTAVASMALHTSQPAAETMVAVLKNTKYDTGMDIKKLSIVSEYFETLAEEKAYNRPKQGLIDIKVLSHQVPGGMISNLLSQLDQQGAGDRIDDVLAELPRVRKDLGYPPLVTPTSQFVGTQAVLNVLLGERYKIVPEEVKNYIKGYYGTAPGEINPLLKKKIIKNEGIINVRPADLLEPAMEKAKEELPKELVTQEEDYLSYAMFPQITLKYLTLKHDPTAGDLIMGGDEDMRINIEILKQLAESLEENSVGELVLETKTGKVVLKRNTKSPVQTVATQQQVIQEPVAVAVEEATPVQTQESIDEDKYTKVLSPMVGTFYASPAPDVDPFVKEGDIVKKGDTLAIVEAMKLMNEVKSEVSGKVVKILAENSKPVRQGDVLMLIEE;locus_tag=LOCUS_03790;gene=accB;EC_number=6.4.1.2;note=WP_011393034.1 acetyl-CoA carboxylase biotin carboxyl carrier protein (Moorella thermoacetica) [pid:50.3%25%2C q_cov:99.8%25%2C s_cov:95.3%25%2C Eval:2.8e-169],MGA_379
sequence1	MetaGeneAnnotator	CDS	447418	451896	.	+	0	ID=MGA_380;product=glutamate synthase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964980.1;translation=MARGMGIPEQQGLYSPQMEKDNCGVGFVAHIKGKKSHEIVEKGIEVLVKLTHRGAVGADPETGDGAGLLIQMPDKFFRSEIENLPKEGEYGVGFIFLPVKYDEQLIAEGIIEKVIEDEGQEIISWRNVPVESDKIGVTAASTMPGIKQLFIKKSEDVENFELKLYIIRKKIEKAIMESNIKNKDYFYIPSMSSRVIVYKGLLLAGQIKAFYPELGDEKVTSSLALVHQRYSTNTFPSWDLSQPFRYLAHNGEINTIKGNANWMSAREPELYNEILGDNIKELYPICNLEHSDSANLDHAFELLIASGKSIVEAATLLVPAAWENDVELPQNVKDYYEYNSGLVEPWDGPAAIAFTDGKQIGATLDRNGLRPARYIVTKDDLVIMASEVGVLEIDPKNIKQNGRLMPGKMFLVDMEEGRIVSDEELKDSIAKNESYGEWLKNNKKNISELSEAAARHENDYETIVARMKAFGYTREDLKEIIVPMAKNGKEPIGSMGNDASLAVLSDKSKLLFNYFKQLFAQVTNPPIDPIREKVVMSLTTNIGVKGNILEETEEKAKLITLESPILTDKELDKIVHLKDENFKTKVIPALFNISEEDGLEKGLELLFAEAEKSIDEGYNILVISDRKVDDFNAPIPSLLATAGLHHYLIKKRKRNGVDIIVETGEAREVMHFALLIGYGALAVNPYIAYEAIDYMIDTKLYLTENAKAKKEAKYIKAVDKGLLKIMSKMGISTIQSYRGAQIFEALGLSTELVDKYFTGTVSRIEGIGLDIIEKETLERHKKAFNSLRKNEFDILENDGEYHYRKNGEKHLFGPEAVAKLQHSTRLNNYDEYKEYAKLINDQSENLATIRGLIKFKKRNSISIDEVEPVENIMKRFVTGAMSYGSISKEAHEAMAIAMNAIGGKSNSGEGGEDPERFLDNRRSSIKQIASGRFGVTTHYLVNADELQIKMAQGAKPGEGGHLPGHKVSEEIAKVRHTSPGIDLISPPPHHDIYSIEDLAQLIFDLKNVNPDSRVSVKLVSEIGIGTIAAGVSKAHADMILVSGYDGGTGAAPLTSMKHTGLPWELGVSETHQVLSMNDLRGRVRLQADGQMKTGRDIAIATLLGAEEYGFATGALVVLGCVMMRSCHTNTCPVGVATQNPELRKRFLGKSEYLINYFTFVAREVREIMAELGFKSIDEMVGKTEVLELDEAIKHWKSKGLDLTKILYQPQLPKKIAKKCVQSQDHGIDSIADRRLIELAKPALENREKVEINVDIHNTDRTFGTMLSGAVAKKYGEFGLDDDTIKINIKGYAGQSFGTFGMKGITLNLEGQANDYIGKGLFGAKIIVKAPETADFDTAKNIIGGNTILYGAIKGEAYFNGVVGERFCVRNSGVTAVVEGIGDHGCEYMTGGRVAVLGGTGKNFGAGMSGGIAYVYDITGEFDKKVNMLDVEIDKVETEKEKEELKTMIENHLKYTNSNRAKDILQDWGNNINKFVKVIAPGYKKLLAEGKVK;locus_tag=LOCUS_03800;gene=gltB;EC_number=1.4.1.13;note=WP_010964980.1 glutamate synthase large subunit (Clostridium) [pid:58.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:0.0e+00],MGA_380
sequence1	MetaGeneAnnotator	CDS	451897	453354	.	+	0	ID=MGA_381;product=glutamate synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964981.1;translation=MGKVGGFLEISREEFAKRPVEERVKDFKELYKPFTEKNLEKQAARCMDCGTPFCHFSCPVGNLCPEWQDMVNKGEWEKALELLQSTNNFPEFTGRICPALCEGGCVLGINDKPVTTRNIEYAIIEKGWQEGWVKPILPKVKTGKTVAIIGSGPAGLAAAQQLTRLGHTVTVYERASKAGGIITYGIPDYKVEKWVVDRRIKQMEAEGTKFIYNTNVGVDLPVEELLNNYDAVVLAGGSRLARDLPVYGRELKGIHYAMDYLTQQNYVNEGKEIAESDRITAKGKNVLIIGGGDTGADCVGTAIRQGAKNVYQIELLDKPPLDRPQTNPWPNFPQVLKNNTAHEEAKVCLGGECKTDIREWNILTKRFSGDEAGNLKKYHAARVKWEIDENGKRVMNEIPNSEFELDIELAVLAIGFVHPEHKGLVGNLELELDGRGNVKSDKKYMTSKEKVFAAGDMRRGQSLIVWAISEGRNAAENVDKYLMGE;locus_tag=LOCUS_03810;note=WP_010964981.1 glutamate synthase subunit beta (Clostridium) [pid:57.0%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.7e-163],MGA_381
sequence1	MetaGeneAnnotator	CDS	453405	453677	.	+	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEESRRSYAPAFLYGITNKKIELKYKLNVIYQFQNNYNISTEDKILRNMYRISNFTTNLQERKRIINSVNKELKSKITYNNGSSIFRKVI;locus_tag=LOCUS_03820;note=MGA_382
sequence1	MetaGeneAnnotator	CDS	453765	453968	.	+	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNIYVLNDIKTLIQNNKLEEKTKKYLEVLKFRGTVLKYPIIFKEKINKENNKILFSKFIAKGIERD;locus_tag=LOCUS_03830;note=MGA_383
sequence1	MetaGeneAnnotator	CDS	454233	455912	.	+	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLSKLILLIIVILLTTVSCVNISKKYSKNMKEYHSNYFYVVYPKDIVAFEVNIPVISTMSCFQVKGIKKQTYLQIFIDNNRFSSKKDFNNYMKKMFKNIKLHKRKINGNLAYEFSIKDQKEIRMYFKGKEIVGIINCMDKKYIKKLENIFYSINMYDKYRSKSKKYKNKFTKKEFLEIMADLKEKLKLLHPNLYKYRSEKKTEEDYKKIIKNIKSKEIWKKREIKAIVGEFMAGIKDGHTSIWLEASNRNPLPLLVKVRKNRVIIYNYNKKKEKIKNNIIGKEIISINNIKIGTILEHMRKIVSVDKDGSEAGFLIEQNFSVLYYLIYGESKDGYKIEYLDKDNKIKNVILKSRYVFDDNEGKRNGDSIEIKYVNNDLAILKTYRFPTREVGINEFKEKTTKFFKTLKKKKTKYIIIDLRKNTGGLLDLTKYLYNFIDGNKKNHYKGKVYVLIGRETFSAATIFAGIVKSGKNRATIVGVKTGGRGDCFGNPVGYDINNSGIPVSIATLDILKDIPYFKYKGVVEPDVVVDIAPIKEVMGEDQVMEKVISIINKDKK;locus_tag=LOCUS_03840;note=MGA_384
sequence1	MetaGeneAnnotator	CDS	455936	456685	.	+	0	ID=MGA_385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLLGVLVLLTQLGCSSMSGKKIVVLKNPVKSEKSIYFNSIMYKNFNNLDITPLARETHGISEEYKFNSEDENAIISSLQESLTTNGIYSVSENRRASDYEIKIVIPNYIVAEGYGVAAEIMYILKDRKNNKTKFYDRFAVYVELPSPSLGKDELNNAIVYKIINDINYHLMNKKTEIKIGETSEVKYYLQNNFNSIVSAVSNFPKSMKKVKVNTSGSNRTKAVYTLNNIKWKKMVVNLTKIFKLK;locus_tag=LOCUS_03850;note=MGA_385
sequence1	MetaGeneAnnotator	CDS	456933	457988	.	+	0	ID=MGA_386;product=endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986423.1;translation=MKTILKFGGILFLTLISTFILFLLIMTISEFNPKEKTKLEVYGTGKNIIGKKFTILTWNIGYSALGKEADFFMDGGKQSIGESKEVVEKHIKNITKNIIKEKSDFIFLQEIDKNSTRSYHVNEYNYVKDNLKNYTTTFATNYKTLWVPIPLFKPMGKVLSGISLFSKYKPDSSIRYSFPGSYSWPTKLFQLDRCFIETRYKIGNKNLIMINLHLSAFDKGGFLRKKQVSYLKEHILEEYNNGDFIVVGGDWNSIFPNTNLDKINITTEKANWNPVKINKDFMPKDWKFVADNNIATCRENNKIYKRGRNHLYIIDGFLLSPNVSVDKINGIDLDFQDSDHNPVYMEFSLKM;locus_tag=LOCUS_03860;note=WP_011986423.1 endonuclease (Clostridium botulinum) [pid:45.2%25%2C q_cov:93.7%25%2C s_cov:94.0%25%2C Eval:3.2e-86],MGA_386
sequence1	MetaGeneAnnotator	CDS	458017	458349	.	+	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGYGYTYFILFIVIIITNINTRESNKINRIIKKIRRRDKKVDNQVIKSLIGKKCIISGVSFGGVGGTVIQGEIIEVIDNWVKIKVNKKKTELINIEYITRVQMINKHNK;locus_tag=LOCUS_03870;note=MGA_387
sequence1	MetaGeneAnnotator	CDS	458388	458894	.	+	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKIYLFIVGIFLYIPYVKIISNITDKRELIHLITFYSVILYMFYIGLKIKFYIENNMILIISKFKTIISSSALMLLFLVFAIIDKTIIGVGLLWGINLLILADKNFVFFRLNKDEFDRLNKKIYSAELVENIDESNKKIYFKNGIEQEYLDVKFMDKRRKKIKVKK;locus_tag=LOCUS_03880;note=MGA_388
sequence1	MetaGeneAnnotator	CDS	458927	459316	.	+	0	ID=MGA_389;product=VOC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005481479.1;translation=MNIEHIAIWTNDIERLRSFYIKYFNAKSNKKYYNPKKKFESYFLTFSSGARLEIMQTTNIQEKPNDINIKYTGLIHMAFSVGSEDLVIKLTDKLSKDGYEVISEPRKTGDGYFESCILDPDKNEIEITE;locus_tag=LOCUS_03890;note=WP_005481479.1 VOC family protein (Vibrio parahaemolyticus) [pid:53.9%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:5.5e-36],MGA_389
sequence1	MetaGeneAnnotator	CDS	459937	461775	.	+	0	ID=MGA_390;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680842.1;translation=MKGIKLIYKYTKGNRKLYILSIIAVIMATVVSFLSPVIIKFTIDYIIGDQSFEINNVINKFIGFFGDRDFLSKKIWIMGIIIIVIAVAEGGFNYLKGKWSAMASENIAKNLREKLYEKLQYMYFDYYTNAKTGDLVQRCTSDVETVKTFFSMQLVEVGRTIFLVVVALSFMLSLSIKMTLAAMVLIPAILIFSLYFHMKIQKVFLETDEAEGEMSAGLQENLTGVRVVRAFAREKYEMERFDEKNLNFRDLVYKLLKTIAIFESRVDFLSIIQIGIVTVYGTYLTVKGEISLGTLVLFLSYERMLLWPIRMFGRILADMGKAFVSAERIEEILNEDSEQGEKDGIKPEIKGNISFENIFFEYIEGKEVLNNISLNIKKGQTVAILGATGSGKTSLVNLLTKFYDYKSGSIKIDDTELNKIDKRWIRENISIVLQEPFMFSKSIKDNLYLANKHTSEYEIYDAAKIATIHDVINSFSEGYETVLGEKGVNLSGGQKQRLSIARALLKKSPILIFDDSLSAVDTETDREIRKALNDRKHKATTIIIAHRMTTIAGADVIVVLDKGKIVQQGTHKELINQNGIYKRIWNIQNELKDDINEESVFEEDVENVEVSI;locus_tag=LOCUS_03900;note=WP_002680842.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:42.9%25%2C q_cov:96.7%25%2C s_cov:99.5%25%2C Eval:1.9e-141],MGA_390
sequence1	MetaGeneAnnotator	CDS	461800	463626	.	+	0	ID=MGA_391;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002666962.1;translation=MTVLNEEEFNEKIDFGIWKKILEFAKPYRKHMILLAVVMIIVGAQDVAIPLMTKYAIDHFINGKTTSGLYFYLGVYILLAISQAFHVRMLIVLAGKIDSGTCYQIRKAGFNRLQELSFTYYDKTAVGWMMARLTSDVQKLGDMIAWGMVDIVWGFTVMIGIAGVMVVLNWKLAIFALSAIPALLFISKYFQNKILGSYREVRKLNSKITSSFNEGISGAKTTKALACEPKNINEFKNQTGEMYSASVRAAIFSSLYLPIVISIGSIGTALVLWKGGNAVSAGAITFGTLTAFLAYTIQFFDPLREIARVISEFQSAQAAAERVISLVKTEPDIVDNAEVIEKYGTSNNPKKENWEEIEGEIEFENVSFAYKKGEQVLKNFNLKVKKGEKIAIVGETGSGKSTIVNLICRFYEPNEGRIIIDGKDYKDRSLGWLHSRLGYVLQSPHLFSGTIMENIRYGKLEASDEEIIEAAKLAKADEFIEKMENGYNTEVGEGGSRLSTGEKQLISFARAILADPKIFVLDEATSSVDTETEKKIQEATEMILEKRTSFIIAHRLSTIKNADRILVIDNGKMIEEGSHHELILKKGHYFKLYSNQFIEENEVQYLSN;locus_tag=LOCUS_03910;note=WP_002666962.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:51.3%25%2C q_cov:97.5%25%2C s_cov:97.4%25%2C Eval:2.9e-171],MGA_391
sequence1	MetaGeneAnnotator	CDS	463768	464625	.	+	0	ID=MGA_392;product=phosphate ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868851.1;translation=MKKSLVVIMLGIFISVVATAGVFDFLFKKGNSKKRIEVTLRGSTTVLPIGMAVTEQFSKENKRSRVSVSGGGSSTGIKALLDGSVDIAEASRAMKSKEYDIAKSKGMKIKEIVVAFDGIAIVVNPSNGVTALTKEQVKKIYKGEITNWKEVGGPDKAIVAVGRDTASGTREAFDHLVMDKEEPATGVLELASNNAVLDDVENTKGGIGYIGLGYVNHQVKALTINGIKPTFDTVKNKTYPVSRNLYWYTTEDKINNVNGVKQLIDYLLGEKGQAIVKSQGFVPVK;locus_tag=LOCUS_03920;note=WP_012868851.1 phosphate ABC transporter substrate-binding protein (Thermanaerovibrio acidaminovorans) [pid:46.0%25%2C q_cov:87.4%25%2C s_cov:90.8%25%2C Eval:3.1e-54],MGA_392
sequence1	MetaGeneAnnotator	CDS	464946	465842	.	+	0	ID=MGA_393;product=phosphate ABC transporter permease subunit PstC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020932.1;translation=MGKKRKIINSTMSNGVKLIAIFNIVIVFMIFLFIFFNSLDFFMKYPINKFLFGEEWRIKIGNDLKSIFGMLPLLKGSLIVTFIAIIISVPLSFITTIYIAEFAGKKEREIMKILIETMAAIPSVVLGFIGLKILSTPIKDIFNLDSGKTALTGGIILAFMAMPTIISISDDALKSLDKSYKDASLALGATKLQTTFKVLVPAAFSGIFASMMLGFGRVIGETMTVLMVTGNAPIFKSSPLTSVRTMTATIAAEMGESVNGSLHQKSLFAIGLILFILTFLVNIIADHFVEKSRKKMRE;locus_tag=LOCUS_03930;gene=pstC;note=WP_011020932.1 phosphate ABC transporter permease subunit PstC (Methanosarcina acetivorans) [pid:52.4%25%2C q_cov:88.6%25%2C s_cov:89.2%25%2C Eval:4.9e-66],MGA_393
sequence1	MetaGeneAnnotator	CDS	465847	466683	.	+	0	ID=MGA_394;product=phosphate ABC transporter permease PstA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005788578.1;translation=MNKRKELVITWGIKIIAIMSLLPIFGILLYLIIKGLPAINWKFLTSMPENSGRAGGILAPIIGTLWLTVGTIIVSVPFGVLTAIFLVEYSKDNWLKRTINLMIINLAGIPSVVYGLFGLSLFVVWMGFGVSIISGSLTLGIMSLPVIITSTKEALLAVPNNLREASLALGATKWETVWKVVLPASMYGIVTGVILSIGRAAGETAPIIFTVATAYQNYLPETVLDKTMALPFHLFVISTEVNNMPMKNMYGTAFILVFITVGFNLVGTFIRSRFKKSR;locus_tag=LOCUS_03940;gene=pstA;note=WP_005788578.1 phosphate ABC transporter permease PstA (Bacteroides) [pid:45.8%25%2C q_cov:98.6%25%2C s_cov:95.2%25%2C Eval:2.0e-66],MGA_394
sequence1	MetaGeneAnnotator	CDS	466931	467107	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLPTTAKLATLRQWQLLNGKFIKKIYNFTQMHGGFKRRDSKKEKAKRKKKEFYREEK;locus_tag=LOCUS_03950;note=MGA_395
sequence1	MetaGeneAnnotator	CDS	467104	467880	.	+	0	ID=MGA_396;product=phosphate ABC transporter ATP-binding protein PstB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870525.1;translation=MKEEERYKDIRVDIKNFNFYYGDFQALHNINMEIEKNKVTALIGPSGCGKSTFLRSVNRMNDLVDISKYEGEILLDNESIFSKKYDIVNLRKKIGMVFQRPNPFPKTIFENIVYGPKIHGEKDKNKLMEIVETSLKSVALWDEVKDKLNKSALGLSGGQQQRLCIARAIAVKPEILLMDEPTSALDPISTSKIEELIRELQKDYTIIIVTHNMQQAARISDYTAFFYNGVLEEFGDTEKTFTNPVNKKTEDYITGRFG;locus_tag=LOCUS_03960;gene=pstB;EC_number=7.3.2.1;note=WP_010870525.1 phosphate ABC transporter ATP-binding protein PstB (Methanocaldococcus jannaschii) [pid:66.3%25%2C q_cov:96.5%25%2C s_cov:98.8%25%2C Eval:4.8e-96],MGA_396
sequence1	MetaGeneAnnotator	CDS	467920	468597	.	+	0	ID=MGA_397;product=phosphate signaling complex protein PhoU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004193271.1;translation=MKSLNEAITEINSMEMEMIKDVKRLIEITIEELNNKTFDKSIYGEGKVLEEDTNDLEVQIDEKTIGAIARYQPAARDLRFLIGIMHMNKDLERMADLCINILKTAKRIFRDRVNEEIEIVSLIDMGEKVYNMFEIFNHGYIEKDVKKGYIIFGLDDEVDKIKKESIDKIKDKVKENIEYLDLGIENLLISKNYERIADNITNLAESLIYIYRGEDLRHQAVKEMS;locus_tag=LOCUS_03970;gene=phoU;note=WP_004193271.1 phosphate signaling complex protein PhoU (Burkholderia) [pid:28.8%25%2C q_cov:94.2%25%2C s_cov:89.7%25%2C Eval:1.3e-16],MGA_397
sequence1	MetaGeneAnnotator	CDS	468598	469278	.	+	0	ID=MGA_398;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546731.1;translation=MKIVVVEDDSQIRELIVYFLQKEKYDVVASGDGYEAIKLIAEIKPDLLILDLMLPNLSGIDITKIVRDLPEKYGNPLIIMVTAKTETDDVIKGLEAGANEYIRKPFDPRELIARIKNIMKRTGKKINKQIEFGDILIDESKYIVYENKNEVELSKKEYELLKYFIINKDMILTREKLLNEVWGVDYFPGDRVIDVYVGKIRGKFKILGENLKTVKGVGYKLIEKKF;locus_tag=LOCUS_03980;note=WP_012546731.1 response regulator transcription factor (Thermodesulfovibrio) [pid:43.6%25%2C q_cov:96.5%25%2C s_cov:96.9%25%2C Eval:7.6e-44],MGA_398
sequence1	MetaGeneAnnotator	CDS	469284	470942	.	+	0	ID=MGA_399;product=HAMP domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965008.1;translation=MMIISFEFIFLIVFNVYLKNNFQNFTEKEFREQAKIVEIALENEGNSILKKIGEHSSNRITIIKKDGKVIYDNRKQGHESEMDSHRYRKEVKEALNGKEGFSIRKSNTLNENLLYYSMKSDDYIIRISMEYNIIQKIIDKTIFILLGIFIFLDILYYIIFVHYIKSFYSKKINRMKEILEGNGEISSIYLEDDIDLKEFWEIIRKWQFKNLNNLDKIAEEREKLSKIVSSIEMGIITVNRDGNIEFINNDSEKFMDLDINSNLYYEKINDVNIIKFIRNFLNERKISKEEIFFSKLKEYYILESHYIENGDLYIILLKDITQNRKFEEVQKQFITDISHELKTPLTNIKGYLIALLGAIDKETKEKFGEIVLKNIEKFENIIKDFLNITKIENSKIVNRYDVKINDVIEETKDSLVSRIMATNAKVNYNFNLKNENGYINIDKEKVITILKNLIENGIIYNNKIPEITVNISENESYYEFDIKDNGIGIEEIELKNIFKRFYRIDKARGNNLAGTGLGLAIVNDIISNYKGEIEIESKMGKGTKFKVKLPKA;locus_tag=LOCUS_03990;note=WP_010965008.1 HAMP domain-containing sensor histidine kinase (Clostridium) [pid:28.0%25%2C q_cov:99.3%25%2C s_cov:97.7%25%2C Eval:1.5e-57],MGA_399
sequence1	MetaGeneAnnotator	CDS	471030	471332	.	+	0	ID=MGA_400;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965540.1;translation=MENDNIFLELADFFKIFGDYTRLKILKILMKQETCTGGIARELDMSKSSISHQLKILRDKRLIKYRKEGKSVIYSLDDEHIEKIFNMGLTHLGEGGVSND;locus_tag=LOCUS_04000;note=WP_010965540.1 metalloregulator ArsR/SmtB family transcription factor (Clostridium) [pid:59.6%25%2C q_cov:94.0%25%2C s_cov:77.0%25%2C Eval:5.1e-26],MGA_400
sequence1	MetaGeneAnnotator	CDS	471325	472260	.	+	0	ID=MGA_401;product=cation diffusion facilitator family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002317368.1;translation=MTNNEHNHEHSHEGHHHHSIDENISLKKITGVTILNATITITEIIGGILSGSLSLLSDALHNLSDTVAIILSYVALVISRKEKNEKKSYGYKRAGVLAAFINSTALIVISFYLLYEAYKRFINPETINGNLMIIVAVIGLVSNFISVLLLEKDSKNSMNLKASYLHLLGDTVSSVGVVIGGIVIKFWNIYWIDPLVTVLISIYILKESYGIFKQTIDILMQSTADLDYEDLKKDVENIDGVINIHHIHTWMSDEKTIYFEGHVILEDMLISNAKKIHSEIEEILENEFGISHITIQFEAENEECETELFKI;locus_tag=LOCUS_04010;note=WP_002317368.1 cation diffusion facilitator family transporter (Enterococcus) [pid:49.1%25%2C q_cov:91.6%25%2C s_cov:93.8%25%2C Eval:1.0e-77],MGA_401
sequence1	MetaGeneAnnotator	CDS	472291	472755	.	+	0	ID=MGA_402;product=arsenate reductase ArsC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582904.1;translation=MDKKKVLFICIHNSARSQMAEAFVNEYGGDKFIAESAGLEPGNLNPYVVDAMAEKGIDISKNKTNSVFDFYKEGRLYDYVVTVCDESNAEKCPVFPGNAKKIHWGFPDPSSFQGDNDDKVEFTRKVRDMIEDKVKEWLKSDGKDESGFEINLNL;locus_tag=LOCUS_04020;note=WP_012582904.1 arsenate reductase ArsC (Dictyoglomus turgidum) [pid:47.1%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:3.9e-32],MGA_402
sequence1	MetaGeneAnnotator	CDS	473343	474896	.	+	0	ID=MGA_403;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKKFNITGTCIPERHYMVNITSKIDRIIKDLISEGDYFTINRPRQYGKTTTMYLLDKKLQKNKEYLLIKVSFEGIGEEFVSEDRFVESFVGLIIKRLKFSNNKKILNYVKNYPKLYKIKQLDEFITDFVLETNKKVVLMIDEVDKSSNNQLFLHFIGMLRDKYLSRNEGEDYTFHTVILAGVHDVKNLRLKLRPDENRTLNSPWNIAVDFDIDMSFNSEEISTMLIEYEADAKTGMDIKNISEKIYMYTNGYPFLVSKLCKVIDEKLDRDFSEKGLEESIKITLGTPNTLFDDIIKNIENNREFYNFIEKVILGNDKVDYVHTNKMVSIGKIYGIIREKNKKVEIDNKIFEILIYNHMIANREIKKGVVLTYEFRTKFIDDDGNLDMELVLDKFQELMKAEYRKIDEKFVEREGRLLFLAFLKPIINGTGFYFVESETRESNRMDIVVTYNMKKFVIELKIWRGGQYEQEGREQLCKYLEAQNLDKGYMIFYNFNKGKEYIKDRVMVNGKEVFEIVV;locus_tag=LOCUS_04030;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:47.6%25%2C q_cov:96.7%25%2C s_cov:95.6%25%2C Eval:2.8e-135],MGA_403
sequence1	MetaGeneAnnotator	CDS	475045	475929	.	+	0	ID=MGA_404;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015945412.1;translation=MCRINPRVDFVFKKLFGSEENKDLLQDFINSVVSEEDRVTSLELQNPYNEKNFKHDKLSVLDIKAKDQRGNWYNIEMQVIDQEYYDKRALYYWSRVYSGQLHSGINYDNLKKTISINILNFRCLDEENYHNIYKIINLESKKEFIDHLEIHFIELEKYNEKYSTMLDRWVNFLKKAEKYAKNKLPKELEEVLTIKKAVELLDEMSLNDEERESYEARLKWLRDEDAAIKKAEKKGIEKGIKEGIKKGIEKGIEKGIEKRNVEIAKSLLDILDVKTISEKTGLSEEVILKLKDEN;locus_tag=LOCUS_04040;note=WP_015945412.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:35.3%25%2C q_cov:98.3%25%2C s_cov:97.3%25%2C Eval:2.7e-40],MGA_404
sequence1	MetaGeneAnnotator	CDS	476282	477433	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLKVLELGASGFGGMAILGFIKDAFVKERKDINESQFYEGLSISQFIPGTTAGNLISYIGYKIGKSKTMFLMQIAFLLPAIISMFLLTYVYTKFGEVEIIKNIFIGINITVVVLLIKTMEKIFKPFIKNWRYIFMMVISFLLKIILKLNVFEIMFIILILNLLLDNGVYENEDRNVKININPKEFIIEIIFMIVFIISFIFRDKDRLIMLFYNMGKIGFFTFGGGVAAISMIQDIIVKDLGWLNSKEFLTGISLSQMTPGPILNIAVFIGYKVSGIIGGIVAAIGMFTPGVLLMHIFSTFGEKFLEKSISKKIINGILLGFNGIILSVILKLFQNSVTNIKEIIFFVIIFVIAHVSKAKALKLILISGILSYVYFGLIF;locus_tag=LOCUS_04050;note=WP_011948277.1 chromate transporter (Clostridium) [pid:36.4%25%2C q_cov:44.9%25%2C s_cov:97.2%25%2C Eval:1.8e-24%2C partial hit],MGA_405
sequence1	MetaGeneAnnotator	CDS	477652	478617	.	+	0	ID=MGA_406;product=D-3-phosphoglycerate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901670.1;translation=MKIVFLDAVSVGEDISLGKIEKEGELIKYNLTKENEIEDRIKDAEVIITNKVYIGKKEMGIARKLKLICVAATGYNNIDIEEAKKLGIVVANVKNYSTNSVVQMVFSYILMLMSNLYNYNNDVKNGEWSKSPIFTMLKYSIQELNNKKIGIIGYGTIGKKVGEIAKSFGMDIIVAKIHGREYSDNSRVEIEELLKISDIVTIHAPLTNLTKKLISNKEFNLMKKNAILINTARGGIVDEKALYKALKDKKIAGAAIDVLENEPPKENNELYELENILITPHVAWGSIESRQRLIEGIYENIREYKNGNRNKINIWRSNDKS;locus_tag=LOCUS_04060;note=WP_005901670.1 D-3-phosphoglycerate dehydrogenase (Fusobacterium nucleatum) [pid:41.3%25%2C q_cov:93.8%25%2C s_cov:94.1%25%2C Eval:6.0e-60],MGA_406
sequence1	MetaGeneAnnotator	CDS	478604	479866	.	+	0	ID=MGA_407;product=DUF512 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009903281.1;translation=MTKAEIIKVQKDSIAEELDIEKGDFLVRIDGKDIYDIIQYEHMIYKEFIIVEILKKDINEIWEFEIEKDEFEDLGIEFKSPVFDGVRTCKNNCVFCFVAQLPKGLRKTLYLKDEDFRLSFLYGSYTTFSNLTDDDIKRIIKEHISPLYVSVHATDSMVRKVLLRNRDAGNILEKIKYLTDNGIELHTQAVIVPGYNDGKILEKTIDDLASFYPQVKSLTVVPVGLTKYHKGGLRLNTEEESKKIVKYTLEKSKEFKEKFDTYFSFLSDEFFIQSKMDIPEKEYYEEFEHIENGVGLVRLLLEEVKDMKIKDKFYKGNKITIACGKSIYKYMKEIFIHDDKINIVPIESYFWGEKITVTGLITGSDLIKNLKDKELGDKLIINKIMLNDKKQFLDDMSLEGVSERIGTKIKVIERLEEIYD;locus_tag=LOCUS_04070;note=WP_009903281.1 DUF512 domain-containing protein (Clostridioides difficile) [pid:41.3%25%2C q_cov:98.1%25%2C s_cov:95.2%25%2C Eval:4.0e-89],MGA_407
sequence1	MetaGeneAnnotator	CDS	479962	481551	.	+	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLRRKILKDILKNENIEIALNDLKKFIDSMGVNFLYYFIDYGNNKEYSTDKELKKIIFNSKKYTEMTKKEDENGLNLIYKSLSMGVVFHINYKLKDISKEEILEIEEEIELVLELLKKVIEFKKIRIYSLITPLFFEVSKILYSAEGTIKESLEELNLTIEGLLGIEIVNIEKNNIEYFIKEEKEKLFEYKYKDMIVKYKKTRKLDNLIEIDKILNLIFMILNSFLKLKELEKKKQIFLEEQINTKENLEKLNEILEKSLYKMTFINKLYSKLSKTRNLEESIRIIEKLIRDEVDYRYLRIKLGDTHLVEDGIQVEEAGNVNYSSKILKGKIEYEIICQKEDITSEDEVYLNLIFTHSKIELENILLYKKVEELATIDGVTELYIHRYFIERLKQELEINKRNGSKVSLIMLDIDNFKKYNDTYGHQAGDEVLHKVASLMKRGVRKIDIPCRYGGEEFIVILPYTDIEKAEFVAERIRQSLEEETDITASFGVTEYLSMEKLETFVKRVDDAMYKAKQNGKNQVIRM;locus_tag=LOCUS_04080;note=WP_000623742.1 sensor domain-containing diguanylate cyclase (Leptospira) [pid:37.7%25%2C q_cov:37.2%25%2C s_cov:59.1%25%2C Eval:6.4e-34%2C partial hit],MGA_408
sequence1	MetaGeneAnnotator	CDS	481556	482506	.	+	0	ID=MGA_409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTFRINKGGIIYFENTVDNNVYVIRKGKVEIIRTNTLFLVDNNLKNRKRLKEGDVFGFEEVFFNLTRGERAIALENTELIVFPITDFSAFMEKNITIGEKMINSLAGKIRKLNNKIKEISNRTECIMEHGKIKDIYIYFLKQGEYKKAQQILERMIVKESDVEFAIKEKDRISILQSLGISVEKIDAIVSKYKDNEELNILLAILEGMKIKVVAEELHEKIFFEMIKIKKKIGKDDEYLNRLKEFLEEFPYSDYIKDVMFDLIEEYDKRKRFPEALSIANKLTDEELTNEEIEKTKKNIEKLKHDIPKEGEENVG;locus_tag=LOCUS_04090;note=MGA_409
sequence1	MetaGeneAnnotator	CDS	482496	483098	.	+	0	ID=MGA_410;product=Crp/Fnr family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584159.1;translation=MLDNPKLFEKFGKDYKAGEIIFCEYETGEELYFIISGKVRISKITQDEEKVVAYLKDGEFFGEMAIFENKVRTATVITEEPTKVLELKKNDFLKLMSSAPDIVVQLVKSLSIRYIKTRNQLNSLLETNLEKKVLKYFYQQYLNVKSRSLNLNIKEVKSILNIKEKDLNKLLLGYKKKGLLKIVDDSILIGDIGWVELKLK;locus_tag=LOCUS_04100;note=WP_012584159.1 Crp/Fnr family transcriptional regulator (Dictyoglomus turgidum) [pid:26.5%25%2C q_cov:98.5%25%2C s_cov:96.0%25%2C Eval:4.8e-17],MGA_410
sequence1	MetaGeneAnnotator	CDS	483120	484457	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSERVMKKFNLGFEKNLLEENLKKMSIFSKAFIILGFVLLISHILVNNINSFVFPKLSYTITYGIIIVYSIGWTVFLNNYKIKNIKIAKIINLIFEVGMLTLGAIIALISVNISKEVSAYIIAIFTIASLMYMKFYESIFVFSVGHSIFIIGLLFLQIKTETLIGFYTSTTVAVLLGILIARINFTKKVREFLSNTIIKEKNRELKIVREKIIATENLQTISQIMGKIAHELNSPLAGELYTLKMIKDDLKEKFSENLEIVSILEDLNELEDSLILTKEIVSKLLKYSSQDTHFEENVDIKEVIEYSFKNLEKKYNYDNFKLDKIFKEDFIIFANKVDIVQLIENILENSFESLKNKDVKKISISTYKKDNKKIIEIEDNGMGINEKIIQKIYVPFFTTKYKEKNLGLGLTIGKEILKKYNGEMEIESKKDIYTKVKIIFKDE;locus_tag=LOCUS_04110;note=WP_012546453.1 sensor histidine kinase (Thermodesulfovibrio yellowstonii) [pid:31.9%25%2C q_cov:54.6%25%2C s_cov:39.1%25%2C Eval:1.6e-22%2C partial hit],MGA_411
sequence1	MetaGeneAnnotator	CDS	484469	485476	.	+	0	ID=MGA_412;product=glycosyltransferase family 9 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016467.1;translation=MKKILIIHTAFIGDIVLSTPLIKKIKQKYNNSEIYYLTTTVGGEIVKNNPMLKGVIVYDKKGKDKGLKGLIKIIRDIKNYNFDIAIIPHRYLRSTLIAFLAGIKERIGYSNSEGKLFLTKKIEYVKSVHEVKRLLNLIELSDFKDDKIELYPGKEDIKKVDEIWGKFELDNQKIVVIAPGSKWFTKMWPIEYYNLLLKKLEKLNIKVLLIGGKEEEKLNIIETSNTVNLIGKTKLLELVEIFKRSTVLVSNDSSPLHIAAATDIYIIAIFGATTKELGFYPWTKNYTIIENSNLDCRPCGLHGGNECKEGHFKCMKDISPDEVYDEIVERLERRI;locus_tag=LOCUS_04120;note=WP_011016467.1 glycosyltransferase family 9 protein (Fusobacterium nucleatum) [pid:45.1%25%2C q_cov:96.7%25%2C s_cov:94.7%25%2C Eval:1.3e-81],MGA_412
sequence1	MetaGeneAnnotator	CDS	485479	486462	.	+	0	ID=MGA_413;product=glycosyltransferase family 9 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016469.1;translation=MRILVIRFSSIGDIILTTPVLKKLREKYPNAKIDFLTLDKFKDSISGNKNIDNLILFDKEKYKGINGIYNFSKKYSGQYDIIIDLHSKIRSKLVSKFIGGKVYRYKKRRLWKTILVKLRLIKYKVDNTIVKNYFGALKELDINYEKENLEFNFLENDLKKVEIYNNFIVFATGASKNTKKWPKEYFGELGKILVKEFGKNIILIGSSKEFEENEQIREMVGNKAINLSGKLTLKESGALISKSDFIITNDSGPFHIARGVNSNSFVIFGPTDPNMFEFNKNEVLIYGDEDCSPCSLHGDRECPKGNFKCMMNLTPEDVWEIIKKNIG;locus_tag=LOCUS_04130;note=WP_011016469.1 glycosyltransferase family 9 protein (Fusobacterium nucleatum) [pid:56.3%25%2C q_cov:98.5%25%2C s_cov:97.6%25%2C Eval:3.2e-101],MGA_413
sequence1	MetaGeneAnnotator	CDS	486534	486713	.	-	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKCAVCGKGVSHGNQISHSHRVNKRIWKPNLQKATIILEGKKVTTHVCTKCLKTVARV;locus_tag=LOCUS_04140;note=WP_005898205.1 50S ribosomal protein L28 (Fusobacterium) [pid:48.2%25%2C q_cov:94.9%25%2C s_cov:65.9%25%2C Eval:2.5e-12%2C partial hit],MGA_414
sequence1	MetaGeneAnnotator	CDS	486950	487918	.	+	0	ID=MGA_415;product=ADP-glyceromanno-heptose 6-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015772.1;translation=MILVTGAAGFIGSSIVWELNNMGRDDIIVSDKFHKKDKWKNLIKRKFYDWVDREELFEWLEKNGKKIDIIIHMGANSATTEKDVDFLMKNNYEYTKRLFNFSLENGVRFIYASSAATYGGGENGYNDDEDKISKLQPLNPYGFSKQLFDLWELKQEDKPKQWVGLKFFNVYGPNEYHKDRMASVVYHAYNQAKENGVVKLFKSHKENYKNGEQLRDFVYIKDVTKVIKFFIENENYSGIYNLGTGQARSFYDLAKNTMNSMGIVENIKFIDMPVDIRDKYQYFTEANMDKLKSIGYKEEFYSLEKGIKDYVKNYLMNEDRYL;locus_tag=LOCUS_04150;gene=rfaD;EC_number=5.1.3.20;note=WP_011015772.1 ADP-glyceromanno-heptose 6-epimerase (Fusobacterium nucleatum) [pid:58.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-114],MGA_415
sequence1	MetaGeneAnnotator	CDS	488089	488892	.	+	0	ID=MGA_416;product=undecaprenyl-diphosphate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009905410.1;translation=MIFKAVLLGLVEGITEFLPVSSTGHMIIVDNFLKLSKNMEFTNAFEIIIQLGAILSVIVYFWKELWPFSGSDEEKKDKWIMWSKVVVAVLPAVVLGLKFDKLIESKLFNAKVVATMLILYGIILIVLEIKNSKKKSFKINSIKEMGFVTAIGIGFFQCLAMVPGTSRSAATIIGGMLLGLNRAIAAEFSFFLAIPTMFGATLLKIVKSGVNFTSSEWGIIGVGFVVSFIVALIVIRWFMDYIKNKDFKIFGYYRIILGIIVLLVLKK;locus_tag=LOCUS_04160;EC_number=3.6.1.27;note=WP_009905410.1 undecaprenyl-diphosphate phosphatase (Clostridioides difficile) [pid:52.9%25%2C q_cov:94.8%25%2C s_cov:92.0%25%2C Eval:2.2e-70],MGA_416
sequence1	MetaGeneAnnotator	CDS	488913	489950	.	+	0	ID=MGA_417;product=type IV pilus twitching motility protein PilT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173990.1;translation=MEIREILERAEELKASDIHIVAGKSPILRVHGELQDMDEERLMPSDCQTLIYSILSELQQKEFEESKELDFSFGIAGLGRYRVNVHMQRGTVAAAIRTIATDIPPLDKLGLPKSVEKFSDYKNGLVLVTGPTGSGKSTTLAAIINKINEEKSSHIITIEDPIEYLHRHKKSIVEQREVKSDTSSFATALKYALRQDPDVILIGELRDLETIEAALTAAETGHLVFGTLHTNDAAQTIDRIVDVFPTNQQPQIRILLSSVIKGVVSQQLIQTVDKKSRVLAAEVLVGTPAVSNLIREAKTHQIYSMIETGARFGMRSMDMSLKDLYERRLISYDDMVKRMRNPNFM;locus_tag=LOCUS_04170;note=WP_011173990.1 type IV pilus twitching motility protein PilT (Thermus thermophilus) [pid:53.6%25%2C q_cov:98.0%25%2C s_cov:93.6%25%2C Eval:9.4e-99],MGA_417
sequence1	MetaGeneAnnotator	CDS	489969	491180	.	+	0	ID=MGA_418;product=type II secretion system F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228203.1;translation=MPIYKYKARDRDGLAISGELEVDNEDMLAKKLDRMGYILTSVKETDSLLGKDIFESFRKVKSKNIVEFSVELSTLIEAGVPLLGGLEVLMEQIEDKLLKNIITQVHKDVSGGMSFSEALSKHKKTFPNLYVSMIRAGEATGELDTILKSLAIFLEVNENNRSKVKAAMMYPMAMFGVSFLVVIFLIVVVLPNFVEIFKSAGVKLPLPTRIVLGFSDILITKWIYIILLISGSIYGLVRYYKTDKGRYYIDLLKFKIPIFGNLTKKSEIAMFTRTFGTLIKSSVPILQALDIVKNTAKNKAISVVIENIRNSVRQGGSVSEQLEISGIFPKLVSKMVSVGEDSGALDKMLVKIADFYDTEVENSIKGLTSILEPVMIVGMGLVIGVIVLSVMLPMFDMMQVARR;locus_tag=LOCUS_04180;note=WP_011228203.1 type II secretion system F family protein (Thermus thermophilus) [pid:38.7%25%2C q_cov:98.8%25%2C s_cov:98.5%25%2C Eval:1.1e-75],MGA_418
sequence1	MetaGeneAnnotator	CDS	491252	491746	.	+	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKISKTGIGGSKSFLSKGSALKGSQKNSGASIAKNRVDIKQSPFVDTMNEVEISFAKEDLKESLEDIDKLGKELMENPSVKLLEEYKKNIKAFLKEALKKLYKVDTKVSISNLGRSKKVFINVEKVDKKLEEMTFKFLKQQGDAISLVDSIEEVKGLLYNVIG;locus_tag=LOCUS_04190;note=MGA_419
sequence1	MetaGeneAnnotator	CDS	491758	492345	.	+	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKKVVPYIIIRNCDNTPGCPVIEACPKRLFYYDFKLKKLLLENLDDCIGCGICEVECEHEAVELIEIANNKRIDELKDMDENYILEKSKNLINNYGGVLPKKIDNEKYKKITQKEISKNLNGLIFVYGKWQDESYIGYSILEELEDKFENIYLLNAEEFGKDSVEELPGFWIVKNGVIEGKYNINNIFYVVG;locus_tag=LOCUS_04200;note=MGA_420
sequence1	MetaGeneAnnotator	CDS	492396	493058	.	-	0	ID=MGA_421;product=Crp/Fnr family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903942.1;translation=MYKILTKSPLFKGLNEIEIEKVLNSVKFKIKSYEQYESINFRGDRYEELYIIISGSVIGEMLNHSGKVMIVENITAPFPIAPAFLFGNNNNLPINIVANEKLKLLVIPKSSILKMANLNEIFLRNYLNIVCNKASFLAKQLWNNTMNSSLKGKLADYLLTVSKNRAEFELPISLTKLSDFFGVPRPSLSRVFSSLVKDEIIEKIDRKKIKILDREKLLEI;locus_tag=LOCUS_04210;note=WP_005903942.1 Crp/Fnr family transcriptional regulator (Fusobacterium nucleatum) [pid:38.3%25%2C q_cov:89.1%25%2C s_cov:89.4%25%2C Eval:1.5e-33],MGA_421
sequence1	MetaGeneAnnotator	CDS	493358	494392	.	-	0	ID=MGA_422;product=ribonucleotide-diphosphate reductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897713.1;translation=MKRKKLFNPDGNDNLTERSIIKGNSTNLFNLNNTKYTWATKLYRVMMENFWIPEKVDLTIDGQDYKKLTAPEKKAYDGILSFLVFLDSIQTNNVPKVAEYITAPEITLILSIQTYQEAIHSQSYAYIIESIVPQENRDDIYEFWRDNEVLFNRISFIAEIYQEFHDNPNETTFFKALIADYLLEAVYFYNGFNFFYLLTSRNLMPGTADIIRYINRDELTHVVIFENMIKALKDEFPNIIDEKTVYDMFEMAAKQEIEWTNHIIGNEVLGITKKSTEEYTKYMVNFRLKSLGFKPLYDGYDKNPYAHLEKIADSEGNGDVKANFFESTVTSYNMSSVIEGWDDI;locus_tag=LOCUS_04220;EC_number=1.17.4.1;note=WP_005897713.1 ribonucleotide-diphosphate reductase subunit beta (Fusobacterium) [pid:65.9%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.0e-137],MGA_422
sequence1	MetaGeneAnnotator	CDS	494417	496681	.	-	0	ID=MGA_423;product=ribonucleoside-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016141.1;translation=MNVLNRSNIESQIDIKEIRKALKWACDGFEDINYLEIESQVNSIYHDKITTKEIQKSLIDISLNLTSIEMPKWRIVAARLLIWELYKEIQHQRKNDFFGYGNYYEFVKNSVERGFYDSKIMKIYTKEELETAGTFINPKYDLDFDYAGANMMINRYIIFDEDKPFEMPQELFLTVSLFIASVEKKENRLNLAKQVYNSIAGRKISLATPILINLRKNSGNLSSCFVTAIDDSLDSIFYNINSIAQISKNGGGVGVNLSRIRAKGSSIKKTPNASGGVVPWIKIINDTAVAVNQLGKRAGAVTPAIDIWHLDVEDFLDLQTENGDQRKKAYDIFPQLVVSDLFLKRVEKNEDWTLFDPHEVKTKTKIDLSILWGDKFEKAYINLEKNSELKLTKKISSKGFMKKIMKTMIETGMPYLFFKDRVNELNPNKHDGMVGSGNLCQESFSNFRPTEIKNISLNGDKIVQESKSGLIHTCNLVSLNLANIDNDDILKSSAKLAVRILDNTIDLTFSPIEESNLHNNIYRTIGVGAMGLADYLALKKSPYEKSQHIIDEIFEKIAYNVLEGSLELAKERGKYQKFDGSEWSKGILFGKDEKWFIENSDFSDKWVELIKDIKKYGIRNGQLIAIAPNTSSALIQGCTPSVLPIYSKFYIDKNSKGTVPICPPYIKENFWFYKENKNMDPKNVVKIISGIQKWVDQGISMELLFNLNLDIKAKDIYDTIMTAWKTGCKTIYYTRTIQKNGNISEKNECVSCAN;locus_tag=LOCUS_04230;EC_number=1.17.4.1;note=WP_011016141.1 ribonucleoside-diphosphate reductase subunit alpha (Fusobacterium nucleatum) [pid:54.6%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:8.5e-240],MGA_423
sequence1	MetaGeneAnnotator	CDS	497098	500817	.	+	0	ID=MGA_424;product=phosphoribosylformylglycinamidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964962.1;translation=MNNFRIFVEKKDEFRIESQSLLSDLKENLQIQSLNNLRLINIYEVFDISDEDLSKAKQFVFSEPATDIIFDSIDLSEENYFSTEYLPGQFDQRSDSAMQCLKLLIPENRSTIKSGKLIILEGNLSKEEIQKIKDYYINPVESREKDLSLDPIEEDINAPFEVEIHTNFINLTSEELESFRIQNGLAMSFKDIEFVQNYFKNEEKRDPSETEIKVLDTYWSDHCRHTTFETEIKNVIFPKGNFNEVLQNTYNEYLKSREFAHGSKKPMCLMDMATISAREQRKLGVLDDLEISDEVNACSVRIKVDVNGNKENWLLMFKNETHNHPTEIEPFGGASTCIGGAIRDPLSGRSYVYQAMRVTGAANINEKIENTIEGKLPQKVISKTAAHGYSSYGNQIGLSTSFVKEIFHEGYKAKRMEVGAVVGAVKEEYVRREKPLAGDIVIMLGGKTGRDGCGGATGSSKEHTTESLVTCSAEVQKGNAPEERKIQRLFRNPNVTKLIKKSNDFGAGGVAVAIGELSDGLIINLDKVPVKYLGLNGTELAISESQERMSVVVAKEDVQLFIKLAEEENIESVVVAEITEEARLIMKWKGKDIVNLSRAFLDTNGVRSETEVEIEEFEKIDIFKNKISGNSIKEKFLNNLSKDNVASQKGMVEMFDATIGATTVLMPYGGKYQLTETEASVQKIPYLNGETNTASIMSFGFNPNISSWSPFHGAAYAMVESISKIVAVGGKWQGIRFSFQEYFQRLGNNKKNWGKPFSALLGTLFVQKGFELPAIGGKDSMSGSFNDINVPPTLISFAVNTENADKIISNEFKKENNYIYLIKHNPTEDFMPNIEELKENYDYIYKNISEGNIISASTIKFGGVAEAVAKMSFGNKIGSQLDEQFVDNIFDLDYGSILVESKIELKYKNGLLIGKTTNSNFISIGNEKITLDEALEAWTKTYKKVYPSEVDLEKGRLEIKDYRKDINIISKPIEGKPKVFVPVFPGTNCEYDSINSFVKAGAIADSMVFRNQNSQQIIESINEMKSHIDSSQIIMLSGGFSAGDEPDGSGKFIANILTNNLIKDAIEKFLKRDGLILGICNGFQALIKSGLLPYGKIGEVNSESPTLAKNNINRHISKIVNTRITSNKSPWLNGIELGTIHSIPVSHGEGKFVANEKLLKSLFENGQVATQYVDFEGYPSMNGTFNPNGSYQAIEGITSLDGRILGKMGHSERVGTNVHKNIYGEKEQGLFINGVKYFK;locus_tag=LOCUS_04240;EC_number=6.3.5.3;note=WP_010964962.1 phosphoribosylformylglycinamidine synthase (Clostridium) [pid:54.9%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_424
sequence1	MetaGeneAnnotator	CDS	501081	502265	.	+	0	ID=MGA_425;product=four-carbon acid sugar kinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016239.1;translation=MKISIISDDFTGANDVGIQVKEYGVKVCSTININKNSCDVNVISTETRNAKEEEAYNKIKKTFIKLKSNGFDKFYKKIDSTLRGNIKSEIDAILENLEDEEQICLVAAFPKMGRKILNGIHYLWDEPLIKTEFAKDPVAPVKDGNLLSRIGNKKKELIKHFKLDDIRSEGFAKEIRESKNKILIFDSEVEEDLEKISKILVNEKKDKYVVGSAGAIEYLMKYWGYKKSKVLIVSGSCSNKSIKQINYFEIKYKNSLDIINLDVFKRENLKLDLKKDILIKSLRKREEMDYVLEKYKINGIDKKEATNIISDYIAKETIKIVKKYNITKIIILGGETSLKIIKSLNINGLEIRFKIDTGVVISESFNKKYMIITKPGAFGEEDVLERGYNVLKSV;locus_tag=LOCUS_04250;note=WP_011016239.1 four-carbon acid sugar kinase family protein (Fusobacterium nucleatum) [pid:28.7%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:1.3e-33],MGA_425
sequence1	MetaGeneAnnotator	CDS	502386	502871	.	+	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRAVVAALLVVLFSYSYSGISQETFNNISSRLLEMKSDLKVDLHKKNYGNEVVGTFELKGDKIKLSSFMLPVKGRKNQKNYNITEERDLNSFKLLSSNQLLPKYSYGKEKNMLLKDIAKTTGKGLAVLLGLLFGMKMFFSKKKKKRKSRKTEEKKSKKAA;locus_tag=LOCUS_04260;note=MGA_426
sequence1	MetaGeneAnnotator	CDS	502925	505369	.	-	0	ID=MGA_427;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626185.1;translation=MEFIKDYNKTAIVYGDLKINYSELTNFINEYSKLTKLSTDEKAIIFMENRPEWIYSFFSIWNCKGVSIPVDFNSNEKELEYVMNDSNAKTIFVSNSSLAKAEKFKDKLNIINVDELNIEKKSNFINIKTPKLDNTAMILYTSGTTGDPKGVMLTVNNFKFLMNSLIKDKMFEKEDTFLALLPLHHILPLAGTLLGPIYVGATIVFSKSLASTDILEALQKNRVTIFIGVPRLLELFHNSIMKKIDESFIAKSMFNLAKNINSIKIRKKIFSKVHDNFGGNIKIMVSGGAKIDKTVAQDFYTLGFPLTEGYGMTETCPIMSYNRRNNIKIGSVGQPVIGSSIKIVDGEIYYKGNNTMKGYYNKPEATKNTITEDGWIKTGDLGYIDKENFIFITGRKKEMIVLPNGKNINPEDIEKKILKISDFIKEIGVIEKNNILHAIIFPDFGKLVQNGVTNINETIKWKIIDKYNQDAPNYKKILKFDIVQEELPKTRLGKIRRFQLESFLNKFIKRDDNIEIKEPESEYYKLLKEYIKENKNIEPFPQNHLELDLGLDSLDIVELQVFIETSFGIKMEQDEIFDNPTLEKLYLYIEGKQGEITNTTVNWGNILKNTPNYDLPKNPFLLFATKWLSMPILKLYFRLKNKNIKNIPTDKQFVLIANHQSFLDGFILVGSLPDKILKNTYFVSKSNYFKSKFMIFFKDHSNIIPIDVNKGLKETLQSLASILKAGKNVVIFPEGTRTNDGSIKEYKKSFAILSKELDIPVVITKIDGAYKAYPRGIIIPRPGNISFNYVDTVYPKDLTIEEIVNISREKTIKY;locus_tag=LOCUS_04270;note=WP_201626185.1 AMP-binding protein (Fusobacterium canifelinum) [pid:43.8%25%2C q_cov:98.9%25%2C s_cov:98.5%25%2C Eval:5.3e-195],MGA_427
sequence1	MetaGeneAnnotator	CDS	505557	506282	.	+	0	ID=MGA_428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNINSLNSTQIDTLLKSTELKGGDKSSNNEKEDISNFTKKDFLDISNQIDIINQQNSKVNKKYSDLEKKLGIDSNKWGVDAVSDDIFNFAKIVYDKYKINHSEEESQKVLDDFYNLAKKSITQGYNEAKDFLGAVSEDVAALGKATYDRTIEKLDNWYKNGGVESTDKTEENKTENSETNKIKNKNTEETKKTYEDYDKKTKQMLKESEIIKNQVVELLKQSGLYAKETETKKSTIDYEG;locus_tag=LOCUS_04280;note=MGA_428
sequence1	Aragorn:1.2.38	tRNA	506483	506569	.	+	.	ID=Aragorn_19;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_19
sequence1	MetaGeneAnnotator	CDS	506885	507466	.	+	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEGKRELIMDIAEEILIKANYKSMTTLQIAKIGKISEATLYKYFKGKKYIFLSVLERFYDNIYNNFFEGVNSGNTISKNFYFIGENLYNMLKNENMSYKIVYKAYSEIDDEKIKEVLKRIFNEILSGIREVINWGIEKHEIDIKEIDAEILAMSMWGVIDSILRKHIVDDECDMESDYFLNLGAIFFNLLIK;locus_tag=LOCUS_04290;note=WP_000794361.1 TetR/AcrR family transcriptional regulator (Streptococcus) [pid:23.1%25%2C q_cov:69.4%25%2C s_cov:64.9%25%2C Eval:3.2e-07%2C partial hit],MGA_429
sequence1	MetaGeneAnnotator	CDS	507588	508838	.	+	0	ID=MGA_430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINLLVIVILLVIVGGCFSSENININDGTITLNEKIEVAKEEVELKIEGIVEGKYYIETIGDVYCNIYNETGEEISGLNLMNTLKSGYYIKTHNSGTIEIKSKEYVPLIELNEIKTVSGNKLFKIREGVSEDQYYIETTKDVCYGIYDESGDRVDFNLMDKLKPGYYIKTYNSGTIEIKSKDYTPLIGLNEIKTVSGDKLFKISEGISEGQYYIETTKDVIYGIYDESGNRVDSNLMDKLKSGYYIKIYNSGTIEIKSKDYTPLIGLNEIKTVSGKKSFKIREGVSEEQYYIETTKDVGYEIYDESGDRVDSNLMDKLKSGYYIKTYNSGTIEIKSKEYTPLIGLNEIKTVSGKKSFKIREGVSEEQYYIETTKDVFYEIYDESGNRVESAMNILKSGYYIKTYNSGTIEIKER;locus_tag=LOCUS_04300;note=MGA_430
sequence1	MetaGeneAnnotator	CDS	509259	509984	.	+	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVIIGLLMVFFLVVETFAATGESYLNKYMMMAVKKGDIATIRLLKEKGANLNIKDRKGNSLLMLSIYLGYDDIFEYLVKNGANYLLTDNSGRSPLILSIYLDRGNMINYMLDSGLLEGLNIKDISGKTALMIAVAKGDKKLVTKLLKLGANPNEKDKLGRTPLAEAMDLNLPEITKILLENQGKANHSIDKERDLLRYATFSGDAGIIRNMLAEKRETTESDSKYAIVIIERNIFLKKY;locus_tag=LOCUS_04310;note=WP_003091630.1 ankyrin repeat domain-containing protein (Pseudomonas) [pid:30.8%25%2C q_cov:60.2%25%2C s_cov:83.6%25%2C Eval:6.1e-10%2C partial hit],MGA_431
sequence1	MetaGeneAnnotator	CDS	510024	510878	.	+	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNSINLIVIICIFVIINLVIYPVDTPKKIKSIEKYKVINGENIRKEIDDYLEKAFKDIEGEYKKIDELKLETENYLEKAKQDAQNARRERQLAEKERISLQEERKKAEEERIKAEEERLKAERERIKIEEEKRMFDVRKKENIIYEYNDYKMQKYINKIISRMVTNPNIIKDVIKYFEEGKIVESEAKVIVLNKLKEILKENRGKEINPKAEREYQSYLQWKTVKNNLINIIERKDFDIKKLKDAINYIKNDVDVEYKKNIENIMEEELKQLKIEKNIGEKK;locus_tag=LOCUS_04320;note=MGA_432
sequence1	MetaGeneAnnotator	CDS	510946	511944	.	-	0	ID=MGA_433;product=tRNA epoxyqueuosine(34) reductase QueG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948017.1;translation=MLNKILSNYNIDVYGITNITDFSYLKNIFNSKLADNHIVEFDEKDFNKRSNLNNIFPNIKSIISIAFPYNNGNIPEYKEYKISKYALRLDYHHVANNILEKIIIELKNIYPNNKFEIYVDSNPLFEKEIAKNSGIGLYGKNSLIYTKKYGSFIFLGEILTDLELAPTELSEEFNLLCNKCNLCKTSCPNSAILGDFKLEATKCIAYLTTTKNNISPELIYNNYWGCDICQDVCPMNKNISSSPIKEFKILNNLYISIEKILFMSNKKLKKFYSNTPIGWTGANTLKRNALIIIGNSNNKKYIDLLEKFIKSNNNEILLKYAKISLEKLNRTI;locus_tag=LOCUS_04330;gene=queG;EC_number=1.17.99.6;note=WP_011948017.1 tRNA epoxyqueuosine(34) reductase QueG (Clostridium botulinum) [pid:35.8%25%2C q_cov:91.6%25%2C s_cov:92.2%25%2C Eval:6.9e-43],MGA_433
sequence1	MetaGeneAnnotator	CDS	512095	513069	.	-	0	ID=MGA_434;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016366.1;translation=MRSLSGIQPSGTLHIGNYFGAIKQFIDFQSKYDGFYFIADYHALTSHPSPAQLTKNTYDVVLDYLAFGLDPEKSTLFLQSDVPEVTELTWILSNVTPIALLERAHSYKDKVAKGIAANHGLFTYPILMASDILIYNSDIVPVGKDQKQHVEMARDIAIKFNSIYGDIFKLPKELIKDTMAVVPGIDGQKMSKSYNNTIEMFAPKKSLKKQIMKIVTDSTPLEEPKNPDICNVFALYKLFATETQLEEMRRKYLGGNYGYGHAKKELLEIILEYFKPYRERREELVNNMDYVKKVLKDGAEKARSVATEKIIEVKKAVGLVGNIY;locus_tag=LOCUS_04340;gene=trpS;EC_number=6.1.1.2;note=WP_011016366.1 tryptophan--tRNA ligase (Fusobacterium nucleatum) [pid:69.4%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:8.8e-128],MGA_434
sequence1	MetaGeneAnnotator	CDS	513269	514561	.	+	0	ID=MGA_435;product=glucose-1-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258382.1;translation=MGKKTVALILAGGAGTRLDILSKHRAKPAVPFGGKYRIIDFALSNCVNSGIYTVGILTQYLPRSLSEHIGIGRPWDLDRSFGGVTLLPPYQRSEGDWYNGTANSVYQNLNYVMDHKSKNTLILAGDHIYKMNYQKMIRNHEKTGADLTVAVKEVPMENTSQFGILEVDSENKIIEFQEKPKEAKSNLASMGIYIFKTELLKELLLKYCGPNGGEDFGKHIIPKMIGEYKVFAYKFKGYWRDVGTIEEYWKANIELVSDYPPVDLYEEDFKIHTKSEELPPVKFGKEGSAVRSLISNGCRINGKVENSVISPGVVVEKGAVVRNSIIFNGTIINKDTIIDRSIIDKKVVIGKNCRIGIGTDYTPNKEISEKLYSGINLIGKFACVPDSTYIERNCRIMSRVEESEYKSNRVRSGGNIHSEKEGGIFDMFLI;locus_tag=LOCUS_04350;EC_number=2.7.7.27;note=WP_012258382.1 glucose-1-phosphate adenylyltransferase (Chloroflexus aurantiacus) [pid:51.2%25%2C q_cov:96.0%25%2C s_cov:99.8%25%2C Eval:3.8e-119],MGA_435
sequence1	MetaGeneAnnotator	CDS	514865	515824	.	+	0	ID=MGA_436;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903111.1;translation=MLKYVVGIDVGGTNIKAGILKNNGEILKTYSIKTEAFNGAEDVLNRIKNLVEKMLDENNVYKADVLGIGMGIPGPVNTDTGVVNFCANMVGWENFPAAEKLEKLTGLKVKVGNDVNVITLGEDWLGAAKGYKNVLGITLGTGIGGGIILNGHLISGTNGAAGEIGHMKVIEDGKLCGCGQKGCWEAYASATGLEREAVSRLRVNRDTLIWEVVNGNFSKVNAKVIFDAAKKGDKFALDLVDYEVKYLSIGLSNLINILNPEIVVIGGGVSLAGDILFNKLNKALEKDTLKVSLDAVKIVPAKLGNSAGLVGAAALIVLG;locus_tag=LOCUS_04360;note=WP_005903111.1 ROK family protein (Fusobacterium nucleatum) [pid:44.4%25%2C q_cov:95.3%25%2C s_cov:96.2%25%2C Eval:6.1e-73],MGA_436
sequence1	MetaGeneAnnotator	CDS	516447	517301	.	+	0	ID=MGA_437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKVVDELQKFNLSKIEATVYLTLVRYSGLNGSQISKLLNANRGSVYSALNSLYDKGAVYLMPGEKKVYKAKKPEIFIENLKNKYIEDYKNSAEVLKDEFSKFESVKTQEQEYWNIKGQNNFILKAKELLFSAQEEIYINTNYNLRAFSEEFKELNSRGVKIIMFSPEKIETEFKFIELYSLGQEPDVINKKMMLVVDDSVALIMSGKATGEFIGTFTSNKYLVEIVSEHIHYDIYMLKIGQKFGSSLFKDIKLKTHHEENFINKIIDGVKNAEKNKKKLKLKK;locus_tag=LOCUS_04370;note=MGA_437
sequence1	MetaGeneAnnotator	CDS	517402	518481	.	+	0	ID=MGA_438;product=D-xylose ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002209591.1;translation=MKKSILMGVLAVFLIGVFGVEAQGGVFDFLFKKKANNGAVKIGFLLKTMQEERYQKDKRYFIEKIKALDPKVEVVFDSANNDEQAQMAKFENMLAKGVKVIVLQPVNTGTAGNMVKKAHEEGVKVVGYDSMLVNGPLDVHITQDSWAVGKLQGEAMVEWLKAKKGSVTGNVALIMGQPGDSNAAAMSSGALTIINENPGLKLVAKQSHEGWAPDKAMATAENVLAKYNNNVDAFICNNSGMARGVIAALKAQGLADASKVFVAGSDADLPNLRYVAQGVQAVEIFKAVKPLAETAAEVAYKLAMNPKGSVESTIKYDKKINNGYMDVPVIVTPVYRITKDNLDVVEKSGFHTHAEIFGK;locus_tag=LOCUS_04380;gene=xylF;note=WP_002209591.1 D-xylose ABC transporter substrate-binding protein (Yersinia pseudotuberculosis complex) [pid:35.8%25%2C q_cov:91.4%25%2C s_cov:95.5%25%2C Eval:6.3e-53],MGA_438
sequence1	MetaGeneAnnotator	CDS	518644	520188	.	+	0	ID=MGA_439;product=xylose ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393517.1;translation=MSEVVLQMKNIIKDFPGVRALDKVNFEASKGEVLVLAGENGAGKSTLMKVLSGVWAYPSYEGDIYLKGQLVRFKNTKEAEAAGVAIIHQELNLIQDLTVAENVFLGRQPGKFGTVNWNEVNSRAEEILERLNIKGIKASDKVGSLTVGQQQMVEIAKALSINAEVLVFDEPTSALTTRETKELFRVINDLKKRDVCMIYISHKMDEFEIVGDRVQVLRDGQTIGEATKIKDTTLDEIITKMVGRDIKDMFPKVESKIGGKVLEVKNYDVDHTYLPGEKKVKNANFEVHAGEVVGMAGLMGAGRTELVTAIFGGTPELGRGEVYLDGKKLNIKSPKDAIEAGIALVTEDRKLFGLFLDKDIMFNTTTSSRTLGNISNSLGMINFLEARKITEKYVKEINVKTPGIDVPISNLSGGNQQKVIIGKWLATKPKVLILDEPTRGIDVGAKVEIYKLINKLAAEGVAIIMISSELPEVMGMSDRILVMTEGEIVANIKREEVTKEKVMAYATGNFREEM;locus_tag=LOCUS_04390;note=WP_011393517.1 xylose ABC transporter ATP-binding protein (Moorella thermoacetica) [pid:51.7%25%2C q_cov:98.8%25%2C s_cov:99.6%25%2C Eval:2.0e-141],MGA_439
sequence1	MetaGeneAnnotator	CDS	520190	521302	.	+	0	ID=MGA_440;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_208974840.1;translation=MKKFLKSNATLIALLVMWVILAGISDVFFTPRNLSNLTLQVTTIGIIAVGMTMVILLGGIDLSVGSLVGLSAIIVTLLMHHGVNVWLAIIIDILIVGVLVGLWNGFWIAKYKMPPFIVTLAMMTVARGTAMVLSNGSSVPVTDSVFPLIGGAFISKSLSSILLLIGVVFAIYGIMNGVKQKKKYNIKVNNGEIIYNIVLTILGFGFAFMVFEGYKGIPFAVAIFIAVVFAGVFILRKTKFGRNIYATGGNEEAARLSGINIFGVNLSVYTLIAILSAISGIILASRLNGASPNLGTMFELDAIASVAIGGTSLSGGSGTITGTIIGTLIIGTLNNGMSLMGISSFYQLIVKGLIILLAVWFDVASKKKKA;locus_tag=LOCUS_04400;gene=gguB;note=WP_208974840.1 sugar ABC transporter permease (Moorella) [pid:36.1%25%2C q_cov:98.4%25%2C s_cov:94.6%25%2C Eval:2.0e-57],MGA_440
sequence1	MetaGeneAnnotator	CDS	521451	522725	.	+	0	ID=MGA_441;product=glucose-1-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258382.1;translation=MEMLGIILAGGRGSRLDILSYHRAKPGVPFAGKFRIIDFALSNCVNSGIYDIAILTQYLPLSLNEHIGMGNPWDLDRKNAGVTLLQPYTGLSKKGWYMGTADAVLQNLRYLKRKNPKYTLILSGDHVYKMDYKKMLDFHKKNGASLTIASQRVPMEDAHRFGLLEYNDNMKIEAFKEKPENPTTNLASMGIYIFNTDVLIKKLEENRDIPELDFGKHIIPGMINEDEVYAYEFEGYWQDVGTYDSYWEANLALTESYEKIELDMYDKDWLIQTRSEEKPGVKFGINTKAVQSIICNGCIITGEVEKSVLGPGVVVEPGAVVKNSIIFNDTVIKKGAIIDRAIIDKEVVIGENCKIGYGDDMTPNEEKPKLLSSGLTVIAKGVKVPSNTIIGRNCRIFSKVKEEAFSSGNIKSGTTIEPLEKTED;locus_tag=LOCUS_04410;EC_number=2.7.7.27;note=WP_012258382.1 glucose-1-phosphate adenylyltransferase (Chloroflexus aurantiacus) [pid:52.0%25%2C q_cov:98.1%25%2C s_cov:100.0%25%2C Eval:1.1e-126],MGA_441
sequence1	MetaGeneAnnotator	CDS	522840	524255	.	+	0	ID=MGA_442;product=glycogen synthase GlgA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_042515450.1;translation=MKILYVASEVVPFIKTGGLADVAGALPKALKKLGNDVRVILPLYKQINEDYKKDMKVVAEFNMEFGGKQEKTIIKKIDNYDFPVYFLENSYFFERENLYENDDRDIQFSYFSKVVLEILDKIDFIPNVIHANDWQTGLISLILKKEYPQYKEIKTVYTIHNLRYQGFFENNISDYFNYEEIKDKKYLNFMKLGILNSDILNTVSKTYAKEIQTDYFGEGLNNILKSRAKDLYGIVNGIDMDYFNPATDKTIFKNYDSKSINDKYENKLGMQKEVGLKEDKNTPIIGLVSRLVPEKGLDLIVHVFDEILKDDVQFIVLGSGMDKYEDYFLDLQEKYPDKVRVKIGYDANFANKIYACSDMFLMPSLFEPCGLSQLISLRYGTLPIVRETGGLNDTVLSYNEDTDEGNGFSFTNINAHDMMYTIKRAIDFYKNRKDIWNKLLLRAMEGDYSWENSASEYMKLYEKLILENNKN;locus_tag=LOCUS_04420;gene=glgA;note=WP_042515450.1 glycogen synthase GlgA (Bacillus cereus group) [pid:49.8%25%2C q_cov:98.7%25%2C s_cov:99.8%25%2C Eval:7.5e-132],MGA_442
sequence1	MetaGeneAnnotator	CDS	524362	526659	.	+	0	ID=MGA_443;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948168.1;translation=MEKNIKLEKLKKSKKAKKKVKKVKKENRLRDKMATKFILFLSLIIIVVMATMSVSITGIFNNFAKNTIEGQLMDKILDEAKSTYLANEEGRKGLYTKLMNNKRNNLESLNSLVKGTINNYVEEEKNGILTHEEAINRTKEIIRNMRYGKNGYYFIYDTNGTRILLPTAPETEGKNYIDLKDKKGKFLIKEIIEKTTQGDKIGKSGVVEYYWNKPKFPTAQFKKLSVCFYIPEWNWVVGTGIYLDDVNDELNRYQHENFNKLRTLMLAKPFYGKNNYPMVITENGNILVTKKETLLNTYIEKDGKTGVPILDLMKKQDSGVIRYFYGKEGYKILKYEKIGDKYFMVSVPEQELFAQSKAMVKSMIIITIIVIISIIFIVGVYFKFMIENRVAKILEKVQMAYKGDLTTRVNIKGKDEVGRIGKVVDDFIVTMEKIIINVKELSKVVYFDNKKITGEFNEIVVGSDNNKEDSLEGMEEMLLKTLDNVREQTAATEQSLASLEEISATTESVMEKAKDTINISKETVDETRIGKENINLLTNEMEKIQVSFLDLEGKTVELVDFSNNIESILSAISGVADQTNLLALNAAIEAARAGEAGKGFAVVASEIRKLAEVTGKEAEKIADITVKIKDKVKDTQNAANNSVEMVKYGVDYAENVEKVVENIFEKANGTNEKVAEIVTSMEEQALASNEIMKAVQNITDNSAGIESFSSDTYEIAKKSVEKIKSELITIEKLKDMSKRLYDDTEKIKTDKISDINESKGIKTKS;locus_tag=LOCUS_04430;note=WP_011948168.1 methyl-accepting chemotaxis protein (Clostridium botulinum) [pid:23.0%25%2C q_cov:92.8%25%2C s_cov:98.2%25%2C Eval:2.3e-38],MGA_443
sequence1	MetaGeneAnnotator	CDS	526894	528303	.	-	0	ID=MGA_444;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582893.1;translation=MKKFDAIVIGMGPAGMAVSAMGAAMGLDILAVEKRKVGGECLNCGCIPSKALLKAGEANQIAQNLKKYGINAKVFTDTKETLGIVREKVGRINGKKMMKAFEKVTLLLNEGSAEFVNKNTIKVNGKEYSAKKIFIGTGTEPFIPPIPGVETLTEQNMLTNLNIFEQENIPATLTIIGGGAIGTEMAQAFSRLGSKINLIQMDEHLLPAGDKDAGILLEKKFKKENIGVYNSTKIEKIEVKDNIIYTHTSNGVFEAEKILIATGRKPVLEELKLENAGIKYNRKGILIDEYMRTNIKNIYAIGDCNGYALLSHAAMHQGMLALMNAINPLPLKFKRSKYFVPWSVFTKPEVAQVGLTEKAAKNKNLKYIVIKKDFSSYGRTVADGQPDGFIKVITNKKGKIYGVTIIGEAASEMIHEWILAIQKNLTMFDILMTQHSFPTISMLNKMVAEDWMMEKMNSTFLQKVIKFFI;locus_tag=LOCUS_04440;gene=lpdA;EC_number=1.8.1.4;note=WP_012582893.1 dihydrolipoyl dehydrogenase (Dictyoglomus turgidum) [pid:36.0%25%2C q_cov:93.8%25%2C s_cov:95.2%25%2C Eval:1.8e-69],MGA_444
sequence1	Barrnap:0.8	rRNA	528953	530468	.	+	.	ID=Barrnap_5;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00050;note=Barrnap_5
sequence1	Barrnap:0.8	rRNA	530577	533512	.	+	.	ID=Barrnap_6;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00060;note=Barrnap_6
sequence1	Barrnap:0.8	rRNA	533657	533764	.	+	.	ID=Barrnap_7;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00070;note=Barrnap_7
sequence1	Aragorn:1.2.38	tRNA	533792	533867	.	+	.	ID=Aragorn_20;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_20
sequence1	MetaGeneAnnotator	CDS	534058	534906	.	+	0	ID=MGA_445;product=pantoate--beta-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080408.1;translation=MEILKEINVVKEVIKKIKSNNQSIGFVPTMGYLHEGHLSLLKKAKEKSDVLFLSIFVNPIQFGPNEDLDKYPRDLERDVELAKKAGVDYIFFPNELKMYPPGYSTYVMVEKFTEGLCGAKRLGHFKGVSTIVLKLFNIIRPDIAVFGKKDAQQLRVIEKMVEDLNLDIEILGGEIVREKDGLALSSRNKYLTLEERKEAVVLNKSLELAELLIYKGEKNSNVIIEKVEEFINSNSNFGKIDYVEIVDYKNFEKISELSGEILIAIAVYIGNTRLIDNRILNL;locus_tag=LOCUS_04450;gene=panC;note=WP_004080408.1 pantoate--beta-alanine ligase (Thermotoga maritima) [pid:52.1%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:3.6e-79],MGA_445
sequence1	MetaGeneAnnotator	CDS	534924	536663	.	+	0	ID=MGA_446;product=phosphoenolpyruvate--protein phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048342.1;translation=MIKLKGNSIFEGVIIAKARMIKREIKEIKIHSISSEEIEYEIIRFETALDNVKNDLKHLIDSLNGKVKKADLKILNAHKMMLEDPVFLSDITTKIRIEKINAEKVIDLVVKKYAGMFRSLSDATYRQRAIDVEDVGEKLILALQGEKKNYKYLNNKILITKDLKPSDILRYHNEGIKILGIVTEIAGETSHSAILAKTLGIPTLMEVKNLDSYNWEKYGDVILDTRGTSEHLLINPDTEIKKWYIKELEELKLKNELLKKLIGKPAKTKDNKRIFLNANIGGVAEIEEINKYKPDGVGLLRTEFLYMDSNDFPTEDEQFEIYKKISEELGKDKYLTVRTLDIGADKKLKYFTIPEEENPALGLRAIRISLKYKDIFKTQLKAILRASNYGNIKIMYPMIASLDEILAANTILEEAKLELRNAKIGFDDNIKVGIMIEIPSIAILADFIVNEVDFFSVGTNDLTQYLLAADRLSHEVANVYTNYHPAVLRIINSVAEIAIKNGKKISICGEMGGESMGVLAFLSFGITEFSMLPSLIPKVKMLIQNIDEKALKGLKEKLLSSMTTEEIKRNLNDYILGVM;locus_tag=LOCUS_04460;gene=ptsP;EC_number=2.7.3.9;note=WP_012048342.1 phosphoenolpyruvate--protein phosphotransferase (Clostridium botulinum) [pid:41.0%25%2C q_cov:87.7%25%2C s_cov:93.5%25%2C Eval:4.1e-106],MGA_446
sequence1	MetaGeneAnnotator	CDS	536665	536934	.	+	0	ID=MGA_447;product=HPr family phosphocarrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904300.1;translation=MKKIEVKIRNKAGLHARPSALFVQTANEYLSDVMIKSGTEEVNGKSIMGLMLLAAEKGRKIEITADGEDEEKVLEALKKLVEEDKFGEE;locus_tag=LOCUS_04470;note=WP_005904300.1 HPr family phosphocarrier protein (Fusobacterium nucleatum) [pid:60.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-24],MGA_447
sequence1	MetaGeneAnnotator	CDS	536946	538280	.	+	0	ID=MGA_448;product=RNA polymerase factor sigma-54;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_170876203.1;translation=MKLLQTQKLEQKLMMTQDMRLSLEILQMSVLEIEELISNEEQENPLIEVENVEELDIDAENSDNEFEIEELYRDDDKYEEIKHSNERDKINIIEKTYSLEETVMDKYYSEIQSISNEEIKKNGYYILENLDDKGYYRSKINDEIDVIRKKIMHIDDFGIGAKNFEEFLIFQIENDFKFENSELLKEMIERNFQEIFRKKYKELKKIYNIEDLILEKIYKELEKYRPYPTFGLFWNNSNENIIIPEVVVEKENGVYEVYLKDKMFPDIKLNNEYYKELSKDKSAIQFLKEKAMKVRNLKRSIEQRNFTLYRVSKAIVDNQEIFFEKGMKYLKPMTLSEIGNELNLHESTISRVVNNKYMSTPRGVFELKFFFSGKVKTENREDVSIIGVQERIKEILEFEDKKKPFNDGEISQVLSQEGINVSSRTVKNYRENLGILPGYLRKGL;locus_tag=LOCUS_04480;gene=rpoN;note=WP_170876203.1 RNA polymerase factor sigma-54 (Clostridium botulinum) [pid:33.3%25%2C q_cov:97.5%25%2C s_cov:97.6%25%2C Eval:2.4e-63],MGA_448
sequence1	MetaGeneAnnotator	CDS	538284	539138	.	+	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVYADKLGFCFGVNEALTKIDTVIEKEKGKNIFMLGMIVHNKTVIDDLLEKGIKIINNNNNIENLNSNDIVIIRAHGVSKEIYKLLDEKRVKYYDATCIFVKRSREILVKKEKEGYQIIFIGDRDHPEVKGIVSFGKNVIIYKDFEDMKNNIKELNKKYFIIAQTTLNKNMYLDIIEYRKKYLLNSEIADTVCGATYERQKAVEKLAKIVDIVIIVGGHNSSNTKKLYNVSKNINKSSYHIERIEEIKKEWFENCETVGITAGASTPEKVIKQVEKYIKEAI;locus_tag=LOCUS_04490;note=WP_011015822.1 bifunctional 4-hydroxy-3-methylbut-2-enyl diphosphate reductase/30S ribosomal protein S1 (Fusobacterium nucleatum) [pid:45.8%25%2C q_cov:98.9%25%2C s_cov:34.1%25%2C Eval:7.1e-67%2C partial hit],frameshifted%2C insertion/deletion at around 539114,MGA_449
sequence1	MetaGeneAnnotator	CDS	539138	540724	.	+	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENVENFEELLEQYLPNIENGEVVKGHILRKDTDYGYMDIGAKGEAKVRVNEINNFEIGEDIEVVVTSKSEDRDGYLKVSRLAYDLEKNWAIINEKFESKEVLEGVVTKKVNGGYIVDIFKYKTFLPGSLSLFKDSEEVLNKKINVIIKDVKDGKRKKIIVSRKEAENRKIEEEMKSVNIGDIVKGNVKEILDFGIIVKIGNLSGLVHFSEISWKKGMKFKEKYSVGDEIEVKIIDINRSKKNLKLSIKQLTTDPWENIEEKYPVGKEVEGTVENIEKYGAFIEVEEGIEGLLHISDLSWGKKLGNIEKFIKIGDKVTVKIIELDKENKKIKLGLKQLTEDPWKSAGEKYTIGKVVDSKIESIQNYGLFVKLEEGVDAFVHIADIAWLNPSVKGYNKGDMVKVKILEFNEADKRIKAGIKQLEVNPWDEIFEKYKVGDRVKRKIKEISKFGLFVEIESGIDGMIHISQASKDFIKNLEENYKIGDEVEAEIIDLDKENKKIKLSIKKLELKRVKEEEKEMIEKYGTTE;locus_tag=LOCUS_04500;note=WP_011015822.1 bifunctional 4-hydroxy-3-methylbut-2-enyl diphosphate reductase/30S ribosomal protein S1 (Fusobacterium nucleatum) [pid:40.6%25%2C q_cov:99.6%25%2C s_cov:64.3%25%2C Eval:6.6e-124%2C partial hit],frameshifted%2C insertion/deletion at around 539117,MGA_450
sequence1	MetaGeneAnnotator	CDS	540799	541932	.	+	0	ID=MGA_451;product=UDP-4-amino-4%2C6-dideoxy-N-acetyl-beta-L-altrosamine transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869432.1;translation=MEKKYGYGKQWIFEEDINEVVKVLKSDFLTQGPKVEEFEKKIADYIGTKYAVVFSNGTAALHGAYFAGGLKKDDEVITTPITFLATSNAAIYLGGIPKFVDIDINSYNIDVNKIEEKITNKTKMIVPVSYGGYPVNILKIKDIAKKYNLIVIEDAAHALGATRNGIKVGKEADMTMFSFHPIKHITTGEGGVIVTDNKDYFEKLKIFRNHGIVKDKKKLINIGEEWYYEMQYLGYNYRMTDFQAALGVSQLKKIDNFVKRRREIANIYGEAFKNIDNIKLPPDSEKNKNVYHLYPILVDKRDELYRELKKVGINCQINYIPIYKQPYYKEKFEYNIDEFKNSELFYLKELSIPMYPKLKDEDINYIIEIIIEKIKKL;locus_tag=LOCUS_04510;gene=pseC;EC_number=2.6.1.92;note=WP_012869432.1 UDP-4-amino-4%2C6-dideoxy-N-acetyl-beta-L-altrosamine transaminase (Thermanaerovibrio acidaminovorans) [pid:47.5%25%2C q_cov:94.4%25%2C s_cov:95.2%25%2C Eval:6.7e-101],MGA_451
sequence1	MetaGeneAnnotator	CDS	541997	542599	.	+	0	ID=MGA_452;product=DUF445 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903191.1;translation=MLELLIMVFVGALIGWFTNYLAIKLLFKPYNEINILGFKLQGVIPKRQKEIAENISVTVNEHLISMKDIKNSVNSIEIENEIEKIVDKIVDEKLKSELLEKIPMVGMFLNDKILGKIKEYIKDVLEDNKEELLGMFLEKVEEKVDFKEIVREKIENFSLEEIEALVLGIAKEELKHIEIIGGILGAIIGLVQFFITRVII;locus_tag=LOCUS_04520;note=WP_005903191.1 DUF445 family protein (Fusobacterium nucleatum) [pid:40.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-43],MGA_452
sequence1	MetaGeneAnnotator	CDS	542656	544767	.	+	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKGIVTVEGSDNFGVFVYLDKTTNYDISDRDGKFELNGFKIGKTYNLIFQKEDYPEIKKKIKIDREINFIDIKIVKTQYKKVIKQKVLGKINSAIKKDIFINFVNKGYGIIVKPNKKFTEELEEGKYTAKIIQEGSKIKKIKFTVKNSKTNLGTMKLFPEKDTKRLELIFNQKIKHGYLYLYKDSLLVYSNKLINNRFLRINNLEKGSYNLEIRSLNYKLYSTEINLMKNNSLKINLNRLLDKDSIYLELFPENKKMEAKIYLNNIILEKVKNIKNLYSFTGLQKNKKYDIEISSPKYKKFISKGIRPGETLEVNLKRDIKGAILAGTVYPFNKKAKIMILDIDKREILAKTTSNENGNYEIELNKLDNSGRKMIRFYSDGFKELKRYISLKKGEYIKEYNVGLEPLKTSIKGEVTLKKEDKGEVLVIIKELNLWQYTKNKKYYFNNIPKGKYTLQFKKVGYLSVEKTINLKNKEEIKSNVKLVGIGKIVVTSNVKNYKLSINGKNYQSKEYVFNLDTGLGKKIIGISKSGYKIYQTKLTLENPNQVKMVKVNLIKKSDYVLGIKNRLLEIDKMIKESRIDSAELKIYELEHMNLNKEYMKKLNSRKVNLKKIKNRIFDSDRKIIKNIKNVKEEIDKMEKLDISYYEKRKRLEEKYKMSLEYLENIIKDNPHTTLRKKIYKLEGDIYKKLGMTQTAKIYYEK;locus_tag=LOCUS_04530;note=MGA_453
sequence1	MetaGeneAnnotator	CDS	544899	545921	.	+	0	ID=MGA_454;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903189.1;translation=MEERVLSTKEFYGEGDFQKSLRPKRFSEYIGQEKLKEKLGIFIEAAKKRGEPVDHILIYGAPGLGKTTLAGVIATEMGVNLKITSGPVLEKAGDLAAILTSLEENDVLFIDEIHRLNSAVEEILYPAMEDGELDIIIGKGPSARSIRIELPPFTLIGATTRAGLLTSPLRDRFGVVHRMEYYKMEELIKIIKRGSNILGVKVEERGALEIASRSRGTPRISNRFLKRVRDYAQIRGDGIITKRIADEALELLEVDKLGLDELDRGILKGIIEKYNGGPVGIETLSLLLGEDRRTLEEVYEPYLVKIGFIKRTNRGRVVTDLAYEHLGLEIAANRKNEKLF;locus_tag=LOCUS_04540;gene=ruvB;EC_number=3.6.4.12;note=WP_005903189.1 Holliday junction branch migration DNA helicase RuvB (Fusobacterium nucleatum) [pid:76.2%25%2C q_cov:95.0%25%2C s_cov:97.3%25%2C Eval:4.2e-136],MGA_454
sequence1	MetaGeneAnnotator	CDS	545946	547250	.	+	0	ID=MGA_455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKKEELKLFLKVLGGSFLLLFIFNFGEHMLLPMALMENKLILFFYTLVLSLILAGALYFITVKSLKLSKKVEENLVEMSNGNFNVEVEDFGKGKLAENVKKRIETVLYNISDVINKIKIIYNGVSTSKGEIFKSLDGFFEVISKLKDNLEEQNHIYMNVISNIEKTTGGIQEIAASANVAAETSQKTLELTTTTVELASMGMQNVEESLSKMGEIKENTDKTAESVAKLEELANQIGGIIASITKVSEQTNLLALNAAIEAARAGEAGKGFAVVAQEIRGLADESRKAADNISSIVEVIQGQTKQAVEKMTKTSEVVTQGSEISISVGDSLNTILDSVSQINNMMHDVAAGSQEQSANTHEIAEQMDKITGLVNEELTNRKVVGEYVNQGKVSAEEIRNEMGVLEYKFEGLTNELTKLKTKDNGNNKEIKER;locus_tag=LOCUS_04550;note=WP_000878460.1 methyl-accepting chemotaxis protein (Bacillus) [pid:26.2%25%2C q_cov:87.3%25%2C s_cov:66.1%25%2C Eval:1.7e-37%2C partial hit],MGA_455
sequence1	MetaGeneAnnotator	CDS	547250	547681	.	+	0	ID=MGA_456;product=Rrf2 family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903188.1;translation=MKITTKTRYGIRALIHIAEETKVDGEKLIRIKDIAESQKITVQYLEQILYKLKKGKIIEGKRGPSGGYKIAIDPSNITMEEIFKILESDIKVINCNLSEDKCMGHDCATVYLWNKINSAIEDVLKNMTLNDLLKNHSLIMLGK;locus_tag=LOCUS_04560;note=WP_005903188.1 Rrf2 family transcriptional regulator (Fusobacterium nucleatum) [pid:48.2%25%2C q_cov:94.4%25%2C s_cov:95.8%25%2C Eval:2.0e-31],MGA_456
sequence1	MetaGeneAnnotator	CDS	547683	548387	.	+	0	ID=MGA_457;product=16S rRNA (uracil(1498)-N(3))-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016991.1;translation=MITVVIDKNNIEDNVVRIKEKSEINHLKNVLRGKVGAEVRLIDGEKEYFSKISDISKKEIKLEIYSENKEDNYSVERDITAAISIIKSDNMDLIIQKLTEIGIKKIVPIITNRVVVKLKKKKERWGKISKEALKQCRGIKFVEIEEPKLLKEFDFENYNRIIVPYEKEKENKIKNLEIKKDEKLLYFIGPEGGFEEEEILFLKEKGAETFTLGKRILRAETAAIVVGGILSNEF;locus_tag=LOCUS_04570;note=WP_011016991.1 16S rRNA (uracil(1498)-N(3))-methyltransferase (Fusobacterium nucleatum) [pid:45.6%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:4.9e-49],MGA_457
sequence1	MetaGeneAnnotator	CDS	548377	549699	.	+	0	ID=MGA_458;product=tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016990.1;translation=MNFKKKVAFFTLGCKVNQYETESIKKSFIERGYVEEKFENSADIYIVNSCTVTSIADRKTRNMLRRAKKINPKSTVVVTGCYAQTNSKDLEKIEEIDMIIGNDKKNKIVEIIEDSNEEVIVGNIFNENKYLELNFSTYREMTRAYIKIQDGCENFCSYCKIPFARGKNRSRKLENIIKEVKLLADSGYKEIILIGINLGAYGEDFEEKIKLEDVIEKVSRIDGIERIRLGSIYPDKISDRFIDILKNNKKLMNHLHISLQSGDDKVLNLMKRKYNAKEAIDVLKKIKREIPEIAFSGDVIVGFPQEEEKNFENTYNFIKEIGFSDLHIFPYSDRENSLATSFTGKISSLKKKERAKKLEELREKMFLEFREKYIGKEVDVLIEKIDNVKNIAEGYTKNYLKVEIEANNVNDSFKVNDIVKTKIKKIKKGMLIGGPKKEED;locus_tag=LOCUS_04580;gene=mtaB;note=WP_011016990.1 tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB (Fusobacterium nucleatum) [pid:57.7%25%2C q_cov:92.5%25%2C s_cov:93.8%25%2C Eval:9.0e-132],MGA_458
sequence1	MetaGeneAnnotator	CDS	549674	550654	.	+	0	ID=MGA_459;product=LytR C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903185.1;translation=MVRKKRKIKPRFFIILSILSGIVFYFLFLDEPLKIKKVHNIITTDNFILIKNNELYLVYDKKIGFKLPKDTIFSKTEEINKLIKRKEYRKLLLEINYFLPEKLDDYFILNEYNMKNIDIKNIPRIKIGDKLYFDSYSFSKILNGHSSNTVNLKNKNIIVDVLNGNGKSGYAKKIGELLKKKLGYRYNPANYEKYTEYSYIINKNLSKDELEKIAINLPEKYIKKMKNYSVDTLANSIVILGREKKIGFSIWIYTNKILDRKYYNKLKEKKYVRVHRSKKNRKIIKTYLEYNSEDYFTAYKMGKVLGVDNLVENNNIKNKINIYVEE;locus_tag=LOCUS_04590;note=WP_005903185.1 LytR C-terminal domain-containing protein (Fusobacterium nucleatum) [pid:35.7%25%2C q_cov:92.9%25%2C s_cov:92.0%25%2C Eval:1.5e-50],MGA_459
sequence1	MetaGeneAnnotator	CDS	550660	550995	.	+	0	ID=MGA_460;product=ribosome silencing factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674576.1;translation=MNDKLKAIVEGIESKKGKDAVVLDLAGKNSVAEYFVICTGSSEPNLKAIVDEVEDKMEGLKETRLRIEGYNEGKWAILDYGDIMVHVFLEETRKFYNLENLWNQSEILYRG;locus_tag=LOCUS_04600;gene=rsfS;note=WP_011674576.1 ribosome silencing factor (Lacticaseibacillus paracasei) [pid:44.2%25%2C q_cov:93.7%25%2C s_cov:87.4%25%2C Eval:3.0e-21],MGA_460
sequence1	MetaGeneAnnotator	CDS	550999	551421	.	+	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAIFYPIIILMIFIEMSIYVDFPYFALGLTFIGYLTYKEGKRAIIYSMIIAFFTDFSSYGIIFFMFYTFLLYQIYKHINFTRINIVIVSILEILLYFLYLGIFKMNTFDILIIIKEFIFVFIYNSLFFELEKLDAFKKK;locus_tag=LOCUS_04610;note=MGA_461
sequence1	MetaGeneAnnotator	CDS	551529	553268	.	+	0	ID=MGA_462;product=penicillin-binding protein 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903183.1;translation=MKLNRENDTRVYIFIGFVILFFTILLIRLFFMQVVEWKYYKKLSKNNRTKIREIEAPRGKIYDRNGKLLVTNVAGYKLVYLNKRKYTPEILKKIGEILNRSQKQIIKLIKNGYIYGYTGENVLVEDLNRNIALKLMENIDNFPYLDVITYPKRKYLYNDLASHVLGYIRSINTKEFDKLRKLGYNQGDKIGKKGIEKKYENLLKGKNGLEYIEVNALNKLVNRLDTNVATPGKDLKLSIDIELEKDMSNYLKGKKAAFIAMEAKTGRIITFVSSPGYDLNKFTGKMTQKEWNSILKNPNRPLENRGSVGTYPPGSIFKPIVAMAVLNSGISPDKTIFDPGYYKIGKWRWNDWKLSGHGIVNLEDAIVHSCDTYFYTMGDKIGYKKIVDMSKQFGIGRKTGIDIPEERAGNLPDEKWKRRVVNEPWYGGDTINLSIGQGYLTTTPLQMLEAYDILANKGVGYKPHFVEEIDGKEVKKVIKYKVNLKKEYFDIINLALRKVVKEGTAANINMKNIEIAGKTGSAENSHYKITHAWFAGFAPYDNPEIVFVSFIEGGGHGGSHAAPAAKEFVKKYFENRMVK;locus_tag=LOCUS_04620;gene=mrdA;EC_number=3.4.16.4;note=WP_005903183.1 penicillin-binding protein 2 (Fusobacterium nucleatum) [pid:43.4%25%2C q_cov:95.5%25%2C s_cov:86.1%25%2C Eval:7.1e-135],MGA_462
sequence1	MetaGeneAnnotator	CDS	553269	553826	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKGVKEGISIEINNYNEDIKELKDKLKNKDFLGEDVDFILRRKDKKYFREIYDLVNEYGYDAYILKDEEEKEEVEEEKTLIVKKTVRSGTRIEFDGNIVIVGDVNPGSEIFADGDVYIYGRARGIIHAGRKGDITRRILALGMEVNQIRIGNIYAKGDGGLKKGVSETAYVEDGRIVLQEYKWI;locus_tag=LOCUS_04630;note=WP_011228504.1 septum site-determining protein MinC (Thermus thermophilus) [pid:41.5%25%2C q_cov:56.8%25%2C s_cov:59.2%25%2C Eval:1.4e-17%2C partial hit],MGA_463
sequence1	MetaGeneAnnotator	CDS	553838	554605	.	+	0	ID=MGA_464;product=4-hydroxy-tetrahydrodipicolinate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583509.1;translation=MLKVGVIGALGKMGQETIKAVSNEDEMKVVAALDVVKTGEEIKIGENSYKISDSIEKASKNVDVFIDFTGPKSVKENAKQIIGLGKNLIIGATGILEAEINELRVLALENKVNVMIIPNFAIGAVLMMEFSKRAAKYFNEVEILEYHHPYKLDAPSGTAIKTAKLIQETKESREKLKGKEIIEGARGANVGDINIHSIRLNGFVASQEVIFGGAGQTLKIRHDSINRESFMPGVILALKNINEIEGVIYGMEAIL;locus_tag=LOCUS_04640;gene=dapB;EC_number=1.17.1.8;note=WP_012583509.1 4-hydroxy-tetrahydrodipicolinate reductase (Dictyoglomus turgidum) [pid:43.0%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:5.6e-57],MGA_464
sequence1	MetaGeneAnnotator	CDS	554583	556274	.	+	0	ID=MGA_465;product=ribonuclease J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896361.1;translation=MEWKPFYNNNKEGKLYVIPLGGIGEIGKNMTLIQYKDEIISIDVGLTFPGEDMLGIDLVIPDFNYVIKNSSKLKGIVLTHGHEDHIGALPYLYKEIPADIPMYGSKLTLALAKEKFERFDENVKHNFKEVKGRDKVKIGKYFEAEFIKTTHSISDTFAIAIHTPIGTIVHTGDFKIDLTPINNESTDFFKLAELGEKGVLFLMSDSTNAEREGYTMSERSVGEALQQECEKAKGRIVVAAFASHIHRLQQIIEVATNLGRKIAIDGRSMIRVVELASRLGYLKIEDNVLIDLKSVDNYKDEEIVLLCTGTQGEPMAALSRIANRTHKHINIKEGDTVIISATPIPGNEKAVYKTINRLIKNNAEVIYEKISGIHVSGHGSQDELKLMLNLVKPKFFMPVHGEYKHLKKHKDMALAVGIPEENIIISENGLKIEITKNNAKISGKVPSGITLIDGLGIGDIGNIVLRDRQHLAQDGIVIVVITISKKDGEILAGPDIITRGFVYARESGDLIRGTESLIKEELSKYKKVTEWAVLKSAVRDITRGYLYEQTKRNPIILPIIMEV;locus_tag=LOCUS_04650;note=WP_005896361.1 ribonuclease J (Fusobacterium nucleatum) [pid:56.1%25%2C q_cov:97.7%25%2C s_cov:87.6%25%2C Eval:1.6e-184],MGA_465
sequence1	MetaGeneAnnotator	CDS	556276	556581	.	+	0	ID=MGA_466;product=ribosome assembly RNA-binding protein YhbY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016989.1;translation=MKITSKRRAYLRKLANKEVAIIRVGKDGISENLIEALNKALTARELVKIKVLNNSEEDIKKVGYEIAEKVKAELIHILGKTAVFFRENEEKPIISTELKGI;locus_tag=LOCUS_04660;gene=yhbY;note=WP_011016989.1 ribosome assembly RNA-binding protein YhbY (Fusobacterium nucleatum) [pid:38.4%25%2C q_cov:98.0%25%2C s_cov:100.0%25%2C Eval:4.3e-17],MGA_466
sequence1	MetaGeneAnnotator	CDS	556586	557035	.	+	0	ID=MGA_467;product=divergent PAP2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164921062.1;translation=MSYKGIFFGNGILDIVFVAWFIAQGYKVISSVFKEKKLNFKRFIETGGMPSSHTASVVSLLTAIGIKNGISSTEFAITFVFAMIVMYDSSGVRRAAGKQASVLNRIVDDLWKKDGKRIMENDLKELLGHTPVEVFAGAILGVVVAFIMS;locus_tag=LOCUS_04670;note=WP_164921062.1 divergent PAP2 family protein (Thermosynechococcus vestitus) [pid:52.2%25%2C q_cov:92.6%25%2C s_cov:92.6%25%2C Eval:9.8e-35],MGA_467
sequence1	MetaGeneAnnotator	CDS	557267	559060	.	+	0	ID=MGA_468;product=1-deoxy-D-xylulose-5-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903179.1;translation=MKIKDKNLEELKDIAKEIRELLIDVVSKNGGHLASNLGVVELTIALHYIFNSPEDIMLWDVGHQAYVHKILTGREERFPTIRKKGGLTPFTNPNESIHDGFISGHAGNTLSAALGIHEAKKNNKVIAIIGDAALANGESLEAINNISEKDKNLIIVLNDNEHSIGENVGALSKYMSKIMGKKSYNDFKNEVELLVRKVIFGNSVADFIKRLEHTVKYFFNPGNFFEELGIHYIGPVDGHNLKELISTFEDVKDMEGPVIVHIKTEKGKGYKFAEQNREKFHGISPFDIKTGETCKKNESYSQLFGNKLVELGEKNSEIIAITAGMIKGTGLDKFFEKYPKRSYDVGIAEMHAVTFAGGLAIKGKKPVVAIYSTFLQRAYDQLIHDIALQNLPVLFILDRAGIVGEDGPTHNGIFDIAYLQSIPNIRIMAPFSKEDLEKSLEFAVNDKSGPIAIRIPRDSSFCLNVGFEYGKWQEIKKGNEYLVIAVGSMLKELLIIEKELNKNNVYPTIVGVNFINPLDEKYILENFVKYEKIFILEEGILHGGFSSKILEFLNDKNINKIIHRIGIEGFVEHGKRDEILTDLGLKGKKLVDRLLKK;locus_tag=LOCUS_04680;gene=dxs;EC_number=2.2.1.7;note=WP_005903179.1 1-deoxy-D-xylulose-5-phosphate synthase (Fusobacterium nucleatum) [pid:49.7%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:2.1e-166],MGA_468
sequence1	MetaGeneAnnotator	CDS	559117	559935	.	+	0	ID=MGA_469;product=3'-5' exoribonuclease YhaM family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903178.1;translation=MADKNVRVFVNGILLHPVIQKLKLVDDKGITVSTHTYDVLRVAIKQIKSRYFDNLEEASEDLDFFAILIGILIHDTTKGTLRLSGSKNSHSYIMRNNPDIVMKEAESIIEEVENFTKLNIKKETRDHIIHIVASHHGRWGRIKPQTKEAHIVHEADKYSAMYHRITPIGAKKIIKLMSDGFSKDEVVKITGYTSGIIDNRLKRAKQELNIKTNRGLLSYYNKYKSIPDGDEFFSRRIRETEKLIKKVEVIGFEDLVLKNILIDYIYREDIFE;locus_tag=LOCUS_04690;note=WP_005903178.1 3'-5' exoribonuclease YhaM family protein (Fusobacterium nucleatum) [pid:42.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:6.6e-59],MGA_469
sequence1	MetaGeneAnnotator	CDS	560137	560946	.	+	0	ID=MGA_470;product=TlyA family RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722492.1;translation=MKERLDVLLVEKGFFESREKAKRAIMAGIIVVNDKKVDKAGTKVKVESELRIKGTPLKYVGRGGLKLEKSIEAFELDFKDKLVLDIGASTGGFTDCALQNGARYVYSVDVGTNQLAWKLRQDSRVKSLENMHIKNLELKELDNNLVDYIVIDVSFISLTMVFNYLKKFLNDSGQVVALIKPQFEVGTANISKGGIVKDFSKHIMAIEKVINSAYENGLFIKKLDTSPITGTKGNVEYISLFDIENKNINIDIENIVEKGKKLKKGDGKK;locus_tag=LOCUS_04700;note=WP_003722492.1 TlyA family RNA methyltransferase (Listeria monocytogenes) [pid:52.9%25%2C q_cov:88.5%25%2C s_cov:86.9%25%2C Eval:1.2e-68],MGA_470
sequence1	MetaGeneAnnotator	CDS	560943	562280	.	+	0	ID=MGA_471;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494947.1;translation=MKNRKIFSIGVLTLILLLAFTSLYAKSNSNKSSKDESKETVKVGFMSHIKELREISEVMDLIQTNFVGDKKIDSKVLLHGALKGMVESLDDPHTNYFPPKELNSFTEDIKGEYAGVGMVVSKKDNVLIVVSPIEDTPAYKAGMRPKDKIIAIEKDSTLNLSLEECVKKLKGKAGTTVKITVLREGVEKPFEVKLTRAIIKLKYVKSRMLENKIGYVRLTQFGEHVAPDVRKAVENLRKDGMKGLVFDLRTNPGGALSQAVKIASIFIDEDPIVTVKDKAGRVETYNHEGTAYTDFPMVVLVNGGSASASEIVSGAIKDHKRGILIGEKTYGKGSVQNIVPLPDGDGIKLTIAKYYTPSGVCINGIGINPDIEVKEKYMFFNGFITNIVKEKTEKKSDTKKDVNNVKDTKDTKNAKDTKKKEEKKSDDIQLDTAINVLKGIMFYKK;locus_tag=LOCUS_04710;note=WP_029494947.1 S41 family peptidase (Fusobacterium hwasookii) [pid:51.9%25%2C q_cov:90.6%25%2C s_cov:94.3%25%2C Eval:8.6e-114],MGA_471
sequence1	MetaGeneAnnotator	CDS	562359	563042	.	+	0	ID=MGA_472;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903175.1;translation=MLYIVTTPIGNLEDITMRALRILKEVNYIFAEDTRQTKKLLRNFEIENIVYQYHEHNKLQQIGNIISLLKNGKDIALVTDAGVPCISDPGYEVVDEALKEGVEVTSVPGPSALTAAASISGVSMRRFVFEGFLPKKKGRQTLFKKLVEEERAIIIFESPNRILKTLKDINGYLGNRSIVIVREITKVYEEIIRGKTLEVIDKLEKKPIKGEIVLIIRGKGEDKNDSK;locus_tag=LOCUS_04720;gene=rsmI;EC_number=2.1.1.198;note=WP_005903175.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Fusobacterium nucleatum) [pid:69.2%25%2C q_cov:98.2%25%2C s_cov:95.3%25%2C Eval:1.3e-83],MGA_472
sequence1	MetaGeneAnnotator	CDS	563029	563916	.	+	0	ID=MGA_473;product=ribosome biogenesis GTPase YlqF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016986.1;translation=MTVNNINWYPGHMKKTKELIKENLKIVDLVLEVVDARIPISSKNPDILDLTKHKKRILLLNKSDLVSKENLNEWKEYFINKKFADEVIEVSARTGYNLKKLYKIMDVMLKEKSERMKKRGIIKTNLRLLVVGIPNVGKSQLINKIVGKKAAGVGNKPGFTRGKQWVRIRDGVELLDTPGILWPKFESKEVGMNLAITGSIRDEILNIEEIAAGFIKKSIEKGQEDILISKYKIKKEDLNEIPEVVIERMAFSLGMIMKGQKPNIAKIVSLILRDYRSGKLGKFALDNIEKEIDNI;locus_tag=LOCUS_04730;gene=ylqF;note=WP_011016986.1 ribosome biogenesis GTPase YlqF (Fusobacterium nucleatum) [pid:59.2%25%2C q_cov:97.6%25%2C s_cov:100.0%25%2C Eval:3.6e-101],MGA_473
sequence1	MetaGeneAnnotator	CDS	563932	564753	.	+	0	ID=MGA_474;product=NAD+ synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941313.1;translation=MKNLDINLEFTEKILVGFIKEEVKKSGFNKVVLGLSGGIDSSLVAYLAAKALGKENVLGVMMPYKTSSKGSLDHAELVAIGSGIRTEVVEITDMLDAYFKKFPDMTDLRKGNKMARERMTILYDFSAKENALVLGTSNKTELLLGYGTQHGDMASAINPIGDLYKTQVWDLSRYMGVPKEVIEKKPSADLWEGQSDEQDLGFTYAEADKLLYLLIDERYTIEELKNIGYSESFVKEIYRKIKMSQYKRKLPLIAKVSKRTIDKDFRYPRDWEI;locus_tag=LOCUS_04740;EC_number=6.3.1.5;note=WP_010941313.1 NAD+ synthase (Geobacter sulfurreducens) [pid:63.5%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:2.9e-94],MGA_474
sequence1	MetaGeneAnnotator	CDS	564757	565887	.	+	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNIIIFTFFSVIILFFEYSDYFEYKKYIISVEEKNELNFIENLNKDSINKVKNREVYNLNEKYSLKEVDFYLGKSLSYKNNRVKYVKNKLFSKRWNYIFVRDIRESLKKLNQNIITKSFETVLFFILFLMFVLVDSKNKTYLLEIKHKEDLEKDLNKAKAIQDKLFKEINISKERYQIKSFYKSYREVGGDFYGIEEISKGKYFIYVGDSAGHGLHAALISSFSKITIENLRNKGYNILEIVEELNNNFLTIEGFEDYYVTLFLGIFDFNLMELEYLSCGHEIPFALKDNKIKDLFTAKENNMVIGMLEEVPFIKNKVKIEAGVNYLIYTDGILDTIGEDELKRVLTKYGEEGVKEILKNSEPKDDMSYIEVSIK;locus_tag=LOCUS_04750;note=WP_000027845.1 trifunctional serine/threonine-protein kinase/ATP-binding protein/SpoIIE family protein phosphatase (Leptospira) [pid:27.1%25%2C q_cov:58.8%25%2C s_cov:12.1%25%2C Eval:2.9e-16%2C partial hit],MGA_475
sequence1	MetaGeneAnnotator	CDS	565928	567133	.	+	0	ID=MGA_476;product=dihydropteroate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391658.1;translation=MSGNKFRVIEIDDFKDAKKRVKDVVSGIENIKRLQEKTLFRAIEIKNLDARAANILNYEALSCNVEAIISEDVFNFSVKTTDIILLGTIRNYEKLYYRLKTKKFGLSKLSEELKDTLLKYDSNYEEVTVGDYTFNFNEKTYIMGILNITPDSFSDGGNFLTPELAIKRAIEMKKNGADIIDIGAESSRPGATPVTAEQELERLIPVVEELRKEIDLPISIDTYKSEVAKEMLERGVHIINDITGLKGDPKLSEVISDYEALAVIMHMQGTPQNMQKNPEYEDVVADVIEELRKSIQIAEISGIRDKNIIVDPGIGFGKTVKHNLEIFKRLKEFKSLGMPILIGASRKSMIGEILDLPIGERIEGSVALAVAASLKGASILRVHDVKETYRALKMIDAIKNI;locus_tag=LOCUS_04760;gene=folP;EC_number=2.5.1.15;note=WP_011391658.1 dihydropteroate synthase (Moorella thermoacetica) [pid:42.2%25%2C q_cov:98.5%25%2C s_cov:96.8%25%2C Eval:3.2e-85],MGA_476
sequence1	MetaGeneAnnotator	CDS	567376	568122	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENYNRALKFIFKRFSVLGLVLIVNIINSPLKSNQFTFLGANFLTIFFIGGFLGLYDKNKEVNVNIKNYFIESAKYFSRIVLNLFELSIIVLIDFLIVLFFGSLPIIITQVYPNPRMSTVFLTIMVLMVGIYRLPIFISSFFTPILDIKIYGKIGIVSAKETIYKYKVIWITAILQLLIYMIIFYLKMIFMKSLLMYSIFDILGGILFLIFIIADFDKYKEIKDMQEEIDYNNYTGRYSKLIGRFIM;locus_tag=LOCUS_04770;note=MGA_477
sequence1	MetaGeneAnnotator	CDS	568141	568539	.	+	0	ID=MGA_478;product=flagellar export chaperone FliS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080180.1;translation=MAFNNNPYDKYKNTQIQTATPGQLILMLYEGAIKFCKFSKNAILEKNISDSNKYLIKTQDIVTELMISLDMKSGGDIAKNLYSIYDYMLRTLVTANMKKDISKITEVQELLEDLKLAWMEAVKKTGGVKPRR;locus_tag=LOCUS_04780;gene=fliS;note=WP_004080180.1 flagellar export chaperone FliS (Thermotoga) [pid:45.0%25%2C q_cov:90.9%25%2C s_cov:87.6%25%2C Eval:6.7e-26],MGA_478
sequence1	MetaGeneAnnotator	CDS	568675	569034	.	+	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIIELYLKLKEATKKEQEYISENIEYDDKILGDLVTNKRILRDKIEKEQKQNKILESQLDEVKSLIEDIIVIEEENRKIYFEKLNNTKNNIENTVKEKQLKNTYFKKGIIFNKIDKKQ;locus_tag=LOCUS_04790;note=MGA_479
sequence1	MetaGeneAnnotator	CDS	569111	569830	.	+	0	ID=MGA_480;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001222373.1;translation=MKISGAYGGALYNILADKDKSMKELSSGKKLNSASDDAAGLGISKKLEAQSKEFAAKIKNYQTQMSFYQVGDSALEQTTDNLNKLRELAVQYNNDTLSDSDKNIIKEQAKQILEDIDTTANSTEFNSKKVVEDFSSNNLGIEKKSLFSEGFLKKLDEALQKVTDKRSEFGSEVNKLQSEVARTRVAHENSVAANSRIEDTDMLASMLNNTKSQILEQSNLAVTAQANLSQQRILDILKD;locus_tag=LOCUS_04800;note=WP_001222373.1 flagellin (Bacillus cereus) [pid:31.5%25%2C q_cov:91.2%25%2C s_cov:90.8%25%2C Eval:2.1e-26],MGA_480
sequence1	MetaGeneAnnotator	CDS	570387	572231	.	+	0	ID=MGA_481;product=amino acid permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404999.1;translation=MLKKELGFWGIYSMALGAMISSGLFVLPGIAYREVGPMMISSYIVASIMMIPTLFSEAELSTAMPKAGGDYFFIDRSLGVFGGTIGGFANWFFISLKTSFAFVGIGAFYELINPNTNEFQMRLIAISFAVVFVIINLLSVKFVGKIEVFLVFWLILILLIFIVKGVNIVEINNFKINRAINFFDIISTAGLVFISFGGITKITSVAEEVKNPTRNIPLGMFWAFISATILYILSITITVGIMDPVKLAKSYAPLSEASKYFMGNIGEIVLSVGALLAFITTGNAGIMAASRFPIAMSRDSILPPYFSNISKKFGTPYIAIISTGLFIISVVLFLDIKSLAKAASTIMLLSFIFVNIAVIIMRESNLTSYRPKSKTKLYPYLQIVGILAYIYVIMEMGQESIAISLLVLGGAAIWYFVYVKDRAKRESALMYIVKRTTSKELITSSLDTELKDILFERDNIIEDRFDKLIKNMDVLDIEGKMEMLPFFEIVAKDMAEKCKISEEKMVDLLIKREEESPTVIKEGIAIPHLIIPGEKDFNMLVVRCKEGINFSLEKKKVNVVFVLAGTKDERNFHLKVLMNIAQIISNDIFLENFIKSRSKEELRNILLLSERKRG;locus_tag=LOCUS_04810;note=WP_011404999.1 amino acid permease (Salinibacter ruber) [pid:33.8%25%2C q_cov:99.3%25%2C s_cov:87.6%25%2C Eval:7.2e-101],MGA_481
sequence1	MetaGeneAnnotator	CDS	572234	574255	.	+	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFHLYKNEYRTILVISIISFIGMMLILMLHLKSMQESISIEESHYFEKIWDDYLKSDSEKTKNIKDDLRFFYFIRDGIYFNEKSKISKEAGKYKCFKFRIQKINRYRLESYLKSKYYKDDIYISVYNKNYKNIFTNSKIKYYDKFLKNLKFKNDFGVVKSFFIFNNEFYVRNYILSLDRNNIIVVDYKVSTSILEEFSNRYNVGLLIEDINNKKIVSSISKNVKYNKKNLKDKWNKGELLKIEGEWYFFKKVSIKNILKKEIGYFVIFDLKKDIKNMRYDLIMRTLIMLALIILVVIIINNANIKLIKDIKEILLYEDMNQNYLKTEGEGLLSIVKNYKNMRDNIEKIITEEVNKKTKEISEVNKELDIENNFLISLIKLKTVEEILYKSYEILHNNCNIKEIRFVSLLKGNEQAASCKIDQEGKIINETVFNREEGKFLEGNISNGSVMSFNLEKTGFVYNFFSTENISGAMLSIIYNYENEDKEKRIEEFASIIALTLKSAKLYEISITDPLTGVNNRSTMNFYLKKLFKKSNRYNKIFSLLMIDIDHFKRINDSYGHLTGDYVLKAITKEIDKVIRDVDSIFRYGGEEFLVAMPETEIKEAVIVADRIRENIEKSKIKLEKFVHEDIRITVSIGAVEYNDKFKTIKDVISESDKKMYEAKKSGRNNVKY;locus_tag=LOCUS_04820;note=WP_010879949.1 GGDEF domain-containing protein (Aquifex aeolicus) [pid:42.5%25%2C q_cov:27.5%25%2C s_cov:42.5%25%2C Eval:6.5e-34%2C partial hit],MGA_482
sequence1	MetaGeneAnnotator	CDS	574344	575942	.	+	0	ID=MGA_483;product=glycoside hydrolase family 57 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057809.1;translation=MNKGYLAMVLHAHLPYVRHPEYNDFLEEDWLYEAITETYIPLLDMFEKLTNDNIPWKITLTMSGTLLNMLADELLQNRYLRHLDKIIELTEKEVTRVQFQPEFLKTALHNEEYYKKARYYFKEKYNRNIIQGFKKFQDIGNLEIIPVTATHGFLPLMKDYPEAVNAQVEMAKIDYKRFFDKDPKGMWLAECAYYPGQDKYLEKHGIRYFFVDSHGILFGDPKPAYGVYSPVYTKNGVAAFGRDIESSEQVWSSEIGYPGDGNYREFHKDAGYELEYEYIKPYLHEDGVRRNIGIKYYAITDKTGKEKQPYDPEKAANRAKEHAYNFVENRGKQIEYLSQFMEDRKPIIVSPYDAELYGHWWYEGPIFLEWIFRAMAEQSISAPITPYGYLKEYPKNQVVTPAESSWGANGYYDVWVDESNHHIYRHIHKGIERMIELANTYENPEGILLRALNQAARELMMSQTSCWPFIMFTGTMVGYAEKKIRDHINRLYKIYFDIRNGKVDENWLAEIEYRDNIFPEIDYKVYRTDRLN;locus_tag=LOCUS_04830;note=WP_011057809.1 glycoside hydrolase family 57 protein (Thermosynechococcus vestitus) [pid:52.9%25%2C q_cov:98.5%25%2C s_cov:99.1%25%2C Eval:1.5e-160],MGA_483
sequence1	MetaGeneAnnotator	CDS	576017	577108	.	+	0	ID=MGA_484;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546841.1;translation=MDNIKILIVEDDDLLRRTIGKILKREKLNYGEASNGNEAIEKVNEENFDIVISDVRMPGIDGIETITEIKKLSPNIKSIIMTGFASDDTPIKALRLGVNDYLYKPFELEEFLHCINRNIDMIKLERNNKQLNEEKLQKEKLALIGNMTSVIVHDVKNSLTPILGFAKLLESNESLDEKGKRFAEIIYNQSVNVLDKLKEMLQFARGEINIEQKETDVKEIYLEILKEKEKIIIDSEVNFISNFSDELEGIKIKVDIERLKQAITNILGNAQDAVSKSEDKNIELNFHKEDDKYCIIEIKDSGKGIPDDIINSIFIPFKTFGKAYGTGLGLAIVKDVIDKHDGEIKVESKKDEFTKFIIKLKLV;locus_tag=LOCUS_04840;note=WP_012546841.1 response regulator (Thermodesulfovibrio yellowstonii) [pid:29.2%25%2C q_cov:98.6%25%2C s_cov:97.5%25%2C Eval:1.1e-33],MGA_484
sequence1	MetaGeneAnnotator	CDS	577123	579072	.	+	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILFLFLILICSNIFASIDISNNWKYHFEGEDSWSQKNRVPITVVDKKNRPLILEKEVIFKNEILENQVINLGKIDDEDEVYFNNIKIGETKTKYYSKYNYRSYYNIDRTYLIPKKLIKKKNIIKIVVYNMINDYGLRADKIYIEDETDFFNNELINYKSRINLKDMIYFVLMGVFFALFIKYIIEFLVDKREKSDLYLSIIMLLLMITSFLRLPERDYVSALTSYFYSKTDFIVPVLLMMGIDIYLFEFFKIKQYKIIRIVIWSLNIVTLSLLIFVKDIKTMIMIFSNWNILLILILGIYSFILLKMKDKNFEMQIAILGFMLWILTIFIDILSFQKILVIFNSYINIYGYFIFGITIIIGKSKNHYYLKKIEEKYKKNLEEEVERRTGEIRKANKKIIENLEKLREKDKQLIKSEKLATIGEMAGQITHEIKNPLGAILTNVQLLKLDMEDIKEVETKEELEESVIIIEKATKQAREIIVNMLDYVRGTGDKKVIDLNHSIKSAIAILKKDFEKSNVVIETEFEKDLQILAKSGEIIQVILNILLNAKDAILEKNKKGGKIIIKNYKKDDSVILEISDNGIGMSDEIKEKMFEQYFTTKEEGQGTGIGMAVTKIILDNHNAKVKIESEYGEGTKFVIEFEKIMDN;locus_tag=LOCUS_04850;note=WP_012545672.1 ATP-binding protein (Thermodesulfovibrio) [pid:30.8%25%2C q_cov:40.7%25%2C s_cov:47.2%25%2C Eval:8.4e-31%2C partial hit],MGA_485
sequence1	MetaGeneAnnotator	CDS	579128	580561	.	+	0	ID=MGA_486;product=adenylosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016341.1;translation=METKVYVNPLVERYGSKEMLYNFSHDKKFSTWRKLWIVLAEGEKELGLQITDEQISEMKKYEKKINYDVARAREKEVRHDVMAHVHAFGEQVPNARGIIHLGATSAYVGDNTDLVQIADGLKIVKKKMINVMNYLKKVALDYKDMPTLGFTHFQPAQLTTVGKRATLWLQSIMLDFEELEFREKTLRFRGVKGTTGTQASFLELFNGDEEKVKELDKKVSEKMGFENRFGVSGQTYDRKVDSQTLALLSQIAQSAHKFSNDLRLLQHLKEVEEPFEKKQIGSSAMAYKRNPMRSERIASLSRFVMTLVEGLSFTASTQWFERTLDDSANKRLSIPQAFLAVDSILTIWANILDGIVIYPKMIEKHINAELPFMATEYIIMEGVKKGGDRQELHERIRVHSMEAAKQVKIEGKENDLIERILKDDYFNIDKKRLVDILDPKNFIGMAQKQTEDFIKNEVDPILEANKELIGMEFDLKV;locus_tag=LOCUS_04860;gene=purB;EC_number=4.3.2.2;note=WP_011016341.1 adenylosuccinate lyase (Fusobacterium nucleatum) [pid:73.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-202],MGA_486
sequence1	MetaGeneAnnotator	CDS	580574	581770	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIKTLLDTMELIHYIEKYKNKILIFVVTGKVYIRDIIPDIIILQSFNIKVMLVIGYSEKIKKYNISELKNEMSEIVLEISSMLKKNNLDPMPSIGTEVFAKDIKTSEYKKVSGFDIETFEFALKNNKIPIIAPIGMNARGKYLKLDEKDVAMELGISFKASTVFFISEVDGVILNGNRMQFLTYKDAKKILANGVIDKNIKEIMSYGVQLIEKGIKEFSILEGKTGNIYKEVLTYDISGTLISKGDDEIIRFADIEDVPSIYLLIKNEMTKNNILPITEDNIENAVDDYIVYEIDSSIVAAGKLNYYENVGEIAKIVTLPRYQGGKKAKSVCLALIEKAKSEKLDYVFGLTVNESMMKLFRKLGFVEVKRESFPEEWKRQYDFERPSKGFRLNLNL;locus_tag=LOCUS_04870;note=WP_012583314.1 N-acetyltransferase (Dictyoglomus turgidum) [pid:32.3%25%2C q_cov:31.7%25%2C s_cov:83.2%25%2C Eval:1.0e-09%2C partial hit],MGA_487
sequence1	MetaGeneAnnotator	CDS	581815	582318	.	+	0	ID=MGA_488;product=Gx transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902602.1;translation=MKKSEKKRVAYQITLILMALYFSLLESMIPKPFPWMRIGLSNIATLIGIEKFGVNFGIEIVILRIFINSFMLGTMFTPNFFISLGAGFVTVIIMGGLFKFRKYLSLISISGVAGLVHNFIQLIIVYFLLFRNISIFEREIFIFILFFIVMGFISGAIVGFFAEKYRV;locus_tag=LOCUS_04880;note=WP_005902602.1 Gx transporter family protein (Fusobacterium nucleatum) [pid:48.2%25%2C q_cov:98.2%25%2C s_cov:95.3%25%2C Eval:5.5e-41],MGA_488
sequence1	MetaGeneAnnotator	CDS	582473	583078	.	+	0	ID=MGA_489;product=Uma2 family endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005812610.1;translation=MAAVRKIKEKYTYENYKNWKDSEDWEIIGGKVYSMSPSPNRKHQEIASKIHGKIFRYLEGKKCKVYYELDVLLSEEDIVKPDILVVCDENKLTDKNINGAPDLVIEILSPSTAKRDKVLKYELYKKSGVKEYWIVDPYNLSIDVHNFKDEKVSHYFYEDTLENFKEKEQECENEKEKKENILEVGIFNGELKLDVNYLFED;locus_tag=LOCUS_04890;note=WP_005812610.1 Uma2 family endonuclease (Desulfitobacterium hafniense) [pid:38.2%25%2C q_cov:79.1%25%2C s_cov:89.6%25%2C Eval:2.7e-28],MGA_489
sequence1	MetaGeneAnnotator	CDS	583137	584495	.	+	0	ID=MGA_490;product=phosphoglucosamine mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902604.1;translation=MGRKYFGTDGIRGEANIELTPELAMDLGFALGYYLTKKSNGKTPKVILGTDTRVSGYMLRSSIFAGLTSMGVNIDFVGVLPTPGVAYITKQSKADAGIMISASHNPAKDNGIKIFSSDGYKLPDSVEEELENLIDSASELKKYRKSGDEVGKFRYSEDDFYIYQDFLLSTVKNNFKGMKIILDTANGASYRIAPRVFYELGAEIVAINNIPNGRNINVKCGSTDMGILQKVVLGYNADLGLAFDGDADRLLAVDHTGKIIDGDKIIAAIVKKFKAEGKLNKNKVVTTTMSNMGFEKHLKDNGIELIRAQVGDRYVLEKMKEDNLNIGGEQSGHIIFLDYNTTGDGILTALQLVDALKEQKKSLHDLVKDIEEYPQTMINVKVSNEKKRSWHENKDIIEFIDKKEKEMNGNGRVIVRPSGTEPLIRVMVEGNSMDMVVTVAQEIADLIENKLS;locus_tag=LOCUS_04900;gene=glmM;EC_number=5.4.2.10;note=WP_005902604.1 phosphoglucosamine mutase (Fusobacterium nucleatum) [pid:59.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-150],MGA_490
sequence1	MetaGeneAnnotator	CDS	584669	585289	.	+	0	ID=MGA_491;product=DNA-3-methyladenine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003427435.1;translation=MRFSKEFYLDNAVSLAKKLLGQYIVRRIDGKEIIVKIVETEAYVGPEDKGCHAYNNRRTKRTESMFLEGGYAYVYIIYGMYYCLNIVTAKEDKPEAVLIRAVEPISGLEYIKENRKIKSTKIEELTNGPGKLCKALNINKSLDKYNLVTGEELFVMKNENIEKEKVVEKIAESKRINIDYAEEYTEKLWRFYIKGNKFVSKNKVKN;locus_tag=LOCUS_04910;note=WP_003427435.1 DNA-3-methyladenine glycosylase (Clostridioides difficile) [pid:46.8%25%2C q_cov:92.2%25%2C s_cov:99.0%25%2C Eval:8.9e-46],MGA_491
sequence1	MetaGeneAnnotator	CDS	585422	585652	.	+	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAVIVEARCDRSPFCPAKRACPTKAIEAKKNSNKESGFFGLFGGSPSGYEVNSEKCTGCSICLNYCPMGAIDIK;locus_tag=LOCUS_04920;note=MGA_492
sequence1	MetaGeneAnnotator	CDS	585864	586202	.	-	0	ID=MGA_493;product=nitrogen regulatory protein P-II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000717795.1;translation=MKKIEAIIKPVKLTDVKEALSEAGVKGITITEVRGFGRQKGQTEIFRGAEYKIDFLPKIKLEIVANDLAVNKITKIIMSNSKTGQIGDGKIFISNIENVVRIRTGEKDENAI;locus_tag=LOCUS_04930;gene=glnB;note=WP_000717795.1 nitrogen regulatory protein P-II (Vibrio) [pid:65.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-38],MGA_493
sequence1	MetaGeneAnnotator	CDS	586354	587628	.	-	0	ID=MGA_494;product=ammonium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083240.1;translation=MKKVFSSLGVFIFLSNVASAAQAPTTQSNLNLVWLGVASGLVMFMQVGFIALESGFTRAKNSVNVATKGILDFAVGSLIFFMFGFAFMFGKGSFIGTTNFLLSDYITNGDNAGIMFWVFQVMFAGAAATIVSGAVAERIKLTGYVIASAVIAGFIYPIFGHWAWSSDGWLAAMNFHDFAGSTVIHALGGWLAFTGAVVLGPRFGKFKKDGTVNAIPGHNIPLAVLGTFILWFGWYGFNGGSTLTGDGSIAIVFLNTTLGGAAGTVMAMLYSAFRTKLVDLGMTLNGALAGLVAVTAGADALSPGSAIIVGLFAGLFVSLAVPFFDKLKIDDPVGAVSVHGINGVWGTLAVGLFTKEYSFLTQLIGAVSVVTYALITGFILFILIDKIAGLRVSAEDELIGLDKAEHGYSAYPEFQSHYTSDLFK;locus_tag=LOCUS_04940;note=WP_004083240.1 ammonium transporter (Thermotoga maritima) [pid:47.0%25%2C q_cov:97.6%25%2C s_cov:98.4%25%2C Eval:5.8e-104],MGA_494
sequence1	MetaGeneAnnotator	CDS	587791	588669	.	+	0	ID=MGA_495;product=LysR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903649.1;translation=MDLHHLKIFYYVATEKSFTKAANKLYINQSAVSIQIKKFEDNLGVKLFDRSEKKIKLTYAGDTLFKIADDIFKNVKRAEKEIEKVVSDQKGKLVIGATHIIGEPLLPKIIMEIKESYPGMEFEIHIQERDILLDMLKEGNVDIVLMGDFFINDKSYSIIPIADYPFILINKYNIEDKNDLEKIPLISRDDSLILEKNLVTLERKYNIQIKNRFKVNGSIETVKNLVIEGIGYTILPYYCVYKEIKNKELQVVENFDKFKIGYQAVILRDRMKDIDLIKFIDFIKLFKIEKEL;locus_tag=LOCUS_04950;note=WP_005903649.1 LysR family transcriptional regulator (Fusobacterium nucleatum) [pid:45.0%25%2C q_cov:99.7%25%2C s_cov:96.4%25%2C Eval:2.5e-70],MGA_495
sequence1	MetaGeneAnnotator	CDS	589167	589919	.	+	0	ID=MGA_496;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904156.1;translation=MSGHSKWANIQHRKGRQDAKRGKMFTKMAKELTIAAKEAGGNIEFNPRLRLAVDKAKGANMPKDNIERAIKKGTGELEGVEYLEIRYEGYGPAGVAIIVDAVTDNKNRTASSVRSIFSKSGGNLGETGVVGWMFDRKGVITFDASKVTEDEVMEVALDAGAEDVVTEETEITVLTEPDDYENVKKAIDDAGLKYEDAELTFHPQNTVDVTDEENATKVLKLIDKLEEDDDVQEVYSNFNISDELLEKIVF;locus_tag=LOCUS_04960;note=WP_005904156.1 YebC/PmpR family DNA-binding transcriptional regulator (Fusobacterium nucleatum) [pid:59.3%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:3.2e-81],MGA_496
sequence1	MetaGeneAnnotator	CDS	590715	591971	.	+	0	ID=MGA_497;product=TolC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627853.1;translation=MKKKILFLLFTFMVGNLYSMEITLQEAIRKGVSENVNVKNEKITQENTEIMKKQAIKTALPKVKLTSSYTKFENPMNPMDKNSDNMYGNKISIEQPIFTGGKILIGIDTADLLGKQGNYLLEKKEKDAELEITKSYITILKLEKNREVLKDSLEQLKETYKMINAQYKLNLITKTPLLEIDYTMTNLDSQLLELEKGIKISKANLKRLIGMANSETIELKDISIKENQEKILNIDEGIKIAKENGTDVKLVKIGTEFQEMNTKLKRADLFPTIAFNFGIENSSTDIEGIKDKWNWSGTIMFSYNLFDFGNSQDEYRKSKNELKISKNSEKNSLEQLEIGIRNSYYELEISKKLIKAKEQALASSKEQYELDKGRHIAGLITTTDFLKSENNLRQSEINLINARLDYYLAEKTYENKIK;locus_tag=LOCUS_04970;note=WP_201627853.1 TolC family protein (Fusobacterium canifelinum) [pid:28.5%25%2C q_cov:98.8%25%2C s_cov:99.1%25%2C Eval:8.6e-44],MGA_497
sequence1	MetaGeneAnnotator	CDS	591992	593419	.	+	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSKLIIGAILIISIGVVSSGFGKKAPATTAVVKKETKKSVKVEIVKTQKIQKKVVTNGQTEPLLEVKQSSKIGGEISDILVKNGDYVKKDDVILKLDNDRIEANYKTAKANYLMAKSNYERVNLFSKSENIRKLEQAEAGVTSAKMKLEKALKGADKEEISNAESRVKIAESNYNLIKNLYEKNRQLYKENLISEQGFMDIENKYENAKNSYETAKRNLILIKKGADEEDITSLRANLQNAEQSYELLKKYVDNKIWEYEITNSRASYLTAKANYELMQKQYDDLTVNAKISGVITNMNLDKYGQVKAEGKIPMFSVINTSEMIVEVGISGKDFMDLEKKDKVRIYIEDLDKWYNGEVYEMNPSASEGTDKFKVKIKLKNPDNRIQVGMYVKAEIDTKTINGILVPKKAIVIDNLSKYIFISENGKAKKMRVETGIENGNNIEILSKNIKAGDEIIIEGQYTLENNSLINEVK;locus_tag=LOCUS_04980;note=WP_011704066.1 efflux RND transporter periplasmic adaptor subunit (Aeromonas) [pid:20.8%25%2C q_cov:55.4%25%2C s_cov:73.1%25%2C Eval:4.0e-08%2C partial hit],MGA_498
sequence1	MetaGeneAnnotator	CDS	593420	596440	.	+	0	ID=MGA_499;product=efflux RND transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017033.1;translation=MKLVEFSIKRPVAMTMIIITMLVAGVIAMLNMSAELMPDFDMPIVSVKTTWVGASPEDMDKLVTEKIEDALSGIDGVDKVTSYSGQNYSYVIVEFDYGVDTDKKVDLIQNEVSKIRGKLPSDITDPYVTKMDVTGGTGVATVEMSGADLMELKGIADNTIKPRLQQIKGVGSVEVSGGLEKRILIEIDPNRLANYNMDVSSVVNILKASNINIPGGMVYEGDKEMLIRVMGEIKTLEQVKNIVISNKNNEILRLKDICNVNLTTKKRETYSRLNGKTVLSLNIKKTKDGNAVEIVKKLKEELKDMKNYISSDIDLKISYDSSKEIGDSINTVVNNGLTGLVLAAIILLLFLKNMRTSGIVAMAIPTSIIFAVFLLKVKGVSLNRISLLGLALGVGMVVDNSIVVIDNIYRKITEEGEKVFEAVRDGASEMAVPIIASTATSVAVFAPILFTNGMAKEIFQDLAYSIIFSLLASIIIALTFVPMVASKILKSGEKKDFDGKLFTKVKFGYHKLLDSALKHKAITLFITGIVFFGAIFFGVKNIEMEFMPKVDNAQYNVTAELPKGLDIEKANRIAYQMEKIVKNDKNTIQYATVVKKDEVNINVDVIKKNKRRESIDEITKRMREKLKVIPDAKMKFSLGFGPSGGDIQLQLLGRNQKILVDVSNEIKNKMRSIDGFTDVKSSFEGGNPEGKIVIDRTKAQYYGLRVAQINQIISYQILGTEPFTIKTDDEEVDVSVQLMKKYKNSSEKLMEMRIKTPTGKTIQLKDIAELKVEEGPSEIVKENKIKKITLSANSSTMALKTAEKQIKEVINNMELPKGVTYKFGGESEQFSKVMKDLTIALALAIFLIYFILATQFESFILPLIVMGTLPLSVIGIIIGLVITGTNFSMMVMIGIIMLAGIVVNNAIVLIDYIHSLREKGVELVEAIKKGGETRLRPILMTTFTTIFGMIPLALGIGEGSEFFKGMAISVIFGLGFATLLTLVVIPVMYSIVEGIKEKRKIRKEIK;locus_tag=LOCUS_04990;note=WP_011017033.1 efflux RND transporter permease subunit (Fusobacterium nucleatum) [pid:41.6%25%2C q_cov:98.7%25%2C s_cov:97.7%25%2C Eval:5.0e-230],MGA_499
sequence1	MetaGeneAnnotator	CDS	596900	597577	.	+	0	ID=MGA_500;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272297.1;translation=MEKILIVEDEKRISRFIELQLKHEGYKIDSAFDGREALDKIKNGDYDLVLLDIMIPKINGIEVCRRVREYSNIPIIMVTAKDEMTDKVIGLDLGANDYITKPFEIEELLARIRVQLRGKTSGGKTEGNILKAEDLIMNIEQCIVKRGEIEIELSKKEFELLEYLLINKGIVATRDKILNNVWGYDYFGNDNILDVHIKHLRDKIDKPFEKKLIKTVRGFGFTIKK;locus_tag=LOCUS_05000;note=WP_041272297.1 response regulator transcription factor (Desulfitobacterium) [pid:52.9%25%2C q_cov:99.1%25%2C s_cov:97.8%25%2C Eval:8.0e-62],MGA_500
sequence1	MetaGeneAnnotator	CDS	597608	599017	.	+	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFKKWKLSNKLAFTYGFVFLITFATINFVIFRTIFVFGEKEANAQMSEVKEMVKNEINNMVELNKGEMENRKRTYQIAENILKKGFDTYIRIYNDDKIIVNSLDKNIPKFDYKKDIEKSKLEKIGDKVYSVYNLKLDFKGKEMYIQFIMDITRQYGFIKLLRKNMIIGELIGLLISILVGKYLSKSLLKPIKEITKNAKYITINDLSKRVYLSNKHDEIYELGKVLNEMISRLEESFKNQNKFISDASHELRTPLSVMQGYLEIIDGWGKNEKEVLDESIIALKEEVTNMKNLVEKLLFLAKGESGNIKLNKEKVMLNKLVEKVIRDTEIMVPDYKIINNINDEIEVEIDSNLIQQCMRGIIDNSIKYSQVDKKIEINSINKEGIAKISIKDNGIGMEKEELDKVFDRFYRIDESRTKDTGGTGLGLSIVKTIMDLHNGDIKIDSQMGNGTEITMIFKLDVNRDGGD;locus_tag=LOCUS_05010;note=WP_041272296.1 HAMP domain-containing sensor histidine kinase (Desulfitobacterium hafniense) [pid:33.1%25%2C q_cov:68.2%25%2C s_cov:67.4%25%2C Eval:4.8e-54%2C partial hit],MGA_501
sequence1	MetaGeneAnnotator	CDS	599402	599761	.	+	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKEFIARLSAKLGERRDRTYEVVESFWETLGECLEEDGELKLSSYGVFKVKETVERNVKHPTTKEIIIIPKKNVIKFYASNKLKMKINNDSKKSNSKKRFSIKDVMKKIPNIFGKKI;locus_tag=LOCUS_05020;note=MGA_502
sequence1	MetaGeneAnnotator	CDS	599877	600683	.	-	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKILFIISLSLIFNNVILGNDGKEFIIYATPTKPFKISPTKGISIEILQLVMKDMKISNYKFKFVAAVKRAVEYAKRGRCSMLIGYSIKKSRLSFLAYPQKSYRRIKWNFFIRKEDKNKIFYNKLEDLKNYTIGVTRGTSYTEEFWKAEKFLKFDYASKNNLQIKKLIGKRFDLVPLNTRSTLYESKEAGVLDKIDYLKKPLKDKLYYDPICIHSDFFKPTSHENTTREEKIKKFLKQYDRIIEKLEKDGTINRIYEEYGYKYKLK;locus_tag=LOCUS_05030;note=MGA_503
sequence1	MetaGeneAnnotator	CDS	601058	602014	.	+	0	ID=MGA_504;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393683.1;translation=MFGWLDNLVRYIVENIFNISMDTRLGGSVHFFIYDTVKILILLSFMIFIISYVRSYFPAERTKKILERFSGITANIMASLLGIVTPFCSCSSVPLFIGFVEAEVSLGVTFSFLITSPIVNEAAFAILLASFGWKIATIYVITGVVVGVIGGIIIDKLHMEKYVEEYVYQMKVGDVDIVKMSQNERVNFAKDNVIEIVKKVWLFLLIGIGLGALIHGWAPQEMLAKYAGPNNPFAVLVAVILGVPLYSNALGTIPIAEALINKGVGIGTALAFMMAVTAMSMPEMILLRKVIKPKLIATFVTITGIGIVLVGYLFNWLL;locus_tag=LOCUS_05040;note=WP_011393683.1 permease (Moorella thermoacetica) [pid:55.2%25%2C q_cov:98.7%25%2C s_cov:99.4%25%2C Eval:2.3e-96],MGA_504
sequence1	MetaGeneAnnotator	CDS	602056	602703	.	+	0	ID=MGA_505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKLPEKFAKWHGVDRTKIPWYPIVDTEKCIGCKLCFVSCGRGVYNFDMKSNKAIVENKFQCLVGCTTCAAICPVEAISFPDKEIVHEIEKEEKILVKIQKIAKEKKIKMDIDKIEKEVLENISKAKISKEYEIAGLIIGKEIFKEIYSEIKDCSVDIVDINIKTSSLRGTIDLDAPTVATFKIISTEMEDITKCEDKIAKLIVKNGIVILKKD;locus_tag=LOCUS_05050;note=WP_004082361.1 ferredoxin family protein (Thermotoga) [pid:47.7%25%2C q_cov:40.0%25%2C s_cov:61.9%25%2C Eval:1.7e-21%2C partial hit],MGA_505
sequence1	MetaGeneAnnotator	CDS	602743	603735	.	+	0	ID=MGA_506;product=arsenic resistance protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080192.1;translation=MIKKIQKNLSGNMLIYTFLVMIGGFGVGYIFPNAKKLSTYILPIVFIMIYPMMINISLASLKKIKGSTKPLIEATILNFIYAPAFLYILTSIFIADPRIKLALMLLAVAPASSMGLGYIGLAEGHMVTGAIIVAVAFILSIFVYPIAGSYFAAGANIVLPLPLMLKNLGVILILPLALGIITRELIMKKHDEKVYNSKFKPVFSVVTLASLYLLMFTIFASKADLIIKNYKAIIMIAPVAIIYYTVTIFFTIYMNKTVLKFEYGHHQAVVFTSVSKNIALTIAIIIAIFGKDGQYMAIAPAIMSLFQPIFLMTYLKSSGKVKKHFNVSKN;locus_tag=LOCUS_05060;note=WP_004080192.1 arsenic resistance protein (Thermotoga maritima) [pid:40.7%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:4.9e-65],MGA_506
sequence1	MetaGeneAnnotator	CDS	603837	604292	.	+	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKELSEIKTEAAKKTITMQHEKFGKTIGVNGCAGSSNLGQKSFFISRELTKRFPNAFMRCPLGLYPEVEGPSQVLMYDDYQIVIDGCKGACLRKSLEKAGIKIDLAYELDHEDYMTEKKAGPHFDEKKMLELTDIIERDIKKLIEKENK;locus_tag=LOCUS_05070;note=MGA_507
sequence1	MetaGeneAnnotator	CDS	604341	604580	.	+	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDITILGVESRELLDLEINLLKVINKIEKDINIKKISDPKKIAERGIMSVPALIINGELKFSGEIPTVHELKIILKNLK;locus_tag=LOCUS_05080;note=MGA_508
sequence1	MetaGeneAnnotator	CDS	604593	604826	.	+	0	ID=MGA_509;product=MTH895/ArsE family thioredoxin-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060920.1;translation=MNLKILGTGCPNCIKLEKNVIEAVEKLGIEAEIEKVTEIKDIMAFGVMMTPTLVVDGEVKIMGKIAKVDEIIKVLQK;locus_tag=LOCUS_05090;note=WP_048060920.1 MTH895/ArsE family thioredoxin-like protein (Methanothermobacter thermautotrophicus) [pid:53.3%25%2C q_cov:97.4%25%2C s_cov:98.7%25%2C Eval:1.7e-16],MGA_509
sequence1	MetaGeneAnnotator	CDS	605018	606748	.	+	0	ID=MGA_510;product=alpha-glycosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000471779.1;translation=MNKTAIFHEIDSNYCYGVSKDELLIKIRTEKNNIKEVELLYVDKFKYLFAKKKEFRNVKMKKRYTDDMFDYYETVIKFDVLSLSYIFKLKDEKEEIFYGNYKFYNEINKEEGIAYIPEMFTMPVLDFTDLFITPKWAEESIVYQIFPERFYRGDNYIENKNHLDWNGNVENDSYLGGNLLGIIDKMEYISELGVNTIYLNPIFKAGYNHKYCTFDYFEIDPDFGTLELFKKLVKKAHKKGIKIILDGAFSSTGVEFEPFTDILEKNEKSKYSSWYKIDRYPVEVKSPANYKCFAHFPLLPKLNYSSLEMQEYILKVLKYWIEEADIDGWRLDVADEIPHSFWKKARKVIKEVKSEAIIIGEVWYDSSSWLNGDEFDTVMNYQFYTATLDYIAKNKINSKEYGEAISKYLAKYKKQTHKLLWNLIGTHDTARFSFLANERKDKKILALILQFTMIGTPLIYYGDEVGLTGGEDPDNRRGMLWGDSQDKELLEFYKKIIKIRKNEKALFLGEIEIEDSEDNVFHFRRKYNNDVIEIYINNSDKNINKIIEGKYIDIFDEKEVLGEIDILKFGFKILKK;locus_tag=LOCUS_05100;note=WP_000471779.1 alpha-glycosidase (Bacillus cereus) [pid:36.5%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.2e-113],MGA_510
sequence1	MetaGeneAnnotator	CDS	607056	607937	.	+	0	ID=MGA_511;product=AraC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861549.1;translation=MNYFDEISKVIDYIEDNLRNDITIDDLCNYIYISKYHFQRLFKSIVGESVISYIKKRRVYEAALELKTSNKNILEIAIEFNFNSNEVFSRSFKKIYGITPKKYRDSKMIINKYPKIDLVARKLFINSLGYLISWELVEMPELKLIGLQGVSTGKNDIEITRKIWNELLKELPKLKNIENSNLHYNFLINGFSDDLNIFFGGFKVKNFDFIPSKFILRKINSQKYVKFMHKSESKNGITKSLDKTIDLIYDTWLPNTNYKIDDIGFDLLVVSNEENLNTEGENTIIELYLPLKR;locus_tag=LOCUS_05110;note=WP_011861549.1 AraC family transcriptional regulator (Clostridioides difficile) [pid:30.3%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:3.5e-32],MGA_511
sequence1	MetaGeneAnnotator	CDS	608244	608588	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYWKFLLGLVLLGSFFGCESLLDGGNKLVEVKVIATSENQVVVRDIKIDEDNIDLSNNQATEMIESGDKSVSWNTVEVINGAATFVKHEDEIDINEDGTLKVYEDKVKFITK;locus_tag=LOCUS_05120;note=MGA_512
sequence1	MetaGeneAnnotator	CDS	608608	610782	.	+	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILRVLLLITISISFFGCFNENSDDSNNLKRDLENKISIKVKVLNSVAGNNISNSAIKVYMGEEILGEAKTDKNGDATIYLDKDLNGNYIDVVATKKGYGTSKFQDLKLGRDNEGTITLYNFKSLLKEYQDRLEAPTIEKVEVLSNDDKDGSYKTLFDEQNYENKSIDSVKIQAKAKIAMEKTEWGTQGIRLDINSNVTRNSYKVSNYQVRSEEIKGSNPKEYLTVAEFDTGYNLIKGENYIKIHVQDLAGNNTTKYVYLTALKGVELKSSEIKETTAKLFSYEFMMYAKSYVQYLPRTIKYAEINRGFSNFDLEPTIGYVSLKFSVRDKDNTYIPIKGFEVYRSEDNKNFTKVGEKFYTEATIGELDTDINDLYKGVDSKDKPKHDEYGHKYIDSDSTLEEGKVYYYKIKAFSEKGVLMTNVVKGRFLSSFKVVLEGPENNGKVDKISPTFKFKIDGMPSLKEIATNLADKITSRSAIEVEISNLETEIKSITDETELKSKQADLENKKAELKSIKDEIFDTKKGIGDQFRFKMAIEDKLGDKFGSYAINKGPTYNYSWHSFVYNVETGKFYWITDWKYTGWWYKDAGYKQGVEPDLENSIEIDSFRQLLAGYGVNIGEVFTINDDNEIEFNLENFAQVYKDQIWIKYGGPLDLTLFEKGKTYEWDVFGYPTYSGYQTAPQFIEDYSTDDVYGRSIIYTNKGAGNNADNGRYTFIVSEDAN;locus_tag=LOCUS_05130;note=MGA_513
sequence1	MetaGeneAnnotator	CDS	610794	612956	.	+	0	ID=MGA_514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGLIGLLLLISMVGCFSNNNESDKDKVIEKKQTIEKVGYNFYNVKDKTESDLINETHYGTVIVRAKKELTEDYLKNMNVEVSKKFEMNGKLYYFLKTNDSEKTTIEKLNNSKLIDYAEPDIRMEIPEDKLNEAINRAPKRASEVVDEKELNDKLVDQEYSLKNTEWYKAYKEFGFGDYTPYVAVIDSGINMPHKEFDGVFYKGYTNFKKNKENEYEFTNGKILSMIEDFDFEGKELNWDHNHEEGHGTHVSGTIAARGDNGIGVAGVCWQVKLIMYKVFADNPDDTKVDGSGSTTAVYGSLKHLADWKKDNGIDYTIPVNMSLGGSYASNFALDTISYALKNNIVVIAASGNDGAFQEANYPSSYAGVITIGASDGNDKKVSFSNSSRNLSVVAPGKMILSVGNADEGVNYYRYMSGTSMATPFVTGLAGYVLTFNPYLTPAELKEVIEQNADDIYPEIYGKGYDVDTGYGRVNVYKTIKAVINNDITPVYSEHSLKITLQNIHPYFASKGLPNPVIPNNGVYLYTKEGKFVATGQTNDDGVISFNMLKPGEYRAVSTIQGELVAKDITFDGTKDLAEQLDISKLIWYIQTLKNESGNCEKTDTIISILDSTGTELKTYDQNTLDTLAYEFPKAGTYYIKISKYENAVGEYALKISTNPEKKDAVVSGAAIMVSGDDNYEDNDDIANATSVEVEKVYNLYLDDDDYFKLDITADQAKN;locus_tag=LOCUS_05140;note=WP_012259235.1 S8 family peptidase (Chloroflexus aurantiacus) [pid:31.7%25%2C q_cov:45.8%25%2C s_cov:46.7%25%2C Eval:3.7e-35%2C partial hit],MGA_514
sequence1	MetaGeneAnnotator	CDS	612975	614087	.	+	0	ID=MGA_515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNSLIIFIMIIFSLVSFADENKLKLNGYIEYNLLNYTTEDDKIGVGDIGDSDFSFQLNYKFNENLNMNTVLETGNKVSLSIFGKVSDKISANTKLGLYPTGKDEDMNDINFLNIIEDEDTYFNYASKLGKLTFYPYKAPINIGNNLTLSVVEDAPGVKYGISKNGVNLESIIAINNSQKDLTGDESDAYQMKVSGDYTGKKLNVKLSGYYNTREYNADLFDNKNIYSKYAINGDVKYNYNEKINLEVEGLYNYIDLSMLNNKVIDDNKLKEDLKGLALYGKVTIDKLYGTLKYIGKNSVLDDDFSWEKVRASSILTTVGLKTNIEKNMYLNLEYGYDITGHNKYFKDEKGKVTRYDRYTLSSIVGIKF;locus_tag=LOCUS_05150;note=MGA_515
sequence1	MetaGeneAnnotator	CDS	614332	616092	.	+	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNMKKIIIICFYILFSILSFGTENYIHGKVILKNMNDSSEISVKLYSENKTVYKTYTNSRGIFFMKNIPNGDYKLKINYRDIKIEKDIKKIISKQNIGTIFIKPISKDYNIYFFSYFIVFITIILNFFIRYYIKKGVTIPKKNIILISIDFFNFYFILSLSSMIVAFFNEKIAVKINSIESIGTIFIILFMYKFFINYPVERGNKFTKLIFNLALISLFYVCITQLALIFSKVNIIKFEFNDIYNRVYNAAFFLWDIVPLFLILVLLIYMIKNIREYKNKKEAEISKFFIKIGVVIFSLIFFGSALMNRVFNVPFNDFSRFIFPLVDIILFWGILTGAFGFRYQKRYKMFTKIFYEVLNYLIILLFLLYIMNYIKLDLVIIVMLIFILKGALDYIKYFFEKRAYIEHKKLIRKLEVAENILIFKKILEKDLFKILKVNKIKIVTKDEINKKTLENIYNNEKLINLEKSDDDFSLLLKIGDTTNTVGAIYFGDKLNGDFFKRREIDFLEELGEEIEILLNNLLLNNEKNIIEKSRIEKEIKKELLDFKDIIFYIKSYVKLIKKESKNPKIAKYCEIILEKIEKNNS;locus_tag=LOCUS_05160;note=MGA_516
sequence1	MetaGeneAnnotator	CDS	616108	616809	.	+	0	ID=MGA_517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKIGIIKDIQFYLLLENINIKLSFFEFEKGDSFFYEIDNSDIEVLLIPENLDNLYFILSKLKEMGIILIVFGNNIDGKILRDLYNFGLINNYIEKEEYLSIEKVIENEKKKIKRKKNFFVKVDDGKEVLIEIDKIEYIIYDRNRRKSILYFGNEEYYIGKNLSELEKYFQLFNFLIRIDRGTIANINRIKFIDYYDESIIFNSGRKVYYTKKKLREIRENLKNRKVISCFDN;locus_tag=LOCUS_05170;note=MGA_517
sequence1	MetaGeneAnnotator	CDS	617038	617586	.	+	0	ID=MGA_518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILYILFFLIGTFAYSLEIGFGYKADSRNSLNTVVNGNVVGYSEQTDTADYKLSIEEIKRFRYFDLGIGVDVDFNEIGDVVNIPGYLIVRYGMLKKTNFSPYCYLNLGAVKVDSYKEPGIYTSCGYGITIFKRLEVEAFYDFILIERENDYSRKIEFGEETEYQIEHSKESIGIFIKYRL;locus_tag=LOCUS_05180;note=MGA_518
sequence1	MetaGeneAnnotator	CDS	617604	618959	.	+	0	ID=MGA_519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKFYKIVFIFIFLLLLGGCFVVSEYVHLEGIAVFPNEKIVMQKGDTLKLSVNQICNGELSGSYSSDSGVASTVEAGANNVELVGDILKTKKNGIVKMKFAYNDREDYCDVPDITIKDNIYISKNMLKLKKMPKKIFSRNRSIYIIDDEDFNLKMKEYNENLDVISEENLDTGYSNLFFDEDSMQYVYEKGVLKNKKTGEELELSDKGGISFYSKSKNNNYLFYIDSIRDKIGVIDLKNMKKVTEINFDYDYCNNLLNIYIEKDMFYLIYKNDELAENIVILEKYNYNGEKVKSTSYFIDKLIEKISDYIYDTDVYDEEGLMLRGDENNLYLGYNTEILKYPGGDILTIDKNSLKVKSHKHIDGYFINKFELVGNTIAILGKTIKERVRLAGKDYRDVLICYDKNSYNMKFIKTITKEKIELFTDNRYLYLLSSNLDDYNCEIEQMEIY;locus_tag=LOCUS_05190;note=MGA_519
sequence1	MetaGeneAnnotator	CDS	619066	620466	.	+	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRNDKMRKIKRTTIVLGLVFSLIGCFSSEDGCANPKLVTVFPKDKTIIQTGDSVELLVAAVGADNRLKTWQWGRDYKIFSIIDYGTENIDIIGDVIKAKKRGLARIKVGYKPKHSTRYYDSPILEIKDNLYKIRKNKQLNKKPKKVIFSNNKLYMVETDNFILKLKEYDDDLIVKSEEDVVEEKNIFFDNDLEKYTVENGILKNISNGKELEISKTEAVNYYLNDDNKNYLLYKFKENKNKLGEVENYVDKVGIISLKNMSKILELDDMPVRIYYGKEKIYLISNILELEEGFVIKTYDYSGNFLEKNLYSTGKLISDKVETEYKGKPRSIGEKILIIKSDGENLYVAFNTDEDRYPGGNILCIDKNSLVVKSHKHINGYFISDFKILKDNIIFSTKTTVRRILNVGIDNRNTIFVYDKNSYNMKFMKNVTSEKIDIYNNDNYLYILGYSLDDYNCEIEQIEIY;locus_tag=LOCUS_05200;note=MGA_520
sequence1	MetaGeneAnnotator	CDS	620648	621538	.	+	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLIFGFFILNLTIAFSKDTNFYNLEFWKKLEKVDYPIVFIHGIGGGFKNWDIAATLVSNENYYEMRYLDGKGLFHNYFPENQNKSKKPWVWNVSYYTMNPLKESIEGDLTTYAKRLEEIIEKIKLITGKEKVVLIAHSMGGLVARKYMTLNDKNWDSVYKILTVGTPNIGVSTSVPIVGQLRDLGMNNSFQKDMNKVWYSKDYKKKWGVVGGVETKLWINYKNNKFATDLAGIGYVEIRSSIPNGEWKEAVRELNRAKYNTKNYGFRIAVSDNHMGLLYNKGTLEGIVWAIKK;locus_tag=LOCUS_05210;note=WP_011963841.1 alpha/beta fold hydrolase (Flavobacterium psychrophilum) [pid:24.9%25%2C q_cov:68.9%25%2C s_cov:39.1%25%2C Eval:2.8e-13%2C partial hit],MGA_521
sequence1	MetaGeneAnnotator	CDS	621612	622058	.	+	0	ID=MGA_522;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010905539.1;translation=MNIAKNSLGRQISRIAFKLREYINSELKDYNISGGKIHFLMKIQNEDGMCQEKLTEILKVDKATTGRAIKKLVDLGYVTRIKDEKDKRYYRLHLTESGKNIANIGKKVLKETSEMLESGFEDEEKIVIRKLLSKININLETARGGQNE;locus_tag=LOCUS_05220;note=WP_010905539.1 MarR family transcriptional regulator (Lactococcus) [pid:32.1%25%2C q_cov:88.5%25%2C s_cov:82.9%25%2C Eval:9.9e-16],MGA_522
sequence1	MetaGeneAnnotator	CDS	622051	623406	.	+	0	ID=MGA_523;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020392.1;translation=MNKRKEMLAKENIGKLLFKLSMPATIGMIVQALYNVVDTIFVGRGVGTLGIGALTIAFPIQMLIMAIAQTFGIGGASMISRALGAHEDEKAENIFGTMISSLVIISVVITGVGLLFINDILKIFGATTTILPYARDYIGVIFVGVIFSNFAMSVNNIVRSEGNAKVAMKSMLISAIMNTILDPIFIFGFHMGVKGAAIATVLSQIFVVIYLIYYFYSGKSMLRIDLKHFRVKFDILKEMVSVGVASFARQVAGSVMAIILNNELGFYGGDTSIAAFGIVNRFMMFVFMPMFGVVQGVQPIVGFNYGSKDYTRVKNVLRLAIKVVTLFSIVGFLVSQLFSVQISSIFTKDIDLINSSAFAVKIIVIAFPLIGFQIIGGGFFQSIGKAKPALFLALSRQVLFLIPLVIVLPMFFKLNGVWISFPLADTMGFIVTFFMYKREIKVMTKLEKIKI;locus_tag=LOCUS_05230;note=WP_011020392.1 MATE family efflux transporter (Methanosarcina acetivorans) [pid:50.9%25%2C q_cov:98.7%25%2C s_cov:96.1%25%2C Eval:1.9e-124],MGA_523
sequence1	Aragorn:1.2.38	tRNA	623458	623533	.	+	.	ID=Aragorn_21;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00210;note=Aragorn_21
sequence1	Aragorn:1.2.38	tRNA	623542	623617	.	+	.	ID=Aragorn_22;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00220;note=Aragorn_22
sequence1	MetaGeneAnnotator	CDS	623727	624182	.	+	0	ID=MGA_524;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015988.1;translation=MEIQEQIFAIIEPITEEMKLELVDVEYVQDGSHLFIRVYIDKDGGVDLDDCEKVSRAVEEKVDSIVKDKFFLEVSSPGLERPLKKEKDFSRFEGEKALIRTRQKIMDKRKFEGRIKKYENGIINLEVENEIIEIEFKNVKKANLIFEFEEI;locus_tag=LOCUS_05240;note=WP_011015988.1 ribosome maturation factor RimP (Fusobacterium nucleatum) [pid:44.7%25%2C q_cov:98.7%25%2C s_cov:96.2%25%2C Eval:2.3e-34],MGA_524
sequence1	MetaGeneAnnotator	CDS	624195	625265	.	+	0	ID=MGA_525;product=transcription termination factor NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903346.1;translation=MKEKDFKAFLNALSQLEEEKGIEKEKMIETVEQALLAAYKKNYGEEKEATIRIDRKKGYVKVYAIKRVVDELPSNHDEISLKEARSYDKTVEIGDEIEIEEKCEAFKRNAIQNAKQIVIQKVREAERETLFSDFKEKEDSIITGTIRRIDERGNVFIEIGLNEILLPTIEQSIGDVYRVGERIKVYVAGVEKTTKHPKIIISRKRPELVKKLFEIEIPEIEDGVIEVKSIAREAGNRSKVAVYSEDINVDTVGACIGQNGMRIKEVVRELNGEKIDIVKWVEDKEEYVANALSPAKVKSVKIIAGEGARVIVTPDQLSLAIGKSGQNARLAAKLTGIRVDIKTEEKKEDIVKEDEE;locus_tag=LOCUS_05250;gene=nusA;note=WP_005903346.1 transcription termination factor NusA (Fusobacterium nucleatum) [pid:62.6%25%2C q_cov:94.9%25%2C s_cov:95.2%25%2C Eval:8.3e-114],MGA_525
sequence1	MetaGeneAnnotator	CDS	625255	625791	.	+	0	ID=MGA_526;product=DUF448 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903345.1;translation=MKSNPIRTCVACKETAEKATLFKLVEREGKYVLDEKHKMDGRSIYICKSPLCVKKISKNKKYNIDTELLLLLMNKIKIARKEPIKALKSIINSGKVTFGIKLVQEQVARNKASLLVLAEDISKKNEEKIKFGIKDKKIPIVKFSTKEELGELFGKDEVTVIAILNKKIAGGFFKALGR;locus_tag=LOCUS_05260;note=WP_005903345.1 DUF448 domain-containing protein (Fusobacterium nucleatum) [pid:40.9%25%2C q_cov:95.5%25%2C s_cov:96.0%25%2C Eval:2.7e-31],MGA_526
sequence1	MetaGeneAnnotator	CDS	625796	627814	.	+	0	ID=MGA_527;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894893.1;translation=MTHKIRVHELAKEYGISNKDFLEKLNEWDIAVSSHLSGLTEEQVEIIKKKLDVKKSKKEKMKEQKEEQRKAKEMKKAKIAEEKAKEEELKVINILSEITIKELAEKMNISPTEIIKTLFLQGKAFTINSNIEFELVEEIAESYGYLVEQEEKEEETYGEKFSLEIEDKEEELLDRPPVITVMGHVDHGKTSLLDAIKETTVAEGEAGGITQRIGAYQIIKDGQKITFIDTPGHEAFTEMRARGAKVTDIAVLVVAADDGVMPQTIEAIAHAKEAEVPIIVAVNKIDKDGANPMRVKQELSEYDLLPAEWGGTTDFVEISAKKRINLQDLLDTIVVTAEILELKANPKKRAKAVVLESRLDQQRGPVADILMQEGTLKVGDTVIAGESYGKVRAMTDDKGKRIKEALPSQPVEIIGFDKVPEAGDVVYAVQNDKQGKKIVEQMQLENKARDYQQRGHISLDRLHDKIEGEEFKELKLIIKADTRGSVEVLKESISKLSNEEVAVKIIYAAAGAISEGDVKLAEASDAIIIGFNVRPSTKARLEAEKEEVEIRNYNVIYHLTEELAEAIKGMLSPKFKEVYQGRVEIKKVFKITNVGNIGGAVVVDGLIKRNSEIRVLRNGIIVYTGELSSLKRFTSDAKDAIVGQECGIGIANFNDIKEGDIIEAYMMEEIPR;locus_tag=LOCUS_05270;gene=infB;note=WP_005894893.1 translation initiation factor IF-2 (Fusobacterium) [pid:59.5%25%2C q_cov:87.5%25%2C s_cov:78.6%25%2C Eval:2.6e-208],MGA_527
sequence1	MetaGeneAnnotator	CDS	627828	628166	.	+	0	ID=MGA_528;product=30S ribosome-binding factor RbfA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903343.1;translation=MNKRRLAGIEKEMARFISKLFYEEVKNPKIKGLVSITKVKVTEDMKFADVYVSVFNADAKEVLKGVEEVKRFLRKRVSEEMRLRYVPELRIKHDDSMEYGAKIDKILNDLKH;locus_tag=LOCUS_05280;gene=rbfA;note=WP_005903343.1 30S ribosome-binding factor RbfA (Fusobacterium nucleatum) [pid:57.1%25%2C q_cov:99.1%25%2C s_cov:99.2%25%2C Eval:7.0e-31],MGA_528
sequence1	MetaGeneAnnotator	CDS	628306	630012	.	+	0	ID=MGA_529;product=single-stranded-DNA-specific exonuclease RecJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367291.1;translation=MEWDCVNADIDKVRDISKKYNISQRLGTILNVRNITLDNEIKLLLDVDYKNFNSPFDFEDMEEVVKCILEKREEGKKIFIYGDYDVDGITSVAFLVIALRNIGFDVGYYIPNRMEEGYGLNKKSIEYIKANNGNLIITVDIGINSEEEINHARKLGMDIIVTDHHKVLETDNYKVLTINPKISKNYKFEFLAGAGVALKLAQAIYIYDDKKLEDLYKFIDIVMIGTVADVMPLSGENRIIVKKGLELINNSNIKGLKYLIHYLRLDHKKISTSDISFNISPMLNALGRIKDSKIGVDFFLEEDEFKIYNIIEEMKEANKTRRSLERKIYQDVEKKLKTLGSKKYIFYSSSEWHPGVIGVVAARISLKYKLPTILISINGDYGKASCRSVKGINIFEILNQKSDKFIRFGGHDFAVGFIAKKDNLEELENHLKNRLENFDVCTLKKRQKLDMEIKSLEEINEDFFEDMDKLAPFGLENEQPVFLTKGVYFDSIRYFGVDMQHFKCYIRKDNMLLASISFNIAHKLKEILSLAQKFDIIYYPEKIWNKGEEIVQLKIKDFKESIDENKMF;locus_tag=LOCUS_05290;gene=recJ;note=WP_147367291.1 single-stranded-DNA-specific exonuclease RecJ (Fusobacterium canifelinum) [pid:44.9%25%2C q_cov:95.8%25%2C s_cov:99.5%25%2C Eval:2.6e-142],MGA_529
sequence1	MetaGeneAnnotator	CDS	630068	631360	.	+	0	ID=MGA_530;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015985.1;translation=MNYEVKKLENSRVEILIKLEGEEVKKYTKEVVNKIRGKAEIPGFRKGKAPDSVILKQFEEAVKEELAEKAVNSNYGTILDKEGLKPIDYANIMKVESTEDKIEVVLTVDVMPEVKVGQYKGLEIEKEKFELKDEHVEEELRKLQDKSGKLKEVAEGEEAKLDDTVSINFEGFVDGVAFEGGKGENYDLKLGSHSFIDNFEDQIVGHKVGDEFDVSVNFPEQYKEDLAGKAAIFKVKVNAIKRMELPELNDEFAKEAGFETLADLKEKKEIEIRERENSKIENGFINTILEKIKAGSEIEIPEALIKQEVKARIAEYEAQLQSQGISIDLYLSMNQMKKEDLEAQLRPIAADKVKVDLIINEIAKLENVEVKEEEIEERMAEVAKYYGMEIEKLRAELKAKGNYENFLESLKLEKITQKTIDLLVSETIEK;locus_tag=LOCUS_05300;gene=tig;EC_number=5.2.1.8;note=WP_011015985.1 trigger factor (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:98.6%25%2C s_cov:99.1%25%2C Eval:2.2e-98],MGA_530
sequence1	MetaGeneAnnotator	CDS	631457	632047	.	+	0	ID=MGA_531;product=ATP-dependent Clp endopeptidase proteolytic subunit ClpP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003417102.1;translation=MYSPVVIENTGNSERAYDIYSRLLKDRIIFLGTEINDQVSNAIVAQLLFLEAQDPDKDIIMYINSPGGVVTSGLAIYDTMQYIKPDVSTVCIGQAASMGSLLLTAGAKGKRYSLATSRIMIHQPLGGAQGQATDIEIHTKEILRIRNITENILVKHTGQTLKKIKKDTERDNFMSAEEAVKYGLIDKVFYKKRGEN;locus_tag=LOCUS_05310;gene=clpP;EC_number=3.4.21.92;note=WP_003417102.1 ATP-dependent Clp endopeptidase proteolytic subunit ClpP (Clostridioides difficile) [pid:73.0%25%2C q_cov:96.4%25%2C s_cov:97.4%25%2C Eval:8.3e-75],MGA_531
sequence1	MetaGeneAnnotator	CDS	632047	633288	.	+	0	ID=MGA_532;product=ATP-dependent Clp protease ATP-binding subunit ClpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003417105.1;translation=MAKKASCSFCGKSEDEVYRLIAGPNVYICDECVEACYDMIDIEGEKFSSNVSDINLLKPQELKNKLDEYVIGQDETKRVLSVAVYNHYKRILSKKKNSNKEDDVELQKSNVLVIGPTGSGKTLLAETLAKILKVPFAIADATTLTEAGYVGEDVENVLVRLVQNANMDEKAAETGIIYIDEIDKIARKSENTSITRDVSGEGVQQSLLKIIEGTKSNIPPNGGRKHPNQEFLEIDTKNILFIVGGAFDGLEGIIKHRTNEKSIGFGADIKSKKENEKENMLGKVLPEDLTRYGLIPELIGRLPIITVLESLDEKALINILTEPKNALVKQYEKFFDMENVEIEIEKEALEEIAKQAIKRKTGARGLRSIMEASMLDLMYKIPSMDNVEKVIITKESISDSSKVIIKKTDEKSA;locus_tag=LOCUS_05320;gene=clpX;note=WP_003417105.1 ATP-dependent Clp protease ATP-binding subunit ClpX (Clostridioides) [pid:61.3%25%2C q_cov:99.5%25%2C s_cov:98.3%25%2C Eval:2.6e-141],MGA_532
sequence1	MetaGeneAnnotator	CDS	633303	635606	.	+	0	ID=MGA_533;product=endopeptidase La;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015983.1;translation=MKQAPLIPARDLLLFPGVIAPIFIGRKKSIGSLQKSLLDNNQMILFMQKEKTKEKIKLPEDIYDIGLLVNIVQTVKMPDSTIKTLVEVKNRVRLLEVIENKDEISGKYENINFETVDEEQLEATKRKVITIFEKYARITNKVSPELVLNLRGIDSTSKMFDLISANLNISTQRKQELLEIFTLEDYGYKLIEVLTHEVEILELEREIDKKVKEQMTNIQKNYYLREKVKAIQEELGEKKSGDELAELKEKIEKSNLPKYAREKLEKELSRLMKMPSHSSEASLTRVYIEIILELPWNEATKDTLNIKKAKKILDEDHYGLEEVKERILEFLAVKKLNNKLSGTILCLVGPPGIGKTSLAKSIARSLGRKFSRISLGGVRDEAEIRGHRRTYIGAMPGRIIKELKHVGTNNPLILFDEIDKMATDFRGDPSSALLEVLDPEQNREFTDHYVDMPFDLSNIFFITTANNLGEIPGPLRDRLEIITLDSYTEFEKLNIAKKHLLKKSQEENGLKDYKVKVSDKALLRIINEYTREAGVRGLKRELDRIFRKGAKNILEFDKKDVIVNLKNLKSYLGNAKYRPDKMRIKEGKIGVVNGLAWTSVGGTTLEVQSIKMQGKGKLLLTGKLGDVMKESAQVAHSFVKSKAEDFKISIDCYEKSDVHLHFPEGAVPKDGPSAGITITTAIVSILSNRKVRQDIAMTGEITITGEVLPVGGIKEKVIGAHRVGIREVILPIDNEVDTEKLPSEIKKDMKFYFAKVYDDVEKIVFEK;locus_tag=LOCUS_05330;gene=lon;EC_number=3.4.21.53;note=WP_011015983.1 endopeptidase La (Fusobacterium nucleatum) [pid:54.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-253],MGA_533
sequence1	MetaGeneAnnotator	CDS	635710	636285	.	+	0	ID=MGA_534;product=ribosome biogenesis GTP-binding protein YihA/YsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894870.1;translation=MEIKRADFVKSAVYSKDYPEKTKIELAFVGKSNVGKSSLINSLTNRRKLAKTSKTPGRTQLINFFLINNEFHFVDLPGYGFAKIAKVIKDTWGKIIEDYLTSERNKLVFVLLDIRRTLSEEDANLLRWLEHYDIDYKIIFTKTDKLSNNERFRQLKKIREKMEFSNEDVFFYSSVTREGRDKLLEFIESIK;locus_tag=LOCUS_05340;gene=yihA;note=WP_005894870.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Fusobacterium) [pid:68.8%25%2C q_cov:98.4%25%2C s_cov:97.4%25%2C Eval:4.0e-71],MGA_534
sequence1	MetaGeneAnnotator	CDS	636662	639307	.	+	0	ID=MGA_535;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015981.1;translation=MSNLEGKYSPKDIEEKWYKTWEENGYFHTEPKEGQPKYTVVIPPPNVTGVLHIGHVLNNSIQDTLIRWKRMQGFNTLWMPGTDHAGIATQNKVERKLAEEGKTREDIGREKFIEEVWDWKEKHGGIITKQLRRLGASLDWDRERFTMDDKLADSVKEIFVKLYKDEMIYQGEYIVNWCPRCGTALSDDEVEHEDLGSFLWEIKYPIKDSDEFIVVATTRPETMFGDTGIAVNPNDERYKHLIGKKVILPIVNREIPIIADDYVDLEFGTGIVKMTPAHDPNDFKIGLKHNLEFINVLNENGTMNENATSEYEGMDRFEAREKVLADLKDRKLFVGEKKINHSVGHCYRCNTVIEPRVSKQWFVKMGPLAERAIEVVKNGKVKILPEKWEKVYYNWLDNIRDWCISRQIWWGHRIPAYYCESCGEMVVSKEAPHSCPKCGGEKFRQETDVLDTWFSSWLWPFSTLGWPENTEELKYYYPTDTLVTGADILFFWVARMIMAGLYVMDEIPFENVFLHGIVRDEQGRKMSKSLGNSPDPIEVINKHGADALRFSMLYNTSQGQDVFYSEKLIEMGSNFANKIWNVSKFVLMNLEGFSPADLDVDNLEFELADNWILSKLNQTILEVNRHLEKFALNDAAKEIYEFLWRDFCDWYVEIAKERLYKAQTNNEKETAQFVSWYVLEQGLRLLHPFMPFITEEIWQTLPGTGETIMLSDYPEANPEMISITVDKNFDFIQRVIRAIRNIRTEMNISLGKKLTGIFKSSDGEEEVTLEQNKKYLIKLANLDETLISCEIEKPEMASVAVVDNTEIFIPLDGVIDLEEEKEKLKKEILKFEKELDRVTKKLSNEKFLGKAPADIVEKEKNKEKEFIEKLDKLKKSLEEIL;locus_tag=LOCUS_05350;EC_number=6.1.1.9;note=WP_011015981.1 valine--tRNA ligase (Fusobacterium nucleatum) [pid:60.0%25%2C q_cov:98.3%25%2C s_cov:98.2%25%2C Eval:0.0e+00],MGA_535
sequence1	MetaGeneAnnotator	CDS	639311	639520	.	+	0	ID=MGA_536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIDKNLQEKILKILEKHDNYISTKILYEEIPDLDEKKLNGNIVFLEKEDKICVKVGVDNKNFKVKMKR;locus_tag=LOCUS_05360;note=MGA_536
sequence1	MetaGeneAnnotator	CDS	640033	641181	.	+	0	ID=MGA_537;product=L-threonine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261808.1;translation=MSFMFFMPPMSLMGGGCLEDAGKEVKKLGLKKALVVTDKVLVKINLVDNLTKVLEKNGIEFVIYDETKPNPTVTNVNNGLKILKDNNCDFVISFGGGSPHDCAKGIALLATNGGDIKDYEGVNRSAKPQLPLVAVNTTAGTASEMTIFSIITNEDTHVKMALVDKHMTPIIAVNDPNLMEAMPKGLTAATGMDALTHAIEAYVSTAATPITDACAIQAIKLIVKNLKNAVDNGKDKEARDKMAYAEYLAGMAFNNASLGYVHAMAHQLGGFYDLPHGVCNAILLPHVEEYNSQVVSGKLSEIAGFMGEDTKGLSEKEGAKKAIEAIKKLSKSVNIPKGLAELDVKEKDFKVLAENALKDACGLTNPKQPTLEDVIEIFKRSM;locus_tag=LOCUS_05370;gene=yiaY;EC_number=1.1.1.103;note=WP_011261808.1 L-threonine dehydrogenase (Aliivibrio fischeri) [pid:63.9%25%2C q_cov:98.7%25%2C s_cov:99.0%25%2C Eval:3.3e-140],MGA_537
sequence1	MetaGeneAnnotator	CDS	641294	642523	.	-	0	ID=MGA_538;product=[FeFe] hydrogenase H-cluster maturation GTPase HydF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392791.1;translation=MSLNKTPTANRLHIAIFGKRNAGKSSLINAITNQNLAIVSGFAGTTTDPVYKAMEILPIGPVVLIDTAGIDDEGELGELRIKKSIDVIKKTDIALIVISSDDGITTFDYEVIDKLKKSETPFIIVINKIDINDLNLKLENEIKSLKVPYIKVSALKKIGIEDLKKVIIKYSPKTFEQPSIVGDLIQPGDTVVLVIPIDTGMPKGRLILPQVQTIRDILDNDAIVHITKERELRLALSNLKQKPKIVITDSQAFMKVSADTPNDILLTSFSILFARYKGDLFKLVKGAKALRDLKPGDKILIAEACTHHQQPDDIGSVKIPRWIRQNIEPDVHFDFYSGRDYPDNLKEYKVVIHCAGCVLNRKEMLSRIEASEVEGIPIINYGVAIVFLHGILDRALKPFPEVYYEWLEN;locus_tag=LOCUS_05380;gene=hydF;note=WP_011392791.1 [FeFe] hydrogenase H-cluster maturation GTPase HydF (Moorella thermoacetica) [pid:59.0%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:3.4e-138],MGA_538
sequence1	MetaGeneAnnotator	CDS	642660	643340	.	+	0	ID=MGA_539;product=anaerobic ribonucleoside-triphosphate reductase activating protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584046.1;translation=MKFAGIIKSSFVDYPKKVVATIFTGGCNFRCEYCHNGVLIEPKDVDLYLTEDEIIKFLKKRKNVLDGLCITGGEPTLWNGELVNFIRKIKLELGEKFLIKIDTNGSNPKFIYDNKKLIDFFAMDFKSLNYNKFSKINLDTIKESLKQLESTKDYEVRITMYPNYIKEEDFNKIAEILKDVKKIAIQQFNNKEVYMDKNMEPYKKEVLYKLKTEIENRGVLVEIRGE;locus_tag=LOCUS_05390;note=WP_012584046.1 anaerobic ribonucleoside-triphosphate reductase activating protein (Dictyoglomus turgidum) [pid:36.4%25%2C q_cov:96.0%25%2C s_cov:99.1%25%2C Eval:7.4e-31],MGA_539
sequence1	MetaGeneAnnotator	CDS	643321	644391	.	+	0	ID=MGA_540;product=GTPase HflX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081386.1;translation=MKYEVNSKKGILISLENNYLDELEELVNNIGIEVVERAVQIRKKPDPKYYVGKGKIEEILNIIEENEIEFAIFDDEIRTIQRKNIKNKLGITILDRTDVILNIFSKNAQTKEAKLQIELAKLKYKLPEIVGLGKAMSRLGGGIGTRGPGEKEKEYKKRAILDKIKKIEDELKKIQRTRGEQSKNRKRRKAKQVILVGYTNAGKSTLMNNLTGADVTSEDRLFVTLDTKMKKIYALREKNIVLGDTVGFIRKLPHVLVASFKSTLEVVKEADILLKIIDISKEAFEEDIKVIDEVLEEIGDSDIKNIYVFNKVDLYANYENEIKKLEEKYKNVAFISAQNNINIEELLEKLVIELRG;locus_tag=LOCUS_05400;gene=hflX;note=WP_004081386.1 GTPase HflX (Thermotoga maritima) [pid:43.5%25%2C q_cov:93.0%25%2C s_cov:81.0%25%2C Eval:4.6e-72],MGA_540
sequence1	MetaGeneAnnotator	CDS	644396	646165	.	+	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKISQKLILLALGPVIFFSLILFVLINFIFVNTIEKNFKQKLNDSSIYVNQTINGIIERETSKVSILARETELNILIKEGYKKTGIPYKIYKTKNGVPYVKFKKVKTKFDYLVSLTYWKEAMYNQANNRYRGLELFNEDGKIIGRSSGKKKMLKTKDYDNMVMAVLNKNTVFKRKKIVSRIEVNEGLLYLKIFVPVPTDSNNPYGGIILSYPLDRDALLEIKGKTESELKFLDEDFNSKYSTILFKSNNEILNYKDYKELIKKGIPFKIKNRGEYAIAIPFTNVKDKNIGYILIIKRIKELQELEDKFQNIIIIVSIILIILISFVILLEAHKIIEQINKLVLGIENIENEEYEVIEDGEFDIYEFELLRKKYNAMILNLKRNIEGINYRDEALTRMNEELMMVIKEKEKAYKMSIRDGLTKLYNHKYFQEKLLEEIKKSKRYGASLSLIMLDIDYFKKFNDDYGHQVGDKVLINLSKVLRDTIREYDIAARYGGEEFMVILPNTDQIGVRVLAERVRQVVEKTKVENLKVTISLGITTFPVGCKEIKENEDPVKIRDIMIKQVDEALYKSKEKGRNRVTEYIGGES;locus_tag=LOCUS_05410;note=WP_010943987.1 diguanylate cyclase (Geobacter sulfurreducens) [pid:43.3%25%2C q_cov:29.5%25%2C s_cov:54.9%25%2C Eval:5.0e-35%2C partial hit],MGA_541
sequence1	MetaGeneAnnotator	CDS	646162	647085	.	+	0	ID=MGA_542;product=tRNA-dihydrouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016583.1;translation=MKIFIAPIAGVTDYTYRKILKEFNPDMMFTEMISTNAITRENKKTLGMLKRLPGDSVQLFGKDIDIMVKAAKFIESIGVKHIDINMGCPVTKVVKNGYGSAMLGDPDLIEKLLIKLKENVNVSLSIKIRIGYKNFKNPLLIAKIADKLNLEFITIHGRTREQMYSGVANWDIIKEIKENVSIPVIGNGDIFTAEDAWEKAKYSNVDGIMLARGIFGNPWLIKQIRERFEFGKVITIPSEREKIEMALLHLKMSIEDKGEKRGIFESRKHICWYIKGLKNGTNIKNIINKIENYEEVVEILKKYESTF;locus_tag=LOCUS_05420;note=WP_011016583.1 tRNA-dihydrouridine synthase (Fusobacterium nucleatum) [pid:50.7%25%2C q_cov:98.0%25%2C s_cov:98.7%25%2C Eval:2.7e-83],MGA_542
sequence1	MetaGeneAnnotator	CDS	647099	647365	.	+	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFDEILKDKKFPCKISKEDGGILKKQFELDKKSLNNPKDKTDIEYIYYKEYNKRKYVLIEEYMFRDGETVLEVERAIDVNYFLNVL;locus_tag=LOCUS_05430;note=MGA_543
sequence1	MetaGeneAnnotator	CDS	647396	648349	.	+	0	ID=MGA_544;product=endolytic transglycosylase MltG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964992.1;translation=MKKVLIIIFIFSITLVSTALYFYNYIYNNPISIKKVLEIKKGETVNEILNKIGGLNKNIIKLYLKITGLDSEIKTGHYTFKGNKITIDKLIKKFVSGEVSVVRVSIPEGYTVNQIVNLLEKNNLIKKDDFYKKLNEMKNVGLFTKTNDYEGYFFPDTYYFYLGESSTEIIEQFFNRFKEKTSNYRNMFTKKEFYNKLILASIIEKEAYYNKEKPIMASVFYNRLKINMKLQSCATVEFLYNYKKKKLYYKDLKIKSKYNTYLYNGLPYGAISNPGIKSIEAAIFPKETSYYYFRLGEERHHIFSEKFYRRGSFNGNN;locus_tag=LOCUS_05440;gene=mltG;note=WP_010964992.1 endolytic transglycosylase MltG (Clostridium) [pid:36.8%25%2C q_cov:96.5%25%2C s_cov:93.8%25%2C Eval:1.1e-50],MGA_544
sequence1	MetaGeneAnnotator	CDS	648336	648677	.	+	0	ID=MGA_545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METIDIVKEKGDILFIKLTDSIVINNIELFEREVYSILSDKKFNIIVDISKSEFIISQGLGILIKLNKKCKDNGGKIVIMNPNDRLKRILKVVHMDKIIDVEFNEENAIKKML;locus_tag=LOCUS_05450;note=MGA_545
sequence1	MetaGeneAnnotator	CDS	648705	649550	.	+	0	ID=MGA_546;product=protein-glutamate O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941804.1;translation=MDNLYKKELTEEEFKKFRDYIYKKSGINYTINKKIILQNRIRRRLRDLGLNSYLEYFNLIKNKPIDSPEMIKFFDEVTTNETSFFRHERQFVALKSMIIPELLEIKRNKDLNVWSAAASMGKEAYTISMVLKETVGLHNYKMKILGTDLNNKVLNMAKLGEYDIKDGKDIPREYEKYVIRDKENGILKIKEDLKKMIEFKRFNLKESYSFFPKMDVIFCRNVFIYFEKKTQKEMVDKFYDRLIPGGFFILGHSETLNGVSDKFIYRKFNGENLMIYQKPLK;locus_tag=LOCUS_05460;note=WP_010941804.1 protein-glutamate O-methyltransferase (Geobacter sulfurreducens) [pid:36.7%25%2C q_cov:99.3%25%2C s_cov:97.9%25%2C Eval:1.9e-48],MGA_546
sequence1	MetaGeneAnnotator	CDS	649661	650662	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKCKYIFFIVIMLSNISYAKELPIDKENYLFRNVSVEDIGMGYTSIANKILDGLTVNPASVYFLKNSYFTIGYSYAAPKNIYYYQSVNDIITKSDINYISLTSDKGGMYWKKYSDEKELSLKHKYNFNINEIGLSITQKSTTTKGLSSGLTLKIYEGGILEGRTDNGIDLTVDKGLGYGIDLGFLLKRNFVYAGVVWENILGKIYWKKYDDVLVNGRIRGGIGVNFGFVKYGLSFDKVLLDTVSIKYGQGIEMLVLNFPKEYSNFMLKGLTAKFRAGNYGENLFTNSKINTYGLEIGNNKYILNFGVASEKINPFEDQNMILKSSISYKLK;locus_tag=LOCUS_05470;note=MGA_547
sequence1	MetaGeneAnnotator	CDS	650814	652532	.	+	0	ID=MGA_548;product=B12-binding domain-containing radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860933.1;translation=MKKILFVGINSKFIHTNLALRYIIKYAEKNIKDEKYSMKLVEYTINNTIYSIIKNIYKEKAEIILFSMYIWNREYTLKVIKEVKKVLPNSKIILGGPEAAYDAVDIMNENQEIDFIIFGEGEKVVLNFLKEDNAKSIKGIYYRENGVILSNKPEKLIENLDDVPFPYTEEEIKELIAERKIIYYESSRGCPFNCSYCMSSIEKSVRFFSLDRVKKDLKFFIENSVNLVKFVDRTYNLKKDRYLEIWRYIVDNYKEGIRFHFEITLDLFDEEVLEFLETVPKGLFQFEIGIQTINKKTLKAINRKNDLERISKNISLLKKNIHLHLDLIAGLPYEDYKTFGNSFNYVYGLNPEMLQLGFLKILKGTQISTEIEKYGYKYLNFQPYEVLENKFICYGEIVKLKNIEKLVDFYFNSNEFNVSVPFIINNFYDSSFEFYEDFSEWWDNKKYFEVAHKKIAVFDFLYDFYLEKEFDKLDMFKDYLKFDYIKMEKPRFFHEWYKKNVTKNEYENIISNSKLNIEFKSVREKYKKTEVEIFNYDILNGEKDNYSNNKNGSENIKILFIYKNNETEIRCV;locus_tag=LOCUS_05480;note=WP_011860933.1 B12-binding domain-containing radical SAM protein (Clostridioides difficile) [pid:41.4%25%2C q_cov:98.6%25%2C s_cov:97.8%25%2C Eval:7.8e-126],MGA_548
sequence1	MetaGeneAnnotator	CDS	652533	653717	.	+	0	ID=MGA_549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFELIKQISKKKLILLFILIGSFNLFSQDLLTESFGKKLRVGIKRISNNVVYIKSYNGEFNIELENGKIIKKSALRLIRKNKKIYFENKSIDILKIRRSNVVTIIGIGKSEEKYHKYRGDFDFIIYKGKILPINIILAEEYLYSVVPSEIGINFPDEAIKSQIVAARTYLYYGLKNKKYEKFDLLDGTSSQMYLGYERENSKINNLINLTSHEIMVYKDKTINALYYADSGGWTANNEDVWSGGKPIPYLRAVDDKDNCKNSPRSNWSYRISKKRVSKIFGFNINKIKIIDKKNRRVKKVLIYGNKKKIISGNELRRKLGYTNVFSTVLKILDTGSYFIFKGHGSGHGVGMPQWGAYGLAKKGYDYKKILKYYYTGVKIKKIENFDKYVIIKK;locus_tag=LOCUS_05490;note=WP_000162390.1 SpoIID/LytB domain-containing protein (Leptospira) [pid:35.4%25%2C q_cov:74.6%25%2C s_cov:80.7%25%2C Eval:8.5e-38%2C partial hit],MGA_549
sequence1	MetaGeneAnnotator	CDS	653731	654969	.	+	0	ID=MGA_550;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583970.1;translation=MRIGIFTDTYKPNINGVVTSIEIKKRELEKLGHKVYIIAPTEPNYEEIDPDIIRLKSFKLVFQPEYRLTYPPKLETLKRIEVLNLDIIHAETPFSLGLLGAYIAKKTGKPLVHTYHTLFPEYVHYLKLPKTGTKKMAESISAIYCNACNYIISPSNQVKEKLLEYGVKRNISVIPTGIDVCKFKNSKKIGIRKKLNIKEEEKVLIFVGRLGEEKNIDFLLDSLKLLKEKDDNIKLMLVGDGPYREKLKNRCKELNIEENVVFAGYVQRENIAEYYRESDIFVFSSLTETQGLVVLEAMATGIPVVAVKASGVEDMVENGVSGFLTSLDEKEFVEKIDLILNDEELYKEISKKSMEEAEKFTPENTFAKMADIYIELSEKRRMKIIKKALKLRRSRAARIIARFGKRRRKNKK;locus_tag=LOCUS_05500;note=WP_012583970.1 glycosyltransferase family 4 protein (Dictyoglomus turgidum) [pid:39.1%25%2C q_cov:91.3%25%2C s_cov:97.8%25%2C Eval:9.8e-77],MGA_550
sequence1	MetaGeneAnnotator	CDS	654938	656320	.	+	0	ID=MGA_551;product=tRNA lysidine(34) synthetase TilS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015953.1;translation=MVKGGEKIKNKVLLNLKENSLINKKDKIVIGISGGADSVALFHLLMELKEELQINFIFAHVNHMLRGTADRDQRFVEELGKKYNVPVYVLKKNIKKYAKENKIGGEEAGREIRYSFFKEILNKTDADKIALAHNLNDVVETFMFRLMRGTSLNGLSSIPIKRGKFIRPILNISKEKIYNYLNEKGYKYVTDETNFQDIYTRNKIRLNLIPYIKESFNVKFEEKIIKLVSEIDETNRYFEGIISKINLENEIYISELKKYDEFIQRKIINKFLSNKEIEINSNKIYEILNILNSGGTLKLDLTKEFILVKEYDIIKIVKRNKIFKNNLNGIIENLEKELKIGEEILYKNKLITTEVVEISKMQKDSGKRVVYLDYNKLKDKEKFVIRSRKNGDYFYPNGMNGKKKLKNFFIDMKIPKDERDNIIIILNENEIISVENLRYNKKYQITEETKYVVMLIIREV;locus_tag=LOCUS_05510;gene=tilS;EC_number=6.3.4.19;note=WP_011015953.1 tRNA lysidine(34) synthetase TilS (Fusobacterium nucleatum) [pid:38.3%25%2C q_cov:98.9%25%2C s_cov:99.6%25%2C Eval:2.7e-78],MGA_551
sequence1	MetaGeneAnnotator	CDS	656321	658384	.	+	0	ID=MGA_552;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869596.1;translation=MENNKNLNEENLEEKKGIKKEKEEKDSLEEQKEKKGINEEKESEEDKKEDKKEDKKNIKDEIDFNFLNDVKNKKINFKNVVLLLFLITIIISLPSLFSKNNFKQEKIVSYTSFESLINSGAIKEVEEKGSYIYAMVPGMDNKNETIKARMIGYRLADDKHLMDQLIKNKVKIKSDEPDKMPFWANILISWFPMLLLIGIWLYMLNQMNKGPGGSGGQIFNIGKSKAKDNNENGPKVTFEEVAGVDEAKEELQEVVEFLKEPSKFLKIGARIPKGVLLLGSPGTGKTLLAKAVAGEAGVPFFSISGSEFVEMFVGVGASRVRDLFNKARKNSPCIVFIDEIDAVARQRGAGLGGGNDEREQTLNQLLVEMDGFGTDENIIIIAATNRPDVLDPAIMRPGRFDRQVVVDRPDIKGREEILVVHSKGKKFNADVDLSIIARKTPGFSGADLANVLNEAAILSARHNSETIMMDDVEEAVEKVMAGPERKSRVINEKEKRIIAYHESGHALVRWLLPDTDPVHKISIVPRGVGALGYTMHLPTEDRFLVSKSEFYKEIKTLLGGRAAEEIIFKDITSGASNDIERSTDIARKMITKYGMSEKVGPLTLGKTDEQPFLGKEMVKSGNYSDETARTIDKEIFEIINGSYAVVKKMLTDNMDKLDKLAETLLEKEVVSGKEMEELFIEEVVVNE;locus_tag=LOCUS_05520;gene=ftsH;note=WP_012869596.1 ATP-dependent zinc metalloprotease FtsH (Thermanaerovibrio acidaminovorans) [pid:54.9%25%2C q_cov:87.5%25%2C s_cov:93.7%25%2C Eval:4.4e-187],MGA_552
sequence1	MetaGeneAnnotator	CDS	658377	658943	.	+	0	ID=MGA_553;product=GTP cyclohydrolase I FolE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391949.1;translation=MNSKFDKEKIEKAVRMILEAVGENPDREGLVDTPKRVARMYEEIFAGIHKDPADEVSVFFTEEHDEMVLVKDIDIYSMCEHHLIPFFGKAHIAYIPKNGKVTGLSKLARVVDVVSKRPQLQERLTTTIADVLMKKLDAEGVVVVIEAQHLCMVMRGIKKAGSKTITSAVRGIFKEDQGARAEAFALIR;locus_tag=LOCUS_05530;gene=folE;EC_number=3.5.4.16;note=WP_011391949.1 GTP cyclohydrolase I FolE (Moorella thermoacetica) [pid:70.5%25%2C q_cov:97.3%25%2C s_cov:98.4%25%2C Eval:4.6e-72],MGA_553
sequence1	MetaGeneAnnotator	CDS	658966	660069	.	+	0	ID=MGA_554;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461739.1;translation=MKRLGIKYLKEGMEIARPIYRADGRIVLGVNVELTEDYILRLPTQGITSIYVKDDRTTDIEVIDILSDNMRTLALTEAKKINDKLLEIYNKSKDKKINEKIMKNELEIVHERLNKLGKEMVEDFMRIRNPLINLIDTRLNEDYIYAHMVNVAAVSILIGRALGYNFEKLVDLAKGALIHDIGIIIGIPYEVRNKSGKLTEEELVMMKLHPKIGYDFIRKMTGINILSAHVAYQHHERYNGHGYPRGLSDGNISEYGYVAGIADVYDAITNNKSYKLRVLPDKAREFFMVARDKFFPAYIVDSFLNKVPAYPNGTTLILSDGSEAVVLKQNKDNLSRPWVRILNSNGKDWADVNLINELNIGIEKILD;locus_tag=LOCUS_05540;note=WP_011461739.1 HD-GYP domain-containing protein (Desulfitobacterium) [pid:35.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-55],MGA_554
sequence1	MetaGeneAnnotator	CDS	660180	660443	.	+	0	ID=MGA_555;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005890045.1;translation=MAMRSKEEIVKEFGKKEGDTGSTEVQVALLTERVKHLTEHLKSHKKDYHSRLGLLKLVGKRRRLLNYLKSKDIEGYRALIQKLGIRK;locus_tag=LOCUS_05550;gene=rpsO;note=WP_005890045.1 30S ribosomal protein S15 (Fusobacterium) [pid:71.8%25%2C q_cov:97.7%25%2C s_cov:100.0%25%2C Eval:2.6e-30],MGA_555
sequence1	MetaGeneAnnotator	CDS	660505	662613	.	+	0	ID=MGA_556;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627490.1;translation=MFNEKMVEMELAGRKLTFTTGKMARQAGGAVILSYGETVLLATVVGKKKPREGADFFPLTVNFIEKTYSAGKIPGGFFKREARPSTNATLTARLIDRPIRPLFPEGFKNEVQIDITVLSYDGENTTDYLGIIGASAALSISDVPFLGPVAGVIVGYVDGEYVLNPLPEQLEKSEINLSVAGTKDAITMVESGAKEVSEELMLGAIMFGHDAIKTIVAIQEEFQKLAGKEKMEFEVKEVPVEIKEFVDINGKEKLEKAVLVHGKLEREEAVDSLELELEELLATKYEDGEIPKEDLSEFKGYFHDLMKKMVRDTIVYKHHRVDGRAIDEIRPISIDIDILPIPHGTALFTRGETQGLVITTLGTAEDEQIIDGLDKAIRKHFYLHYNFPPYSVGETGFLRGPGRRELGHGALAERALREVMPSQEEFPYTVRVVSEILESNGSSSMATVCGGSLSLMAAGVPIKKHVAGVAMGLIKQGEDFVVLTDIMGLEDHIGDMDFKVTGTRKGITALQMDIKITGISREIMEKALEQALKGRLFILNKMEAVIDKPRVEFAPTVPRLATLTIDKEKISDLIGPGGKNIKGIIEKTEAKIDIKDDGNVSIFAINEEKLNETLTMIKAYTQDIEVGEIYTGKVIKIMKFGAFVEVLPGKEGLLHVSELDHKRVANVEDVLKEGEEVMVKVIGKEKGKFSLSRKALIPKEEK;locus_tag=LOCUS_05560;gene=pnp;EC_number=2.7.7.8;note=WP_201627490.1 polyribonucleotide nucleotidyltransferase (Fusobacterium canifelinum) [pid:62.3%25%2C q_cov:98.9%25%2C s_cov:99.7%25%2C Eval:1.3e-247],MGA_556
sequence1	MetaGeneAnnotator	CDS	662816	663661	.	+	0	ID=MGA_557;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015945412.1;translation=MCRINPRVDFVFKKLFGSEENKDLLLDFINSVVSEDDRVTELELKNPYNDKNFRNDKLSILDIKAVDQRGRWYNIEMQIIDQEYFDKRALYYWARLYSGQLSTGINYDNLKKTISINILNFKCLDEENYHNIYKIINMESKEEFIDHLEIHFIELEKYNENFSTMLDRWVNFLKRAEKYEENKLPKELAEVSTIKKAVEILEEMSLNKDERESYEARLKWLRDEDAALKKAEKKGRENGKEEGIKEGIEKIAREALKNKLDLKTISKITGLSEEDILRLKN;locus_tag=LOCUS_05570;note=WP_015945412.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:35.8%25%2C q_cov:99.3%25%2C s_cov:97.6%25%2C Eval:6.6e-41],MGA_557
sequence1	MetaGeneAnnotator	CDS	663692	665035	.	+	0	ID=MGA_558;product=30S ribosomal protein S12 methylthiotransferase RimO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861176.1;translation=MKLALVSLGCHKNLVDSENLIGILSKRKDVEIISNIEEADVAIVNTCGFIGDAKEESIETIIEVGELKETGNLKKLIVAGCLAQRYSEDLMEELSEIDGIIGTGEIDKIEEVLDEVIDGKKIIKSESLDFLANSETERVITTMPHTAYIKIAEGCDNRCAFCIIPYLRGKYRSRTIEDIIKEIENLVSNGVREVNIIAQDTTEYGIDIYGKRRLADLLREIAKVEELERIRVFYTYPSNFDDELIKVIKEEDKICKYIDIPIQHVSDKILTSMRRRGTAKEMKELLYKIRREIPEAVFRTSLIVGFPGETEEEFEELKDFVEEFKFNYAGIFNFSREEDTPAFDLENQIDDDTRHKRWVELTNIQSKIAENINRKYIGEVVEVIIDGVSEESEYMLEGRTCGQAPEIDGKVLINDGTGERGEIVKVKIEQNFDYDLLGGIIENEFTK;locus_tag=LOCUS_05580;gene=rimO;EC_number=2.8.4.4;note=WP_011861176.1 30S ribosomal protein S12 methylthiotransferase RimO (Clostridioides difficile) [pid:49.8%25%2C q_cov:98.7%25%2C s_cov:98.9%25%2C Eval:1.7e-117],MGA_558
sequence1	MetaGeneAnnotator	CDS	665019	665531	.	+	0	ID=MGA_559;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904217.1;translation=MNLPNKLTLLRIVLIVPFLIFLELDMPIAAVLIFAIASITDFFDGYIARKDNLITKFGKLMDPLADKILVLSALTVFVELHYIPSWMVIIIFTREFLVTGLRILAASDGVVIAAAKIGKYKTASQMIVIIIVIFTKNSIISQLLMLIPVVLTIWSGYDYVIKGKKYFLDD;locus_tag=LOCUS_05590;gene=pgsA;EC_number=2.7.8.5;note=WP_005904217.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Fusobacterium nucleatum) [pid:54.7%25%2C q_cov:99.4%25%2C s_cov:99.5%25%2C Eval:1.7e-53],MGA_559
sequence1	MetaGeneAnnotator	CDS	665635	666429	.	+	0	ID=MGA_560;product=pyrroline-5-carboxylate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048171.1;translation=MKIGFIGAGNMGEAYISALYKEKEILFYELNNDRREYIKSKYNVESANTISDLILGVDIIFLAVKPQVMKYVLEELAELKLDNKIIISIAAGINLNFYEKYLGKNKKIVRVMPNTPALIRKGMSGVVFNENFSEKSEKNEILELLSATGETIEIDEKGLDILTAISGSGPAYVFVLINSLADGGVKLGLSKEVALKLAVETFIGSAELIKQTGKHPEQLKDMVTSPGGTTAAALFDMEKNGIRYTMESAVEACYLKVKELAGNK;locus_tag=LOCUS_05600;gene=proC;EC_number=1.5.1.2;note=WP_012048171.1 pyrroline-5-carboxylate reductase (Clostridium botulinum) [pid:39.4%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:1.3e-48],MGA_560
sequence1	MetaGeneAnnotator	CDS	666502	666759	.	+	0	ID=MGA_561;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVLIINLAVRVIEALIFIRIILSWIMPRGGQNSDFGRFINDLTEPLLAPFRVVLPLGNMGGLDLSPIILLFILDIVRNFVVRML;locus_tag=LOCUS_05610;note=WP_000501183.1 YggT family protein (Acinetobacter) [pid:45.3%25%2C q_cov:97.6%25%2C s_cov:44.4%25%2C Eval:3.0e-10%2C partial hit],MGA_561
sequence1	MetaGeneAnnotator	CDS	666788	667066	.	+	0	ID=MGA_562;product=DUF167 family protein YggU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073225.1;translation=MFEEKDGKIYINLYVQPKSQKNEIIGEYNGRLKIKIRGLPADGEANKNIVNFFSKYLKTAKKNIEIVSGSTGRNKKIAILGLNLDEIKNKIL;locus_tag=LOCUS_05620;gene=yggU;note=WP_011073225.1 DUF167 family protein YggU (Shewanella) [pid:34.7%25%2C q_cov:81.5%25%2C s_cov:78.1%25%2C Eval:8.1e-11],MGA_562
sequence1	MetaGeneAnnotator	CDS	667086	667430	.	+	0	ID=MGA_563;product=DRTGG domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869442.1;translation=MKLKEIMELIDAEIIVGEEYIKEMDIKHVGAADLMSEVLAFAKEDSLLLTGLTTPQIIRTAQMMDLAVIVLVRGKIPQQDTINLAKEVGIPVLTTKELLYTACGKLYNEKLESC;locus_tag=LOCUS_05630;note=WP_012869442.1 DRTGG domain-containing protein (Thermanaerovibrio acidaminovorans) [pid:45.6%25%2C q_cov:100.0%25%2C s_cov:94.2%25%2C Eval:1.4e-23],MGA_563
sequence1	MetaGeneAnnotator	CDS	667659	668597	.	+	0	ID=MGA_564;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081550.1;translation=MDVKNMDILQKYKDFFKDLTAKNVMNSMLIVLKEENTFKEAQEIMKNKKISGIPIVDDNYQVINIITMEDIINALSNNQIDMKISVKQRKKVVALKMEDDFEKIVEFLSTYGFGRYPVVSENNTLIGIITKQDLLFSVVSKLSVLYLHDERRKEILDSPLSVFVKNNINKNEPQFCYSINNSNVNNAGEGSALLKNFLKEKGIETKLIRKISISTYEAEVNVVIHGGGIGKIVAEITDESIVVFVEDIGPGIESIEKAMTAGFSTAPEYIRALGFGAGMGIPNIKRFADKLIITSEKGNGVKMEMIFWREKL;locus_tag=LOCUS_05640;note=WP_004081550.1 CBS domain-containing protein (Thermotoga) [pid:42.0%25%2C q_cov:97.8%25%2C s_cov:95.0%25%2C Eval:1.8e-69],MGA_564
sequence1	MetaGeneAnnotator	CDS	668594	669271	.	+	0	ID=MGA_565;product=histidinol phosphate phosphatase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065077.1;translation=MMKLGNRYEFHTHTLLSDGELLISEHVRRAENLGYEVISITDHADVTNIDEILSKIGEFIKSEGQYYKIKVLPGVELTHVPPQMINELAEYSKAKGAKIVVVHGETIVEPVALKTNLYAVKSKYVDILAHPGLITEEEVKLAVENNVYLELSARKGHSLTNGHVAKLASKFGANMLVDTDAHSPDDFISQEFAYKVALASGLNSEQAYKVVSLNPLNFIKKILDL;locus_tag=LOCUS_05650;note=WP_048065077.1 histidinol phosphate phosphatase domain-containing protein (Methanosarcina acetivorans) [pid:56.2%25%2C q_cov:88.4%25%2C s_cov:92.1%25%2C Eval:2.7e-57],MGA_565
sequence1	MetaGeneAnnotator	CDS	669467	670777	.	+	0	ID=MGA_566;product=CCA tRNA nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_016728782.1;translation=MININLDKKLINMFNEIIKNGGKPYICGGYIRDYILNIKNKDIDIEVFNVEFQKLYDILNKFGKARIVGESYKIILIGDYEFSVPKENLDIKSAGRRRDFTMNSIYYDFESKKIIDFFNGIEDIKNGIIRLVDDKNIDDDPLRILRIAQFLARLNFKVDEKTEKIAIKNREKILNIAKERIFIEFEKILLKAKKPSLAFQWMKKIGLLKLLFPELDRLSEIEQGDKFHPEGDAFTHTMLTLDVLEINERNIEVMLAILFHDIGKAIVKTNKIGNHITFYRHEIEGAKLSKKSIKKMTSSKELAKNVFSLIKYHMVPFNFSKSINRKTIKKLSVKVDFLNLMLLHKADYLGRKNIDENILYVKESIEIYENIKEETKPIIKGKDVIKLGIKPGPEIGKILKLIYIAQLEEKFSDYESGIKYLENYISKWNKNINKEM;locus_tag=LOCUS_05660;EC_number=2.7.7.72;note=WP_016728782.1 CCA tRNA nucleotidyltransferase (Clostridioides difficile) [pid:32.9%25%2C q_cov:91.5%25%2C s_cov:93.5%25%2C Eval:3.1e-44],MGA_566
sequence1	MetaGeneAnnotator	CDS	670780	671826	.	+	0	ID=MGA_567;product=flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902396.1;translation=MATYTKKIKVGDIFIGGTENVIIQSMTNTDTRDIEATVNQILELEEAGCELVRVTVQDIEAGNAIKEIKKKINIPLIADIHFDYRLAILAIENGIDKLRINPGNIGEDWKVEKVVEKAKEKNIPIRIGVNGGSLEKHILEKFGHPTAEAMVESAMYHIKLLEKFNFKDILISLKSSDVRVMNKAYRMIKEKVDYPLHLGVTEAGTFFQGTVKSAIGIGSLLLDNIGDTMRVSLTENPVEEIKVAKEILKVLGIRKNGIEIISCPTCGRTEIDLIGLAKKVEKEFSNIEKPLKIAVMGCIVNGPGEAKEADFGVAGGKGVGIIFKKGEIVKKVKEADILKELREIVNRG;locus_tag=LOCUS_05670;gene=ispG;EC_number=1.17.7.1;note=WP_005902396.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Fusobacterium nucleatum) [pid:65.3%25%2C q_cov:99.4%25%2C s_cov:97.7%25%2C Eval:1.1e-126],MGA_567
sequence1	MetaGeneAnnotator	CDS	671832	673526	.	+	0	ID=MGA_568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSSKLKMIYALITILFIFIIVELNINSGIEDIKNNKKILKNINSELNERYFMKIERLLDKLSNNKNIFNKNVGENIFEILKENLDLGIIYILDKDGNVFISTTKGMYGKNYKFRDYYKKIILDGKDKYIDYAVGNVTKKRGMYFSKLIVNNKDKFVLVIKLNLKKVDSFLKKYKENINLILSDGVIIASNREENILKTTGKNMKKDYKKYNGINIISIKNKLDKKYNMILYKNHTNDKIVMFEEKNIINLKEKDYKIILIIFIIMFLFIIIIYFILKKLNEIEEIKENLKKYLWVIEQNPLSIILTDKEFNIEYVNVEYLKRYKIYKPIVGEKFELKEDWNEIHKFLKSDNVWQDERRNTKNGNWEKLIMSTLRDENGEIVNHVITEEDITERKLLEEKLKKLATIDEMTKTYNRRAGLEILDRKILMANREHIGISVIYVDVDNLKSTNDIYSHKEGDNLILTVVKIMKESIREEDIITRLGGDEFLIVLIDCKLEDINLVLNRMEEKRKIYNNNSNKEYEISFSCGTANYNKKRHKNSMKLINEADSKMYIEKSKHKNCEE;locus_tag=LOCUS_05680;note=WP_012582433.1 diguanylate cyclase (Dictyoglomus turgidum) [pid:30.5%25%2C q_cov:49.1%25%2C s_cov:51.5%25%2C Eval:1.4e-26%2C partial hit],MGA_568
sequence1	MetaGeneAnnotator	CDS	673531	673836	.	+	0	ID=MGA_569;product=MazG-like family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816977.1;translation=MNFKYFPKLNGLNKITMETTALKLMEEAGELSQAISKFRGLNGEKVNMTEEEVLEKITGELLDVMQVCATMTYVIEEKYDINLDDALVKHLKKLKDRGYVK;locus_tag=LOCUS_05690;note=WP_005816977.1 MazG-like family protein (Desulfitobacterium) [pid:50.5%25%2C q_cov:92.1%25%2C s_cov:82.1%25%2C Eval:2.9e-21],MGA_569
sequence1	MetaGeneAnnotator	CDS	673877	675007	.	+	0	ID=MGA_570;product=DUF362 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808433.1;translation=MSKVALMKCDDYKFDNLYKVIKEGLELTGGIKFVKDKKVLLKPNLLSPEKPEKAVTTHPEVVRAVIRILHEAGAKVYVGDSPGTGTQEIIYNVTGMKKVIEEEGAEFADFKNKVEVLVDGKVVKKFIFAKAVKDVDYIFSLPKLKTHAMTYYTGVIKNLFGTVPGILKPKFHYTFSEKDKFSEMLIDLNIALKPIYGIMDAVVGMEGNGPRNGDPKKIGAILISKDFIALDATACRLVNISPYDVMPIVKGFERGLGEIDKDKIEILGEKIEKLEVKDFKKVKKELKVGMLIPVPNFINKFIKNILVPKPYFDEKKCILCGECVKVCPPTPKALKIEDGKVKINRERCIRCFCCQEMCPVNAIEPRRITGNKNTFK;locus_tag=LOCUS_05700;note=WP_005808433.1 DUF362 domain-containing protein (Desulfitobacterium) [pid:41.4%25%2C q_cov:96.5%25%2C s_cov:96.3%25%2C Eval:3.2e-71],MGA_570
sequence1	MetaGeneAnnotator	CDS	675262	675987	.	+	0	ID=MGA_571;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229973.1;translation=MHSEFAYIYDEVMEIANYNEWYDFLKLMLKDINFNGTDIMDLGCGTGEILIRLYKDGYKVLGVDISSDMLSVAQDKMVEDGISIPLVNMDMRELRLPVEVDLVVSFFDTINYLTSENELETTLENIYKHLPKNGFFIFDIVTRKLIDDMFENNIFLDEREEITIIWRHFYNEEEGLDDFHTVYFVEFEKNYYKKIEEFHQKKIFEIGVVEKIAEKVGFKIAKKYENIELAGERIFFVLEKV;locus_tag=LOCUS_05710;note=WP_003229973.1 class I SAM-dependent methyltransferase (Bacillus) [pid:30.1%25%2C q_cov:99.6%25%2C s_cov:97.2%25%2C Eval:2.2e-28],MGA_571
sequence1	MetaGeneAnnotator	CDS	676005	677165	.	+	0	ID=MGA_572;product=MFS transporter TsgA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002215690.1;translation=MKKIARISYINFLLIGLTFNLLGVSLIYIAKHFSVDTAIIGYQFGFFTIGSTSGIFFTNFLLKKMDMKKIYIFDYVLLIIGILIIGNTLSLDVFRIGLIIYGLGLGGLVSSSNFLIIAGFKENRASILTMANFFYSFGAILSPLIAGYILKININWVWIYRGTILLIIILFYLVIKSDFKFLKDSNEDKSENEEKEKWGITIYLVAFAIFCYVLAEMVFSYWIVTYLKMDTGFKIEIASFGLSLFWIFMAIGRFFSSYIVKKMKIESYIILSAGIGFLGYILISQFNSIILIYVLIAITGLGFSGVYAAVLDFGTKQLRNTSANLMTFIIVSGSFGGIMSSPISSFLKERVSIKYSFFSGAIAILLVLVLIVIAEILQKRRGRNER;locus_tag=LOCUS_05720;gene=tsgA;note=WP_002215690.1 MFS transporter TsgA (Yersinia pseudotuberculosis complex) [pid:24.3%25%2C q_cov:98.2%25%2C s_cov:96.4%25%2C Eval:1.1e-34],MGA_572
sequence1	MetaGeneAnnotator	CDS	677155	678756	.	+	0	ID=MGA_573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDDFNANIAGYRRKGKKIFIQIDALPYEMLLRAIDRGYTPFLKKLINKKGYTVNKIFSELPSNTPAAEMKIMYGIKNWIKGFRWYNKKEKRHYNFKNPLTANYFEEKAEKFTEKPILKNGASYITFYSAGAKRTILTFSRGLKIDVNKSITNNKIWQFILINTDFLIKVTIDVVEELLKEGLKFIKYILIKKRKIRGLLFPYVRIVNNVLFRHIATMGSILEMNEGVERIYLVYNGYDEVAHQLGADATESLKTLKKIDKSIMNIYKTATKKGYELYIFSDHGQTNSIPFEEYYGILLTNYIKQEISKDIGISEYSSDNENRKELHLYFLDKIFKTVSELNHKIINKIIKKFLKKTNENIKNENEIIENDIIVTNSGPLSHIYFLEEENRMLKDEIIEYFPEIIDKIFLHNGIEFGVVKTKYGFEIKGRKGKIELNNEFEIVNETGNLFKNILRNIKKETIISSLKEISCGENVGDLIIFGALLKNNLIINFENQYGGHGGIGGMQNFPFLIANKELEKDKKSISNLYEIFK;locus_tag=LOCUS_05730;note=WP_011030989.1 phage holin family protein (Streptomyces) [pid:23.6%25%2C q_cov:53.7%25%2C s_cov:41.1%25%2C Eval:1.2e-19%2C partial hit],MGA_573
sequence1	MetaGeneAnnotator	CDS	678881	679720	.	+	0	ID=MGA_574;product=zinc dependent phospholipase C family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941786.1;translation=MRRLILSVLFFDKFLKFWGPGIHLHLGNKLLNSDKDFEGKDIIKNYKKEFLYGNIAPDITLGKKYIKDLEKHSHSWNVGFEILNKANSDKNKALAYGYLSHLASDIIAHNFFIPKNLLVSKGMRSFSHMILEIKSDMMLYKDTYELVYKMSKVNLKDEDLFLKSVISESFLPFKANRKIFEYSLKAMKSKYMYSGIRIFTNYENWIQENKKILEKYHKISYNLIENILEKKERSILLKYDPNGEKNIGILNELKKEYKLFKMKDYETNIFNIPEELRGI;locus_tag=LOCUS_05740;note=WP_010941786.1 zinc dependent phospholipase C family protein (Geobacter sulfurreducens) [pid:30.6%25%2C q_cov:91.8%25%2C s_cov:84.4%25%2C Eval:7.2e-32],MGA_574
sequence1	MetaGeneAnnotator	CDS	679722	681170	.	+	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKRRSSILIDFLLGVIISVAVLISIITFFNIKSTQKAALKSASQSTRYLTLALENNAKKSILYDDTTDFINSINSILKTEKDKIYEIDLYKLSTKDSLKILYSTSKDKTGKTLKSIGVKDTLEKSSLLEGAGEHEGLRTYDYILTIKNRNKAIGALNISLSLDYLNKASGNMLKVDIILAIISILFIVAITSLMLYKRIYKPINQLIKEVGKIREGEVTYEVDVKVNNELKSLAEEINEMKSSIWENNLEDRFANPITGLPGLIHAIEIIEDKIDNDEFFAVLSISIKNVEPYVLYYGLANGENILRFATQLIKELLIEKKIDGYSLAQMRENHYMLVTKPEVVDDIAQELLEKFDNEVFSLYREDENQGYIKFTNKNGDEIHYSMMSVTMVSVNNKIRGEINTYKDIEDRILKVEKSYYDTKEGSVYIPYDEYLKTDNVSTKKENELAEDITEEPKEKTEEDLETDDLLEGLEDLGGDFE;locus_tag=LOCUS_05750;note=WP_010965989.1 EAL domain-containing protein (Clostridium) [pid:26.5%25%2C q_cov:33.8%25%2C s_cov:28.2%25%2C Eval:2.7e-12%2C partial hit],MGA_575
sequence1	MetaGeneAnnotator	CDS	681167	681622	.	+	0	ID=MGA_576;product=cytidine/deoxycytidylate deaminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942329.1;translation=MTRPSWDKYFMEITELVASRSTCLRRKVGAVIIKDKRILATGYNGAPSGLNHCLDIGCLRDKLNIPSGERQELCRGIHAEQNAIVQAAKFGISLDGGEIYVTNQPCITCSKLLINSGIKKIVYKNPYPDELAIELLEEAKIILERYEDENR;locus_tag=LOCUS_05760;note=WP_010942329.1 cytidine/deoxycytidylate deaminase family protein (Geobacter sulfurreducens) [pid:66.9%25%2C q_cov:98.0%25%2C s_cov:96.1%25%2C Eval:1.1e-57],MGA_576
sequence1	MetaGeneAnnotator	CDS	681688	682071	.	+	0	ID=MGA_577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKVLKNVIKKAVVVTLVLIIYGLIIKEPSIYFGMASGCIISILNFYLLINDTKKYIAISNKVQRIAFAGYLKRYAISGILLFIMIKIGIDYFFGAVLGILLVKFIILFTQFYNIAKERLKMIFNKR;locus_tag=LOCUS_05770;note=MGA_577
sequence1	MetaGeneAnnotator	CDS	682428	683216	.	+	0	ID=MGA_578;product=F0F1 ATP synthase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796847.1;translation=MFKFVAPPLVEGPHVMFAIHTSEHFPFAMKLADGSFGLPVTNTVTTTWFIIVFLAVLFWWGLKDLKLKPTKKQVFFEILFSFYDSLVESTFGKKRKKKYVLYISTLITFLLIANTITFFPIPGISFENGGISIAPLFRGPTADMNTTVGLALITTMTFLFASISTRGFLGYLKGLAEPNILMFPLNVIGEFAKPINISMRLFGNMFAGMVILGLLYMVAPAIIPAPLHLYFDLFSGVVQSYVFTMLTMVYISSALKEEEAEI;locus_tag=LOCUS_05780;gene=atpB;EC_number=7.1.2.2;note=WP_124796847.1 F0F1 ATP synthase subunit A (Fusobacterium canifelinum) [pid:48.6%25%2C q_cov:98.1%25%2C s_cov:96.4%25%2C Eval:6.3e-67],MGA_578
sequence1	MetaGeneAnnotator	CDS	683278	683571	.	+	0	ID=MGA_579;product=ATP synthase F0 subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902609.1;translation=MVEIGSNLAVTIVLAASAIGAGTAMIAGVGPGIGEGYAAGKAVESVARQPEAKGDIISTMVMGQAISESTGIYSLVIALILLYANPILGSLTKLLAK;locus_tag=LOCUS_05790;gene=atpE;EC_number=7.1.2.2;note=WP_005902609.1 ATP synthase F0 subunit C (Fusobacterium) [pid:81.9%25%2C q_cov:85.6%25%2C s_cov:93.3%25%2C Eval:6.2e-32],MGA_579
sequence1	MetaGeneAnnotator	CDS	683632	684135	.	+	0	ID=MGA_580;product=F0F1 ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011462233.1;translation=MGGNMPAVSLDVNMLFQMGNFILLLYVFARFMFKPMSKFLEERRQQITDDIETAKSNREKAIEMEKEMEKELKSAKMKSQDILNEAIRKTEDIKDDILKETHATREKMLKAAEADIVKMKEQVKRELRDEMTIIAIKLAEKMIEKKMSGDIEKNLLDQFIEEVGDAE;locus_tag=LOCUS_05800;gene=atpF;EC_number=7.1.2.2;note=WP_011462233.1 F0F1 ATP synthase subunit B (Desulfitobacterium) [pid:27.3%25%2C q_cov:96.4%25%2C s_cov:98.2%25%2C Eval:1.2e-19],MGA_580
sequence1	MetaGeneAnnotator	CDS	684132	684659	.	+	0	ID=MGA_581;product=ATP synthase F1 subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016338.1;translation=MIDNIIGKRYAEAIYELVESENLLAVYEDLENVVEIYTTNKNFNELMNHPKLNSEEKKKILQDTFSNKISEFSFEMLNYLLDKDRFSYLKSIADEYLIIYNERNNLMEVEATFAIEPSEEQKAKLEKNLEKTTGKKVKIDVKIDKSIIGGGILRIGDRIIDGSLKRQFEMLRANL;locus_tag=LOCUS_05810;gene=atpH;EC_number=7.1.2.2;note=WP_011016338.1 ATP synthase F1 subunit delta (Fusobacterium nucleatum) [pid:35.8%25%2C q_cov:98.3%25%2C s_cov:98.9%25%2C Eval:5.6e-26],MGA_581
sequence1	MetaGeneAnnotator	CDS	684678	686189	.	+	0	ID=MGA_582;product=F0F1 ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016337.1;translation=MKIKPEEISSIIKTEIENYKKTLDVKNIGTVLQIGDGIARIYGLKNAMAGELLEFPGGVYGMTLNLEENNVGAVLLGDYKGIKEGDTVRSTGRIVEVPVGEELLGRVVDPLGKPIDGKGEIKASKFMPVEKKAPGIVKRKSVHEPLQTGIKSIDGMIPIGKGQRELIIGDRQTGKTAVAIDTILNQKGKEVYCIYVAIGQKRSTVARLVKKLEDEGAMEYTTVVAATASDPAPLQYLSPYSGCTMGEYFMENGKHALIIYDDLSKHAVAYREISLLLRRPPGREAYPGDVFYLHSRLLERASKLRDEDGAGSLTALPIIETQAGDVSAYIPTNVISITDGQIYLESDLFNAGFRPAINAGISVSRVGGAAQIKAMKQVASKVKIELAQYNELAAFAQFGSDLDKATKAQLERGARIMEVLKQEQYSPYPVEEQVVSFYGVTNGYFDDVKLKNVKRFEKELLESLKLNKKDLMDEINAKQKVDDELSEKLSSAIKEFKDGFDNE;locus_tag=LOCUS_05820;gene=atpA;EC_number=7.1.2.2;note=WP_011016337.1 F0F1 ATP synthase subunit alpha (Fusobacterium nucleatum) [pid:72.9%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.1e-208],MGA_582
sequence1	MetaGeneAnnotator	CDS	686204	687058	.	+	0	ID=MGA_583;product=ATP synthase F1 subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016336.1;translation=MAVNIREIKQRIKSVKNTHQITKAMEMVSSAKFKKYNKFVLDSRPYSENLENILAHIAAGVENEHHPLFDGKKEVKKIGIIAIASDRGLCGSYNHSITKELEKFIKENPDKEVSVISVGRKVRDFCKKKDYDMKAEYIQIVPEIMFTKAKEISENIVDFFYEDIFDEVYLLYTKFYSVVNYQVKLNKILPIEKVETKENISYIFEPSEEAILDTLLPKYLNINLYQSLLESTASEHASRMRAMKSASDNAEDMTGKLTLSFNRARQANITQEISEIVSGVEALK;locus_tag=LOCUS_05830;gene=atpG;EC_number=7.1.2.2;note=WP_011016336.1 ATP synthase F1 subunit gamma (Fusobacterium nucleatum) [pid:51.6%25%2C q_cov:98.2%25%2C s_cov:98.9%25%2C Eval:1.1e-80],MGA_583
sequence1	MetaGeneAnnotator	CDS	687122	688528	.	+	0	ID=MGA_584;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016335.1;translation=MENKGTVIQIIGPVMDVKFDEKLPNIYNALTIKDETKGIDLTMEVQQHLGNNVVRAVAMDSTDGLVRGTEVIDTGAPISVPVGKSTLGRIMNVLGKPVDEMGSIESEEYNPIHREAPSFEEQGTETEILETGIKVVDLLAPYSKGGKVGLFGGAGVGKTVLIMELINNIAKEHGGLSVFAGVGERTREGNDLWNEMKESGVISKTALVYGQMNEPPGARQRVALSALTMAEYFRDKEGQDVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPNLATEMGTLQERITSTKTGSITSVQAIYVPADDLTDPAPATTFAHLDATTVLSRQISSLGIYPAVDPLDSTSRILEPQVVGHEHYATAQEVKQVLQRYKELQDIIAILGMDELSDEDKITVNRARKIQRFMSQPFFVAEQFTGMNGKYVPLKETIRGFKEILEGKHDELPEQAFLYVGTIDEAVAKARDLMKGAE;locus_tag=LOCUS_05840;gene=atpD;EC_number=7.1.2.2;note=WP_011016335.1 F0F1 ATP synthase subunit beta (Fusobacterium nucleatum) [pid:78.4%25%2C q_cov:98.9%25%2C s_cov:99.8%25%2C Eval:7.0e-207],MGA_584
sequence1	MetaGeneAnnotator	CDS	688531	688932	.	+	0	ID=MGA_585;product=F0F1 ATP synthase subunit epsilon;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_025773532.1;translation=MATFKLEIITPQKVIYSNDVDMLITRTTEGDMGILANHAPLVTELAIGEMKIKIGKDEEKYFVSSGFLEVSKEKVLILADKAMKADEIDIEKAKKEKEVLEAKLKKLNEDRDIAATEHSLKEALTKIKIGETL;locus_tag=LOCUS_05850;EC_number=7.1.2.2;note=WP_025773532.1 F0F1 ATP synthase subunit epsilon (Moorella thermoacetica) [pid:33.3%25%2C q_cov:96.2%25%2C s_cov:96.3%25%2C Eval:2.6e-14],MGA_585
sequence1	MetaGeneAnnotator	CDS	689139	689723	.	+	0	ID=MGA_586;product=dephospho-CoA kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495251.1;translation=MIVGLTGGVATGKSEVSKMFNRYGAIIIDADKISRDVVNKKEVLSNITEYFGKDIMKKGKLDRKKLGKIVFSDEEKKKKLNEITHPLIIEELKKYIDKYKESKELIIFDIPLLFEVNFEKYLNKVIVVYCGFEIELNRLMKRENINYSEAVNIIKSQMDLKEKLEKGDILIENSGTIEELEEKVFRLYSKLKRD;locus_tag=LOCUS_05860;gene=coaE;EC_number=2.7.1.24;note=WP_029495251.1 dephospho-CoA kinase (Fusobacterium hwasookii) [pid:44.3%25%2C q_cov:98.5%25%2C s_cov:100.0%25%2C Eval:6.5e-40],MGA_586
sequence1	MetaGeneAnnotator	CDS	689750	690013	.	-	0	ID=MGA_587;product=stage V sporulation protein S;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965123.1;translation=MDVLKVSTKSNPNSVAGAIAGILKDNPSVEIQSIGAGAVNQAVKAIAIARGFVAPTGENLVCVPAFVDVMINEEKRTAIKFIVKTQN;locus_tag=LOCUS_05870;note=WP_010965123.1 stage V sporulation protein S (Clostridium) [pid:70.2%25%2C q_cov:96.6%25%2C s_cov:97.7%25%2C Eval:4.2e-28],MGA_587
sequence1	MetaGeneAnnotator	CDS	690169	690885	.	-	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNILLLIISILIVGCTNSSFKDDGSNMYSKGKQYPAIYDDGTNKTNPNLLKSKNNDTALKNNIKSRNPIDKNNIKPKKTVKIIKNNKINYVKKNISPSKPKVSNIKKIRKKQLTLNNMNFLYPIEPKNLFSVSEAENSTLNLSIKSNSPIFPIAPGIVIFSGTRNSLGNTIFIYHDSGYVSIYYNLKKLKVTKGDYIKKNTAIIAYADKNFHFELRKQTKKGVIKIDPKKFLKKRRK;locus_tag=LOCUS_05880;note=MGA_588
sequence1	MetaGeneAnnotator	CDS	690953	691768	.	+	0	ID=MGA_589;product=MinD/ParA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000371638.1;translation=MKTRIISIASGKGGVGKSFVTLNLAVELAVQRKKVLLIDADVGLGNIHILVGKNPKYSIADLMEGNCKLEDSLMELVKGNLKILAGGTGFKKMFHMSKEKRSNLFKELKKIQNKFDIVLIDIGAGINKDVISFLELGDEVILVTNPDITAVADAYSLLKSIVNVHTITKNIGVIINKADIDLGEKVFEKLKNVSEKFLKTKLKHIGSIDENRKMAYDSTQKRLPIYYLSPSSKFRKEFYNLSVKIFYNKELHDSKNVSIVTKFMRFLGVDG;locus_tag=LOCUS_05890;note=WP_000371638.1 MinD/ParA family protein (Leptospira) [pid:33.0%25%2C q_cov:98.5%25%2C s_cov:87.5%25%2C Eval:4.5e-39],MGA_589
sequence1	MetaGeneAnnotator	CDS	691768	692193	.	+	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMERDIEVLIEEEKINLENIKLKKLKQSFEGTFFVSLFLIFTLIFFNVKEVKLVDKKQKPFKSKYRYNNNIKMNYLRKFKTMKKIKINKGDTIYSLFRDNKIPYSKKNIEKFKIINRINKRLRSLKIGKEIYLPIKIGMEE;locus_tag=LOCUS_05900;note=MGA_590
sequence1	MetaGeneAnnotator	CDS	692194	692586	.	+	0	ID=MGA_591;product=fluoride efflux transporter CrcB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002858490.1;translation=MGIKTMLAIGTGGFIGANLRSYINGVVNEKIVHHLPLGTLTVNLLGSLTLGVLFAFFTYTHIFSPRMKSLLSTGMMGALTTYSTFAMETFFLIEGESYALAILNMGFNVIGTVMFAGIGFKVTEMLLKAH;locus_tag=LOCUS_05910;gene=crcB;note=WP_002858490.1 fluoride efflux transporter CrcB (Campylobacter) [pid:39.2%25%2C q_cov:92.3%25%2C s_cov:97.5%25%2C Eval:1.1e-17],MGA_591
sequence1	MetaGeneAnnotator	CDS	692674	693774	.	+	0	ID=MGA_592;product=glycerol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986532.1;translation=MTDLLIAPENYISGYDIIDELGAKVKKIAKKVLVLSDEKVYKIVEKGLNSLENSEIIYTKEYFNGECCFTEIDRISNILKENGYDAIVGIGGGKILDTVKTAGYKAGVKIITVPTIAATCAAWSSHSAIYTDDGISYEYFNIHKNADLLFLDKKIVFEAPVRYIKAGILDTLAKWVETKSSTLNLENKNVATEIAIYLAKKTYKDMFEFSKIALENIEKKEYTKDIDIVIEDIIFTAGLVGGIGGEACRAVAAHAINNGFTIYPDTYNKNLHGEVVGFGNVVQMIMDKRDNKEINDLVKLYKEIEADVSLKGMGFEDLSDIMLEKIVNKSLYKGDTIWNAPYKVEFEMVKEAILKANEIILKGEYK;locus_tag=LOCUS_05920;note=WP_011986532.1 glycerol dehydrogenase (Clostridium botulinum) [pid:33.1%25%2C q_cov:98.1%25%2C s_cov:98.6%25%2C Eval:3.2e-52],MGA_592
sequence1	MetaGeneAnnotator	CDS	693771	694931	.	+	0	ID=MGA_593;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948041.1;translation=MSLREKALKLHREGRGKLEVKSKFKLETKDDLALLYTPGVAEPCKEIAKDKEKVYEYTTKGNTVAVVTDGTAVLGLGDIGPEAALPVMEGKAILFKEFADIDAIPICLDSKDVEDIVKTVKLLSPSFGGINLEDISAPRCFEIEARLIKELDIPVFHDDQHGTGIVVLAGILNSLKLVKKKIEDVKIVINGGGAAGTSIAKHILSAGAKNLIVCDLNGAISSDDENSLVKSHHRDLAKITNPNNEKGNLKEILKGADVFVGVSRGNLLNEEMVKSMAKGSIVFAMANPVPEIMPDVAKKAGATVVGSGRSDFPNQINNILAFPGIFRGALDARVGDITEEMKLAASYAIAGIIEENEITEEYVIPSPFDRRVANAVAEAVKKIAKK;locus_tag=LOCUS_05930;EC_number=1.1.1.40;note=WP_011948041.1 malate dehydrogenase (Clostridium botulinum) [pid:65.1%25%2C q_cov:95.9%25%2C s_cov:94.4%25%2C Eval:1.5e-140],MGA_593
sequence1	MetaGeneAnnotator	CDS	694947	696359	.	+	0	ID=MGA_594;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942945.1;translation=MNFDDRVIRMIRVKILNKPGTFGKLADVIGTNEGSMGDIKVIRVGTKYITRDIKIYTKTLDKFNSIMKELKNIKGIKLIKDFDEIYQAHEGGLLETKSKVKIETISDLEKYYIPGIVKVARTINKDHNKKFEYTNIGNTVGIITNGTAILNFKSCKVEAAYSVMESAGAVLNEISGISATPLVVDTENKDEFISTIKNIYKNFGMIILEDISSPSSLGIERELQGLEIPIIDTNKYGNAIVVLAALINISKRVGINLKKSKVGLLGFGSKACGINEILKDYGVEKIIGFDIREEAIARMEDGNIEKKENINNLMEESDIIIGTSRVEGLIKFGMVQKDQIIISLSKPEPEIKAAIALKAGAKYAVDGRIVNPLLVIPGLIKGALEAKASEVTLNMMINAAETLAELSKEGEILPNVFDKGLHKKVSENVKKIAIEDGVAHLFEQEIEEDITEPEDEIFNKIKGINEWMSN;locus_tag=LOCUS_05940;note=WP_010942945.1 NAD(P)-dependent oxidoreductase (Geobacter sulfurreducens) [pid:36.6%25%2C q_cov:92.3%25%2C s_cov:97.3%25%2C Eval:1.2e-84],MGA_594
sequence1	MetaGeneAnnotator	CDS	696359	698575	.	+	0	ID=MGA_595;product=U32 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015927.1;translation=MEIVAPAGSPSSLKAAIKAGADAVYLGIKGFGARRNAVNFGVDEIVEYIDYAHLRGVKIYLTLNSIMSDNEIESIYRNVKKLYLAGIDAIIVQDFGVFKFLKENFKNLNLHASTQMTITNNLEAKFLKENGFDRAVLARELSFEEIKKIQNSSKIDLEIFVSGALCISYSGKCYMSSFIGGRSGNRGMCAQPCRKLYNKDGEEKYFLSPKDQLLGKEEINLLKSINISSIKIEGRMKNEKYVYEIVKYYRKLVDESYSDDIGNKNILKIFNRGYSKGYFYGVDKENILNRENSADFGYEIGKIFENNRIEIKDKIKLGDGITFVDKDNKVIEGRYVNKIFLENNREVKEAEKTIIKLNKIPEGSKYIFKTYDKELDDNIEKDLKNITKRINIYAEIIIEKGKKLSLKFIYKNRGKEIKSEVLGEVITEKAKKSIDKKIILEKISELGETTFKINNSRIKYDGESFVSFKELKNLKRECAEKLEKNIIDFYKRKDDYEDIKKISEEDNLKNKSDKSEELVISATVFNENQENFLRKLGIEKIYKKGYSIINEDELTKINFEEKNKIEDEDDIKLSKNITQLVINKDKLTVDYSMNIFNSYALRFYENLGNIDTIFLSQEMSEKQIMNLKKGKNRLGIVVYGCPKVMEVRVPLFEEKVSELTNEFKDKYFVKINDLGHSELYLKKPLNLIRQIDDLESYGINEVRLDFTFEDEFEISRIIKNLKDRTGEYIPYNYEKGVF;locus_tag=LOCUS_05950;note=WP_011015927.1 U32 family peptidase (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-165],MGA_595
sequence1	MetaGeneAnnotator	CDS	698578	699054	.	+	0	ID=MGA_596;product=phosphatidylglycerophosphatase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015926.1;translation=MSGKVMNDNTIKLLATWFKLGDIKKAPGTFGTLGAIPLGILIGLIPSNNLKFLIIMGFLFFSIYISDKAEAIYKEKDCQNIVIDEVLGYIVTIGFLPINFITVIGAFILFRIFDITKIYPINKLQDLKGGIGVVSDDFAAGLIANGILWIISLIIFRG;locus_tag=LOCUS_05960;note=WP_011015926.1 phosphatidylglycerophosphatase A (Fusobacterium) [pid:39.6%25%2C q_cov:91.8%25%2C s_cov:93.0%25%2C Eval:1.4e-19],MGA_596
sequence1	MetaGeneAnnotator	CDS	699059	700651	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIEYDLKKAYEDVITVFYDISKDMNSTFDKGEIIDISFSLLKKVVNYDAISLFKYSKDKDMYLVEKAQGYNSTLKSSLFNIVNDGLIKWAAKLGKPFVNIEKVGEIKTTIIVPLISKDELMGAIILHTKEDENYFDQNRLKILTILSSQLSISFENLNLYENLEKRNGKLKALKNYMDNIIKSMINGIIVIDNENKIRVFNNMAEQLLKKRKRKVMYKSIIDTDLNKKFINEMVRLKVLTEKGKKVNEVEFEYEIDEDTTYPLGISTTLLKEENKILGIIFSLRDLRESKELQELRRVDKLKDEFLSMVSHELRTPLTSIKAYTETLMFMVEDNDPETQLEFLTIINEESERLTRLINDVLDLSKIEAGKMSFILKAEDIGAIIRRIVKNMTGFAETKNIELIENIKENLPEVMIDKDRVMQVLTNLINNAVKFTPENGKIFVNADFENDKFLRISVKDTGIGIKEEDKGKVFEKFKQVDDILVREAGGTGLGLPICKNIIEYFGGKIWVDSVHGEGSTFQFTLPIVEV;locus_tag=LOCUS_05970;note=WP_012583115.1 ATP-binding protein (Dictyoglomus turgidum) [pid:30.0%25%2C q_cov:96.2%25%2C s_cov:62.3%25%2C Eval:2.7e-56%2C partial hit],MGA_597
sequence1	MetaGeneAnnotator	CDS	700710	701081	.	+	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKVLVVDDEVHIVQIVKFNLEKRGGYTVVTAKNGAEGLKVAKEQNPDMILSDVMMPKMSGFEFCKAVKSDEELKDIPFIILTAKGQEADIKDGETSGADDYITKPFSPKSLLTKVAEILGE;locus_tag=LOCUS_05980;note=WP_010965007.1 response regulator transcription factor (Clostridium) [pid:48.3%25%2C q_cov:97.6%25%2C s_cov:51.3%25%2C Eval:1.1e-28%2C partial hit],MGA_598
sequence1	MetaGeneAnnotator	CDS	701085	702275	.	+	0	ID=MGA_599;product=CinA family nicotinamide mononucleotide deamidase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015925.1;translation=MKCYIILVGTELLNGMMVDTNSIYMAENLNRYGVEIVGKSVVGDKIKDIEKTIKYGKEISDFVVISGGLGPTIDDLTRDAVAKFLDKPLTLYKEEFEKIKEKFKRVNIKMAENNIRQAKFPEGAIIIDNKSGAAPAFLIDDIAVFPGVPSEVKETFPKFLNMYFKDKEKKEMYIKDILVWGLPESELEEKIYDIILNEKGIFVEFLVKNYGIIIRFLAEKNKKEEIDILKEKIYSRIGKYIFGEDEDRIERLVLKGLENNNYTISTAESCTGGMVATKLIGLSGISKYYKEGLITYSNESKIYRLGVEEEIIVKYGAVSEQTVNEMLDGLKTDVKIAISGIAGPTGGTKEKPVGTVYIGIEVAGEKEIKKYLFRGDREVVRERAALTALNMVREKL;locus_tag=LOCUS_05990;note=WP_011015925.1 CinA family nicotinamide mononucleotide deamidase-related protein (Fusobacterium nucleatum) [pid:48.7%25%2C q_cov:98.2%25%2C s_cov:97.0%25%2C Eval:3.0e-99],MGA_599
sequence1	MetaGeneAnnotator	CDS	702351	702830	.	+	0	ID=MGA_600;product=ASCH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964318.1;translation=MTKEEKSIKEMWKNYLIFAGEDLKSVDKICDSWYFGDNKDMADNLAKLVKQGIKKATTGLLYFYESEKYPLPKLGELNIVTDYNGVAQCVVKTTKVNIKPFKDVTEDFARTEGEGDKSLEYWRKAHIDFFSRELKEVGKEFNEDMLVVLEEFEVVYKDE;locus_tag=LOCUS_06000;note=WP_010964318.1 ASCH domain-containing protein (Clostridium) [pid:58.6%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:2.1e-52],MGA_600
sequence1	MetaGeneAnnotator	CDS	702891	705296	.	+	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKISLNIMLYIIIPFLLGITFKFKIKSFNIEKIYSVFFITVFCFLIFIFIYKNKEEICSIFIKILKFYSILLFLFFSNEMTLDFFKNIYEYTIIIMQPIILSFVIIIILLVVVSIIAFIYKKLKKRKHKKETKLIKSREVKFIFLKNSLKINKTILIDGEWGIGKTTFLNIALKKLNDEYHQIKIDVLIFNNRKAIKEEFTNQLKNIFKQENIFFKIPDEFSHFIDSLGNNIFSFFKKILFETSSFQEAKDKLNNDLKILDREIIIVFDNLERIMNTDFTNDSIWKEVISFIHELSELENIRIILVADYKKLVGENKEENLNLHKEYFDKFYDEIISIKKAEVDNIIDALDEEYKSENDEELNYFKEIEMILRINISAQISSDNDDKSDKYNKLKKYEDRKKNPRVIEKIIKKYKMLKEGFKDIKKIEKIDLMRAAIFEIIYFEELQNYNLDNFEEIKNIKFFEIFLDVVGKKDRINIFKQIFFIEKKTILRSKMELEKLEKSKKINEIRLEKINEYIEYIEVYNVIENNINNLYKPYDIVIKNLEKLYEDGKINGEAFYKTINKKIIWEIESKKSKDEIGDLCEFIKVNKINPKYANSGIDFYVMNFFEDVFKDFIRIFSDKYDNFFKTDDFGFMVKAEGDQMFPNYDLFISWIEEKFEIEIKEKYNFDEILKDINKQILDKSLKEFPDSEKIVKFFKNKFKILFGRLKILCNNDMVDNEDKLGYKAMAEHEKQYIESLEKKSVEELTNKYYISVQTEDSLKEIEKICRKRIEKEEDIENIVKLYGVVRVIEKNLKIRK;locus_tag=LOCUS_06010;note=WP_004080141.1 KAP family P-loop domain protein (Thermotoga maritima) [pid:23.9%25%2C q_cov:25.7%25%2C s_cov:29.2%25%2C Eval:2.3e-09%2C partial hit],MGA_601
sequence1	MetaGeneAnnotator	CDS	705293	705469	.	+	0	ID=MGA_602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEEDEMKKLKMFLDEKDKCKKMKDVILREKLRKYLLSKGETKDEINNMLRQIDFVLL;locus_tag=LOCUS_06020;note=MGA_602
sequence1	MetaGeneAnnotator	CDS	705935	706504	.	+	0	ID=MGA_603;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966545.1;translation=MDKKSEILQAAIKVFMRENYQNMKTAIIAKEAGVAEGTIYRYFKNKKEIFVEILNYYSKYIPEYLFENIKQKNDFETNLNILIDNYDKLSKEHKNFKKAYYKGLSEIEDERIKNILKFTLEDSFKRLENIFIWANNKKEGNFTKTSIEVITNTLWGLAEVIMKKEILGCEDVMEKDEISKMVKLIIKLK;locus_tag=LOCUS_06030;note=WP_010966545.1 TetR/AcrR family transcriptional regulator (Clostridium) [pid:30.6%25%2C q_cov:96.8%25%2C s_cov:86.3%25%2C Eval:3.4e-14],MGA_603
sequence1	MetaGeneAnnotator	CDS	706518	709163	.	+	0	ID=MGA_604;product=efflux RND transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680747.1;translation=MKKFFKHPWIIISIILIATGFFTIQLPKLKINNEVKIFLPKNHQSRIANDKMEEVYGSAEVMAVALHVKSGNIFQLNIINTIKNLEDRIEKLDNVEKVDGLTSTDYIDGTADGMKVASIVKELPKTEADLNVIKGKLLDWKLYRGNLYSKDLKSTQILVKLKKGIKIEEQEKIYFEIKDILKDNSSSNIEYYVAGTPVITVLMGKYMKSDMKHLIPFVLIIVLLSLYLSFKNLGGVLLPSITVLVSTIWTLGLMAMLNINLTLVSTVIPVLLIAVGSAYGIHIISHYYDEIKSMGKCGITEEEHRELIFETLHKVGKPVLLAGLTTIAGFGSLATSSIIPIKNFGIFTAIGVTSALIVALTLIPALLLLRHKNLKCSEEEDDDGLISRMLIGFYHYFGKKAIRILTLTAIIVIVSIVGMSKVVIDSPLIDMFKSTTEIKVSDKFDNNNFNGTTVLNVLIDGPKDKKGKYIKGSMVNPEILKGMDNLKIYLKENYKDVGEVTSFADFIKRMNKVMNYPQEDTADSMATDSGIVDDSSSFADDSFGDSTDDSSFSDDSFATEDTTKPEIVTETAKVTPKKSIDKTDMVALMNNAILSANKTDLTAEELIEIINRELNYKGEAYNEVPYDISKYPATTRAELKNLISQYLLLYSGNLNDFIDDQLEPSRSRMMIQIRTGSNIVTEKIEKAVYKYAKEYFPKGYTVSVAGSADMGLAVNKLIISSQIMSIISSLIIVFIIVAFSYKSLVAGIYGTIPLGIALLINFGLMGFLGIKLDIGTAMVASIAIGIGVDYTIHFLSTYNYERKRSDDLEEVTKKTLLTSGKAIIFNAVSVALGFAVLLFSNFMPLVNLGLLISITMVTSSAASMTVLPALLNIFKPKFISK;locus_tag=LOCUS_06040;note=WP_002680747.1 efflux RND transporter permease subunit (Treponema denticola) [pid:37.0%25%2C q_cov:99.4%25%2C s_cov:97.8%25%2C Eval:2.0e-166],MGA_604
sequence1	MetaGeneAnnotator	CDS	709233	710036	.	+	0	ID=MGA_605;product=outer membrane lipoprotein-sorting protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002673490.1;translation=MKRKLIAVIMMVMVASFSFAMTGKEIMQKAHDRDTGNSIHGLMGMDLIDKDGNVSPRTIEMWGETYDVKNDLSRTVMVFKAPAAVKGTRFLQIQNKGRDDDKWIYLPALGRVRRISSSEGSSSFMGSDFTYDDMSSRDVDKDTHKLLKEEKLGNYDCYVVESQAKNPEDSQYKKIISWITKDSYIAVKIDMYSKKTGKIQKEASVKQNIKKIGKIWTIFETTMKDMENGHSTKLYIKQSKKTKAYYIKYNSRMNPKRFTQRYLKNGR;locus_tag=LOCUS_06050;note=WP_002673490.1 outer membrane lipoprotein-sorting protein (Treponema denticola) [pid:40.1%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:6.3e-46],MGA_605
sequence1	MetaGeneAnnotator	CDS	710151	711644	.	+	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002673491.1;translation=MKKISIILMALLLAFNVTVMADGFDDEGFGDDTVTTATDTAQDSSNFGDDISSNSEKSVKTEFSGKLKFDNRLILGDNNRANSNPNLDLNLKVTKANSELNATMKFNEDAKTGELSEGYLKLYYDNFDISAGKMKVVWGKGDKLHVVDNLNSENLTDFINQDYLDRKVAEKMIKINYYIGNGNLELVYTPEFTPNAMPVEDTWKTNQQKSMESILEKKVFDDEYADFTGKIDDAVNYIVSNNPYISDKTQVPFSAVMDVLKTQNSAIYDDMKAKIDDMKAKFQKPQKIEDGQFAARFTDSISGFDFGASYYYGKLRTPSFNPTTLDINYDKVQVIGAELGKVLLTFNTRAELAYYLTEDTDGTDPLVHNNKIAWIVGADRDLPIHNMNINFQVKSEKILNDDKISASDVDYNKDGYFTDMIVGKIGDKFKNETILPEVQFVYNVESKDYMVNTQVEYKLKDDTSMTAMYKIFGGDNNTIFGEFDKNDYAALNFEYDF;locus_tag=LOCUS_06060;note=WP_002673491.1 hypothetical protein (Treponema denticola) [pid:26.7%25%2C q_cov:92.8%25%2C s_cov:96.9%25%2C Eval:7.0e-51],MGA_606
sequence1	Aragorn:1.2.38	tRNA	711811	711888	.	+	.	ID=Aragorn_23;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00230;note=Aragorn_23
sequence1	Aragorn:1.2.38	tRNA	711898	711982	.	+	.	ID=Aragorn_24;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00240;note=Aragorn_24
sequence1	MetaGeneAnnotator	CDS	712240	713424	.	+	0	ID=MGA_607;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903497.1;translation=MAKEKYERTKPHVNIGTIGHVDHGKTTTTAAISKILADKGLAEKVDFENIDQAPEERERGITINTAHVEYETEARHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVYLNKADMVEDEELLELVEMEVRELLSEYQYPGDDVPVIIGSSLKALEGDKKYEDKIMELMAAVDEYIPTPTRPLDQPFLMPIEDVFTITGRGTVVTGRVERGIVKVGEEISIIGIKDTVKTTVTGVEMFRKLLDQGQAGDNIGVLLRGIKKEDVERGQVLAKPGSITPHTKFKSEVYVLKKEEGGRHTPFFAGYRPQFYFRTTDITGSIKLPEGVEMVMPGDNIEMEIELIHPIAMEKGLKFAIREGGRTVGAGVVATIME;locus_tag=LOCUS_06070;gene=tuf;note=WP_005903497.1 elongation factor Tu (Fusobacterium nucleatum) [pid:81.1%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:9.3e-186],MGA_607
sequence1	MetaGeneAnnotator	CDS	713552	714367	.	+	0	ID=MGA_608;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904393.1;translation=MSKNQILQEKATEVRRDIIKMITEASSGHPGGSLSAADIVTALYFEVMNIDPKNPKKEDRDRFVLSKGHASPLLYSVLAERGYIAKDSLKSFRRYGSKLQGHPDMNKVPGVEISTGSLGQGLSVANGMAISGKLYNNNYRVYALLGDGELQEGQVWEAAMTSAQYKLDNLTIFIDNNGLQIDGNVSDVMNVAPIDEKFKAFGWNVISIDGHNFDEILAAVEKAKSVKGMPTAIVAKTIKGKGVSFMENVAGFHGQAPTKEQEEIALKELGE;locus_tag=LOCUS_06080;note=WP_005904393.1 transketolase (Fusobacterium nucleatum) [pid:66.9%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:6.6e-107],MGA_608
sequence1	MetaGeneAnnotator	CDS	714416	715339	.	+	0	ID=MGA_609;product=transketolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016289.1;translation=MKKATREAYGEALAELGRKNKDIVVLDADLSKSTKTATFRAEFPERHINVGISEQDLMGTAAGISTTGKIPFASTFAVFAAGRAFEQIRNTIGYPHLNVKICPTHAGISVGEDGGSHQSIEDIALMRTIPGMTVICPADAVETKKAVFAAAEYNGPVYIRLGRLATEVLYDENYKFEIGKANVLKDGKDISILATGLMVPEAVEASKILEAEGVSVRVINISTIKPLDEATVLAAAKETKFLVTAEEHSVIGGLGGAVAELVTDKYPTKVVKVGIYDRFGESGKGEELLEKFNLKAKDIVAKIKENL;locus_tag=LOCUS_06090;note=WP_011016289.1 transketolase family protein (Fusobacterium nucleatum) [pid:69.3%25%2C q_cov:99.7%25%2C s_cov:99.0%25%2C Eval:1.3e-120],MGA_609
sequence1	MetaGeneAnnotator	CDS	715655	716323	.	+	0	ID=MGA_610;product=cell division ATP-binding protein FtsE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003228039.1;translation=MIEFINVTKRKTKGRRIILNNINFKINEGDFVYLVGESGSGKTTLLEMIYGKSIANNGTIIINGKKISELKSKELQKLRKNIGIIFQDMKLFEKKSVKKNIEYRLKITNDYSEEEINDRIDGILDFLKLKDKKYEIVNELSKGEKQRVAIARGLVTNPDIILCDEITANIDYDNSLNIMKILYAMQKQRGCTIIFSTHNKNIIKDFPNRVIEIKQGEINNED;locus_tag=LOCUS_06100;gene=ftsE;note=WP_003228039.1 cell division ATP-binding protein FtsE (Bacillus) [pid:40.1%25%2C q_cov:100.0%25%2C s_cov:96.1%25%2C Eval:7.6e-41],MGA_610
sequence1	MetaGeneAnnotator	CDS	716313	717185	.	+	0	ID=MGA_611;product=permease-like cell division protein FtsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003357632.1;translation=MRIKNKFLEETGGNIRSEKELFLFTTITLFVIIFIIDFFSVSILNLVDINSYVKKNLQIRAYLEDSLTDSGIKSVIRDIQNLKDVKSIKYISKETALKNVEKSLETKLNYSENPLPNALQIEIYSIENIDKISSFIRNEPGIVEVDVKSNFLKKISKFIDEINGSFIFIFIFLLLIIFILIVNLIHTTIRQRKKDIGLMYWLGAELLYIKIPFIIESMIATVIATIFSSAIFLVGYIYIKNKIEQLGMFIVLPEISKIGFGLFLVFLLTLLVTGIASYFSIILYLRSCED;locus_tag=LOCUS_06110;gene=ftsX;note=WP_003357632.1 permease-like cell division protein FtsX (Clostridium) [pid:24.5%25%2C q_cov:96.2%25%2C s_cov:96.6%25%2C Eval:1.2e-19],MGA_611
sequence1	MetaGeneAnnotator	CDS	717187	718323	.	+	0	ID=MGA_612;product=murein hydrolase activator EnvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029492060.1;translation=MKKIIFIFIICINYIFYADTIENMNSRIKVINSKIKKSKIKVTGLKKEEKNIIKKIKKIDLELKKVKREYYEVESKYVGLNRKIDYSHINIKFMEKEIWSKNENIKKYITSWYKYGGKLKLEYILSGNTIYDVINREGNLKKILNFNKKYISNVMEKQQKVKIQKSKIEMERNEVSKLKKDLRAKKNEISKKQYEKKKLINSLKNKENYYNSLVKDLRNEKKQIEKEISDIIKSKTDMKKNKNLKYIKNKIKELKYPINGKILVRYGEYKNIGNGNKIKSSRIEIKGKIGDRVKASGKGRVIFSGKLEHMGTVIIVDHGYGLTTMYANLIASYVHEGSIVISGEKIGVLGLSETGEAVLYFETRLGVSMINPMIFLKK;locus_tag=LOCUS_06120;note=WP_029492060.1 murein hydrolase activator EnvC (Fusobacterium hwasookii) [pid:24.6%25%2C q_cov:96.8%25%2C s_cov:95.9%25%2C Eval:9.5e-31],MGA_612
sequence1	MetaGeneAnnotator	CDS	718386	718925	.	+	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYYYNILFFLLGVSIFYIIYKLKKKWLKYKRNKKFKHGFEEEKKAEYFLKNSGYKTLEYQKEIIIKVKSNKDEIEMKIRPDYIVKKGFEKYIAEIKTGEFAPKLTNKSTRRQLLEYYFMTEYNGILLVDMDKKTIEKIKFFSPKIERLKYKVFLLRVILIFLLILIGGVILNYIGTS;locus_tag=LOCUS_06130;note=MGA_613
sequence1	MetaGeneAnnotator	CDS	718978	719775	.	+	0	ID=MGA_614;product=NAD(+)/NADH kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016268.1;translation=MKIGIIYNKNKINAVEFYEILIKFLKDKNINFTEDINDEKIKYLITIGGDGTLLNASKKIIGRDILVFAVNMGKLGFLTEIKEEEAFEIIENVFNNNFSIEEREFLEIKINDKLYYALNDAVLAKGDILARLIKISVFADLNFVNTYRADGIIISTATGSTAYSLSAGGPILTPDLSALIVNPIAPHTLSARPIVMSGDKKLSFSFIEDESDIYITIDGQESIKINNDDNLRITLSNKKLRLIRPNKRDYFAVLREKLKWGDELC;locus_tag=LOCUS_06140;note=WP_011016268.1 NAD(+)/NADH kinase (Fusobacterium) [pid:41.6%25%2C q_cov:98.5%25%2C s_cov:98.1%25%2C Eval:3.8e-59],MGA_614
sequence1	MetaGeneAnnotator	CDS	719769	721436	.	+	0	ID=MGA_615;product=DNA repair protein RecN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016269.1;translation=MLRELKIENLAIIKSLDLELENGLVVLTGETGAGKSIILDGINMLIGEKISTEMIRSDEKYVASEGVFEISKDTEIELKEMGIDMEDGEIIVRRELYKNGRGKIFLNGKRVPASTLKKIMNSVIDLVGQHEHQALLDKKYHIKLIDKFLDEDGVKLKKEVEDIYFSYKEIIKKIENNELIQKELKDKKELYEFQYNEIEEVDPKENEDEVLEEEYKKLFNAGKIKESLSLSRILLKDGEKNVMGMISKSKNAISNISRYGKEFKEILEKLANIYYDIEEAVYGIENSEADVEIDEYRLNKVVERLDKINNLKKKYGYDIKELLIYKQEIEEKLNKIDNNTINETELLKEKSRTEEKYEKKSKELTEKRRKIGEYIVYKLIEELSDLNMKGIKFEVEIKSKKEISKTGRDNVEFLVSTNIGEELKSLSKIVSGGEVSRIMLALKAIFSKVDNIPILIFDEIDTGIGGETVRKVSEKLRGIADNVQVVCITHSPQIAAVANQHFYIEKNILDEKTSTNVTKLNYEARVNEISRMLGGEAISEAVKNHAKELLKEGLK;locus_tag=LOCUS_06150;gene=recN;note=WP_011016269.1 DNA repair protein RecN (Fusobacterium nucleatum) [pid:45.7%25%2C q_cov:99.5%25%2C s_cov:98.9%25%2C Eval:2.9e-141],MGA_615
sequence1	MetaGeneAnnotator	CDS	721433	721903	.	+	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYEKIAVDTISDISEKIIGVKGEASYVCEEISPISVENTTIIIGIAGQIKGQLIFGFTEETVRAIASKMIGQKVEMIDELAMSAIAEFANVLSGNVTINLVESGSKRLGVSPPSIVTGKHMKISTKIKPIHKFKIEYSGIGDITLNIALKEKTNK;locus_tag=LOCUS_06160;note=WP_004082082.1 chemotaxis protein CheX (Thermotoga) [pid:35.2%25%2C q_cov:68.6%25%2C s_cov:68.4%25%2C Eval:5.0e-11%2C partial hit],MGA_616
sequence1	MetaGeneAnnotator	CDS	721918	722376	.	+	0	ID=MGA_617;product=chemotaxis protein CheX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002668974.1;translation=MRVEYINPFVAATFEILKTVANVTPKKGKVILKNEPVPSYGVSVLVGVVGEVKGQIAYSLSEEAAMKIASAMMMGMPVEEFDEMAKSAISELANMITGNASTQISAQGLVVDISPPTLVTGSNVHISTGNMQTIVIPVETELGIFEINIALE;locus_tag=LOCUS_06170;note=WP_002668974.1 chemotaxis protein CheX (Treponema) [pid:39.1%25%2C q_cov:99.3%25%2C s_cov:97.4%25%2C Eval:2.3e-26],MGA_617
sequence1	MetaGeneAnnotator	CDS	722379	723251	.	+	0	ID=MGA_618;product=site-specific tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003700300.1;translation=MGIKEDIEEYVDYIKFEKGLSENTVLAYNSDLKEFFKSLEWVDYKNVTEDDILRYIEKLKQGKESTLLRKVTSIRTFYTYLFKSGKIDEIPTENLDNLKKSSYMPEVLSLDEIKSIILAIDSSLRGKRDKLILQLLVATGARISEILGLKIEDIDENMQFIKIKGKGNKLRIIPLYKEISEEVYFYLKNIRNKIAKDPLSFLLFDGVSRTTFWKRVKIYAKNAGIKKNVYPHIFRHSMATLMIKNGADLRIVQEILGHSSISTTEIYTHIGNSDLKNIYNRIGIGEDLDV;locus_tag=LOCUS_06180;gene=xerD;note=WP_003700300.1 site-specific tyrosine recombinase XerD (Ligilactobacillus salivarius) [pid:41.2%25%2C q_cov:94.1%25%2C s_cov:97.9%25%2C Eval:1.0e-55],MGA_618
sequence1	MetaGeneAnnotator	CDS	723244	723717	.	+	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDKIFSMLDPKYLEVKALIKKRNLYEAYQKLKYEEDDNSNFLKGIIFQLLKNYKRSLKELLKIDEMKEEELEEIYYEILGTAYLEEKNYLDATKNYLKALNMNKNNFYCKYNLANIYIFQKNYNRAYVIYEELIKEKPEDKIIENNFNLLKEKVNK;locus_tag=LOCUS_06190;note=MGA_619
sequence1	MetaGeneAnnotator	CDS	723971	725524	.	+	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIMLGVSLLIMMFISGCSSTPNYNSMLFKAIKTRNSQGVKENLSKIENVEKKNFWGDTPLTYAIKKGNVEIVKLLVEGGANVFYVDKNNKTTFYIAVESNKTDIAKYFIEKGVDVKQEDKSGKFPLIKAVKNKNVELVEAILKKGENANRKNKKLEKPITFAIKNGNEKIVELLIKYGADVNSICDKNEDYPLHLSVRKKNYKISELLINNGALVNAKNKKLENPIILAIKGEDEKIVELLINHNAVINSDDYYPLHLSVREKNYKISELLINNGALVNVKNNLGITPIEISSEKGDLKITNLLLDNKGKVTGRVLESVIFNNDGNMFKLLLEKRKLDIKNAQVFLTPFKVSLRGDESRNNSLSFLEYMFERDSDKILKVLLEKNYNLNFKEMYIKALDKNKLSIMRLLLDNRKVSINDKIDTDGFKFSIGKFKFDSAKYYSQLYYLINKPKAVKIREDSKSITYSLYDYKKRLPLIRELVRRGANVDEKISGKTLKEIATQKKMKAVVNILNSK;locus_tag=LOCUS_06200;note=WP_000697244.1 ankyrin repeat domain-containing protein (Leptospira interrogans) [pid:28.5%25%2C q_cov:51.6%25%2C s_cov:60.8%25%2C Eval:1.9e-14%2C partial hit],MGA_620
sequence1	MetaGeneAnnotator	CDS	725719	729126	.	+	0	ID=MGA_621;product=DNA polymerase III subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017116.1;translation=MKGKFAHLHLHTEYSLLDGVGKIDEYLNRAKELGMDAIAITDHGNMFGAMEFYKKALKAGIKPIVGIESYIAEGSALERKGEIFHLILLAKNKEGYKNLIKLSSFGYINGFYRKPRIDKEILKKHSNGIIALSACMKGEIPYYLLNNKEEKARNSLKDYIEIFGKDNFYIELQDNGVIGQKELNDKLYSLAQEFEIKVVATNDVHYVNTGDEALQDIVICIQTGAKLTDAKRMRINTNELYLKSYEQMYERLGRYEGAIENSIEIAKKCNLELNLGGFKFPHYEIPEDEKNIDTFLEKLIKKGIVRRYGENIKREILERVNYELEVIKKMGYSGYFVVVWDFINYAKSQKIPIGPGRGSAAGSIVAYLLGITEIDPIKYNLIFERFLNPERVSMPDIDIDICQERRQELINYVVNKYGKDRVAQITTFGTMKARAAIRDIGRVMGVPLSKIDKVAKLIPHNMTIGKALKENEKLREFYQKDIEIEKVLEYSKRIEGKVRHVSIHAAGIVISKNPLDEEVPLYSDKKTGTVATQYQMKELEEIGLLKMDFLGLRNLTIIQRTIDYIKMNKKINIVLENIDIKNEKSYKILQNGNTLGVFQLESEGIRRLTMKLIPERFEDITAILALYRPGPLGSGMVDDFIKSKHGEQAIKYPHPMLEEVLKETYGVILYQEQVMKIANLMGDYSLGEADILRRAIGKKIPEIMEENRAKFVRRAKENGVKAEKAEEIFNLIDKFAGYGFNKSHSAAYAMIAYWTAYFKANFPVEFYAALMTSEKNNIEKLAIYIEDAKKNGVKVLQPDVNHSFSNFAIENNNVRFGIAAVKNIGEGIVNKITEEREKNGEYTNYEEFVYRTKKIGMNKKSLEALIISGCLDGMPGNRKEKFESVEDVLSKVGKRIARDENLQISLFGGGTILDKFIMPHLDDYSDEEKLNGEKEYLGLYFTGHPLDKYKEIFEVFKFKKLKSILEEDINRFKTVGIIRELVRKVTKSGQVMAFFLLEDYSGTAKTMIFPKSYMRYSHNLLENKVVIIDGVLTVDSFGNIEEKKIIANEVYDIGDLEEISGMNVYILIEEEDKYKIDQLKAILLRHLGKNQVILALKKEKEKRLLRLGRGFYVLPSMALVNDIKKLLGEGKVVIK;locus_tag=LOCUS_06210;gene=dnaE;EC_number=2.7.7.7;note=WP_011017116.1 DNA polymerase III subunit alpha (Fusobacterium nucleatum) [pid:52.5%25%2C q_cov:100.0%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_621
sequence1	MetaGeneAnnotator	CDS	729379	729636	.	+	0	ID=MGA_622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRKSKLEFPEEILFALRENENFFLKEIKVIAAVNYYKEKRLSVGQAAELAEMSEEEFIKYLGGKKISIFQFENEEELLEDIKNA;locus_tag=LOCUS_06220;note=MGA_622
sequence1	MetaGeneAnnotator	CDS	729629	730117	.	+	0	ID=MGA_623;product=DUF3368 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582524.1;translation=MRKVIVNSTPIISLSLIDSLYILKELYGTVFIPKAVYDEVVIKGKSKIGSNNLLECEYIKILEIKNKEAEKLFKTNLHSGEVEVMILYDELNADLCILDDLLARKYAKYLNYNITGTIGVLLKAKEVGLVKNIKQLLFELIKNGIYIDRKLMKKVLELANEN;locus_tag=LOCUS_06230;note=WP_012582524.1 DUF3368 domain-containing protein (Dictyoglomus turgidum) [pid:38.0%25%2C q_cov:97.5%25%2C s_cov:96.2%25%2C Eval:3.7e-23],MGA_623
sequence1	MetaGeneAnnotator	CDS	730271	730669	.	+	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVTEIKKLMEILNTTDVTEITLEADGTKVLLKKDMNKQKVVTKPVPAKVEKKEEVKEESEYLYSLNIGKIFYKKDIKEGTAISENEIIGYIEAIGVKTDIISDKSGIIKELLVKTGENVEFGKAIISLAKK;locus_tag=LOCUS_06240;note=MGA_624
sequence1	MetaGeneAnnotator	CDS	730682	732037	.	+	0	ID=MGA_625;product=acetyl-CoA carboxylase biotin carboxylase subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015944627.1;translation=MFKKILIANRGEIAVRIIRAARELGIKSVAVYSEADKSSLHVRLADESVCIGSAMSTESYLKVPNIIAAAEITNADAIHPGYGFLAENAEFAKICASHNIVFIGPSPEIIISMGDKATAKETAVKNNVPVVPGTKGVVKGVEAAKKIVKEEIGYPVMIKATAGGGGKGMRIARDEKELEKNMVAAENEAKAAFGNPDVYIERYVEQPKHIEVQIIGDKHGNVVHLGERDCSIQRRHQKLIEESPSIAISEDVRQKMGEAAVRLAKAIGYDSAGTIEFLLDKDKNFYFMEMNTRAQVEHTVTEMVTGVDIIKEQILAAAGENLTVKQEDIQIRGHVIECRINAEDPDMNFMPSAGTITNYIPSGGIGVRVDSHIYSGYDIPPYYDSMIGKLIVWGENREEAIRRMDRALREHIVEGIKTTIPFHLRVLDNEYYQRGEIYTDFIEKRMSEEKK;locus_tag=LOCUS_06250;gene=accC;EC_number=6.3.4.14;note=WP_015944627.1 acetyl-CoA carboxylase biotin carboxylase subunit (Desulfitobacterium hafniense) [pid:65.0%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.0e-170],MGA_625
sequence1	MetaGeneAnnotator	CDS	732155	732550	.	+	0	ID=MGA_626;product=Asp23/Gls24 family envelope stress response protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393032.1;translation=MAELGNVKIANEVVSIIAGIAASEVEGVYEMNGGVVEGLTGILGKKNLTKGVKVEVGEKECSVDVYLTMEYGVSIPDVSEKVQENVIKSINTMTGLKVVEVNIFVQGVYIKKDEPVVKVQEEVSETDIELK;locus_tag=LOCUS_06260;note=WP_011393032.1 Asp23/Gls24 family envelope stress response protein (Moorella thermoacetica) [pid:63.1%25%2C q_cov:84.7%25%2C s_cov:81.0%25%2C Eval:1.3e-34],MGA_626
sequence1	MetaGeneAnnotator	CDS	732660	733187	.	+	0	ID=MGA_627;product=alkaline shock response membrane anchor protein AmaP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_058229291.1;translation=MWSLLFGIGWIGIFIMSLGTIFLALVPEYLQEINFLSMNLRIWIISISVFYFILFIKKISEISKGKEEKSFMIETETGRLEITLGSIENIIQGLLKKSTFIKDIKIKSDLEDEGVKIGLKVSVESIENLNQELQKLQAYLISYTEKLAGIKIVGIDIKIVKVHYSEKNIVELGDE;locus_tag=LOCUS_06270;gene=amaP;note=WP_058229291.1 alkaline shock response membrane anchor protein AmaP (Fusobacterium nucleatum) [pid:25.3%25%2C q_cov:95.4%25%2C s_cov:83.8%25%2C Eval:7.5e-07],MGA_627
sequence1	MetaGeneAnnotator	CDS	733190	733408	.	+	0	ID=MGA_628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEILNWILNNFKKILGALIGFILGYFYIKYGFLKTLILVIFVVIGYTLGAGKDFNLKSWIIEKLTKGEDYK;locus_tag=LOCUS_06280;note=MGA_628
sequence1	MetaGeneAnnotator	CDS	733408	733800	.	+	0	ID=MGA_629;product=transcription antitermination factor NusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904113.1;translation=MARKKSREDFFKLMFEADSKGVMPIELYEDFINREEKFVEDEKEFIISYSKNISENMDNIDKKIQENMKNWRLGRIGIVERALLRLAIYEIVYEKIGIEIVINEVIEIAKVYGDEKSHEFINGVLANIVN;locus_tag=LOCUS_06290;gene=nusB;note=WP_005904113.1 transcription antitermination factor NusB (Fusobacterium nucleatum) [pid:40.8%25%2C q_cov:94.6%25%2C s_cov:85.0%25%2C Eval:1.3e-21],MGA_629
sequence1	MetaGeneAnnotator	CDS	733813	735726	.	+	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNRIGMIMAKSSLRNNVVINLQKKGYRVYIIDDDEYMFDYIKSLSLDLILIDSNENKNIYEYLTKFFELNIPSIALIEKHLGHRNAVELLKSGALDIVYFSDEKVLSVLDSVENFFGNKSSEFELKMEETDKYIIFKIYGELDMSTTFKTKGRFDGIIKNINKDFILDISGVGYLESVGIGFLIYIKKMITAANKELKIVIKSDKIKKLLKMTKLDKYFNIYSSLDEITVIKKGKKYEKAVVIDDARFMRKLISTILIDEGFEVKTFENPILALKELDEIKPDIILVDHEMPEMNGLEFIKEFKPQQKEIPTIMLTTVEDINLALTAIRAGASDFLNKPFKKEELVHTIRKVIKENELRKENESLMLELQKREFELKNKNKELYSLYNNLEEELEMASEIQNNLLPKSSVELDNFIINSKYLPSLDIGGDFYDFFRMSNNFFGIAFADISGHGIPAALLSSMLKVYMMTYIKDIINPSEAMEILNDVIAESYPDGKFVSLFYMILNDQKGTISYCKAAQEPGLYVKENGDVEELLTEGQVLGLFSIEDFPEMINFEEKEIEMKIGEKIFLYTDGIVEARNSENEFYGLDRLKDVLSKNASKTGEELIKIVYDDLLEFIEGLPILDDLTFMSIEKK;locus_tag=LOCUS_06300;note=WP_011203082.1 SpoIIE family protein phosphatase (Bacteroides fragilis) [pid:28.3%25%2C q_cov:58.6%25%2C s_cov:91.8%25%2C Eval:2.0e-37%2C partial hit],MGA_630
sequence1	MetaGeneAnnotator	CDS	735968	736501	.	+	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSIVPMWENIFNKKNKIDKNNIKLLSEIPILENLKKKELEKVSDIIHERKYKSEENLFEDGNPGSAMFVLVEGTIEIEKLMSNGEVVNLAVLGRGDFLGELALLNSSKRTASAKCITETKVLVLFRDDLFEFIKREEKIGVKILKKLAEIIGERLVATNKILLEYKLMMEIKKDGD;locus_tag=LOCUS_06310;note=WP_011476586.1 Crp/Fnr family transcriptional regulator (Ligilactobacillus salivarius) [pid:24.1%25%2C q_cov:74.6%25%2C s_cov:56.8%25%2C Eval:2.4e-08%2C partial hit],MGA_631
sequence1	MetaGeneAnnotator	CDS	736491	737615	.	+	0	ID=MGA_632;product=AI-2E family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001206646.1;translation=MEIKKSYFQINFSKLFFYLFLIFVMVVSIYATIPLLRSTLIGFIIAYLLEPLVLYLERKNINRLLSVIVIFSIFIIGIWYLIIGIKSFFPSPKEIINFIDYIVKNTEKLKYILIEKYNYINWNIIFDNIISSINTSSEITSKIPKILSSIAGLSSLFFIIPFTTFFFLLDGSRFKKWLLKLIPNRYFEITYTTLKEVDSVFGNYIRGTLLESLIIGVMTFIGFFIIGFPFNIALITGAVSGLANAVPYIGPLLGAVIGVILHILKIIPKDYVPVFGISVSILGVLVVVGIVQIFDNIAVKPTVIGKSVDLHPLVVVLGILAGGKMFGFVGIIAAIPVIAIIKVIVETLYNQLSGYNMLSKNLAAVVTEELKEID;locus_tag=LOCUS_06320;note=WP_001206646.1 AI-2E family transporter (Leptospira) [pid:28.5%25%2C q_cov:92.8%25%2C s_cov:96.6%25%2C Eval:3.7e-35],MGA_632
sequence1	MetaGeneAnnotator	CDS	737641	738255	.	+	0	ID=MGA_633;product=MarC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002860212.1;translation=MEFGNLSKLLADTLALMAIMNPFGNLPIFIGMTEDLPKPLKKEIFKVIIYAGIGITLIFGIIGDFLMKYFFHLEINELRIAGGLLLIIVGLKNMLFSKDKKKLDGSSDYGKEEIEQGIIPMAFPLLVGPGAMATVLLIKREHGILNVIFATLVVFLIIKILFKFEELIAKIFGKVVLLILSRVMQLFIVAIGVSFMIHGIKSVF;locus_tag=LOCUS_06330;note=WP_002860212.1 MarC family protein (Campylobacter) [pid:40.2%25%2C q_cov:93.6%25%2C s_cov:93.3%25%2C Eval:1.5e-37],MGA_633
sequence1	MetaGeneAnnotator	CDS	738300	739064	.	+	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFLVFVATIVLLVMGGCDFKVTVKKSDEVSKVVISSTSDVINADNNNAVSFSVKVFNSDDEEILNKTVDIYKDGVKFTEDSFYTTTSGEYIFLAKVDGVESNSIVVTVNNDGKMTVENNSAGAMHGVEWISGDKSYYFSETEEDSIWTESGKIDSLLVGDSNTKLVNPGESFLYFSISGQNGFAYFRTKDKITISDFDIKNVEIVIDTPVQETDENQNDLTRKFAVIITSVNKSGKRAINRYEVINVIKGE;locus_tag=LOCUS_06340;note=MGA_634
sequence1	MetaGeneAnnotator	CDS	739069	739713	.	+	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIIVLLSVILSITIFAGTIVVDINSNIKIFLKDSGTYTVHYNGNIVKDKNGRRILLKPNKTWDYLGNIRNQIVNNGEIYINRNGRWGYLRKNKSDNFPYMQVSLTRINRSKTLIEGKILNNSKFNYKNSTFNIVVFDKKSFEYKVVGRISTNRFLKKSKVRFSKYININKSDILEYYIEYVDGEKFKFLKTRKIKRTKAKTLGDYQKELND;locus_tag=LOCUS_06350;note=MGA_635
sequence1	MetaGeneAnnotator	CDS	740034	741062	.	+	0	ID=MGA_636;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480919.1;translation=MNDREKTILGAVIDYYITNGESVGSRTITKKYDISLSSATIRNVMADLEEAGYIEKTHTSSGRVPTNKGYKFYLETLLKIKKLSEDEITKINIAYEKRVGELEEVLEKTSMLLSKMTNYASLAIELNYKAEKLKKLELIYVNSYTIMAVIILENDSVRTKRINLDYRIDEEELKDISKILNNKFKGSKLGEILPKLEKIINKRRDDAFEGVVKECFGEIEGSFYLEGATNMINVLENENSKEVANVVKFLDDKKDIRKFFEDMVKKRNYEDGKVNVILGEELGIEGLKDLSFIFSVYTLDDAKGIVGIIGPKRMEYSKNLGLVEYVTKEVNIAMNKIKNRRE;locus_tag=LOCUS_06360;gene=hrcA;note=WP_198480919.1 heat-inducible transcriptional repressor HrcA (Fusobacterium canifelinum) [pid:46.5%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:3.7e-87],MGA_636
sequence1	MetaGeneAnnotator	CDS	741065	741373	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLFLGLVYSLQMQTMMSLGKLANPVSGKIEKNLEIAKMNIDMLEMLEEKTKGNLTDEESKFITNLLTDLRLNYVEEIKTKDKDENEDKESEKKDEQIEEK;locus_tag=LOCUS_06370;note=WP_011123553.1 DUF1844 domain-containing protein (Rhodopirellula baltica) [pid:47.9%25%2C q_cov:67.6%25%2C s_cov:48.6%25%2C Eval:3.7e-08%2C partial hit],MGA_637
sequence1	MetaGeneAnnotator	CDS	741351	741944	.	+	0	ID=MGA_638;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816478.1;translation=MSKSKKNKKDIDVEEEKMVSENNTEELENEEKKEEGKKEEKEITSEDKIVELEAEVAKWKDSYIRKVAEFENIKKRMEKEKEEFLKFSTEKLILKLLEVVDNLERAVSSSKTTEDFNSLVKGVEMTLNQINRVLTEEGVVALDAKGKEFNPYEHHAMMQEESEEHDDNIVIDEFQKGYKMKEKVIRPALVKVSKNKK;locus_tag=LOCUS_06380;gene=grpE;note=WP_005816478.1 nucleotide exchange factor GrpE (Desulfitobacterium) [pid:43.8%25%2C q_cov:78.7%25%2C s_cov:76.1%25%2C Eval:1.7e-35],MGA_638
sequence1	MetaGeneAnnotator	CDS	741965	743800	.	+	0	ID=MGA_639;product=molecular chaperone DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016153.1;translation=MGKIIGIDLGTTNSCVSVMEGGAVKVIANAEGARTTPSVVNFKESGEIIVGEIAKRQAITNPEHTVYSIKRHMGEDHTEKMFGKDYSPQQISAFILQKLKKDAESYLGEKVEEAVITVPAYFTDSQRQATKDAGRIAGFEVKRIINEPTAAALAYGLDKKGKEEKVLVFDLGGGTFDVSVLEIGDGVVEVKATNGNNHLGGDDFDNKIMNWLIEEFKKEEGVDLSKDKMADQRLKDASEKAKMELSTMLETTISLPFITATETGPKHLEKKLTRALFDELTKDLVEATQGPARKALEDAKLSPADIDEIILVGGSTRIPAVQNWVKNYFGKDPNKSINPDEVVASGAAIQGGVLMGDVKDVLLLDVTPLSLGIETLGGVATKMIDRNTTIPVKKSQVYSTAENNQPAVTIHVVQGERPLAKDNTSLGRFDLTGIPAAPRGVPQIEVTFDIDANGIVHVSAKDLGTGKENKIVISGSKNLSEEEIEKMVKEAQSHEAEDKKIKELIEERNKADQLIYSAEKTLKDNADKVSEEDKKNIEDAIAKLKEVKDKDDLEAIKKGAEELEKASYKLAEEIYKEAQAAQAAAGAQDGGAEKEAKQDDDIVDAEVVDNE;locus_tag=LOCUS_06390;gene=dnaK;note=WP_011016153.1 molecular chaperone DnaK (Fusobacterium nucleatum) [pid:74.9%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.1e-257],MGA_639
sequence1	MetaGeneAnnotator	CDS	743867	744739	.	+	0	ID=MGA_640;product=aldose 1-epimerase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000127403.1;translation=MEYKLSNGTVEIVVKSKGAELKSAKLIKNKTEFMWDANPKFWAKSSPVLFPFVGGLKDNKYFYKNKEYKSGRHGFARDNEFNIFAQDENSITFIFSSNEETLIKYPFEFDFFVKYVLEKNKIILEYKVINKTDGEIYFSLGGHPAFATPTSDEIKFEDYYLEFEKEETSKLLVLDGMYVSDKQLNYFNNEKIINLKRDMFDNDALIFEGLNSTKVSLKNKINNRKIVFDFEGFPFIAFWSAPGADYICIEPWHGIADTINHNGNIEEKKGIEKLEKGESFETSFSIELEA;locus_tag=LOCUS_06400;note=WP_000127403.1 aldose 1-epimerase family protein (Bacillus cereus) [pid:41.0%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:2.0e-64],MGA_640
sequence1	MetaGeneAnnotator	CDS	744759	745910	.	+	0	ID=MGA_641;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940712.1;translation=MRKLSKRDYYEILGVEKGASQDEIKKAYRKLAMKHHPDRNAGNSEAEEKFKEASEAYQILSDPEKRSKYDRFGSSAFDGNAGGGGFNYNNFGDFGDLGDIFGSFFGGGFGGGRNSRSRSRARKGSDLRYNMEITLEESAEGVEKEVSYTREAKCSTCNGTGAEPGSKMKTCPKCNGTGEIKQISRSLFGQFENIEECDNCNGTGKVPEKKCHTCGGTGVVKEKVKKKVKIPAGIESGQRVRVSGFGEVGENGGPYGDLYIYVFIKEHEIFERVDNNIVCEMPISFTTATLGGEIEVPTLTGTIKMKIPSGTQTGKVFRLREKGIPYIRGYGKGDEMVKVIVEIPTNLSEKQKDLLKEFDSALHEKNNSMAKSFFDKIAKKFKK;locus_tag=LOCUS_06410;gene=dnaJ;EC_number=1.8.4.-;note=WP_010940712.1 molecular chaperone DnaJ (Geobacter sulfurreducens) [pid:44.1%25%2C q_cov:97.1%25%2C s_cov:97.6%25%2C Eval:7.1e-90],MGA_641
sequence1	MetaGeneAnnotator	CDS	746230	748422	.	+	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRVIILMLFIVIFSEFSFSQGEIFNSKNKSKKNINLLNFEYKEDNGGIIITKYIGKSKEIKIPREIDDKPVLKIGKLAFNNKKIRKVELPNTIIEIGEEAFSYNQLKEILIPNSVKKIGESAFLVNELKSLVIPDSVLEIKAEAFGNNNLERVKLPKRLKVIEHSVFYNNRLEEVLIPKTVTKIGYGAFLVNKLKEISIPDGVTEIGAYSFGNNKLTSVYIPDTVKKMGNGVFVENKLKKVRISNSLSIIRWRAFAENELTNVKIPNSVKVIRGSAFKENKLEEIVIPDSVEEIRGNAFSKNELKKVVLSKSLKKIGYRVFGENKLTSIYIPSSVEDIGKEAFYRNKLIRLKIPDTVKKIGEGAFTSNNLISVEFPKFIEKIGKMAFERNKLTRLIIPSSVKEIGIFAFSNNKLEKVVLPKSLKKIEGKVFSGNNLTSIYIPSSVKEIEGGAFEYNNLKKIVIPDSVEEIVWEAFAHNNLSELKIGKSVKKIGGRVFSHNKLSRITIPNTVKEIGEEAFSHNKLNRVTIPNSVKKIGEGAFSYNKLSRVTIPNSIKIIDKDAFLGNDFKKLEDIKLGEGYKSYWVFNKSKGELDGIIGLPRNYDLVIPKKIDNTPVKSIGEDAFVYSKLKSVIIPNSVEKIGGGAFMENNLTSIVIPNGIERIESYTFQDNRLKTIVIPKSVTYIRFDAFSEHLKATIYGEPGSEAEEYAKDMGVEFKPIKELKKEKK;locus_tag=LOCUS_06420;note=WP_011948154.1 cell wall-binding repeat-containing protein (Clostridium botulinum) [pid:27.1%25%2C q_cov:82.9%25%2C s_cov:41.2%25%2C Eval:2.8e-46%2C partial hit],MGA_642
sequence1	MetaGeneAnnotator	CDS	748465	749631	.	+	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRLILWMVLLIMLSFNLYSQVEKIDPKLYNTVWEREFLNYTSDKISYYLLDTGEVVVSQYYKVDKNNEHRDLIDLKKDMLFYSGKEIKKEYFENKLRKRIVIPKTTEESYNVSSGEKEKEYSKIVYDNLGNKYRWVNGLAVYYDKRYEDNKKYIIDKIAINRSRINGTYFSDLKRFSSVLDKCVIVLEKLNENNKILWQKVYFYNLPIWRSYFDRAEIEYDYYFYYLRRGYITLLNADNIFLNFPGTKMIYRVDKNGNPVTQDKNVIVLDYKNYVKFYESEYNRLNIKYLMEDEEGVDFNPIDYEVFDYDYIGERLLKKYKFNLNDKKIIDSINEHPSVKHLMKIYKLMDEYYKKEVGIDKNNFYPVFLERRWNLSVIETEKWSEK;locus_tag=LOCUS_06430;note=MGA_643
sequence1	MetaGeneAnnotator	CDS	749679	751871	.	+	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRVIVLMLFIVIFSEFSFSQGEIFNSKNKSKKNINLLNFEYKEYNGGIIITKYIGKSKEIKIPREIDDKPVLKIGKLAFNNKKIRKVELPNTIIEIGEEAFSYNQLKEILIPNSVKKIGESAFLVNELKSLVIPDSVLEIKAEAFGNNNLERVKLPKRLKVIEHSVFYNNRLEEVSIPKTVTKIGYGAFLVNKLKEISIPDGVTEIGAYSFGNNKLTSVYIPDTVKKMGNGVFVENKLKKVRISNSLSIIRWRAFAENELTNVKIPNSVKVIRGSAFKENKLEEIVIPDSVEEIRGNAFSKNELKKVVLSKSLKKIGYRVFGENKLTSIYIPSSVEDIGKEAFYRNKLIRLKIPDSVKKIGEGAFQSNNLISVALPTSLEEIDKDAFYRNKLKRLIIPNSVKEIGEFAFSKNKLEKVVLPKSLKKIEGNVFSGNNLTSIYIPSSVKEIGGGAFAYNNLKKIVIPDSVEGIVIEAFAYNNLSELKIGESVKKIGAGVFSHNKLSRITIPNTVKEIGAFAFSHNKLNRVTIPNSVKKIGEGAFSYNKLSRVIIPNSVKKIGEGAFSLNDFKKLEDIKLGEGYKSYWVFNKSKGELDGIIGLPRNYDLVIPKKIDNTPVRSIGEDAFGDSKLKSVIIPNSVKEIGGGAFMGNNLTSIVIPNGIERIESYTFQDNKLKTIVIPKSVTYIRVDAFSEDLKAIIYGEPGSRAENQAKYMGVEFKPIKELEKEKK;locus_tag=LOCUS_06440;note=WP_011948154.1 cell wall-binding repeat-containing protein (Clostridium botulinum) [pid:29.1%25%2C q_cov:90.7%25%2C s_cov:37.2%25%2C Eval:1.4e-50%2C partial hit],MGA_644
sequence1	MetaGeneAnnotator	CDS	751914	752984	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRLVLWMVLLIMLSFNLYSQVEKIDPKLYNTVWQREFLNYTSDKISYYLLDTGEVVVSQYYKVDKNNEYRDLIDLKKDMLFYSGKEIKKEYFENKLKKRIVVPKTTEESYNVSSGEKEKEYSKIVYDNLGNKYRWVNGLAVYYDKRYEDNKKYIIDKIAINDSVTTEAYSSEILYQYVIVLEKLDKKNKILWQKVYFYNLPVWRSQWSGEEQEYIYYFSYLRRGYITILNADNIFLNFPGIKMIYRLDKNGNLVTQDKDVVVLDYKKYVKFYESTYSRLNMKYMIEDEVGVKFTQFNGAVGYDYIGERFLKKYKFDLNDKRIIDSINEHPSIKVLMKSYKLIDKYYKEEIGTDK;locus_tag=LOCUS_06450;note=MGA_645
sequence1	MetaGeneAnnotator	CDS	753082	753675	.	+	0	ID=MGA_646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRILIGVIMVMTVLNFGGCFSNKSDTNSVVAKTIEWEKNDNGELEFYTNDTDYKNASYWFVLNSPYEDPMKSFEVYAKKVSGYKDGGYGIIFGVQDNSNFYRLLITETGFYQVSKKVQDENTVILNWNRGNNLQTGYGVYNKIKVTYNAGEFKIYFNDKFENNFTDYQFTKGKYGMYLGVFDENFPKESVDILFAR;locus_tag=LOCUS_06460;note=MGA_646
sequence1	MetaGeneAnnotator	CDS	753991	754308	.	+	0	ID=MGA_647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSNILYAAGAATAPTSTNGIVTLVITVVLWGGIFYLLLVRPQKKRTAAHKQLMDSLKPGDVVFTTGGIKGEIISKNDEFIELRVDKGVKLTVKKNVISSIYKNK;locus_tag=LOCUS_06470;note=WP_011017079.1 preprotein translocase subunit YajC (Fusobacterium nucleatum) [pid:48.1%25%2C q_cov:73.3%25%2C s_cov:81.9%25%2C Eval:3.7e-16%2C partial hit],MGA_647
sequence1	MetaGeneAnnotator	CDS	754354	755385	.	+	0	ID=MGA_648;product=N-acetylmuramoyl-L-alanine amidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029491986.1;translation=MKRYSLALFFLIYIISFGTTTNKIEKYSFNSNSIIFNISGNSFPKYLSNYDSESKIIFLEFSNTTPNKNIKNKILNGNYISKIETVSFDKTTDFFITLKSGVEFLEKKLKNPNRFQIIFSKKTVKNRYTIVIDPGHGGKDPGATGYRGLHEKDIVLKVGKLLKKKLSKVKKFNVIMTRNKDVFIPLGKRADIGNKNSCDLFISIHANANKKKSANGVEVFYFSKKSSKYAQNIANFENSVDDKYGIKSDYAKLIVNDIFYHMNQEKSIDLSSRIENKINKLTGLPKRGTFGANFAVLRLSNSPALLVELGFITNKSDALKLKNSRYQVALANAIYYSIVNYFN;locus_tag=LOCUS_06480;note=WP_029491986.1 N-acetylmuramoyl-L-alanine amidase (Fusobacterium hwasookii) [pid:40.0%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:2.7e-53],MGA_648
sequence1	MetaGeneAnnotator	CDS	755396	755914	.	+	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAILIIFLVLDIIMFFLYYKYYIKTPEIIKYNAKTVSNIEKNKKETMKIYIPDDKYKYLKGIDVEIPYYKDKEKKIKAILEKILPFEVKVLNIYIEKENLYINLNSKFKEIVNDSEKELYIVYSIVNTVTQVENIKKVKILIDNEEIKTVTGYLNYNKFFKQDDLLIEGE;locus_tag=LOCUS_06490;note=MGA_649
sequence1	MetaGeneAnnotator	CDS	755919	757259	.	+	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIFIVFILLIIGIGIFLYMYYSRESKLAEGIAYYDNDDYEKALEVLKSYIVAKPYDIRARKYLAELYLKQNEYILALKECIAITVSSYATFKEKADAYAKMAEIYIEQGILDKATKVAVKGFKLEPKNAEIHYSLGKIYLLTDKLNSAIKEFNLVLSVDRTHIPARLKLAEIHFKNRNDIKAIFQYKKIIELEPNNKEAHFELAKLYYENGEYENAKNEIEKIKDRKGIEIDCDYILVNYYLKVKNKEKAKEIMEKAILGNDIKNEKLTSLRYELGVIYEEEGNFEGAYELYEKIKLDILRYRDIEKRMQKIKKVLFPEEHAKMVQQIDYNKLPTLEFEDLFYKVIDSLGYKEAKLIKKNRNLISIIAVEKFKTLLQGKYLIEMGRNFESVSRHEVEKFLIKIKDEGAKKGILISTSTFNDAAIKLLEEVSNLELVDKVNIYELA;locus_tag=LOCUS_06500;note=WP_010964383.1 tetratricopeptide repeat protein (Clostridium) [pid:22.8%25%2C q_cov:55.4%25%2C s_cov:93.4%25%2C Eval:4.4e-09%2C partial hit],MGA_650
sequence1	MetaGeneAnnotator	CDS	757308	757742	.	+	0	ID=MGA_651;product=Hsp20/alpha crystallin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083188.1;translation=MGDRYHGHFGDTKILKDEFSKLLDDFFDLKKEGLQEYDFLPAMDVYEAESNVVIEIELPGVKRENIDIEFNNGIITISGIKESKKVNENALFHRIERNYGKFQRNIKVESKIIEDKIDAKLENGILMVFLPKKEDNKIIINLND;locus_tag=LOCUS_06510;note=WP_004083188.1 Hsp20/alpha crystallin family protein (Thermotoga) [pid:38.2%25%2C q_cov:85.4%25%2C s_cov:83.0%25%2C Eval:2.1e-20],MGA_651
sequence1	MetaGeneAnnotator	CDS	757857	761078	.	+	0	ID=MGA_652;product=carbamoyl-phosphate synthase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878769.1;translation=MAKRTDIKKILVIGAGPIVIGQACEFDYSGTQACKALKEEGYEIVLINSNPATIMTDPEMADATYIEPIRADIIEKIIAKERPDAILPTIGGQTALNMAVELAEKGILEKYNVELIGAKLETINKAEDRELFKEAMEKLGYKMPKSGFANNLDMAHKLLEMVGFPAIIRPSFTLGGTGGGIAYNIDEFNEIVLDGIDSSPINQVLIDQSILGWKEYELEMMRDKNDNVVVICSIENIDPMGVHTGDSITVAPAQTLTDKEYQNLRNMSIEILREIGVDTGGCNVQFSVNPENGEVMIVEMNPRVSRSSALASKATGFPIAKIAAKLAVGYTLDEIKNDITKETYAAFEPTIDYVVTKIPRWAFEKFKGANEILTTKMKSVGEVMAIGRTFKESLQKALRGLEIGRFGLGADGKDVIPTESELVENLVVPNKDRIFYLRYGFKFFNKTVEDLYNLTKIDRWYLYQIRDIVRLEEEIEKFDLDNMSVELMRKAKEYGFSDVQLAYLLETDEDKVRAKRKDMKIDVTYKMVDTCAAEFKAYTPYLYSSYESECEANPTKNKKIMILGGGPNRIGQGIEFDYCCCHASFALQEDGYETIMVNSNPETVSTDYDTSDRLYFEPLTKEDVLNIIETEKPDGIIVQFGGQTPLNLSGKINDISGVKIIGTSPDSIDMAEDRDRFGEMLNKLGVLQPKNGIAKSVREAENVAGIIGFPIIVRPSYVLGGRAMQVVYDMSSLRHYMETAVSVSPEHPVLIDSFLEGAIEVDVDALCDGDDVVIGGIMEHIEEAGIHSGDSACMLPTQNLTENVLDTIKDYTKKMALELNVVGLMNVQYAVKDEKVYVLEVNPRASRTVPFVSKATGRPLAKIASRLMVGKKLKELGITEEIIPKHVAVKEAVFPFVKFPEVDPKLGPEMRSTGEVMGIDLSVGRSFYKAQYAINENFPLSGSVYVSVADEDKAGILEVVKQFSALNFKIYASRGTARYLIENGINKLEVINKLKEGRPNIVDYIKNNKINLIINTTKGKNARGDGEIIRKNAVTNGIFYATTIAGAKETIDAIKEKVEKGINVFSLQEYYKR;locus_tag=LOCUS_06520;gene=carB;EC_number=6.3.5.5;note=WP_010878769.1 carbamoyl-phosphate synthase large subunit (Archaeoglobus fulgidus) [pid:63.8%25%2C q_cov:99.9%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_652
sequence1	MetaGeneAnnotator	CDS	761432	763351	.	+	0	ID=MGA_653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYDVTEKCIGCRACLGVAELNFDINDKNKAFILKQPDSKDEEEKCEKAKNICPVDAIIEKIKENKEEVRNLEKNDLVFANANIKETLDKYPELKRVLVKLSPKFKRMQNPIMYNTLARFATFKDASKITGVSICEILHTINEYLGIEKKLVENMPECVAAMKEDNGFEKESSPINWEESNERYIYNNNSIEELIDKVSKLKPQENIVMLSVELPLELLKLVVGLKFKYNIEKNREYRLSIFNSKSEEIVDWKDRKDEFEILDVRTMESDPFDIIIKKAYSLEEDSGFILIQKFNPIPMINMLNEMGFESIVDEKRRNEVWIYFHKKVLIEEEKTAIEDKIDVVIQSATPVAYPVMMRLLQSKKIRKSVNIKELKVWEETEKHLGWIVNGKADISFSALITSGKLKNSDVKIPALFVWDNFVILTRYKANGLEDIKGKEIYAPLFEDAPPAKITKYLIQASGFDIDDFKFKYGEPFGRPEKIYSDFVTGKADTVILREPEAAYAIKAMKDRGEKISIISYNKIWNEINKGFGSFPNAGILLKGEFTRKYPELTKVLLEELKEAINWVNNNRKAAAELSFDMMRQPVDRIEEFLDRVNFKYVEGDELVDKVKQYFDILVKEDIVNDVVDDKFLNMFKLD;locus_tag=LOCUS_06530;note=MGA_653
sequence1	MetaGeneAnnotator	CDS	763597	764220	.	+	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILEEKAKNGQNTYIIENNSKKIYLYSKYDPNKDVERAIKNIDFNEEQIFILLGFGKYHIEKIKKNMTENSNLIIFDLEENIKKLKKYYMKDEKVFSEKNFNEILKYVSLNSKKTYTFIKVNSLYRINRATYDTVQNEIEKLFNLYRKVPDDFLKEYNGNFLENCKLSEAKINYEFKDYMYLLTKEILVTYTRRDNNYGNKKSNIS;locus_tag=LOCUS_06540;note=MGA_654
sequence1	MetaGeneAnnotator	CDS	764192	765346	.	+	0	ID=MGA_655;product=lipopolysaccharide heptosyltransferase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002858077.1;translation=MGIKKVILVRMGALGDLIKITPIIERFYELGIKVDVITDSEYSIVLSEYSKINKIYSIDRKDIRDIFNKNDNLIYYEMYDKLYKIFQEINSSEYDLVINLGVAKYPIIIASMIKAKDRKGIFLKGKDLLEFYGDEKGYFAYKTQSTPSENLKLNRKENICDYFFDVAGIKNNFHSVSIEIKKNIEINSNNLIGIHIGAGWKTKKYILEKWGNVCSGLLERGFDILLNGVEQEKDEIEFLRKSVLEKREKNLKNRGELFVNYNMSEFDKFVTLKNIKLLISTDSGPASVAAALGKPVITLFGATDMYNVAPYSENSFIINSKERCTPCLKETCDKNMECMRNISGELILETVEYILEGKRKKINSKDVYRCKFNKESRLEIVSMY;locus_tag=LOCUS_06550;gene=waaC;note=WP_002858077.1 lipopolysaccharide heptosyltransferase I (Campylobacter) [pid:24.8%25%2C q_cov:92.2%25%2C s_cov:99.7%25%2C Eval:1.7e-14],MGA_655
sequence1	MetaGeneAnnotator	CDS	765395	766594	.	+	0	ID=MGA_656;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000012257.1;translation=MLVKLAFRNIFRKKTRTILTLTVLIFGVYLAIFYDGILKGYTREMINTYINTDIGEFKIYKKGYYKNKDDDERLKYLIDKKEVEKDLDKLNIDRYSSRLLFDGTIAIDENELPIKILGINPKVENKIFKRDKATVSGNFLSGNKGIVIGIGLAKALKLKVGDIVTILARGVEKTINADDLKIVGIIETKNNILDESSCFINLNYAQNFVNTKKINDIVIMNKLNRKDIKILGKNYDVISWKKDLGNLIELMEFKAKASNQVVFLILIMAGVGIASTMLMSMLERKKEIGIMLADGMKRKNILLLFLIEGGFIGVIGSFIGAVLGVITNYFLHIYGIPLPIETYKKMQLNMVIPEKMHADLDMKTVLLFFLLGILIALISSFYTAYEASKSNPVEALKNM;locus_tag=LOCUS_06560;note=WP_000012257.1 ABC transporter permease (Escherichia coli) [pid:27.6%25%2C q_cov:99.0%25%2C s_cov:92.9%25%2C Eval:2.2e-25],MGA_656
sequence1	MetaGeneAnnotator	CDS	766659	770042	.	+	0	ID=MGA_657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKGISIKREIIYITTFLTIFILVVFGAFFFYKFWELNLDKAKNIIKGKNREISIFTESFFNNIFKDIDIIVKDENTSLAFKNKKYKKKVLKLLKNISETDKYISYVYIGYKNKKMIINNWEPPKGFDLTKRPWYISAKKSAYKISIGNPYKEIKTKEWLLSQSIALKDKENKFVGVLSIDCNIENIVKSLARDKEYKTQRTYIIDESGKILIHPDKFYINKFYPNIRKKLLKNNGYINYSLSGNRKVMGYYSKIKSTDWYIVTSIDSKEIVDPIIYNMALDFIIMILMALLIGNIFNIIFYKRFAKPIIELEDRVLKILNEEKIEKGDYKNSNKEIIRIIEAIETMTSNSLKEKNKELEAIIESTNRGIVVVDKDGKSFYINNNFKKIWGEDLELGKLNSKNIQKIVFSKVKSEKIEEAKQRFLKFLKENKSSKDIIELNDGRSIEVYFTNIDNNSKRVWSFSDITEDKMKELELNIAKEKAEAANKAKSEFLANMSHEIRTPLNGIIGFTELVSKTPLNKLQLQYLENIKVSGEALLGIINDILDFSKIEAGKLELEFIEGDIIDLSEAATEITKYNADKKNLEILLNIKPDVPRYAKIDVVRLKQILINLLGNAIKFTEKGEVELELKFMPKDKKIGFFTFSIRDTGIGITEEQQKKLFKAFSQADSSTTRKFGGTGLGLIISNMLAKKMGGKIELESKSGKGTKFYFTIETEYEEENDLLLRDISKEIKRVMIVDDNKKNREILSENLKYFGIESRGISNGYDAIEILKDGYKVDLVIMDYHMPKLDGLSTIKEIRKLFSKEKLPIILLHSSSDDFKLNEKCKELGVRFNLQKPINSRELISYLKNIKMEQVYNKPKTEDKRGKRQEDIITKDKVTILIAEDVEINMLLIETMVTMYIPNSNILKAKNGEEVLEIVKNNKVDLILMDVHMPEKDGIEATIEIRKREKDSEHIFIIALTAGGTTEDREKALSAGMDDFITKPIDKDELKSTLGKYLNKIMKEKMEKDENNYPTYIEGVDIKSGVERILGNKELYFKFIYDFIDKSQKYVEEIKGYLYKNDIENARKVAHALKGVSGNLSAKDIQEKSTKLEKILKDNGDYKEELVELEKVVGIFVHSANENKK;locus_tag=LOCUS_06570;note=WP_011071149.1 PAS domain S-box protein (Shewanella oneidensis) [pid:33.5%25%2C q_cov:68.0%25%2C s_cov:44.0%25%2C Eval:1.4e-103%2C partial hit],MGA_657
sequence1	MetaGeneAnnotator	CDS	770167	771351	.	+	0	ID=MGA_658;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005482694.1;translation=MIKMAFRNIFRNKKRTVLAIISVALGIGGLIFGLSYIKGLELLFQKENTKVMGEVRVTVKNYELKSKLMDVSSSISVNLKKKILKIEGVKRVDGIINFGAYIFSDNDDSKGLGFGVEKNSYIKDKVYRGKFLTKIGDIVVGKKIQEKLNLKIGDKITVLTATKGASTFALNYKISGFYNIGGPLNNSFSILLNDAMYLLDMEGEVTELHVYGENIKLANTIKLKLMDILKTDNVEIKKWDEIGAASITQVWNATKAVMIIILGLLSAVVIVNTMVMSVFERKKEIGVMKAFGMSRIKIIKLICTEGLFMGVIGSLLGILIGGFAGYYFSVNGIFLGSSMNGVMGNIDIGDTLYTKLAISDIIVSGITGIIVGIFASFIPAVIEIRKRVVRNLYE;locus_tag=LOCUS_06580;note=WP_005482694.1 ABC transporter permease (Vibrio parahaemolyticus) [pid:22.8%25%2C q_cov:96.4%25%2C s_cov:95.9%25%2C Eval:2.6e-18],MGA_658
sequence1	MetaGeneAnnotator	CDS	771539	773092	.	+	0	ID=MGA_659;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKEFNITGTCIPEEHYMVDTSLKLNKIMKLIEKRNYFTINRPRQYGKTTTMYLLDKRLKNNKEYLLIRISFEGIGDESFGNEESLSEVFISLIEREIKFKKEKQLLEFIKKNKKLRKFRELDEFITDLILETNKKLILMIDEVDKSSNNQLFLNFIGILRDKYLRRNEGRDYTFHSVILAGVHDVKNLKLKLRADENRTLNSPWNIAVKFNIDMSFNPEEISTMLIEYESDAKTGMDIKNMSEKIYMYTNGYPFLVSCLCKIIDEELDRNFTEKGLEEAIKILLNEENTLFDDIIKNIENNRDFYKFIEKVILGNDKVDYVHTDIMASLGKMYGIIKEKNKKVEIDNKIFEILLYNHMIAKRERVKGVVLTYEFRTKFIDNNGNLDMELVLTKFQELMKAEYRKIDEKFVEREGRLLFLAFLKPIINGTGFYFVESETRESNRMDIVVTYNMKKFVIELKIWRGGQYEQEGREQLCRYLEAQNLNKGYMVFYNFNKGKEYVKDSVMVEGKEIFEIIV;locus_tag=LOCUS_06590;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:47.2%25%2C q_cov:96.7%25%2C s_cov:95.6%25%2C Eval:6.2e-135],MGA_659
sequence1	MetaGeneAnnotator	CDS	773196	774302	.	+	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKISNITFSNLIDFFPEMIFIFNKSGEIIFKNKSINDILEKNYDSVYILNKDKIVNHCKLNLGSKIKNSKDIIFYRDCFLNEIVEDVFEKKENIHNLEGEMKLFVGEQEEKLDIILNVVYFTDNNKEYVLVSIRNITDVKEFERRKIAEYEKLALIGSTVASIIHDLRNPLTGISGYNYILSTKAKNEKEEKMFKRIDRNINKINNMLEEVMSFANGKEKIEIIKNRVKVHDFINYVLEDFHFNDIEIEFDLGDINIEIEIDENKMQHVFWNLIKNASEAIVDSGYIKIKFRETEDKYIFEVEDNGKGIPENLKDKLFTPGATFGKKNGNGFGLLSCKTIVHSHNGEIYFESEEKKGTKFIIELPKK;locus_tag=LOCUS_06600;note=WP_010886497.1 sporulation kinase KinD (Bacillus) [pid:32.0%25%2C q_cov:59.0%25%2C s_cov:43.1%25%2C Eval:2.1e-27%2C partial hit],MGA_660
sequence1	MetaGeneAnnotator	CDS	774328	775212	.	+	0	ID=MGA_661;product=PHP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932020.1;translation=MIDLHIHTTCSDGTYTPEEVVELCKEKNIEVMAITDHDTVEGLKEGRKKAEELGITFINGIEFSTDYYGKEVHILGYFLNIEDEAFLKEIKLLGEEREKRTELMLEKLKRYGINITMEDVLEEVKGNLISRTHIAGAMYKKGYIRSRKEAFINYIGSGKGAYIPKENLSPARAVKLIKDNGGLAFVAHPKLISLGEKRTLELLDILQEVGLDGLEIYYPSFSSIDIAYYSRIAKERGLIASGGSDFHGGNRIEISIGVSNVKNDIYEAMLERLESQKNEKVRRNNEKVNKIFKK;locus_tag=LOCUS_06610;note=WP_010932020.1 PHP domain-containing protein (Chlorobaculum tepidum) [pid:39.5%25%2C q_cov:86.7%25%2C s_cov:86.8%25%2C Eval:1.2e-48],MGA_661
sequence1	MetaGeneAnnotator	CDS	775181	775804	.	+	0	ID=MGA_662;product=DUF502 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009872644.1;translation=MKKLTKFLKNNIISGFLVFLPIGIIIFVFKFAYNSIYNLVLPLATTISKTSKIQTSFSVIITITLILAVCLIIGIIVQTSIGEIFRERIENRILKKIPGYNVVNETIKQIFQGEETPFSKVALADVYSKGAYSTCFITDETDNMVTVFVPAALNPTSGNIFHLPKDRVTILDVSIDDAMRSIIGCGIGSDKLIKEFEKNKIEYKERI;locus_tag=LOCUS_06620;note=WP_009872644.1 DUF502 domain-containing protein (Chlamydia trachomatis) [pid:24.4%25%2C q_cov:87.0%25%2C s_cov:85.4%25%2C Eval:4.2e-11],MGA_662
sequence1	MetaGeneAnnotator	CDS	775807	777642	.	+	0	ID=MGA_663;product=O-antigen ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015263574.1;translation=MKKNKSDIIKAADEKKENTQSIIKLLPILIILAIVPLIVFLKVVKLTGARHDFWTGEPRNWDFFSYYKVIWIYVLTVISLGSSYFVKRIKKSNFYIPLLAYGILISLSSMVSKYKIISLYGFVDRYEGAFVLICYLFLTFITFNLIKNKFDIKLIFFALGIGAFIMSLIGIFQFFGMDIFRTYQGKLWILPPDWEKLADSLKFTFAPGTIYATLYNTNYVGSYMSMLFLLSIIAVIYTKNKVKLSIIIIFNLLMYSNWIGCRSRAGMVGGTAGLILLIIIFRKKLLKKWMLILGLVVSYIVIALLMNLYTIKAEYSSGPLLAKIASLGSAAKQVVEGSNVALKDIVMKKNRIEIRTKKETFIMEIDKEKIKFYDTINNVLEYKIIKDENKDKVIIFKNEKYSKYKVKLSENNIFTLYFNGMKLNFIYMKNGFKLINSKGKLDTFHNIDRIKFFDGKEKAGSMRFYIWSRSIPLLKKTLFLGFGPDTFAIYFPQNDYIGKLKAFGTIYEVVDKPHDMYLQIAINTGVLSLIAFLVLVIGYIYQSLNIYLKRNLNEFEIISGGAIAVAIFAYLVTATFNDSLVSVAPVFWVLLGAGLGINRLNEEKKQKLEDE;locus_tag=LOCUS_06630;note=WP_015263574.1 O-antigen ligase family protein (Desulfitobacterium dichloroeliminans) [pid:37.1%25%2C q_cov:94.8%25%2C s_cov:96.6%25%2C Eval:8.0e-100],MGA_663
sequence1	MetaGeneAnnotator	CDS	777644	778663	.	+	0	ID=MGA_664;product=UDP-glucose 4-epimerase GalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000996539.1;translation=MKKTCLVTGGAGYIGSHTCVELLNAGYDVIVADNFSNSKMESLNRVKEITGKDFKFYEVDILDYEKTERIFKENKIDGVIHFAGLKAVGESVEIPLRYYHNNITTTLILCEIMQKYNVKNLVFSSSATVYGDPERVPITEDFSLHATNPYGRTKLMIEEILQDLYVAEKSFNIAILRYFNPIGAHKSGKIGEDPNGIPNNLLPYIAQVAVGKLKEVRVFGNDYPTIDGTGVRDYIHVVDLAKGHLKALEKLEGKPGIVTYNLGTGKGTTVLEMISAFEKACNKKIPYKIIERRAGDIAKCYADPEKAEKELNWKAEKGIEEMCKDSWNWQSKNPNGYGK;locus_tag=LOCUS_06640;gene=galE;EC_number=5.1.3.2;note=WP_000996539.1 UDP-glucose 4-epimerase GalE (Bacillus cereus) [pid:71.0%25%2C q_cov:98.5%25%2C s_cov:98.8%25%2C Eval:4.6e-143],MGA_664
sequence1	MetaGeneAnnotator	CDS	779176	779499	.	+	0	ID=MGA_665;product=nucleoside triphosphate pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124795752.1;translation=MSLEIIYNKLIRDNIPKIIEKSGVEYKVHIAEEKEYIEKLIEKVSEELEEFVEKPCEEEMADILEVLETLSKVYKLDEQKIIDIKKDKKNKRGGFLERIILEKTIKK;locus_tag=LOCUS_06650;note=WP_124795752.1 nucleoside triphosphate pyrophosphohydrolase (Fusobacterium canifelinum) [pid:41.7%25%2C q_cov:96.3%25%2C s_cov:94.5%25%2C Eval:1.4e-15],MGA_665
sequence1	MetaGeneAnnotator	CDS	779816	781591	.	+	0	ID=MGA_666;product=TIGR03960 family B12-binding radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012099491.1;translation=MVNIEKYLLKAEKPAQYLGNELNVAYKDDYDFHMCLIYPDLYEIGMSSIGIQILYFLLNEQKGVYLERAFAPNIDMEKVMRENSVPMFSLESKTALKDFDIIAFSLSYEMTYTNVLNIINLSQIEIEREKRGEADPIILAGGTGSYNPKVLEKFIDVFAVGEGEDVSVEIANLMKKLKGKTKDEKLEALSKIEGVYVPKFYNGGKIKKRVVKDLNNSYFPEKWLVPYIRTVHHRLSVEIQRGCTRGCRFCQAGMIYRSVRERSLENNFNLIKNCLDKTGFGEVSLSSLSSSDYTQIEGLVDKLQEEYKDENLAVALPSLRIDKFSLNLAKKIEQVRKTGFTFAPEAGSQRMRDVINKGINEEDIIETAKGAFQAGWRHIKFYFMIGLPFETDEDVKEIYNLTKRVLLEGLKIRRDIEITVSVSNYVPKSHTPFQGMEQMGIEEMIRKHNILRGAFYKEKKLKLKIHRRELSYLEGFLSRGDEKIGDLIKLAWEKGAKFDGWKEHFNFEAWKEAISELGINENDYFKEKSLDDKFSWDLIDAGIEKEYFKTELEKAKNKALTKDCREGCTNCGVCWNLGVKMEIEKRGNKNG;locus_tag=LOCUS_06660;note=WP_012099491.1 TIGR03960 family B12-binding radical SAM protein (Clostridium botulinum) [pid:45.2%25%2C q_cov:96.4%25%2C s_cov:96.9%25%2C Eval:2.3e-152],MGA_666
sequence1	MetaGeneAnnotator	CDS	781584	782543	.	+	0	ID=MGA_667;product=calcium/sodium antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081007.1;translation=MVNIILLVIGFILLIKGADLLVDGSVKISRKLSIPELIIGLTLVSAGTSAPELVVSILASVRGDGGIAISNVLGSNIANISLVMGISLVLATITIGISTLKYEIPFLLVISMSLLAMLRNNSGTITKYDGFVLLGFLTIFVSYLFALSKSNKDMEKQILSELEEIEKNESSWRDIIIFTGIGLVILSIGGELTVSNAVAIAKKLGVSQVLIGATIVALGTSLPELVTSIIAAKKGSADMMVGNIIGSNIFNILTVLGISSLFNNLVPDRAPYFDSIYGISIIILVYILSKLRKSKLGIGTGILLLISYVVYVYIGVKIG;locus_tag=LOCUS_06670;note=WP_004081007.1 calcium/sodium antiporter (Thermotoga maritima) [pid:42.6%25%2C q_cov:82.4%25%2C s_cov:82.5%25%2C Eval:2.8e-54],MGA_667
sequence1	MetaGeneAnnotator	CDS	782540	783613	.	+	0	ID=MGA_668;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627079.1;translation=MIKNEKIVIGMSGGVDSSVAAFLLKEQGYEVIGVTIKLWENSGLESKEKVCCSLEDVYDAKRICDKLDIPHYTVNFKNDFQKEVIDYFITEYRLGNTPSPCIMCNEKIKFGKLLEFAKSIGADYIASGHYSKVKYLEKQNKYVLEKGVDEKKDQTYMLYRLSSEQLKYCKFPLENYKKDEIREIAKNNNLITYNKKDSQGICFAPEGYYKFLENNLKNEISKGNIKDENGEILGEHNGYQLYTIGQRRNLGLNLGKPYFIIDILPDKNEIIVGKFEKLFKKEVEVINYKFIYLSENEIDGKAVIARPRFSSKGHIAKLKKEGGRLFLIYESENAENSRGQHIVFYDKNLVIGGGIIF;locus_tag=LOCUS_06680;gene=mnmA;EC_number=2.8.1.13;note=WP_201627079.1 tRNA 2-thiouridine(34) synthase MnmA (Fusobacterium canifelinum) [pid:52.0%25%2C q_cov:98.6%25%2C s_cov:99.4%25%2C Eval:1.9e-97],MGA_668
sequence1	MetaGeneAnnotator	CDS	783870	785639	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIYILLVIVMMILGGCKSNKITEVSKIVISSNKSNIRADGIEEVTFNVKFYNKNDEDLDENKADIYINGKKISNNIFKTSEVGDYVVQAKFESKDSNKIIIKADGKNKKVFMVYLTGDSNLNGEETDDNGNNYYSSSSDDVTRDLEEIKSSIIDKNNIDVYVYIDTKYSESGYSEGIYHKEGNELIKKKTLSEVNTGDEESLKGFINFVFDNTNGMTYILDVWGHGSGWWDDKFGNENNTRAIGYDDSSDGDSLDLWELERAIKNSKIKKVDILYFDACLMGSIEVGYQLKDVSNYIVGSPELTPGRGGAYKEIIESVSNSGSDLKEVSKDIAIINLNSYKIGGSQYENFKNSVVFSAYDEKEVEGLVNKLNDISLILSENTGLLKQIADELKEKVINYINQNFNVDANFNLVESSNKFDFGLTSYGSGDLWIYDENEKYLGNGSIDFLPTSYIDLGNLLEKIEKSSNCPLELKNKIDDFLITYKKYVYYVGDQDGEDNDIMSDIERYSTGMSIFLNLYNDKDVILSQKNTGNYIGVFLSGYATQISGFNKNDEIDTNSVLEEYKTASKFGQTDWVKVLDSYGNNK;locus_tag=LOCUS_06690;note=WP_004081155.1 clostripain-related cysteine peptidase (Thermotoga maritima) [pid:27.5%25%2C q_cov:51.3%25%2C s_cov:58.3%25%2C Eval:7.8e-20%2C partial hit],MGA_669
sequence1	MetaGeneAnnotator	CDS	785842	786636	.	+	0	ID=MGA_670;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016356.1;translation=MKIEAVAIDLDGTLLNSNHEISDFTKKTLFKVRKKGIKLYIATGRLYKSLYRYKEELKIDTPVICYNGAMAVDGKTDEKIFEIPLKNSVVNRLIEISREKEVHLNLFSDEKWYVECTGGELERYEKSSGLRSHLVNFDKIKELKITKGMYVGENKELLEIDSMLEKEFDKKIYKAFSKPYFLEILNENVSKGDTLIKILEKEGIDPQKTVAFGDGFNDLEMINLVGIGVAMENAPEELKSKVDNITVSNDEDGVAKFLIDLLKI;locus_tag=LOCUS_06700;note=WP_011016356.1 Cof-type HAD-IIB family hydrolase (Fusobacterium nucleatum) [pid:35.0%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:3.8e-43],MGA_670
sequence1	MetaGeneAnnotator	CDS	786868	787758	.	+	0	ID=MGA_671;product=GTPase Era;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016271.1;translation=MRSGFIALVGRPNVGKSTLMNWIVKEKVAIVSSKAQTTRDRIKGILTKTDTQYIFVDTPGIHKPQHLLGEYMTKTAIDTLKEVDLIVMVIDGKAEIGKGDKFVRERIEEAGGTPRVAVINKIDDLTDEDIEKKKIEIKEKLGKFNEIYTISGEYGINVDEFLKGIKKYLEDGVMYYPEDMYTDMPMYKVITEIVREKILWNTREEIPHSVAIEITDVKRRENGKDCYNINIYVERDSQKGIIIGNKGKMLKKIGIEARKDIEQVLERGIYLNLWVKVKDKWRKKKPFLKEMGYIIE;locus_tag=LOCUS_06710;gene=era;note=WP_011016271.1 GTPase Era (Fusobacterium nucleatum) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-100],MGA_671
sequence1	MetaGeneAnnotator	CDS	787775	789127	.	+	0	ID=MGA_672;product=magnesium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003432938.1;translation=MMKSIILIKLIKEFVKNENYKKLKELLGTMHVPDIADILEKLDIVDRKMIYENMDVEDVAILITEINSEYQEEMITLLENHRLKEVLENMSNDDIADIFGEVSEEEVKHLMKLMDDEDREEVKKLVKHESDSAGGLMTTEYFTVFTGVKIKEVIAQLKRKGEDAELIYYIYIIDKSNKLKGVVSLRDIIINNGDIVIDKIMKKNLISVNVETDQEDVASIFSKYDLFAVPVVDEGNKLIGIITVDDIIDVMEEEATEDLYAMAGLTENESEKNNIISSVKIRFPWLMVSLFGELISATIMQEFGYALNKIVALAFFIPLIMAMGGNSGSQSSAMMVRKIALGEDEKSKLLKHIWKETVAGVIVGIISGVLVGIISYLWQGNILLSFIISFSLFVAMTWAAWFGSIIPLTFEKFKIDPAVASGPFITTANDVGGILIYFGLATVLMKVLKV;locus_tag=LOCUS_06720;gene=mgtE;note=WP_003432938.1 magnesium transporter (Clostridioides difficile) [pid:35.6%25%2C q_cov:97.6%25%2C s_cov:96.9%25%2C Eval:2.8e-80],MGA_672
sequence1	MetaGeneAnnotator	CDS	789222	789941	.	+	0	ID=MGA_673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTVSLIFLLLFTHMFSYEFNYEKKMVNYDYNKLKSINLKLDKKLVYTSGGVLAGSFLLDETIRRVVKKNKNSFSDNYFETMNIFGGDYAILLLMGTYGSSILTQDEKLRKTSFTSIESLTVAGTLTLGVKMLLGRARPYMDKGAFEFKSILNFGTDYWAFPSGHSTVAWAIFTPYAEEYSKWIYIIPASVSLARVYKDRHWSSDVIAGGLIGFSVGYILHKWNNNIKFTGNGIKIEF;locus_tag=LOCUS_06730;note=WP_010942484.1 phosphatase PAP2 family protein (Geobacter sulfurreducens) [pid:28.7%25%2C q_cov:69.0%25%2C s_cov:62.5%25%2C Eval:4.2e-11%2C partial hit],MGA_673
sequence1	MetaGeneAnnotator	CDS	790145	790975	.	+	0	ID=MGA_674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLVVSTLVAGILLAGGCGKTASPAGGTKVVKAAKSAVLFSKEDVAGDDTGAGTYVYPTDKVFVPGAFDLLGVTVKDAGDSYAISLKIATDFKNDWKSAGGWDVQMFDVYFNLGTGKHHQTISGRHVKIAEGWDVAVMVGPDKPTRMRKEIDDKNSDVADDVSDPENLVDDVLIPDEISIEGDTLTAKISKDKIGDLSKLNGVQAFVLGAEGYPSKEDTYNRVVNEYAAQYRFGGGSDYFGDPNVMDILGDNSKLADYKSDEGTSEYPTVDLVK;locus_tag=LOCUS_06740;note=MGA_674
sequence1	MetaGeneAnnotator	CDS	791119	793722	.	+	0	ID=MGA_675;product=glycoside hydrolase family 13 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403141.1;translation=MKKIILVMATISFLIAGCNFTVKKEKKITKIAKRPSRPAKGDSYIFIRRLEHKPNNDFVVVNNEKNIRIMLKSRSNDVEKVSIVYGNKEKEMTTLGAAGMYEHYYVNIDLDSPDISYYFKLIDGNETYYYGKKSGNSKDKVTNFKYHLNKDMVPAMPEWAKKVVWYQIFADRFRNGNPDNDPIYNEYGPQSFEKPTGELSDGTAKASLIPEERWNSRADGWNAGQFTINKWTSNWNSDEPWEVKGREKYDWDHGNTRHYGGDLQGVIEKLDYLKSLGVTAIWFNPVFYAESDHKYDAADFRHIAPSFGVIEETGEKYGIEVNKDNKYGAKLSNKKGNSEYKLLSYDIKTGKNGLGETSDPSTWVWTESDIIAAKMIKEAHKRGMRVIFDGVFNHTGNEFWAFTQAIIEGPTSKYASWYKFTDWSKVKEYTKENVEKWNPGVKYNGKSKIGVYEKDNIKYRTRWVATPKNATPKEKWEIYLWNKDNVNYNSWWGFRSLPKLDHFNKEVGKHIINISKKWLLGPDGKVSSDFKNDDGIDGFRLDVPLDIEDQSFWLRWKKAIREVKSDVYTSAEIWGQARDHVYGKKFDAVMNYEFAKYLLNYVVDTGKRNKLKASEFKASENTLFLGYADSTARGMQNLMDSHDTDRLFSMIINPNREYDRNNRINENRSYRAVRPDLYDTMAINKLKLISLIQMTYEGSPMIYYGDEVGIWGPDDPMDRKPMLWKDYMPYEKETDEYGKYKKKNIQFSKDVEIDEANNVIKYNVKINKDIYNWYKKLMNIRDENVDLFGLGELKYILSDDSNDSIAYVRSYKKKKAIVVVNNSSKEETLKLKIDGKYKDLINGKMVEDIDGILEIKLPAKTGTILMK;locus_tag=LOCUS_06750;note=WP_011403141.1 glycoside hydrolase family 13 protein (Salinibacter ruber) [pid:29.9%25%2C q_cov:81.8%25%2C s_cov:96.2%25%2C Eval:5.9e-83],MGA_675
sequence1	MetaGeneAnnotator	CDS	793865	796477	.	+	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKTIAAQNVLPIKIGKNSIKGGVKNKEVVVSKLKQFKEILNENMKKEKKSFNLAEKDIKEGKTIDKKTTELLKKVKKREKKLDVNSEMDLKGVIFSLTKGEISKEDFVNRVSKLLNSETSKIGAEELLKDGNKRDLLGKEGTVKNGNLKVKKTRSKKQNETKVKAKNVNIEREDLSIDQKLKRALKLEKIKKSKDQIKNIDLNQKEIKLKNGLIPKEKEIKTTKKTKQTVIEKKKPVQNEIKLKSDLIPKEKEIKTAKKSKQTVIENKKPVQNELKLKSGLIPKEKEIKTKKKLEQTVIEKKKPVQNELKLKSGLIPKEKEIKTKKKLEQTVIEKKKPVQKEIKLKNKLIPKEKEIKTTKKPEQAVIEKKKPVKNEIKLKSDLIPKEKEIKTTKKPKQTVIEKRKPVKNEIKLKSDLISKEKEIKTTKKPEQAVIEKKKTVKNEIKLKSDLIPKEKEIKTTKKPKQTVIEKRKPVKNEIKLKSDLIPKEKEIKTTKKPEQTVIEKKKPVKNEIKLKSDLIPKEKEIKTKKKLEQTVIEKKKPVQKEITSEKILEDVKGIKEGFKQNNVSVAEKKSKESPIAIENLEVIKGTANESIVLKNNINNKGNKLKQKKETYNGFLNGEIKEDKLNVLKEKILENPKINNEKDLEVKFSDDKIENRSNKIKFDRKVFNADIKKVTLKKYGFKKIERKKIETDNIISRDNTNIMKDNNIKAEPKKVIQQNTKLNYTNILEQVENGIKMNFNSSTKEMKIKLHPEELGELEIKIRIEHNIMKAEFVVDNQKVKEILENNFNNLRNNLNDKGFSGAEINVTISNGNFQENRNGKKEKVNDFFKKKNKISSSEIDINSENIDVNSKYDYITNEGISILA;locus_tag=LOCUS_06760;note=MGA_676
sequence1	MetaGeneAnnotator	CDS	796493	796924	.	+	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAISGAVKTQEQYKDTREIKNNTQTLGKDAFMKLLVAQMQNQDPLNPMSNTDSIAQLAQFSSLEQMTTLNESFNSLSTNQKIANISAGAQFLGKEVEGSAGDDQIQGKVVGASFKDGNPILRVDLGDGSYKSIAMQDITSVK;locus_tag=LOCUS_06770;note=WP_011460741.1 flagellar hook capping FlgD N-terminal domain-containing protein (Desulfitobacterium hafniense) [pid:43.0%25%2C q_cov:90.9%25%2C s_cov:73.6%25%2C Eval:5.5e-21%2C partial hit],MGA_677
sequence1	MetaGeneAnnotator	CDS	796948	797328	.	+	0	ID=MGA_678;product=TIGR02530 family flagellar biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941086.1;translation=MANLFIKNYGFDINNLRKDLNKEIANKKQVDKSSKFKDLLNENIVKFSAHAQKRLQMRNIKITNEGIDKIKNGIEKLKNKGGKDSVVIMDDNAFVVSVKNNTVITVVDDRNLRENVFTNIDSMIIL;locus_tag=LOCUS_06780;note=WP_010941086.1 TIGR02530 family flagellar biosynthesis protein (Geobacter sulfurreducens) [pid:41.4%25%2C q_cov:75.4%25%2C s_cov:77.3%25%2C Eval:5.6e-17],MGA_678
sequence1	MetaGeneAnnotator	CDS	797409	799322	.	+	0	ID=MGA_679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMPSLFSGVTGLKNHQVMMDTIGNNIANINTVGYKRSRVAFQDLMSNTLSNASAPQSGELGGRNPIQVGLGAKVGSIDTIFTNGSPQVTGRDSDISIDGEGMFMVGEGKNTYYTRAGNFGLDSDGFLVASNGMKVQGWQATKKSDGTTEIAAGAPIGNLDIKLGEVLPAKATSVISYAGNLNADGGLSDIRLTVDADGNGTGTSDVDVSIKFTYDVDNDRWNWSASNAAGSTSTPTISGSGYMTLDADGNITGSVTSAEIKNDSNGKVLIDVPTNGKITFKEKIKSANTSTSKFVTNKIVNSSTVYDSEGATHALSMEYTKIDENMWKFNATEGDGLDVNNGKGFMTFDSYGQFRGAYTFAETDSADSTKLGTITDSDGTSINSYPSQTALGITTDSSVKANYLLEGEDASSKTAPYYLDNRGVIKYRGATDSDGNGIPDKDKYGNTIDEITLTSIPEEGEIMNNAYSGSFSFDPGNAGGALPPDEGAELVSIQPDFIGVNQFHSDYGVKFTGQDGYGMGELSNFRFTDNGDIIGEYSNEYKQIIGRISIAKFFNPAGLAKIGSTMFTQTSNSGEAQVVRPGTSASGTLAPGKLEMSNVDLAQEFTDMIIAQRGFQANSKTISTADQLLQDLISLKR;locus_tag=LOCUS_06790;note=WP_002680830.1 flagellar hook protein FlgE (Treponema denticola) [pid:54.1%25%2C q_cov:28.6%25%2C s_cov:39.1%25%2C Eval:9.7e-48%2C partial hit],MGA_679
sequence1	MetaGeneAnnotator	CDS	799560	799748	.	+	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILNTVGKNSKEIVVNAELIEIIEEIPETLITLTTGKKILIKEKKEEVINFVVNYKRSILI;locus_tag=LOCUS_06800;note=MGA_680
sequence1	MetaGeneAnnotator	CDS	799877	800647	.	+	0	ID=MGA_681;product=motility protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870068.1;translation=MDIATVIGFVAILMLMLIGMGFNLGPFVDVQSAAIVVGGTGGALLMSYPLPVILKIGGIMKNAFFNSLPDTGIVITTLVSFSEKARREGLLALEADVESLEDEFMKKGIQLIVDGTDPELVKSILDTEVSFVDERHTVGKGMMDTGASLGPAFGMLGTLIGLILMLGNLSDPGSLGPSMAIALITTLYGSFIANVVFTPIANKLGYYNSREVLSKQMVIEGILSIQAGDNPKVLEEKLKSFLSGSERGAVAPKEGE;locus_tag=LOCUS_06810;note=WP_012870068.1 motility protein A (Thermanaerovibrio acidaminovorans) [pid:57.1%25%2C q_cov:94.9%25%2C s_cov:93.5%25%2C Eval:9.9e-70],MGA_681
sequence1	MetaGeneAnnotator	CDS	800650	801435	.	+	0	ID=MGA_682;product=OmpA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986952.1;translation=MGEKKCPECKEGAPEYMNTYGDMMTLLMCFFVLLFAFSSLDSQKFQTMMKAFQGALGVMKGGKTVSPEKLITDSRIQNKGTEMKFAKMAKELQKELQDRLNEENKKTGKNKKLKDIADIKLTERGLKISFGDRALFDIGKAKLKKESKVMLDKIAGYIGRLENNIVVEGHTDNVPIHNNEFPSNWELSTTRATNVLRNLLKKSPSLKGRISASGYGDTRPIATNDTVSGRKKNRRVDIIILKSKDEIVSEELLKRSLQGGK;locus_tag=LOCUS_06820;note=WP_011986952.1 OmpA family protein (Clostridium botulinum) [pid:40.9%25%2C q_cov:88.9%25%2C s_cov:91.5%25%2C Eval:1.1e-42],MGA_682
sequence1	MetaGeneAnnotator	CDS	801437	801955	.	+	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDEEKKEMPFITKALIVAILAVVIIILAAGISYFVASKAIKTSSTAQIEGGGKSKKDSKKDKDKNVSGPIVDFGGFTVNLNEKETRYLVCKIQFEIDPTGKDKGKNGQLEVPEKLVILQDRVLTILRSKSIMDLAQDPSLKNLKKEIINAVNKVLEKSKISGVYFTSWIIQ;locus_tag=LOCUS_06830;note=MGA_683
sequence1	MetaGeneAnnotator	CDS	802200	803186	.	+	0	ID=MGA_684;product=flagellar motor switch protein FliM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000136083.1;translation=MAEVLSQDEIDALLSAISTGEVNLEEAKSIEEEKKVKVYDFKRPDKLSKDQLRTIQMIHETFARLNTTMLSAQLRSAIQIQVISVDQITYEEFIRSIPEFTILGIFDVGSLEGNAILEMNPNIVYTIIDRLFGGPGEMIDLSRELTDIELTVIERVILKLLNNLKESWSNIIEVSPRIEQIESNPQFVQVVGPNEMVVLVTFEVKIGSVEGMMNICLPYPMIDPIVSKLSAQYWFSSVRKEMTKENLGALKSRLNKVNVPLIANLGKAIVSLNDLLKLKQGDVLKLNQSANKNLDISVGNKLKFKATPGTVGKKMAITIKEVLEEGSD;locus_tag=LOCUS_06840;gene=fliM;note=WP_000136083.1 flagellar motor switch protein FliM (Leptospira) [pid:57.4%25%2C q_cov:100.0%25%2C s_cov:96.5%25%2C Eval:1.9e-106],MGA_684
sequence1	MetaGeneAnnotator	CDS	803189	804406	.	+	0	ID=MGA_685;product=flagellar motor switch phosphatase FliY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965513.1;translation=MEGILSQEEIDALLGGGDSAGTEPEPKESNFEKKIHLTQDEKDVIGEVGNISLGSSSTALSTLLGKNVSITTPKVEVWNLEELKSKLAGEEKVVIQIEYKSGFSGLNMLIMESKNALIIGDLMMGNDGSNPPDKLEDLYLSAVVESMNQMMGSSATSLAGMFKKEIDINPPSVSVSNIDEINSKTDFFNKNNEFVIVIFDMKIEGLIDTNIYQILSAEFAREMVSEMHKMSGEEEEPQQPQPQMQQQTIQQNPQMQQPQINQNMGMQMPPNMGWQQPQMQNMGMPQQPQMMGGYQNFQQPVNVQPVQFASFGNSIQQEMPSNIDLIMDVPLQVTVELGRTKMQIKEILDLGPGSIVELDKLAGEPLNILVNGKLIAKGEVVVIDESFGVRVIDIVSKMERLNKVQ;locus_tag=LOCUS_06850;gene=fliY;note=WP_010965513.1 flagellar motor switch phosphatase FliY (Clostridium) [pid:39.6%25%2C q_cov:99.8%25%2C s_cov:99.3%25%2C Eval:1.0e-70],MGA_685
sequence1	MetaGeneAnnotator	CDS	804426	804791	.	+	0	ID=MGA_686;product=chemotaxis protein CheY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081049.1;translation=MGTKVLIVDDAAFMRMMIKNILSKAGYEIVGEAENGAQAVSKFKEAKPDLVTMDITMPEMDGITAVKEIMKMDGTAKIIMCSAMGQQAMVIDAIQAGAKDFIVKPFQPNRVLEAVGKVVGS;locus_tag=LOCUS_06860;gene=cheY;note=WP_004081049.1 chemotaxis protein CheY (Thermotoga) [pid:76.3%25%2C q_cov:97.5%25%2C s_cov:98.3%25%2C Eval:3.1e-47],MGA_686
sequence1	MetaGeneAnnotator	CDS	804794	805183	.	+	0	ID=MGA_687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRLLFLEIFSFFVIAIILAGALYVLRGKRKSIFFKNSNIEEIERFYYMPKVFISIVKIGEKYFMLGVTENSINKLEEILNMDEIEELKKVSSKNEIGTKFSRFFSERKDNNVENLKSRLKKMRHEDEE;locus_tag=LOCUS_06870;note=MGA_687
sequence1	MetaGeneAnnotator	CDS	805173	805919	.	+	0	ID=MGA_688;product=flagellar type III secretion system pore protein FliP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002852529.1;translation=MKSKLKVLFFFIIISFSLYAEQKIAIPKFNFGIGASKSPDDLVTSLQILMGLTILTIAPSIIIMTTSFIRIIIVLHFVRQALGVQQMPPNQVLVGLALFLTFFIMEPTANDIMQNGINPYLNKKISQETLFKNIENPLKKFMLKQTRVKDLELFVKLSKTKKVKSRKDLSVWIVTPAYIISELTRGFEIGILIFIPFIIIDMIVATVLMSLGMMMLPPVMISIPFKLLLFVMVDGWNLIINSLVKSFN;locus_tag=LOCUS_06880;gene=fliP;note=WP_002852529.1 flagellar type III secretion system pore protein FliP (Campylobacter) [pid:48.9%25%2C q_cov:95.6%25%2C s_cov:96.7%25%2C Eval:2.6e-59],MGA_688
sequence1	MetaGeneAnnotator	CDS	806043	806309	.	+	0	ID=MGA_689;product=flagellar biosynthesis protein FliQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435976.1;translation=MSEELIMKLVTDALMLILKITLPVLIVGLTVGLMVGIFQATTQIQEMTLSFIPKIIAVFLVIFLLGHWMLITIVEYTKNLFELISTLR;locus_tag=LOCUS_06890;gene=fliQ;note=WP_003435976.1 flagellar biosynthesis protein FliQ (Clostridioides difficile) [pid:48.3%25%2C q_cov:98.9%25%2C s_cov:97.8%25%2C Eval:1.0e-18],MGA_689
sequence1	MetaGeneAnnotator	CDS	806318	807097	.	+	0	ID=MGA_690;product=flagellar biosynthetic protein FliR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000455610.1;translation=MNFLYNNVIFFLLIFLRLSGILFFTPVYSSNSINRRVKIGFLILIAFLIYPVVPKDISILRNLTFFNLILISIKEVLIGAIIGFFVLLIFSTVQTASQIYSMDMGFGMVNIFDPVSQIQAPVLGQLNYLFILGIFLITGEYRRIFEVLVSTFYKYKIGNISYHYGTLAKNMADSFAYYFMVSVKIALPVLGILFIVDVTLGVMARIAPQMNVFFIGMPLKILVGLLFLITFIPYLFTYLNHLLNNGYIKLLYIIQKVVT;locus_tag=LOCUS_06900;gene=fliR;note=WP_000455610.1 flagellar biosynthetic protein FliR (Leptospira) [pid:32.2%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:1.3e-35],MGA_690
sequence1	MetaGeneAnnotator	CDS	807098	808180	.	+	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEYKIGYSINLQLFAEGEKTEEATPRRREESRKKGQVAKSPDLAQTATLLVGIIVLKIMFKFMYKMLYVNFKNSFYNMDITKFTIEKLEEIFLKDALLFFIVISPILLAILISGVLANYIQVGFLFTTEPLKPSFSKINPISGLKNMFSLKKLVELIKTIIKLIIIGIYGYSVVKSNYNSILKIPFLNFFDGFILIFKIVYDVVLKIAMALFVLAVVDYFYQKWEYDKSLKMSKQEIKEEMKQTEGNPQLKAKMRAMQRDMIRRRMIEEVPKATVIITNPTHLSVALKYDNTMSAPVVIAKGADNIAFRIREIAKENDIPIVENKPLARALYKSVEIGDEVPEEYYKAVATILQHIYYN;locus_tag=LOCUS_06910;note=WP_011986950.1 fused FliR family export protein/FlhB family type III secretion system protein (Clostridium botulinum) [pid:44.6%25%2C q_cov:96.4%25%2C s_cov:57.0%25%2C Eval:4.1e-84%2C partial hit],internal stop codon at [807095:807097](+),MGA_691
sequence1	MetaGeneAnnotator	CDS	808220	810271	.	+	0	ID=MGA_692;product=flagellar biosynthesis protein FlhA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460749.1;translation=MAQNERLGLLVPIFMLGVILMFFIPLPTFLLDTFQALNITISVTVFLLSMYTKEALDFSIFPTLLLVTTLFRLALNVSSTKLILSLGTAFNGKVVRSFGNFVVGGNYIIGIILFLILVIIQFMVITKGSERVAEVAARFTLDAMPGKQMSIDADYNAGLITEDEARDRRKKVQTEADFYGAMDGASKFVKGDAIAGIIITFINVIGGLIIGVITRGEPIVDAAATYTILTIGDGLASQIPALLISVATGIIVTRTTSEADFGSDLIRQFFQEPRILYMVSGVLVVMGIIPGMPKVPFFILSLSFGTIGYIMNKNILEAEKIAVEEKRSSESNEEMSQPEEVKDLLKVDEMELELGYSLIPIVDTSQGGDLLERITIIRKQLAIELGIILPPIRIRDNMQLNPNEYSIKIKGTAVTKGEIMIGYYLAMNPGGAEEINGIPTVEPAFGLPAIWIGEEQREKAEMIGYTVVDPTSVLATHLTETIKKYAPEILSREMVKELIENIKTEYSVVVDEVYPKKFELGEIQTVLQNLLNEGVSIRNLQLILEIMADASKITTNVDILSEYVRSGLSRQICSTIVAPDDKIHVVTLNPNLEIELKENIQETDFGSYLNIDPEKSNKIIVKISEEAKNSTNMGYQPIVLTSPEIRKPLRRLIERDLKQVMVISYNEIISEIDLEAVGMVSVE;locus_tag=LOCUS_06920;gene=flhA;note=WP_011460749.1 flagellar biosynthesis protein FlhA (Desulfitobacterium hafniense) [pid:50.4%25%2C q_cov:98.8%25%2C s_cov:97.5%25%2C Eval:1.5e-187],MGA_692
sequence1	MetaGeneAnnotator	CDS	810271	811548	.	+	0	ID=MGA_693;product=flagellar biosynthesis protein FlhF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986949.1;translation=MSAGQMKIKNMKTYIEDEYTIAYKKARKELGSELIMIERENVKVGGFFGLFSKKKVKVTFGIEDVPKKKFKQEKDSANKEVIELLKSMGYMDSNNNVIKGKVETSITTNENNSLNNIGIYNPYKNNVQNINNINKQEEKIEDVKEKIKKELTEELKKEIFKEGIAKEEVVTKNKDKDELLKILRDSEISEEYCDEIVEYFVKNEFNSTNYKKGLIKYFYENILTNGGIKDEKFIMLVGPTGVGKTTSCAKIIANYWNSGEDVAFITSDNYRLEAVSQLKAYANIMRVPVEVIKKSDELKNAIEKFKEKKLVLMDTAGRSPKNTEQIKELEEYVTKNNGKMAVYLVLSATSKLSVMVDTIEKFKYLNFSSIIFTKLDETTNIGALLTVSKKYNIAISYITTGQKVPDDIEVASNDRLAKIFSEELD;locus_tag=LOCUS_06930;gene=flhF;note=WP_011986949.1 flagellar biosynthesis protein FlhF (Clostridium botulinum) [pid:33.2%25%2C q_cov:96.2%25%2C s_cov:97.5%25%2C Eval:1.5e-48],MGA_693
sequence1	MetaGeneAnnotator	CDS	811550	812425	.	+	0	ID=MGA_694;product=MinD/ParA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002556868.1;translation=MDQAEKLRELVRNKEKNVGDKLQYKNAKVFAITSGKGGVGKTSLAVNVAAFLSKIGKKVLIIDADLGLSNVEIMLGITPNHTIRDLIKNNKDIKEVITKGPFNLDFISGGNGFLEMAELSDVEREEILIKLQKLDEEYDVILIDTGAGISKNVISFLMVADEIIVITTSEPTSITDAYSVIKIVKDKIEKPDLGIIINRVKNIIEYKKASSLLINTSKDFLEMNIKNIGFIYEDSCVRNTIFKKTPFVIYYPDSQATGCIKYIVEKLEFNYEEKTSGLITKFRSWFKNVGR;locus_tag=LOCUS_06940;note=WP_002556868.1 MinD/ParA family protein (Borreliella) [pid:45.0%25%2C q_cov:91.8%25%2C s_cov:91.5%25%2C Eval:1.8e-65],MGA_694
sequence1	MetaGeneAnnotator	CDS	812431	813504	.	+	0	ID=MGA_695;product=chemotaxis response regulator protein-glutamate methylesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083251.1;translation=MIKVLVVDDSIFMRNIISDMLAEEHDIEIVGKARNGKEAIRLNRELSPDVITLDVEMPVMNGLEALKEIMKDKPTKVIMVSSLTSEGAIETIEALENGAFDFVQKPSGTISLDIRTVKKDLLEKIRVSLKANIKILETSAKDEKVKLSKFMFNKPKKTVEKFHRNSNKIVAIGISTGGPKALQNIIPELPQNINAGILIVQHMPPKFTKSLADRLDLLSNIRVKEAEDGDEVVNGQAYIAPGNYHMVVKDERGKKIIRLNQEANYSGHRPSANVLFKSVAEIYKKEAVGVIMTGMGGDGAEYLKVMKENGAKTIGQSKDTCVVYGMPRVANELGAVDYVEDLMNIPQRIVKLVGGDR;locus_tag=LOCUS_06950;note=WP_004083251.1 chemotaxis response regulator protein-glutamate methylesterase (Thermotoga maritima) [pid:49.0%25%2C q_cov:98.9%25%2C s_cov:98.8%25%2C Eval:4.3e-86],MGA_695
sequence1	MetaGeneAnnotator	CDS	813505	815535	.	+	0	ID=MGA_696;product=chemotaxis protein CheA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081040.1;translation=MDMSQYMSVFIDESREHLQLLNESLLEFEKDNENLSIVEVIFRSAHTLKGMAATMNFTRTAELTHHMENVLDLIRNNKLKSSATIVDTLFECLDTLTLLIDEVIEDGEETTDIEDLSNRLEKLTKGEPLEDSKAEKIEGQGSSLKSNKIEFNEFEKQLLDEAESKKMNAYVIEVVLDEGCLLKAARTYMVFRNLEEIGEIIKSEPSAQDLEEEKFDNSFEVVLLTDKKEEEVKGSILSISEISEVIITNVKDLEKEGNKEIKVNEKSSNSSKKAENSKSTKKEKKSANKKIVVKKTPTVRVDTDKLDKLMNLVAELVINKTRLSQIGLEYNLPDLSETLAHVDRVTSDLQAVVTKVRMVPIENVFNRFPRMIRDLSKDLNKEIELLIEGKETELDRTVIDEIGDPLVHLLRNSLDHGIELPEEREKSGKIRQGTILLKAEHEGNNVVITIADDGKGIDTKVIARKAIEKGLVKEEELELMSKEEILKFIFAAGFSTMEAVTELSGRGVGMDVVRNKIEGLNGQIELSSEVGEGTTTRIKLPLTLAIIEALLIKLQEEIYAIPLANIVETIDISPKDIKGVQNEDVIVLRGEVVPIINLNEVLDVPGYKKLDEETYIVVIVKIGSKKIGLIVDSLIGQQEIVIKSLGKLFTGIRGITGATVLGTGEVAIILDVLTLI;locus_tag=LOCUS_06960;gene=cheA;note=WP_004081040.1 chemotaxis protein CheA (Thermotoga maritima) [pid:42.6%25%2C q_cov:99.7%25%2C s_cov:99.9%25%2C Eval:3.3e-155],MGA_696
sequence1	MetaGeneAnnotator	CDS	815548	816024	.	+	0	ID=MGA_697;product=chemotaxis protein CheW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545419.1;translation=MKDVLEEKENNIDKIILQIIGFTLNGEEYALEIKNVESIIKVIKMTRVPRAEKYIIGVINLRGIVMPIIDLNKKFNLNSKIEKSDSQRIIILKIDTISLGILVDGVSEVIDLKQKELNSNPTISSAISSEYIKGVCKLEEGDRLLTLLSIEKILDLKS;locus_tag=LOCUS_06970;note=WP_012545419.1 chemotaxis protein CheW (Thermodesulfovibrio yellowstonii) [pid:45.0%25%2C q_cov:95.6%25%2C s_cov:86.0%25%2C Eval:2.5e-29],MGA_697
sequence1	MetaGeneAnnotator	CDS	816179	816802	.	+	0	ID=MGA_698;product=chemotaxis protein CheC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943818.1;translation=MSMKIEALTDSELDALKEVGNIGAGNAATALSQILSKRVDMTVPRARVLELTKVPELLGGEENLVIGVYLRIFGDIQGNIMFLLPVNSAETLVEMLLGAAEEEGVLGEISQSAITEVGNIITSSYLNALSAFSGLTVVPSTPSLAYDMAGAILSTILIELSEVSDYALLIETEFMGDGKTIDGNFFMLPDLDSLNVLLKSIGAKKHD;locus_tag=LOCUS_06980;note=WP_010943818.1 chemotaxis protein CheC (Geobacter sulfurreducens) [pid:49.3%25%2C q_cov:97.6%25%2C s_cov:99.5%25%2C Eval:6.4e-52],MGA_698
sequence1	MetaGeneAnnotator	CDS	816795	817274	.	+	0	ID=MGA_699;product=chemoreceptor glutamine deamidase CheD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003359122.1;translation=MTDTIKVGMADYKVGENPSKIITLGLGSCVGITIYDKGKKIGGMAHIMLPKNTNPEKRSLKFADVAIEEMIEELLKKGSRLSGLEAKIAGGSQMFAFSSSDEKKSIGYRNAVAVKQILKELKINLIAEDTGGKFGRTIELDLSTGELKIKTIGHGEKYI;locus_tag=LOCUS_06990;note=WP_003359122.1 chemoreceptor glutamine deamidase CheD (Clostridium) [pid:55.4%25%2C q_cov:97.5%25%2C s_cov:96.9%25%2C Eval:4.1e-40],MGA_699
sequence1	MetaGeneAnnotator	CDS	817287	818303	.	+	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNEIIEMICKKIGVNERVASKLFELSNNDLDKVDEIYSKSEISEFLLIRGKFLGKRKNINGLFYIRIDINQMELDSIDFFVTYNKNIYSTDINIEFHIFEKILGHYKNQTDLEYEEETKNIIDFFKQYFHPGTVLELLKNFKSSRKDEVKNQINSQMNLAINEIASIEIVTDYEVIIKSKQEEDENYLEASLEIDPFNGKKVAELKKSDEIYIKLTDNSEYGRFISKTIGAKDSPVLRQVESIIEVSKGALETKEYKIVVNIVDDIYAKIYASGEIKVKTDKIVLNKKLIEEELKEYEKDEEEKLNYEKKSSDSLVLIVFMIIIIILIMLGIIMLIR;locus_tag=LOCUS_07000;note=MGA_700
sequence1	MetaGeneAnnotator	CDS	818636	819409	.	+	0	ID=MGA_701;product=RNA polymerase sigma factor WhiG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003973389.1;translation=MIENKSLWIEYKKSGSLEIRERIILQYIPLVKYVVGKMIGKLPKNIEYEDLVEYGIIGLLDAIEKYDITKEINFKTYSITRIRGSIYDELRVQDWVPRSVRKMAKDIEKAYVFLEVKNGEIPKDSEIADYLGITEKELNIVFSKVNMGNISSLDDVIYNSGESPTFLSETVEDKKSDGAQKNIEKKELKAALIERLKEITEKERLVITLYYYEDLTLREIGEILEVSESRVSQIHSKAIIKLRSKLIAKFGEYKGII;locus_tag=LOCUS_07010;gene=whiG;note=WP_003973389.1 RNA polymerase sigma factor WhiG (Streptomyces) [pid:47.4%25%2C q_cov:95.3%25%2C s_cov:87.9%25%2C Eval:4.5e-62],MGA_701
sequence1	MetaGeneAnnotator	CDS	819445	821205	.	+	0	ID=MGA_702;product=FapA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000535110.1;translation=MKKYKVAGRNLETLLKKVAEKFKVNINEVGYNIIDKTNEKISLEVWKKKENITVKNEDEINKFKLNVSEEGVFLTIAEGNIDFNEVIEFIAEKDIEAPDMEQLSLAFENRRKKVKIAEFYEGIYKESEIEVEVSPDKMKAYIILSEPKGMNLPVKEKIKTKLLENKIIYGIKDQYIDELLKNKKFNIPHLVAEGDMPEDGIDGYIDYKVKSVNKRSLLKPMALEDGKVDFKQLEIIENVVEGQVLAVKIPAELGKNGKNIFAEEIKSKNGKDVPIKLGKNTKLSDSGFEIISKIDGMVSFSEGKLSVANVYATPEVGVLTGNIDFVGSVIVKGDVKDGYEIKADGNIEVVGNVEKAKLISTGDVVIRGSFFGKNIGKIESKGDIVVNFAESAIIESEKDVIGNEAFMNCKIFAHGKMKVIDKKGVIIGGKTSAGEGLEAINIGSHLAVKTEIEVGSNPKIVEKIKKLELELKESEKKMSQIDKNINLLNKLKMAMKESMPQDKLLLLKQLSTAKFSMSKHAKEIKYDIEENRKLSENIKDATVDVHGICYPGVKIKIRKGTYFVKEKIQNVRFYYENAEVKITALK;locus_tag=LOCUS_07020;note=WP_000535110.1 FapA family protein (Leptospira) [pid:28.9%25%2C q_cov:99.0%25%2C s_cov:93.6%25%2C Eval:1.4e-74],MGA_702
sequence1	MetaGeneAnnotator	CDS	821248	821568	.	+	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRPIDLQVIAKSIDEVAKTSRAKEQNLVGQQMNAKNEMAKEIKKDTTIIRESNETEGKIIDNDNKERNKERNKEKNLKDKNERKDKKEKKHGKDPNKGKFIDMEG;locus_tag=LOCUS_07030;note=MGA_703
sequence1	MetaGeneAnnotator	CDS	821570	822103	.	+	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870045.1;translation=MNKIGYFKIHIKEENYLGGILISDERGIPVEFKYTEPVKPTKVQKVLYGKSLEKFLIEEIIMANLIEKIEIEPAIYFIDDKININIKRLLKTDVVMLKKTQLKPSKEPYKYKFIKENEAIVQLEEGTNPIRVIILDEDIEKKDELVQKIIELSKESYIIEPFFRLEEALEMILKGEI;locus_tag=LOCUS_07040;note=WP_012870045.1 hypothetical protein (Thermanaerovibrio acidaminovorans) [pid:26.2%25%2C q_cov:94.4%25%2C s_cov:92.8%25%2C Eval:1.3e-22],MGA_704
sequence1	MetaGeneAnnotator	CDS	822103	822777	.	+	0	ID=MGA_705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWQDLFHTIKNELRGPKIYSKKLDKPILCIKQSKLEKVSNINNLNLYDRIDIIDKSFSKKKCEVKSAIANCKVNSSNGVIKLKEDISIDTNKIYTKLEAVDIKKIDTERSWNEASKVINKSTKMFVKVLEGKRKIFKVPKIIYNNFEKYSREKLLLNVKKSYLEENYVIGVFANIEFENIYNLNYDKGKNILKIYLKEKQQKVKSHTLIILKNMKTKKISKIII;locus_tag=LOCUS_07050;note=MGA_705
sequence1	MetaGeneAnnotator	CDS	822921	823676	.	+	0	ID=MGA_706;product=triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902187.1;translation=MRKLIVAGNWKMNKTNTEAVKTVSELKELVKDVKNVEVVVGVPFTALSDVAKELKDSNVKVAAENMHWEEKGAFTGEISPLMLKDINVEYVILGHSERREYFGETNEIVNKKVKSALAHDLKPILCVGEQLEDRESGNTEKVVEDHVVGGLKDLTKEDMLNVVVAYEPVWAIGTGKTATPAQAEEVHKFIRGLIAKLYDEETANEITIQYGGSMKPANAEELISQKNIDGGLVGGASLIPEDFSKIVKSAK;locus_tag=LOCUS_07060;gene=tpiA;EC_number=5.3.1.1;note=WP_005902187.1 triose-phosphate isomerase (Fusobacterium nucleatum) [pid:57.4%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:7.1e-81],MGA_706
sequence1	MetaGeneAnnotator	CDS	823691	825232	.	+	0	ID=MGA_707;product=2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964031.1;translation=MKKPVMLMILDGWGINNNLDEKNAIRESNPENFNNYWNSYPHTTILASGEAVGLPEGQMGNSEVGHLNIGSGRVIYQPLVKISKEIKDGNILKNEALLNAMNSAKENNKTLHLMGLLSDGGVHSHIEHLFGLLDMAKTLGVESVAVHAILDGRDTPPKSSVNYVKKLQEKIKEIGIGEIATISGRYYTMDRDNRWDRIEKAYDAIVNGAGDKTFNPVKSIELAYEDDITDEFIKPTVVSDKAGNPLNPIKNGDSVIFFNFRPDRAREITRAINDKKFDNFTRLNNPKVNFVCMTQYDITIEAPVAYTPESLDNVLGKVISDKGLKQLRTAETEKYAHVTFFFNGGVEEPFKNEDRKLVSSPKVATYDMKPEMSAYEVTDGLLEALDEDKYDMIIVNYANTDMVGHTGVFEAAEKAVKAVDECIAKVIEKVKSKDGIVFITADHGNADLMEDPKTHIPFTAHTINPVPFIVVSDELKNVKLRNDGKLSDIAPTMLGVMGIEKPKEMTGKNLIEK;locus_tag=LOCUS_07070;gene=gpmI;EC_number=5.4.2.12;note=WP_010964031.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Clostridium) [pid:60.7%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.3e-177],MGA_707
sequence1	MetaGeneAnnotator	CDS	825247	825477	.	+	0	ID=MGA_708;product=preprotein translocase subunit SecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904328.1;translation=MTIFLTAILFILAVLLIVLVLIQPDKSHGLASSFGGGAASSYFGVSNDGGPLARATEIVAALFVIVALVLYVMGNK;locus_tag=LOCUS_07080;gene=secG;note=WP_005904328.1 preprotein translocase subunit SecG (Fusobacterium) [pid:60.3%25%2C q_cov:76.3%25%2C s_cov:78.4%25%2C Eval:5.3e-15],MGA_708
sequence1	MetaGeneAnnotator	CDS	825681	827693	.	+	0	ID=MGA_709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKKISIKNIVVIIVGIIYFVISYFMFTNIRNNYYKVLKSKFIDENKYSEKSAKEYVEKEKERLLTGARIIASDEQTYHAFKNNIYLKNKYVIFPKKIEIKTTKFTKYWQIKLANFQKNKLYGTGRGSEPIGVAFYSVTYKLMGNSSDFERKFIDNGNEKYIKDVIALKNLGGVGNTLIQKKENEFYIKALAPIGKDSRYFYSSPYGIVAVGERLNGDFLEKLKKAINREVILFNNNLIYSSTLFYDTNRYQNIRKNLEKTKENGESVVTILGKKYIIDCFPIYNYDKVVIGYIGVLDDFEVLNKLNLENKKLFLKIEIITFIILIMIIYFVLTSALRPLNKIIEVLHNIKEGNYKRRISNKGSFGEYRELVKGINEITNAVDIRENSLKKLNRELENRVMKRTKELNNKNYELAKAIVELRKKSRKINDEMEIAKKLHKEMSNFEKPNLKCINFLYKNYSVNGIGGDFIEILSIDENRYGVFFGDIAGHGVSAALMISALKFVIRTYFREYSSPKEALYSLNDIINKNFVDGITLSCSYFIFNKKNSEVLGSFASQEKVYIIGKDRIENIKNDAIILGVLSSSEIKERENLRFEDKKINLKLGEKLFLYTDGLVENGYIDRDDLEEKLRLLKKRSGNEILEKFDEEIKEILSFGIKDDTTILIIEKEC;locus_tag=LOCUS_07090;note=WP_000219857.1 PP2C family protein-serine/threonine phosphatase (Leptospira) [pid:25.4%25%2C q_cov:37.2%25%2C s_cov:54.1%25%2C Eval:6.3e-13%2C partial hit],MGA_709
sequence1	MetaGeneAnnotator	CDS	827803	829053	.	+	0	ID=MGA_710;product=replication-associated recombination protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016291.1;translation=MNNLFYSIYKNKMPLAFRFRPKKLEDYIGQNEILSENKILFKLIKKKNIVNSIFYGPPGTGKTSLAEVISNEVNGYFENLNATTATVKDIKNIVENAEKKLKIEGKQTILFLDEIHRFNKLQQDSLLPSTEKGTIVLIGATTENPYYTLNNSLLSRCLVFEFNKLKNKDIKQIIRNVEQKITNNNIQKIDDEIIDYISKLSNGDARQAINYLQLIIDLDLELDIKEIKEILGKNRISYDKKEDKYNIISAYIKSIRGSDPDSSIYWLAKMLVGGEDPKYIARRLMILAAEDIGLANPDALVIANAALNAAKEIGMPEIRIILSEATIYLAISTKSNSSYEAINNAIKDVESGINYEVPKHLLNIPDSGYKYPHSFEGNFVNQKYVGNKVFYYKAGNNKNENMIMKKLKKMWEWDNE;locus_tag=LOCUS_07100;note=WP_011016291.1 replication-associated recombination protein A (Fusobacterium nucleatum) [pid:53.9%25%2C q_cov:98.6%25%2C s_cov:99.5%25%2C Eval:7.1e-123],MGA_710
sequence1	MetaGeneAnnotator	CDS	829046	829747	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDFFGVYLKEAREAKGITIEEIAKETKIQKRYLEALEAEEFEEIPGETYIRGFLKNYSTFVGLDVKEVIQKYEETKKTHVELEEEKIVKTIENNKKNFIIGGILLLVILIFIILFEISNKKEIKIGKKEVETSNIISKKVVEKKNSENGGNIKFKIVAFNLIKIKAEKKSWIVIMENKKNKFSGFLEKNKSINLKTKNKVIIKVYKKGKIIVDYNGKREDLGNDKKDIWKEF;locus_tag=LOCUS_07110;note=WP_002359020.1 DUF4115 domain-containing protein (Enterococcus) [pid:35.9%25%2C q_cov:39.5%25%2C s_cov:31.6%25%2C Eval:1.5e-10%2C partial hit],MGA_711
sequence1	MetaGeneAnnotator	CDS	829749	829958	.	+	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKCSVLEIMDINEVLEKYVENIEFENMKKIEQHMKRYFKEYLTMENMNIIDSTLLEKLLLKAVREEQ;locus_tag=LOCUS_07120;note=MGA_712
sequence1	MetaGeneAnnotator	CDS	829958	831196	.	+	0	ID=MGA_713;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016292.1;translation=MALKAVRGTKDIYGIDSEKFREIVNKAVEIFNNYNYEQIITPIFEETSLFQRGIGEGTDIVDKEMYTFIDKGKRSITLRPEGTASVVRAFLEHKMYGEKKLKRFFYYGPMFRYERPQTGRYREFNQVGVEAIGSYSPVLDAEIIAMGYDFLKKIGINDIEVQINSVGCPVCRKIYRDKLKSFLETKYDNLCEDCKIRYEKNPLRVLDCKVESCKKETAEAPIIIDYLDKDCKEHFEEVKKYLDIFKVPYKINPRLVRGLDYYTNTVFEIVTNKLGAQGTVLAGGRYNNLINEMGSKDVPSVGFAAGIERLMMLVDKEADEIEKGVYLAWIGENVKEYAFFISKILRENGIKVIIDFEEKSMKANMKKASKSKVTHAVIIGEDEKKTKNMILKDLETGEQELYDLENIIIKLK;locus_tag=LOCUS_07130;gene=hisS;EC_number=6.1.1.21;note=WP_011016292.1 histidine--tRNA ligase (Fusobacterium nucleatum) [pid:55.4%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:3.1e-131],MGA_713
sequence1	MetaGeneAnnotator	CDS	831237	833012	.	+	0	ID=MGA_714;product=aspartate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016293.1;translation=MYYRTHALNELSKKNIGEKVTLSGWINTRRDHGGVIFIDLRDRTGMTQIVFNPEYNAEVHSKAHGLRSEYVLKVQGEVKARDEININPNLKTGEVEVFINELEILNKSEVLPFEIDDNTTVNENIRLKYRYLDMRKPKMYNNLLKRSKMINSMRNFFMEEDFLEVDTPVLTKSTPEGARDFLVPSRMNEGKFYALPQSPQLFKQILMVGGIERYYQIAKCFRDEDLRADRQPEFTQVDVELSFVTENEIMDMMEKLSKKIAKDVVDVDIDYKFEKLDYNIAMEKYGSDKPDTRFGLELVDLTDIAKECDFKVFRTVAQKGGLVKGINAKAGSGKLSRKIIDDLTKFVSIYGAKGLAWIKINEDGSYASVITKFFSEEQVEQLVKRMNGEPGDILFFVADKPKVVYDSLGNLRLQLGEKLDLINKDEYKFLWVVDFPLLEWSEEEKRYKAQHHPFTAIKSEDMDLMETAPEKIRTVSYDLVLNGNEVGGGSLRIHQEETQEKVFKLLGLEKEEAEEKFGFFLNAFKYGAPPHGGIAFGLDRFLMVLLKEQSIREVIPFPKTQKGQCLMTEAPSGVEFTQLRELNLKSTLKKN;locus_tag=LOCUS_07140;gene=aspS;EC_number=6.1.1.12;note=WP_011016293.1 aspartate--tRNA ligase (Fusobacterium nucleatum) [pid:58.5%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:7.4e-196],MGA_714
sequence1	MetaGeneAnnotator	CDS	833326	834960	.	+	0	ID=MGA_715;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546374.1;translation=MLLKEKIKNLIIEVLKNKKIELIEFEVEKPKEEKFGDFSSNIAMKLAKILRKSPRDIANDLKEELEKKDEFKKVEIAGAGFINFYLKNDIILGILEEVLKTKDDFGKLEIGENKKVMVEYISANPTGHLHVGHGRGAVVGDVIANSLIAAGYDVLKEYYINDAGKQIENLSKSVYLRYKEVLGEKIDFLDNGYNGEYIYDIAREIKDKYSGEKNKEFDSVKDFFTEYSLEWCLSSIKKDLNDFGIKFDNWFSEKSLYEDNKVLETMKELEEKKFIYEKDGAKWFKTTDFGDDKDRVVIRDNGTTTYYASDIAYHENKIKRGYTKLIDVWGADHHGYVKRVKASLEALGYSENDLDVILVQIVNLYKDGQPFVMSKRTGNFITLRELMEEVGKDAARIFFIMRSSDSQFDFDLEAAKEQSSSNPAYYIQYAHARICSILDKAKINLDKPRNYKLELIKEDEEIKLIKKMDELKEVIELVSRNYEVHRLVKYSQELAGLFHTFYNKHKVLTEDEELTEARLALLLGVKITLKNILTIMGVSAPERM;locus_tag=LOCUS_07150;gene=argS;EC_number=6.1.1.19;note=WP_012546374.1 arginine--tRNA ligase (Thermodesulfovibrio) [pid:48.8%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:2.8e-149],MGA_715
sequence1	MetaGeneAnnotator	CDS	834985	835407	.	+	0	ID=MGA_716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIFELKIAAYYKNIKIIKNLTEATLDLFEFDSNTNYMLKLAVAEASANIIEHAYKKEVDKDIIYTIEQYDDKLVFIFRDFGIKTDIKDIKSRELEEYEENGLGVFLITSIMDDVNYFQLEDGTRLELTKYFSGDVNNE;locus_tag=LOCUS_07160;note=WP_011447044.1 anti-sigma B factor RsbW (Staphylococcus aureus) [pid:35.6%25%2C q_cov:65.7%25%2C s_cov:59.2%25%2C Eval:6.0e-09%2C partial hit],MGA_716
sequence1	MetaGeneAnnotator	CDS	835400	835717	.	+	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNGNKIKVEIKGNRGYIILDQNMSSREIRDLRKVFEELEQKDIIDIYIDMNKVYHIDSSGIGIFVMYLKKLKEKNGNLSLISPTEDIKRILKLVNLISYFDIIE;locus_tag=LOCUS_07170;note=WP_010965605.1 anti-sigma F factor antagonist (Clostridium) [pid:31.6%25%2C q_cov:75.2%25%2C s_cov:69.4%25%2C Eval:9.1e-07%2C partial hit],MGA_717
sequence1	MetaGeneAnnotator	CDS	835823	836134	.	+	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKEIVNNRVIVSIDMDFTIQEARELKREMKIWEAEDIINVVLDMSRVKYIDSSAIGVLVTLLKYTKKQNGSLKLYSVGDDVMRILKLVNLVSFFDITDKLE;locus_tag=LOCUS_07180;note=MGA_718
sequence1	MetaGeneAnnotator	CDS	836231	836668	.	+	0	ID=MGA_719;product=chemotaxis protein CheW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940969.1;translation=MKVVSFELGEEKYAVQVKEIGEIIRVPKIEEVPNAEEYIEGVINLRGDIVPILNFNVKFKLPQKKLDEDSNILIIREEEQNVGILVDKVDEVINLNENKIVEAPELSIGIPKESFIGVVNYLGKLLILLDIKKLLSITEEGERNG;locus_tag=LOCUS_07190;note=WP_010940969.1 chemotaxis protein CheW (Geobacter sulfurreducens) [pid:37.9%25%2C q_cov:95.9%25%2C s_cov:85.4%25%2C Eval:2.8e-23],MGA_719
sequence1	MetaGeneAnnotator	CDS	836661	838442	.	+	0	ID=MGA_720;product=chemotaxis protein CheA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940968.1;translation=MDENFDMSQFRGDFIEEANEIIEKLDKELLELEKAPKDYELINSIFRSIHTLKGSSAFLNFTVMGELAHKMESLLDKLRNKEMFVDEKIINILLEGIDKIKLMINDIMNNGNGEQNIDEVLKKIIELTEKKVVKENSKEENIERSIDTKIDKILENYNQENIEEIKIKNSQKITSIEKEKNIGEEKKKIESHLIRVDTRKIDDIMNLVGELVTGRNRLLQIGSKFKSEELNENSNFISRLTTELQGSVMKMRMIPLEKVFNKFPRVVRDLSNKLNKKVEFEVSGQDTELDRVVSEEIYEPLVHMIRNALDHGIETPEERMANGKVATGLISINAKQEDNFVFIDIKDDGKGINSDIIRKKALEKGILTQKKIDNMGKYDIINLIFHPGFSTAEEITDISGRGVGMDVVKTSIGKLGGIVDVITEEGKGTTFRVRLPLTLAIMPVLIIGISDKKYAIPLNNVIETRRINKNEIQTISGEQLIFLREKTLNIVYLSSVFNIEEFEREEEKINLVIIGFGEKRVGLVIDEMLGKQEIVIKPLGKYLNNVSGISGTAILGDGNIIMILDSSLIVNKGKSNVKMKKIKYKNIKNNGKD;locus_tag=LOCUS_07200;note=WP_010940968.1 chemotaxis protein CheA (Geobacter sulfurreducens) [pid:41.0%25%2C q_cov:93.9%25%2C s_cov:95.7%25%2C Eval:1.6e-126],MGA_720
sequence1	MetaGeneAnnotator	CDS	838627	839100	.	+	0	ID=MGA_721;product=chemotaxis protein CheW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545419.1;translation=MAIEEKSVKELQVVVFKLENSYYGVHILQVQEIIKMADITKLPNTPYFIEGVVNLRGKIIPVMDLRKRFGLSTVEITREFKILILKTEELEFGVLVDDISEVEKIPVNIIENPPKIISGINGEFINGIAKTEGRLLILLDIEKILSVEEKEVLKDIE;locus_tag=LOCUS_07210;note=WP_012545419.1 chemotaxis protein CheW (Thermodesulfovibrio yellowstonii) [pid:49.7%25%2C q_cov:91.1%25%2C s_cov:83.1%25%2C Eval:8.6e-35],MGA_721
sequence1	MetaGeneAnnotator	CDS	839144	839596	.	+	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILIISYIYFFNILYSQELKLKNYNMQLKNILKIKSLNEISNGEEINENIKKTLNLKVTNSEMIDYYKNIFNKNKLLMSTYEYYRYYYKYYEKGIILIQNYKNKILILRGLDIKVEGILKGKINYSMAYRFKIYFDLEKIIKGELRW;locus_tag=LOCUS_07220;note=MGA_722
sequence1	MetaGeneAnnotator	CDS	839590	840912	.	+	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNYIFLGIIIVLVILLIKEREKSKKDIKKLIMNINENLEKISYKIYLKVNEEEITNMDIKTLDKIKKSDNGIHELNDEFKFMKKDNIAYLKSKLLLNEIKEITENLNLKEKELDLTREKEYYYYKDFSKKLTYLLSEIDNLPIYENLNYFNPVILGIKILKYKIFYLIDIFKNRGDISIRKYEMIKMQDFIEIISEELDFNLNVITSNDNILKLKLYFEVDKIKNLIKLFFYSILKEFKIKKELNLKICLEEDKLIFEYELGKNNFNIEDIIDESFINLSEMNEMTINVSIKNGNIIISDDIRKIKADDAIVKSITVNSTSEEIRNVMQTIMYDVNREIISNEKIADINLVVDEILQNALEHGNKYELEKKIVVTYTINNSDFIIEVLDEGDGFEYDEKKGMDILGERGRGIFLIKQLSKKIEYSENGRKIKVVIEKEV;locus_tag=LOCUS_07230;note=WP_010942074.1 ATP-binding protein (Geobacter sulfurreducens) [pid:35.4%25%2C q_cov:21.4%25%2C s_cov:61.7%25%2C Eval:4.3e-09%2C partial hit],MGA_723
sequence1	MetaGeneAnnotator	CDS	840916	841227	.	+	0	ID=MGA_724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKKEKIEENLIIRFIGKLSQEEVDKISGRLIYDIGEDNSKNVIIDFSGLEYISSLGIAMLIKLYKFTKDEEKKMIIYNPSKEVLKILNLTRIEKIIKIEVN;locus_tag=LOCUS_07240;note=MGA_724
sequence1	MetaGeneAnnotator	CDS	841228	842097	.	+	0	ID=MGA_725;product=RNase adapter RapZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963833.1;translation=MKKNDLEFLIITGMSGAGKTQAMNFFEDRGYFCIDNLPATLLSNFISLYFKSKGKIKKLAFVIDIRSWGFFEDFFEEIKNLRNNNINYKILFLDAKNEILLNRFNLTRRKHPLDVYNTLLKNIEEERRRLEDLRNMASIIIDTTNLTIKNLSEKLENEFKGEFTKKLSITFISFGFKYGIPIDLDMMYDVRFLPNPFYVESLKKKTGNDLEVQEYVMKAEESKEFFYKLQDMISFLIPHFEKERKSHLNIGIGCTGGKHRSVTFVNKLYDYFSGFGKYQIRISHRDINK;locus_tag=LOCUS_07250;gene=rapZ;note=WP_010963833.1 RNase adapter RapZ (Clostridium) [pid:48.3%25%2C q_cov:98.3%25%2C s_cov:96.9%25%2C Eval:1.6e-77],MGA_725
sequence1	MetaGeneAnnotator	CDS	842139	843905	.	+	0	ID=MGA_726;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902903.1;translation=MISLDDIPENPGIYIMKSKGKIIYIGKAKILKRRVMSYFHKNHDNAPKTKELVKKIEDIDYILTNNEIEALILENNLIKKYSPKYNIALKDEKTYPYIKITKEKFPKIEIIRSTKRINGSKEELFGPYPMGVYKFIKAVKRVLKLRDCKRDMTKIYQRPCLKYNMGMCSGPCVYKNVEKEYREKIEELRDILKGKYQNLIKEFEKKMYEYSEKLEFEKAIVYKEKIEAVKNLKNSLTMEYGQNVDEDVFVVVQKNMKIFIYILNVREGKILGKNFIDVDLKLEENGELDNIFIQYYSKFPMPKNIILEEKFESSAKILESWSKISKTKKINIFFPKIKSRRLNLLEMAKLNLNKEIEKFYNKKENLERGLYKLREELHLKKIPMRIECFDISNIQGKDAVGSMSVAIEGKNIPKEYRRFKITVKDTPDDFKMMEEVLTRRYSKLKEYELPQLILIDGGLGQLGIAEKVLKSVGKFEYLDIISIAKREELIYKAEEKEPYVFLKSEEALKILQRLRDESHRFGITYHRKLRSKRVLKSELDDIKGIGTIRKNRLLKKFKTVEKIKKSSLEELSEIIPTEIAKKILKLKN;locus_tag=LOCUS_07260;gene=uvrC;note=WP_005902903.1 excinuclease ABC subunit UvrC (Fusobacterium nucleatum) [pid:52.1%25%2C q_cov:99.1%25%2C s_cov:98.5%25%2C Eval:7.9e-174],MGA_726
sequence1	MetaGeneAnnotator	CDS	843931	844302	.	+	0	ID=MGA_727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKKVLVIDDELTIRLVLKELIEDLGYDFLESGRAMQGIEILKNNKVDLILLDIQLPQMNGLEAIQKIREINKEVPVFMITAFHNLKDVVEMLDVEIQEFISKPFDLENLQNKMKEYLKGDE;locus_tag=LOCUS_07270;note=WP_010943546.1 sigma-54 dependent transcriptional regulator (Geobacter sulfurreducens) [pid:37.5%25%2C q_cov:97.6%25%2C s_cov:26.3%25%2C Eval:1.2e-19%2C partial hit],MGA_727
sequence1	MetaGeneAnnotator	CDS	844304	845356	.	+	0	ID=MGA_728;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460119.1;translation=MKKYSSELKAGMKLLKPVYYENSILINEDVILDRNAIEKIKKFNILEVDIVDENGLKIEEELEKENMLKEVFELEYENSIEKAKEILENAVSSGIEAEEIENIIGESIKNLELDSDVLIRILQGESAADYLFQHSLNTVIISLLIGDSLGYSKEKLELLGKGALLHDVGMLKIKKETLEKSEDLSSDEIMEIKKHTAYGEEIIGDKIEKDVLDIIKYHHEKMDGTGYPEGLKGNEIPEMAKVVNIADIYCALIENRNYRERYDYYDAMKIVMKSSISLVDDKILKSFLKRMPIYPINTKVILNDGRKGVVSKASSNPFRPIIDIVTKGVAERINLTEEGNLTKYIVGVDK;locus_tag=LOCUS_07280;note=WP_011460119.1 HD-GYP domain-containing protein (Desulfitobacterium) [pid:32.1%25%2C q_cov:96.9%25%2C s_cov:96.3%25%2C Eval:2.1e-37],MGA_728
sequence1	MetaGeneAnnotator	CDS	845353	846300	.	+	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIVALVLLFLFGCSNIVLKKEVKEKIPFKIKKGDYKIVLNHIKYPTKYEEKEVFFKKFDLFLKKSLLENKKDIILFDMSFFKDYEEIENSGLLPEEKILTKVASSLNEEEKKKLLELNKKKYIEKDPVQVILKNQILKLKNILEDSTFDESKIYTELDKEELINLLRNKRKILTKVIKKSKIEMVALIKNPYKKIDKIKRKYYTKDINLNVKTDLREDIKKYKYPILIENLKDSDFKLISNSEINLNNKIIILKNSKYVGYDYYKGNYIFYYGGVEKHYLYNDYNINVIYKDVTLRKLLRNSEGITFKELIGG;locus_tag=LOCUS_07290;note=MGA_729
sequence1	MetaGeneAnnotator	CDS	846302	847894	.	+	0	ID=MGA_730;product=PP2C family protein-serine/threonine phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896598.1;translation=MIYFIILEIILLFSLVIFQFDIYMKFIIFLFISFSLIVYESIRKKDIKEYFINILKNIYNEKSSETLDIKEFDNEVLEVYNETIEKFNKKEFDLKEAMTEINSYRNELEKAYKSLIAKSTELEYTNDLLEKKVGTLSSLNALGKSVLSAIDENKAIDILIDTYFIMTSAKKIAVFLWEDGNLLNKAMKGEINFVDFNYDNSENIIALNAKDKVEYKELANKMIQAGEKVVYSEIAIKSKAFGVIYIIEKADENSYLEEKDIILALSMYAAISLNTLGMYKEISEKKQMQKEISIAADIQRNLLPSNIKNVFGLEISNYFKPAKEVGGDYYDYFLSAEGKFGITIGDVSGKGIPAALLMALVRSVLRAVASYDIYPNIILEKLNKIIEDDISDERFITLFYSLYDQETNMLYYSNAGHNPLIYYNKEEDMITEENVKGVAIGFVRNYKYKIGEIKLNKGDVLVYYTDGITEAENSKKELFGIDRLKNIVFKNRLNSSENIKAEILKEVSSFRKKAIQSDDITLVVVKVERR;locus_tag=LOCUS_07300;note=WP_005896598.1 PP2C family protein-serine/threonine phosphatase (Fusobacterium nucleatum) [pid:39.3%25%2C q_cov:96.4%25%2C s_cov:99.4%25%2C Eval:1.9e-102],MGA_730
sequence1	MetaGeneAnnotator	CDS	847900	850314	.	+	0	ID=MGA_731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKATIITITIALLLLLLLNTIINNNNNNIYNNVINEFQIEKSKGINVFLNKLKENNILKLKEILFLKSEKSLSKNYNLYIFNLSGDSEKKYNNMNIYPTFMEFFKILDNRNQEKEFEISYFILEDNFLLLRTIIKSKDKYYVLDSNLKEILLKELSINFSGKFLLEINGNEFPKENIEYFKTKDTCIAKIDLKNLDGFKIATIKNSENLKEYFKNSNIYNFDILILIIIIGVLIVITALIYNIGDDREKLKIKKIISKLLEEDSDFVIEKNYIKDRGVLGEIFKSLNKLKGKILSSKNKIDYYNKKLENSYKDLKNYTYIIELKNKELQDKLKSFQLIKNVLNQGIREISEINNFFKSFMKELCEYRNYKRGEIIYKNTIDFTYEKIIYVSGEDKFIENSYNENLKYLIPDRIIIKENYIEIPLIIKNKFVGSLKFEGIELDGNVEKTLSVLTNEVNLILENSNLYYKMERKIMDLSFLNSIVLAMSSVKNIGEMKDMMEDSIAILFGIKNYKILLYEKGYFLEFKQVNDDIVKIKNSLVEEKRAFIEKKYEIININGEYYIPLVAKENLIGVIKLLGNFNLKKLDDNIVKIFLTQISIILQNNFMMLEHKKQNFNIIKSLAQSIDEKDTYTRGHSERVMEYAVSISKKMDLSKEFIEKIRYAGILHDVGKIGIPENILQKKGKLTDYEYNIIKQHPEKGVKILSHISELDEIIDMVKYHHERPDGLGYPEGLKGIEIPFGARILAVADTFDAMTSDRPYRKGLSIDIAKKELEKYAGTQFDEEIAKVAIQMIETGELKIKG;locus_tag=LOCUS_07310;note=WP_012583578.1 HD-GYP domain-containing protein (Dictyoglomus turgidum) [pid:38.5%25%2C q_cov:40.9%25%2C s_cov:96.5%25%2C Eval:1.8e-54%2C partial hit],MGA_731
sequence1	MetaGeneAnnotator	CDS	850319	851848	.	+	0	ID=MGA_732;product=NAD(P)H-hydrate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865220.1;translation=MKIYSSDQMKNIDFETIKKYIPGNILMEHAGIETVRIIEKKIQNLSEKKVIVLAGAGNNGGDSFVVARGLSSKVSKLDIYFIGEEEKLSEDSRLNYNICKKLNLNFIKNFEELMELNEKFKYDIIIDGIFGIGLNRNVIGEHYNLISFVNNLKNKFVISLDIPSGVNSNTGEIQKIGINADLTIAYHGGKLGHFLYPGREYRGKLSIVDIGIPNIVESEDDLDDIYEIIKKEDIKFKIRNKNIHKGNAGKVVCIGGKTGFSGAIYMASEAALNSGSGLVYSIIPKGINTILEQKSTETITVPIGDEKREYFRAIDYVETINFINEIKPDVIILGPGIGREEETINYILKLLNEINDINIVLDADGLYAIKDDLAILYGKNIIMTPHMGEFKRIIKSDIKNKLEKAKLFSENYGVITVLKGADTIISNGKKTYINLTGNPGMATAGTGDVLAGIIASFVGQGYNRLEASKISVFLHGYIGDKIAEYESEEGVTANKIIKKIGECIKDIKK;locus_tag=LOCUS_07320;note=WP_010865220.1 NAD(P)H-hydrate dehydratase (Thermotoga maritima) [pid:37.0%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:7.5e-85],MGA_732
sequence1	MetaGeneAnnotator	CDS	851897	852508	.	+	0	ID=MGA_733;product=metallophosphoesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583630.1;translation=MKRGKKDYKILIVSDEDMLKIFSVSQLKEKFGYVDFIISAGDVSNGYLDYLFSALDKDVIYVNGNHIYEQNHKIEFCKNIDGKIIKYKNIKILGLDGSRVYSFGEHQYTEYGMWKKILKQIIKIAIRRPDIVVTHAPIRGIHDKEDHVHKGFRAFRYILKYCKPKLWIHGHIHLSSQYEKQETIVNGTRIINAYGYKVIELKK;locus_tag=LOCUS_07330;note=WP_012583630.1 metallophosphoesterase family protein (Dictyoglomus turgidum) [pid:39.6%25%2C q_cov:95.1%25%2C s_cov:99.5%25%2C Eval:1.4e-27],MGA_733
sequence1	MetaGeneAnnotator	CDS	852510	854330	.	+	0	ID=MGA_734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIETYIDAKNSYSKFLKESKGFLWFGKKDENLKSFIEVQKENSAYTSVNLGIKDVLIKDIKGSVQKYMDFNKNFVPKNSVIEERWCSIYLAFVNEKPLPPLELYKIKDEYFVYDGNHRVSVAKFLNFVRIEAEVKEFIPSPTTKENAIYNEKFNFEKKTGLNNINFTEMGQYSRLLKEINDYKEYVENFEKKSLDLEKVSKLWYEKIYEPSIKILEENNILSNFKDRTYDDLFIYLLNHKYFTSEKKGRDIGFSYAVINFINMLKLEDSEDSIIKVNEKVEENLEILKETDARKKLDEVIVRKDDILKKETGLNFKHNFLIIFEIDEFMYKNEIEDFQNGVKLWYKDEFMEFFKCFKKKIAFLSNMYLEKFKIITKNRERAYYSLKNYAIKQSNFESELLIANYILERYIPIIDQLKEVELGEDEFIESYFGIESEYNYISKYEDISFKDAKERYFNSINKSYLQSHGWLLLRFKDEERKKDILDYIINKFKEKLLNKNLFDEIVKKYGPIKRYGTVFKLETAMKVYGDSNWLSEKVLKDLEKLSNNNEILTEFKTRITLYKLKEKREMSLIDFYARVLNYGTYLGKDMKYVDIIDLAIEYLNN;locus_tag=LOCUS_07340;note=WP_012583629.1 DUF4032 domain-containing protein (Dictyoglomus turgidum) [pid:39.2%25%2C q_cov:39.1%25%2C s_cov:90.5%25%2C Eval:4.2e-45%2C partial hit],MGA_734
sequence1	MetaGeneAnnotator	CDS	854377	856413	.	+	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKTKVSMTILLILIFIIVNFIVVFYTINLTKQDSLLVNLSGRQRMLTQKISKNIFKYISIKDLVKKLEVEKEIKGEVKLYDNTKNAILYGGITLDGVGKPVKIIRAKLSNSYIELEKTWKEFKNSINKIMSGDKNAVNYIDMNNLKLLNLSNELVTELEENSQQKWRLLKLFEIIFAIIIGIVMLFVSLHIKLKIINPLNKLLRLLRKAEKGETNIKIDINSNDEIGEISKIFSNYFKVLNKIVNNIVLVSENINNTKDGIKKYFLNIENSFEDLRESIGTTSAAIEELSGTSRSIADNAVHMNQNVDKTKNYIEKGMEIVNSTTDEIKNLKEHINNGKDEVKKLGIKTDEIGEIVIVINEIAAQTNLLALNAAIEAARAGEHGRGFEVVAEEVKKLANRTSNETKEISLMIKDIQEQMENLIKQMGNIVKGAEKGEAMVNSTNNMFSKIEEKVEGISIMTNTVSIGVKEESIAIEELSIQGDNIINNLDENSYVIENSLKSVEKLEELSKSLIELTEFFDIKSISKRNKIVERKNKDNYKGKEYINWNSDFIIGIEKIDKEHKSLVDTVNELINAIELGKSNEKIYNIVDFLVKYTAEHFADEEEIMKRENYPGLEEQRKTHKKFVEFAINLQKQLEMEGIKSGTGIKIKKFVGDWIVEHIKGMDRKIGEYLGTI;locus_tag=LOCUS_07350;note=WP_011073637.1 bacteriohemerythrin (Shewanella oneidensis) [pid:24.0%25%2C q_cov:69.5%25%2C s_cov:88.3%25%2C Eval:2.5e-41%2C partial hit],MGA_735
sequence1	MetaGeneAnnotator	CDS	856478	857023	.	+	0	ID=MGA_736;product=GNAT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001987197.1;translation=MILKTKRLLLKTLDESYAEEVLEFYKKNIIFLKEWEPERNNDFYKIGVHKLNLRNDVLKNEKKELFRVWIFRSGEEKILGTVALSNIIYGVFKSCHLGYKFDKDEVGKGYAIESVKKVIEYGFNELKLHRIEANIMPKNKRSLNLVKKLGFEEEGLAKNYLKINGEWEDHLHMVKFNEKII;locus_tag=LOCUS_07360;note=WP_001987197.1 GNAT family protein (Bacillus) [pid:45.1%25%2C q_cov:96.1%25%2C s_cov:96.7%25%2C Eval:1.6e-42],MGA_736
sequence1	MetaGeneAnnotator	CDS	857007	857243	.	+	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLFRIIFKPFLTSDNAEPQRNQRFTEEIIKKSYNMRTLYSLWLCVEDPLFLQLFHAINLFFILDKRVYLRYILIIG;locus_tag=LOCUS_07370;note=MGA_737
sequence1	MetaGeneAnnotator	CDS	857396	858343	.	+	0	ID=MGA_738;product=carbohydrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963746.1;translation=MFKVACIGEMLIDFICSDIDVDLENGENFTKKAGGAPANVAIAISKLGGESFFIGKVGDDPFGKFLINKIKKNGVDISLVSIDKKNRTTLAFVSLQKNGERDFIFNRGADENLKFSDINLENLKDAGIIHFGSATALLGGKLKKSYDSTLKYVKENGNFISFDPNYRVDLWKDRIEEFIEKSIEYVKYSDFVKVSEEELFLLTKKTKKEEAVKKLHYLGAKIVAVTLGKNGTLISNGKESKIVSSIKVKSIDSTGAGDAFIGAVLYKISKLEKIEEINNMETLEEIVNFGNKVGAITCTKYGAMDALPTLEEVEG;locus_tag=LOCUS_07380;note=WP_010963746.1 carbohydrate kinase (Clostridium) [pid:55.4%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.4e-90],MGA_738
sequence1	MetaGeneAnnotator	CDS	858347	860302	.	+	0	ID=MGA_739;product=alpha-amylase family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_236616027.1;translation=MGREYLRFMSEILEKLRDRKEYKNIDFSIFFARFGNNFEILFNNFRSLYGDRKDFAIKLEELMFVVQDFYVKRDERLKKIDLEREKEPDWFLSNNWVEMMLYIDRFSKDLKGFKERISYLKDLGINIVHFMPLLQAREGENDGGYAVSDYTKIDSKFGDMKDLKDILKIFRKENMLLELDLVLNHTADTHDWAKRALDGDKKYQDYYYMYNNREIPDKFEESLPEVFPKTAPGNFTYNKEINKWIFTVFNNYQWDLNYTNPDLFIEMTKILLFLANVGIDILRLDAVAFLWKRIGTNSQNLPEAHTILQMFKACAKIVAPGVVFKAEAIVQPVEIVKYLGEGDLEGKECDIAYNASFMVFLWDAIATKNTKLLQKGLEHMPRLPKGTTWVNYIRCHDDIGLGFSDLDAIESGYNPVLHRKFLLEYYTGKFYGSMASGIPFMYNPKTGDARISGELASLCGLEKSFKNKNFDEIEKSIEKIILLHSAIMSFGGIPLIYYGDELGMTNDYSYELDEEKKDDNRWIHRPVIDEERLNIRKKMGSIENRIFENIKKLIKIRKNTPEFYGENNYKIVGNDNLNSFIFIKEHKDSKIMVIMNFSDREQEIEYSILMKNGFFGEVIDKFTNKIPEIRKGKIIIKRYQFYWLKEKENRD;locus_tag=LOCUS_07390;note=WP_236616027.1 alpha-amylase family glycosyl hydrolase (Rhodopirellula europaea) [pid:41.2%25%2C q_cov:97.7%25%2C s_cov:92.3%25%2C Eval:3.9e-153],MGA_739
sequence1	MetaGeneAnnotator	CDS	860504	861817	.	+	0	ID=MGA_740;product=tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016418.1;translation=MNKKAMVITYGCQMNVNDSAKIKAQLTKQGYEITENLKDSDLVFINTCTVREGASKKVYGKLGELKTLKKTKKDMIVGVTGCLAQEKKDEILKRAPHVNLVLGNQNIYQIPEYLSKLENDEIKHVVLVDNEDELPPRLDADFDSNFSGCVSITYGCDNFCTYCIVPYVRGRERSVPVKDIITDINNLLKKGYKEIILLGQNVNSYGKGLTNGENFAKLLKEISKIEGKFRLRFMSPHPKDFTDDVIESIIADERISRNIHLPLQAGSTSVLKKMNRGYTKEDYLKLVEKLRSKIKNIALTTDIIVGFPYETEEDFKDTLDVVEKARYENAYMFMYSKRDETPAATMEKQVSEAEKKDRLQRLIEVQTRITKEESNKYLNKEIEILVEGLSPRNKEMYIGRTDSNKVVIFKGDETLIGKFATVKINEANTWTLYGELI;locus_tag=LOCUS_07400;gene=miaB;EC_number=2.8.4.3;note=WP_011016418.1 tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB (Fusobacterium nucleatum) [pid:59.1%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:1.1e-153],MGA_740
sequence1	MetaGeneAnnotator	CDS	861902	863203	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGIRVYNLYPKLIGSMEKWIEHFDRIKEMNFNWIYINPFHSPGFSGSDYAVKDYNLYHPLFVTGEMDFSDLHGQKEKGDFLLEKVCNEAEKKGMKIMMDLVINHTAIDSPLTKEHPEWYMKNSDGSIKNPGAMDGNNWIEWGDLAQIDNEYSIDKDNLWEYWLDMILKYAKLGVRGFRCDAAYHIPRNLWEYLISNVKSKYPDSVFIAETLGCTPKQLINTADAGFDFVMNSFKWWDLKADYFLKDYGEWADKYPSLTFPENHDTERYSKEINGNKDLAIAKYALGAYFCSSIAITIGFEFGFERKIDVVQTNPSWMEDKKYDISKEISRINQIKSEYDILQEDNIIEPIYFKNHNIFAFTKESLDKSEKILVMINNDGEHINTIYYNGLYNLMGGEKVIDISHGHRMENIPDNFEYNLSPGEVKLFYIKK;locus_tag=LOCUS_07410;note=WP_003641774.1 alpha-amylase family glycosyl hydrolase (Lactiplantibacillus) [pid:27.7%25%2C q_cov:56.1%25%2C s_cov:55.5%25%2C Eval:8.8e-23%2C partial hit],MGA_741
sequence1	MetaGeneAnnotator	CDS	863232	863609	.	+	0	ID=MGA_742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNILIVDDEVDVVEVIEMLLKNQGYNVITAHNGIEALERIEKKIPDLVILDIMMPQMDGLEACKKMRENEKMENVPIVMFSAKLSAVDKKEAFEVGADGFITKPFNARGFIAGIRTYLELGHM;locus_tag=LOCUS_07420;note=WP_002262930.1 response regulator YycF (Streptococcus) [pid:45.8%25%2C q_cov:94.4%25%2C s_cov:48.9%25%2C Eval:3.6e-24%2C partial hit],MGA_742
sequence1	MetaGeneAnnotator	CDS	863624	864910	.	+	0	ID=MGA_743;product=transcription termination factor Rho;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016419.1;translation=MDFNELKYEDVVNYKLKELQKLGKELGIEKAYKLNKEDAMLKVIEALGEKKGELVGHGVLDVLPDGYGFLRNSSLGNDIYVSASQVKKFSLRLGDIVAGECRKPVSDESNFAILKIFTINGIDLEKAKNRPKFEDLIPSYPDKLLKLTSSKDKENIPGRIIELISPIGLGQRGIIVAPPKAGKTVLISSLANGIIENNPNVEVWILLIDERPEEVTDIKENVQGAEVFASTFDEEPRNHVKVTEAILEKAKRLVEDGKDVVILMDSLTRLARAYNIIIPSSGKLISGGIDPGALYFPKNFFGAARNIKNGGSLTILATALIDTGSKMDDVIYEEFKGTGNMEVHLDRNLSELRIFPAIDIKRSGTRKEELLLSEAELMVIWRMRRFLSKYSSAEATKRLIDLLKKTDNNASVLNHFLKGGDFNGDQSK;locus_tag=LOCUS_07430;gene=rho;EC_number=3.6.4.-;note=WP_011016419.1 transcription termination factor Rho (Fusobacterium nucleatum) [pid:59.2%25%2C q_cov:92.1%25%2C s_cov:94.9%25%2C Eval:4.4e-128],MGA_743
sequence1	MetaGeneAnnotator	CDS	864891	865916	.	+	0	ID=MGA_744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATNLSKRKIIKIFVYIMLFFSTVFILTIVKGNYQESGNGTDAITKGDISKINSENAGIQIIDYQYYTFEKDYSDVVNNLETDKKENENKKLKEIYYTVKRGDTLHGISQAVGQDMNIIVANNPKVKNGKIYAGQKLKILNKDGIYYTVKSRDTLGKISNKYKVKLASILEANNLNDTQIKKGEKIFIPNPNLDFVIKANRTRYAKKTFSNRTKFGWPVRYRGVTSPFGNRYHPVLKRYIFHTGVDLRARTGTALYSALDGKVTYSGWMSGYGRIVIIKHSKGYSTRYAHLSKSYVKVGQYVKKGQQIGKTGKTGRVTGPHLHFEIRKYGKPLNPMRFLKR;locus_tag=LOCUS_07440;note=WP_012869993.1 LysM peptidoglycan-binding domain-containing M23 family metallopeptidase (Thermanaerovibrio acidaminovorans) [pid:41.9%25%2C q_cov:71.8%25%2C s_cov:56.0%25%2C Eval:2.4e-46%2C partial hit],MGA_744
sequence1	MetaGeneAnnotator	CDS	865959	866786	.	+	0	ID=MGA_745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKKIIIIFLFFSSVIYAEDITVDDYLNLGDAYYKENNLKEAKDLYDRALEIDSSNITVVMKILKIYETNKKYDDELKFLENFLSNNVDKNNSEIYFKIADIYNNYKKNKKKAYEYYEKFLNSSGSNNSERIFYIGDVYFKDFLYEKAMNTFLLDKTGNYKNEFGAAITLRFLGYYKKSILYYKKVIKQKPNFLEAYLGIGISYQLNSDFDNAIKYFLKYISEKKDEQVYIELVKLYMIKKNDKKAKTIGQEGLNFFPNSKELRDLMLTIYSN;locus_tag=LOCUS_07450;note=MGA_745
sequence1	MetaGeneAnnotator	CDS	866799	867437	.	+	0	ID=MGA_746;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003548243.1;translation=MIVEYRNINLSFKEIEIFKNFNLKIENGEKILLKGKSGSGKTSLGNFLLGFTQPNSGEIYFQNELLNEKTIWKIRQKIAYVSQDVDLDEKKVMKIIAETFEFSGNKDKKLNKKMLKNLLKKFRLEDIILEKNVSKLSGGERQRVGIILSILLDRDIFVLDEATASLDKELKAIVANYFSEINKTVISISHDKEWEDTNKYKVINIGDDKDGQ;locus_tag=LOCUS_07460;note=WP_003548243.1 ATP-binding cassette domain-containing protein (Lactobacillus acidophilus) [pid:33.2%25%2C q_cov:91.0%25%2C s_cov:88.5%25%2C Eval:1.1e-22],MGA_746
sequence1	MetaGeneAnnotator	CDS	867427	868212	.	+	0	ID=MGA_747;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008768886.1;translation=MANDISILSLFLAALMFLIPIGFSFYFKLFMTKDIIISGIRMFVQLFLVGVFLKYIFQLDNFMLNILWLFLMLIVAAFSILSNIEFNKKLFLPPIIASLFLVVAFVGIYFNYFIIGLKDIFQAKYFIPIGGMLLGNSLKGNIIGLDNFYKNISKQEKKYFYKLSLGATRYEALLPFIRKSIKISSKPTLATMATIGIVSLPGMMTGQILSGESPMNAIKYQIAITIAILVTRMLGIVLTLLFTIPIAFDEYGVLKKDVFGN;locus_tag=LOCUS_07470;note=WP_008768886.1 ABC transporter permease (Bacteroides fragilis) [pid:41.0%25%2C q_cov:95.4%25%2C s_cov:94.3%25%2C Eval:2.2e-51],MGA_747
sequence1	MetaGeneAnnotator	CDS	868299	869171	.	+	0	ID=MGA_748;product=Hsp33 family molecular chaperone HslO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048141.1;translation=MGYLIRGITKNKNARFFCVDSKNIVEEAQKIHKCSATTIAAFGRVLTAGVIMGSDLKGEKDLLTIKITGDGALKQIIVTANSKGYVKGYVSNPYADLPLNENGKLDVGGIIGRGNLQIIKDMGLKEPYVGISNLVSGEIGEDLANYFFYSEQVPSVVGVGVLVDKDLSIKRAGGFIIQLLPEADEEFINRLEEKIKTIKSVTEMLESNMSPEDIINSIFENVEDIEILDKKEVKYNCDCDKDRFYRGLITLDKNEIKEMLETDKEIKAKCHFCHKEYIFTEEDFKEFLEN;locus_tag=LOCUS_07480;gene=hslO;note=WP_012048141.1 Hsp33 family molecular chaperone HslO (Clostridium botulinum) [pid:46.2%25%2C q_cov:99.0%25%2C s_cov:97.0%25%2C Eval:1.1e-73],MGA_748
sequence1	MetaGeneAnnotator	CDS	869189	870028	.	+	0	ID=MGA_749;product=formyltetrahydrofolate deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005478783.1;translation=MEEKSIVLIECTDKKGLVNKVTSVIFGLGLNIVSNNQFVDEESNHFFMRTEIVGKVSKDILVDKIKENLPDDAMIKVIESKPKRIVIMGTKEHHCFSDIIIRSEYKEINADIVGAIGNYDELRGLAEKFDIPYSFITHNEKTKEEHEDEIIKKIEEYNPDYIVLAKYMRILTPKFVEKYEHKIINIHHSFLPAFIGANPYRQAYNRGVKIIGATAHFVTNDLDDGPIIAQEVLKIDHTYSAKEMRNAGRDAERAAFSKALKLVFEDRVFINKNRTVIFE;locus_tag=LOCUS_07490;gene=purU;EC_number=3.5.1.10;note=WP_005478783.1 formyltetrahydrofolate deformylase (Vibrio) [pid:53.1%25%2C q_cov:98.6%25%2C s_cov:99.3%25%2C Eval:1.8e-83],MGA_749
sequence1	MetaGeneAnnotator	CDS	870145	870336	.	+	0	ID=MGA_750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGISAKYYKRESCRNIKSIQILYWEYRKYLCYCHHNDGGLSTDFNSKNRVGGYHQLFLFTRKV;locus_tag=LOCUS_07500;note=MGA_750
sequence1	MetaGeneAnnotator	CDS	870519	871829	.	+	0	ID=MGA_751;product=diaminopimelate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398851.1;translation=MAVLHGTMKVKDNGHLLIGGVDVVEVARESEFPVYVLDEELLRKNMREYRKTFEKYYPNSMVHYASKALMTLAMCKIVESEGLGIDVVSGGELYTAIKAGFPMDKVVMHGNNKSVNEIKMGIENGVKIVIDNFYEIELVDKITKELNKSVDVLLRIKPGIHADTHHYVSTGHEDSKFGFIIKEDTAKKAIKQVVEKELINFKGIHMHIGSQIFNVTGYEKSIEIMADFIKELKEENIIVKEFDLGGGLGVIYTQEDDPMSITDFVKLLIEYVKREFEKRELELPKLMVEPGRSIVGEAGTTVYQVGSITEVPGIRKYIAINGGMGDNIRPALYGSKYDAVIANRMNGKEEELVTVAGKCCETGDIILKDIKLNEPKSGDVLAVFTTGAYNYTMASNYNRLPIPGVMLVNNGQKEWIVKPQSYEDILRNDIIPERLK;locus_tag=LOCUS_07510;gene=lysA;EC_number=4.1.1.20;note=WP_004398851.1 diaminopimelate decarboxylase (Bacillus) [pid:48.3%25%2C q_cov:97.9%25%2C s_cov:97.7%25%2C Eval:2.4e-121],MGA_751
sequence1	MetaGeneAnnotator	CDS	871894	872769	.	+	0	ID=MGA_752;product=4-hydroxy-tetrahydrodipicolinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940835.1;translation=MFKGSYVALVTPFKKDGTIDENKVRELVNYHIENGTSGISPCGTTGESPTLTYEEHKKMIKIVVEEAKGRIHILAGAGSNSTREAIEFTKFAKEVGADSVLSVCPYYNKPTQEGIYAHYEAISKEVDIPIVVYNVPGRSGVNILPETIAKLAELKNIKGVKEAGGSVDQVCEIIDLCGDKIDVLSGDDALTLPMLSVGAKGVVSVTANFMAKEVSDMIKYFENGEIKKAQELHKKLFRVHKTMFIETNPVPVKATMEMLGKISGDVRLPLVRLKDKNKEILTKVLKNVEII;locus_tag=LOCUS_07520;gene=dapA;EC_number=4.3.3.7;note=WP_010940835.1 4-hydroxy-tetrahydrodipicolinate synthase (Geobacter sulfurreducens) [pid:55.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-90],MGA_752
sequence1	MetaGeneAnnotator	CDS	872822	873322	.	+	0	ID=MGA_753;product=anti-anti-sigma factor GigB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002117273.1;translation=MTERKEDQYLYGEIDGKGFIKFVGNATMKNSKTLEDLFEKLFKSDKKEIVLDFEECNYMDSTMLGLIAKTAIKFKKSWGLAIYALNTPNIILTSLKSTGVNKLMEFIEDENLKVVEVKKLETKDYDNKEEKTKHILEAHKTLMGLSDENKEVFKNVVNLLEGELNK;locus_tag=LOCUS_07530;gene=gigB;note=WP_002117273.1 anti-anti-sigma factor GigB (Acinetobacter) [pid:24.7%25%2C q_cov:92.2%25%2C s_cov:88.4%25%2C Eval:1.2e-08],MGA_753
sequence1	MetaGeneAnnotator	CDS	873337	874572	.	+	0	ID=MGA_754;product=LL-diaminopimelate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870908.1;translation=MDNYIQNLFAERIGGKNFGKDTVIYKFEKIKRAKREAIKKYPNMELIDMGVGEPDWMAEPEVIETLYSEAKKWENRGYTDNGVEEFKIAASNYMKKIFRVKELDPEKEVNHGIGSKPILALLPLAFINPGDITIMTVPGYPVLGTTTKSVGGEVVNLPLLEENNFLPDLDSLTEDQKKRAKLLYLNYPNNPTGAIATEEFYKKVIKFAKENDIIVISDEAYAALVFDGEKPLSFLSVDGAKEVGVAIQSLSKAYNMTGWRMAFIAGNELAVKGFATVKDNNDSGQFAAIQKAGIYCLNHPEITEKTVEKYSRRHGLLAKALQEVGFKTKKPKGTFYLYLKSPKGTKAGVKFNNAEEFSQYLIKEKLISTVPWDDAGNYVRFSVTFVAKDEKDEERVIEEIKKRLSTDEYIF;locus_tag=LOCUS_07540;EC_number=2.6.1.83;note=WP_010870908.1 LL-diaminopimelate aminotransferase (Methanocaldococcus jannaschii) [pid:66.1%25%2C q_cov:98.3%25%2C s_cov:98.1%25%2C Eval:6.4e-153],MGA_754
sequence1	MetaGeneAnnotator	CDS	874771	876249	.	+	0	ID=MGA_755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKKIIILLLFIVILVSGCMKENFVQEQAQKSKFNIVKNENNYVEFHFENSDKVIKEKYILLKDDKIIREGESCNSTLVLNDLVSGEYTIIFEEVQSNGEIYRKSPYKFNVSGNTEELLVNDIRAIKNNNNIDLSLNLKNENNMEVYLKNANFKFFDVNGNEITNKFEDNTIFFPELIEKNSEKQVDFKYLTNTNLNEIYVEVTVNGYTENERKLICLANEKRLTRVITKNSIKINTNFNKSKYILGENGILNYSIDGLESGELIITYGDKKEKIEFNKGVEYVYNFLASEDISNIKIEIEGLNLEKTAELSVINPEEISLSYNLDKEKIYEYENFNFKLNIPDYLSEDDINIKFDNSIEIISQNKFSYEIRLNKIGENNINIYYKDILIKNIKLNAEKNQKIYLENLAIENGNFDFTIYTNESYLYRLKYLEINGKEYSCEKIELLSNNMGKIDVKIPFDIEIKNKEIKIIMLYEEIETKSDIKITKTIS;locus_tag=LOCUS_07550;note=MGA_755
sequence1	MetaGeneAnnotator	CDS	876567	877763	.	+	0	ID=MGA_756;product=methionine adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966140.1;translation=MISKGRVLFTSESVTEGHPDKMADQISDAVLDAILEKDPNGRVACETILTTGLVMLAGEITTNCYVDIQKIARDVIKDIGYTRAKYGFDYETCAVLTSLHEQSLDIAMGVDEALESKEGKMTEEDIEALGAGDQGIMFGYAVNETEEYMPLPIVLAHKLAKRLAFVRKNKLVDYLRPDGKTQVTVEYVDGKPVKVDAVVVSTQHEKNVSQKQIEKDIIEKVIKEIIPASLLDDKTKYYVNPTGRFVIGGPHGDAGLTGRKIIVDTYGGIGRHGGGAFSGKDPTKVDRSASYAARWVAKNMVAAGVADRCEVQLAYAIGVAKPVSIAVNSHGTGKIDDSKMAEIVEKVFDLRPGAIIRDLELRKPIYRQVASYGHFGRTDIDLPWERLDKVEEIKKLVD;locus_tag=LOCUS_07560;gene=metK;EC_number=2.5.1.6;note=WP_010966140.1 methionine adenosyltransferase (Clostridium) [pid:73.8%25%2C q_cov:98.0%25%2C s_cov:99.2%25%2C Eval:2.3e-171],MGA_756
sequence1	MetaGeneAnnotator	CDS	877958	879394	.	+	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKGSGKQYLNSIRKTAFLMGNSKARESQKKVVINKSKQDLLTIGSDLKGEINSVDNLKSMLEDLKNTNIIKDKNSLSLYTIDNKNNDANVNVEILDYKKLSKNSFTLSIKKLPQSGIISSDNINSDRALNLRGHIEVNGANIVVKETDTLSTIKNKLNYGEDINQNGELDSGEDINSDDELMGKDDMRTKNYTFGGKLYLETKSSGNESSIDFNGSTQDVMSALGFISENGDIKNLIQSGENGEILINNDSFVLKDSSLEYKGLKFDFANSIEGKTSKIEVNYNKERVLSNIEEFTNKYNKIIDYINNYAKKYDSKIQDIKYKLGTIENKNIGVNLKAEKYYKELLKVKSGLGEVFGNALENSGFVKDKSGELKIDTEKLNNDFSDLREYLINTGTKVVNKKLNEYLNDVNILDIKKEASIKNLLNSNKKSKKMSILKDFILENQKNLKFLKNNLKDIKNAMKSLRNNFKGLWDRE;locus_tag=LOCUS_07570;note=MGA_757
sequence1	MetaGeneAnnotator	CDS	879676	880119	.	+	0	ID=MGA_758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKDIVNRDIITVKKDSSLENIIKIMKENKIGKIPVLENEEVIGIVTRDDILVKEEKAPLPPVLAFWDVLIALPRTKEFEEKLKKLAGYTAEEIMSVDFMKIDISEKIEDVLTKIIEEKYGYAVVYEKGKFCGIITKSDFIEKSY;locus_tag=LOCUS_07580;note=WP_048060997.1 CBS domain-containing protein (Methanothermobacter) [pid:27.0%25%2C q_cov:95.9%25%2C s_cov:50.0%25%2C Eval:1.2e-10%2C partial hit],MGA_758
sequence1	MetaGeneAnnotator	CDS	880283	881572	.	+	0	ID=MGA_759;product=hemolysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017189.1;translation=MEEYREFAVLAVLIILSGFFSASETALTAFKRINLKDVGKKNAKVAKLLKNWLRKPNEMLTTILLGNNIVNILASSIATVFALKVIGDKVNETDAIFIVTSVLTIVILIFGEITPKIIAKNYSEKVSKVVISPIYYLSILFYPLVLVLTFISKIISKIFGINLSTNNLLITEEDIKSMVSVGEEEGVIEEEEKEMIHSIFGFGDRTAREVMVPRVSVFAIESNKLLSEVWDKIISMGLSRIPVYEGRIDNIIGVLYLKDILNVIKSKNIDLPVKNYIREAYFIPESKQIIELLQEFKRRRIHMSIVLDEYGGTLGIVTIEDVLEEIVGEINDEYDEGSEQIQKISENEFELDAVLDIGFVNKELEIDIPEQDDYDTLGGYIYYKLGDLPQKGTEIKGEKFDIIVKEIDNHRIEKVVLKKKNEDDGDEKN;locus_tag=LOCUS_07590;note=WP_011017189.1 hemolysin family protein (Fusobacterium nucleatum) [pid:47.3%25%2C q_cov:97.2%25%2C s_cov:97.7%25%2C Eval:2.7e-109],MGA_759
sequence1	MetaGeneAnnotator	CDS	881559	882227	.	+	0	ID=MGA_760;product=DUF502 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947206.1;translation=MKKIKKYFITGLIAILPLFLTIFILLRILENIVLSLNTFLPIQLVVSLIDKLPLSSLYLKESLSYFIVYIFSFILIYVLLVVIGVIVSHFIDEKKVKWIENIFLKIPLAKPIYSTLKQISDVLFSKNISSYKKVVMLEYPRKGIYSLGFLTNDDNEYFKKILSDVGQKIDAKEKMVNIFIPTSPNPTSGMFVSVKKREVIELNLKVEDAIKLIISGGAIMPK;locus_tag=LOCUS_07600;note=WP_010947206.1 DUF502 domain-containing protein (Legionella pneumophila) [pid:31.0%25%2C q_cov:97.3%25%2C s_cov:91.9%25%2C Eval:3.3e-28],MGA_760
sequence1	MetaGeneAnnotator	CDS	882303	883226	.	+	0	ID=MGA_761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNRKKCKKILLIFIVLLFTVGCSNIEKKKVNKEETYYIIKGLNLMQASKYAEALQSFFAAYKYEKENETILKNIGIAYSELGSYDNGEQYLKRALEINAEDAEALYNLAVIYYNRKEYKSSLEILNKISPEYINQKVIVAKVYTYYRLGDYNKSYNELTEIFKTNRYNYNLELVNLNIKLMEKLKNTKQIYSFVYNIYSKHRENENYVVFFVNYLLKIKAYDEAFKTLKEYGIKNEFSSNISYELAKLEYKRKNYNQALKYMNLVKSEDALNHNILKLKADIYKEIGEIEKSKKIYNILENIKGND;locus_tag=LOCUS_07610;note=WP_010963738.1 tetratricopeptide repeat protein (Clostridium) [pid:21.7%25%2C q_cov:93.5%25%2C s_cov:64.9%25%2C Eval:3.8e-08%2C partial hit],MGA_761
sequence1	MetaGeneAnnotator	CDS	883228	885477	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTILKKKLLNFSGLVVLFLLFPILFIKLANLQNKFITFYLFFLIFETITYGFIYILFEVRIRGSYYGILKYFKKINKKFDKKIEMNSLYMMAPLKNIEYIINIEIENLNEKIDDLQKKLEDIKVGGETKFRLKEYQLKGVVSELENMNDMLLKKETYLDDFLKIIKELDRKDLDYDLFFEELLFYLISYLKIKDIAILQKLKKGIKVYSNFYSEAKFDDEMIKRLDQIEDIMIMDKNVNKSLGYNLIIRLKKHGYIFINNFPIKDFKHSLLHTIFITIIYEITNIADNLQHIKKLSGDNLNQKKEISKLKNELQEVENSLEVQLEQITDMYEEIVTLYEAGKSFGKLLNKESAEKITLEMLLEILECEYGAVFWYNKNSLSVSNILVNSEYDEDNREMEKEIKKFSKLFRGFVELKRKGSEIVVDDVKNSIYKDDIKDLEFRVKNFIITPLYHGKDIIGGVAIFNKKDSYTAGNINLTISITNQLGMSVQNIAFLENEIDRKKEEEQLVIASRIQAGLFPTEMPKIPYFEVYGENHPAKAVGGDYFDFVKVSDDLMVGIIADVSGKGIPAALLVSMIRTIFRMVVENIKIYDPSKILEYINDTISKEELDGRFVTAIGFSINSKTKKIKFANAGHDPILYYDSKEKEIMEYDLDGPVLGFMEGMEFEELERDLRKGDVALLYTDGVLEARNDKKEFFEDKRLKDTLDAVKKYPVSYIVRTIHKNVVKFLNGSFQNDDITILTIKGVDKN;locus_tag=LOCUS_07620;note=WP_010942076.1 SpoIIE family protein phosphatase (Geobacter sulfurreducens) [pid:30.5%25%2C q_cov:40.3%25%2C s_cov:29.1%25%2C Eval:5.6e-34%2C partial hit],MGA_762
sequence1	MetaGeneAnnotator	CDS	885474	885830	.	+	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIIDDDDNIRRLLKSTLAGIAEVYEADFGKLGFNIFREESPDMILLDIMLPDTSGVELLQKIRDEDMDVKVVMITAYETIKSVIEIMNLKISGYITKPFIVRDVRQKISKLLES;locus_tag=LOCUS_07630;note=WP_003416112.1 response regulator transcription factor (Clostridioides) [pid:39.5%25%2C q_cov:92.4%25%2C s_cov:48.7%25%2C Eval:8.4e-13%2C partial hit],MGA_763
sequence1	MetaGeneAnnotator	CDS	885832	886233	.	+	0	ID=MGA_764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFMREKIIKVEKTNNNYIATLEFKDDSHHFLLMVKSDLNLKIEESEIDIIKSPYTICNNIKDLVKKVKNIKVEKGFTKAVIKLVGGREGCTHLIDMFTEIGRGLVQADLKRTYEIKGKEGLNKELEKSCLAY;locus_tag=LOCUS_07640;note=MGA_764
sequence1	MetaGeneAnnotator	CDS	886471	886911	.	+	0	ID=MGA_765;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_082285506.1;translation=MKEPRVRVAGILTDENGAILFVKHKKKVKEYWLLPGGGVDYGETFQESLKREFIEETNLEIEVENMVMIFESIDPKLSRHIINIIFVVKRVGGKLKVGDEEILKEVKFIKREDINDILLYPNIKEELIKNSYNKETEIKYLKNRWE;locus_tag=LOCUS_07650;EC_number=3.6.-.-;note=WP_082285506.1 NUDIX hydrolase (Leptospira noguchii) [pid:34.3%25%2C q_cov:92.5%25%2C s_cov:81.4%25%2C Eval:8.0e-18],MGA_765
sequence1	MetaGeneAnnotator	CDS	886911	888599	.	+	0	ID=MGA_766;product=ATPase%2C T2SS/T4P/T4SS family;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460315.1;translation=MKKKKRLGDALVETGVISGEQLQIALEEHKKSGEKLGEAIVRLGFCTKDQMIETLSTQMGFPFIRLERQVIDPKVIQLISEDMARRYKLIPIFKTNNRLNLAMADPLDYFAIDEIEFQTGFEVVPSIAVEDDVLEAIDKYYSSGREKTKLSEFKYDKNSTNKKVESGKIDITEEGDDSPAVELVNVVLKQAIEDKASDIHIEPEEDELRIRFRIDGILHEVMKTPKNLESSVMTRLKIMSKLDIAEKRIPQDGRIELKYKEKDIDVRISTLPTVNGEKIVMRILDKSNVMINLENLGFEKENLEKFRKLIRKPHGIILVTGPTGSGKTSTLYGALNEINTLDKNIITLEDPVEYQLKIINQVQVKSDVGLTFASGLRSILRQDPDVIMVGEIRDKETAEIAIESAMTGHLVFSTLHTNSAAGTITRLIDMGVEPFLISSSIIGIVGQRLVRKICNSCKTEHTAEKEEMLELNLDATKEYKISSGEGCNSCKKTGYKGRTAIHELLIPNEKIRKLIIEKESSGAINKEAIKSGMKTMRDDGVTKILKGITTIEEVIRVTQEEL;locus_tag=LOCUS_07660;note=WP_011460315.1 ATPase%2C T2SS/T4P/T4SS family (Desulfitobacterium hafniense) [pid:47.3%25%2C q_cov:99.1%25%2C s_cov:98.6%25%2C Eval:1.1e-151],MGA_766
sequence1	MetaGeneAnnotator	CDS	888728	889243	.	+	0	ID=MGA_767;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003426450.1;translation=MEKIKDLIRNIPDFPKEGILFRDITTLLKDSDGFKKVIDILAERYKDKKIDYILGAESRGFIFGAPLAYAIGAGFIPVRKPGKLPYNIVQAFYELEYGTDSLEMHTDAIEKGKKVLIIDDLLATGGTAKAIIELVEKLEGDIEEIAFIIELEGLNGRKKLKDYDIYSMIKY;locus_tag=LOCUS_07670;EC_number=2.4.2.7;note=WP_003426450.1 adenine phosphoribosyltransferase (Clostridioides difficile) [pid:58.3%25%2C q_cov:98.2%25%2C s_cov:98.8%25%2C Eval:5.5e-55],MGA_767
sequence1	MetaGeneAnnotator	CDS	889356	891512	.	+	0	ID=MGA_768;product=bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902331.1;translation=MGYASKLFFKIKEEDLPVDVDKIKLAYEFAKEAHTDQYRKSGEEYIIHPIAVAMTLVEMKMDTDTIVAGLLHDVVEDTLIPLEEIKLNFGETVAYLVEGVTKLRNLPAGTKKQTENIRKMIVAMAKDVRVVIIKLADRLHNMSTLKHMTPEKQQRIADETLKIYAPIAHRLGMAKVKWELEDLCLYYLKPEEYRKIISLISSKRKEREEYTEEVKKKLLEEMKKSNIAGEVTGRPKHFYSIYKKMTEKGKSFADIYDLIAIRVVVDTEGECYNVLGILHNIWKPVPGRFKDYIAVPKSNGYQSIHTTIVGPSGKFVEIQIRTLEMHKIAEDGIAAHWKYKEKIKKDKSEHIYSWLKKILEWQDDASSSEEFVQTVTGDILSEEVFIFSPKGDVVELPNGSTPLDFAFRIHTQIGYKCIGAKVNGCIVSLDYKLQSGDKVDIITSKTAKGPGKDWMNLVVTHGAKAKIKKWFKEKEFDERVKEGRFLLEKELINFNIKSKDIEDLEEVKEYIKKHNIPSYNEFLFKIGIGKIDVTRISEKFKSIKEMEEEEKILTQIDEKPKRRRKNQNQGIVIKGVENTVIRFAKCCTPLPGDEIGGFITKGNGIAIHRKDCKNFKELKEKSSDRVIKVSWEEDNTKSYYSVSFVIIVADRSNLLSEIIRIIGEHRINITGVNSMSFKENGEKRANIKMTIEIREKEQFERLTQALNRTKDVIEIRRS;locus_tag=LOCUS_07680;note=WP_005902331.1 bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase (Fusobacterium nucleatum) [pid:53.2%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.4e-220],MGA_768
sequence1	MetaGeneAnnotator	CDS	891561	892682	.	+	0	ID=MGA_769;product=tRNA guanosine(34) transglycosylase Tgt;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902330.1;translation=MLPVKYTLKKTDGKARLGEIETPHGKIQTPIFMPVGTQATVKTMTPEELKEIKAEIILSNTYHLFLRPGDELIAKAGGLHKFMHWDRPILTDSGGFQVFSLGALRKITEEGVKFNSHIDGRKLFISPEKSIEIQNNLGSDIMMAFDECPPYPAEYEYVKQSLHRTTRWAKRCIDTNKHKDRQGLFGIVQGGVHEDLRDISLEELMQYEDEFSGFAIGGLSVGEPKEHMYRILDYITPKLPENKPRYLMGVGEPLDILEAVSQGIDMMDCVLPSRIGRHGTVFTRTGKLVVKNAKYKEDFTPIDEECDCYVCKNYTRGYIRHLFKANELLGMRLATYHNLHFLIKMMDEIREAIAEDRFYEYKENFIKKYTGEK;locus_tag=LOCUS_07690;gene=tgt;EC_number=2.4.2.29;note=WP_005902330.1 tRNA guanosine(34) transglycosylase Tgt (Fusobacterium nucleatum) [pid:69.0%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:8.7e-154],MGA_769
sequence1	MetaGeneAnnotator	CDS	892683	893972	.	+	0	ID=MGA_770;product=16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016304.1;translation=MNVKVRVIDILNSVDEGKYSNIVLNAYFNSNSVEEKEKGFMTELFYGVIRNKIFIEYIIGKFTKKVKKKWMYNLLKISIYQGFYMNSDIKGVVWEAAEVTKNKYGIEMSKFINAVLRNIFRNIDNIREELENEERYDILYSYPEWIYKKLKKEYPENFLEVMESYKKVAKMSFRVNRLKYSEVEFEEYLEKNGINILKKVDSVYYVDSGKIINTDIFRSGKVIVQDGSSYYAAKLLGAKQGEKILDCCSAPGSKAMVMAENMNNIGEITAIDIYKHKIKLIKQNKKKCGAEIVLPRLHDATKIKGEFDKILVDAPCSSIGVIRKKPETLYNKEYKNIKELAKLQEEILENVSKSLKVGGELIYSTCTIFNEENGDNIKKFLENNKEFKVEKIELDDNINYSYDEIGGIKIGYKEEFLDGFYIIKLVRGE;locus_tag=LOCUS_07700;gene=rsmB;EC_number=2.1.1.176;note=WP_011016304.1 16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB (Fusobacterium nucleatum) [pid:55.9%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:3.9e-132],MGA_770
sequence1	MetaGeneAnnotator	CDS	893978	894607	.	+	0	ID=MGA_771;product=O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016305.1;translation=MIEELNELNSYIIDKIEENDELLLELEKYAVENRVPIVTKEVAKYLEFMAEILKSKNILEIGSAIGYSGIILAKVAKKYNGKLTTIEIDEDRYNIAKINFEKAKLTNVNIILGDALDVISGLDEKYDFIFLDAAKGKYMDFFKKSYEKLNAGGVVFIDNILFRGYVNKIDYPKRYKTIVKRLNEFIDYLYKNHDFVLLPFGDGIGLVKK;locus_tag=LOCUS_07710;note=WP_011016305.1 O-methyltransferase (Fusobacterium nucleatum) [pid:55.1%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:2.5e-59],MGA_771
sequence1	MetaGeneAnnotator	CDS	894604	895317	.	+	0	ID=MGA_772;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016603.1;translation=MRLDKFLTECGLGSRTEVKKIIKKGIRINGKIVKNGKFQLDEFNSEVEVDNKRVEYKKYRYYILNKPQGVITATEDAREKTVMDILPTDVIKKNLIPVGRLDKDTEGLLLLTNNGELAHNVLSPKKHVKKKYFVKCEKEVNLADIKLLENGVDIGNYITKPAKVELLNEKEINLEISEGKFHQIKRMLKAVDNEVIYLKRVEFGELKLKDFNLGLGEVVEVSEKDIIGKDIIEKEGE;locus_tag=LOCUS_07720;note=WP_011016603.1 pseudouridine synthase (Fusobacterium nucleatum) [pid:54.8%25%2C q_cov:93.7%25%2C s_cov:97.8%25%2C Eval:4.1e-59],MGA_772
sequence1	MetaGeneAnnotator	CDS	895324	896661	.	+	0	ID=MGA_773;product=sodium-dependent transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008762587.1;translation=MGEIKREGFANKIGAIAAIAGSAIGLGNIWRFPYMAGSNGGGAFLFVYLICIAILGFSVMMAEFILGRAAQRNVVGAYGKFGNKNWKIVGYIANITGFVLLSFYGIIGGWALKYIYLSITNSFSGKTSTQLGAIFSSFIGKGMQPLFWYILFMALTAIIILSGVQKGIEKASEIMMPLLFGIIIILAVRALFLPGAKEGLKFLFAVDFSKITGKVILSALGHSFFTLSLGMGTMVIYGSYIKEKTKLENVALQVIIADTLVAILAGIVIFPAIFTFGINPAGGPGLAFITLPNVFLKITGGYFIAILFFALLSIAALTSSISILEVLVAYFVEEKNIDRKKATIVTTIVMIMVGIPASLSLNPSRHLIFGGKSIFDWFDFFTGTLMLPVGGLFVSIFVGWFLDKNIIKKELKDNQLLMKFLSFTLKFIAPITVFIVLINGLGIIK;locus_tag=LOCUS_07730;note=WP_008762587.1 sodium-dependent transporter (Bacteroides) [pid:45.1%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:2.2e-109],MGA_773
sequence1	MetaGeneAnnotator	CDS	896946	898112	.	+	0	ID=MGA_774;product=chorismate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942670.1;translation=MLRYLMAGESHGKALTAILDGLPAGLEILEEDINKDLARRQKGYGRGDRMKIETDKVEILNGVRWKKSLGDPITLMIRNKDWENWSMKMSSGEDYFESMKDIIITKPRPGHADLTGYIKYNQYDVRNILEFASARNSAIRVAIGAVCKKFLSEFGVEIFSYVTEIGGIEADYKNMSYDEILNNIDEDMLKTPDKSAEKIMIEKIRKAKKDGDTVGGVFEVVARNLPIGLGTYTQWDKRLDGNLAASLMSIQAIKGVEIGMGFETAKKLGSEVHDEIFYSEDEKFYRKTNRAGGLEGGMSNGEDIVVRAAMKPIPTLYTPLNSVDIETKEPFEASVERSDASAVPAASVIGEAVVAYELAKSFIEKFGGDSMEEIKRNYESYKNYVKNI;locus_tag=LOCUS_07740;gene=aroC;EC_number=4.2.3.5;note=WP_010942670.1 chorismate synthase (Geobacter sulfurreducens) [pid:58.3%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:3.0e-128],MGA_774
sequence1	MetaGeneAnnotator	CDS	898122	899912	.	+	0	ID=MGA_775;product=bifunctional homocysteine S-methyltransferase/methylenetetrahydrofolate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963614.1;translation=MDIREYLKENRYLITDGAMGTYYSQITKKYTTFSEVANLDEPEIIEEIHKEYIKAGAKLIRTNTFSANSYVLRCDMEKVKKIIEAASNIAKKAVGEKEILIAADIGPIISTKEEESNEVIKEYKVIIDSFIEQNLDIFIFETFSSYEYLEELSKYIKEKKSNAFILTQFALMPNGYTRKGISGDRLIKNVKKISTIDAYGFNCGTGPMHLYNNLKKLNFNNDIISVLPNAGFPEIVNERTVYTQNPEYFSELMKDIAGLGAKIIGGCCGTTPEHIKAISEKLIGTSIEIELKEKRYKKKEVKIEKENKNNFREKLQKGKFVIAVELDPPFGIDTSKIMNAARIFSESGKIDTITVSDSPIGKVRINSLMIANKIKRELGMEVIPHICCRDRNIIALKSDLLGANIENLQNILIVTGDPIPSEDRNEIKSVFNLNSMELIKLANELNKEKFSDNKFFIGGALNLNVLNKGVEWKRMKKKRSLGAEFFLTQPIYDDTAIEYLKSKNHKSDTKILAGIMPLVSYRNAQFLNNEIPGITIPEYYLSQFKNNMTREEAQEVGIKIAVEIGQKLKKYVDGFYFITPFNRANMILDIIKRLEI;locus_tag=LOCUS_07750;EC_number=1.5.1.20%3B 2.1.1.10;note=WP_010963614.1 bifunctional homocysteine S-methyltransferase/methylenetetrahydrofolate reductase (Clostridium) [pid:52.3%25%2C q_cov:99.3%25%2C s_cov:98.8%25%2C Eval:7.3e-175],MGA_775
sequence1	MetaGeneAnnotator	CDS	899974	900162	.	-	0	ID=MGA_776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIGSVSSQAGYFSLNQSNNLSRSEMEQLIQAGNQIKQAPTNQKLVNQVNKSYANMHLDIYG;locus_tag=LOCUS_07760;note=MGA_776
sequence1	MetaGeneAnnotator	CDS	900200	902011	.	-	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYILISIFIIFNINIYAININDYVIFSKAEKLYESNKFDVSETLLENLFKNYSDSNLIKSTYPHYFLGKILFQKKDYKNAIKYLKQTTYHKYEVYFLLGKSYSNINKDLSLSYYSKLFSKKYNSKKVKYEKLALQDLALSSNKYKNIYQIKYLHNFKNIKKLSYNQLIDISDFFFSVGKYNYSKKLYKFAEKLKPTNSLEIKIIKTLFSKKEYPNTILYANNILKNNIYKSKIYYYIGSSYRRVGKLDKAILYLKKVKITSLLPKVNYIIGKLYYFEHKYDKSLKYLNLSNYLEAYGYKLKIYSKLKNSKEYYIVLNEMLKKSLYSDLSAEYRYKTYLKTKEKKYIEEIIKYNYNSYYYELAKNILEKQHIKKKYNLEDKLKTYSHLILKLNAIADLDFYEGCLIEINQFKFNKNEGVLKNYLKVKYLEKSNFYHLALKQSYKYYYSFSRYNEFTQYLYPKYYKEFVEYYASKSNLEPELIYSIIKQESNFKDDEISNSSAYGLMQLILPTAKSFQKNILYEDLLDPELNIKIGTKYLKLLYKKYNGNLIPIIASYNAGETNVNRWIKKHKKLTIDDIPFAETKNYVKKVLNNYYKYKELYR;locus_tag=LOCUS_07770;note=WP_164920783.1 transglycosylase SLT domain-containing protein (Thermosynechococcus vestitus) [pid:35.6%25%2C q_cov:23.2%25%2C s_cov:21.4%25%2C Eval:4.6e-15%2C partial hit],MGA_777
sequence1	MetaGeneAnnotator	CDS	902200	902793	.	+	0	ID=MGA_778;product=bis(5'-nucleosyl)-tetraphosphatase (symmetrical) YqeK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016520.1;translation=MKKLNIKKHLKNILSEKRYEHTIAVAETSVKLAKIYGEDINKIEIAALLHDCAKNLKLSEMKRLIGRESELTKVEYNLPEILHGFAGAIYARNIFKIEDKDILNAIKYHTIGRKNMTMIEKIIYIADVIEPGRKCGNVDKVRKLAYKDIDCAILQEMKNKINYLLSTNRVIHTNTIDMRNSILLKKRNGKKDENISC;locus_tag=LOCUS_07780;gene=yqeK;EC_number=3.6.1.41;note=WP_011016520.1 bis(5'-nucleosyl)-tetraphosphatase (symmetrical) YqeK (Fusobacterium nucleatum) [pid:44.9%25%2C q_cov:92.9%25%2C s_cov:95.9%25%2C Eval:4.4e-39],MGA_778
sequence1	MetaGeneAnnotator	CDS	902774	903442	.	+	0	ID=MGA_779;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941118.1;translation=MRILVVEDEKNIAEYLKKGLQESGYVVDTVFDGEEAVYMASIYEYDLILLDVMIPKLDGVGVIKELRKNKNSSYVIMVTAKDKIEDRVKGLDAGADDYITKPFAFAELLARIRAVLRRGSDDKENILKVKNLEMDLVKREVKREGKLIELTSREFSLLEYFLRNKNMVLTRIMISERVWDIDFITETNVVDVYINHLRKKIDNNFKDKLIHTIRGVGYILKD;locus_tag=LOCUS_07790;note=WP_010941118.1 response regulator transcription factor (Geobacter) [pid:57.7%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:4.1e-71],MGA_779
sequence1	MetaGeneAnnotator	CDS	903529	904806	.	+	0	ID=MGA_780;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941119.1;translation=MLKKYTFSDVDSNLKTTSQIIKNSIQKKFTPFDFYFGDIKDLIPKDISVAIVDENGAILYKNNNKLKIKFSKEDLSKIFNYKLIYKDLNDYRIIINPYKFYGRINFLILGKNTKRLTELNRNIIFLFFIIMFFIAVLLIILTTDTINRILKSIQNITKVAEKVENNSLQYRIENRYNTKEIDELVKTLNNMLDRIEDGFLKVKQFTSDVSHELKTPISSIKNMLEVELLETRTAKEYKEVIIKTLEQINWLSNIVNDLLLMTRIESGKESLNIEKFNLSNVIIELIELMEGIAEEKEVTILFEGEKNIFIEADNNKLKRVILNMMSNGIKYNKKNGELKIEIKELENNIEIIFGDTGIGMKKENLNKIFERFYREDKVRTIRKSGTGLGLSIVKFIIEKHKGKIEVESIEGFGSKFRIILPKNYN;locus_tag=LOCUS_07800;note=WP_010941119.1 ATP-binding protein (Geobacter sulfurreducens) [pid:31.9%25%2C q_cov:88.0%25%2C s_cov:81.2%25%2C Eval:6.9e-49],MGA_780
sequence1	MetaGeneAnnotator	CDS	904909	906372	.	+	0	ID=MGA_781;product=bifunctional metallophosphatase/5'-nucleotidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228601.1;translation=MIRILKTLLLFFLLIVSLVGCGGTKEKKVAVIFTSSIEGRIDGINTDKGKFGGIVNIAEEIRIKRKELEENGYKVLLMDTGNSLSGTYYGSGDNIYNIYEKIGYQVIGIGARELELGIDKVGEFNKKGKLKFVLTNISEIDKYANEEVTIKINDVKISILNFIDYESQNNYKRELKGLKAYSAIGEVALKKVDDVSKKSDVVLVINNGTPVMKYKYLNTNIKNLINISRHDFKNRNIYNLKRYGQELGVITFAYNRNGKIIKNFKIEKFPITEMKINNAKDIEKLLEYEKQSKQQEGETVLGKSNIILDRDNSYKEESPITNFVCDVLYEKYKNKGVKFVLINNGSVRKPLLKGNITKKDIFNVIPFFNYSTILDLKGKDIQRILEKQNEFYGRIRMQSNLGVIQKISKNKLEVYLNGKKLEDEKYYRILTTNYLANGGDDCTEFANKINTEYGNLLREDVEEYVRKKKIIDYKFKKRILKLGGQND;locus_tag=LOCUS_07810;note=WP_011228601.1 bifunctional metallophosphatase/5'-nucleotidase (Thermus thermophilus) [pid:22.4%25%2C q_cov:83.0%25%2C s_cov:81.9%25%2C Eval:3.5e-15],MGA_781
sequence1	MetaGeneAnnotator	CDS	906365	907366	.	+	0	ID=MGA_782;product=adenosine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948672.1;translation=MIDFKKVKKMKKAEIHLHLDGSMRIETILDLAKKDGIELPTYNFDEFRKYVEVEKDNSSLIEYLKKFELPLMVLQDSKALERTAYELIEDLAKDNYIYVEIRFAPLLHLNNGMKAEEVVESVLRGLKKAKEKFGVESGLLLSVMRHMSVEDGKKVLELGKKYKDSGVVGLDMAGDEKNYSPLIFKEVFEEAREAGINFTIHAGEAAGVKSIREAIELGAKRLGHGIRAFEDEELLKEIKEKNIVLEVCPISNFQTKVLADFHDYPIKKYLKMGIKLSLNTDNRTVSNTNFIKELKFLEKYFDFENEEIEEMVRNSVRFSFAKEETKKRLLEEL;locus_tag=LOCUS_07820;gene=add;EC_number=3.5.4.4;note=WP_011948672.1 adenosine deaminase (Clostridium botulinum) [pid:46.0%25%2C q_cov:94.3%25%2C s_cov:94.0%25%2C Eval:2.4e-75],MGA_782
sequence1	MetaGeneAnnotator	CDS	907368	909482	.	+	0	ID=MGA_783;product=ribonuclease R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016521.1;translation=MRDDKDIIYFLSENKAKGINEIIDSLGMSRKNKKKISKKLEELEEAGEIVKIKGNRYTTPEKAGYLKGKFQISRGSFGFVDGENESVFIPRGKFGTAMSGDTVLVNITVQGTARKKSEGEIVKIVKRSSDKVIGIFQENRNFGFVVPTTKMGKDIFISRKYFKNAKNDDLVLVEVLNWGEKAKKPEGKIIEVLGDPYDTNVMIDALIKRNGYSEEFPEEVKKELENITEPSEEEKKKRRDLRELALITIDGEDARDLDDAVYVEKLENNNYKLIVSIADVSYYVKEGSELDKEALNRGNSVYLVDRVIPMFPRKLSNGICSLNEKVDRLAYTVEMEINEKGKVLFVDTYKSVINVKHRMTYGSVNKILKDDSSEIEKYRDIYDMLKKMRKLSDILRNKRLKRGSIDFDFKEKKVVLNKKEKVEYIKVRSRDLSESLIEEFMLSANEAVAEKLFWYEIPSIYRIHEKPDLDDIKALNKILMNFGYKISNINELHPGKFQKIIEDVKDKEYSMLVNKVILMSLKQAKYNLENLGHFGLAASYYTHFTSPIRRYSDLIVHRILDEVESGKINKKRSLYLEKFIDKAAKHISTTERDAEKAERESVRIKIVEYMIDKVGNEYNGIITGLNKNGMFIELENYVECFFNTNNAKDEYIFDENKNKVLEKNRNKSYNIGDAIKILVVRAELKDLSVEVIPFEGEENGDSSK;locus_tag=LOCUS_07830;gene=rnr;note=WP_011016521.1 ribonuclease R (Fusobacterium nucleatum) [pid:49.5%25%2C q_cov:92.5%25%2C s_cov:93.0%25%2C Eval:2.4e-180],MGA_783
sequence1	MetaGeneAnnotator	CDS	909463	909906	.	+	0	ID=MGA_784;product=SsrA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016522.1;translation=MAIAANKKAYHDYTILEKLEVGIELKGTEVKSVKAGKTSIKESYVKILKDEVFILNMYIGSYEFGNIHNVDERRTRKLFLHKKEISKLAGKVSAKGFTLVPLKVYQKKRLIKLEIGLAQGKKLHDKREVLAKRDQLRDINRELKNYR;locus_tag=LOCUS_07840;gene=smpB;note=WP_011016522.1 SsrA-binding protein (Fusobacterium nucleatum) [pid:57.2%25%2C q_cov:98.6%25%2C s_cov:98.0%25%2C Eval:1.1e-43],MGA_784
sequence1	Aragorn:1.2.38	tmRNA	909913	910258	.	+	.	ID=Aragorn_25;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm00010;note=Aragorn_25
sequence1	MetaGeneAnnotator	CDS	910367	912883	.	+	0	ID=MGA_785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIKTTLYVLLFLSINLLGFGNVNKELVRLEINETARGFTKDQVWKKIPFTVPYETEIKITVIASTDSNGKRNDDDLKWALDENDFGWATERAWDGRTLNGKKKTVVVTTRLNAGDHYLKFWADQTPTLYSIKIEYKAKNTIKELKMKDYRYIDGMGIKLLWEPVEKANGYKIFKKSKKYSKYSEVAEVKVPFFMDAFVTPGDIYDYKIAVLNKAKRISFYSKSMTIEVSEKIPPKVVSDLKVISKKGVVYLDWNQNTEPDFASYNIYRKGKNDLRYSKYAIALDNRYEDKKASEMKKYSYRITAVDMNGNESGMSKEVTVLVKPKFYRPQGVGDIYPKEFYPGDTITIYFSPRKSTQIRKRRLRAKRRDPKIRPLPKQMYVHYGLNNWDPDYTIAEAKDPKMTYDKSISAWKYEMKVPIITKEIDFVFKDELDNWDTNWSKDYKYKAAKDKVPPSAPTKLTSIPKYKLVYLEWAPNEEADLSYYKIFRSSTKNGKFVPITAKLKSNYYRDIDLTPRSTHFYKIKAYDVNDNESEFSNMTEAKVLEKGIELNKPCTWNPKVPGMGEKVKIYYSQHLGALKESKKVMIKIGVNDWDTLKKPIKNYDMKYDKILDGWYYEYNVEPGVYTVNVAFTDGLLWDTNFGMNWNIKVMPDKEPPTNVVGLKAIPEADRINLLWKANTEKDLAGYNVYKNGNKLNNALIKEAKYEDVAVESGVDLNYSVTAVDMYGNESIQTAITTKTLRDIITVPETVYMSTLANNRLRLIASFDTIVAWEIKVVDSNGNLVNKFNGRGSNAIAVWYLNDINGKRIKVGKYKYIVSVMGDESIMKKEVQIQIIK;locus_tag=LOCUS_07850;note=MGA_785
sequence1	MetaGeneAnnotator	CDS	913049	913837	.	+	0	ID=MGA_786;product=flagellar basal-body rod protein FlgG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880505.1;translation=MMNSLWSAASGMLAQELNMDVISNNLANTDSVGYKKSRVDFQDLLYQTKSVPGSLNAEGTSLPIGIQVGNGVRAIGTQKIFTDGEYTETGNDYDLAIQGQGFFQVLMPDGSMSYTRNGSFKITDTGQLVTADGFPLEPSITIPSDGTKMSVGSDGTVSVMRGNSNTSEEIGKIELAKFINPSGLMNIGKNLLTKTSASGDAEIGTAGDNGFGSLSQRTLETSNVKVVEEMVKMITAQRAYEVNTKSIQTADSMLQMANNLKR;locus_tag=LOCUS_07860;gene=flgG;note=WP_010880505.1 flagellar basal-body rod protein FlgG (Aquifex aeolicus) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.3e-79],MGA_786
sequence1	MetaGeneAnnotator	CDS	913846	914805	.	+	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYFLIIMFFFLLFFLGEVTFGEEIKIKNSIRVTNNIIMLSDILKTDNKNILEKAKEVQIGYSPKVGEEKKIEKEYINLKIKQLNLDDKIKIKIPDYITITRNYQILTKKIFKYMVLEELNSIYKNSGFSLELKLDMNEELKLPVGNIKVKFGNNRLSDIKIGNYNFTVKIFVNDKVEKIIRTNLKVGILKEVYILNRDVKRNEKFSIEDVIKIKKIFINNYYSANIEGVNEIKGKLYRRNLRKGEILKYKDFIKEKIFKRNSLVTIYVDYNGIKLKATGKALEDGYIGDNIRVLNINSKKIINGIVTKEGMIKLEIK;locus_tag=LOCUS_07870;note=MGA_787
sequence1	MetaGeneAnnotator	CDS	914946	915374	.	+	0	ID=MGA_788;product=division/cell wall cluster transcriptional repressor MraZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723756.1;translation=MFMGEFKHNMDSKGRVMMPSKFREEIKDGNFVLTRGLENCLFLYPIEEWEKLEEKIKGLPLTKKDARAFVRFLFSGAIKENLDKQGRIKIPDNLLQFSKIEKEVIITGALNRIEIWSFDNWNSYIKEAENSFEEIAENLIDL;locus_tag=LOCUS_07880;gene=mraZ;note=WP_003723756.1 division/cell wall cluster transcriptional repressor MraZ (Listeria) [pid:60.7%25%2C q_cov:98.6%25%2C s_cov:97.2%25%2C Eval:1.8e-45],MGA_788
sequence1	MetaGeneAnnotator	CDS	915384	916313	.	+	0	ID=MGA_789;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015778.1;translation=MEKEYHIPVLYKEVIDNLVINKNGVFVDCTLGGGGHSEGILKNLSEKGHLIAMDQDEEAIKFSKERLEKFKDKISIYRDNFSNIDTVVYMAGYDKVDGILMDIGVSSKQLDDGERGFSYRYNAKLDMRMDKRQELTAYKVVNEYPEEKLVEILYKYGEERFAKRIAHFIIEKRKEKPIETTFELSEVIKRGVKGKSKKHPSRKTFQAIRIEVNKELEVLEKTIDKSIDLLKKGGRLAIITFHSLEDRIVKEKFRNLENGCTCPPDFPICVCGFEPKVKVITRKPIIPNENEVEENFRAHSSKLRVVERV;locus_tag=LOCUS_07890;gene=rsmH;EC_number=2.1.1.199;note=WP_011015778.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Fusobacterium nucleatum) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:1.1e-111],MGA_789
sequence1	MetaGeneAnnotator	CDS	916318	916680	.	+	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDNTARKEEYFYSYDNENITNKNNVVNKSQKQKNNFVAVLFFSILISLVSCIYVNLIMKEIEAGKQLYKLKIEKKNLIKNISLLQSKIDGKMDLNKIRKIAEKELGMEIYNQIQYLAVK;locus_tag=LOCUS_07900;note=MGA_790
sequence1	MetaGeneAnnotator	CDS	916982	917446	.	+	0	ID=MGA_791;product=nucleoside-diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886554.1;translation=MEKSFVMVKPDGVQRELVGEIIGRFEKKGVKVIGLKLMVISEELARKHYAVHEGKSFFEELIKFITSGPVVAMVMEGEGVIGVIRKMVGATKPGDADPGTIRGDFVLDAGQNIIHASDSKENAEREIDLFFAKEEIIEYSLAVRPWIYSLPKID;locus_tag=LOCUS_07910;gene=ndk;EC_number=2.7.4.6;note=WP_010886554.1 nucleoside-diphosphate kinase (Bacillus) [pid:59.5%25%2C q_cov:96.1%25%2C s_cov:99.3%25%2C Eval:1.0e-48],MGA_791
sequence1	MetaGeneAnnotator	CDS	917612	918589	.	+	0	ID=MGA_792;product=thiamine ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048053820.1;translation=MKKTLVLLGTLFMMTLLFAQEEVTIYTYDSMGWINDKVVTQFEKENNCKVKVVKFSSTGNIVARLKMEKKHNKADLVIGVTPVMLNALKKEDLLVSYKSKFIKNIKEKEIIFDNEFYVTPYDYGAIAIVYNPENMKSIPKNFKDLTKLKKKLIIEDPRTSTTGQDFLLWTIAVYGENWEQYWKELKPAILTVAPGWSEAFSKFEAGEAPMMVSYGTDGAYSYQYYKSTKYKALIPDDGGFIEVEGVGIVNGSKNIELSKKFIDFMLGNKFQKEIPLNQWMFPVTNIKLPESFKYAVSPKKVVLVSGEEISKNMKKWLGKWEKIME;locus_tag=LOCUS_07920;note=WP_048053820.1 thiamine ABC transporter substrate-binding protein (Thermococcus kodakarensis) [pid:41.7%25%2C q_cov:94.2%25%2C s_cov:82.8%25%2C Eval:1.5e-66],MGA_792
sequence1	MetaGeneAnnotator	CDS	918602	920140	.	+	0	ID=MGA_793;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146673.1;translation=MKKKSFSINMIVLIIWTIPFIFFLKDFFKVSELIKLFNYKLLKILYYTVLQSAISTVGAFVISLAPAYFFSKKENLLSKLLGSTIVIPFFFPVVSAIVSFSIIFSFPLLKKIGLMYSFWAIIIVHIFYNSPIYVKYLGEGLKKIPRNIIEEAEIIGAKKRDIFFKIELPILASAILKATFLVFTYCFMSFAVVLALGGIKYSTFEVAIVTSLMGEFNFSKAFIYAFIQFLFLFLFNSLLNRVGNENYELGMENKKEKKINVIILIISIFYLMFEFGVIIISVIYSFYDFFNSRFDFSAVNRVFFGDISKKFRVYSSFWNSISISFFVAFIVVIFVYLILKNKNKFISKFVVAAISISPAFLAMALLYMNILFDINFFILLFWGYLLITVPIGYSFLYQHITGFDKEIIEAAKLDGATNFKMFYYIEAPILFPVFIGTFLQLFAIIYGEFTLAYAMQVQEYVPLVSILNYSLSSRRLFKESAVISAVNIVIILSIFVISEMMISGEKKSRKEK;locus_tag=LOCUS_07930;note=WP_048146673.1 iron ABC transporter permease (Pyrococcus abyssi) [pid:25.2%25%2C q_cov:97.5%25%2C s_cov:98.7%25%2C Eval:5.5e-35],MGA_793
sequence1	MetaGeneAnnotator	CDS	920240	921073	.	+	0	ID=MGA_794;product=flagellar basal-body rod protein FlgF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002557363.1;translation=MLRGIYTSASGMIAQMERQDTIANNLANVNTTGFKKDQSVIKQFPELMLYRKDDEKEITNFGETSILTKIGALGTGASLEGVYTEFSQGSLEKTDNNLDFAISGDGLFAVESKGSVKLTRSGDFALSPEGYLITKNGEKVLGSSGSQLGYIKVSNSNFKITKSGILKNAKIEASNISAKNISLDGNSGDSLLLLKVSDNKNLKKIGDNLFDISNVKTITQDNSSKMEQGFIEHSNVSSIKEMVEMIEVSRAYETNQKVLTSQDETLGKVVNEVGKWG;locus_tag=LOCUS_07940;gene=flgF;note=WP_002557363.1 flagellar basal-body rod protein FlgF (Borreliella burgdorferi) [pid:37.6%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:5.4e-48],MGA_794
sequence1	MetaGeneAnnotator	CDS	921111	921818	.	+	0	ID=MGA_795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRILKLTILVTFILNIFLFSGCTLFKKKEKKVVKLPVEKPIEEKYDELYKQPIEKEKTEEERLSYASQYNSLFSDNKARHVGDLVAVIIRENASAQQTTSDSRNKNGTLTGAAGTGFLNFLPEMSASGKTSLANSGTTKRSGNLTARVSARIIKIDKYGNLLLKGNRKVLINNEIQEIEIEGFVRSEDIAVDNSIESSYLADARVKYNGKLVFDGKANPGVISNVLGSLVGFFF;locus_tag=LOCUS_07950;note=WP_004081924.1 flagellar basal body L-ring protein FlgH (Thermotoga maritima) [pid:32.6%25%2C q_cov:71.1%25%2C s_cov:85.9%25%2C Eval:5.3e-19%2C partial hit],MGA_795
sequence1	MetaGeneAnnotator	CDS	921884	922879	.	+	0	ID=MGA_796;product=flagellar basal body P-ring protein FlgI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081923.1;translation=MGKKIKFLILIMLIINTISVYSAEKVRLKEIARIQGVRSVQLIGMGIVIGLNGTGDKSSLTPQMLQNLFKYFGTNIARAQIKSSNVAAVMVTTTLPPFKKVGDTIDVTVSSINDAKSLEGGILIQTLLKGPDGSVYAAAQGSLTKVNNKTTNKVNGFLSNGAIVEKEIKAEIEHNDKLVLVLNNPDFTTSSRVADVINKRFGLDSAKAVDAARIEIKKPYSFENDIVSFISSLESIEVEPDRISIIVINEKTGTIVLGENIKVAPVAISQGNLNITIPGSSSSGNSFYFNGPTVKDIVKVLNSVGATPNDIISILQSLKVAGAIDAKIKIM;locus_tag=LOCUS_07960;note=WP_004081923.1 flagellar basal body P-ring protein FlgI (Thermotoga maritima) [pid:39.5%25%2C q_cov:98.5%25%2C s_cov:99.4%25%2C Eval:8.3e-65],MGA_796
sequence1	MetaGeneAnnotator	CDS	922893	923201	.	+	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDYLKLTMPNKIDVPKTKQEKALKKTTEEFESIFLKMMMDEMDKTVDRKNSMFYGGNAEDVFRGMLNQKRADSWSKSGGVGLAKVMYEQLSKGLHEGGKK;locus_tag=LOCUS_07970;note=WP_010943672.1 rod-binding protein (Geobacter sulfurreducens) [pid:43.4%25%2C q_cov:73.5%25%2C s_cov:59.5%25%2C Eval:1.2e-09%2C partial hit],MGA_797
sequence1	MetaGeneAnnotator	CDS	923198	924616	.	+	0	ID=MGA_798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNFLFFFFLIQISVFSVEIMNLDEIMPNMDGYGYTVFENKFIEKFNVKLLKIVKGKGTIPYYILAKVYGDNIYKAGGIIEGMSGAPIYVNKKLVGALSYTLNSINNDIGIITPIKYMLSLGEGNSNKDSEYVRPGTAISITPFRGDIYMDNIGTLTYVKNGEFYALGHSFQNLGDIKYFLNKAVIEYSLNAKSNPFKTGYSTETIGSVLEDKSSGIYGVLTDNIETYKFNLNINGKKCKFEMPKDKVTLNKFLSKGIELALNSKLDNIGFYTLTYKYDILKKDKKIASKENIYTFDNNFFENSGMIIGSEILNEVDNQYKFLDFDRVNININADKNIKIIYINDFTLDKEIYKLGDTAILSLKYHIYQGKDLKKNIPILIPSDFQVGSFVIEISPLNSQGNDTEQTGNNNQNSNNGLNNILKIEIKDGDSKSIFSKKIKFSYKIDLENNLTKNIVIDSFEANSNSSEEKN;locus_tag=LOCUS_07980;note=MGA_798
sequence1	MetaGeneAnnotator	CDS	924616	925374	.	+	0	ID=MGA_799;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880179.1;translation=MVFFFEKLGAIFIFLMKALVGVITYFFNKNKLIKKSFIEQIYSIGVLSFPMVAIVSIFMGMVMIIQLVPAFKEFGAESFVSGAVSLAITRELGPVITALIMAGRVGSAITAELGSMKVTEQISALEVMAVDPISYLVSPRIFAGMIMLPLLSIISDVFSIFGGYFIGVYATGLVSGIYFSNMRLLITSTDIFGGVLKALFFGIIIAAVSSYKGINVKGGAEEVGKATTDSVVISIVLILIFNFFLSYLIFAQ;locus_tag=LOCUS_07990;note=WP_010880179.1 ABC transporter permease (Aquifex aeolicus) [pid:42.4%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:3.8e-50],MGA_799
sequence1	MetaGeneAnnotator	CDS	925407	926048	.	+	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVFVMIFLLGASVGITVYKKNKNKELEVLSSVLKETAIELDAKDPYFNGHTKRVIEGAIKIAKEIGLKKKDITEIELSGYLSEIGKIRIPEKILLKRDKLTEEEYNIIKKHPVIAYKMIENVKELNKVGKIVRAHHERYDGTGYPDGLEGDYIPVGARILSLVDAYDAMISDRPYKEKMTEVEVISELEKGKGKQFDPKLVDIYLEILKKS;locus_tag=LOCUS_08000;note=WP_012582640.1 transporter substrate-binding domain-containing protein (Dictyoglomus turgidum) [pid:45.3%25%2C q_cov:80.8%25%2C s_cov:22.3%25%2C Eval:1.3e-42%2C partial hit],MGA_800
sequence1	MetaGeneAnnotator	CDS	926112	927953	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLVKGNNKGEVLEKVSKHFKTKIENVKYEILNEKKGLFGKVKEIEMRVWVEELEEKASNKKNAVKKDKNKEKKSEEPNKFFEIKILKSGIYLNVKSEFLEYGLDQSVLMDELAMREIKNPDVESILEAVSSKNNEFVKIAEYDPEYYIDANVKVDILKKGMKAVVNVSPPNRGNHVTYEKIISELKLKGIIFGVNDNEIKKISKEKIYNQDILLAEGKQPENGEDAKIIYLFDTDTEINISKDEKGNVDYKELDIIQNVTKGQVLARKVPATNGEPGMNILGEIVPPKKGKDKKLPKGKNTLIGESEEYLVAEKDGYVSLVGNLITVSDVFIINENVDYSTGNISFNGTVFVKGNVIDGFKVEANYDIIVNGIVENSYLESKGNVSVKNGIIGKEEGIGKVIAEGNIKSKFIENGEIISGGMVFANNILYSKVNAKDTINVTSKKGKIIGGKIVAGREVIARVIGSKMGGAVTEVEVGVFPEYRERLKEIENDLLKKLKEREKNTVELNTLKKLKENNKLPDDKNKLLLQRTKQQFVYAKDIFSLEKEKEKLKEILKKGKNGKIHVLDEIYEGTIIRIGDHQLLIKDSFKYVTFYVDIERDEIAILPCEV;locus_tag=LOCUS_08010;note=WP_004080991.1 FapA family protein (Thermotoga maritima) [pid:28.1%25%2C q_cov:72.4%25%2C s_cov:96.7%25%2C Eval:2.9e-33%2C partial hit],MGA_801
sequence1	MetaGeneAnnotator	CDS	927956	929482	.	+	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGIVVLLFIVVSNLGFALPNYAPINPKLLEKKRVLNRNMGTTRMQENIKKNLEKSVTTGELKAPVILIEFSDKKHSNLHDKEYYSNLLFSDKEGSMKDYYEKNSYGKLNNIHGEIVNWVESDKTMGYYGLKDDSADIQNLVIEAIKKAAQYINFSNYDLNNDGYVDQLIVIHSGEGEEKSGIATDIWSHEWNLKTPYEVDGVKISKYTMQSEYSPVGIFAHEFGHALGLPDLYNTTTGGTAVGKYSLMDYGSWNGPNADGTSPSYMSAWEKVFLGWITPIDLNYADRNGTYMIKDIEENNINSVYRIYIKGKEEYLLIANRQKKGYDKYLPGSGLLVYHIYEGEINGESLEQSLKSNDINGKIPMRVKVLEANGKNDLGQSGNDGMNYGDAGDYFNSSAFTQLLSMKNNGVNSCIWNFSNNSYGLNSGVSLTEISSSKSVMSFKFSDIGLDFNGDGKVDGNDIKKVISTADNLGTDLDYDYDKKLDENDLEGYKDRFIRGLENAKIW;locus_tag=LOCUS_08020;note=WP_012582976.1 M6 family metalloprotease domain-containing protein (Dictyoglomus turgidum) [pid:32.2%25%2C q_cov:85.0%25%2C s_cov:44.0%25%2C Eval:1.7e-44%2C partial hit],MGA_802
sequence1	MetaGeneAnnotator	CDS	929492	929941	.	+	0	ID=MGA_803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKINIYIFVIITLLFSGCLKDSKLQVNLEKNDQISGNMEAAMSNVSKDGKYSFGDIVNIDLKAITDTKFMSFDIICNTNNLILTNIKKDGFSDSNFVSSYQIKNGYRLFFWDLKNNLKKDDNFAKISLSVRNYGVENIKIDNFIKE;locus_tag=LOCUS_08030;note=MGA_803
sequence1	MetaGeneAnnotator	CDS	929944	930543	.	+	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKRIFYNKYGRMKYVAHLDTISFFERLFKLSKIKIKFSGGFHPRPKFSFGDPVSLGVAMYNEPLDFETLEDISNDEILKRLNDVTPNEFDIIKVIDRGDKSSIVKDYDSVKYSVEFETVEDLKKIESIIKRDEIIVTKEKKGKTTQRDIKKFIRKYEIDNNIMFLYLERISPNAILRLEELSKEYIIKRCGYIEKKIL;locus_tag=LOCUS_08040;note=WP_011460898.1 TIGR03936 family radical SAM-associated protein (Desulfitobacterium hafniense) [pid:24.8%25%2C q_cov:77.9%25%2C s_cov:68.4%25%2C Eval:4.6e-12%2C partial hit],MGA_804
sequence1	MetaGeneAnnotator	CDS	930592	931860	.	+	0	ID=MGA_805;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016148.1;translation=MLDLKYIRNNIEFLQDMLKNRGTEVNLNEFEQIDEERRNILNELEKLKNFRNTASKEIGKMKREGEDTTIKMEEMALVSKRVKELDKEVKELENRLRYFQLTIPNVYNENVPIGKTEDDNIEIRKVGEIPKFDFEPKNHWEIGEKLDILDFERGAKLSGSRFTAYKGLGARLERALINFMLDLHTTEHGYKEIIPPYLVKRECMEGTGQLPKFEDDAFKTTDDMFLIPTAEVPLTNLHREEVLDGELLPIYYTAYTPCFRREAGSYGKDTKGLIRQHQFNKVELVKIVKPETSYEELEKLLLNAEEVLKRLELPYRVISLCTGDLGFSAAKTYDIEVWVPAQNKYREISSCSNTEDFQARRAQIRYKDKGAKKTELAHTINGSGLAVGRTLIAILENYQQEDGTVIIPEALKPYMRGIDVIK;locus_tag=LOCUS_08050;gene=serS;EC_number=6.1.1.11;note=WP_011016148.1 serine--tRNA ligase (Fusobacterium nucleatum) [pid:61.6%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:8.7e-153],MGA_805
sequence1	MetaGeneAnnotator	CDS	931847	932305	.	+	0	ID=MGA_806;product=CbiQ family ECF transporter T component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016147.1;translation=MLLSKLILILVVLISYNIKIVLSIFIISFILFMYKHKKIDKNIKYFIWFLIISFSMQLLYSSEGKVLFKIYKILITDIGITNGIVVVLKILTVWLISATINYEKIKFKRLKKYEVIVRKTMKLVPEVFKIAKTDLKPKTVFKKLLYKVYREL;locus_tag=LOCUS_08060;note=WP_011016147.1 CbiQ family ECF transporter T component (Fusobacterium) [pid:34.5%25%2C q_cov:91.4%25%2C s_cov:89.9%25%2C Eval:8.3e-16],MGA_806
sequence1	MetaGeneAnnotator	CDS	932443	933432	.	+	0	ID=MGA_807;product=class II fructose-1%2C6-bisphosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932731.1;translation=MTRKFNYKELGLSNTREMFKKANEEGYAVPAFNFNNMEQMQAIVEACAEMGSPVILQVSKGASNYIGLEMVPFLGEAAVSYARAKGSDIPVALHLDHGPDLATIKDCIDHGFSSVMIDGSHYDYEDNVKYTKEAVEYAHKFDVTVEGELGVLAGIEDDVEAEEHVYTKPEEVEDFVSKTGVDSLAIAIGTSHGAHKFKPGDDPKLRLDVLADVEKKIPGFPIVLHGSSAVPAKFVKMINENGGKIADAIGIPNDQLRGATKSAVAKINVDTDGRLAFTAGIRKVFAENPSEFDPRKYLGPAKKLMKDYYKEKIQDIFGSEGAYKKAEVR;locus_tag=LOCUS_08070;note=WP_010932731.1 class II fructose-1%2C6-bisphosphate aldolase (Chlorobaculum tepidum) [pid:63.9%25%2C q_cov:97.6%25%2C s_cov:99.4%25%2C Eval:3.8e-118],MGA_807
sequence1	MetaGeneAnnotator	CDS	933880	934152	.	+	0	ID=MGA_808;product=co-chaperone GroES;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_006583188.1;translation=MKIKPLGDRVLVKSVEVEVKTKSGIVLPDTVSKEKPTLGELVAVGDGKLASELNVGQKVIFAKYSGTEIKDNDEKYLILNYNDLLAIVED;locus_tag=LOCUS_08080;gene=groES;note=WP_006583188.1 co-chaperone GroES (Thermanaerovibrio) [pid:56.2%25%2C q_cov:98.9%25%2C s_cov:99.0%25%2C Eval:6.4e-21],MGA_808
sequence1	MetaGeneAnnotator	CDS	934188	935819	.	+	0	ID=MGA_809;product=chaperonin GroEL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016573.1;translation=MAKILKFDEEARRSLERGVDTLANAVKITLGPRGRNVVLERSFGSPTITNDGVSIAKEIELEDVFENMGAQLVKEVATKSNDVAGDGTTTATVLAQAMIKEGLKMVSAGSNPMFVKKGIEKAAKKVVEELQKRAKKIDGNEEIAQVASISAADETIGKLIAEAMAKVGENGVITVEEAKSLETTLEVVEGMQFDKGYVSPYMVTDADRMEAILEEPYILLTDKKISNMKDILPILEATVQESRPLLIISEDLEGEALATLVVNKLRGTLNVVAVKAPAFGDRRKAMLEDVAILTGGEVITEEKGLKLENATIEMLGRAKKVKVSKENTIIVDGYGDEAKIDARKHQINVQIDETTSDYDKEKLQERLAKLSGGVAVIKVGAATETEMKEKKMRIEDALNATRAAVEEGIVPGGGTILVEIAKVLEEYKLEGEEGVGVEIVKRALLAPLRQIAENAGSDGGVVVEKVRNSEEGVGFDAAKEEYVDMVKSGIIDPAKVTRSAIQNAASVSALLLTTEVVIAEKKEKDAPAMPAGMPGGMGGMPMM;locus_tag=LOCUS_08090;gene=groL;note=WP_011016573.1 chaperonin GroEL (Fusobacterium nucleatum) [pid:75.0%25%2C q_cov:96.7%25%2C s_cov:97.4%25%2C Eval:2.5e-219],MGA_809
sequence1	MetaGeneAnnotator	CDS	936286	938196	.	+	0	ID=MGA_810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFELTMINKKYEIFIKMKEDGTIIEENLNDKNLLNLISNFWKKNSKDKKIIIIKEQTRVLGLFYIKNLKENYIEVYGTNIERRGILSEKSGDVISIFDQLFNNLNMGIIVTDSEKNVIGINKYALKNNYSDNKERLLLDGIKDINEYGESDFGKWREKIIKGENNKAKNELYIIGIIKDEYGDIQNYYKIYSDITQIKKEEKKLSYITEHDLLTGLLNRNGFLNEINIKRLLKEEFTLILLDIDGFKRINDSVGNSIGDKVLRDISDRIDRVIDEDITFGRTGGNEFGLLIKSNNEKEVVDFLNTIKNCFEEKFDLLNGAYGKDSEKIFLTISVGVSISKKDNGTSLILLRNAQSALREAKRYGGNKIIFYNKNIKTYTIEKISMETDIKLAIQNDEFILYYQPQIDIKNNKIIGAEALVRWQHPEKGMISPGIFIPLAEELKLIKDIDRIVMRKGLKDLEELNKKGYKNIVISINLSPEYFEEENSIDEIFQEVNSVKVDTSDIKFEITERSAMGKEEETIVKMERIKEMGCKLAIDDFGTGYSSLRYLEQFPLDTLKVDMSFVKNITTKENSKKIVDVIIALGHTLGFNVIAEGAEEKEQVELLKKMGCDEIQGYYFAKPMPKAEFMNFIDNWR;locus_tag=LOCUS_08100;note=WP_001225575.1 EAL domain-containing protein (Bacillus anthracis) [pid:38.4%25%2C q_cov:70.1%25%2C s_cov:48.7%25%2C Eval:5.4e-91%2C partial hit],MGA_810
sequence1	MetaGeneAnnotator	CDS	938198	938560	.	+	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINYKKIQLIHIIKKELNLSDKEYREILKNAVGVESSKELDDIKFNLLMKYFIKTKHYKKNRNSITLKQKLYIKSLIKKLQWDNEHFENFLKKYEHINNLEKCTKVKATNIIVALKNILK;locus_tag=LOCUS_08110;note=MGA_811
sequence1	MetaGeneAnnotator	CDS	938633	940282	.	-	0	ID=MGA_812;product=NFACT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016576.1;translation=MLYIDGFALERIKDELKQNLKNKRISKLYQTDKFSLSIYFGKQKLVLSANPNMPIAYLSTKKEENPNSQPLFGLTLRKFLLNSNLDDILQFNYDRILIFKFSKINELGNTINSNLILELMGKHSNIILTNEDYLITDVLKRFSIEENRLRTLIPGVKYEFPIIKNKISPKSVDDNLLKSLNTEKEIINKIDGIGKFSAKNILLLKENYDEFLNKKTHPNILYANSNAKYGFIFDYLLNDFDIENLEKKYFDTISEMVEEYIFNTINSNQFNNLYKTIEKKVDSAIVKNSKILKSIDSVIKKNVDYDKFKEIGDILAANLHSIRLGMKSVELFDFYNNLDINIELKSNVSPQENLKRYYNKFSKLKRGYNYNIERKKVIENEIDYLLSVLNSIENAKDIADLKFIQEELIENNYIKKSVNKKRKKIKKLPIENAVLKFSIDDNYEILVGKNNKANDYLTFKIASKNDIWLHAKNIPGSHVIIKSKNFELSEDIILKAASLAAYYSRGKENSKVNVDYTYRKYVKKPNGSKPGFVIYTNEHSVNISPSNTI;locus_tag=LOCUS_08120;note=WP_011016576.1 NFACT family protein (Fusobacterium nucleatum) [pid:39.6%25%2C q_cov:98.5%25%2C s_cov:98.2%25%2C Eval:2.2e-106],MGA_812
sequence1	MetaGeneAnnotator	CDS	940500	941198	.	+	0	ID=MGA_813;product=FAD-dependent thymidylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546288.1;translation=MKVELLNYTPNPELTIALSGRLCYSKVGIEELKEQLDEAYIKRMIKQLVESGHHSTLEHVSFTFGVEGVSRVLTHQLVRHRIGASYSQKSQRYVKEGQFEYIIPKSFEEKGMSEKFKERMKVVQEWYNEAIEAGIKAEDARFYLPNATETKIIVTMNARELIHFFDHRLCQRAQWEIRAMADEMLEKVKEIAPNLFKNVGPGCVNGPCPEGKFTCGKMNEMRAKYREGNING;locus_tag=LOCUS_08130;gene=thyX;EC_number=2.1.1.148;note=WP_012546288.1 FAD-dependent thymidylate synthase (Thermodesulfovibrio) [pid:56.4%25%2C q_cov:97.4%25%2C s_cov:97.1%25%2C Eval:7.8e-68],MGA_813
sequence1	MetaGeneAnnotator	CDS	941191	942135	.	+	0	ID=MGA_814;product=DUF1385 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480077.1;translation=MGKKKKFANVGGQAVIEGVMMKGTDYIATAVRKPEGDIVYRRKKIKKGKFNLAKIPFIRGVFVLLDALILGTKELTFSAAQAGEEEEDELTDFQLGMTLFLSFSVGISLFFLLPAFIGGIFKNNLYANILEGTIRLTIFLGYVWGISFFEDIKRVFQYHGAEHKSIYAFENNEKLTPENAKKYSTLHPRCGTSFLLIVMLVSIIVFSIVDTSIIRTDNFLMKSVIKFSLRILFLPVIASISYEFQRFTSNHLSNPIVAAFAWPGLMLQRITTKEPDLEQLEVGIVALRAALGEENIENAEEITGEVKGKLKESC;locus_tag=LOCUS_08140;note=WP_198480077.1 DUF1385 domain-containing protein (Fusobacterium canifelinum) [pid:55.1%25%2C q_cov:93.6%25%2C s_cov:97.4%25%2C Eval:2.0e-92],MGA_814
sequence1	MetaGeneAnnotator	CDS	942200	943270	.	+	0	ID=MGA_815;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796873.1;translation=MFKKLEEIVTKYNEIGNKMAEPEVLSNPKKIAEYNKAFLQLKGIVDEYEIYKKEKEDFDGLKEDIKHEKDSEMREMIQEEIKELEEKLTEQEEKLKVLLLPEDPNDSKNVIVEIRGGAGGDEAALFAGDLFRMYSRYAESKRWKVEIMSSNEIGISGYKEVIFMIKGDGAYSKLKFESGVHRVQRVPQTEASGRIHTSTATVAVMPEAEDIAMVKVDQKDLRIDTYRSGGAGGQHVNMTDSAVRITHLPTGIVTSCQDERSQMKNKEKAMKVLLAKLYEKEQEEQRAEIDSTRKLQVGTGQRSEKIRTYNFPQGRLTDHRINLTLYKLDSILEGNLDELIEALNTFDQAEKLQQVV;locus_tag=LOCUS_08150;gene=prfA;note=WP_124796873.1 peptide chain release factor 1 (Fusobacterium canifelinum) [pid:63.6%25%2C q_cov:98.9%25%2C s_cov:98.6%25%2C Eval:1.2e-125],MGA_815
sequence1	MetaGeneAnnotator	CDS	943270	944124	.	+	0	ID=MGA_816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKIYKLIDILKYSTDYLEKANVDSPRLTAEYIIATILDLKRIDLYMNYDKPLSTIEREKIKKNLIRRAKDREPLQYIMEYEEFYGLKFYVDKNVLIPRPETEILVENAIKYLEKIEEPKILEIGVGSGAISISIGKNLINSKIIGVDISEGALKIAEKNRENLGLNNVRFVKSDIFENINYKSFDLIISNPPYISEEEYSGLMPEVKNYEPKLALVAKEDGNYFYRTIIENGKNYLKNGGKIFFEVGYNQSKIVKELFIKNRYKNIEILKDYGKIERILIGEK;locus_tag=LOCUS_08160;note=WP_029495074.1 peptide chain release factor N(5)-glutamine methyltransferase (Fusobacterium hwasookii) [pid:43.9%25%2C q_cov:97.5%25%2C s_cov:72.6%25%2C Eval:4.5e-61%2C partial hit],MGA_816
sequence1	MetaGeneAnnotator	CDS	944124	945143	.	+	0	ID=MGA_817;product=tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627822.1;translation=MKTTDFEYNLPEELIAQVPIYPRDSSRLMVVDKETEKIENKIFSDIIDYLDEGDLLVRNSTKVIPARLIGNKETGAVVEIFLLNRLDINRWECLVRPGKRVKIGQKIIFKDDSLTAKVIEIKEDGNRIVEFEYNGVFEEVLDNLGEMPLPPYIKEKLKDANRYQTVYAKKGESVAAPTAGLHFTDELLKKIKAKGIEIVDVFLEVGLGTFRPVKAENILEHNMHEEKFEIPIESANKINAAKKEGKRVIAVGTTSVRTLESAANNGKVMAGENSTKIFIYPGYKFKMVDALITNFHLPKSTLLMLVSAFSNRELMLRAYENAVDEKYRFFSFGDAMFIK;locus_tag=LOCUS_08170;gene=queA;EC_number=2.4.99.17;note=WP_201627822.1 tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA (Fusobacterium canifelinum) [pid:64.7%25%2C q_cov:98.8%25%2C s_cov:98.3%25%2C Eval:1.7e-124],MGA_817
sequence1	MetaGeneAnnotator	CDS	945171	945407	.	+	0	ID=MGA_818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKFEEILIKKEKELAYLKNNVQGFKSNGVLENRINRTKLNYRTKELTEEIKNIKSYLKRIDFVEKVRDYENNSRNS;locus_tag=LOCUS_08180;note=MGA_818
sequence1	MetaGeneAnnotator	CDS	945382	945927	.	+	0	ID=MGA_819;product=16S rRNA (guanine(966)-N(2))-methyltransferase RsmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017073.1;translation=MRIIAGTAKNKRIKSQSGHNVRPTLERVKESLFSILQPYINDSVFLDLYGGTGSIALEALSRGAKRAIIIEKNGEALRIIIENVNSLGFEDRCRAYRNEVLRAIEILSNKRETFDIIFMDPPYKDEVCEEVIAKILDSNLLEENGLIIAEHHIKEKLPDVIGKLNKIDERKYSGKVLTFYS;locus_tag=LOCUS_08190;gene=rsmD;EC_number=2.1.1.171;note=WP_011017073.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Fusobacterium nucleatum) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:1.4e-62],MGA_819
sequence1	MetaGeneAnnotator	CDS	946095	946862	.	+	0	ID=MGA_820;product=sugar phosphate isomerase/epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010937844.1;translation=MKLYIKQDIKNIEKNIEFFIKNKVGIEISLYDVEFINNMRLSKILKLSKLLKENNLKITSHLPIHGLDLGCRDSIIREYSSDLIIKSLDLSSVLGVKKSVLHSGMNPLRKGQGQEKWLKRFELELTKIEKVAREMNIELVIENVWDDNDIIYKFIVEKFSNINLCFDIGHSAVYQKNIKIEELFKKYGNRITHLHLHDNDLLEDKHFHFGEGKIEFENYFQIFKKYLKEYTVTLETNFDEKLYKDMEFVRKGLLK;locus_tag=LOCUS_08200;note=WP_010937844.1 sugar phosphate isomerase/epimerase (Desulfovibrio vulgaris) [pid:20.3%25%2C q_cov:91.0%25%2C s_cov:88.9%25%2C Eval:6.3e-08],MGA_820
sequence1	MetaGeneAnnotator	CDS	946859	947080	.	+	0	ID=MGA_821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNLKFEEALLEIDEIIDELENGEVELEESVKKYEKAMEMIKFCKGKLDSIEGKIKKINLNESGDIEIADFQ;locus_tag=LOCUS_08210;note=MGA_821
sequence1	MetaGeneAnnotator	CDS	947094	947975	.	+	0	ID=MGA_822;product=polyprenyl synthetase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017072.1;translation=MIKEYLKLRGLEVEKTLRDYFEELNYPEVIKDGMKYSVLNGGKRLRPVLLLMTLELLGKDINLGFPTAAAIEMIHSYSLVHDDLPALDNDDYRRGKSTTHKKFGEAEAILIGDSLLTYAFYILANKNEKLSSEKTIKIIEKISYAAGTQGMIGGQMIDIESEGKNIDLPTLQYIHTHKTGMMIRVPIQVGAIIGEATEKEIEYLTEYADLIGLAFQIKDDILDIEGDFETIGKPIGSDQGLNKATYPSIFGLERTKEMLKEKVEKAKEIIEKEFGEKGKYFVALAEYIEAREK;locus_tag=LOCUS_08220;note=WP_011017072.1 polyprenyl synthetase family protein (Fusobacterium nucleatum) [pid:60.1%25%2C q_cov:98.6%25%2C s_cov:98.0%25%2C Eval:9.4e-94],MGA_822
sequence1	MetaGeneAnnotator	CDS	947977	949074	.	+	0	ID=MGA_823;product=glutamate 5-kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546492.1;translation=MNYKRVVIKIGSSNLVRDGKVDDEKIKNLIKIISKFKKKDNIEFIIVSSGAVAVGKEKVGISSLKLNIRQKQAMAAIGQPYLMRKYKENLENNNILGAQVLLTSDDLHNRTRLINARDTLLEILHYNAVPIINENDTVSTEEIKIGDNDNLSARVAAIVDAELLIILSDIDGLYNKNPKNHNDAVLIKEVFDITKDMKKNAGGAGSKVGTGGMITKLEAAEVCMKFNVEMVIINGNSLDNIVDILNGKQIGTKFSPNKKKISKKKLWIGYGARKKGEIYIDKGAYEALNKGKSLLSGGIVGLSGKFKIGDSIKIFHNKEEIARGLTNYSSDELLKIKGKKSYEIDKILGYKYQDEIVHRNNMILI;locus_tag=LOCUS_08230;gene=proB;EC_number=2.7.2.11;note=WP_012546492.1 glutamate 5-kinase (Thermodesulfovibrio) [pid:46.3%25%2C q_cov:98.9%25%2C s_cov:99.5%25%2C Eval:9.8e-86],MGA_823
sequence1	MetaGeneAnnotator	CDS	949127	949951	.	+	0	ID=MGA_824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNWIYLVIGGSFFNALWTSLTKKKSVDLSPIQFTIIFRSLCVLFLFPIFIIKFNMSYITVNFLFFAIIYSIIEGVRTLFIVKGAEEDYYSTYAFVNTSPIFTLIFTPFLLIEKINLILVFGTVMIIVGGILFYKIGKFSKWGIIVAILSGIGSVIAKVGVDNSNGIFFSVISFIFLSLLFSTYEIITKSEITLISKIKSSRTVLLPAFFSSIATGLYFISLEYGAVTKISPLMRMNLIFGFVFSIIILKEIQNWKTKFLGGLFILAGGVLVYVS;locus_tag=LOCUS_08240;note=MGA_824
sequence1	MetaGeneAnnotator	CDS	950029	950736	.	+	0	ID=MGA_825;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435147.1;translation=MNKIRLNKYLKDLGISSRRKADEFIEKGYIKLNGKVVKELGTKIDIEKDVIEISDKLKKEKENYVYLVLNKPKGYVTSKNKKEGKTVLELLPNIKNLTYAGRLDKESEGLLIFSNDGEFVFKITYPDFEKEKEYLVTVDKKINEKLLDKMRKGMVIDNKQTKPTKIKKVNEYSYKIILTEGINRQIRKMAKKVGLNVKKLIRIRIKNIYIDSVEYGKWRYLKKDEIKEMLENIKK;locus_tag=LOCUS_08250;note=WP_003435147.1 pseudouridine synthase (Clostridioides difficile) [pid:42.3%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:5.1e-46],MGA_825
sequence1	MetaGeneAnnotator	CDS	950784	952049	.	+	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYIKKKIISFSFIVLNILFYIICSMILNIKFNFNFTIFSIILFTIFFLGNIYDFQDNKYKTKMFFTSSVINLSLSLLIISYGLKNIAILVLFEYIFQNIIKFIILNFMIKTENILVLGEKNINYEIIKELAIKNGRYITKGMVEIKNNKLKNLEEKIKKDDIDILILNLQKPIAEDILGELLKIKMSGIKLYDFLNFYEAIEEKVPVKAINEEWFLFGEGFDIIHNGFNQRLKRVLDIIMSLIIFIPAFPIMIIAAIIVKIESKGPIFFVQERIGMGNKPFKIIKFRSMKADAEKEGPQWAKKKDDRVTKFGKIMRKTRIDELPQLINVMNGEMTFIGPRPERQHFIDVLENTIPFYNIRHSVKPGLTGWAQVNYSYGASIEDAFEKLQYDLYYIKHQSLVLDISIFFKTVKTVIFGRGQ;locus_tag=LOCUS_08260;note=WP_011793001.1 sugar transferase (Desulfovibrio) [pid:48.4%25%2C q_cov:60.8%25%2C s_cov:57.1%25%2C Eval:5.4e-70%2C partial hit],MGA_826
sequence1	MetaGeneAnnotator	CDS	952109	952510	.	+	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYILLALGILCFVLEILTPGIFLFFSIGVSFIVTSLFSLFIKDIFILSFILALLSLGMFILLKKSKFLNKKTDYKANVDNYSGKSGVVTKKMENNRYLIKVFGEEWIGISEKQLEKGDSVVIDKIDGTKLILK;locus_tag=LOCUS_08270;note=WP_010881185.1 nodulation protein NfeD (Aquifex aeolicus) [pid:31.7%25%2C q_cov:98.5%25%2C s_cov:32.2%25%2C Eval:6.2e-08%2C partial hit],MGA_827
sequence1	MetaGeneAnnotator	CDS	952735	954459	.	+	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLYSKILLMLIILFIIPGFLIGLIYFNKTNNQYNNILVKEVINQSDEINFSIVKEYEFYKEKFQREMENMSISTVKNECDSIEKILGKGSDLKDEIIVLKDRIVFLYYINGYKLEKYITEFDYRKIFLRNSYEKYVVYSNNDLENIMLSDFYDKVSRKIYKDIGEKKYLEKVKRDNKKVIRNNILINNKNYSSVYFPLKYFGKTWGIGILYLEKKSFENFLDFFRKNAMLLAFIIIILGIIFTAFIYLIIAVPIKKIEGFTQKIIKGDINTEVKIKSNDELGSLANNINNMVKKLRDRIEAQKIIQRMISNEEIRKEYIDSIEKKNKKLKYLLEELKNTQAMLIEKGKMSTIAHISGEIAHELNSPLSTILTNAEMLKMDTDDKEILEKMEDIEIAVKTSKMIVDKFLKECKVESENYRVIKINNVFTEVLRMKSKINKDIEFGLRYIGRSTPNVYGEYGEIRSIIENLLENSIESIYKAKQTKEKIGKIKIFIIEKNEYIKIIVKDNGKGMTPEEYKEIFDLFYNIEKNESRMRLIVVKNILKHYSGEIKVKSKYDYGTMVKIKILKMKEEI;locus_tag=LOCUS_08280;note=WP_090388836.1 7TM diverse intracellular signaling domain-containing protein (Niabella drilacis) [pid:22.9%25%2C q_cov:47.4%25%2C s_cov:43.7%25%2C Eval:6.4e-19%2C partial hit],MGA_828
sequence1	MetaGeneAnnotator	CDS	954460	955443	.	+	0	ID=MGA_829;product=SPFH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437173.1;translation=MFEVFSIAFLIFVVIFILRGIIVVRQAEVIVIERLGSYNRTLSNGLNFIIPIFETPRTVVWKYVKASLDNQSVYQTKNVTRIDLRETVYDFPKQNVITKDNVTIEINALLYFQITDPKKIAYEINNLPDAIEKLTQTTLRNVIGELDLDETLVSRDTINSKLRLILDEATDKWGVKVNRVELQDIIPPKEIRTAMEKQMKAERDKRASILTAEGAKKAKILNAEGERDSQIARAEGIKRSNILKAEGEAEARLKVASAEAKTINMITDSIDIEKTDSVNYLVALKYIEALKNISEGSNDKVVFMPYETSGLLSSLGSIKELFDNSKK;locus_tag=LOCUS_08290;note=WP_003437173.1 SPFH domain-containing protein (Clostridioides difficile) [pid:45.6%25%2C q_cov:93.9%25%2C s_cov:88.8%25%2C Eval:1.7e-65],MGA_829
sequence1	MetaGeneAnnotator	CDS	955502	958237	.	+	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKELLEAITEDYNLEKGAELYKKNKIIYYEAKKELSNVYSVEARINDYGEIKNVSLFLNFEKEYLSNFNCSCYSHFICSHIVATVLKFSDETKEIKNKKIKNKFLKYRYNIKGNKVEVDYEIEIKNWIKGYGELKSNIEKYLENMSYNERAILYEIKKNRNYKITYKIAEILKKLNIELKLELEKYLIYKEEDKIEIKKIYDKVRNKNIVKVEDKDIIKFKGKEITPKIIFEDLMKIYIKGNVKFSEELKKYVLYEEEVKYILNFKMHKKRVLLYPEIIIDNKKYKNEEILKIDATYHRISEYEYRRINIDEYKEYIGFLKNKNLKFTGKLFICENRFFKENYNKINKNWVVNGINKIKLEKEVKLNFNDKNTSLKIKYKIKNRDLENEELLNIKKYNFDVQNDKIYYVQPNGENIENYEFSGTKEELLCNVEKLKDKFKLDTGKIFFKDIKLNNRLKSLLRDYQKDGVKWLKFLDEFKFSGILADDMGLGKTIQSIAMIDELSNNEMILIVAPKSLIYNWKEEIEKFLPSINDKVVIYDGGIGKRKKIFEEIKKSSVILTSYSILRKDFEKFEEFEFRYMILDEAQHIKNRNTVIYKAISKIKSHTKLALTGTPIENSIKELWTIFEFLMPGYLGRYEQYNTKEGMEYLKYKLAPFILRREKVDVLKELPEKIEQIVKVEFSDKQRDYYEHILENMRNKVYDSIEEKGFSKSYFTILSAITYLREICNHPKLIEGGKDIPSGKFELLKELIDEAIEGNHKILIFSQFVKMLEIVKSHLEHKKIKFEILTGQTKERGETVKRFNTDETIKIFLISLKAGGVGLNLTSADTVIHIDPWWNPMTENQATDRVYRIGQTRNVNVYKLIVKKSIEEKILKIQNRKKELFDTIISGNKEATGRLTIEDLKDILE;locus_tag=LOCUS_08300;note=WP_021373559.1 DEAD/DEAH box helicase (Clostridioides difficile) [pid:36.8%25%2C q_cov:77.6%25%2C s_cov:67.7%25%2C Eval:3.4e-113%2C partial hit],MGA_830
sequence1	MetaGeneAnnotator	CDS	958342	958689	.	+	0	ID=MGA_831;product=YbaB/EbfC family nucleoid-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008797059.1;translation=MVRKLKSKESNGGGNSKNLIKQAQEMQKKMLLVQESLKEKEIEASVGGGAVVAKVNGQKELIGIELSKDIVDPEDIEMLQDLIVSAVKEAMRQAEEMAEKEMGKVTGGLDIPGLI;locus_tag=LOCUS_08310;note=WP_008797059.1 YbaB/EbfC family nucleoid-associated protein (Fusobacterium) [pid:58.6%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:2.9e-29],MGA_831
sequence1	MetaGeneAnnotator	CDS	958832	959872	.	+	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKWLLLVLLFLVIGCNKFNDEILNYNSVKKINNKKYNSEKSKKGVKKMEFQSFMLENNIKKNSIKSKFVPETMEYYVLLPQNYNKNKKYPVLYLLHGITDKAEYWFDKAEILSRYKEIRNKKIIGDMILIFPESGNDGRSWYTNFERDKKNKYEDYFIKELIPDVEKKYSVYKSPDKRAIAGFSMGGYGAYALFMRNIEKFKVVGSFAGALNLNRVAFNKKELGVYKFLWLPDIFIKDENGKSFEYSFGNFPMKWLNKNPYKLIDKLYKEKKDELKSKYFYLSVGKNDIEDYHMIYQWQDMCEKLEKYKLNYKANLVENEEHTWEYVRRDFENLLLYVWDKLEEE;locus_tag=LOCUS_08320;note=WP_004202665.1 alpha/beta hydrolase-fold protein (Burkholderia) [pid:34.7%25%2C q_cov:41.3%25%2C s_cov:48.8%25%2C Eval:9.0e-17%2C partial hit],MGA_832
sequence1	MetaGeneAnnotator	CDS	959872	960969	.	+	0	ID=MGA_833;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016634.1;translation=MDKIINKNKTIAVAMSGGVDSSVVAYMLKKEGYNIIGITMKHWGGEDSGDNNKTCCSLDDIYDAKRVCDDLGISHYVVNFEKEFKEEVVKYFIDDYINGNTPNPCVVCNRKIKLGKLVDFSKKIGADFLATGHYAKVINEKLYMGDDVKKDQAYFLSQVKKDYFKSILFPIGNYNKTYVRELAKELGVRVYAKKDSQEICFVENDDYKKFLMNMTDGKIFKNGEIVTTKGEVVGKHKGTAFYTIGQRKGLGISYSKPLYVVDLDSKNNRVIVGDNEELFRNKLIAIKINLLGVEKIEELDNIYCNIKTRSRDILHRAKLKLIDENKIEASFELGVRAITPGQLAVFYREDGLVLGSGFIEGGKSL;locus_tag=LOCUS_08330;gene=mnmA;EC_number=2.8.1.13;note=WP_011016634.1 tRNA 2-thiouridine(34) synthase MnmA (Fusobacterium nucleatum) [pid:55.8%25%2C q_cov:97.3%25%2C s_cov:94.2%25%2C Eval:1.8e-108],MGA_833
sequence1	MetaGeneAnnotator	CDS	960966	961313	.	+	0	ID=MGA_834;product=cupin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079948.1;translation=MIIKIGDTKQQITEKPRGGVGEIIANMYLKDSELENSLTGFNMMQLKKNSEVGYHQHINDEEIYYILTGKGIVNDNGIEKEVEAGDMIYTKQGEFHSIKNIGDELLEFIAFIIKK;locus_tag=LOCUS_08340;note=WP_004079948.1 cupin domain-containing protein (Thermotoga) [pid:38.9%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:1.5e-17],MGA_834
sequence1	MetaGeneAnnotator	CDS	961310	962023	.	+	0	ID=MGA_835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELNIIFPGWGSVKEFYLDNLKLKGKIIVIQDYDLEKIWKNLENTIKSYDIINIIGWSLGSLIALKLLLGKEEKEEEKKEIKKDIKNKINRLILFAPTLKFTETTPKVIVKRMKKNLLRNKEKTLKEFIKLNFYSENNFLEYWEKYKERIINLDTEYLLEGLDILENWDLNYIGINYEILLTIFLGIEDSIIINNNSNKVIEKFKKVKVHKLSNCGHNIIFEKKDEIIKILGVMYD;locus_tag=LOCUS_08350;note=MGA_835
sequence1	MetaGeneAnnotator	CDS	962016	962840	.	+	0	ID=MGA_836;product=malonyl-ACP O-methyltransferase BioC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000608924.1;translation=MIEKEKVIKNFSKGAKTYDKYAKVQKYMAEKLNKLFIEHKEKNINCDMNSKKQILEIGNGTGILTEYILKKYKNLNMDLIDISPEMIKISKEKFKNINNNLNYIVGDAEEYDFNKKYDLIISNATFQWFKDFENTINKLYDSLNNGGEIIFSTFGKETYNELRKILKSISEKYDYSQTFYSMNDIEKIIRDIGAEFTLIEENYIEKFKNVREFLFAIKKIGANSAKEKKEILTPGVYKQLEKEYKKNFTKNNKIIVTNHIIFCKIKKEIKKNIV;locus_tag=LOCUS_08360;gene=bioC;EC_number=2.1.1.197;note=WP_000608924.1 malonyl-ACP O-methyltransferase BioC (Bacillus) [pid:35.5%25%2C q_cov:94.5%25%2C s_cov:95.5%25%2C Eval:2.9e-38],MGA_836
sequence1	MetaGeneAnnotator	CDS	962891	963184	.	+	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKDFFRKTMLAGIGLLDMTKEKADEVVKELVKRGEIAENEGKEYADEILKKAKGFEEELTEKIESVLKEKSYAKEDKVEIIEKKLDEILEKLNNM;locus_tag=LOCUS_08370;note=WP_011460053.1 ATP synthase subunit B (Desulfitobacterium) [pid:36.1%25%2C q_cov:70.1%25%2C s_cov:73.5%25%2C Eval:1.4e-07%2C partial hit],MGA_837
sequence1	MetaGeneAnnotator	CDS	963445	964002	.	+	0	ID=MGA_838;product=TlpA disulfide reductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941975.1;translation=MKKIGILSLITLLLIAGCGETKQKNQESKQSVTKKVESNIKVGIEKGNKIPDFKVMRLDGEIINMEDLKGKYVLLNFWATWCPPCRREMPSIQKLYDDNRSNDKFEIVAISVDQKQAFEVQKFVDDNGYSFPIYYDKGGVLSRKFFIKSIPTTFLVNKDGIIENKVLGGSDWSKLNVQLLTKGVK;locus_tag=LOCUS_08380;note=WP_010941975.1 TlpA disulfide reductase family protein (Geobacter sulfurreducens) [pid:35.7%25%2C q_cov:92.4%25%2C s_cov:89.9%25%2C Eval:3.7e-26],MGA_838
sequence1	MetaGeneAnnotator	CDS	964002	964700	.	+	0	ID=MGA_839;product=cytochrome c biogenesis protein CcdA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941976.1;translation=MDGMTNLSLLLVFGAGIASFFSPCTLPLIPVYLSYISGIGAKELNNKKRFKIFFHTLSFILGFTTIFVIIEIGAIYFANIFSKVISNDITYKIAGTLVIVLGIHMTGIFKIKQISQEKKLNIRINPGNYFSSYGLGLLFALGWSPCVGPILASVVMYASQSKTMSTGVFYLIIYSLGMGIPFLIFGFLLEYFMKFVDKINKYGKVVEIVSGLILILMGLVLFFNKLGAISSL;locus_tag=LOCUS_08390;note=WP_010941976.1 cytochrome c biogenesis protein CcdA (Geobacter sulfurreducens) [pid:35.9%25%2C q_cov:97.4%25%2C s_cov:94.6%25%2C Eval:2.5e-45],MGA_839
sequence1	MetaGeneAnnotator	CDS	964715	966760	.	+	0	ID=MGA_840;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015732.1;translation=MERYKKLYIKLEEANIKGLGEKTIEKLNKIKVITVKDLLYNFPRGYEDRRNIKKISNVRVGEFVTLRGIILTGELIRTRNKKVIYKIKLRDESGIIEVSWFQMPYLKNKLIPGKEIYVIGEIKRDYYLKMVNPEYEYVSEKVKYKAEILPNYSLISGLSQKIMRKIIKNCIEKYKEYILELIPDEIINKYKLLNRDEAIALIHFPKNNKDIEMCKHRFAVEELLMLEFKILYGRYKLENENNRKYYLLDKKDKVKDFLKELNFDLTNAQKRVITDIYKEIKNGKIVNRLIQGDVGSGKTIVAIIMLLYMADNGYQGVFMAPTEILAEQHYLGMVDRLNEIGIRMEILTGSIKGKQKEEILNKIKYGLVDIVVGTHALIEDNVKFKKLGLIVIDEQHKFGVIQRKRLREKGVLANLIVMSATPIPRSLALSIYGDLDVSIIDELPPGRQAIRTKWIKNGNEIEQMYKFIKSKLSEGRQCYIVAPLIEESEKLNLQSAVELYEKLKNGYFKKNSVKILHGRMKRNEKEEIMREFVKNRIQILVSTTVIEVGVNVPNASIMVISNSERFGLAQLHQLRGRVGRGEHKSYCFLLSDTKNEISKTRLKIMEESTDGFKIAEEDLKLRKSGEIFGTKQSGISDLRFVDIVHDIKTIKLAREEAKKYLSESKGKINNKILKFEIEKNI;locus_tag=LOCUS_08400;gene=recG;EC_number=3.6.4.12;note=WP_011015732.1 ATP-dependent DNA helicase RecG (Fusobacterium nucleatum) [pid:55.0%25%2C q_cov:99.7%25%2C s_cov:98.5%25%2C Eval:1.0e-215],MGA_840
sequence1	MetaGeneAnnotator	CDS	966785	967939	.	+	0	ID=MGA_841;product=signal recognition particle-docking protein FtsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016881.1;translation=MFKKFFKGSKKKNMVEKKEEVNKKEESEKFQSNIENKKVENAIKEEKVDILKDESLKEKIEEVKKEEVKKEELEEKKTEKKGFFTSLKEKLTKSREGLFGKLKNFFSGRSVIDDEMYEDLEELLIQSDIGFDMTLKIVENLEKEVKTRGIKEAEKVYDVLKDVLERFLIRENNKIELKEDRLNIILVVGVNGVGKTTTIGKMISKFKSEGKKVIIGAADTFRAAAIEQLEEWAIRSEVDIVKHSQGADPGAVVFDTLKAAKSRNMDVAIIDTAGRLHNKKNLMDELSKINKIIKKEIGENEPYETLLVIDGTTGQNGLTQARVFNEVTKLTGFVITKLDGTAKGGIIFAISEELKKPVKFIGVGEGIEDLREFDADEFINAIFE;locus_tag=LOCUS_08410;gene=ftsY;note=WP_011016881.1 signal recognition particle-docking protein FtsY (Fusobacterium nucleatum) [pid:59.4%25%2C q_cov:77.6%25%2C s_cov:89.2%25%2C Eval:2.6e-100],MGA_841
sequence1	MetaGeneAnnotator	CDS	967951	969711	.	+	0	ID=MGA_842;product=motility associated factor glycosyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965494.1;translation=MKNLQGKNIKLYKMLKELDNSCEEVEVISTKNGEYTAKLNGKFLHSKYNPYKEAEKVISNYSIKEKKVVTLFGIGFGYYLEEILKHIKSDTKIFIIEENLCLLKKLFEIRNFDKMLLNENIFIYHTSQKFEFIYKLEENLKVGFALDYEVIVHKVESEFYSKEYNEFISEMKNSLSNNLVNTATIFEFSKMWQKNRFMNLKNFAKSIPAISLFNELKNMPAVIVAAGPSLDKNIMYLKWIKNKALIIAVGTVLKKLLAEGIEPDIIVSVDGGEPNWEHFSRIDYEEIPLAYEPMLNPKISSKHKGIKVGFVTQDVVSAWAEKILGEMGFVKSGGTVAISSYDFAIKLGCNPIILLGQDLAYSGGKSHVSSTVYENDEVKEESEDIHQMEVLDIFNEKILTDRKFFTFKQYFERFIAGDKAGNNMLKIIDATEGGAKISGTEIMTLKDVYFKYIADKNIDFRKILESKIDTIDFNERLKKIEDGKKDLKSKLIKFLKIVEKGIKVINKLQKNPNKVFSDKLDKIDIELKKELEVSFFITYITQPIISTVIKEKVNNKDLNDILKSNLKLYKGIKEAVEYTLECLGEE;locus_tag=LOCUS_08420;note=WP_010965494.1 motility associated factor glycosyltransferase family protein (Clostridium) [pid:30.3%25%2C q_cov:91.5%25%2C s_cov:91.9%25%2C Eval:4.2e-58],MGA_842
sequence1	MetaGeneAnnotator	CDS	969711	970085	.	+	0	ID=MGA_843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKILVVDDEPYIRKILKYTLDKSGYMVEECEDVYEAEELLKSKNYDLILTDLMMPIKSGLDLVRFVRSELKLDKQKIIILSAKGMENDIKLAKELEVSYYIMKPFEVGRIIKKIRMVLDGEI;locus_tag=LOCUS_08430;note=WP_010965007.1 response regulator transcription factor (Clostridium) [pid:40.7%25%2C q_cov:95.2%25%2C s_cov:50.9%25%2C Eval:4.6e-19%2C partial hit],MGA_843
sequence1	MetaGeneAnnotator	CDS	970085	970864	.	+	0	ID=MGA_844;product=aminotransferase class IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438634.1;translation=MIYLNGKIEEESKILKAIEYGYGLFETIGGKGEKLYFFEEHFNRLKNGINRIGLNLKYDIEYLYNIVEDLIMLENIEKDEEFKVKVIVAEDLFYVSLNKIKLREEKNGIKVGLIKSYFQNELGFLKSLNYMNNILARKELKKNSYYEGVFINRNRHITEGTISNIFFIKEDKIFTPSLDLNILNGIIRSKIIEISKLNNIKIEEGHYYYDELLEADSIFFTNSLMKNGLLWVKEIDNKLKQKHEFITKIENEYKKILQK;locus_tag=LOCUS_08440;note=WP_003438634.1 aminotransferase class IV (Clostridioides difficile) [pid:34.1%25%2C q_cov:87.3%25%2C s_cov:90.3%25%2C Eval:4.5e-25],MGA_844
sequence1	MetaGeneAnnotator	CDS	970861	972828	.	+	0	ID=MGA_845;product=penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480034.1;translation=MKEVFKISLKITLKSKVIIIYIIIIIAFIVAIYQLSMIQIFNNKFWKKEAYNQYYQNGTPIGHRGKIETLNGEEIAYDIPMYQIILDPTQIENGKEEKASAILSENLKLDKKQILRTILDKKSKKSKYYKVGKSISVETESKIKKLFIKNKINGFFVGEDTKRIYPNFYIFNSITGFVGGDKKGKYGIEKMFDKRLKGAKGFSRVSKFKEKYSLSFGGKEEFISPKDGQTIVLTIDYTMQHILYEEMYKMFEETKSNWAAGVIVEANTGKILAMVSLPATDNKVYIKNNVIYNTYEPGSVFKPLIMGAALDEGIVKPDDIFYCPGKIKVYDRTIKDHDNSTIGYLTLKKIISKSSNVGMVQIGERFSKTSFNNWLHRYGFGAPTGIKLFKESSLKIGNPKKWSGVKIPTMSFGQGIAVTPIQLAMALTSVVNGGILYKPRIVERIEDGDIIFDNNKPEIRNRTISKETSELIKTYLRDVVENGTGKNAKIEGYDIGGKTGTSQKAENGKYGKGKYTASFVGVLPLKKPKYVALVVYDEPKGKKIYGGQIAAPVIKNVFERIAKYKDILPNNLETKTVILNGETAIENSEIKADNSNIKNYMPNLIGKTKREALGEISNITQNVEIEGEGKITFQSPKPGTPKNKIDKVYLKFQEK;locus_tag=LOCUS_08450;note=WP_198480034.1 penicillin-binding protein (Fusobacterium canifelinum) [pid:31.9%25%2C q_cov:95.3%25%2C s_cov:90.0%25%2C Eval:1.7e-84],MGA_845
sequence1	MetaGeneAnnotator	CDS	973206	974594	.	+	0	ID=MGA_846;product=anthranilate synthase component I family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003242468.1;translation=MKELGIYDLNIVEFYKKNIKSFNKEFVILDSPSADKLSNFSYIVGEFKSKIIIKDNKIFVDNIEIIEGDIFDVLRKIKSENMNCVENIEFLNNVFTGGYISIISYEFNKYIEDIDITTIDDLKLPDAIFVIPQLIIIRDEKKNKFYEINFTKEKFDWDFNFKNKKKLKTELEDIDYKKLKSYNVNMEKNKFYNIVKKAKEYIKAGDIFQVNLSQRFSCDIESKDQFKLYEILRDINPSPFASFAKFKEFTLISQSPERLISLNGDKVETRPIAGTRRKEDNTEAIMESELIMSEKERAEHIMLVDLERNDIGRVCEYGTVKVDELMEIEKYSHVMHIVSNVIGKLNKKYDEFDLLKAVFPGGTITGAPKIRCMEIINELEPTRRSFYTGSIGYIGFNKIMDLNIIIRSFIKKNKNIFFQVGAGIVYDSIPEREYKETINKARAMIVSFETLINQNKIRGDEE;locus_tag=LOCUS_08460;note=WP_003242468.1 anthranilate synthase component I family protein (Bacillus) [pid:44.9%25%2C q_cov:78.8%25%2C s_cov:79.4%25%2C Eval:1.1e-84],MGA_846
sequence1	MetaGeneAnnotator	CDS	974591	974992	.	+	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAKGKIFYLDDEPELLEFVEFVLKRYKYDVIVKEKWDDKYLDELEDVDMIILDIMFPEGQPDGYEVCRRIKGIEKLGNIPIYMFSAKAFSEDKEEALENGADGFIEKPVPIDNLVKLVEKVVEEKKKNDFID;locus_tag=LOCUS_08470;note=WP_012546185.1 response regulator (Thermodesulfovibrio yellowstonii) [pid:31.3%25%2C q_cov:85.7%25%2C s_cov:22.6%25%2C Eval:2.3e-10%2C partial hit],MGA_847
sequence1	MetaGeneAnnotator	CDS	974976	975548	.	+	0	ID=MGA_848;product=aminodeoxychorismate/anthranilate synthase component II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004415847.1;translation=MILLIDNYDSFTYNIVQYLGMLGEDVKVYRNDKISIEEIEKIKPEAIVISPGPCTPNEAGISLEVVKQLKGKYPIFGVCLGHQTIGQAFGAEIIRASRIMHGKISKINHLDKGVFNGLKNPIEATRYHSLIIKNGTLPDEVEVTAWTKEDEIMAIKHKKYLIEGVQFHPESILTEDGLKMLENFMKEVRK;locus_tag=LOCUS_08480;note=WP_004415847.1 aminodeoxychorismate/anthranilate synthase component II (Pseudomonas) [pid:62.0%25%2C q_cov:98.4%25%2C s_cov:96.5%25%2C Eval:5.4e-68],MGA_848
sequence1	MetaGeneAnnotator	CDS	975549	977702	.	+	0	ID=MGA_849;product=primosomal protein N';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016948.1;translation=MRYYSLYVSDTKTTYFTYGDKNNEFEVGEWVFVNFRNKKKAALILFEEEEREFKFKVKNIIEKIPDEIKIDSKMIELFLWISDYYLTEFGEVLTAAIPKNVKIKYRYKYFYNASNRLFEMPLETEKQAFIDYIKKRGNAAKSTLISKFGKKLLDEFEKKNMVTLKKEVLNKNNNFYDKSEYSIKINKTSDLTNEQKNAKYKISSSNKKYFLLKGITGSGKTEIYIKLIQEALENGDGAIFLIPEISLTPQMTERLKRSFEDKIAILHSRLSDMERGKEWRDIYLGNKRVVVGVRSAIFSPIKNLKYIIVDEEHETTYKQESEPRYNAKYVAIKRAELEGCKVIFGSATPSIESYYFAKTGVFELIELKNRYNNAKLPKIEIVDMKDEKQDNFSEKLLQEISKRLRKKEQVLIFLNRKGYSNFIQCKECGHVETCEDCSVSLSYHKKENKLKCNYCGKEQVFLGSCSKCGSKKLKYYGKGTEKLEYDLKEYFKDVNILRVDSETVKEKGSYERIYKDFLDGKYEILLGTQIIAKGFHFPNITLVGIVSADSTLNFPDFRAGERTFQLIVQSSGRAGRGKKDGEVLIQTYIPEHYVIQKSLTVDYDGFYEEEINLRKELEYPPFGKIINIIISSVEESELFEKANEFYNLIKNSELEIYGPFEAPIYKIKNRYRYQIFIKGERKEINNLKKQLKKEYNKFKIKNKNVRITIDVDPVNMA;locus_tag=LOCUS_08490;gene=priA;note=WP_011016948.1 primosomal protein N' (Fusobacterium nucleatum) [pid:46.6%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:1.4e-196],MGA_849
sequence1	MetaGeneAnnotator	CDS	977712	978227	.	+	0	ID=MGA_850;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016949.1;translation=MILEIKKYGDPVLRKKSIEVEKIDENLKQLLKDMIETMYDAPGVGLAAPQIGINKKVVIIDTDGKLRKIINPVILERFGEEEIAEEGCLSIPNIYEKVKRPSKVKVKYLNEDGLEVTEEADGLLARAFQHEIDHLDGVLFVDKVSNIRKRLISNKLAKLKREALKALAKEK;locus_tag=LOCUS_08500;gene=def;EC_number=3.5.1.88;note=WP_011016949.1 peptide deformylase (Fusobacterium nucleatum) [pid:51.9%25%2C q_cov:89.5%25%2C s_cov:89.7%25%2C Eval:3.4e-41],MGA_850
sequence1	MetaGeneAnnotator	CDS	978229	979173	.	+	0	ID=MGA_851;product=methionyl-tRNA formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373209.1;translation=MRVVFMGTPEFAVDSLRGVYEKYNVVAVFTQPDKPNSRGKKIRFLPVKQFALDNEIPIYQPKSVKSEETLEILKELAPDIIVVVAYGKILPNSIIDMPKYGVINVHGSLLPKYRGASPIHHAIINGEEKTGVTIMYIAEELDAGDMILKKELKIEEDDTLETIHDKLKVVGKEALLEAMELIEQGKVKQEEQDHSSATFTKPIKKEEAKINWNDTKENIYNFVRGLNPFPTAYTVSNGKRYKIYEVEKIEKNYNGVCGEVVEIDKNKGAIIKSNNGAILLKKIRPENKKIITGKDLINGNFVKLGDIFSWEEKI;locus_tag=LOCUS_08510;gene=fmt;EC_number=2.1.2.9;note=WP_147373209.1 methionyl-tRNA formyltransferase (Fusobacterium nucleatum) [pid:52.1%25%2C q_cov:97.5%25%2C s_cov:99.0%25%2C Eval:4.5e-97],MGA_851
sequence1	MetaGeneAnnotator	CDS	979170	979799	.	+	0	ID=MGA_852;product=redox-sensing transcriptional repressor Rex;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966000.1;translation=MKQEKISPRVIERLTKYLRCLENLNPEDYISSEGLAEKMGFTAAQVRKDLSNFGEFGIRGKGYNIRKLHSDIEKILGVNKTNNIILVGVGRLGTALLSEPEFTKESFNIAGLFDKDEKKIGTEIMGKKIRDLKEIEHFTSSKEDIAMAIITVPKMAAQEVCDVLVKAGIKAILNFVPVKLDIPEGVVIENIDLYGKLQELNYWKERKLK;locus_tag=LOCUS_08520;note=WP_010966000.1 redox-sensing transcriptional repressor Rex (Clostridium acetobutylicum) [pid:43.1%25%2C q_cov:95.7%25%2C s_cov:93.9%25%2C Eval:1.7e-39],MGA_852
sequence1	MetaGeneAnnotator	CDS	979809	980663	.	+	0	ID=MGA_853;product=bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393025.1;translation=MYQLIDGKKISSEIKDEIKTEVSELKEKMGAVPGLAVILVGDNSASQVYVNSKERACKALGFHSEKYELSADTTEEELLKLIDELNEKSEINGILVQLPVPKQIDTKKVLNRISAEKDVDGFHPLNVGKLAVGDESAFYSCTPYGIIEMLKRSNIEIEGKEAVIVGRSNIVGKPMALLLLQENATVTVAHSRTKDLASVVKRADIIIAAVGRAKLITEDMVKDGAVIIDVGMNRVDGKLCGDVDFENVKDKCSYITPVPGGVGPMTIAMLMKNTLISFKRSKKI;locus_tag=LOCUS_08530;gene=folD;EC_number=1.5.1.5%3B 3.5.4.9;note=WP_011393025.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Moorella thermoacetica) [pid:58.4%25%2C q_cov:97.9%25%2C s_cov:98.9%25%2C Eval:1.9e-88],MGA_853
sequence1	MetaGeneAnnotator	CDS	980897	981700	.	+	0	ID=MGA_854;product=site-2 protease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164930880.1;translation=MKSKFNEYVYKFRQMNRNISPIAKYVYGGLIILIFIALFKKVILNPGIIIMIIAMYFAIVLHEVAHGYVAFLNGDPTAKIFGRLTLNPVKHIDPIGITIPMILIFMGSPFVIGWAKPVPINYSMLKNKKIGLFTVAIAGVTVNFINVIISTLILKIFFSQQVIYSIYISLMQGMSINIFNIQNGLALFFIYFIFINMALGIFNLIPIPPLDGSRILEVFVNKKGKQLLNSMEKYGMIILVVLLYLNVIQMIIEPIFNFFLKIIFSIL;locus_tag=LOCUS_08540;note=WP_164930880.1 site-2 protease family protein (Aquifex aeolicus) [pid:41.9%25%2C q_cov:80.9%25%2C s_cov:96.7%25%2C Eval:1.8e-40],MGA_854
sequence1	MetaGeneAnnotator	CDS	981747	982760	.	+	0	ID=MGA_855;product=anthranilate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869732.1;translation=MDIKMGIKKVTSREDLTREEMIDVMNEIMEGKATDAQIAGFLIALKMKGETIEEITGAATVMREKSLKIYPEKEILLDTCGTGGDNLGTINISTAVAFVAAAAGISVAKHGNRSVSSKSGSADVLEALGVNLSITPEKVEESIKKVGIGFLFALTHHKSMKYAIGPRRQLGVRTIFNVLGPLTNPANAEYQLMGVYSKDLVEPIANVLNNLGIKRAMVVHGEDGLDEITTTGKTFVGEVNNGEVKTYSINIEDYFEKNSVEDLKGEDAKYNGEVIKNILSGKEKGAKRNIIIINSAAVLFITGLVNDLKSGIKKAEEILDSGKALNKLNEYVKFTNS;locus_tag=LOCUS_08550;gene=trpD;EC_number=2.4.2.18;note=WP_010869732.1 anthranilate phosphoribosyltransferase (Methanocaldococcus jannaschii) [pid:56.8%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:2.0e-98],MGA_855
sequence1	MetaGeneAnnotator	CDS	982863	984161	.	+	0	ID=MGA_856;product=dihydroorotase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392399.1;translation=MYVLKNGFVVDSENGLYGKMDILIKNGEIVEIGENISINNAKEIKIYDLSGKTVFPGFIDMHVHLREPGREDKETIETGLKAAVAGGFVGVAPMPNTNPICDNKVVVDYILNQAKELKLAEIYPIGAITKGEKGEELAKIGEMFESGIVAVSDDGHPVTNSMLTRRAFQYIKQFDIPLISHSEDVYISKDGVMNEGEYSIKLGLKGIPNSAEEIMVDRDIILCEAENSRLHIAHASTNGSLRMVKEAKLRGVNVTVEVTPHHFTLTDEEVEKQDYSTDTKVNPPLRNKKDRDAIIEYIRDGIVDVIATDHAPHTKVDKNVEYDFAPFGISGIETAVGLVVTELLKKDVIDLNRMAELLSINPRKILKIKGGIKKGNLAKLSIIDIDKKWIVNKNEFYSKGINTPFNEMELYGKPYMTIVNGNIVMKNGEILG;locus_tag=LOCUS_08560;note=WP_011392399.1 dihydroorotase (Moorella thermoacetica) [pid:47.4%25%2C q_cov:99.3%25%2C s_cov:98.8%25%2C Eval:2.1e-109],MGA_856
sequence1	MetaGeneAnnotator	CDS	984162	984767	.	+	0	ID=MGA_857;product=trimeric intracellular cation channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775326.1;translation=MVIEILNIIGVIVFSISGALKGLKYNLDILGVVVLGTITAIGGGILRDLLLNDMPMVLKNETDMYFAIVVAILTYIGGRRVENYSKIIKVFDAAGLAVFTIIGAARGMDKGLGVLGIVIMGTLTGVAGGVTRDLLVREIPFVLKEEVYALFCILGSAFYFYSVKYDFLSKNMTMYIIIFGIFLGRIVAVKYDLHLPKYKGH;locus_tag=LOCUS_08570;note=WP_012775326.1 trimeric intracellular cation channel family protein (Streptococcus suis) [pid:38.9%25%2C q_cov:97.5%25%2C s_cov:94.5%25%2C Eval:4.8e-33],MGA_857
sequence1	MetaGeneAnnotator	CDS	984944	986062	.	+	0	ID=MGA_858;product=glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941928.1;translation=MKAILYFEDGTYLMGESFGAEGEIIGEVVFNTSMTGYQEILTDPSYRGQLVTMTCPEIGNYGVNSEDVESEKVQAAGFIVKNYNEEYSNFRGEKSLAEYLKENGVIGIQRVDTRAITKKIREKGAMNGIISTVEFEVEKLAQKLKEAPSMEGLDLVKEVTTDKIYKWNKLNNEKKYNVVVYDFGVKQNILRILENLGCDLTVVPATTSAKEILELNPDGIFLSNGPGDPAAVDYAIKNIEQIISKVPVFGICLGHQLASLALGGETYKMKFGHRGGNQPVKDVNSGKIEITAQNHGFAVDADSLKDKGGEIKYINLNDNTVEGLTYKEKELLTVQHHPEASPGPHDSYHIFEEFIKMMEMRQNDKTQNTNSR;locus_tag=LOCUS_08580;gene=carA;EC_number=6.3.5.5;note=WP_010941928.1 glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit (Geobacter sulfurreducens) [pid:56.9%25%2C q_cov:96.5%25%2C s_cov:98.9%25%2C Eval:3.7e-120],MGA_858
sequence1	MetaGeneAnnotator	CDS	986031	987260	.	+	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRHKILIVDDVHAAHHLYKQTLKREEYEILDAERGKEALSLILSEDIELVILDINLPDISGLEVLKKIREKNKELPVIILTGESQKEKVIKAASFDIIHYLVKPINLDMLKRRVKQSLKLDKNEKLGVIATKSKEILDELCDIEIDESLDENVKELKEQIKDIALKLHSLEEKQKEKTKLDEVIWEKEVECPVCGTNFITYNFKSKSLPIKEKESDFHEIYDFLNPLVFDIWVCPECLYASKREDFEDVNMELIEKIAKDKSKRKKIANKADFNLPRNNELGILSYRLAIMSYRYRKQSNAFFGSLYLKACWIAREQRDIDVEMEFMRLVTDYYEKALSSGEKIGGQLSELGLIYLLGELYRRLGDLDKAGKYFMKVKQDPEVKKEKAILRMSDAQMELVKEAKKNKK;locus_tag=LOCUS_08590;note=WP_009896932.1 response regulator transcription factor (Clostridioides difficile) [pid:31.9%25%2C q_cov:51.6%25%2C s_cov:87.1%25%2C Eval:6.0e-18%2C partial hit],MGA_859
sequence1	MetaGeneAnnotator	CDS	987257	987835	.	+	0	ID=MGA_860;product=IMPACT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015911.1;translation=MRTIKKEHKIEFEEKKSEFIGYIKPIKTKEEAIEFIEYIREKHKDARHNPYGYRIYSGGVESFKFDDDGEPKNTAGKPIADLIAIRDIWNVVIVVTRYFGGIKLGAGGLIRNYAKAAKLAIEESEIVEIVEKSVVVIDFSYKKINEIDFYLNELKINILRKEFEERVTYTLSATKENIKKLKKINGIIIIEN;locus_tag=LOCUS_08600;note=WP_011015911.1 IMPACT family protein (Fusobacterium nucleatum) [pid:49.1%25%2C q_cov:82.8%25%2C s_cov:81.5%25%2C Eval:5.6e-44],MGA_860
sequence1	MetaGeneAnnotator	CDS	987860	989449	.	+	0	ID=MGA_861;product=ATPase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010974732.1;translation=MYIKTGISGFDKLFQNEGIIKENIYLLKGTPGSGKTTFGLEFIYNGAMFFNENGIIISFEEIPEQLYRDAKNQGLDLKKLEDEGKLKIIFSSPETVLKSEFIGEEGYLGNVVREMDIKRIVIDSVTHLKRISNTENEYRENLYRIISGIKSKKVTGMITEEFYNKLGVAEYVADGVIYLRNRKTENLKNIRTLEVFKSRGQDHISGEHYFEISRGIKVYPLIKDNLKIEGKEEERISTGVEKIDKMLDGGYIKGTFNLVVGSAGVGKTIFATNFLKDGLENKESVVFLSFEESENKFFQFTGSLGIDMKNPNFIFYHKYFDEAVVAKIIYEIENMLKNYNIKRVVIDTLNTMFFNENLEKEKIFINQLKYVFEKYGVTTMALLEEKKIMGEMELTDEGYSFLSDSIIMMRYLELEAVIKRVLTIVKARGIKHEKKIFEYNILQNKGINIIRKMNGVSGIMSGAATGKIKESINEIFQPLEFLDSFSEYIGTEASEKERKDISQQMKDVIKTLKNNLLNYLELNEDEING;locus_tag=LOCUS_08610;note=WP_010974732.1 ATPase domain-containing protein (Agrobacterium tumefaciens complex) [pid:25.8%25%2C q_cov:86.8%25%2C s_cov:93.8%25%2C Eval:1.2e-40],MGA_861
sequence1	MetaGeneAnnotator	CDS	989442	991916	.	+	0	ID=MGA_862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDETYENKIITIKKILDEKDYSKSSVLIGYLKDKNYKIREMASNALVNIGTDLEVINILMEAISSDDPNYRNSAIASLVLMGEKAIPYLITEINNKDKDVRKFVIDSLGDIGSEKAIPYIIQRIDDIDENVEQSVCENLGKIGSPKGVETLIKALEKNDWIQFAAIEALGEIGDFSAVSHIIKIMKISNDWIKYVAIEALGKIGDETVLSHLCDEFFSENDEILKITVISIHKIVKNSKLKLCENINEKKELISKKLKQILEGDISQEITIPILSLIGILKLEKLYNVLIQGLLSNRQDISETALMSIKKYGEKGISKIENSLNENSHNLDYEVVLIYILGEIGAQSNKKEEVFKVIEMYIKREEEEIREVAIEALYKINKLQSKDYILKSIDDKSGNVRKMALHLMLDYKFDVSLEKIFKVLEDEYEDVRIAGEDLLVEIGKKRVEKLLIKKLKENINIINFPAVTHLIKIVGRLEILSGIGVIIELIEKYDELKEVGIQNLGKLRSRIALDYLIGKLKEENIQIRRMVADALGKINDDIVVQSLIEILDDDNEWVRYFAVNSLNNFKNEKILNKYIEMLRYTEESQVIIEILNGIGKYEDFLENEKIYEVVDKYIEDKDEDIQCAAIACLKKIILRNKKIRSRVIKMLETKSWKIKNSILELLFNVELENEEYIYVLPLLKDDNLIVKQKSLEIIGKSGKLNLLKPMIESIMDENLEEVAKRLLEKVKENGYPRLLEGLKSEYDAIRIFTANSLKIIGDISAVDILIESLKDSNWKVRYFSAEALGIINSEKALKPLTTLLNDKNEYVINAALNAIRKIGRA;locus_tag=LOCUS_08620;note=WP_010942856.1 HEAT repeat domain-containing protein (Geobacter sulfurreducens) [pid:22.9%25%2C q_cov:68.1%25%2C s_cov:83.1%25%2C Eval:5.1e-28%2C partial hit],MGA_862
sequence1	MetaGeneAnnotator	CDS	991918	992826	.	+	0	ID=MGA_863;product=protein-glutamate O-methyltransferase CheR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939354.1;translation=MVNSKFSRRKIVEEKDDVEFKLEEFYTIRDFIYSKSGIYFKENKIELLRNRIIKKIKDNSFNSFKEYYYYLKYNSDEKEFKLLMDAITINETKFFRNNILMSNFEAVILPEILKEKEINREKYIKILSVGCSTGEEPYTIAMILEENKDILMEKGISYKIVAGDISSKALNSAKEGIYKTTQFRATKDKYIKKYFKVIGEGKYEIDFSLKSKIDFNYLNLADLNSLKSLGNFDIIFCRNVMIYFDNDFKTKLIKQFYEMLNENGYLFIGYSESLFSINNDFKLKQLNGSIVYKKEAEKCQKY;locus_tag=LOCUS_08630;note=WP_010939354.1 protein-glutamate O-methyltransferase CheR (Desulfovibrio) [pid:39.5%25%2C q_cov:95.0%25%2C s_cov:97.9%25%2C Eval:2.6e-54],MGA_863
sequence1	MetaGeneAnnotator	CDS	992811	993176	.	+	0	ID=MGA_864;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939351.1;translation=MSKILIVDDSSTIRKLVKFTLQMKKHEVTLAEDGLQAYRLFMQYDFDLIITDLNMPIMNGIELIKKIRLGSKFKDIPIILLTTESEEKDKKMGEKVGVTKYITKPFQPPKLLKEIEEILKS;locus_tag=LOCUS_08640;note=WP_010939351.1 response regulator (Desulfovibrio) [pid:46.3%25%2C q_cov:98.3%25%2C s_cov:99.2%25%2C Eval:2.4e-23],MGA_864
sequence1	MetaGeneAnnotator	CDS	993201	994304	.	+	0	ID=MGA_865;product=chemotaxis response regulator protein-glutamate methylesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545234.1;translation=MINAMVVDDSSFMRRAIKKILEKSGKIKVIEMANNGKDAFDKLMNNDEIDVITMDVEMPIMDGLEATKLIMDNKPRPIIILSSVTQYGTESAIKALEYGAVDIIVKSGNLSLDMNKLSNEIVDKVISVSGVTIKNNMRNLLIKNKILEKSIKKYDSEFIYSKNIRYKKLERMEKNPKVLFIGASTGGPKVLKKLIMGLPKLNLPIIITQHMPKGFTESLAKTLNSVSAMDVKEIAIGEELKSGIVYVVPGGTEHTILEKKDGKLIFNLKSNNEENKFYIPSVDVMLKSLVDIFNGRVFVIILTGMGNDGLDGVKYLRKYKNGYVIVESEETAIIYGMPRVIAEENLENEILENDKIADRVIKLLKTV;locus_tag=LOCUS_08650;note=WP_012545234.1 chemotaxis response regulator protein-glutamate methylesterase (Thermodesulfovibrio) [pid:37.7%25%2C q_cov:98.4%25%2C s_cov:99.1%25%2C Eval:1.9e-60],MGA_865
sequence1	MetaGeneAnnotator	CDS	994399	995586	.	+	0	ID=MGA_866;product=nucleotidyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902445.1;translation=MKATGIIVEYNPFHNGHKYHIKKAREVGNSDCIIAVMSGDFLQRGEPAILNKWERTKMALLNGVDIVLELPTIYSTQSAEIFAYGAILVLEAMKVKNLVFGSENGNISNFLNYVDFIEEFKDEIDFEIKKLIKTGISYPNAMSNVIGKKIKIDGFLQPNNILGIEYIKAIRKLNLLIEPLTIKREKSNYNDKDIKGNIASATAIRKTIFEGDIEKIKKAIPEETFGILSKNVKMKNLKKIDDFYQILRYKIISDKEKLLDIQDLEIGLENRLYEAALKAKTFYEFYQLVVTKRYTMSRLYRVFTHILLGITKEMTDNAKNIDSMYGRILGISDIGKKYLRDIKQDESLEIITNLKESKKIKGGKRAIFELGLKSSYIYSIDKEYIEPRFPIFLKY;locus_tag=LOCUS_08660;note=WP_005902445.1 nucleotidyltransferase family protein (Fusobacterium nucleatum) [pid:42.0%25%2C q_cov:98.7%25%2C s_cov:98.2%25%2C Eval:3.2e-77],MGA_866
sequence1	MetaGeneAnnotator	CDS	995763	996797	.	+	0	ID=MGA_867;product=BMP family ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583513.1;translation=MKLIRKNLVLVLVLMLTVGAVAQAGLFDFFKKKSDTKVTKKATVKKLKAGIVFSIGGLGDKSFNDSAFRGMKMGKDKLGVEFNYVEPASPAEDEQYLRQYAEAGYDLVIATGFLMHDSCEKVAKEFPNIKFAIIDSYVDLPNVSSLLFKEDEGSFLVGAVAGMMTKTNTVGFVGGMDIPLIHKFQNGFEQGAKYVNPKVKALSVYTSGPNPFNDPVRGKEEALSLMQQDADVVYHAAGGTGMGVIEAAKEKGVYAIGVDSDQDGVAPGVVLTSMMKNVDVAVYNTIKAVKDGTFKAGENRFGLKENGVGVTNFEYTKNKLPAGTIEKIKEIKAKIISGEIKLAK;locus_tag=LOCUS_08670;note=WP_012583513.1 BMP family ABC transporter substrate-binding protein (Dictyoglomus turgidum) [pid:54.2%25%2C q_cov:86.6%25%2C s_cov:88.1%25%2C Eval:3.0e-81],MGA_867
sequence1	MetaGeneAnnotator	CDS	996882	999503	.	-	0	ID=MGA_868;product=single-stranded-DNA-specific exonuclease RecJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016344.1;translation=MKNTRWIYKEKNIKNIPEEIKKININQDILSIIYNRGITSKEKIINFLNPDINNISNPLLLKDVDEATNFILKSMQNNKKIWIYGDYDVDGITSSSLMVLAFRKLGYDIEYYIPLREEGYGLNKEALAYIKEQGGDLVITVDCGISSVDEVQYANSIGLNVIITDHHEINNNIPPAVAVINPKRIENSYEFKSLAGVGTAFMLVLNLFKANNIKEEAYSLLYIVAIGTVADIVPLKEENRIFVKHGLKLLNSNENIGLKVLLKKLFENYATKKFNTYDIGFIIAPTFNAAGRLDDAKKGVALFTTTSIKEAEIISNDLIENNFQRKSIQKTIYEKVENEITKNHLSDKYVIVVSDTSFHHGVIGIVASKITDKYYKPTIIMELKDDGTAVASARSIEGFNIIEALIETKDLLIRFGGHEGAAGFSILQKDIPLFEEKINEVAKNRLSSKDLIKPIKIDKTIFPYDISYEFFNVLKKLEPFGFGNPKPIFATNNVSLKNIRLIGKDRSHLSFDIETPCTTHKSCVWFGEGELKEKLDVHKKYNIAFKLDISEFKDKYYTKVYTADIVESKKEYSSKYNYYNYLYNYKFPIKTIIYTKHKIDISDKLYIKLDKDYSSIPVYNNKEIIGFFNETTSKLILNLNELYNKKFDLKISNITKTDSNFQILIDIIEKKRFETYSYKPGVIFKEIKNFLIGDFEYNSFQKKVLSEFIKNKKNIMLPLQEGVGINTIILSIGIYYWITTSKKSILITEKKLDDIFYEYFDIVDSKISIKNKYNFAVYYDVIPKVINNDTPTIITLKKIINIKNFENIINNIEIPENIIIVDDNNVESLEKDNKKIFYIELPNKLKKEIISNLKNNMKNNEKIYSTNDIKLFL;locus_tag=LOCUS_08680;gene=recJ;note=WP_011016344.1 single-stranded-DNA-specific exonuclease RecJ (Fusobacterium nucleatum) [pid:43.7%25%2C q_cov:86.9%25%2C s_cov:89.1%25%2C Eval:7.4e-166],MGA_868
sequence1	MetaGeneAnnotator	CDS	999648	1001204	.	+	0	ID=MGA_869;product=PP2C family protein-serine/threonine phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081499.1;translation=MKLDEFISKIANSLEKGKIITFFFNNKNVMDTAKGLSIWLNISEEKLKNILNELVDSKIIVLEYGMYYYKPSNEIKGVLAEFNKYYKTQKNKFIDAISEIPTYDKELEEKLEKLTEELFEKNRVLFILQEINEIINSPKKIEEIIDMMSDVIELHLESDGIFFQYKLSNISGEKIEIENSSLKKYVISNYNFSDKISNEVIIKFIKEFNFKIYKYDIIGENNNKIAELKILKKAKEIEEFEKDLELLNIISSLIGQMLEKQNYFIEKIKKEKLEVDLELAKKIQLSYIPETFPEIEGFQFASIYKPARMVGGDYYDWFQIGEDKYSFVIGDVSGKGSSAALYMVKARENFRVYSKDNIDSDNVLECVNDNLSNDVDVEKFMTAFYFTLDLKNKKIKCSNAGHDPLLIVRDGKIIKVEIRGLPLGIIESSTYQSVDIELKKGDVIVVYTDGIPESRNLEKEFYEFDRFLKVLKENYKKNPNELVVEIENDVKKFIKDAPQHDDFTMFIIKYNGKSEKEI;locus_tag=LOCUS_08690;note=WP_004081499.1 PP2C family protein-serine/threonine phosphatase (Thermotoga maritima) [pid:29.4%25%2C q_cov:78.4%25%2C s_cov:89.0%25%2C Eval:7.8e-45],MGA_869
sequence1	MetaGeneAnnotator	CDS	1001225	1002571	.	+	0	ID=MGA_870;product=adenosylmethionine--8-amino-7-oxononanoate transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964671.1;translation=MIGERIWLEKDREYVWHPFTQMKDYENKDHVLIERGEGIFLYDYNGKEYYDTISSWWVNVHGHNNVRIKKAIIKQMEKIEHVNFSGFTHTPAIELAERIINLMPKDLTRVFYSDNGSTAVEVALKMSFQYWKNKGFDKKKNFIYFENSYHGDTIGAVSVGGVQGYHGLYKPLLFDSFISEAPNCKKCKYNKEANSCQLECLNGIEKILEENSETISGVIIEPLIQAAGGMHFYSPRVLKKLREVTKQYNVHLIIDEVAMGFGRTGKMWAFEHAGITPDLVSISKGISAGYLPLAATIVTDDIYNAFYDDYNKNKTFFHGHSYTANPLACAAGIESLKIFEEDKLLEKVKETSEYLEESMKVFENNEHIENIRCLGLIAAMDVVKNKKTSEKYDSKIRIGKKIYEKGFEHGLVLRPVGDTIYYFLPLSVKKEDIKEIIKRTQDVLLGVL;locus_tag=LOCUS_08700;gene=bioA;EC_number=2.6.1.62;note=WP_010964671.1 adenosylmethionine--8-amino-7-oxononanoate transaminase (Clostridium) [pid:50.0%25%2C q_cov:95.8%25%2C s_cov:96.2%25%2C Eval:2.2e-130],MGA_870
sequence1	MetaGeneAnnotator	CDS	1002572	1003822	.	+	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKFKKICEKEIGDFIKKIKNTDKNLEEFRMDNCEYFLFFEDDNPIAYAIIGKESDEYFLYDFFVKKEERFRNVGTNFMKNIFEELSKNNVDEFYLKSWGNNKYFFLRNGFIEENGKIFIKDLMMSKKRQKEGMFGTIVSIVVNIFLSILKIMFGIIGKSHGLIADGIHSFSDVITSVVILFTLKIASKPADNEHPYGHGQAESIAGNMVGVILIITAVQLIIENIKYLVVGKDKTVPEGITIIIVVIAIIIKFILYKYKMNMAIKLNNDAILADAKDHKSDVISSIGVLVGILLAIKFSPIFDILTGILVAILIGREGIEVVIHTSNKIMDEQEKKFISSIEEIVENTAKVYNIHNIFMKRSGDKVYLAFHMRVNENMSVTESHFIVDEVMIKIKNKYKFVEDIIIHVDPLREKI;locus_tag=LOCUS_08710;note=WP_011948895.1 cation diffusion facilitator family transporter (Clostridium botulinum) [pid:33.9%25%2C q_cov:70.0%25%2C s_cov:100.0%25%2C Eval:7.0e-46%2C partial hit],MGA_871
sequence1	MetaGeneAnnotator	CDS	1003961	1005304	.	+	0	ID=MGA_872;product=TrkH family potassium uptake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015791.1;translation=MGSFFKLKKKTPSQILINSFLVIIFIGTTLLSLPISKTNNGSFDIVTAIFTATSAVSVTGLSIVDVSTYYNDFGKVIILILIQLGGLGIMTFSSIIMLIIGRRITYEEKKILQEDLNQEKLGGIIHFIKKLFFTVATIELIGAIFLFIEFSKQFGFTNRALFYSIFHSVSAFCNAGFSLFGDSLVQYKSNYIINIVISSLIVLGGIGFSVINGFIGYTKTGKKKFSLTSRMAIKISIWMIVIGTILIFFTEGSNVKTIGDLNFFDKLLASLFQSITTRTAGFNTVSIGDLKPATIFLFIVWMFIGASPGSTGGGIKTTTFGVIIYSVFSIIRNKKDVEIKNRRISWHILNRALAILVISLFYVILITLSILIVEEKDFIQIFFEVISAFGTVGLSMGVTADLTTFSKVLLIITMLVGRVGPLTFALALGENLEKPKYRYPRENISVG;locus_tag=LOCUS_08720;note=WP_011015791.1 TrkH family potassium uptake protein (Fusobacterium nucleatum) [pid:46.7%25%2C q_cov:97.8%25%2C s_cov:97.1%25%2C Eval:2.9e-114],MGA_872
sequence1	MetaGeneAnnotator	CDS	1005337	1005993	.	+	0	ID=MGA_873;product=TrkA family potassium uptake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904246.1;translation=MKQFLVVGLGRFGTSVASTLFENDESILALDKNEDIVQESINNNLIDNGITVDATDMNTLKNLGVSNFDVAFVCIGTNIQDSILITLNLKELGIPKIIAKALTEAHGKVLKKIGADEIIFPEVYMGQRVALKEIDPNILEHIKFSDKHILVEIKAPNKFYGKTLEKLALRKKYNINIIGIKRSDKELEINPMGDTKIENGDTLIAITDSKTAKELEEL;locus_tag=LOCUS_08730;note=WP_005904246.1 TrkA family potassium uptake protein (Fusobacterium nucleatum) [pid:52.8%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:4.4e-62],MGA_873
sequence1	MetaGeneAnnotator	CDS	1006010	1007881	.	+	0	ID=MGA_874;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015790.1;translation=MFNYDVLVVGAGHAGCEAALAAARMGLKTGIFTITLDNIGVMSCNPSVGGPAKGHLVKEIDALGGEMARNADKTSIQVRVLNTKKGPAVRALRIQADKKLYHMEMKKTLENTDNLDVIQGLVTDILVEDSKIIGLRIKEGMEYRSKTIVIATGTFMRGLIHIGNTKFRGGRMGELPSDELPESLEKIGLNLGRFKTGTPPRIDARTINYEKVEEQPGDIGILKFSKRTSDEETLSKKQVPCYITYTNEKVHNFVLDNIDRAPLFNGSIQGVGPRYCPSIEDKIVRHQDKARHHIFLEPEGYNTNEIYVNGMATSLPTDIQYEMLQNMVGLEKSKIMRYGYAIEYDYILPEELKYTLETKKIKGLFLAGQINGTSGYEEAASQGLIAGINAGLLVQGKEQIILDRADSYIGTLIDDLVTKGTKEPYRMFTARSEYRLVLREDNADLRLTEIGYKIGLVPEKEYNRVKEKEKNVKETIELMENINVGPSNEKIQKLLDEIGETRLKSGTTAKELLKRPKIKYENLKNIFDEIKEFYRETEEQIEIQVKYEGYIEKQLKMIEKHKKLENKKIYDDFNYDNVMGLTNEAREKLKKIRPINVGQASRISGVSPADIAILILYVEGKKR;locus_tag=LOCUS_08740;gene=mnmG;note=WP_011015790.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Fusobacterium nucleatum) [pid:61.8%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.5e-226],MGA_874
sequence1	MetaGeneAnnotator	CDS	1007878	1008588	.	+	0	ID=MGA_875;product=16S rRNA (guanine(527)-N(7))-methyltransferase RsmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015789.1;translation=MKKILEKGLGIINLKLDEKTMDKLCVYGEFLQKKNKIVNLTSIIDDEGIIEKHFIDSLLLQKYLENYEGVEIKNVIDVGTGAGFPGMVLAIVNPNINFTLIDSIGKKVEFLKELKEKLGIENVNIYKTRAEDFIKENREKFDIGVCRAVSELRVILEYIIPFLKVGGSFLAQKVNYEQELEEAKNALELLNGEVIKIDKMRLPFNGENRVVLNIKKTKTTDKRYPRRAGIPVKRPL;locus_tag=LOCUS_08750;gene=rsmG;EC_number=2.1.1.170;note=WP_011015789.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Fusobacterium nucleatum) [pid:49.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.9e-59],MGA_875
sequence1	MetaGeneAnnotator	CDS	1008600	1009361	.	+	0	ID=MGA_876;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722150.1;translation=MKVISILNQKGGVGKTTTTVNLSSYLAKMGKRVLLVDMDPQGNATTGIGIDKSELENSIYNLILDDVAIKKIIINRKENLDVLPAKIDLAGAEIELVGKISRETRLKKKLDEIKNEYDVVLIDCPPSLGLLTLNALTASNDIIIPIQCEFYALEGLSQLLNTINLIKKELNPELNIAKILLTMYDKRLKLSEEVSNEIRTYFKEKVFENVIPRNIKLTEAPSYGKTIDEYDMNSNGAKAYYEIAKEVINSGII;locus_tag=LOCUS_08760;note=WP_003722150.1 AAA family ATPase (Listeria) [pid:58.2%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:9.4e-81],MGA_876
sequence1	MetaGeneAnnotator	CDS	1009348	1010223	.	+	0	ID=MGA_877;product=ParB/RepB/Spo0J family partition protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966989.1;translation=MESSKSSKTRLGKGLNALIKSDKNDSEKNSSNYILEIEIDKVKPNPLQPRKKFDESKIIELASSIKENGILQPIIVREKGDIYEIIAGERRYRASLYLKLEKISVIVKNAAEDESLELAIIENIQREDLNPIEEGEAYQSLIVKYGYTQEVLANKLGKKRSTITNTLRLLKLSTKIKQDIIVGKISSGHARALLSLKDEDEQEKLSNKITKEKLSVRETEKLIKLKKVVKNEKVKHREKSIETIEVEKKLTEYLGAKVRIKKMKDKKGQIVIEYYSNGDLERLLETICITK;locus_tag=LOCUS_08770;note=WP_010966989.1 ParB/RepB/Spo0J family partition protein (Clostridium) [pid:45.1%25%2C q_cov:97.6%25%2C s_cov:99.6%25%2C Eval:1.6e-61],MGA_877
sequence1	MetaGeneAnnotator	CDS	1010237	1011103	.	+	0	ID=MGA_878;product=HDOD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003358679.1;translation=MAQDNDRIKKIISKIDDLPTLPIVVTQLMELVDNPMSTARDINNVIKTDQSLTAKTLKLVNSAYYGFPRSIATVTDAVVILGFNTVRSLALSATVCKMFSGKTESFDRGELWEHSIAVAFASRIIAKKVKYQEEEEAFVVGLLHDIAKIVEDQYFHDDFVKAIEESKSKKIDLTVAEKEYIGMDHSLIGRRVADKWSLPSKVTKVIGYHHQPQFAGVGEDKVLASIVHVADVVVKIRKIGNSGNYGPLSINKAAVETLKISKKDLADTVQKLVVEMKKAADFLKIVQE;locus_tag=LOCUS_08780;note=WP_003358679.1 HDOD domain-containing protein (Clostridium) [pid:34.7%25%2C q_cov:93.1%25%2C s_cov:93.3%25%2C Eval:2.3e-44],MGA_878
sequence1	MetaGeneAnnotator	CDS	1011134	1012915	.	+	0	ID=MGA_879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIYIFIYLFISVYSFSIYEVGITYGDKPNEIIFPISFTMSKNNDTYVLDYGLSKVVLFDKKFKFIKKLDLEKGNISIKNIKDKIYLLNSIKNSITVYNLNLEKIFSFGSKGMTEKKFNHIGEIYMIKDKLYIFDEYNYRIQILDKNYNYLSQILLPKFEYIYKPYYSFNYDLSYNNGIIYILDKFNKKVYEYDVKTNKKIKKELNLAEMVSPAKMFFIKKSLVLFDKSNNNIYFPGVKTTKKVKEEGKKNNVEILNGSKIIEKDNNIFFIRESSIYKYNIQTKKEKKIIDFKKISKGEYLKPIALSEDKKNNLYVVDNSLNKVLIYDKKGSFVKEIENIGIFPTDIAIDDNNNKYISIAGENRIKKYNWKNRLIFTYGGYQEFPCNYKFWYDNLDKKEKEKKKKSEDRYIYNLKLDLDSMGYIYVLDSKEMNIKKYDNFFSEKDIIGGRESLLNIVRGKKSFDKFGWDEQNLDNLSDIFYNDNKIYVLDRFYKRIDIIENGKLTKFIEDKFSENGLNGIYVKNDKIYVTDTYNFSIKIYDNSLKRIKDVSLLQYGIMPVKIYGDYIIGISTKEALKKNYRIYNIKELLND;locus_tag=LOCUS_08790;note=MGA_879
sequence1	MetaGeneAnnotator	CDS	1012908	1013666	.	+	0	ID=MGA_880;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941482.1;translation=MISLNSVNVILSSKEILKDITMEVKEGEVFSILGPSGCGKSVLLQNIIGLMKPNKGEIIIDNIDITKCNKKELNQIRKKCGFLFQHSALFDSMTIEENLAFPVLQHTNLSYDIIKEKINEKLKIVGLNGINDKKPSELSGGMQKRAALARSIILEPKYMFYDEPTTGLDPIMSNVINDLIIDLNKRLNITSIVVTHDMKSAFKVSDRLGLLYNGEIIVQGDKEYMKKIDDPYFLQFIEGETNGPIDLNFIKR;locus_tag=LOCUS_08800;note=WP_010941482.1 ABC transporter ATP-binding protein (Geobacter sulfurreducens) [pid:42.9%25%2C q_cov:97.2%25%2C s_cov:98.8%25%2C Eval:3.4e-59],MGA_880
sequence1	MetaGeneAnnotator	CDS	1013663	1015042	.	+	0	ID=MGA_881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIVKKETFIGIFVFISIIALIIFLFSLGKISLSSNYYVVKVSYKDVSNLEIGTPVLLAGVKVGKVKNIYLDDGKVIVELYIKKNIKIRKGAKVAIFLKGVMGDLIVSIYNPLKGDEYYKNKDVLEGIDPISLNTLVDQLSETIVIINGLKDTIDKLPIKETKELIINLNKASKSLDKTLLESNKLIKVSSLILNENKKNINLLLNEMISFMKKLDSIIDSNNKNLKMVYNSILLTINNTQKILDDNSDNISGVSKNLKLITEELLEVIKSLSKDDISKVSKGIVGITDNIDKIVNSINGSLNEENKGKVSKSLKNIEDLSDKLKKYTNNKIKKEINLEYTNKNNKINGNIKLELKNENSNYFVGVNSGEFSDKLKNFNLTLGKYFDRTKIGIKFRTDGYMGTLIKYEINKKLYLTGDFNNLENKEVIIGTDFYFKNSKIYLRYELENFLHIGIGYEF;locus_tag=LOCUS_08810;note=MGA_881
sequence1	MetaGeneAnnotator	CDS	1015055	1019368	.	+	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDLIKKHKYAMLMPAFIIVIYIFTNLYITFKYQIQNTVKTLTKTYANLNINFVDMKIKNINEVELKDFIFKSKKGKVLLKAPRVKINFNIFPFKLSTIKVIDGKINFEMYKNSKINFLTEFENKESDSKENKEIPLNKIIFENSNINFQDFSKKNIISRDLKNSNGIISFYNGKIKIIAEGSTKYKEKLNLNLTFDKKLKLLINIKNLLINENDMQYIGELSGINRYKGRGNITLTIEDKNINVKGDFHNASLHYNEIEDKIYNINGKFDYKNKRLNLYTFGYVSGKKYDLNLLYLNSKLNIKISTKNITYNDVEKFKPIKNLNLKIKGKIEKANVDFNYINDKPYATIIAKSKKIFVFENELKNVNLKMVYDEKRLNIKNVEFSYSKDNLFSGELVGNAILTGKKIDGNIEIKKIKNIYIESLTNLKGTFIGQLDKNIIEINLKNKEFGNIFIRNDFLKNSIEIKSKIIKKQKLKIENQELLTKGNLDINYNFKNLEFEKGSFNLEGEYKNISCFVNGTILSNIMRIKKLYIKNEIAFGTLDGLFNLKTFFYKLNIKKSRINVKGSNIDLYTDGILTGKKEKFYYSGTISSEKGNYIGNYSGLKGKINLSYNGIFKGNFLGELKKIEYNNFNFQDLSINISLNDKILSFKNISNRFVTVLGDYNIDSKNMDLKYELTNYKLNDLKWLDAEGLNLYIKKINGKISGDFTNPKIYFDLKELNLKYKKNDILFSGNGEISDNILKLNKAKIDDNLITGKIDLINKNIDIHTNIFEENLNKYYDFKIPDYLKYRILGDINIWGNIKNLKSVGELNIDSINYKDIKLPSLYCKFSYNKGNVFNFLNSGIFDISNIEIRNYKNRKTALKGKGIANFKDKEFSLKIPDQNININNFGIDNINGQLNVKYNFIYKNKNIEYELIANSDMLNIFDAKIINLENHIEGNNSELTLKILRLYYNSNKFEAYGNLDMKNLKYNFRINAQKLRLKTFAFLLKDKLKLIDGEVDANIYLNDDSTYGTIKLNRGSLITKDEKIVLKNISGIGVINKNKFSISKFYSDINGGDLSGSGNLELDVPDISNIMKYKPKINNWDFNIKAENVKYYLNKNINVLFDTNLKIKNKNILGSLKIKSGEFSGIESGLKKDNKNYSDIFKGLEVGLDVSISKEFKIHLANISILEDLEASISGNGNLTIENKKINFLGTISTEEGVITVNNNDFKIENGFIVFDDPYLFFPELNPSISLLASTNIAGETIDAQLLGDLKSIKLNLSSSSNLNYSDIISLLTFHKKIGELSPGGVVRDVLARQLNSEIVFNPLSKRIAKILGISKFKLYSNILEINDKEGELNLTNDIRLGATLDLGNSLYKNILFWNVKGKLSDEISGKIDYYDVWLNYKINDQNNVSAGIKEEYSDDIGKSELHIGWNFKYKIYKWLDMINIFNIPKK;locus_tag=LOCUS_08820;note=MGA_882
sequence1	MetaGeneAnnotator	CDS	1019388	1021382	.	+	0	ID=MGA_883;product=outer membrane protein assembly factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367282.1;translation=MKKLILILNLLILSIAFGDSGTLIKNIEITSNKEVPNEIILNSMKLKKGMEFKSNEMINDYISIKNLEYIKDLEIYPKVEDNGINLMINVVEVEGVKKLLKDKGIVPNSEREKIDKNMIVQSIEVFGNSKVKKKDIIKEIPFTIGSYFSKTKTLEGKNKILAMGYFRDVSPEVLKYKDGIYIKYRVLENPILKGVKIEGNTLIGTKELLSKFNTKIGDIYNINILRKDIDSVTKSYVDKGYFLATVYDVALDNDFNLNIKVSEGILKDIKYEKIIEKTKDNAVSMSKELKTKKYILDREVSLEKGKPMEIAKYKESVKNIFRLGFFKDIKPDFIRDKNDPRYITLVLHLNENRSGSIQGGVSYGNSIGLTGNISVQDNNFMGKSQNLNLKFEVSSKNKKLYELSFYDPWIKGSNHLSFGSGLYRTEVQNSEKSDLDSVYTNKNGIRFSIGKGLTNRIRLSIGTKLEEVTEYNGSHEEIDKYSLLTLYPTIYYDNRDNYLDPKSGEYAKFSTTYGKVFGRTNYYLMDSEFRKYHKFLTDKNHMAYRVLWGYASEETPKSQIYAVGGGNSLRGYTSYDYEGNFELVLNIENRYQIDDNVQGVIFYDVGRTWTLFKDFSGLKDIKMGYGIGLRVKTPLGPLRFDYGWPINDKDKSGGKFYFNIGQLF;locus_tag=LOCUS_08830;note=WP_147367282.1 outer membrane protein assembly factor (Fusobacterium canifelinum) [pid:36.6%25%2C q_cov:96.5%25%2C s_cov:96.6%25%2C Eval:3.2e-126],MGA_883
sequence1	MetaGeneAnnotator	CDS	1021421	1021915	.	+	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIAVVISSLLISASIFAGGLGKVDTQKVLSKYPETQRTQQFLQSQKEKMQKDLDAGKEKVANYQKELEQKGDKATKEEKDKLDKMKSEFAKNYKGMQSSLDQLQYTMYEKLKSDINLAIKQVAKKDQLDAIFDSAVVYYGATDVTDDVIKFLSGVEKIDLSK;locus_tag=LOCUS_08840;note=MGA_884
sequence1	MetaGeneAnnotator	CDS	1021924	1022931	.	+	0	ID=MGA_885;product=UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903952.1;translation=MYSVEEIAKLIDGKIIGDKNFKVEGLAPFYESKENKITFALDEKFLKNLNKTLSKAIIIPEGIITEFDNNKIYILVDKSPKEKLMKILKFFKKEQKEIEKNIEEDLNIYVNVKISPNCYIGHNVKIGENSIIYPNVTILEGVTIGKNSIIYPNVTIREFCKIGDNVIIQPGAVIGSDGFGYIPLNGMHQKLEQIGSVIIEDNVEIGSNTTIDRGAIGDTIIKKGTKIDNLVHIAHNDKIGENCLIIAQVGISGSVEVGDNTILAGQTGVAGHLKIGSNVVIAAKSGVTNNVPDNSRMAGFPLRAHKDDLRVKVAMGKVPSLIKQIKKLEKKLEEK;locus_tag=LOCUS_08850;gene=lpxD;EC_number=2.3.1.191;note=WP_005903952.1 UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase (Fusobacterium nucleatum) [pid:55.0%25%2C q_cov:94.9%25%2C s_cov:95.5%25%2C Eval:6.2e-92],MGA_885
sequence1	MetaGeneAnnotator	CDS	1022933	1023613	.	+	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKYFILIMFLVISIVALSKPASKGFTGLIDFPTAYNLRISNYSVTGLIDHLEGNSKFGIMLEGGFIPQIEAGIKLSSEDKLINQKLLKANFKFQFVQEADNPAMAIGFVEDEDVVYGYLVASKSIRKLLNKKIFLDTSVGLKYNENSEASFFVGLGFPIFQKIKLLSEVYSYNSENKLGEKEKKISYNIGGEFYTTSNVSTKVFWREIDDSVGISISYTGIYDR;locus_tag=LOCUS_08860;note=MGA_886
sequence1	MetaGeneAnnotator	CDS	1023679	1023858	.	+	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELEEWNNLQCQLFKECNLNVKNIVEVYRVASKIAHLRELEDFELALGYAKDILMKEVG;locus_tag=LOCUS_08870;note=MGA_887
sequence1	MetaGeneAnnotator	CDS	1024093	1024950	.	+	0	ID=MGA_888;product=lysophospholipid acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_021779466.1;translation=MKKEIKYRFEVSLYYIIKFFILLFPMKIRYKIAEFFGVIIYKLLKIRKRVTLKNLEIAFPEADNITIEKIALESYKNISKTFFELLWLDEIKTKLVGREKLDVELKKGKGVILLSLHIDNWEILGQELGKSGYNVYGVAKSQSNKILDEIINNIRTKHGAKVIFKGRNSSRLLIKALRENAILGLISDQYTNDSEVIFFNKKTKAPTGAAVLALKFDVPVFLAYTVREKDNTHIFYFEKKIDLQKTGDDKQDIKTNTQICTSEIEKVIRKYPEQWFWQHDRWRIK;locus_tag=LOCUS_08880;note=WP_021779466.1 lysophospholipid acyltransferase family protein (Fusobacterium nucleatum) [pid:39.9%25%2C q_cov:94.4%25%2C s_cov:92.6%25%2C Eval:1.0e-52],MGA_888
sequence1	MetaGeneAnnotator	CDS	1024947	1025684	.	+	0	ID=MGA_889;product=3-deoxy-manno-octulosonate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016663.1;translation=MKILGVIPARYGSSRFEGKPLALINGKTMIEWVYKRALKSNVDKLIVATDDMRIYDKVKEFGGDVMMTSNSHKTGTDRIIEVAKEWNEYDVIINIQGDEPLIEVEMINQLIVPFVENSKLKMATLKHEISNKNNIVNPNIVKVITDKNGYALYFSRTPIPYNRDKKDAKYYRHIGIYGYNRQFLLNYNNLEKSVLEEMESLEQLRALENGYKIKVETTNFDVRGVDTPEDLHEVERIIKIKGIKI;locus_tag=LOCUS_08890;gene=kdsB;EC_number=2.7.7.38;note=WP_011016663.1 3-deoxy-manno-octulosonate cytidylyltransferase (Fusobacterium nucleatum) [pid:61.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-80],MGA_889
sequence1	MetaGeneAnnotator	CDS	1025694	1026818	.	+	0	ID=MGA_890;product=type III PLP-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082424.1;translation=MKLTEKLIRDTKNIETPALIMDLDIIENNYKSLVKNIDNSQIFFAVKANSHPKIVERLVRLGSSFDVASIGELDLVLSKNADVKKISFGNTIKKSKHIKYAYEKGVRIFVADEFLEIDKIAINAPNSKLFVRMQMSDSDSDWPLTKKFGTNIEKAKQLLIYAKEKGVIPYGISFHVGSQCYDKYIWKTALLKTKDIFDELREEGINLKFINTGGGMPIKHIREIPTIEEISDVINDTIKTSFEEYKDLIVAVEPGRSMVGNAGILISEVILRSEKEKNEWLYIDSGVFHGLMETSQGFKYEIIVPNRAGELCNYTLSGPTCDSVDTMYENIQLPDDIEIGDRVYFINAGAYTTGYASNFNGIEPPKIYFLDEIL;locus_tag=LOCUS_08900;note=WP_004082424.1 type III PLP-dependent enzyme (Thermotoga) [pid:48.5%25%2C q_cov:96.3%25%2C s_cov:93.0%25%2C Eval:9.5e-100],MGA_890
sequence1	MetaGeneAnnotator	CDS	1027175	1028110	.	+	0	ID=MGA_891;product=5'-nucleotidase%2C lipoprotein e(P4) family;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000782748.1;translation=MKKIGSFIAGILLSATVFAGTSEYVVQRGDTLSKIANKNKISVQKIMQFNNLKNMNFIREGQRLKLMPMYSQKNLNEQMVMAANWYQTSGEMQALSYQAFNMAKIIYYADLTSNKDNEQKRAVVVDIDETVLNNSPYDAGSIETNNSYPKEWNDWVKSEQAVPLPGAVEFLNFVVKNKGDVYYISNRSVKLLQPTINNLKKFGFPEADKEHVLLKGKTSNKEPRREQVAKNHRIVLLMGDNLNDFSYVFRGKTMSEKADLVDNLKSQFGNKFVLLPNPLYGDWEGDIYKGNWGMTPEQKNKARKEHLVKWE;locus_tag=LOCUS_08910;note=WP_000782748.1 5'-nucleotidase%2C lipoprotein e(P4) family (Bacillus) [pid:45.4%25%2C q_cov:76.2%25%2C s_cov:85.5%25%2C Eval:2.0e-57],MGA_891
sequence1	MetaGeneAnnotator	CDS	1028157	1029998	.	-	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKLRKLTIFYSLILIGFVFAYQFFSFPQFLLIGIILSLIFSLIILQLIYRLESFSKNENSSYPIENKISFLEFSKVNQFVQTLIYKNKIIDAVNIALTKSSNSINFFKVASENLGVVFNTPNIYFILYDPTTGLYEKTFSNGNFLDRTFNIDFKFLDQYQKNIIPPELFSTVFKNEDINLQNLGILKLHSSLNYIGYILLGYSNKLMDPDFFSEYNSVLLQVSTSFDLHINHSQLRKKIRELDLLNKIITLMEKDKDLNEIYHLYLTYLTSNDGIGFNRAILFSKNGNFFFGEKAIGEITEEEAKSTWEKIEKCPIEFFYSPSEIIKPINKIVNSSKINYSNDIYLKTILAKQNYETVNLNFSNFSESNKKVFKKFNLENFILVPLISYDTILGFVIVDNKFDKKKYTEYRLNSLINFSHQTALVINNLHLYQKNKKIAIIDELTQLYNRRFFDTSSKNEMTRSIRENIPLSLIMIDIDHFKNYNDNNGHIAGDILLSTISKLFKDTCRETDFVCRYGGEEFSIILPNTDMNGASELAEKVRTKVAENTFPYEELQPLGNLTISLGVSNYPETATTLEELKQQSDEALYSSKHSGRNKVTLWNEKIECDLK;locus_tag=LOCUS_08920;note=WP_235044972.1 diguanylate cyclase (Geobacter sulfurreducens) [pid:36.0%25%2C q_cov:38.0%25%2C s_cov:34.5%25%2C Eval:9.9e-42%2C partial hit],MGA_892
sequence1	MetaGeneAnnotator	CDS	1030177	1031502	.	+	0	ID=MGA_893;product=ATP-dependent protease ATPase subunit HslU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880072.1;translation=MNMNYTPKEIVEKLNKYIISQDEAKKNVAIALRNRYRRKEIQDIELKKEIIPKNIILIGSTGVGKTEIARRLAKIANAPFIKVEATKYTEVGYVGKDVESIVKDLVALTFRMVQNEKAKELREKYIEKVYEIIAKKLFSYETINDDKKEEIIEKIKSGEYDESEIEIKPHSKSISPVIEVYSNGRGDGPEGLGNITEMLDDLVSGLSGKPQKQKKIKVKNAIEILLQEEINENTNKEDLIREAINKVENDGIIFIDEIDKIAERGTRSEVSRQGVQRDILPIVEGTTVMTKYGPVKTDHILFIAAGAFSMTKPSDLMPELQGRFPVRVELKNLSKDDFVKILTNVKNNLVYQYIKLLEVEDVTLEVTDEAVDKIAEYAILLNEKIENIGARRLHSVIEKVLKDILFEAPYGENRKIILKGKDIDDKFKGAIKKENLENYIL;locus_tag=LOCUS_08930;gene=hslU;note=WP_010880072.1 ATP-dependent protease ATPase subunit HslU (Aquifex aeolicus) [pid:50.9%25%2C q_cov:98.9%25%2C s_cov:97.1%25%2C Eval:4.5e-115],MGA_893
sequence1	MetaGeneAnnotator	CDS	1031606	1035127	.	+	0	ID=MGA_894;product=chromosome segregation protein SMC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373219.1;translation=MYLKSIEISGFKSFADKTKLNLSKGITSIVGPNGSGKSNVLDAVLWALGEQSYKSIRAKEGSDVIFSGGKNSKKKGMAMVSLIIDNNNSLLDIEYNEIKITRKIFSSGENEYYINDGKVRLKDIHELFMDTGIGKKAYSVIGQGKVEEIIMSSQKELREIIEEVAGIKKIKKRKEEAEKKLEKLNDNIEKIEIIENGIVERLGPLKKQYEKAIKYRELNESLNEYRYVIYKKQKETLGISLEKIGVEKDRKLDELEKIKENFKATEENLEKQVQLKEALQNKIFEKENSLKEIETVLNINENNKILYFERENNNKKSLEKINLDIIELNTLQDTRKKEIIKLKKDVNEIENEIKKQFEILEKDKEEVDGIQIKTLNLEKSLEKSKKDIFNLEIEKAKLQNKLESKDNKVKKIEIHIKNLEIENREVIDEKHKAIEESNKIVKNIDENRSKLREIQINIDDKFEQIKELKKTVENKNVIVEELNRKLNNRILKSQALNRMNENFEGLFKGVKEIIKSNISGVISPFMDIIEIPEYLETAIVTVAGNSLQDIVVENSSVAKKCIEFLKREKKGRASFLAFDMVSKSKGGKIEKKDGILGRLSELVKYDNQYKDVVELVLGNILVVKDVNIGINIQKKRSFYGTIVTLEGEVIHSKGKISGGEKVKNGITMIFERKKEINNINEEITNIEEILVKEKQYEIKIKKDINILIDKIEELNINKSNIEDILKKLGSEKEKRAYLLNSIENKLEVIEYELKNEKNYLNEIIENSSKQNNEVKIIEEDILKLKNNILELEFKLKENRKKSEKNSGEYYEKKSKIDILKQKKEFVEKNLFDKEEQLKNVLENLNKNNSQRDIYISEIEDLEKKLLKIDEILSEKSGFLKNMQTGIEQLKEEFLNFQNLEKMKIIEIKEIEKELIKNENSYHIIIKEYEVLNDEFEQIIKKFSEVDYEGELDEALLKLPVDILKSEINKLERSINKIGEINLYSIEEYKELSKKYEVLKYQKEDLINSKKELEKLIASILEELLNNFVLAYKELKNNFSYTCQEMLGMAKGEILLTNSEDLLNTGVELKVKFNNKKEQSLSLLSGGEKSMIAVAFIMAIFMYKPSPFTFFDEIEAALDETNTKKLILMLKKFTEKSQFILITHNKETMKESDTLYGVTMDKSEGVSKLLSVDM;locus_tag=LOCUS_08940;gene=smc;note=WP_147373219.1 chromosome segregation protein SMC (Fusobacterium nucleatum) [pid:36.0%25%2C q_cov:99.9%25%2C s_cov:98.9%25%2C Eval:1.8e-202],MGA_894
sequence1	MetaGeneAnnotator	CDS	1035155	1035640	.	+	0	ID=MGA_895;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011922234.1;translation=MIRDVKLEDSKAICDIYNYYIENTIITFELEKIDSKEMENRIKEISNKYCWIVFEEENEILGYAYIGLWKSREAYNRVSEVTVYLKKGYDRKGIGTKLLKELMNRAKKMENMHSLISVIAIPNEGSIKLHEKLGFTKAAYYKEVGYKFDNYIDVECLQYIL;locus_tag=LOCUS_08950;note=WP_011922234.1 GNAT family N-acetyltransferase (Streptococcus suis) [pid:36.9%25%2C q_cov:97.5%25%2C s_cov:92.3%25%2C Eval:3.3e-24],MGA_895
sequence1	MetaGeneAnnotator	CDS	1035858	1036811	.	+	0	ID=MGA_896;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404896.1;translation=MEELIKEKAKTVEKLKLEIGKVIVGQDYMVDRILVGIFTGGHVLLEGVPGLAKSLTVSTISKVLGTEFNRIQFTPDLLPADVIGTRMYNQPTGEFITKKGPIFSNIILADEINRAPAKVQSALLEAMQEKQVTIGEESYQLDRPFLVLATQNPLEQEGTYPLPEAQQDRFMLKLNVDYPKKDEEKIIIDRLTGEDRIEDTKLEALVSKKDIFEIRELVRKVYVSDELKNYVLDIVFKSREKSDYIECGASPRASINLILASKAIAFLNGRNYVIPDDVKEIAYDVLRHRLILTYEAEAEDLKVEDIIENILGSVNIP;locus_tag=LOCUS_08960;note=WP_011404896.1 AAA family ATPase (Salinibacter ruber) [pid:56.3%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:8.9e-101],MGA_896
sequence1	MetaGeneAnnotator	CDS	1036942	1037763	.	+	0	ID=MGA_897;product=DUF58 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761572.1;translation=MVDKEILKKLRKIEIKSNRIAEEIFTGEYHSVFRGNGMEFEEIREYSLGDDIRNIDWNVTARQNKAYVKKFKEERELNFFLLIDMSCSTTYGDKKNMIAEIGATLAFSALKNNDKIGGMLFTDEVEKIVPAKKGKKHVLSIIESILEYSPKNRKTDIKKALEYFFRFEKKKSVVFIISDFLDEGYEDELKKLKMKHDIILIRIIDRSESLIPKGAIFSFRDLETGEEVIIDNSKRSLELSSQLKIFSKNMINVYTDMDFVKPLMLFFKKRMRR;locus_tag=LOCUS_08970;note=WP_008761572.1 DUF58 domain-containing protein (Bacteroides) [pid:44.1%25%2C q_cov:98.9%25%2C s_cov:99.7%25%2C Eval:1.5e-66],MGA_897
sequence1	MetaGeneAnnotator	CDS	1037765	1038547	.	+	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIISLIILLVVFSQSVFSSEKPIYIGDLIRLKISGDTSEKEIKNSFKDFEIEKIENIDGNYIIEFRSFNTGINKIKIGNKIIKIDVKTSLNKFKNKDVIENSLDNQNIKKPIPVTILLYISVLFLIILIIAYIVYRIIKRKKDKKMSPKEYFELILKNKSSKNSLEVWSFALKKYLEKKFNVNIFDKTQKETELELGKYDFFQNIREDILKWLEVAYNYKYQNISSDETEKEIMLNELKDIIDKLEKINIIQNGGKNV;locus_tag=LOCUS_08980;note=MGA_898
sequence1	MetaGeneAnnotator	CDS	1038540	1039514	.	+	0	ID=MGA_899;product=VWA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962311.1;translation=MFRFASYYFLLFIPIVIYLFFMKRKNSSIEFSSIATIKKYSAHKTIKHKIGEWLILLGIILLLVALSRPQLVEQNKNIYKKGIDIALALDVSGSMESVDFKPSRIEVAKDVLKKFVDKRENDRISFVIFSGTAYTKIPLTIDYNVLDEAIAKTTTKDVNTDGTAIGMGIAVAVNRLKNSKAKSKVIILLTDGDNNAGLISPEAAMKLAKDTGIKIYTIGVGTNKTIMPVKDGYGNIVTYRQFTGGLDEGLLKKIANATEGKYFRAKDKNSLENIFKTINSLEKTKIKSKKTFQYKELYYLWLLFGLLFMILGIILEKLIYIKIP;locus_tag=LOCUS_08990;note=WP_011962311.1 VWA domain-containing protein (Flavobacterium psychrophilum) [pid:41.4%25%2C q_cov:97.5%25%2C s_cov:96.1%25%2C Eval:3.9e-59],MGA_899
sequence1	MetaGeneAnnotator	CDS	1039533	1040501	.	+	0	ID=MGA_900;product=VWA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962309.1;translation=MNFGNINGFYYLLLLVILIAIFYLGYQKKVNIINLIRFPFNKKKEKLSIFIMILGVFLIVFSLTDPEFFKGYEKYQKKGLDIYFLIDVSKSMLSEDIKPSRIRRSKEIISSVIDELKGDRVGFIPFSSTAYIQMPLTDDYDMAKMFLDVIDTNMISGGGTNIKKALELAEASFKKSAKGDKVIILISDGEVHNESGINESEKIDKSIKIYTIGVGSLKGSLIPIVDKIGNRIDYKKDKKGNYVLSKLDVKTLEEIAKNGNGKFYMSTIAGDEIQKLTSKINLLKREELGIEKLKIYKKLYQYFLGIGILIFLMGYLYGKRGD;locus_tag=LOCUS_09000;note=WP_011962309.1 VWA domain-containing protein (Flavobacterium psychrophilum) [pid:32.5%25%2C q_cov:93.2%25%2C s_cov:89.6%25%2C Eval:7.4e-42],MGA_900
sequence1	MetaGeneAnnotator	CDS	1040503	1041435	.	+	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGIKIVNIKIINLFLMLIIGISSFGATTRITTGSSIKYITKNEKLYSIINNGNDFYKSKDYKKAISQYKEGLKLDENNKVLNKNIANSYYSEKKYDVATEFYEKTKDFKQAGNSYKRIGDGSKKLDDKIKQYKSALEEYKKGIKLNSNNMELKFNYEYVKKLLDKLNKQKQQNKNRNKNKKDKNNKDNKKNKNKNSDKDNKKQNKNNKDNKNKTGKDNQKKSDKKDGKDNKQNKNSKKKDKNQQNESKANKEQSKKDKDKSKDSKNMKKVNLQEALKILQSLEKKEKTDLKNNQQLKMQQNNTQEKYDW;locus_tag=LOCUS_09010;note=MGA_901
sequence1	MetaGeneAnnotator	CDS	1041447	1043051	.	+	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIKHIIFIILLMINSIVMLAATPSITLDIDTIQIPIGETANLSVALNNMKGAKALSINGLNNFKVVSKSSSTQTTIINFKKTESVNYNYTILATQKGEYPLKATVKYKGKIYESNILNISVTKASQQTGFAKNIFLKTVISKDKIYFGEKLILAYDLYTRYNVNSYGFTDKMNLDKFMVKTTDQDKLKGSYVYINGKKYVKKRVYESILTPLNSGEIKIPSFAFQANIATNDDFGFFNTTKPKILMTKEKIVNVLKLPLDGQPKNFTGIIGNLNIESNILSKNINYGDSTTLTIKLFGDCNLDNVDKIIKSNIKGFKIYESLKKSSEDFENGKYLAKKQFDIIIIPEKTGELVFPGIEIPYFNPTSGKYEIAKVKSFKIKVTGTMKQNNIANSYNNNQEELNISTLPVNNVITKEGNNNYFVIKINKILAYIIIVVIFVLLILLIVIIILNRTKDNINSKMRKCKTVDEVYDLFADVLKDKYAINIKAFSMKSLKEKINDEDIIKIISKFNNKEYEEVNEIKKDIKIILKKI;locus_tag=LOCUS_09020;note=MGA_902
sequence1	MetaGeneAnnotator	CDS	1043464	1044105	.	-	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIISSIFIILELFLLNSCTTTKKHFQPADVIDPLPRGKKSWTYEVDKSMKSLINPPEKISYFSKTLLNKAEKKFGKELLPGRILTWSTDLGVASGVLEMYIEKGAAKILKPRLIYLIRMQVSYYVSCPFAIDVNSWQYKDYKITPEEIQGLQCKKKLSKISSFSKRELTALRYSRALSKTPVSFDGKLLGDVRRLFSPEEIVAISTPMSSS;locus_tag=LOCUS_09030;note=MGA_903
sequence1	MetaGeneAnnotator	CDS	1044310	1046469	.	+	0	ID=MGA_904;product=Tex family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895431.1;translation=MDLVKIVEKELNLNHFQVENTLKLSDDGATVPFIARYRKEMTGNLNEEQIRDVLDRINYLRNLEKRKEEVLVTIEEQGKLTEELKTKIVKAIKLQEVEDLYLPYKKKRKTKADIAKERGLEPLAIFMQRKDINIKDINSESEKYINEEITTIEEALDGAKLIIAQEISENIKYREFIRDLMSKKGKIISSVIEKNREKDEKGVYQDYYDYSENVKYIPSHRIMAVNRGEKEKIIRVAIKFDDISRDRILNFILYNYKNINLKNLYVDIINDSLDRLILPSIEREVRNILTEQGENDSIKIFQKNLKNLLMQPPIYEKNILGIDPGYRTGCKIVVINKLGFFIKSDVVYLVSGDKKLIEAKEKIKKLILENDIDLVVIGNGTGSRETEKLTAEIISENDFGKKVYYVIANEAGASVYSASKLAKEEFPDLDVTERGGISIARRVQDPLAELVKIDSKSIGVGMYQHDVNQKKLGIALENTVESVVNDIGVNLNTASWALLSFVSGINKKVAKNIMEYRNENGKFKSRKELKKVKGLGEKAYTLAAGFIVVPESKNVLDNTIIHPESYSIAEEILKDIDSNLKEFKNNTEEVISKLRSFDIKGFIDKTNYGEETVKDIYASLLKPKRDPRENLPQPLLKENILKMSDLKEGMELEGTVRNVVKFGAFIDIGLKNDALLHVSEMGKKFIQDATLELEVGDIVKVKIKELDEKRGRVSLTMKG;locus_tag=LOCUS_09040;note=WP_005895431.1 Tex family protein (Fusobacterium nucleatum) [pid:58.2%25%2C q_cov:99.7%25%2C s_cov:99.3%25%2C Eval:3.5e-235],MGA_904
sequence1	MetaGeneAnnotator	CDS	1046478	1049036	.	+	0	ID=MGA_905;product=HAMP domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367423.1;translation=MKKKLQLDSLLFRLLSSVNLIIVIMAVSIIMLFLQTVFYQQEKNLQKETDNLTNGVKIAYKTIENNLEKNVMLASQAQETLRLLRDGTVLKNTFPHYNKEKGTYSYTYKNIKEGNSKIYLIRMLSFLKNELYQTHSKEDLNTILSFVNTNGDVEAEIRNSYLGIDYSLKDNKTFLKSFLLKSREKYSNKRMNLTGIDYIKSQNRFVMRSGALIGINYYHSDILGLVISNVINYDFLEDIRNRVASKNNFKLFILKDNKYLFGDFNLKKGYAILSQDEVKEHKKNPQQNLLENKIIEKNKYEIGYTPLFNISGDTIGFIGVAVSKESIIDSKMRILNYIIGLGIIFIIVTSLILGAYIYKMINPLIEMADISQKIAKGDFSKRINIRNLKGEIKILGKSYNTMVEHLNIAILKLEEQNKKILDTVKKLKVIEKTSSLIHIEKDFFKALYYLTTTLTSEIGLSYSRAIYLEYNENKNEFVGKFSSLSLKLINEEYNKKIDDVDELISQVKKMPKITNDMLDEIAKFIKIPFNENNLITQAIKSKEIVYFNDKAEAHNLGSDFINTLGIERFALVPIAYENNIYGIIIVDNFSNDRLIEKDDIDILKIFINTISIYLEKQKLEKMSLKNERVYAIGKLASSIVHEIRTPLVGIKGFADIILKKYKGDTKIEYYMNIIKSEVTRLDELSTMLLDYSKNKKYIFTKNNLKVVLEESILNFKKVIKSNNIKLELDISKDIIFNFDRNRLKQVFLNLIKNSIEAIAGNDGIIKIKTKKLGKIVEVTFEDNGVGIPAEKLERIFEPFVTNKVQGTGLGLAIVSDIVQSHNGKITIESEEGKGTKFILIFEIYEGGNNNNG;locus_tag=LOCUS_09050;note=WP_147367423.1 HAMP domain-containing sensor histidine kinase (Fusobacterium canifelinum) [pid:23.8%25%2C q_cov:98.8%25%2C s_cov:99.3%25%2C Eval:1.0e-55],MGA_905
sequence1	MetaGeneAnnotator	CDS	1049029	1051830	.	+	0	ID=MGA_906;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903528.1;translation=MDKKDYGSTLNLPKTGFKMKANLPHKEPEILKYWENEKIYEKSLEGKELEFILHDGPPYANGNIHIGHALNKILKDIILKYKRLRGYKAPYVPGWDTHGLPIELQVTKKLGSKVKDMSELEIRDKCKDHALKFVDKQKEDFKRLGVLGEWDDPYLTLNPKFEAKQLEVFADLYENNYIFKGLKPIHWCPSCQTALAEAEIEYQDIGSPSIYVKFEVKDDLNSKFNLGLSEDEKVSVVIWTTTPWTLPGNIAISIHPRFEYVFVKTSKGILILAKGMLEQSMAEMEISDYEIIKEVIGSELEYVKCAHPFLGRDSLVILGEHVTLEAGTGCVHTAPGHGQDDYVVGTKYKLPIISPITNKGVLTEDAGEFAGLYYSKANVAIIEHLEKTGHLLKTKEIEHSYPHCWRCKNPVIFRATEQWFVKVEDSDLREKALKALDDVEFIPEWGRNRITSMVEGRPDWCISRQRIWGVPIPAFYCESCNEEIVSKETVLKVAEKVKEEGTNAWIKYTPEELLGDLAKCPKCGGTHLRKESNIMDVWFDSGSSHRAVLEVRDNLKWPADLYLEGSDQHRGWFQTSLLTSVGTKGAAPYKKVLTHGFVNDGKGLKMSKSTGNVVAPQEIINKYGSDILRLWCASVDYRDDVRISDNILKQMAESYRRIRNTARYILGNINDFEPSTDKVEYSNMPEIDKWALNKLERLKRKVTENYEKYEFYNLFYDIHYFASVYMSSFYLDILKDRLYVSSKNSEARRAAQTVMFEILTTLTKLISPVLTFTAEEIWKILPENLKEKESILLEDWITENDIYLNDELDEKWEKLIELRGSVNKVLEAARRDKVIGHSLNAEVILYSDDEKYKELLKENYDRLEDIFIVSKVTIVESKIEGMTKTEEIENLYVKADKAPGEKCERCWKYSEELGKDEEHPTLCPRCTDVINEG;locus_tag=LOCUS_09060;gene=ileS;EC_number=6.1.1.5;note=WP_005903528.1 isoleucine--tRNA ligase (Fusobacterium nucleatum) [pid:64.1%25%2C q_cov:99.7%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_906
sequence1	MetaGeneAnnotator	CDS	1051950	1052420	.	+	0	ID=MGA_907;product=signal peptidase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895436.1;translation=MIVNVIFIILAVLLDQITKFFVLTKMKPGESIPIIKNFFHITFVQNKGVAFGMLYGHVGVLVFVGLIAIVGIILYFHKKGEEYSILSRIGFIFIMSGAIGNFIDRVFRGFVIDFIDFRGIWVYIFNLADVWINIGVFFILIEYFFEKEKAEKEESK;locus_tag=LOCUS_09070;gene=lspA;EC_number=3.4.23.36;note=WP_005895436.1 signal peptidase II (Fusobacterium) [pid:47.6%25%2C q_cov:92.9%25%2C s_cov:94.7%25%2C Eval:6.3e-38],MGA_907
sequence1	MetaGeneAnnotator	CDS	1052417	1053289	.	+	0	ID=MGA_908;product=glycine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903526.1;translation=MTFQEMILALQKYWNSQGCIIGNPYDIETGAGTFNPNTFLMSLGPEPWNAAYVEPSRRPKDGRYGENPNRVYQHHQFQVIMKPSPDNIQDLYLESLRVLGIVPEEHDIRFVEDDWESPTLGAWGLGWEVWLDGMEITQFTYFQQVGGLELDLIPVEITYGLERLALYIQEKDSVYDLLWTDNVKYGDMRFQSELEFSRYSFEVATLESHFKWFDMYEEEALKCLDNSLVLPAYDYVLKCSHAFNVLDSRGAISTTERMSYILKVRNLAKRCAEIFVEEREKLGHPLLGTD;locus_tag=LOCUS_09080;gene=glyQ;EC_number=6.1.1.14;note=WP_005903526.1 glycine--tRNA ligase subunit alpha (Fusobacterium nucleatum) [pid:85.0%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:8.5e-148],MGA_908
sequence1	MetaGeneAnnotator	CDS	1053380	1055449	.	+	0	ID=MGA_909;product=glycine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016119.1;translation=MEILLEIGVEELPARFLQPALKNLKNILQKDLKNSRIKFEEILTYGTPRRLILNVKGVSDMQEDLSGTSIGPSKKVAYDNLGEPTKAAIGFAKSQGIDIIDLQIVKTEKGEYIAAQKFEKGKSTLELLPEILKNTILNLNFSKSMRWGEKKLKFARPLRWILALADSKLINFEIENIKTEKLSYGHRFFGAKSFEVEDIQDYFNKLEENYVIYDIEKRKNKILESIKDKCSTVGEKVLIDDELLNEVTNLIEYPYPIIGTFNAEFLEVPQEVLIITMQTHQRYFPVLDNEGKLLPKFVLIRNGIENSENVKKGNEKVLSARLSDARFFYYEDLKKSLDENVEKLKTVVFQKDLGTIYDKIERTEEIAEQLIKALNIDDKKSDILRTIHLAKSDLVTNMISEKEYTKLQGFMGMKYAEKAGEKDTVAKGIFEHYLPRYQGDILPETTEGIIASISDKIDTIVGCFGVGLIPSGSQDPYALRRAALGIVNIILNSNLNISILDIINTSLNIYEEKNILKSDKKEIFENLKGFFKNRVINVLVDMGYRKDIVTSVVEIDFDNIYETKEKIEVLTKVSKEEDFEDIVLLIKRVKNILKDFKIVDISTELFEKEEEKELYDFAISLEERNRTNLIDKNYEKYFMDILSGKNIINNYFDNVMVMDKKEDIKNNRISLLKKLDDLFSKVAQIKDIN;locus_tag=LOCUS_09090;gene=glyS;EC_number=6.1.1.14;note=WP_011016119.1 glycine--tRNA ligase subunit beta (Fusobacterium nucleatum) [pid:52.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-199],MGA_909
sequence1	MetaGeneAnnotator	CDS	1055618	1057783	.	+	0	ID=MGA_910;product=UvrD-helicase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898558.1;translation=MSILDGLNEEQRMAAETLDGPVLILAGAGSGKTRTITYRVAHMIKEKNISPYDILAVTFTNKAAKEMRERVESLVGEDSGKIQISTFHAFGVKLLRIYGKHVGYDSNFNIYDSDDQKRVIKSILKKLNMDNDGLKPSAILSKISKLKEEGIFPLEYEKMAIDYYSKKILSIYIEYQKALKENNAFDFSDILVYTNELLNNKEILEKLQNRYKYIMVDEYQDTNKTQYNIITKIAAKNKNLCVVGDEDQSIYGFRGADIRNILNFEKDYKDATVIKLEKNYRSTNIILSTANALIKNNETSRGKNLWTDREGGELISVYEAETAGEEAYHVSNEIKKIVDVVGGYKNIAILYRTNAQSRLFEESFIKAKIPYKIFGGVQFYQRKEIKDIISYLNVVNNTADNFSIRRIINVPSRGIGEKTIKRLEEYREDMNVPLFYAIKNVDNISTITPKARIALKKLYSIFEDLINLSKEETVTDLIDTLLERTKILDTFKLNNEDERVKNIYELRNGIQELEKENGYIGLGDYLENIALSANTDNMDESDDYVKLMTVHNSKGLEFPVIFMVGAEEELFPSLRENTEEELEEERRLCYVAVTRAKDRLYITYSRTRATFGNSSFMRVPSRFIGEMPEKNLNNEKVYMNSNGYKNDSTKVASELNAKIEKNKKKKKKFKGDYAVGDYVIHKKFGEGKVKGIDINRVDIYFPGHGDKKFPTKIASKFLSKS;locus_tag=LOCUS_09100;note=WP_005898558.1 UvrD-helicase domain-containing protein (Fusobacterium nucleatum) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:5.0e-189],MGA_910
sequence1	MetaGeneAnnotator	CDS	1057792	1058643	.	+	0	ID=MGA_911;product=UDP-3-O-acyl-N-acetylglucosamine deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_058229301.1;translation=MGNKRKTIMKEVKYEGIGLHKGQNIKLRLLPAESKSGIIFRRVDVEKDNEIELKLENVFNPTRGTNIINKKGVAVYTIEHFLSALYVYGITDIFVEIDGNEMPIGDGSAFPFIELVDIAGIKEYNEDAEVIEILEPVYIAEEDKYIVGLPHGDYKITYAVNYNHSYLKSQLVEFEINKETFKNDIARARTFGFDYELEYLKSNNLALGGTLENAIVVTNDGVLNPEGLRFEDEFVRHKVLDLVGDLKILNKTIKGHIIAIKAGHALDMKFAKKLSNIIGGDTK;locus_tag=LOCUS_09110;gene=lpxC;EC_number=3.5.1.108;note=WP_058229301.1 UDP-3-O-acyl-N-acetylglucosamine deacetylase (Fusobacterium nucleatum) [pid:60.9%25%2C q_cov:96.8%25%2C s_cov:99.3%25%2C Eval:2.3e-94],MGA_911
sequence1	MetaGeneAnnotator	CDS	1058640	1059062	.	+	0	ID=MGA_912;product=3-hydroxyacyl-ACP dehydratase FabZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545346.1;translation=MMDVMEIMEVLPHRYPFLLVDRVLEVVPNEKIIAIKNVTINEGFFQGHFPGHPIMPGVLIVEAMAQATGALMMEKGSDKVPYFMAIENAKFRAPVRPGDQLRFECSIIKVKGKILKAKGIATVDGKKAAEATLMFSIMDK;locus_tag=LOCUS_09120;gene=fabZ;EC_number=4.2.1.59;note=WP_012545346.1 3-hydroxyacyl-ACP dehydratase FabZ (Thermodesulfovibrio) [pid:59.1%25%2C q_cov:93.6%25%2C s_cov:94.3%25%2C Eval:1.3e-40],MGA_912
sequence1	MetaGeneAnnotator	CDS	1059072	1059845	.	+	0	ID=MGA_913;product=acyl-ACP--UDP-N-acetylglucosamine O-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016510.1;translation=MRIHPTAIIAKNAKIDESVSVGAYSVIGDSVVIKKGTKISEHVVISGDTLIGENNEIFPFASIGQAPQDLKYDGENTKLIIGNNNKIREFVTINKGTIASGKTVIGDNNLFMAYVHIAHDCIVGNNCIFANAATLGGHAEIDDYVVIGGLSGVHQFVKIGANVMIGATSAIVKDVLPYVTIKGSENPKIRGLNLIGLKRRGISNEDIKSIKEAYKMIYMGKKTLKDLLVELEEKYEGNEYIKYLINFARKSERGIYR;locus_tag=LOCUS_09130;gene=lpxA;EC_number=2.3.1.129;note=WP_011016510.1 acyl-ACP--UDP-N-acetylglucosamine O-acyltransferase (Fusobacterium nucleatum) [pid:52.2%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:1.3e-72],MGA_913
sequence1	MetaGeneAnnotator	CDS	1059845	1060651	.	+	0	ID=MGA_914;product=LpxI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016511.1;translation=MEKIGILVGNGNLPYFFYKAAIKSGYDVYPIGLFDSVSSKLKKAPNYIQINIGELGKLLSYLLLNKVDKLIMLGKVEKSIIYQDLKLDEMFQNLISKLPDRKDETLVFGIMAILKENGIDILPQNFLLNHFVAEEKQYTTLGIENEDDKKSIEIGIEAAKTLGKLDVGQTVVVNKKAVVALEAIEGTDETIKRAGVFSGNNCIIVKTSRPQQDMRVDVPAIGLNTLEEAIKIKAKGIVIEAGKVLILDKEKLIKKANENNMFIVGVVI;locus_tag=LOCUS_09140;note=WP_011016511.1 LpxI family protein (Fusobacterium nucleatum) [pid:52.2%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:4.7e-73],MGA_914
sequence1	MetaGeneAnnotator	CDS	1060651	1061733	.	+	0	ID=MGA_915;product=lipid-A-disaccharide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901943.1;translation=MNFFVSAGEISGDIHLSYLVEEIKKINLNTKFYGMCGKYSEKVGVNIVENIDNISIMGFVDVIFKYKELKKRLNRFINFIDENNIKNIILVDYGGFNLALLKKLKEREKSTKKKYKVFYYIPPKLWVWGEKRIKKLNLADFILSILPWEEEFYKKHNREIVYYGNPLVDKFKFNYNKNADKILLLPGSRKQEIVSLLPEMLKIVKINSEKKFILKLANKESLDWIEIPKYDNLEIVIDVTLMDVSRDIKFAIAASGTVTLELALIGIPTIVGYKISILNEIIAKLLIDYKYVSLPNITLDKEIFPELLQNKFNVKNIEKSIEYIENNIENILDDLKSVREKLGKRDIVKKYAKFIIGKID;locus_tag=LOCUS_09150;gene=lpxB;EC_number=2.4.1.182;note=WP_005901943.1 lipid-A-disaccharide synthase (Fusobacterium nucleatum) [pid:45.4%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:2.2e-90],MGA_915
sequence1	MetaGeneAnnotator	CDS	1061900	1062739	.	+	0	ID=MGA_916;product=fumarate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014519031.1;translation=MRIIETSKIVEEVEKLCINSNYYLGEDIIFKYKEGITKEESETGKEIFEQLYENAKIAKDFKKPICQDTGMAVVFVELGEEVHINGNLETAINEGVAKGYKKGYLRKSIVKDPLFRENTNDNTPAVIHISIVKGDKLKIVVAPKGFGSENMSQIKMFPPAAGVEGIKEFVLKVVEEAGPNPCPPIIVGVGIGGNFEHSALLAKKALLRNIGDRNKNSYYSELEIELLEKINRLGIGPQGFGGKITALDLFIETYPTHIAGMPVAVNIGCHVNRHKEVLI;locus_tag=LOCUS_09160;EC_number=4.2.1.2;note=WP_014519031.1 fumarate hydratase (Clostridium) [pid:59.8%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:6.9e-91],MGA_916
sequence1	MetaGeneAnnotator	CDS	1062736	1063308	.	+	0	ID=MGA_917;product=Fe-S-containing hydro-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881093.1;translation=MNEKSVKKTVKLTTPLKNEDLVNLKIGDKILLTGIIYTGRDAAHQKFIDTLNRGEKLPFEIEGSVIYYVGPAPAKPGEVIGSAGPTTSYRMDKFAPELIKLGLKGMIGKGKRSKEVIEACKKYKSVYFGATGGAAALIASRIKSSKIIAYEDLGPEAVREMYVEDFPMIVVNNTSGEDLYEEGKRKWKEL;locus_tag=LOCUS_09170;note=WP_010881093.1 Fe-S-containing hydro-lyase (Aquifex aeolicus) [pid:56.1%25%2C q_cov:94.7%25%2C s_cov:97.3%25%2C Eval:2.5e-57],MGA_917
sequence1	MetaGeneAnnotator	CDS	1063293	1064042	.	+	0	ID=MGA_918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGIMIERDDKRALNELRNIKITTNYIKYPEGSVLIECGDTKVICNATVNDKVPPFLRGKGKGWITAEYSMLPRATGTRNMRESAKGKLSGRTMEIQRLIGRALRTGIDLDKLGEKTIIVDCDVIQADGGTRTASITGGYIALALAIDNLMKKNRLKENPLLGNVAAISVGIVKGEPMLDLKYSEDSVAEVDMNVIMNSKNEFVEVQGTGEEATFDRTELNKMLDLAEKGIKELIDIQNQAIGEGINEI;locus_tag=LOCUS_09180;note=WP_011015875.1 ribonuclease PH (Fusobacterium nucleatum) [pid:70.5%25%2C q_cov:95.2%25%2C s_cov:54.6%25%2C Eval:3.7e-90%2C partial hit],frameshifted%2C insertion/deletion at around 1064039,MGA_918
sequence1	MetaGeneAnnotator	CDS	1064032	1064637	.	+	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYKIFLATKNRGKIDEFKDIFKKYNNIELLSMLDGYEFHDVIEDKETFEENSQKKALEIAKVVKMFVISDDSGLEVKALDGRPGVYSARYSGENATDETNNKKLLKEMKDKTEREGKYISAITIASPSGKYRTYVGEIKGKILDKEVGNKGFGYDPLFYVEEYKKTFGELDEKLKNNISHRANAMKKLDKEILEFLKAGE;locus_tag=LOCUS_09190;note=WP_011015875.1 ribonuclease PH (Fusobacterium nucleatum) [pid:57.2%25%2C q_cov:96.5%25%2C s_cov:44.2%25%2C Eval:2.2e-54%2C partial hit],frameshifted%2C insertion/deletion at around 1064039,MGA_919
sequence1	MetaGeneAnnotator	CDS	1064640	1066112	.	+	0	ID=MGA_920;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964317.1;translation=MKYISTRGNYKKVNSAEAIKLGMVPEGGLFVPESIPKLNLEDLKNISKENYQEIAKKILSLFLTDFDSKEISEIVNNSYGENFDTKDVTPLVKIKDNLYILELWHGPTAAFKDMALQMLPHLMLKSKEKVGTDKTTLILVATSGDTGKAALEGFKDIDGIEIIVFFPEEGVSKVQELQMRTTTGINTKVIGINGNFDDCQTGVKNIFSDKILATELAKKGYELSSANSINWGRLLPQIIYYFKAYFELVNNDKIKIGEKVNFSVPTGNFGNILAGYYAKEIGLPVNKFICASNKNKVLSDFINTGEYNKNRDFYKTMSPSMDILISSNLERFLFEITGHNSEKIDNWYKELNKTGKFNVDDETKNKINKIMVAGFASEDETEETISKIYSETNYLLDTHTAVGVKVVNNYNLDGKTIVDSTANPYKFTGNVLKALTGESEKDEFVAIDKLNEKTKVEIHRAVKGLDKKEILHNETIRKDEMKDVVVKSVK;locus_tag=LOCUS_09200;gene=thrC;EC_number=4.2.3.1;note=WP_010964317.1 threonine synthase (Clostridium) [pid:49.8%25%2C q_cov:98.6%25%2C s_cov:97.8%25%2C Eval:4.5e-135],MGA_920
sequence1	MetaGeneAnnotator	CDS	1066447	1067814	.	+	0	ID=MGA_921;product=sigma 54-interacting transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_148136891.1;translation=MDISKKILNSISEGVFTINDEWKITSFNKAAEKITGYKREEVMGKYCKNIFKSNKCSKGCPMLEVIEYDEPKEEKSEMNIIDKAGKIVPIRVKNYSLKNSVGETIGGIELFEDIREIIELKKRLNEEKTIIRESDKMEKIIELANVASKSDSTILITGETGTGKEVIANYIYKNSERKNRPFIKLNCAALPGSVLESELFGYEKGAFTGAVKTKKGYFELADKGTIFLDEIGELEYGFQAKLLRVLQEGEFYRIGGEKLVKVDIRIIAATNKDLKKEVVEKKFREDLYYRLNIFNLHMPALRDRKEDILPLVYSFINKFKVKFEKNIMGISKDALNVLVNYSYPGNIRELENIIEHSFIVAKNNMIMVGDWPNNLVENKSIKNNVENEIKQNDKLVELNENIEIKPLDEFEKEYILGVLKKFEGNKAKTARELKIDIKKLYRRLEKWRKNSQNGM;locus_tag=LOCUS_09210;note=WP_148136891.1 sigma 54-interacting transcriptional regulator (Candidatus Formimonas warabiya) [pid:44.6%25%2C q_cov:96.9%25%2C s_cov:97.2%25%2C Eval:5.5e-100],MGA_921
sequence1	MetaGeneAnnotator	CDS	1067979	1068461	.	+	0	ID=MGA_922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLYILTLVAVLISFLINAKKTKKAVIMGVKKLWKITPAFIAIIIVVSIVLYLVPKEMIVHYLGGSNTYFGMILALIIGTITVLPGPIVYPLCGILLEQGVSYGVIAAFSVSLMLVGVLSFPVESAYFGKKFAVLRNLTSLFIAVVVALVFAFLNGRLS;locus_tag=LOCUS_09220;note=MGA_922
sequence1	MetaGeneAnnotator	CDS	1068458	1068994	.	+	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSKNNKIKKIIFALFFIFISFSYFIKFTPGVLVGKNFIDFALQMIEMLPPIFILVGLFDVWVKKETIEKHLGKDGGFKSYILVFILAAPMAGGLLAAFPIAYAIYKKGARLTVMLVFLGAVGIGRVPMVLFEASFLGIKFSAIRLIVSIPLVIITGVMLGRALEKREYKLPENNQN;locus_tag=LOCUS_09230;note=WP_071747924.1 permease (Bacillus) [pid:35.8%25%2C q_cov:67.4%25%2C s_cov:68.6%25%2C Eval:1.7e-17%2C partial hit],MGA_923
sequence1	MetaGeneAnnotator	CDS	1069051	1069416	.	+	0	ID=MGA_924;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNRHRCGMRMSANKYLMMKDYETAYNLYKNMIDENGTVNDYLKYIFILVMLNRSYEAVEIVNKILPSAIKCKGYGLLKELIKDNIDIIRDRGDIIGEKIFKLILGDGKDGSNSFDGKPCI;locus_tag=LOCUS_09240;note=MGA_924
sequence1	MetaGeneAnnotator	CDS	1069379	1070203	.	+	0	ID=MGA_925;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005791727.1;translation=MEVTVLMENLVYKQGLKSEHGLSFLLKSDDLKIIFDTGQTGDFICNAIALGENLKNVDYVVLSHGHYDHTGGLKRFLDINKTAKIIMKKEALEEKYSNSTGKIRPIGFELKDSYMNYDNEFIFVDGFYDINKNIRVIGDIKKYTDYEDDEKKLFIKKDEEFIKDSFKDELFLVEKNDNNKKIDIITGCSHNGIINIIKTAKYNFEDYKINSVIGGTHLKGKSSDRIEKTIKALEKLEINKIGVNHCTGIDSYTILKSKLGDNIFYAYTGLKINL;locus_tag=LOCUS_09250;note=WP_005791727.1 MBL fold metallo-hydrolase (Bacteroides) [pid:35.6%25%2C q_cov:97.8%25%2C s_cov:97.0%25%2C Eval:6.1e-44],MGA_925
sequence1	MetaGeneAnnotator	CDS	1070214	1071449	.	+	0	ID=MGA_926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEQQVNNDQAMQDMRLKANVEKIKHKIVVMSGKGGVGKSTVATNIAYGLALEGKKVGLLDADVHGPNIPLMLGIEGKKIANLAEPYQVHENLKVVSLSFYVGSSDDPIIWRGPAKTGAIKQLLADVNWGDLDYMVVDLPPGTGDEPLTIAQNIGKVDGTVIVTTPQNVALLDSRKSVKFSKLLNMPILGIVENMSGFICPHCGERVDIFKSGGGEAAAKELGVNFLGKIPMDPAIVEAGDSGKPFIYFNNGGIAAGIFTGIVDELITKSEGKTTEKKEEEKTGNSGGEKIMRIAFPTNDRVNVEEHFGHCKEFAIFEVEAGKILKTEFITPPPHEPGVLPKFLHEEKVNIIITGGMGQRAVDIFHSNEIDVILGASGSMEDVLNEYLGGDLYSKGSACNHDHDDDHECNH;locus_tag=LOCUS_09260;note=WP_012545002.1 Mrp/NBP35 family ATP-binding protein (Thermodesulfovibrio yellowstonii) [pid:54.0%25%2C q_cov:63.7%25%2C s_cov:94.6%25%2C Eval:1.0e-78%2C partial hit],MGA_926
sequence1	MetaGeneAnnotator	CDS	1071588	1071935	.	+	0	ID=MGA_927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGNRRGPLNEGPMTGRGLGLCSGSETTGYVKEGGRLGLGLGRRNGAGMVGGFGRRGGNVGAGRGFGFRGRGYGYENYSAPAINETEYLKEEEKVLRANLDAISKRLEELEKNSK;locus_tag=LOCUS_09270;note=MGA_927
sequence1	MetaGeneAnnotator	CDS	1072048	1073118	.	+	0	ID=MGA_928;product=tellurite-resistance/dicarboxylate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870080.1;translation=MEKKVIKNFSPSWFAVVMSTGIIPIDLCLAKSSVPFYSTLAKIFFVLSTLVFVALFIPWIIRFFTNMDEIKKDLRHPVLGSFFPTVAIATLILAIDFLRIGESFLGKELALKIALILFVIGTIGVFLFGFIILPLTYISDNINLQHANFGWFIPPVSHLIIAVVGLDLVPHYKNTVLGNNIFIISLIGAGIGMFLYLFVGAIVYHRYIYHEMPMPKLASTFFIGMSPTAILTIILVKLVAASKFVSYNINVGAISSVSKVLGIAFWGFSIWWFIISLIVLVHHIKSKQLPYALSWWAFIFPIGALGVSTGAINKLVHFKYFIYFLNGIDIVLLAMWLFIGIKTIKGIVNGTVFEAH;locus_tag=LOCUS_09280;gene=tdt;note=WP_010870080.1 tellurite-resistance/dicarboxylate transporter (Methanocaldococcus jannaschii) [pid:35.9%25%2C q_cov:98.9%25%2C s_cov:97.1%25%2C Eval:3.5e-64],MGA_928
sequence1	MetaGeneAnnotator	CDS	1073140	1074015	.	+	0	ID=MGA_929;product=DUF89 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880542.1;translation=MKTYVECIPCIINQGIKIGRRLDIKDEKIEEMVRELMDHLKGENFNKTPAELAKYSYKIINKYMMTNDPYKEIKKYYNESMLKLVPEIKNIINNSGNRFEIAMKIAVLGNIIDFGSKHKFSENDIIKKVRDIGNSYFAIDDSKKLYDKLRVSKTLLYIGDNCGEIVFDKIFIEYIKFSFPNLKIYYGVRGEPVINDVTIVDAKDVNMEEVAEVIDNGDNSPGTVLNNISGKFKDLLFNSDLVISKGQGNYETLNEINRDDVFLLFMAKCDVVSKELGVKNMSFICKKIDNI;locus_tag=LOCUS_09290;note=WP_010880542.1 DUF89 domain-containing protein (Aquifex aeolicus) [pid:35.9%25%2C q_cov:98.3%25%2C s_cov:97.9%25%2C Eval:7.7e-48],MGA_929
sequence1	MetaGeneAnnotator	CDS	1074091	1074465	.	+	0	ID=MGA_930;product=NifB/NifX family molybdenum-iron cluster-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986701.1;translation=MRIAITAKGEGLKSMVDDRFGRCENFVIFDTETKETTTVDNDAKNESGGAGGKAVRILSLNKVDVVIAPELGPKATEGLKAFEIKAYKKGNSATVEEAINNYNENKLEEIKFSTVEEHSGLRKA;locus_tag=LOCUS_09300;note=WP_011986701.1 NifB/NifX family molybdenum-iron cluster-binding protein (Clostridium botulinum) [pid:40.7%25%2C q_cov:95.2%25%2C s_cov:98.3%25%2C Eval:7.4e-17],MGA_930
sequence1	MetaGeneAnnotator	CDS	1074684	1075523	.	+	0	ID=MGA_931;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_070109415.1;translation=MRIAVLSGKGGTGKTTISTNLSINIENSMLIDTDVEEPNSHIFLKPNITETKSVKVEYPVVDNEKCTLCGKCGDFCNFNAIIPAKNTVLVFQESCHSCGGCKMVCPTGAITYSKREIGKIYEGDTKFGIKMKYGELNLGEMSGVKIIEELKEITKNEDIVIIDSPPGTSCSTVAAVEDVDYAIVVTEPTPFGVSDMKMVVEMLREMKIPFSVFINKAGLGDNEVYEYCEDEKIKIIGEVLFDKKIAEYYSEGIPFSTKIPKYKKLFNDIFEEIYMEFRK;locus_tag=LOCUS_09310;note=WP_070109415.1 ATP-binding protein (Clostridium acetireducens) [pid:47.6%25%2C q_cov:97.8%25%2C s_cov:97.5%25%2C Eval:5.0e-65],MGA_931
sequence1	MetaGeneAnnotator	CDS	1075523	1075807	.	+	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIYKKYLEAIKILELPLKFNLKILKKRYKDMIKMYHPDLNNDEEMELKIHEIKEAYEILLSYFENYKLNFEKDNFKLSPKELYEKKLMNDWKI;locus_tag=LOCUS_09320;note=MGA_932
sequence1	MetaGeneAnnotator	CDS	1075873	1076733	.	+	0	ID=MGA_933;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879868.1;translation=MDINEIVIISGKGGTGKTTLTASLIPYFEELVVGDCDVDAPDLKILFEGDNITKEGFVGTKKAIINEEKCIKCGKCYRACTFGAITKEIKMNTPKCEGCGVCEYVCPVGAIELKDAVVGNLFVSNTNYGKMVHARLIPGEETSGKLVSAVRKRAKKIALEENKKNIIIDGAPGVACNVISSITGAKKVVIVTEPTFSGLHDLERVYEVTQKFRLPVLVVINKYDLSIEMSNKIEEFCKEKNIELGLKIPFNKKMVKAIVDKKIPSLAEKEFFDSFGFGEFIEKLKK;locus_tag=LOCUS_09330;note=WP_010879868.1 ATP-binding protein (Archaeoglobus fulgidus) [pid:46.3%25%2C q_cov:89.2%25%2C s_cov:90.5%25%2C Eval:3.1e-62],MGA_933
sequence1	MetaGeneAnnotator	CDS	1076751	1077050	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPWIKTNECKGCAKCISVCPVNAISMIDSKAVIDQKKCINCGACLTVCPFDIIRPNSENPELKGLGNGRGGGRGRTGGGLGGQGSGLGNGGGRGMGRGR;locus_tag=LOCUS_09340;note=WP_002670897.1 4Fe-4S binding protein (Treponema) [pid:58.3%25%2C q_cov:48.5%25%2C s_cov:85.7%25%2C Eval:3.9e-10%2C partial hit],MGA_934
sequence1	MetaGeneAnnotator	CDS	1077040	1078263	.	+	0	ID=MGA_935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADKKSIRLTYISFGWHSFFLALTMSMIDFNTVFPSLISELSKSKLIFGALYAILLGAPNIFNMIFSHHMRKHHYKKKYLLLGIYMRGFSFLGMSLSVIFFAKSNPMLAITLFFLWIFIFSASAGFAGIAYSNLIAKLLSTHERGQFYATKQFVGSTASIIGGIVIGKIFKNSGFAYPYNYGIALFIGFAGLVIASLGFYAIKEPSSEIETDDYNFLEFLKQVPEILRNNRKFLNFIIVENISSFSLMILPFYMVFAKDKLGVGKNYIGKYLMFQISGMVISNLIWGYFIKRKGTKKMTGDCIIIGAILPILAIILSNFGANIYSFLFFIIGFVMSGRRITFEPYLLDIIPSNRRVTFLGIRGTLNILMIILPLIGATVIKFFGYYTAFLIVSGVMFFAYYLLRKEN;locus_tag=LOCUS_09350;note=MGA_935
sequence1	MetaGeneAnnotator	CDS	1078265	1078669	.	+	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNELIIACATNNGEEFVNDHFGSANYFDIYKMSKESIEKIDRVDNTSEEEKEDDGIHGDPNKAKGISGILKKKDVQVVVGYKMGPNIIRMKKKFVPVIVRNINIKNSLEIVKNNFDKIVEELNNGENRKHIVLE;locus_tag=LOCUS_09360;note=MGA_936
sequence1	MetaGeneAnnotator	CDS	1078956	1079600	.	+	0	ID=MGA_937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYIKYAFTGINILPSIFLLIIIFYWLMTILGFFSIDSGLDINTDANSDLELNSELEGDINLGNLSIASKIFEFSNMGAMPFMVYSTFYVIVLWTLSMLTYYIKISQNIFISLIIFIINFILTFFLTKIITLPLVKFFKSFNIDEKNKIIGSICTLKSTIEGEHIGLAEVENDKYPIVINVKSPNKKIEKGEQAIVISEENNNNLYIVEKNNFF;locus_tag=LOCUS_09370;note=MGA_937
sequence1	MetaGeneAnnotator	CDS	1079619	1081655	.	+	0	ID=MGA_938;product=flotillin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011121033.1;translation=MIEFILYVVGIVVFLLFIGIPMILSMFYKKVVQGKTIVRNGIGGSKVSFSGIWVIPILHKFEKMDICVKRVEIAREGKEGLICKDNLRADIRVAFFVKVNHTEEDVLRVAKSLGTEKASDTVTLMEFFDAKFSEALKTVGKKFDFVQLYTERDKFKDEILQVIGTDLNGYILEDAAIDYLEQTDINLLNPDNVLDAEGIKKITDLTAKQLVMANQIKRDKEKTIVEQDVTAREAILELEKQKSEAEEKQNREIENIKSRENAQIKIIQEEEKLKSENARIKVEEELMIAEENKNRQIIIAQKSKEATEAVETERVEKQRLLEATEKEKLVSLAQIEKDKKIETENKNIKEIIKDRVIVEKSVVEEEEKIKDTKELAEAKRKKGVSITAAEADAEVQGIEKVKSAEAEKESATILAEKEIIVADTELKTSHKKAEATKILADAKSEEAAIVGISEARVLKAKAEAYTAEGQSKATVIKLEAEATAKSIELKGLAEAKTTKEKALAEAEGITKKAEAMKKLDSVGKEHEEFKLKLNKEKEVELAEINIQKDVAVSQAEVVKEGLKNSNIDIVGGDTIFFDKLVKSITLGKQVDRVIDNSDVLKNINDTFFDGDAENFKKQLKSFVSNFNLNTEDVKNLTISSAISKMMKNSPNKNDFFNGILDKVNKIGIGDKLVSTIMD;locus_tag=LOCUS_09380;note=WP_011121033.1 flotillin family protein (Rhodopirellula baltica) [pid:47.4%25%2C q_cov:99.1%25%2C s_cov:94.2%25%2C Eval:3.2e-166],MGA_938
sequence1	MetaGeneAnnotator	CDS	1081666	1086588	.	+	0	ID=MGA_939;product=DNA repair ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011121034.1;translation=MGNVETIEKTEEKKGSKFEAYNVIRKRLVEQSNVLKDKIDKLNVDRIKIFGKIENGIKKTEMIVTENSCIPRDIVPIQNKLILGYNVQMGLKTTTDISDIFSIYEYNEDSLKKVGYELIDDDKFKKDLKDLYKYYKESFFAKFFEKENILHMVFQNGKNEEDIKSFKWILTSENKFVYLGNRFSHEVEFPKQQELNWIKTKREDQISGLHPHISINDKIFVETIEGDLTLKIENNTETGKGIYSEEVENLDQNLDDSEIYYAEVGNLILLKIKPYQEKTFRNLVFNEKTKEVIKVDGIEEACVLLPENQGIIFPNGSVLQSGGGKIFDINHKNMVFEIKKSSNNGEDYQYIFYNKSNGEYYIYNYNIINQEIIKPVICNGYSHFKNGDMIVFKEDSEPKRSHTIQIWKTSFSDDNNIVDEENKNNFLYNLGNKEIVKLMADCHSLYKLIKKDDSYYGLYIDINKESEKIKNNYFWINKKEAYGINSVLEDIKKAAAVAINEFDKVDKEKENNKNRFNLVKSNVENIIKNIKYSSFETIYDFVNILNDLRKSRGEISSLKELKFIEISSINNLENEVKENNLKIAEKCVDFLMGKDSLNPYVDSVKEIEEKLDDVKKAITGKELSEKINEVSEELEILINVVNNLKIEDTTKSSEILDKISLLFSRLNQSKSKLNGIVKNLGSKEKKGEFFSKLNLLSQSVSNFLEIADTSEKLNNYLTKLIVQLDELESNFSEFEEFIPQITEKREEIISSFETKKQQIVDKKNRKIDSLFKASERVLKGIENRVNALDKIEDINEIFSADLMIEKLRDIIDKLTDLGEGNKADGLENKIKVLKENSIKQLKDKKELFLDKNTIKLGNNNFLINDQKIELALLKKDDGFYFNISGTDFYEKIDSSKIEKYRDVWEQEVISENKEVYRAEFLAYKILKKYKINGELEKLYAIPEEDLKDIIKNYILDNFKEYYVKGVHDVDGFLILKELLIKEKELELGAFDPITRGAGNLFWEYGLDNKNKEKLLKRLKSINLINKFSNKNIENGFLPELEERIGKFVEDKKWIKYNNIKDIANYIAKEIGANKYFVMSLEAKDLYEEFINHLKTIGAKNIFDKSLEDLKEDIEGKYIVIKEWINSFILNTEKSFDSFIYELISIIILDNFSKRRVLKLDTAIKIKGLVGQHKFINQTKYEINYNDFMLKLEKFNSINVPKFIEFQKLKQEEISQMKEKLKFEEFMPKVLLSFVRNKLIDNVYLPLIGNNLAKQIGAAGANKRTDNMGVLLLISPPGYGKTTLVEYISNRLNMLMVKVNCPTIGNSVTSLDPEQADNINAKEELLKLNMAFEIGNNIMIYLDDIQHSNPEFLQKFISLCDGQRKIDGVYKGRSKTYDFRGKKVAVVMAGNPYTESGAKFQIPDMLSNRADVYNLGDMLKENEEAFKLSYVENAVTSNVYLNKIYMKDSSNIYKLIKVIETGNRDNIEFNGNYTEQDISEALEVMKKMLKVRDEVLNVNMEYIYSASQSEEYRVEPSFKLQGSYRNMNKISEKIIPIMNNDELRKLIEISYENDSQTLATDSEASILKFKEITERLNEDSSRRWTEIKNMYIKNKTNDGSDKIISLTKAIRSIGRSIDRLKKNKKYSNDYNKKKDDSKNIR;locus_tag=LOCUS_09390;note=WP_011121034.1 DNA repair ATPase (Rhodopirellula baltica) [pid:39.4%25%2C q_cov:97.5%25%2C s_cov:90.5%25%2C Eval:0.0e+00],MGA_939
sequence1	MetaGeneAnnotator	CDS	1086953	1087249	.	+	0	ID=MGA_940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIYLNELLPGQSAFIVGIEENSTLRQRLMELGVREGKQVFMRRRAPLGDPMEVNVMGTNLSIRKSEARYVMIDKVVTCPGNGKMRGLGKGLGRRHNK;locus_tag=LOCUS_09400;note=WP_003356062.1 ferrous iron transport protein A (Clostridium botulinum) [pid:47.8%25%2C q_cov:68.4%25%2C s_cov:91.8%25%2C Eval:4.2e-12%2C partial hit],MGA_940
sequence1	MetaGeneAnnotator	CDS	1087246	1089360	.	+	0	ID=MGA_941;product=ferrous iron transport protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931750.1;translation=MKKLNVALLGNPNCGKTTLFNALTGGKQHVGNWAGVTVEKKEGEFEYNGQQINIIDLPGIYSLSTKTIEEKVSRNYLIEEKPDLVINIIDGTNLEKSLYLTTQLMELGIKFILAINMYDEVKSKGIKIDIKKLSKFLNVPVIPIIARNETGIDLLKSNITSESTLSKAKVGYDEDIENAIESLLKIIKKDKKIEEKINIRWLIIELLEGDPKAFEMLKNSIVYDEVKNTLDDKIEYVKKIYNEEIKIVIMEKRFGFILGLIKECVIIRKMDFSKLDITEKIDNIILNKWVGLPLFLFILWGTFNLTFVFGNFFSSYINDGIVLLGNFVSNVLPNGILKDMLIDGAIGGMGGILVFLPQILILFLVIALLEDSGYMARVAFIMDKLMHYLGLHGKSFISLFMGFGCNVPGIMAARILENEDDRIVTALVNPFMSCSARLPIYILVTGMFFKKNAGNVIFSIYLIGIIVAIFTAKMLKKFFFKGLSVPFVMELPPYRAPTLKSLMIHMWDRASMFLKKMGGVILIGALIVWALGYFPINKNYSNNIVKLETQASKITDIQKKNDLSMKIEDMKKVEDMENSYMGKIGKTIEPVFKPLGITWREGVALIAGITAKEIFVSTISVLYGVGDENATGLKRKMLKDGITPIAAYGLMVFVLLYIPCVATIAAIRRETNSLKWTIFSVIYGISIAYALSFLINTIGKSIFY;locus_tag=LOCUS_09410;gene=feoB;note=WP_010931750.1 ferrous iron transport protein B (Chlorobaculum tepidum) [pid:40.2%25%2C q_cov:98.4%25%2C s_cov:98.2%25%2C Eval:2.2e-157],MGA_941
sequence1	MetaGeneAnnotator	CDS	1089400	1089564	.	+	0	ID=MGA_942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQEIIVGIIMVIVIYIAFKKMYESFKNAESGTCSSCTHKSSCNIYSEKNVIKK;locus_tag=LOCUS_09420;note=MGA_942
sequence1	MetaGeneAnnotator	CDS	1089689	1090699	.	+	0	ID=MGA_943;product=BMP family ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583513.1;translation=MKKVVLLLVVLLGIFGCTGKNVSSGTKVKKVVKEAPVKPIKVGLLVEGLGDKGFNDSAFIGLKQAEKKLGIKFNYVEPASEEAVDYFLKKYAESDYDLIVVVGYRMKAATEKAAIDHPNAKFAIVDARIDLPNVASLLFKEDEGSFLVGALSGMMTRTGVIGFIGGIDIPLIRKFQEGYSSGAKYVNQNVMTVDTYIGGANPFYSPGTGRRKAEDMIKKGADILYSAAGRTGLGVIDAAKDAGIYAIGVDSDQDGLAPGTVLTSMVKHVDVAVYNTVKITAQGNFKPGINLFGLKEGGVGITDLTYTKDKIPTYMLAKLKKIEIGIIDGSIDIHAR;locus_tag=LOCUS_09430;note=WP_012583513.1 BMP family ABC transporter substrate-binding protein (Dictyoglomus turgidum) [pid:46.8%25%2C q_cov:87.5%25%2C s_cov:87.5%25%2C Eval:1.0e-62],MGA_943
sequence1	MetaGeneAnnotator	CDS	1090874	1091374	.	+	0	ID=MGA_944;product=DUF177 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583304.1;translation=MKINVAELKRQKTDITNFSGELLLDNLYEDSALVKYNLNLKVVGNEVIATGRIITKVKLKCVRCLKNFYQDVDTEFETSYLEEEDYNEYLKLEEAEHFFNSDEIVREKISGNEIDIDKLFREYILLEITEYPICDVNCNGIEEIELYSKNEEIDPRWNQLLNITKK;locus_tag=LOCUS_09440;note=WP_012583304.1 DUF177 domain-containing protein (Dictyoglomus turgidum) [pid:27.5%25%2C q_cov:100.0%25%2C s_cov:97.2%25%2C Eval:8.4e-10],MGA_944
sequence1	MetaGeneAnnotator	CDS	1091399	1091599	.	+	0	ID=MGA_945;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005890386.1;translation=MAVSPKKTSKAKRDMRRSHHALKATGLSVCPSCGAPKRPHRICLECGVYGDKQVLNAGEEVVANAE;locus_tag=LOCUS_09450;gene=rpmF;note=WP_005890386.1 50S ribosomal protein L32 (Fusobacterium) [pid:67.8%25%2C q_cov:89.4%25%2C s_cov:100.0%25%2C Eval:5.7e-17],MGA_945
sequence1	MetaGeneAnnotator	CDS	1091769	1092761	.	+	0	ID=MGA_946;product=phosphate acyltransferase PlsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016179.1;translation=MIVALDAMGGDFAPVETVKGAVLALDEIKSLEIILVGDEKLIKEELKKYSYDKKRIKIEHTTEFIKMKEESSPAMAVRKKKKASMNISLELVKEGKANASVSAGNTGALMSASLLKLKRIKGVLRPAITTIMPSKRGNIVLMDVGANANCKPEYLEQFAIMGSYYAKLFLKKDNPKIGLINIGEETGKGNELAVASYELLEKNKKINFVGNIEPRDIVDTDIDVAVTDGFTGNVILKTAEGVGSFITGILKDEIKKSFMAKLGAIFLKNVFKTLKSKMDSSEYGGAIFLGVDGISIKAHGNSNSTAIKNAIKVANFFAEANFIENLKENF;locus_tag=LOCUS_09460;gene=plsX;EC_number=2.3.1.274;note=WP_011016179.1 phosphate acyltransferase PlsX (Fusobacterium nucleatum) [pid:57.1%25%2C q_cov:99.4%25%2C s_cov:98.5%25%2C Eval:1.0e-102],MGA_946
sequence1	MetaGeneAnnotator	CDS	1092795	1093790	.	+	0	ID=MGA_947;product=ketoacyl-ACP synthase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460503.1;translation=MKKLKSVGIVGLGSYLPEKVLTNKDLEKIVDTTDEWIKSRTGIEERRIAAKEEATSDLAIKAAKKALEDANVSPEEIDLVIVSTITPDFAFPATAAIVQDKIGASNAAAFDLEAACTGFVYGLAVGGNFIATGMYKKVLVIGSEALSRIMDWEDRNTCVLFGDGASAAVLGEVEDGYGLLSYDLGADGSGGHTLDQPGGGSRNPASDETVNKKMHYLRMKGKEVFKFAVTALPKTTLKTLENLNMTPDDVDLYVPHQANVRIIEAAAKKLKQPVSKFHMNMNKFGNTSSASIGIALDELYKNDKLKKGDNIVLVGFGAGLTYGSCLIKWSK;locus_tag=LOCUS_09470;note=WP_011460503.1 ketoacyl-ACP synthase III (Desulfitobacterium hafniense) [pid:59.2%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:2.2e-110],MGA_947
sequence1	MetaGeneAnnotator	CDS	1093816	1094760	.	+	0	ID=MGA_948;product=nitronate monooxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902703.1;translation=MIKTEICDLLKIKYPIFQGAMAWIAEGNLAGHVSKAGGLGIIAGGGMPSELLREEIRKVRKITDNPFAVNLMLMMDNVEKQIEVCIEEKVPVVTTGAGNPGAFIKKLKKAKIKVIPIVPSVALAKRMEKSGADAIIVEGVEAGGHVGELTTMALLPQITAAVDIPVIGAGGIATGKQFVAALALGAKGVQVGTRFLIAEECTVHENYKKAILKAKDRSTVVTGRKTGHPVRIINNKLAKEFIKLEESGASNEELEKMGAGRLRAAAKDGDINFGSVMSGQVAAMVNKEETCEDIILDLINSAENELNNLKNLYL;locus_tag=LOCUS_09480;note=WP_005902703.1 nitronate monooxygenase (Fusobacterium nucleatum) [pid:65.7%25%2C q_cov:95.5%25%2C s_cov:94.3%25%2C Eval:1.3e-107],MGA_948
sequence1	MetaGeneAnnotator	CDS	1094890	1095801	.	+	0	ID=MGA_949;product=ACP S-malonyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016181.1;translation=MSKVAFVFPGQGAQYVGMGKELYENSNKAKEIFDNIFSDLEINLENIMFDGPEEKLKETKYTQPAIVAFSSVLTELLKEKNIKADYVAGHSLGEYSALNAAEVLSIEDTVKLAELRGSIMNDITENINGTMAAILGVPAEKIIEICNGISEVVEAVNFNEPKQTVIAGTKEGIEKAVEELKKAGARRAVILDVSGPFHSSLMKPAGEKLKENLENFNFENAEIKIVANTTGKIIDSVKDIKIELYNQTFGPVKWVDIVNVLKEEGVTKIYEIGPGKVLKGLIRKIDRGLEVINIEKIEDIEKL;locus_tag=LOCUS_09490;gene=fabD;EC_number=2.3.1.39;note=WP_011016181.1 ACP S-malonyltransferase (Fusobacterium nucleatum) [pid:63.1%25%2C q_cov:98.3%25%2C s_cov:99.7%25%2C Eval:7.3e-105],MGA_949
sequence1	MetaGeneAnnotator	CDS	1095830	1096573	.	+	0	ID=MGA_950;product=3-oxoacyl-[acyl-carrier-protein] reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460500.1;translation=MINLKDQIAVVTGSARGIGRAMAEKFAEAGAKVVITDILEDGEKTAQEIAEKYGVETKFIVSNVTDYESAKNLVKTTLEVFGKIDIFVNNAGITRDGLFLRMKEDDFDRVISVNLKGVFNCTQAVFKAMVKQRSGSIINISSVIGLIGNVGQTNYAASKAGILGITKSVAREGARRGIRVNAIAPGFIKTDMTHILKEEVQKQILSQIPMGEMGTPEDIANTALFLASDLSKYITGQVITIDGGMVM;locus_tag=LOCUS_09500;gene=fabG;EC_number=1.1.1.100;note=WP_011460500.1 3-oxoacyl-[acyl-carrier-protein] reductase (Desulfitobacterium hafniense) [pid:56.1%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:7.0e-73],MGA_950
sequence1	MetaGeneAnnotator	CDS	1096640	1096873	.	+	0	ID=MGA_951;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902726.1;translation=MAELFEKVKEVIIEQLGVDGESVVAEASFVDDLGADSLDTVELIMAFEEEFGVEIPDEEAEKIKTVQNVLDYIKANA;locus_tag=LOCUS_09510;gene=acpP;note=WP_005902726.1 acyl carrier protein (Fusobacterium) [pid:74.0%25%2C q_cov:94.8%25%2C s_cov:97.3%25%2C Eval:8.7e-26],MGA_951
sequence1	MetaGeneAnnotator	CDS	1097016	1097957	.	+	0	ID=MGA_952;product=nitronate monooxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813418.1;translation=MNFPKLKIGNLTPKFPIIQGGMAIRVSMAKLAAAVANEGGVGVIAGTGLKLEELANEIKKAKEMTKGIIGVNIMFAATDFVELVKTSIESGIDLIISGAGFSRDVFAMAKEAKIPFLPIVSSVKLAKISERLGASAIIVEGGNAGGHLGTDKDSWDIVKDIKEAVKIPVIGAGGVVTPEDAQRMFDLGLDGVQMGTRFVASKEVEISDVFKELYIKSKKEDVVEIMSSAGLPANAIKTKFTNLVLAGKAPKPENCTNCLKHCSRKFCIKDALNRGHDGDLERGVFFTGKDVWKIHDILSVKEIFQQFINYKAQ;locus_tag=LOCUS_09520;note=WP_005813418.1 nitronate monooxygenase (Desulfitobacterium hafniense) [pid:51.5%25%2C q_cov:97.4%25%2C s_cov:97.1%25%2C Eval:1.6e-86],MGA_952
sequence1	MetaGeneAnnotator	CDS	1097989	1099230	.	+	0	ID=MGA_953;product=beta-ketoacyl-ACP synthase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016182.1;translation=MKRVVITGIGLITALGTGKEKTWTNLLEGKTGISNIKSFDATGFASTVAGEVKDFDASEFIEKKELKKLARYTQFAVVASKMALEDAKLEITEENAENIGVIVSSGIGGIEIMEKQYSILEKRGPRKLSPFTIPAMIENMAAGNVSIYTGAKGPNKSIVTACASGTHSVGDAFEMIKSGRVEAMIAGGTEACITPLAVGGFCALKALSTKYNETPEKSSRPFNVDRDGFVMGEGAGILILEELESAKKRGAKIYAEIVGYGETGDAYHMTSPAPGGTGAARAFKMALKEGNIKLEDVDYINAHGTSTAANDRLETAAIKSVFGEQAYKLAVSSTKGATGHALGGAGGVEAAFLALAVSEGIMPPTINYENPDPECDLDYIPNKAEKRDIKVAMSSSLGFGGHNAVIAFKKYSN;locus_tag=LOCUS_09530;gene=fabF;EC_number=2.3.1.179;note=WP_011016182.1 beta-ketoacyl-ACP synthase II (Fusobacterium nucleatum) [pid:59.7%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:9.1e-139],MGA_953
sequence1	MetaGeneAnnotator	CDS	1099245	1099961	.	+	0	ID=MGA_954;product=ribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124797266.1;translation=MLSDKKICEFEKKINYTFLDKSLLTKALIHRSYGNEHRDFKNINNEKLELLGDAVLDLIITEYIYIKFSNATEGELAKLKAMIVSEPLLAEVSTEIGIGSYMFLSKGEELTGGRERNSILGDVFEALLGGIYLDSGFENAKEFVLKYFVDRIVHIDENLDLVDYKTILQEFTQKEYKKIPKYIVLEELGPDHNKQFKVGVKVKNSIVGEGLGRNKKSAEQMAARNACGRLEVKLHETL;locus_tag=LOCUS_09540;gene=rnc;EC_number=3.1.26.3;note=WP_124797266.1 ribonuclease III (Fusobacterium canifelinum) [pid:51.7%25%2C q_cov:98.3%25%2C s_cov:99.6%25%2C Eval:8.2e-68],MGA_954
sequence1	MetaGeneAnnotator	CDS	1099948	1100982	.	+	0	ID=MGA_955;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016184.1;translation=MKHYNIPIFIVHYGCPHMCVFCNQQNITGVITNIQPNEIRAIIEETLKTLPKNSEKEIAFFGGTFTGLPIKLQTEFLEVANEYIKKGLVNGIRMSTRPDYINREILDNLSKYNVTTIELGVQSFNTEVLKLSERGHSREDVFNASELIKEYGITLGLQIMPGLPGSTIESDIAGIEDILKIMPSLIRIYPTLVLENTKLNSMYKNEEYQPLSISDAVKITLPMIIKLELNGIKIIRVGLQPADDLRKEGVITAGPFHSSFREVVESEIYYEFLNIILKKEKELNVITNQSNISRIVGMNKVNLKKFNGKLNFNIDNSLEKELILVNKKSYKRKNILMALEMNNI;locus_tag=LOCUS_09550;note=WP_011016184.1 radical SAM protein (Fusobacterium nucleatum) [pid:49.1%25%2C q_cov:97.7%25%2C s_cov:96.6%25%2C Eval:1.9e-91],MGA_955
sequence1	MetaGeneAnnotator	CDS	1100979	1102445	.	+	0	ID=MGA_956;product=ribonuclease G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943853.1;translation=MKQIIITSTEYEIKAALLEDGVLTEFFIERDDKKRIVGNIYKGKVANVLPGMESAFVDIGLKKNSFLYVKDLREFEEKYLDGIEHSKKPIEEILNVNDNVIVQILKEPTGTKGARVTTHYTIPGKYLVLMPNNDYIAISKKIGNEEERERLKNILQDIKPDGVGVIIRTDAQGKDEKYFIKEIEYLTKQWKEVEHKSYNAQIGDLIYKDSTLVERVLRDIFSSEIDHLVVDSEDNYWKVIDYISTFSDSNLKLKVQLYHESEPIFEHYGINSELKKVLQKKVWLDCGGYLIIEKTEALVSIDVNTGKNTGTYDLESTVFQTNMEAAKEIPKQLRLRNLGGIIIIDFIDMKLEEDQKKVVEILEENLSKDRIKNNIVRFTELGLVEMTRKRTGKELSKYFLEKCPHCNGTGMIKSSEFIIDDIIMEIRFLSVDEDIKRIKLKVSNQLYAKVQSLYLDFIEKYLKDYNKEFEVLLDRSLERDKYEIVLEN;locus_tag=LOCUS_09560;gene=rng;EC_number=3.1.26.-;note=WP_010943853.1 ribonuclease G (Geobacter sulfurreducens) [pid:41.9%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:1.9e-114],MGA_956
sequence1	MetaGeneAnnotator	CDS	1102454	1102951	.	+	0	ID=MGA_957;product=pantetheine-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965045.1;translation=MNKNAIYPGSFDPISNGHIDIINRALNIFDNLVIAVLNNSEKKSWFSVEERVNMIKELYGNNKKIQIKSFDGLLVDFMEKENLKIAIRGLRAVSDYEYELQLALFNSQLSKGKFETIFLPASRENLYLSSTVIKEIAINNGQLEEYVDKTILNKIREKAKIKRGE;locus_tag=LOCUS_09570;gene=coaD;EC_number=2.7.7.3;note=WP_010965045.1 pantetheine-phosphate adenylyltransferase (Clostridium) [pid:48.7%25%2C q_cov:95.8%25%2C s_cov:97.5%25%2C Eval:7.2e-38],MGA_957
sequence1	MetaGeneAnnotator	CDS	1102954	1103313	.	+	0	ID=MGA_958;product=chemotaxis protein CheY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081049.1;translation=MIKLLVVDDSLFMRQMLKNILPRDKFEVVGEASTGKEAISKFKELEPDLITMDITMPDMDGITAVKEIRRISPEAKVIMCSAMGQKPMIREALEAGAIDFIIKPFDKDKAIKILEAMSL;locus_tag=LOCUS_09580;gene=cheY;note=WP_004081049.1 chemotaxis protein CheY (Thermotoga) [pid:55.2%25%2C q_cov:97.5%25%2C s_cov:96.7%25%2C Eval:1.0e-34],MGA_958
sequence1	MetaGeneAnnotator	CDS	1103429	1104772	.	+	0	ID=MGA_959;product=DNA repair protein RadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016188.1;translation=MKKKEYYVCTNCGYKTNKWIGKCPECESWNSFEEETEAPIKIKTEKSIKAITINEVELLKDYRYKTNFNEFDRVLGGGLVRGEVVLLTGNPGVGKSTLLLQILKDYTKYGDVLYISGEESAEQIKHRAKRLKINSDKLFLVSETEIEAIKKYILENKPKVVGVDSIQTLYSNEYNAIPGTVTQIRESTLKIVEMAKKHGISFFIVGHITKDGKVAGPKLLEHMVDAVMSFEGEENYLYRILRNSKNRFGSINEVGIFNLEDDGISEIRNPSEFFLGERDEKNIGSIVVPVLEGTKVFLLEIQSLTSTTNFGMARRVAQGIDYNRMQILLAILEKKFSLNLTTQDIFINIPGGLSVKETTIDLAIALSILSSIRDIPVNNDVAALGELGLRGEVRKVSFITKRLNELKKMGFKKIYLPEGNRKEVEKSSINLKFYYLKNLYELLERMK;locus_tag=LOCUS_09590;gene=radA;note=WP_011016188.1 DNA repair protein RadA (Fusobacterium nucleatum) [pid:58.9%25%2C q_cov:99.8%25%2C s_cov:99.1%25%2C Eval:1.9e-153],MGA_959
sequence1	MetaGeneAnnotator	CDS	1104774	1105841	.	+	0	ID=MGA_960;product=DNA integrity scanning diadenylate cyclase DisA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016189.1;translation=MKDNSAILKMLALASPGTDLRKGLDNILDAETGALIVVSGSSEILSISDGGFEINCNYEPEKIYELAKMDGAIIIDKEVKKILMANVHLQPNSKITTIESGTRHRTAERVAKQTGELVVSISERRKRITLYQNDERYMIRNITDIMSEANQGIKTLERYKTVLDKELKYLTIMEFDEMVTLYEVTHVIQRFEMLFKIADEIKKYIVELGVEGRLINMQLDELLMGTQEEFESLLKDYYNEESQLSMEDIIAGLNRLNQEEILIIENISYLLGYSKNYKTLDDKIVPKGYRVLGKILKLTKRDILKIVETFIDLTSILNATIDDISEIKGISKFKAKSIQNGLKRLKATILLEKEI;locus_tag=LOCUS_09600;gene=disA;EC_number=2.7.7.85;note=WP_011016189.1 DNA integrity scanning diadenylate cyclase DisA (Fusobacterium) [pid:47.3%25%2C q_cov:97.7%25%2C s_cov:98.6%25%2C Eval:6.0e-88],MGA_960
sequence1	MetaGeneAnnotator	CDS	1105916	1106881	.	+	0	ID=MGA_961;product=FtsH protease activity modulator HflK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_181409358.1;translation=MAENDLNQNVNNFLKFVKGLGIFGVLIVLGLYLATGIYVVQPDEQAVILRFGKYVETTGPGVHWHTPSPVAAVYKAKTTAVHRIEIGFRTINPGPPARYRDIPEEALMLTGDENILSVDAIVQYKIKDIKQYIFNLKQPYKMLKDAAEASLRQIVGKNLVEEVLTVGKEKIQRETKDRLQEILDKYETGVYVLNVQLQDVQPPKEVIGAFKDVASAKEDKIRYINEANGYRNDMIPKARGEAEKALNDAAAYKSKRINEAQGDVARFTKLYDKYKLGKTVTKTRMYLETMEGILPNVDKIIVDKNLEGKLLNIIGKEGDIK;locus_tag=LOCUS_09610;gene=hflK;note=WP_181409358.1 FtsH protease activity modulator HflK (Desulfovibrio) [pid:46.0%25%2C q_cov:95.3%25%2C s_cov:84.5%25%2C Eval:2.5e-74],MGA_961
sequence1	MetaGeneAnnotator	CDS	1106878	1107735	.	+	0	ID=MGA_962;product=protease modulator HflC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010937986.1;translation=MKKILGVVAIIAIAIFYTGVFYVTEIEEAIVVRMGQPVRKPIMKAGLNFKIPFIEKVDKFDKRLLEYDAEPKEIITKDKKNIVIDNYARFKISNPLLFLQTVHDEAGAQVRLDDIIYSELRQNIGRYTLTEILSSKREDIMRTVTKNSDEKAREFGIVIVDVRIKRADLPQQNELNVYKRMQTERAQQAKKYRAEGKEQALQIESKADQEKTTILAEAYRKAEEIKGEGDAKALQIYADAYNKDPDFYKFTRSLDAYKKIFSQKNKNRIIISTDSDLFNLFGGVK;locus_tag=LOCUS_09620;note=WP_010937986.1 protease modulator HflC (Desulfovibrio) [pid:46.5%25%2C q_cov:94.7%25%2C s_cov:94.7%25%2C Eval:1.6e-66],MGA_962
sequence1	MetaGeneAnnotator	CDS	1108000	1108923	.	+	0	ID=MGA_963;product=aspartate carbamoyltransferase catalytic subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583924.1;translation=MLLKNRNLFGIKDLSVEDIMAIFEKAKEFKALSRSKIKKNSLLRGKTVVNLFFENSTRTRSSFEIAGKRLGADVINMSVSTSSIKKGESLIDTAKTLDAMKADLYVIRHSQAGAPKMFSKYVSGQVINAGDGVHEHPTQALLDGFTIYETGKKFKDLNVAIIGDILHSRVARSDIYLLKKLGANVTLVGPATLIPDEFKSFGVEIENNLDNILGKMDVINLLRIQLERQGDSLFPSLDEYHNFFGLNDERLKKMKEDAIIMHPGPMNRGVEISFDVADCKQQVILDQVENGVAIRMALLALIIEGSE;locus_tag=LOCUS_09630;EC_number=2.1.3.2;note=WP_012583924.1 aspartate carbamoyltransferase catalytic subunit (Dictyoglomus turgidum) [pid:55.0%25%2C q_cov:98.4%25%2C s_cov:97.1%25%2C Eval:4.7e-91],MGA_963
sequence1	MetaGeneAnnotator	CDS	1108925	1110397	.	+	0	ID=MGA_964;product=anthranilate synthase component I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943019.1;translation=MRIYPDYNEIEKASKQGNVIQIYTKILADVETPISAYLKLAKDEEYSFLLESISGEDKFARYTFLGVNPSIKISATDDNVEIIEHEKTTEFKLKTGENPLDYLKNIMSKYKMVKNEKLPSFVGGAVGYFGYDTVKYFEKIEKKNRAEINVPDMYFMITDTILAFDRFKQELLIICNMFIEEDRDLKSIYDESVEKIKNIYEKLTNEVKLNFQISEVKEEIKISSNFKKEEFYKAVESSKEYIKSGDIFQVVLSQRFMAEYKHNPFDVYRRLRSINPSPYMFYLNFKDFKIAGASPEILVKLEGDTITLRPIAGTRKRGKDVEEDIALEKELLSDEKEIAEHIMLVDLGRNDVGKISKYGTVKVTEKMVIERYSHVMHIVSSVQGKIEEDKDGFDLLQAVFPAGTLTGAPKIRAMEIIEDLEPVKREIYGGAIGYFSFNGDLDSCITIRTMVFKDNKAFMQAGAGIVYDSIPENEYKETENKIAPVIRALG;locus_tag=LOCUS_09640;gene=trpE;EC_number=4.1.3.27;note=WP_010943019.1 anthranilate synthase component I (Geobacter sulfurreducens) [pid:49.4%25%2C q_cov:99.2%25%2C s_cov:98.0%25%2C Eval:7.6e-135],MGA_964
sequence1	MetaGeneAnnotator	CDS	1110588	1111526	.	+	0	ID=MGA_965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPDINDFDKNDFRQLILYSWKFELNAIESLIEITSKDMEEKRKELHDLSVENLDNYIHEECMKNIIYLHETEMLAFQSFFLTIYSVVEASLDRYCEICKRKFELKIGLEDLKDKGITRAINYLEKVVDMEEIKYNDMYRKMKLINKLRNDIIHKAGYISEKGKIEIYKEELELEVIDGKIKFICEDIKRLYKYMDDFIKLIFSKKIKSYDENFNSEEFEIVESIGEFYKENRVVILKLKDQEIKIGDFMYIKRNEELIKLEILEIQLNGKTVTDIKDEEVGIRFKDKLKNTDLFYLKNKSNIQNMIKGEKI;locus_tag=LOCUS_09650;note=MGA_965
sequence1	MetaGeneAnnotator	CDS	1111523	1112215	.	+	0	ID=MGA_966;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKWEIDVNKERNEILLFDKKGINGRYKFYYDETNNFRKFWIKENKFNASTNKNFVLAGLVHEDVEVLPNIEDLFGKLKLQSNVKELKFKMISKGKFLECCKSQKLNIILKYIYENKIYLHYVKLDPFYYSIVDIIDSILENEYMDFSFELKNCLYKIMYADIEKTTELFLKHDYPNIKKDIKNEFIDDLLDMINESEVKNMMKNFLIELLKKSREKEELPFIMDNLNNNK;locus_tag=LOCUS_09660;note=WP_013368633.1 DUF3800 domain-containing protein (Ketogulonicigenium vulgare) [pid:34.5%25%2C q_cov:94.8%25%2C s_cov:60.3%25%2C Eval:4.0e-32%2C partial hit],frameshifted%2C insertion/deletion at around 1112203,MGA_966
sequence1	MetaGeneAnnotator	CDS	1112223	1112636	.	+	0	ID=MGA_967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYISPLKLFKNSIHIFDEEKEIEKLISNLKFIDDEKELLHYVFKKSEEDKMIQLSDVIAGLLGKYFDYIKGGSFIEIEKDIKKLKEHEIEYENLILLHKILKKSEDKCIGFLHNTCCIEEQKKISYIFEMLEEDLY;locus_tag=LOCUS_09670;note=MGA_967
sequence1	MetaGeneAnnotator	CDS	1113048	1115027	.	+	0	ID=MGA_968;product=N-6 DNA methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011071650.1;translation=MKIQEILKDSNYKLSLFNESYIEKLENSIFEKELKNGKAYYIKCMVRNKDIKLTPEEIVRQLYLMQLNEKYGYSFERMQVEYIVNFGREKKRADIVIMDKIQPTVPYIIIEVKKPKLKDGKDQLKSYCNATGATMAVWSNGEQITYYHRKDPNYFEPITNIPTEKQSLRDLLKEKFYIDDLIEKDELKNQKKSLKSIILDMEDEVLSNSGVDVFEEVFKLIFIKLYDELQSTRDRDRMIEFRKYGESDSELKEKIEELFDKAKEKWTGIFKDDEGIDLTPSHLSVSVSSLQNVKLFNSNLDVIDDAFEYLVNKNSKGSKGQYFTPRYVIDMCVKMLNPKEEEYIIDTASGSCGFPIHNVFDVWKKIYNELGIEESHLFTAEKKHARALDYVKEKVFGIDFDKKSVRVARMLNIIAGDGHTNVLNLNSLDYGRWEESTKDENWQDTYFDGWRRLKKLRKNRNSNKEFEFDIVMANPPFAGDIKEGRILARYDLGKKPNGKWQTKVGRDILFIERNLDMLKSGGRMAVVLPQGRFNNSSDKAIRDFIAEKCRILAVVGLHGNVFKPHTGTKTSVLLVQKWDEKLCPKKDDYNIFFATMQKPSKDNSGDKIYVKDENGQNILDDHDHLIVDHDLYNHDGKTEDGIAEAFIEFSKKEKLSFFI;locus_tag=LOCUS_09680;note=WP_011071650.1 N-6 DNA methylase (Shewanella oneidensis) [pid:25.4%25%2C q_cov:87.4%25%2C s_cov:89.6%25%2C Eval:1.1e-49],MGA_968
sequence1	MetaGeneAnnotator	CDS	1115060	1116487	.	+	0	ID=MGA_969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGLGIKEKLFSQVFENKDFRIDSQFYTKEPIKNPLLIYDKIGNKLDKSQYGISISMNENNVGYPIYRMNEIHNLLCDLSVNKSANISEKELEIFKLNDRDVIFNRTNSFEWVGRTGIYRKLDNKDFIFASYLVRFIPDEKFILPEYLTAFLNSKQGVWDIKRRARQSINQTNVNPEEVKEIEIPLLSMIFQKRIKNLFEEAHISRVTSETLYKQAENILLEELDLKDWKPTNENIKIKSLKNSFLQSGRLDSEYYQQKYEEIIEKIKSYKGGHDTLENLCNLMDKNYKLKEKQYYKYIELSNIGTTGDVTGFTYELGEDLPNRARRRIKENDVIVSSIEGSLEKVALVTKKFDNSLCSTGFYVINSEKINSETLLILLKNKIVQQILKQNCSGTILTAINKDEFLRIGLPIIDLLIQNKIEEKIKESFDLKEKSKQLLDISKLAVEKAIEENEEIALMWIENKLKELNIKLNEV;locus_tag=LOCUS_09690;note=WP_083500625.1 restriction endonuclease subunit S (Thermococcus celericrescens) [pid:37.1%25%2C q_cov:33.3%25%2C s_cov:36.1%25%2C Eval:4.3e-18%2C partial hit],MGA_969
sequence1	MetaGeneAnnotator	CDS	1116489	1117532	.	+	0	ID=MGA_970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKTIAEIEENINKQRKNVKYDTKEYTLELLVSKFNRAIEESKTTEIFVPFYQRKFVWDEKRQSKFIESLILGMPIPPIYLAEIDDGVLEIIDGSQRIRTINEFLKNRLKLKGLLKLEELNNITFNELNSSRKRKINNISIKAIVVTDIEKKDMNIRHEIFERLNTGGETLKKMEVTKGAKEGKFIEFIYNECGENSILKEISNFSSNDEKRGYKEEFLIKYFAYCENLEFEIYVNDYLNKYIEEKNEKFKNDDTKDLYLIQFKEMLKIVKYNELVKDISINRKNRLLAIFIGVTLAIKEKKELVNKSFEIDIYSEIFIENAKSNGLNKLKENIELVKNKILEASL;locus_tag=LOCUS_09700;note=WP_011202567.1 DUF262 domain-containing protein (Bacteroides fragilis) [pid:26.0%25%2C q_cov:89.9%25%2C s_cov:69.4%25%2C Eval:3.6e-13%2C partial hit],MGA_970
sequence1	MetaGeneAnnotator	CDS	1117529	1118176	.	+	0	ID=MGA_971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNDLREFFEERKLEVEEFFNFLSTINDKKTYKNEFLILKSQSILLLYNLIEGSVNKGIEYIIDSINDKMLKYSEIDEKIKIIWYKHKASNIRNKDDYSEILREIENYINQEVEIDIKKFRKNNSSYFSAGNLDGNAIKKMLEKRFEIDFSKQEYRLKRIKDDRNFLAHGEKSFKEIGRDKSLEELIETKKKSFEFLDSYMEKIEEYIENEKYLV;locus_tag=LOCUS_09710;note=MGA_971
sequence1	MetaGeneAnnotator	CDS	1118497	1119372	.	+	0	ID=MGA_972;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003731865.1;translation=MKLELVYDYKENEILRKSFNELSQNTFGINFEEWYRKKLWNNKYECYSIKSGNKIISNASVNKYQFIINGTKKTALQIGTVMTDEEYKRKGMAKQIINFILEKFEKEYDIIYLFANNSVSEFYPKFGFKKIKQFQIYTTEKIELNTKYKFRKLDMDNLNDVAILKEIGINRIPTSSQFDIINGYEVMFWYCLNVFRGNIYYDNREKIIVIYTTDNEKLNIHDIVLTEKKNYREIIGSITTDEIKEVSFDFNIEADNIEIKEREVDEDDNILFIKGKFGEKLKVIHPITSHA;locus_tag=LOCUS_09720;EC_number=2.3.1.-;note=WP_003731865.1 GNAT family N-acetyltransferase (Listeria monocytogenes) [pid:33.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-47],MGA_972
sequence1	MetaGeneAnnotator	CDS	1119811	1121250	.	-	0	ID=MGA_973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKYVYTLLKIIAIQQKLIIALMIFALGKKFEFLNSKSDDKPIDKKYHRLIVDKMPIFKKIVKFDYKILLEQYQLKHNKPLKPIKRRKESSVPKSLICPICGAPHIYIYDNNGHKGQFKCKICNTNFHEKNHFAKFVVFKCPHCGKTLEKIKERKDFFVHKCTNKKCSFYLKNLQKMDADERKIYKNDPSKFKLHYIYREFTFDFNSLDKDSLVPIPSDLSKIQVSPYTLGLILSYNINFGISARKTANLLKEIHGINISYQSILNYAKAVATNVKPIIDNYPYKLSDSICGDETYTKVLGKWKYIFFFFDTKKKIILSHYTSSSRDTKSACKALIDVISKYRELPEDFQVIVDGNPIYLLAQQFFAQHDINFNVEQVIGLTNKDKVSKKFRPLKQIIERLNRTFKENYHYTNGYNSHSGAFTSVTLFTAYFNFLRPHSSLENNVPVVIPELTDLPNMPARWGKLIELSQYFIPEKHIA;locus_tag=LOCUS_09730;note=MGA_973
sequence1	MetaGeneAnnotator	CDS	1121418	1122065	.	+	0	ID=MGA_974;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011262054.1;translation=MKKIIKAVLIIITSIILIVIIAGIYKFNYLANQPGYDVDGNKIEEVHKSEVLSKWFNLDTTNDFYVKVPELKINCKITQVIDSDSLYYAKGKFSVGYEKGKVFISNREIVTLNNSTSNINYLVIPFSVSNQGSGLFKYIGLFKLNNKAKTINHIDSYFLGDRVKIDSIEYDGANNIQVKIKIHTKNQAMSEAPSELKLLEFKVRDGGLFGFKLLK;locus_tag=LOCUS_09740;note=WP_011262054.1 hypothetical protein (Aliivibrio fischeri) [pid:33.7%25%2C q_cov:83.3%25%2C s_cov:86.3%25%2C Eval:6.5e-26],MGA_974
sequence1	MetaGeneAnnotator	CDS	1122255	1122878	.	+	0	ID=MGA_975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIVYGTYNISKLNSMIKMLEGLEVKIVGLSDFGMNLKKSKETGKDPLENAEQKARNYFKQIKKPVFSCDSGLYFENVEEKDQPGILIRRIGNKKLSDEEMIEYYSNLAKKYGGQLKAYYKNAICLIINNKEKYSYVGKDIYSEKFLIVDKPHKSYKEGFPLNSLSVDISTNKYYFDLSREKEDNLDIKIGFRNFFINSLNIERKGI;locus_tag=LOCUS_09750;note=MGA_975
sequence1	MetaGeneAnnotator	CDS	1122923	1123378	.	+	0	ID=MGA_976;product=cytidine/deoxycytidylate deaminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032889952.1;translation=MEIAILSGKRSKDPNTRVGSCIVNEKNRIVGIGYNGLPNGLNDDEFPWGNTGDYLNTKYPFVCHAELNAILNSTSISLENCKIYTALFPCNECSKVIIQSGIREVIYLSDKHHDDDIFIASRMLLDRAGVNYRKLETTIDKMELSYNEENV;locus_tag=LOCUS_09760;note=WP_032889952.1 cytidine/deoxycytidylate deaminase family protein (Fusobacterium) [pid:65.1%25%2C q_cov:96.7%25%2C s_cov:90.1%25%2C Eval:5.4e-52],MGA_976
sequence1	MetaGeneAnnotator	CDS	1123619	1123816	.	+	0	ID=MGA_977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTLKSYDQCADKYNEKFSIYEPYQKQMNKFVSFLKETSKILDVGCGSGLNSKIMDCQHLKIII;locus_tag=LOCUS_09770;note=MGA_977
sequence1	MetaGeneAnnotator	CDS	1123863	1124300	.	+	0	ID=MGA_978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIIIKKIWNDDDVIEFEIYLIDENFKFRTTVYTGNFEISETYKKLIEFGSLIPNKKCLIKLGGFGEKYANGAISLELQCNSRGIIHLEIEMETEFYEFNKRNISDKLLCHKKTNPALYDKFVKNFKRIEKFELGEEIEFELI;locus_tag=LOCUS_09780;note=MGA_978
sequence1	MetaGeneAnnotator	CDS	1124341	1124871	.	+	0	ID=MGA_979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEIKILEGLSKSGEYSEYNFGKTNDLLWILFLNLETGEEWIGKFDIGIRNKSKIKIFQNNTAVILARGNIYIINCKIKKVQCIFEYEDYEDIEIDLVNNYIIITDGLYISVHDKNGKFIQKTKRISLDGIEFIEIKNGNVYGRLNDLTFEWCDFKYNIVENEVISKWIFDDAVLK;locus_tag=LOCUS_09790;note=MGA_979
sequence1	MetaGeneAnnotator	CDS	1125121	1125801	.	+	0	ID=MGA_980;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000540728.1;translation=MKLKALFLDFYGTLVHEDDEIIPVICKRIEKSTDLNVSIEEIGRFWWQEFHELFMNSYGDNFKTQRIIEKISLDRTLEYFSSSEDSDDLCQLLFNHWQRPKIFEDTKKFIESVNVPICVVSNIDRVDINNAIKFHNLKFDCVLTSEDAKSYKPRKELFELALNEMKLSNNEVIHIGDSIRSDILGAKKCGIKSIWLKRNKMNKTNEVIENICIDLNEVKSLMEKII;locus_tag=LOCUS_09800;note=WP_000540728.1 HAD family hydrolase (Bacillus anthracis) [pid:25.4%25%2C q_cov:99.6%25%2C s_cov:96.5%25%2C Eval:1.6e-09],MGA_980
sequence1	MetaGeneAnnotator	CDS	1125939	1126463	.	+	0	ID=MGA_981;product=NUDIX domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005807782.1;translation=MEIWDIYDKERCITGNTIKRGSEFNDNEFHLVVHICIFNSKGQMLIQRRQPFKKGWPNMWDITVGGSSIAGESSSQAAERELFEEIGYKADFSKRRPFFTINFSYGFDDYYIIEDDVDIDTLKLQYEEVQCVRWATKDEIIDLIDKGEFISYYKNLIRLMFDMRKQRGAIIIEK;locus_tag=LOCUS_09810;note=WP_005807782.1 NUDIX domain-containing protein (Desulfitobacterium) [pid:63.9%25%2C q_cov:95.4%25%2C s_cov:94.8%25%2C Eval:1.1e-63],MGA_981
sequence1	MetaGeneAnnotator	CDS	1126654	1127442	.	+	0	ID=MGA_982;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_043943610.1;translation=MNKLQQYYEKYSESNRLEKDKTSKIEFLTNIEYLNKYIKKGKLLDVGAGSGIYSSYYDEKEIEVTAIDVVQSHVNFMKEKFVDKNINVKLGSALDLSEFKENSFEFVLCLGPIYHLRDKEERIKCIKECNKVLKKGGILAVAYINKMHIIPRYLGIHNEIIEKDVIEYFLKTGNFSSEVKDEFLKVSHFDYPEEIENLIVNEGNEVIEHIASDSIWKLTKNEINNLTELEFELLLKYHLETCNQKNSLGLSNHGLIISKKIS;locus_tag=LOCUS_09820;note=WP_043943610.1 class I SAM-dependent methyltransferase (Clostridium) [pid:32.5%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:4.3e-31],MGA_982
sequence1	MetaGeneAnnotator	CDS	1127745	1128809	.	+	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRILIVCILTIVILFLTSCSNNTEKNNILVLKVKSTGQIYLYGERHGIKKILDKEIELWDKYYNNQGMRHLFIEVPYYTAKLLNIWMKSDSDDIFNSIYHDWEGTDGHNPDFKEFFKKIKRNYPKTIFHGTDVGHQYETTGKRFLKYLKDNKLNDSKQYFLTKKAIAQGKYYYSHSDEVYRENMMVKNFIYEFENLNGKNIMGIYGASHTGIDMLDVTRAVPCMANQLKKYYSNNIHSKDLSKEPEPERVDKIKVGGKIYKASYFGKWDLPEFKEFKYREFWRLEDAYNDFIDNPKTQSVLPYNDYPMLIKIGQIFVVDYTKIDGSVMRCYYRSDGYKWHNMLSTNEFIVKK;locus_tag=LOCUS_09830;note=MGA_983
sequence1	MetaGeneAnnotator	CDS	1128864	1129514	.	+	0	ID=MGA_984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYDNNGVVGLGNSFNFYNLSAFSFPIIYRHSPIERLELPIYPIPLYGKYLIFGEQTELINKKFNMTLNFGVKSFNYSSSSTSGNDFSVEYELGTEYKKVINDNLWLEGDFLPTLENKKIYLKNGEKQKQMKILVNTENYIGYQINNNLSIKSGLIWKKELQNDDEISETKEYNITRIPFVLRFNKDKFFLEMNSGIEFTNKNNSFPIGLKIGTYW;locus_tag=LOCUS_09840;note=MGA_984
sequence1	MetaGeneAnnotator	CDS	1129589	1130029	.	+	0	ID=MGA_985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKILSKYGLPIVIGSYELDLMFDEDIDIVVETGSPRESSIKVLNEFIRTETFQKYEYGDFEKYTRLNRPNGFIVNLKIEYENKNWEIEIWFFKNISDYKIQLNKYKELINSEKKLKILQRKFLRKEKGKTKHEISSISIYNEILL;locus_tag=LOCUS_09850;note=MGA_985
sequence1	MetaGeneAnnotator	CDS	1130251	1131009	.	+	0	ID=MGA_986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEYNITNKVKVFLFENTMVITSLINNNKAILIDCGMMDEAKALKEKLNKNGIQVVGIIFTHYHPDHVVGANLFENVDLICNSRYENDYICFSKEFKNEFNFLKPTKIIDEGEIKLNGFNIKIINGEGHCKSSSIILINNEIIITGDLMMQTNEGKPCIPGLCSDGSVFSHIRSLEEIIKLNPKYLIMGHGEPILNKQDINIEIEKRLDYLYKIKNSNGNIKLEDCINENLDEWELKRAHDLNLNVYRNELK;locus_tag=LOCUS_09860;note=WP_010891946.1 MBL fold metallo-hydrolase (Campylobacter jejuni) [pid:29.7%25%2C q_cov:58.7%25%2C s_cov:59.2%25%2C Eval:9.5e-09%2C partial hit],MGA_986
sequence1	MetaGeneAnnotator	CDS	1131051	1132223	.	+	0	ID=MGA_987;product=ATP-grasp domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021990.1;translation=MIIADKPYVSDFMKKSILELKLPLLKSEGIEKLNFLEGTKIVTQELALQKLKFEKEMKIYTNSENSINWMINNLDFTELPENINLFKDKVKFRKAIESIYPDFYYKEIKINELKEISIENLKKPFIIKPSIGFFSMGVYMISSNEDWEKAIKSLEIEIKEVENLYPKEVLNTSKFIIEEYIEGEEFAFDAYYNSNGEPVILNILKHIFSSEKDVSDRVYITSKEIINENIENFLDFLKKLGDITKIKNFPLHVEVRMDEKGKIIPIEVNPMRFAGWCTTDIAYYAYGINPYEYYFKEKKPDWEKILKIKENKIYSVVVLDNSTNISSINIKSFNYDKISLKFEKILEIRKVDYNKYPLFGFIFTETRKDNYEELEWILKSDLKEFVSLDN;locus_tag=LOCUS_09870;note=WP_011021990.1 ATP-grasp domain-containing protein (Methanosarcina acetivorans) [pid:52.2%25%2C q_cov:99.2%25%2C s_cov:99.5%25%2C Eval:1.6e-121],MGA_987
sequence1	MetaGeneAnnotator	CDS	1132254	1132547	.	+	0	ID=MGA_988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAEECLNMREIRDGIDIIDNEIVKLIANRAKYVKEAAKFKKDEKAVKDSNRVKKVLESKKELAKKYGASPDLIEKIYKMMIDFFINEEMQEWKLK;locus_tag=LOCUS_09880;note=MGA_988
sequence1	MetaGeneAnnotator	CDS	1132544	1133056	.	+	0	ID=MGA_989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNWNYKSYKYRFLNFRDNGEEVEEFLKANHKYICWQDDLEIDEISSKDTFYPELPKGKRIEDKYLIGIYENKKIICIFDILKNFPEDETWMIGLMLLDENLRGKGLATELYNEIERYLIKHSVKKIRIGVLDKNSRGKAFWEKSGFKRVEGEKKYKEIKKVFIYEKIL;locus_tag=LOCUS_09890;note=MGA_989
sequence1	MetaGeneAnnotator	CDS	1133221	1133838	.	-	0	ID=MGA_990;product=phosphoserine phosphatase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000859193.1;translation=MTLNLYIVRHGETEWNKKGVMQGHFNSDLTDLGKNQALKLSKSLSHINFDAVYTSTQSRAINTTQIILGDKDNKIIQSELIKEINMGIWQGMEKEVVRKKYPEHIESFWKNPHKYDHQAIKGESYFELCKRTKLFLNDIYDKHKNGNILIVSHGIAIKSILNNILNRSIEDFWKGEYILNTSVTLIEMKAKDSFEIKFISDVSHL;locus_tag=LOCUS_09900;EC_number=3.1.3.3;note=WP_000859193.1 phosphoserine phosphatase 1 (Bacillus) [pid:35.8%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:4.5e-34],MGA_990
sequence1	MetaGeneAnnotator	CDS	1133986	1134192	.	+	0	ID=MGA_991;product=zinc ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065663.1;translation=MEKNYKCPKCGNNSYETDTIATTGGGFSKIFDVQNKKFTAVTCTRCKYTELYKAETSMLGNIFDFFTD;locus_tag=LOCUS_09910;note=WP_048065663.1 zinc ribbon domain-containing protein (Methanosarcina acetivorans) [pid:68.8%25%2C q_cov:94.1%25%2C s_cov:92.8%25%2C Eval:6.4e-21],MGA_991
sequence1	MetaGeneAnnotator	CDS	1134578	1135162	.	+	0	ID=MGA_992;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681215.1;translation=MTNRLKKQIEFIREIDKIKEIYRHTSLFGKDRKENDAEHSWHICVMAIVLSEYSNEKNMDMLKILKMLLIHDLIEIYSGDYIVYTEKEVEKEKKEKEGAEKIFSILPEDQSKEFKDIWVEFEERKTIEAKFARVLDRLEPILQNYYNKGDSWVKYNISAEKIIEKNRIIKDGSEEIWKYVEGMINEYLEKGIIK;locus_tag=LOCUS_09920;note=WP_002681215.1 HD domain-containing protein (Treponema denticola) [pid:50.0%25%2C q_cov:98.5%25%2C s_cov:91.3%25%2C Eval:3.4e-49],MGA_992
sequence1	MetaGeneAnnotator	CDS	1135346	1135762	.	+	0	ID=MGA_993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIKKIEEKVKYCYWEKDYNCAITSIKVLSELFNIKIGEEILNSAIGIPGAGRYGAQCGLVNGALMIIGLRGKEKSLENKDIRELCNKFSKEFDEKFKSLLCSELRPQGFNENNPPHLCEPITNESILLAYEIISGT;locus_tag=LOCUS_09930;note=MGA_993
sequence1	MetaGeneAnnotator	CDS	1135901	1136068	.	+	0	ID=MGA_994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDHQVLILILDNNAKISKHYNKVVKYFTDKKMKVEEITVEYEFQKDENKMLRIKK;locus_tag=LOCUS_09940;note=MGA_994
sequence1	MetaGeneAnnotator	CDS	1136219	1137205	.	+	0	ID=MGA_995;product=endo alpha-1%2C4 polygalactosaminidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_021779459.1;translation=MKKPFMKLIIISMFMLSGCFNNNIINANISRDYRQDMRDFIKSISAYSKNINHNFIIIPQNGQELITDNGESNGILKLDYINSIDATGREELFYGYNNIDEKTAEEDKQHLLDLCHVYEKHNIKVLVTDYSYTHSKMDDSYKINEKNGFISFAANTRELNKIPDYPKHPFNENSNNINNISQAKNFLYLINSENFITKGDFITAVSATNYDVVIMDLFHNEKAYNSTEIKQLKIKKNGNKRLVVCYMSIGEAENYRYYWDKEWDKSHPLWLDNENPSWKGNFKVKYWNKNWHDIIFGNDNSYLKKIIDAGFDGVYLDIIDAYEYFEEK;locus_tag=LOCUS_09950;note=WP_021779459.1 endo alpha-1%2C4 polygalactosaminidase (Fusobacterium nucleatum) [pid:33.5%25%2C q_cov:97.9%25%2C s_cov:94.4%25%2C Eval:3.0e-43],MGA_995
sequence1	MetaGeneAnnotator	CDS	1137290	1137868	.	+	0	ID=MGA_996;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461583.1;translation=MLIQKGTKDLDTERLYLRRFKLEDSENMFNNWANDEDVTKYLTWLPHKKIEVTNEILKEWINSYKSTDVYNWAIVPKEYGKVIGNISVVKIDLEDEMCEIGYCISKKYWNKGIVTEALKKVIDYLILDVGFVGIKGKHDLKNIASGKVMLKAGMTYEGRIRDSIKNNEGEYIDVEMYSILKRDIFKNKSLNN;locus_tag=LOCUS_09960;note=WP_011461583.1 GNAT family N-acetyltransferase (Desulfitobacterium hafniense) [pid:45.9%25%2C q_cov:95.8%25%2C s_cov:97.9%25%2C Eval:4.6e-46],MGA_996
sequence1	MetaGeneAnnotator	CDS	1138050	1138559	.	+	0	ID=MGA_997;product=flavodoxin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009902172.1;translation=MEKKTIKIAIIYYSKGNNTKLVAETIKIGLEEIENIEVKSMSLEELDPNYIKEAKAIIFGTPTYYANISWQMKKWFDESQGYNLEGKLGAVFATENHIGGGADTALLTLINHLMVKGMLIYSGGSALGNPYIHLGVVAIKDGDDYQKERAKIFGNRIARKTLELFGNIK;locus_tag=LOCUS_09970;note=WP_009902172.1 flavodoxin domain-containing protein (Clostridioides difficile) [pid:54.0%25%2C q_cov:94.7%25%2C s_cov:99.4%25%2C Eval:5.9e-46],MGA_997
sequence1	MetaGeneAnnotator	CDS	1138647	1139207	.	-	0	ID=MGA_998;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897833.1;translation=MKNAKEIRAGNIIKIGNDVFIVQKAEFSKSGRSSAVVKFKFKNLLTNAKSETVLKAADKVDDIILDKQKMVYIYENGGQYAFQNQETWEELNLTKEDLGDALKYLEENMEILVVFYEGRAVGIEMPTTLDREVVYTEPGLKGDTTGRALKSAELSTGHEIMVPLFINQGDIIRIDTRTDEYLERAK;locus_tag=LOCUS_09980;gene=efp;note=WP_005897833.1 elongation factor P (Fusobacterium) [pid:60.8%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:2.5e-62],MGA_998
sequence1	MetaGeneAnnotator	CDS	1139271	1140419	.	-	0	ID=MGA_999;product=elongation factor P maturation arginine rhamnosyltransferase EarP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016605.1;translation=MFNIDIFCDVIDNYGDIGVVYRLAKNIHQINKNILINIYINKYTEVKKLVENFDSNLIINNFENLNIINIERVSQNSFKYNASKVIIEAFGTEIPDFFKKSISENAKLIINLEYLSGETWIEGFHKKKSISYYEGIEKYFFMPGFTEKSGGIILDYDYLSMIKSINSSKEKYFNNFFKEKNINCIYNKSNLYISIFTYEFNFKSMIKSLSKVNKNIYIFLCGEKTQKSFDFILKEIKIYKNIHILYMPFFIQKDYDYLINLMDFNFVRGEESLARATISGIPFLWHIYKQEEYIHLDKLNSFLDRMSENIDINADIFKKYKDISISTNNILKDEIENNFEINFDDLFNIILDNSSFFKKFSEYLIKKCDLTKQLIEFINEKI;locus_tag=LOCUS_09990;gene=earP;note=WP_011016605.1 elongation factor P maturation arginine rhamnosyltransferase EarP (Fusobacterium nucleatum) [pid:37.8%25%2C q_cov:98.4%25%2C s_cov:96.9%25%2C Eval:1.6e-62],MGA_999
sequence1	MetaGeneAnnotator	CDS	1140848	1141864	.	+	0	ID=MGA_1000;product=3-deoxy-7-phosphoheptulonate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546648.1;translation=MVIVMKNNATEEQIKKVIERVESLGLKAHPIYGQEKTIIGVIGDENILRAHPVNPYEGVEEVKSIAKPFKFASREFKQEDTIIDVNGIKIGGGNFVVMAGPCSVENRDMLFETAKRVKEAGASILRGGAFKPRTSPYDFQGLGEEGLKYLKEAAIEYNMAVITEVMDARDIELIDKYADIFQVGARNMQNFTLLKELGKTDKPVMLKRGMAATVKDLLMAAEYIIASGNKNVILCERGIRTFETYTRNTVDINIIPSVKELSHLPIIIDSSHGTGRRSHVGPIALAGLVAGADGSMIEVHPSPENALSDGPQSLRFHEFDELMSKMKKYLEFEGRKLS;locus_tag=LOCUS_10000;gene=aroF;EC_number=2.5.1.54;note=WP_012546648.1 3-deoxy-7-phosphoheptulonate synthase (Thermodesulfovibrio) [pid:56.1%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:6.5e-105],MGA_1000
sequence1	MetaGeneAnnotator	CDS	1142101	1142616	.	+	0	ID=MGA_1001;product=shikimate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546210.1;translation=MKKNIVLIGYMGTGKSTIGKILSKELKMEFIDTDLLIEKNIKMSIKDIFENFGEKYFRDLESKIAKEVSKLNNKIISTGGGIVLRDENINNLKKTGMVVLLKANADTIYERVSKNSDRPLLNVENPKEKINKMLIERKLNYERFKDIEIETDNKTVNEIFEIIKENYFKTV;locus_tag=LOCUS_10010;EC_number=2.7.1.71;note=WP_012546210.1 shikimate kinase (Thermodesulfovibrio) [pid:47.6%25%2C q_cov:95.3%25%2C s_cov:94.2%25%2C Eval:3.6e-38],MGA_1001
sequence1	MetaGeneAnnotator	CDS	1142639	1144618	.	+	0	ID=MGA_1002;product=3-dehydroquinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016717.1;translation=MKRINVNVVNNNYEILLGENTLKDLKKYLPKNYKKILIVSNDTVGPIYINKVKKALNDESIELHYFEIPDGEEYKKLDTVLPIYDYMIENNFDRSSLIISLGGGVVCDLTGYVAATFMRGIDFIQIPTSLLAQVDASIGGKVAVNHPKGKNLIGSFYQPKLVFIDIAVLKSLPLREIKTGLAEIIKHAIIKDKDYFKFLKENSDKILNLESKYIIEMIKKSCEIKAEVVSEDEKEQGIRAILNYGHTYGHVVENLTQYKVYRHGEAVVFGIMFATYLAKKIRGVNESIVTEIEEIFDKFGMDIIIPKFNFNKVLQILKHDKKVKDGKLIFVLPTSIGTAEIIAITEEQVKEVYEKINGADVKGVIDIGTNSVRLFIGEVYENNILNKFLKLINITRLGENVDKTNLLENKAIERTVNVLKEYKNISDSYGVTSLKTIATSAARDALNKDDFLKAALDVAGVKVDVVSGEVEGNYSFKGVLSSGYKSDIIVVDIGGGSTEFIYGNNKTGVKFIKSLNIGSVRIKEKFFKSDIYDNLNECKKWIFNELETIKELKDKKFKLIGVAGTITTQVTILKAMAEYNSDEVNGYNLKYTDISNNFEMLSNLSIENRKNVVGLEEKRADVIVAGTFLLKTILEFFSQESIEVSDNDILEGMILDKTR;locus_tag=LOCUS_10020;gene=aroB;EC_number=4.2.3.4;note=WP_011016717.1 3-dehydroquinate synthase (Fusobacterium nucleatum) [pid:42.9%25%2C q_cov:97.6%25%2C s_cov:98.3%25%2C Eval:1.5e-147],MGA_1002
sequence1	MetaGeneAnnotator	CDS	1144674	1145117	.	+	0	ID=MGA_1003;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947986.1;translation=MRIVMASDHGGLELKDFIKSYLLGKGYDILDIGTNSEESVDYPDYGKNAGLKIMNGEADLGIIMCGSGIGISIAANKVKGIRAALCHDIYTARMCKQHNNANILAMGGRIIGKGLAIEMVETYLNTEFEGGRHQRRIDKIHKIEQEG;locus_tag=LOCUS_10030;gene=rpiB;EC_number=5.3.1.6;note=WP_011947986.1 ribose 5-phosphate isomerase B (Clostridium botulinum) [pid:55.9%25%2C q_cov:98.6%25%2C s_cov:100.0%25%2C Eval:1.7e-44],MGA_1003
sequence1	MetaGeneAnnotator	CDS	1145120	1145458	.	+	0	ID=MGA_1004;product=HIT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964599.1;translation=MCLFCKIVNKEIPAKIVYEDNNILAFEDINPKAPVHILVIPKKHIETLNDINNENSKIIGEIYAVIANLAKEKGISKTGYRVVANCNRDAGQEVFHIHFHLMGGRKFQWPAG;locus_tag=LOCUS_10040;note=WP_010964599.1 HIT domain-containing protein (Clostridium) [pid:62.2%25%2C q_cov:99.1%25%2C s_cov:97.4%25%2C Eval:5.3e-39],MGA_1004
sequence1	MetaGeneAnnotator	CDS	1145443	1146201	.	+	0	ID=MGA_1005;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898090.1;translation=MASRVILSKENKFYKLIKKLKDKKYREKERAFLAEGFKIFELNKNPKYIILKNSMQNKFDFSSYNNKYIFEDFLFDEITSQENSQGVIFVYEYPSPNIENILGDIVILDQVQDPGNLGTIIRTLDAIGLKSLILIKGTVDVYNEKTVRSSMGSIFNLNFHYMNYDELFSFLEEKNYNIISTALDDDSVDYTQMRLKEKNAIVFGNEGNGISKKILNKSNEKVIIPIYGSAESLNVGIAVGVVMYKYIELKKL;locus_tag=LOCUS_10050;note=WP_005898090.1 RNA methyltransferase (Fusobacterium nucleatum) [pid:47.5%25%2C q_cov:91.7%25%2C s_cov:92.2%25%2C Eval:1.3e-61],MGA_1005
sequence1	MetaGeneAnnotator	CDS	1146214	1146801	.	+	0	ID=MGA_1006;product=pentapeptide repeat-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020556.1;translation=MEINNFLNNEYSEIEFSDIKNRELDLTNKDFFKCHFNNCDFSNTDFSNSNFENCIFENCNLSLIKVVNTKIVEVEFKNCKLLGIHFNSCNTFIIDMNFDKCYLQYCNFSRLQLKDMKFENCDILECDFIESNLEKSSFENSVLTGTIFEDSNLSKTNFINAKEYNINIEKNRIKKAKFSSPEVISLLNSFDIKIY;locus_tag=LOCUS_10060;note=WP_011020556.1 pentapeptide repeat-containing protein (Methanosarcina acetivorans) [pid:44.4%25%2C q_cov:86.7%25%2C s_cov:98.3%25%2C Eval:9.5e-39],MGA_1006
sequence1	MetaGeneAnnotator	CDS	1146870	1148828	.	+	0	ID=MGA_1007;product=amylo-alpha-1%2C6-glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_190697803.1;translation=MKFGKSILGNYEEGTNREFLVSNGIGGFSSGCINGNFARRYHGLLISSLLPPLDRYLYFHKIEENIDGIDISTYKIFEDTEKINKGYIYQLSFEQNPFPKFKYSVNGNIFEKEIFMITGKNSVIVKYKLKVSSKSTVNAKFNLFFNYRDTHKMNTTEIEKYSVKKEPDFLSLKIEDNNVPIYIYSNKIDKFNTNMELRNNIVYDIEQDERGDKSFDSSVSIGEISCKMKENDEIYIVVSNEKINNINLDELYKKEIKRIEKLKKDTSKNNNILQDLSVAADSFIVYRKGTNGKTILAGYPWFGDWGRDTMIALPGLTLSTNRFEDAKSILKTFAKYCDKGMLPNKFPDWEGEELYYNTIDASLWIFYAVYKFLEYTKEYDFIKNEIYPALKNIIQFHIDGTRYNIKADEKDGLISGGDENTQLTWMDVAYKGWAVTPRYGKAVEINALWYNALKIMEDLSDKFNKNNDVYKLYSKKVEENYEKVFWNEKSNCLYDYIDNNNIKNEDIRPNQIFAVSLPYTVLSKEKEKQIVDLVLNKLYTPHGLKSLSSNNEKYIGIYKGSLFERDSSYHQGTVWSWPLGHFITAYNKVYNDKEKIKLLLDGIIEHFYQEGCVNNISEIFDGDSPNLARGCFAQAWSVAEIIRVMKEELNEE;locus_tag=LOCUS_10070;note=WP_190697803.1 amylo-alpha-1%2C6-glucosidase (Anabaena minutissima) [pid:38.0%25%2C q_cov:98.6%25%2C s_cov:98.5%25%2C Eval:4.0e-121],MGA_1007
sequence1	MetaGeneAnnotator	CDS	1148818	1149192	.	+	0	ID=MGA_1008;product=phage holin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010887808.1;translation=MKNNDKNLLIKFIVNLVALGLTAFLLKGIEINGIFPLVISTILLGVLNTVIRPIFLVLTLPLNLLTLGSFTFVINGMILLFTSQLVRGFEITSFWSGLFGAILLSFISFLLDNFINNLEEKIND;locus_tag=LOCUS_10080;note=WP_010887808.1 phage holin family protein (Deinococcus radiodurans) [pid:33.6%25%2C q_cov:88.7%25%2C s_cov:91.1%25%2C Eval:1.0e-13],MGA_1008
sequence1	MetaGeneAnnotator	CDS	1149185	1149709	.	+	0	ID=MGA_1009;product=ADP-ribose pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398600.1;translation=MTRKIVDKNIAYTGRVFELQNLEIQLENNEIIKRDILKMGFSGAVAVLAVTKENKVILVKQYRAGADKYLIEVPAGLIDEGETPEEAAIRELEEEGGYKAKKLKKLTEFYTTPGFTNEIIYVFEAFDLEKTEQNLDHDEYIDVIEYPIEKVDELDLKDVKTLVTLNFLKNKLKK;locus_tag=LOCUS_10090;gene=nudF;EC_number=3.6.1.13;note=WP_004398600.1 ADP-ribose pyrophosphatase (Bacillus) [pid:41.2%25%2C q_cov:98.3%25%2C s_cov:94.6%25%2C Eval:3.9e-32],MGA_1009
sequence1	MetaGeneAnnotator	CDS	1149756	1150607	.	+	0	ID=MGA_1010;product=diaminopimelate epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015944873.1;translation=MELKFSKMEGLGNDFVVIDDREQLVENKVSYNDLSIRVCDRHFGIGADGLIVVLNSESHDIKFRIFNPDGSEPEMCGNGIRCYAKYVHDNRIINKLEFKVDTLAGTIIPKVNIGEDGLVDTVKVDMGEPILKTKDIPFISENEIAISENLNVDGKEVKVTTVSMGNPHAIIFVDDIKTAPVSTLGPKVETHERFPEKTNVEFINIISRNEMNMRVWERGAGETLACGTGASASLVAATLNNFTDNKVLIHLLGGDLTIELDKNNNHVFKTGPATLVFDGILKI;locus_tag=LOCUS_10100;gene=dapF;EC_number=5.1.1.7;note=WP_015944873.1 diaminopimelate epimerase (Desulfitobacterium hafniense) [pid:50.5%25%2C q_cov:98.6%25%2C s_cov:97.9%25%2C Eval:2.2e-76],MGA_1010
sequence1	MetaGeneAnnotator	CDS	1150657	1151277	.	+	0	ID=MGA_1011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNNSKELAFFNILETALHFDLSEEKNNFLVSLNELKDKIGMDTNEILKNMKSLENNKILKIKEYDNNKILLDISNYKTKLSEVFTQEEIETILKEFNYFIKKYNLTIPNEKEIKKSSEILKNMILENPQCDLQEFIEKGITTAITEKILIKIEKKIYDLFNSVDDEDLKILEVTLFCMYNFDKKNNPFLVTLFLESVYNNMNKR;locus_tag=LOCUS_10110;note=MGA_1011
sequence1	MetaGeneAnnotator	CDS	1151283	1152827	.	+	0	ID=MGA_1012;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLIVEDEKYVAFLLEEFLKKMGINNFDIVFSFKEAINILKDKKYDIILADNGLPDGTGLELLKKVKKIDSFATVVFITGSDDSDLLIGLINNGAYAYLKKPIDYSEFEFTVNKSIEYRKLLNENIKLTKEMIKKKEIEKELKLAKEIQENILLKILPNRLNLEMYAISKPAKFVGGDFYDVINISEDEIIFVIGDVSGKGLKSSIAMVMLLSIIRTLVEKRIPLSNILYELNRNLFSSNIKMSATCFIGKLNTKTLSLKYVNAGHEYPLIFRDENIIEVENGDLLLGAVDESRFQEYEVQLLDQDYLFLYTDGISELYEDLEVLKIKIKEFLSKEQNLKNSVLNFLKWDNINNKEIILDDKTILGIKIENILSVKKEASYHLIANTHEILNLKIFLKELFSYLKLNDEDEFNLNFTINELVTNSIQHGYLNGTGIIDMSFKLISKDFLQIKIKDYGIGINKNILKNLNENIIDSAALRGRGIYICKKLTDNFQINVNEGKGTEIIFTKKISR;locus_tag=LOCUS_10120;note=WP_011203082.1 SpoIIE family protein phosphatase (Bacteroides fragilis) [pid:30.5%25%2C q_cov:62.6%25%2C s_cov:85.1%25%2C Eval:1.6e-34%2C partial hit],MGA_1012
sequence1	MetaGeneAnnotator	CDS	1152931	1153083	.	-	0	ID=MGA_1013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFFRQLIIKILESSILGEKEKKILKLLKDGQDLNFKEKQELEEIIDNMI;locus_tag=LOCUS_10130;note=MGA_1013
sequence1	MetaGeneAnnotator	CDS	1153126	1153512	.	-	0	ID=MGA_1014;product=preQ(1) synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080885.1;translation=MAVAEGKSFNFEPVENIKADYLEVFDFDSKNQYIKTETDEFSAVCPFSGLPDLAKLTIEYYPEGGKCIELKSLKYYITSFRNVGIFQEGATKLIYEDLKKVLKTNRIKVSTIYNIRGGFLTTCVEGTL;locus_tag=LOCUS_10140;gene=queF;EC_number=1.7.1.13;note=WP_004080885.1 preQ(1) synthase (Thermotoga) [pid:65.6%25%2C q_cov:100.0%25%2C s_cov:93.4%25%2C Eval:1.5e-44],MGA_1014
sequence1	MetaGeneAnnotator	CDS	1153694	1154365	.	-	0	ID=MGA_1015;product=7-cyano-7-deazaguanine synthase QueC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000435648.1;translation=MNNKVMVIFSGGQDSTACLGWAKNRYDEVVAITFNYGQNHSIEIEQSKIIAEKLGVEQHIIDVSFFGEIVDSALTHKGNVNEKHHTNTNLPASYVPNRNAFFITIAHAVAQKIGANTLVTGVCETDYSGYPDCRRIFIDSIEKSLNLGSDSNIKIETPLMYIDKADTFKLAEDEGVLDLVLKYSHTCYNGSDKMNEWGRGCGDCPACNLRRAGWEEYKKRYNK;locus_tag=LOCUS_10150;gene=queC;EC_number=6.3.4.20;note=WP_000435648.1 7-cyano-7-deazaguanine synthase QueC (Helicobacter pylori) [pid:50.0%25%2C q_cov:97.8%25%2C s_cov:98.2%25%2C Eval:2.6e-57],MGA_1015
sequence1	MetaGeneAnnotator	CDS	1154532	1155125	.	-	0	ID=MGA_1016;product=7-carboxy-7-deazaguanine synthase QueE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005686506.1;translation=MKYKINEIFQSLQGEGHNTGKNVVFVRLSGCDLSCDWCDTKYHVNFTEMTEKDILEKVEKIRENKSVIITGGEPTIQNLLPLLEVLKKEGYWIGIETNGNNLIKAEKEYIDYISMSPKSKTKLKNVDELRVVNDNITVDELINYENEINAKYYFISPLDDGEDINYKSTIKLLGEINEVSKKQWRLSLQMHKLSGIV;locus_tag=LOCUS_10160;note=WP_005686506.1 7-carboxy-7-deazaguanine synthase QueE (Haemophilus) [pid:46.3%25%2C q_cov:98.5%25%2C s_cov:93.8%25%2C Eval:7.0e-37],MGA_1016
sequence1	MetaGeneAnnotator	CDS	1155115	1155444	.	-	0	ID=MGA_1017;product=6-carboxytetrahydropterin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008764612.1;translation=MYYVEKTLEISASHKLNLTYESKCENLHGHNWIITIYCKSAELNEDGMVIDFTHIKKLVKEKMDHHNLNDIFDFNPSAENIANWIVNTVPKCYKAKVKESEGNVAIYEV;locus_tag=LOCUS_10170;note=WP_008764612.1 6-carboxytetrahydropterin synthase (Bacteroides) [pid:63.0%25%2C q_cov:99.1%25%2C s_cov:87.1%25%2C Eval:2.3e-39],MGA_1017
sequence1	MetaGeneAnnotator	CDS	1155459	1157255	.	-	0	ID=MGA_1018;product=translation elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897958.1;translation=MGNSSNKRNFSIIAHIDHGKSTLADRILEYTGTVSKREMKEQLLDKMDLEREKGITIKAQAVTLFYDAKDGKNYELNLIDTPGHVDFIYEVSRSLAACEGAILVVDATQGVEAQTLANVYLALENNLEIIPVINKIDLPNADVEKVKNEIEEVIGLDAQDAVLTSAKTGIGIVDLLEAIVNRIPVPKDSSNEPLRGLIFDSHFDDYRGVVTYIRVMDGVVKKGDKIKVMSTGKEFDILEVGIFSPNMHPTSKLEAGDVGYIISGIKNINDTRVGDTITLIKNPATEPLEGYRQVQPMVFAGLYPLSTDDYEDLRDAISKLQLNDASLLFEPETSSVLGFGFRVGFLGLLHMEIIIERLRREHNIDLISTAPSVIYRVTMDSGEVMEIDNPMNLPKLGIKYIEEPFVKGTIIVPKEFVGNVMELCQQKRGIYKSMEYLDEMRTMISYELPLAEIVIDFYDKLKSRTKGYASFEYEFIGYKESKLVKVDILVSENIVDAFSFIVHSENAYYRGRAMVEKLKEVIPRQQFEVPIQAAMGSRIIARETIRAMRKNVLAKCYGGDISRKRKLLEKQKEGKKRMKSIGNVEIPQEAFLSVLKLD;locus_tag=LOCUS_10180;gene=lepA;EC_number=3.6.5.n1;note=WP_005897958.1 translation elongation factor 4 (Fusobacterium nucleatum) [pid:73.6%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:8.8e-253],MGA_1018
sequence1	MetaGeneAnnotator	CDS	1157782	1158831	.	+	0	ID=MGA_1019;product=23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016454.1;translation=MNQNKKNLLNFRYPELEKFLLDLGFKKFNAKQIFKWLHQRTVRKIEDMTDISLKNRELLYEKAYIPYLNVLDYQVSKVDNTEKYLFELEDKSTIETVLIKHKERKTVCISTQVGCPVKCAFCATGQSGFKRNLELDEILNQVYTINSRLQKKGESITNLVFMGMGEPLLNINNLIESIYIFSDENGLNISKRKITISTSGIIPGIERLLEERLPVGLAISLHATTNEQRDQIIPINVKYPLDDLMPVLHEYQKMTKRRISFEYILIKDFNVTDRDSSQLADIVSAFDHILNLIPYNSVDGVLLERPSEKKILRFYKYLRDIRKINVTIRKEKGTDIDGACGQLRDRNRS;locus_tag=LOCUS_10190;gene=rlmN;EC_number=2.1.1.192;note=WP_011016454.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN (Fusobacterium nucleatum) [pid:60.2%25%2C q_cov:99.7%25%2C s_cov:98.9%25%2C Eval:3.7e-127],MGA_1019
sequence1	MetaGeneAnnotator	CDS	1158837	1160903	.	+	0	ID=MGA_1020;product=transglycosylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898410.1;translation=MLKKINKIILFIIGISFLIVFAFSSFLILKAYKQLPDVSKLVEQYNPVVPTIIYDTNGLIIDKIYRENREIVSINKIPKYTQYAFVAIEDRKFFRHHGFDLFRLLKSVVTAPKYILAHRNIPGGSTITQQLAKNAFLTTERKIIRKVKEAIITIEIERKYTKDEILEKYLNEIPFASGAYGIETASKLYFRKDVEQLNIAESAFLAGIPNRPSKYSPYLHLNNTIKRQRLILKQMFKFKFINKKQYEEALNYKIKVSPKPKKNYRAPSFTDIVTKKIFKLFPENEIYGGGLKIYTTLNLKMQQTAEEVFKNNRYLKKYKDLNGALVTIDSNTGYVEAIIGGKNYITGNFNRAIRGKRQPGSSFKPFLYFTALRKNYQMNLIVEDSKIKIGNWEPKNYSSKFRKNMTILQGMEKSVNIIAIKLLKKLIIKNVIATARLAGITVDIPYNLTIALGSFSISPFQLANAYCVFSNGGFTVKPIFIKKVVNRYGKIVYESKIKKEKVFDKTNISLITHMLQNVVWNGSGRHANIGIDQGGKTGTTNNSTNAWFSGITADFVTTLYIGYDNNKPMPKYMTGGGVAAPIWGKYVKTLIDKKIYKPNKFEFLQQELKNKKIEYKIIDNQNGLLSDKSSTSKIKALFKMGYAPIEKAGKYKNGIEALLPKNEPVQKDKDENLKKEFEINNIINSFIN;locus_tag=LOCUS_10200;note=WP_005898410.1 transglycosylase domain-containing protein (Fusobacterium nucleatum) [pid:42.5%25%2C q_cov:94.3%25%2C s_cov:87.7%25%2C Eval:1.8e-148],MGA_1020
sequence1	MetaGeneAnnotator	CDS	1160950	1162653	.	-	0	ID=MGA_1021;product=M3 family oligoendopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080599.1;translation=MNKIEKKPRKYFSEEFKIDEWEELEVELKRLVEKKINSELELEEFMKEYSELGNILSETMGKKYIAMTCNANEPKYSEEFNKFYAEIVSKTEPYFFNIKKKVVESEYFDMLDKEKYTHLKKLLKNDIELFREENIPLFIKEQELSNKYGEYFSQLTVEFDGKKQTLTQMSKYYKEPNREIREKAWRKVSEKLKESRDKFEELFDELKKIRIEIAKNAGFDNYRDYMHKAKGRFSYSVDDIFEFYDSVKATILPLLKKLHKEKAEKLNLEKLRPWDTSVDVDGKILKPFKTADELVEKSIKVLRNIDEEFGDKLELMKNSKLLDLDNREGKAPGGYNYPLNETGAAFIFMNSIGLHSDVTTLLHESGHAMHSFATANIEIGEYANAPSEIAELASMSMELITLDYLNEYYDNIEDIKKAKKEQLERTLDILPWVMIIDKFQQWIYTEPNHSADERDAYFDSLMQEYATDVDWSNLEIYRKIVWLRQLHIFEVPFYYIEYSISQLGAIAIYKNYKENREETIKNYKEFLKLGYSKDMKTVYETAGIKFDFSKEYIGELAEFIKNELEEI;locus_tag=LOCUS_10210;note=WP_004080599.1 M3 family oligoendopeptidase (Thermotoga) [pid:48.0%25%2C q_cov:95.2%25%2C s_cov:98.0%25%2C Eval:1.3e-152],MGA_1021
sequence1	MetaGeneAnnotator	CDS	1162799	1167073	.	-	0	ID=MGA_1022;product=PolC-type DNA polymerase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627746.1;translation=MLVRIKPNKDTFANLGIKNTEIDEIEIHKSKNRAILKCSVGHCDNLYEIEIIKKALSKKFGDKIEFDFQIDLSQEEFSNEDIIKVLDRIILEVKEKTALGKAYFGICRYRVEEDNIKIELKHNIAKEQIEKSNFSSEIAEKFYNITGIKMKIEFVVGDFSKEIEKLDNKKFIPEQKKEIQVSKPKIETTTTKSNDKKKNIDENILFGKTKIKGAAMSYEEFDDIFPNQPVILEGEVFKFEKREISNGEKLLYSFNITNYSNSITIKVFAKKDNIIDIKSGTWVKIKGRKQQDKFSNNEDIVFANTIEKLAIKKKVRKDNADKKRVELHAHTKMSAMDSVIEVKDLIKQAYDWGHKSVAITDHGVVHSFPFAYNIAKKMKDFKVILGVEGYLVDDEIKMVKFPKNIPIEDEEYVVFDLETTGFDPYNDRIIEIGAVKLVGSKIVDRFSQFINPKMAIPEKITELTGITQDMVANARSYEEVIPDFLEFVGDSTVVAHNANFDVGFITQKCKLLGLEFENSVIDTLQWSRNMLKDLGRHNLKALSRYFKISLENHHRAVDDAEATAEIFKKFINMLIRQGVYKLPEIDSTFKTDIKQASTNHIIILVKNQIGLINLYKLISESHLDFFKRTPRIPKTILKKYREGLILSSACEAGELIQGYLRGKPQEELEKIAEFYDYFEIQPNSNNMFLIKNGTLKSVEELNEMNKYICELGEKLNKPVVATGDVHYKEPEDNIYRSILLYGKGFKDYDSDGGLYFKTTNEMLNEFNYLGAEKSYEVVVENSNLISDMIEEVQPIPDGFYPPKIEGAEEQVKEMTYSNAKKMYGDPLPEIVEKRIERELNSIINNGFAVLYLTAQKLVKKSLDDGYLVGSRGSVGSSLVAYFMEITEVNALYQHYLCTDCKYSEFKDYEGSGVDLPDKICPKCGKPLTKQGHSIPFEVFMGFHGEKVPDIDLNFSGEYQSKVHKYTEELFGKENVFKAGTISTLAEKNAFGYVRKFTEENGKIMRKAEMERLAEGCVNVRKTTGQHPGGMIVVPYDKSIYEFTPVQKPANDMKSESITTHFDYHVMDSQLVKLDILGHDDPTTIKLLQEYTGVDIYQVPIADEETLKIFNSTESLGVRPEEIGSEVGTFGVPEFGTKFVRQMLLDTRPTTFAELVRISGLSHGTDVWLNNAQEYIRRGVAKLTNVISVRDDIMNYLIDSGLEKGTAFAIMEFVRKGKPSKDPEKWAEYAKLMKETKVPDWYIESCKKIKYMFPKGHAVAYVMMAMRIAYFKIHYPVAFYAAYLSRKADDINSDTMLNGITVVKQRRAELEKENRLDVKEKSELALLEILTEMHYRGVELLPVDVYKSGGKRFLIEDNKLRLPLIAINGLGEAVVENIIKEREIGKFLSFEDLTRRTKASKNVIEKLKEYKAIEDISDLNQFALW;locus_tag=LOCUS_10220;EC_number=2.7.7.7;note=WP_201627746.1 PolC-type DNA polymerase III (Fusobacterium canifelinum) [pid:53.0%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_1022
sequence1	MetaGeneAnnotator	CDS	1167091	1167654	.	-	0	ID=MGA_1023;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904383.1;translation=MRDKIYLGLVHYPVYNRRNDIVATSVTNFDIHDISRTCRTYEIEKYFIITPVDAQIELTKRIIGYWKDGDGKTYNTDREEAFSHTEIIDSIEDAVKKIEIETGKKPKIITTSAKIYPNSISYKELSKNIFEDDNSYFFIFGTGWGLIEDVMDMSDNILEPIRGNSKYNHLSVRSAVSIILDRVLGEK;locus_tag=LOCUS_10230;note=WP_005904383.1 RNA methyltransferase (Fusobacterium nucleatum) [pid:68.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.9e-70],MGA_1023
sequence1	MetaGeneAnnotator	CDS	1167644	1168363	.	-	0	ID=MGA_1024;product=tRNA (guanosine(37)-N1)-methyltransferase TrmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016280.1;translation=MKINILTLFPNMFDGMINESIIKKALNNNLVEINIINIRDYAKGKHKVTDDYPFGGGPGMVLKPEPLFEALAEMKDSKVILTSPQGEMFNQSIAKKLLKEKEITIIAGHYEGLDERVVDTFVDMEISIGDYVLTGGELPAMVISDAIIRLIPNVLNNSKSFEEDSFYNGLLDHPHYTRPAEYKELKVPAVLLSGNHEKIRKWRLKEALKRTLERRPELIKERELSKEEKKTIEEILNER;locus_tag=LOCUS_10240;gene=trmD;EC_number=2.1.1.228;note=WP_011016280.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Fusobacterium nucleatum) [pid:68.5%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:9.4e-88],MGA_1024
sequence1	MetaGeneAnnotator	CDS	1168364	1168873	.	-	0	ID=MGA_1025;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904385.1;translation=MEGLLNIGKISGTHHLKGEMKASSILNNLEILIGKKLILDNGKGIKKLVTVEKVSRMNTKKITLQVEEIKNKTDALSYIGCDIFVRREYIDDLESDEYFLADVKGMTVITIEGETLGKVDDIMSTAAHDIYIVNVDKGEIMIPDVKEFIKKVDLDSRIMTVKLIEGMRI;locus_tag=LOCUS_10250;gene=rimM;note=WP_005904385.1 ribosome maturation factor RimM (Fusobacterium nucleatum) [pid:43.4%25%2C q_cov:97.6%25%2C s_cov:95.4%25%2C Eval:7.4e-33],MGA_1025
sequence1	MetaGeneAnnotator	CDS	1169162	1171768	.	-	0	ID=MGA_1026;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583849.1;translation=MIKIDIIISHSHLDLDGLASMIVAKKLYPNASLVFAGNVNENVHTLVGLYQDYLNIYKAKEINIDKVKKMIIVDTSGKNRIGKFKKILNKENVEIIIYDHHNQDEHSIITQNKFLSETGANTTFLLRIALEKIKELNFTEYEATILMMGIYEDTGSLSYSSTTPEDIKMAAYLLENNANLEIVNQYISKALKKDQVELFLKLIEAGEIIEFSVDSIFVGKYNNDSFVDGLDVVANKIKDIEGTNGVFILIGNDKNSYIIGRSSSLNIRVDDILSEFNGGGHSNAGSAVIKQENFEEIYKKLKKVILKNVKIEKLARDIMQYPVKTVFSDVKIKEVYKIMLRFGYSGIPIMENENLVGMISRKDIDKAISHGFSNAPVKAYMSGELITITQNTPLEKMKKLMIENEIGRLPILDENSNLIGIVTRSDILRNLYEIRKKTDKKNKKFEDNIKTVLKNRMKEDVLQLLLKIREVSEVRKEKVYIVGGIVRDLLLGIENFDLDIVVEGNGMNFAKELGEKLNAKKVVLHSKFRTGVVIVDEKLKIDVASSRVEYYEYPTSLPVVEYGNIKQDLYRRDFTINAMAIEIDYNKFGRLIDYFKGYSDLKNGKIRILHNFSFVEDPTRIIRGIRFAVRYNFEFDAETKRFAKLSVEEGFLKRLTWKRVKYEIELILNEKNPKKAIYMLEEYGVLKAIHKSIKLTKKTEVAFKNLEKYKEYITKLNLKQWIVYFLVLLEDLNSEELTNIFFKFHFPNKFIEKYKFGKIKREKIIDELKSSEKKSKIYNSLKKLSGDLILLLLITVDSEKEENKILEYINEIRNIKPLIMGKDLIKLGYKPNENFKNILNISFMYQLDNQELCKEELLQYIKNLNIFL;locus_tag=LOCUS_10260;note=WP_012583849.1 CBS domain-containing protein (Dictyoglomus turgidum) [pid:35.8%25%2C q_cov:95.6%25%2C s_cov:95.4%25%2C Eval:1.2e-144],MGA_1026
sequence1	MetaGeneAnnotator	CDS	1171884	1173098	.	-	0	ID=MGA_1027;product=U32 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627649.1;translation=MTKKIELLSPAGNLEKLEIVLHYGADAAYLGGELFNLRALADNFSNSDLEKAVVYAHNLGKKVYVTLNIIPHNEELNFMPEYVKYLEKIGVDGVIVADLGTFALVRENSNLNINVSTQASNTNWRSVKVWKDMGAKRVILARELALDEIKKIRDKVNDVELEVFVHGAMCMSISGRCLLSNYLTGRDANRGACAHPCRWKYNLVEEKRPGEYFPVFEDERGTYIFNSKDLCTIEFIDKIMDTGVDSLKIEGRMKGIYYAALATQVYRKAIDSYSDGKYEFKKEWLDELKTTSNRSFTSGFYLGKTDESSQNYDTNSSYSQTHQLVAKVIEKISDNEYKIQIRNRLFENEEVEIVKSDGTILKSKMPKFFNEKTEEYTDVVHPNTIARIKTDAKLEKLDLIRKKK;locus_tag=LOCUS_10270;note=WP_201627649.1 U32 family peptidase (Fusobacterium canifelinum) [pid:64.0%25%2C q_cov:98.8%25%2C s_cov:99.0%25%2C Eval:2.0e-154],MGA_1027
sequence1	MetaGeneAnnotator	CDS	1173255	1175612	.	-	0	ID=MGA_1028;product=ribonucleoside triphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002678883.1;translation=MFVVKRDGEKVKFDISKIKVAVAKAFEASKKFSDDQILDLIALRITSDFQSKIKDDNITVEDIQDSVEKVLEETGYVEIAKSYILYRKQREKIRNMKSTYLDFKNVVNNYLKVEDWRVKENSTVTYSVGGLILHNSGAVTANYWLNEIYDEEVANAHKSGDFHIHDLSMLTGYCAGWSLRQLIEEGLGGINGKITSAPARHLNTLVNQMVNFLGILQNEWAGAQAFSSFDTYLAPFIKVDNLTYKQTKQAIQSFVFGVNTPSRWGTQSPFSNITLDWVVPGDLKDKPAIVSGKEMDFTYGDCQKEMDMMNKAFIEIMLEGDAAGRGFQYPIPTYNVTKDFIWDNENAKLLFEMTAKYGTPYFQNFINSDLDPSDVRSMCCRLQLDKRELRHRGGGLFGSDEFTGSIGVVTINLPKIAYSSNNKEEFYDKLNKLMVTAKRSLEIKRKVVEQLNEEGLYPYTRKYLKHFNNHFSTIGLVGMNEMCLNASWIGKTLIEKEAQDFSGEVLDYMRNRLADFQEETGNLYNLEASPAESTTFRLAKMDKERFENIITAGDKDETPYYTNSCHLPVGFTEDVFDALDIQENLQNKFTGGTVFHTFLGERINDWETTKELVKKIAYNYRLPYYTISPTYSICKTHGYILGEVYKCPECGEATEVYSRITGYYRPVQNWNDGKQQEFKDRKEYGVNFSMDNMKEKEDNIIENKEKNKEKIMLFTTKTCPNCPKAKDELKDINNIEHLDANDNMELTQKFGIRAVPTLVVLENGNHKVYSGLNNILRFKEERLDA;locus_tag=LOCUS_10280;EC_number=1.17.4.2;note=WP_002678883.1 ribonucleoside triphosphate reductase (Treponema denticola) [pid:62.4%25%2C q_cov:82.5%25%2C s_cov:91.5%25%2C Eval:1.3e-246],MGA_1028
sequence1	MetaGeneAnnotator	CDS	1175807	1176511	.	-	0	ID=MGA_1029;product=diacylglycerol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416641.1;translation=MSSRKIVESFNCAVEGIIEAIRTESHMRFHLYITILVLMFSLFLDLTKLEIGLISIAISFVWITELINTAVEAVVDIYVKEFHELAKVAKDTAAGAVFVAAINSIIIGYLVLYNHFESFSNSILYRLKVSKVHTAVFSIILIVVIVIGLKAYFRKGKPFTGGMPSGHSAVAFSIWVSIIFLSDKIIIILLGLLMALLVSQTRIKSGVHSFKEVIVGAIVGGGVTFLIFVLLRSF;locus_tag=LOCUS_10290;note=WP_003416641.1 diacylglycerol kinase (Clostridioides difficile) [pid:37.3%25%2C q_cov:96.2%25%2C s_cov:94.1%25%2C Eval:2.3e-46],MGA_1029
sequence1	MetaGeneAnnotator	CDS	1176515	1176973	.	-	0	ID=MGA_1030;product=rRNA maturation RNase YbeY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016624.1;translation=MEYVIDITNEVEKYDLSNEMEKIEKYISEILDSEIEDSIKDIYLSLMFTDIENIQKINKEYRDKDMATDVISFAYSETENAGFYNVLGDIVICLEVVDDNSKKYGHGFERELYYVITHGVLHLLGYDHINEDEKKEMREKEEYYLNKFGYRR;locus_tag=LOCUS_10300;gene=ybeY;note=WP_011016624.1 rRNA maturation RNase YbeY (Fusobacterium nucleatum) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:2.0e-41],MGA_1030
sequence1	MetaGeneAnnotator	CDS	1176990	1179038	.	-	0	ID=MGA_1031;product=HD family phosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626410.1;translation=MKSFKIFNKKITIKIENKKNKKNIIKEANVNFRIIFFLLIFISWILIGNVSFQFKNYRLGEVATKNIISPITLKYIDVEQRNFNIENIKKSIKKIYTRDNNVEIKVLNGLNDYFNLANKESAPKEILIGKDELKKIIGKTQEEKKSIKNNIEITLKKLFEKGIKDEPDYLNKVLKEMSKMKLSSLEEDIVIDFIEPNEFYDETATESILKKKIANLKTNYVQIFSGDVIVKKGEVINNKKFELLNKVFYKNSYWNFKKTVAIFLYILIFGSLFFIIIKKYMLKEIKKKNYYYLTVIEIIGMISLLQITNLEYIYIYPFAASVLLLGMIVNEKYSLIVNSLFLSMIFIHIGFNYIILMLFLVDMLLGIYFSKKIKNRTDIVNTGFVIGIVKIVLLLAFNIFFNKEILNTAYGVTEVFISGVFSGMITIALLPYFENSFNILTDIKLLELGDFSHPLLKQLSIKASGTFNHSIQVATLAENAAEAIGANSTFARVASYYHDIGKMKRANFFVENQKNGINPHENMNPYLSSLVVTAHTKDGDEMARAYKIPKEIRDVMKEHQGTTLLAYFYNKAKKENPDVNESDFRYEGPKPRTKESAIIMLADSVEAAVRSIDNKTHIAVEEMIHKVVSGKISAGQLSEAELTFKDIEIVMNTFSEVIQGIYHSRIKYPDISKLKGNNNKEQ;locus_tag=LOCUS_10310;note=WP_201626410.1 HD family phosphohydrolase (Fusobacterium canifelinum) [pid:37.4%25%2C q_cov:90.9%25%2C s_cov:91.9%25%2C Eval:1.4e-124],MGA_1031
sequence1	MetaGeneAnnotator	CDS	1179035	1179976	.	-	0	ID=MGA_1032;product=PhoH family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001158916.1;translation=MEIIIKKHSFLQYFFGINDNILNEIHSNFETILKVYENRLLIEGKNKDIIYKYILTLQELYDKDILLSETEILDGILNLIENREFSYDYLLKKDRILAFRGKRLRPKTRNQTIYLDMISKNDIIFGVGPAGTGKTYLAVAMAIKNLIEKKVEKIILTRPAVEAGESLGFLPGDLKEKIDPYLRPLYDALYEMVGAEKTYKYIEKEIIEIAPLAYMRGRTLNNSFIILDEAQNTTKTQMKMFLTRFGFNSKAIITGDITQIDLEKKSDSGLIQAIRILRNISKIGIMEFEKKDVVRNKVVKEIIGAYEKMGEKI;locus_tag=LOCUS_10320;note=WP_001158916.1 PhoH family protein (Streptococcus) [pid:49.0%25%2C q_cov:97.8%25%2C s_cov:94.2%25%2C Eval:3.9e-77],MGA_1032
sequence1	MetaGeneAnnotator	CDS	1180225	1180665	.	-	0	ID=MGA_1033;product=GatB/YqeY domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081070.1;translation=MLWEQLSEDIKTAMRSKEKNRLMTLRMLKSKLKDIMINEKKEISDEVFISVVTKSVKQIKDSIESYKSGGRDDLVEEEKIGLDILSDYLPEQLSEEEVEKIIKSIMVKNEISEKKDMGKAMKLIMVELKGKADGKLINKIVQSYLK;locus_tag=LOCUS_10330;note=WP_004081070.1 GatB/YqeY domain-containing protein (Thermotoga maritima) [pid:40.0%25%2C q_cov:99.3%25%2C s_cov:97.3%25%2C Eval:1.1e-27],MGA_1033
sequence1	MetaGeneAnnotator	CDS	1180677	1180838	.	-	0	ID=MGA_1034;product=30S ribosomal protein S21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012547397.1;translation=MSTGIKVRNNESIDSALKRFRRAVQDEGILRDIKKHEFYEKPSERKKKLKNQK;locus_tag=LOCUS_10340;gene=rpsU;note=WP_012547397.1 30S ribosomal protein S21 (Dictyoglomus) [pid:52.0%25%2C q_cov:94.3%25%2C s_cov:89.3%25%2C Eval:1.0e-10],MGA_1034
sequence1	MetaGeneAnnotator	CDS	1180913	1182919	.	-	0	ID=MGA_1035;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964227.1;translation=MKIRNKMYLFSFFTAIVPLILIGAVSYNIGVQKLESLQVENVKSLLLQTKDKLTQLMNSSAGDVQIISKSFEENGIDGAQGILDSFKVAKESYVNVYFGVQESGKFIQSPIHDMPAGYDPRQRPWYKGAAGSEVYISEPYNDATTNETMITVSKAVYKMGRKLGVVGIDLNLSKISTSINKLKIGKTGYYYVMYKDGTVIMHPDKKLIGTSLIKYDFAKEMVNNDSGIVDYVWKGRAKKVAYEKIPGLNWTIGGSVYRDELKSAFTGVKYFTFIMIILILFIVAIGVTIFVKKLLVGISQIVNISEKMSQGDYSQRIKIEQKDEIGKMANRFNDILDNQSEVIENIKIKAVELSKLSSDGKNMAEKSMESVTEIAKSINEVAKGTESNSSAIVEASSGIEEVARTSVSVADLAHDINEKAEETNIKAEKGQEDIQILVGTMEEIASSVEEASKATIELSNQTENINDFVTIIRTISDQTNLLALNAAIEAARAGEAGKGFAVVADEVKKLAEESKKATDNIEEIISGLTVKNKEVLYKMEAGTKKVEAGDEIVKNIGEELISIIEAVKNINNNIKDITKASEEQSASTEEMAAVINDISNIVQSSEEEIEKVSNNTTIEVKMAEGVLDVSKKLGEMSTEMNNVLQMFKTLKKEDKSEIESNKKEIKEV;locus_tag=LOCUS_10350;note=WP_010964227.1 methyl-accepting chemotaxis protein (Clostridium) [pid:29.1%25%2C q_cov:96.6%25%2C s_cov:98.1%25%2C Eval:7.3e-78],MGA_1035
sequence1	MetaGeneAnnotator	CDS	1182903	1185383	.	-	0	ID=MGA_1036;product=ATP-dependent DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480299.1;translation=MNIEEKIEEDAIEKIYNEISFANGNEVFFFGILDENNLVPEVKVIARGNEYSVPAILNRIKKNGVIIHNHPSGKLVPSDNDIKLSSIYGSYGGGSYIVNNEVNDIYVIVEPSIEKIVSIDVERYFVEDGLLSNRFSNYEHRKEQIEMANTVSKGINENKKVVVEAGTGTGKTLAYLIPSIEWAVKNNKKIIVSTNTINLQEQLLSKDIPLIKKTMGYDFKEVLVKGRRNYICRRKIGNITNEDKEVLDDRNKKDLMEILNWYGLTVTGDKQELVIEPGFLAWEMVSCEADLCLGSKCKYYDRCFFFKARKKIFSADVLVTNHHMYFADLSIRKESYFFNNYSILPSYDLVVFDEAHNIEKVARDYFSIEVSKYMTSKILNAIYSNKKYKNQNGGYLLKLVDFLKKEISKEGFTVIDNIVHNNIILNHKDFSDKFADFFNSITNSFAKLGMKKEIKKRLKKSDLKNIKNWEKEIVKRFAELKKVYINYKKDIIKIQGIIKDEDPEDKNGVILDFNRYIERLHSIMKNLDFIMEIEKNEFVYWIYINAKQTNVKLSATPLDVGKDLEESLYQNLDNIIFTSATLAVNNKFDYFKNSIGLEEDVIEEVIDSPFDYKNQMEIIIPSDLKEPTDKEFLVDSSDFIKKLIEVRKGNTFLLFTSYSALNMLYYAIRDELSQKGFNLLIQGQYPRHSLIEMFKMGNNSVLFGTDSFWEGVDVKGDRLNSVIIIKLPFKVPSEPIVEAIIEKLKSEGKSPFFEYQIPEAVIKLKQGVGRLIRSKTDKGIITLLDNRILTKNYGKQFLKSLPKGRLIIKSREKIIKEEMGYYEDKK;locus_tag=LOCUS_10360;note=WP_198480299.1 ATP-dependent DNA helicase (Fusobacterium canifelinum) [pid:39.4%25%2C q_cov:98.9%25%2C s_cov:99.8%25%2C Eval:7.1e-179],MGA_1036
sequence1	MetaGeneAnnotator	CDS	1185701	1185964	.	+	0	ID=MGA_1037;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902954.1;translation=MAHSVSAKKRIRVAERNRLRNQSVKSRVKTTLKQFETAIENNDIDTAKVNLSAVYKELDKAAQKGILHKNTVARKKSRLTAELNKLV;locus_tag=LOCUS_10370;gene=rpsT;note=WP_005902954.1 30S ribosomal protein S20 (Fusobacterium nucleatum) [pid:63.2%25%2C q_cov:100.0%25%2C s_cov:96.7%25%2C Eval:5.3e-23],MGA_1037
sequence1	MetaGeneAnnotator	CDS	1186229	1187572	.	+	0	ID=MGA_1038;product=IS3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_094396572.1;translation=MSNKIFTKKEIEILSKNKYVKTISSKAITYTSEFRRIFIAESQDKILPRAIFEKYGFDVQVLGMKRIRSAAARWRRAYKEQGVLGLDDRRKENSGRPLERELSLEEKYERLQVKNDYLQAEIDLLKKLDVREREVNGKLIELSPSEKFVIIKDVIETSGVKNIIKYLCEVAEISRTSYYNYLSETSKTNKSNQELEDEKARDLIIKAYEFKGRQKGARQIKMTLENEFATIFNLKKIRRIMKKYSIVCTIRKANPYKRIAKATKEHTTIPNKLNREFKQEIPGKILLTDITYLSYGNGQRAYLSTIKDSSTGEIPAYVLSKNIKLEIATETIRTLMENKSFKIHKDALIHSDQGVHYTSPTFQKLVKNSGLDQSMSRRGNCWDNAPQESFFGHFKDEANIKECNTFEELINEIDDYMDYYNNYRCQWGLKKMTPIKYRNHLLENKSA;locus_tag=LOCUS_10380;note=WP_094396572.1 IS3 family transposase (Bacillus cytotoxicus) [pid:59.7%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.4e-155],MGA_1038
sequence1	MetaGeneAnnotator	CDS	1187631	1188590	.	-	0	ID=MGA_1039;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYLVVGDKSREFEYSNLVKKIKEKNSGITEEYFDLSQKEEEKFLQSVSSNSIFGGKKFIILKRAELVKRSDSFFKILKKYSYDNNEVIVDYFDEKKKFSKTALKIAKEIGKVIESYEYKKGEKAISYIKDNLSIDSREAHELMQMIGDNYNTIKNEVEKIKLFLNGEEFEIDKIKNIVSLREEYTIFESIDKLINGKKRVLLDYLNMNPNSYIMFFEMIVRELKLILKLKILENERKIDVRGGYPSFRDKAYLNIKGYFGKMHPYVIFNRLKILKIINEKNLKIELEKLLTIDYKIKSGQSPADIEIKNFIIEFNIGK;locus_tag=LOCUS_10390;note=MGA_1039
sequence1	MetaGeneAnnotator	CDS	1188590	1189588	.	-	0	ID=MGA_1040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFITEDIKNYKKGQEILSKISDYKVVKDKNEFIEIIKKQNLSYIDEKKNMFFGVKKGKFLKQYYLDKNFVGIKEEYYLTYENNCPFNCLYCYLRDYYQHGAYMFYVNIEDMFLELDNFKEKGSMISCGIVNDSLVYDNITNINSDLINYFRNRDDIKLEIRSKSNNIKNLLNIDPSDSVIVSFTFSPQEIIDKYELGTSNLDERIEAAYKLQNIGYNIGIRIDPIIAVTDFEIYYNNMLEKIFSTLDRKKIINIGIGGLRYKKGLKKKVLKEVKTDLFFNEIIVGIDGKERYFKPLRIKMYRLIVNKIREYGNFDIYLGMEPKYVWDEVFV;locus_tag=LOCUS_10400;note=WP_005810730.1 hypothetical protein (Desulfitobacterium) [pid:26.1%25%2C q_cov:72.9%25%2C s_cov:72.5%25%2C Eval:2.2e-17%2C partial hit],MGA_1040
sequence1	MetaGeneAnnotator	CDS	1189592	1190074	.	-	0	ID=MGA_1041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYERFKEKIKKYDLKEKKIYKYGINFRRKFIWFISGFNLLFVGLFFFYQNLKLKDNFQFLMSGFFIFVGGVFIYMMMEYKISIDIVNEKLKYKKMEIELKDIEKITLRRMVPTGGKNIEKCIDIITKEKKQYIIPLIMSKSVEFVAVLRKKYSKKFSME;locus_tag=LOCUS_10410;note=MGA_1041
sequence1	MetaGeneAnnotator	CDS	1190343	1191128	.	-	0	ID=MGA_1042;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLTVRDIMQKRPVTIDCKKNLEYIKKEMIINKKKYVVVISDGKYLGLIKVSDLVNEYNKNLIAEEFIEIAEEKVEPFTPERTIKEAAEKIIEYGIEFLPIVNKNQELIGVVTPGDIVKDFVVTKSDGKMTAERAVIFLAMTQTNEDEKYWFDRIKKMNYKAAVTQVGANGLELPLKLREGAIVAAIAKEVIHENLREKNAVSNAVRDVYSQIEIINRGLGGGFKIAVIRGRDMITVAAYGKCGHALGSGPDHIFMGYSII;locus_tag=LOCUS_10420;note=WP_010878350.1 CBS domain-containing protein (Archaeoglobus fulgidus) [pid:29.4%25%2C q_cov:44.4%25%2C s_cov:63.0%25%2C Eval:2.7e-09%2C partial hit],MGA_1042
sequence1	MetaGeneAnnotator	CDS	1191245	1192783	.	-	0	ID=MGA_1043;product=glutamine-hydrolyzing GMP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017155.1;translation=MHKGGIVILDFGSQYNQLIARRVREKGVYAEIVPYFTKIEKLKEIKPKGIILSGGPASVYAKEAPTISKEIYELGIPVLGICYGMQLTTHLLGGEVARADKQEFGKADLIIEDKSLPIFKNMPKASQVWMSHADHVTKLPEGFKKIAYTDSSIAVIANMEKNIYAVQFHPEVTHSIYGSEFLGNFVFSICKCEKNWDMGNYIEKAVADIKEKVGDKEVILGLSGGVDSSVAAVLIHKAIGDQLTCIFVDTGLLRKNEAEKVMETYGKNYNIKIKCVDASERFLGNLKGVTDPEKKRKTIGKDFIEVFNEEKKKLKNAKFLAQGTIYPDVIESQSVKGPSATIKSHHNVGGLPEGMDFELLEPLRELFKDEVRKVGRELGIPDHMIDRHPFPGPGLGIRILGEVTKEKADILREADDIFIKELWNHALYNKVSQAFVVLLPVKSVGVMGDERTYEYTAVLRSADTTDFMTATWSHLPYEFLEKVSNRIINEVKGINRLAYDISSKPPATIEWE;locus_tag=LOCUS_10430;gene=guaA;EC_number=6.3.5.2;note=WP_011017155.1 glutamine-hydrolyzing GMP synthase (Fusobacterium nucleatum) [pid:76.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-228],MGA_1043
sequence1	MetaGeneAnnotator	CDS	1192801	1193814	.	-	0	ID=MGA_1044;product=class II fructose-bisphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016951.1;translation=MKRNLALEFARVTEAAALASSKWIGRGDKESADQAAVDAMRYMLNEIDISGEIVIGEGEIDEAPMLYIGEKVGKSQEATPVDIAVDPLEGTRMTAQGQANAIAVMAVGNRGSFLKAPDMYMEKLIVGPEAKGSIDLNKPLKENIYSVSKALGKELSDLTIVILDKPRHKSIIKNLQDMGMRVIALPDGDVAASILVAVIDSEIDMLYGIGGAPEGVISAAAMKALGGDMNVRLKTRSEVKGITLENDKISKGEIVRCKEMGIEINKVLTLDDLVKDDQVVFTATGVTPGDLVEGVSRKGNIARTETLLIRGKTKTVRYIKSIHNLDFKSEELKKIIL;locus_tag=LOCUS_10440;gene=glpX;EC_number=3.1.3.11;note=WP_011016951.1 class II fructose-bisphosphatase (Fusobacterium nucleatum) [pid:70.1%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:6.0e-135],MGA_1044
sequence1	MetaGeneAnnotator	CDS	1193825	1194277	.	-	0	ID=MGA_1045;product=S1 domain-containing RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723740.1;translation=MQVTVGEKLTGKVEKITKYGAFVSLENNKKGLVHISEVSNKYIKNVEDVLTVGQEVSVVVLAIKPDGRIDLSIKKTEEASRPTTRPATKSNYNRKPSERFDRRGSSSRNTKVEPAKPANFEDKLADFLKNSEENYNTINKRLNKTKKSRR;locus_tag=LOCUS_10450;note=WP_003723740.1 S1 domain-containing RNA-binding protein (Listeria) [pid:45.0%25%2C q_cov:100.0%25%2C s_cov:96.5%25%2C Eval:3.8e-26],MGA_1045
sequence1	MetaGeneAnnotator	CDS	1194456	1194743	.	-	0	ID=MGA_1046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSRKIKKTFLLTVNLALSIFAIKIIFESITLNGEILKTKNKIKIKKEEVAKLEKKHEELKKEYINLDNPKFIEKIAREKLFMKKKSEKVYRMLK;locus_tag=LOCUS_10460;note=MGA_1046
sequence1	MetaGeneAnnotator	CDS	1194745	1195425	.	-	0	ID=MGA_1047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEEGKKKNKEGKKKKKKKYFFFTSFLFLIFLFTLFTGTIFLDIIGFLDLSKLFPPTSKIAKMPYVGSYLKYSYQIHLDDDERLKLLSNKYQEEIQLKNREISLKEKKTKELKDSLLKKEEKLNTKEKILNEKDKSLKEREKIILEKEKTYKEKEANIDKFASIYSSMTPDAVSNIILGGLDENIVARIFEKMDNKKVAKILNAISTKDVKKVKSIIELMTKQRGK;locus_tag=LOCUS_10470;note=MGA_1047
sequence1	MetaGeneAnnotator	CDS	1195427	1195864	.	-	0	ID=MGA_1048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKFRFQKALEFKQKEEDIIKDELKQKRYELNILQEKLIEVENEIKIFMKKYSEMKQNRINIMMIKNYDSFLLRLKKKKEISEINIKEKEKEIEKSEELYFEKRKEKKTFEKLKEKYFERYKEEEIKKEQKFIDEISNNMYNRRK;locus_tag=LOCUS_10480;note=MGA_1048
sequence1	MetaGeneAnnotator	CDS	1195865	1197796	.	-	0	ID=MGA_1049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFSIVLITLLFSACGSTEIKNTKDINRLKKRVTLNSKEEIQLENIIKDSLADSEVRKSAYFMLKSKDIKFTKNSLETVLTTETINEDTLKEFFIKESLKYDSFIYPESIKLNLFNYLLKNKQYGEFYKQYNGETIDIPSNEKEQLIKRIEYKKSNDRLEKLLKLSISNNDYEMFENLLKYNLYFSINYILNNKEEWFEKTLKNSSDIFKSMIYEIDSSNYEKYKNILYFYLNKNLEANFKAKVLDLIFENEMNIKEKLFSENIDLQKRAISKYGVKKSKEFFKNNLNKNKKLAFRGLAILHDDNLFDILKENYINSSKTEYLEDIFILNTPESRKFLIKELKKMNTKNTKNILSILQTYNSIQLINILYDLALEEGNLSNQKLYIDFIFNNNIKLAIKLAIKITQDNSYSIKLKQYVIKRIGEINGEETKNHILQTIENKMYKSYIEKEKKLVSFSKKQKLWKHYLEIFPKSYYKNEIEIKSNKYNGILEKIKKEITNNFNKQLLTIDKKIEEYNKYLLTENETNKINNMKNKIKKLKLEKEKLIRNNKETEIEKLENLDSEYKDLSEEINSLNQQIYYLEQEGKKAILIKQLGMDMQKLIGKKGEVLEKISLIYGYYLDNYKINGKILSEDTLSDLEER;locus_tag=LOCUS_10490;note=MGA_1049
sequence1	MetaGeneAnnotator	CDS	1197818	1199131	.	-	0	ID=MGA_1050;product=flagellar protein export ATPase FliI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870076.1;translation=MKINVEEYISKVKKIDTVKINGKVIRVVGLTIESEGPIVQLGEHCYIKTFNGNDRVDAEVVGFDEDKILLMPLGELKGIGHGCEVVATGRSLSIPVGENMLGRIVDGLGKPMDNNGQIMVEKHMPLDTSAPNPLTRKRIVEPLSVGVRAIDGVLTCGKGQRVGIFAGSGVGKSTLLGMISRNSSADINVIGLIGERGREVREFIERDLGEEGLKKSVVVVVTSDQPALVRIKGAMTATAIAEYFRDKGMNVMLMMDSLTRFAMAQREVGLAIGEPPATRGYTPSVFSMLPRLLERTGNSDKGTITGLYTVLVDGDDMNDPIADAVRGILDGHIVLSRNIAAKNHFPAIDILVSASRLITEVATKEHVMNARKVREVLANYNEIEDLINIGAYKEGSNVRADYAISKIEEVNSFLKQEIMEKSDLEGAVTSLENIFSN;locus_tag=LOCUS_10500;gene=fliI;note=WP_012870076.1 flagellar protein export ATPase FliI (Thermanaerovibrio acidaminovorans) [pid:61.0%25%2C q_cov:96.3%25%2C s_cov:95.5%25%2C Eval:6.6e-151],MGA_1050
sequence1	MetaGeneAnnotator	CDS	1199151	1199930	.	-	0	ID=MGA_1051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNVIKGEFIQNNSKPIIIGDKCEQKNIKNYGIEELDNKKEELETLNKNIKEKELELKNLSEKIERKKIELNEKVNKIIEEANQKAEYELEVNKNRGYQDGYQAGEKSAKEEIIEQTKSLIIRAQGIIDETVEIRNNTIKENEEAIIKLSIEIAKKIIKLEVSENNKIIKNNILESIKKVPISKKLKIFINWEDLNYLKDIKEEVISQINGVDRQEIEMIEDSRIEKGGCILETSMGTIDASINSQLEVLFEGLMKVKD;locus_tag=LOCUS_10510;note=WP_002556888.1 flagellar assembly protein FliH (Borreliella burgdorferi) [pid:30.5%25%2C q_cov:73.4%25%2C s_cov:60.1%25%2C Eval:3.3e-20%2C partial hit],MGA_1051
sequence1	MetaGeneAnnotator	CDS	1199923	1200933	.	-	0	ID=MGA_1052;product=flagellar motor switch protein FliG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000932791.1;translation=MADEPKLHGKQKAAILLISLGQDTAAEVFKHLKDEEIEQLTLEIARLHKVDANTKDIVYGEFSDLMLAQQYISQGGISYARDILTKALGENKALDIITKLTSSLQVKPFDFIQRTEPSQILNFISGEHPQTIALIISYLSSDKAGLIISELPPEKQADIAKRLAMMDRTSPEMIREVERVLERKLSSVVGQDYTSTGGIDSLVEILNNVDRGTEKTIIESLEEQEPELAEEVKKRMFVFEDVILLDDKAIQLVLRGVEGKDLALALKGSSEEVKEKILKNMSKRAAENLNEDMEYMGPVRIKDVQEAQQKVVNIIRKLEESGEIVIARGSEDEMIV;locus_tag=LOCUS_10520;gene=fliG;note=WP_000932791.1 flagellar motor switch protein FliG (Leptospira) [pid:63.3%25%2C q_cov:98.2%25%2C s_cov:97.9%25%2C Eval:2.3e-118],MGA_1052
sequence1	MetaGeneAnnotator	CDS	1200969	1202567	.	-	0	ID=MGA_1053;product=flagellar basal-body MS-ring/collar protein FliF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870079.1;translation=MDETIKKIIEKAKSIWEGLSKIKKILIIVSIVATMIFTILFSMASSRTNYEPLFTELTAKDASLIKADLDKKGVKYKISQGGTAIEVDSKEKYSLRLDLAKDGVVPTGGTVGFEIFDKAKIGSTDFDKKMMFLRAQKGELERTIAALSQVKKAVVNITPAEDSPFAEDRVSAKASILVQLQPLGKLTEENVKGIMLLAVSSVEGLTIDNVEVIDSNGNILSDNITINKNSSEFNDKKLQLQNKMEKELERKVTGLLSVLGAGNYRVKVAVSLDFDKQLTNKEEYTTPTISGEQSTQGLVRSKQENNEIYKGTGDGNASGVPGTSSNIPGYVATDSSKNGKEYSKNNNTVNYELNKTNSQYEKSLGSIKKLNVSVVLNENSDYFKKTKFNDNERTKFQNMVKAAINFDDNRGDKINIDVIPFDTKTIDKFQHVIETQQKYQKYIVIGVIASIILIIALVIIYFVMKKAEEKRLREKERRAVEELIPEMEEVALGEQLTVEEQERKEKEEQIKNIAKQKPEEVAGLIRTWLLQD;locus_tag=LOCUS_10530;gene=fliF;note=WP_012870079.1 flagellar basal-body MS-ring/collar protein FliF (Thermanaerovibrio acidaminovorans) [pid:31.2%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:4.3e-70],MGA_1053
sequence1	MetaGeneAnnotator	CDS	1202613	1202906	.	-	0	ID=MGA_1054;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINGIINPNILGDISNKKNKQEAETSFSNVLKGIVEDANNLQKDANLKTQNFVSGKIDNIQEVMVAGQKAEIAMSFVIEVRNKLLDAYQEFSRMQV;locus_tag=LOCUS_10540;note=WP_012870080.1 flagellar hook-basal body complex protein FliE (Thermanaerovibrio acidaminovorans) [pid:40.3%25%2C q_cov:74.2%25%2C s_cov:72.0%25%2C Eval:1.0e-10%2C partial hit],MGA_1054
sequence1	MetaGeneAnnotator	CDS	1202933	1203376	.	-	0	ID=MGA_1055;product=flagellar basal body rod protein FlgC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965463.1;translation=MGIFGIINTSASGLTAERLRMDVISENIANANTTVTKNGTPYRRKEVIFQARKNTEFKIPMNMSNENDSEIGNGVRVLKIAEDKAPFKYVYNPNHPNANKDGYVAMPNVNIVKEMTDMITATRAYEANVTVINSAKGMANSALSIGK;locus_tag=LOCUS_10550;gene=flgC;note=WP_010965463.1 flagellar basal body rod protein FlgC (Clostridium) [pid:56.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.0e-38],MGA_1055
sequence1	MetaGeneAnnotator	CDS	1203390	1203803	.	-	0	ID=MGA_1056;product=flagellar basal body rod protein FlgB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_035214564.1;translation=MKLFSNNITILEKGLDAYSKRANVLANNIANVNTPNYKREDIQFESILRETLSKDNSEKIKGVTTNSKHFEINSTPSLENIGAKIIREDNTTMRNDGNSVDIEKEQGELAKNNIRYQFAATRLTQNFFILKSVIKGK;locus_tag=LOCUS_10560;gene=flgB;note=WP_035214564.1 flagellar basal body rod protein FlgB (Desulfitobacterium hafniense) [pid:38.5%25%2C q_cov:94.9%25%2C s_cov:93.2%25%2C Eval:2.6e-17],MGA_1056
sequence1	MetaGeneAnnotator	CDS	1203847	1204464	.	-	0	ID=MGA_1057;product=DedA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943605.1;translation=MLVNIFSGLMNIVGIMGYPGIIFFMALESSFVPFPSEVIIPPAGYLAAQGQMNLYLVIISGIIGSLMGSFLNYYIALIYGRKFVLKFGKYFGLTEKRFMKVEEYFNEHGAISTFIGRLITVVRQYISFPAGLTKMKKWKFALYTFLGAGLWNAVLAYIGYLVGNNLELIKKYSHKAAIYVIVISFVIIVIYIILYKNKKKNKVDK;locus_tag=LOCUS_10570;note=WP_010943605.1 DedA family protein (Geobacter sulfurreducens) [pid:54.2%25%2C q_cov:82.0%25%2C s_cov:84.8%25%2C Eval:2.9e-49],MGA_1057
sequence1	MetaGeneAnnotator	CDS	1204467	1204907	.	-	0	ID=MGA_1058;product=type II 3-dehydroquinate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986444.1;translation=MKVLVIHGVNLNMLGKREPGIYGNKNFDDINNIIKNKAKRENIDIEIYQSNHEGEIVDKIQEAYDNAVDYIIINPAAFTHYSIAIRDALAAVNIPFVEVHISNVYKREKFRHKSVTAPIAIGQITGFSYYGYLMAIDYLKYRENGE;locus_tag=LOCUS_10580;gene=aroQ;EC_number=4.2.1.10;note=WP_011986444.1 type II 3-dehydroquinate dehydratase (Clostridium botulinum) [pid:54.7%25%2C q_cov:93.8%25%2C s_cov:92.5%25%2C Eval:4.1e-38],MGA_1058
sequence1	MetaGeneAnnotator	CDS	1204956	1205618	.	-	0	ID=MGA_1059;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393194.1;translation=MIKVEDIKKLEIVKTFIKRADLCLEAIGYTEHGFRHTGIVSVNSKRILQELGYSEKMCELAAIAGYLHDIGNAINRVNHPHYSALMAKDILLDLGMNIEDTAIVMSAIGNHDESFGGEPVNPISAALIIADKADVHRSRVRGTDQLSFDIHDRVNYAAIHSSVVVNKEEKIISLELSIDTQISQVMEYFEIFLSRMVISKKSANFLGCKFKLVINEYSLL;locus_tag=LOCUS_10590;note=WP_011393194.1 HD domain-containing protein (Moorella thermoacetica) [pid:50.9%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:6.7e-58],MGA_1059
sequence1	MetaGeneAnnotator	CDS	1205622	1206389	.	-	0	ID=MGA_1060;product=indole-3-glycerol phosphate synthase TrpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946569.1;translation=MILDEIINHKKIEIKKLKSENSLDNFINKIKLFESKFKENLSKKGISIISEVKKASPSKGIIREDFNYLKIAKEYEENGASAISVLTDKKFFQGDSKYLYDISKEVELPTLRKDFIIDEYQIYEAKYLGAHAILLIGEVLDYKTLIKFIELANRLKLGVLLEVHSEEVLKKALDTPAKIIGVNNRNLQTFNVDIYNVIKLREKIPMDRLVVAESGIKSREDIKLLEKNYIDAALIGETLMKSKNIGKKLLELLGR;locus_tag=LOCUS_10600;gene=trpC;EC_number=4.1.1.48;note=WP_010946569.1 indole-3-glycerol phosphate synthase TrpC (Legionella pneumophila) [pid:46.5%25%2C q_cov:98.8%25%2C s_cov:98.1%25%2C Eval:2.8e-56],MGA_1060
sequence1	MetaGeneAnnotator	CDS	1206392	1206847	.	-	0	ID=MGA_1061;product=transcriptional regulator NrdR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003399430.1;translation=MKCLYCNADNSKVIDSRIVSEGHAIRRRRECPKCGKRFTTYERVEEMVITVVKKNGTREDFDKNKVLRGLLRATEKRDISRDKLEELIIEIEKDIYNNLKGEIKSKKIGKLIMKNLRKLDEVAYVRFASVYNEFDSLENFIKEIDKIKKEG;locus_tag=LOCUS_10610;gene=nrdR;note=WP_003399430.1 transcriptional regulator NrdR (Clostridium) [pid:49.7%25%2C q_cov:97.4%25%2C s_cov:97.4%25%2C Eval:2.4e-39],MGA_1061
sequence1	MetaGeneAnnotator	CDS	1206844	1207056	.	-	0	ID=MGA_1062;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFCELGKFNDNINLEILLSIFRSQEIKYYKSGENNSVLGIEIGSLGEVKLYVEKDKLDVAMKIVESWRKR;locus_tag=LOCUS_10620;note=MGA_1062
sequence1	MetaGeneAnnotator	CDS	1207057	1207521	.	-	0	ID=MGA_1063;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005919085.1;translation=MNIVKITDFMSEKLINLELKSNTKEEVLKELKELLNGSINILDADKCYEGLVAREKIGSTGIGKGVAIPHTKTDFVTKLTVGFGISREGIDFDSLDNEKTHMFFVFASPIKDSQTYLKVLARISRLIRNKEFRNRLLSANTPNEIIELINKEEE;locus_tag=LOCUS_10630;note=WP_005919085.1 PTS sugar transporter subunit IIA (Fusobacterium hwasookii) [pid:62.9%25%2C q_cov:92.2%25%2C s_cov:91.1%25%2C Eval:5.8e-44],MGA_1063
sequence1	MetaGeneAnnotator	CDS	1207600	1208304	.	-	0	ID=MGA_1064;product=DNA repair protein RecO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017193.1;translation=MKIKKIEGIVINKVDFGEADKIVTVISKQNGKIKILAKGIRKSKKREIYGTDLAVLSNFIIYKKNEISYLSSVELTDGFLDIKKNLFKINIAGYILKIADKFSMENEKNIKLFKLVYNSLKYISKEKENEKMLVLVSYFLNSIINQEGTSFLLNEGEYFNFEEGQFQIDKTENVLKIKKYQKKYLMLLNNVDIMGIYKLNLNKFNLLSVIEILEGYLNYHFDIKEQLKNYLGMA;locus_tag=LOCUS_10640;gene=recO;note=WP_011017193.1 DNA repair protein RecO (Fusobacterium nucleatum) [pid:33.2%25%2C q_cov:92.3%25%2C s_cov:91.0%25%2C Eval:5.6e-29],MGA_1064
sequence1	MetaGeneAnnotator	CDS	1208301	1208915	.	-	0	ID=MGA_1065;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017194.1;translation=MKKFKIIILLIVGFTITVNSFANTFFDINSLKAIVTEKRYMNKKTKIKKYKLKIKMPDKVLEIMEYPKINMGELYLYNKNEKRVYYPMLEQTVNEKIKDEENYVLNIFKAFNKISKEKELKEEFFIGKTKFILNKLKNKVLKIKYETGVSIVFYNYEKVGGKTFPKNIKIFDGNSLISEIYFKNTIINSKISDLEFDMNEIIKK;locus_tag=LOCUS_10650;note=WP_011017194.1 hypothetical protein (Fusobacterium nucleatum) [pid:30.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-18],MGA_1065
sequence1	MetaGeneAnnotator	CDS	1208912	1209715	.	-	0	ID=MGA_1066;product=rod shape-determining protein MreC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796804.1;translation=MMLQNRKEKLRNFLLIIAILIILILFKTRFDKIRAFSTYIFMPIKSSIYNLTSSVKEKINDIIYIKELIKENNSLRKKIYTTELKELDYKKILEENSRLRKMLKLKERYKYKSLVADVIYRDSLNAYQNLFINKGENDGVKKDMAVISNGFLVGKITKVLKKSSQVDLISKNNFKVGAEINKNIGIVVGGNSLNLELKNIIIDSKVEIGDVVKTAGISDIYPEGITIGEVSKISKSKDNMFRMLYVKIPKKIMKIHEVMVIGKERKK;locus_tag=LOCUS_10660;gene=mreC;note=WP_124796804.1 rod shape-determining protein MreC (Fusobacterium canifelinum) [pid:32.0%25%2C q_cov:97.0%25%2C s_cov:92.3%25%2C Eval:1.7e-30],MGA_1066
sequence1	MetaGeneAnnotator	CDS	1209699	1210820	.	-	0	ID=MGA_1067;product=M20/M25/M40 family metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861987.1;translation=MINEERIINKFIEMVKIYSPSLEEREMANYLIGELKKLGLEVYEDNAGEINKGNAGNIIGILKGDGPEVMFSSHMDTVTPCKNIIPIIKDGKIMSKGDTILGGDDKAGIAAILEMLYIIKENNLKHPTLVIVFSIAEEIRLLGATSFDESKFNLKYGFILDSSGKPGSVVKQAPYHEQIKLKFIGKAAHAGIEPEKGISALYVAAKAISKLNIGRIDEETTLNLGIINGGHATNIVMEELNIVGESRSFDEKKLGETIETVIEICQNTAEEYGAKLDYELTREYDGFNFSEDYELIKLVKQAADNLKFPFKAESLGGGSDTNVYNKKGIDTVNLGIGMSKVHSTSEYIEKEDLINSAELILELVKVISNDVTK;locus_tag=LOCUS_10670;note=WP_011861987.1 M20/M25/M40 family metallo-hydrolase (Clostridioides difficile) [pid:49.1%25%2C q_cov:97.9%25%2C s_cov:99.5%25%2C Eval:1.4e-95],MGA_1067
sequence1	MetaGeneAnnotator	CDS	1211108	1212055	.	-	0	ID=MGA_1068;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIRESNVNFERALKYTDMVPLLEKSKKRWTGELVKEELEKLKKDLGGISYAIGDYGSVIKKGLKLSNIKHIHDVTHKIALIVEKLYKKDERYIEFTQNMSKMRLKLSQSDIAHIIPPKQRKKSRFQNINIISDYGMKILKMLKKQEKIEKIREKSNWVKEYKEFIEELSLINNSTLKIQKILKKQSFSIKTVSKCKYILEKLKSEKGKEFSKQMNSYFEEVLELMPDKEKLICTSDIIESNFGKYKNYISDNSMAGITNLVLCIPAFTLKLTKEEIKEALEKTKMIDIENWTKENIGSTLLKRRRDALGTQKVA;locus_tag=LOCUS_10680;note=MGA_1068
sequence1	MetaGeneAnnotator	CDS	1212114	1212290	.	-	0	ID=MGA_1069;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVMIKLNTSASFRSISKLIGIINITLNLKIKSPSHVSIIIWVKNRVLYFTKAKRKSG;locus_tag=LOCUS_10690;note=MGA_1069
sequence1	MetaGeneAnnotator	CDS	1212335	1212544	.	-	0	ID=MGA_1070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKSNLYNLWKEKAKERRTENKKLKTRIKELKESRNKWKIKAKLNAEKILKLETEKKVLKNNEKKSEK;locus_tag=LOCUS_10700;note=MGA_1070
sequence1	MetaGeneAnnotator	CDS	1213046	1213348	.	-	0	ID=MGA_1071;product=metal-sensitive transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813255.1;translation=MDNNSCPSCKVAHHSEEDKKNLSNRLNRIEGQIRGINKMVQNDVYCDNILNQITSVQSALNGVSKILLEAHIKSCVVEQIQNGELEVIDELMNTIRKMMK;locus_tag=LOCUS_10710;note=WP_005813255.1 metal-sensitive transcriptional regulator (Desulfitobacterium) [pid:59.6%25%2C q_cov:99.0%25%2C s_cov:89.2%25%2C Eval:5.8e-30],MGA_1071
sequence1	MetaGeneAnnotator	CDS	1213592	1213795	.	-	0	ID=MGA_1072;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356423.1;translation=MVNGTVKWFNAEKGFGFITAEDGTDVFVHFSQINKEGFKTLDEGEKVSFEIVEGQKGPQASNVSLAD;locus_tag=LOCUS_10720;note=WP_003356423.1 cold-shock protein (Clostridium) [pid:70.3%25%2C q_cov:95.5%25%2C s_cov:98.5%25%2C Eval:1.1e-23],MGA_1072
sequence1	MetaGeneAnnotator	CDS	1214004	1214942	.	-	0	ID=MGA_1073;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKKILILMLVVSSFTFATENAIFTSIPLDGKSSGMGGLLSLDSPIKYISKKNNSWNVKMSQKNNLGVVDYKEFELSKNTDKFGLGIRYEKSGDILKADKIGFVTAYKFNIIKIGFNFNLYNVNVSKDVSATDVIMKEAIAQGIKYEALSESKAQGSGVDMAISFDLNKNITIGYFAKNIKSSLEWKIKNEDNYSETLDKEGIFSIAYNKENIEAIGEIENGDRFNIGISRNYYKKLDLRVGMSRNLNSIDNIEAQKSYTVGVGFLPLDINFNNKKIDLGVDIGYEMKYFGNDDIFNGNSQDDITFTTYLKY;locus_tag=LOCUS_10730;note=MGA_1073
sequence1	MetaGeneAnnotator	CDS	1215000	1221992	.	-	0	ID=MGA_1074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKNIFIFLFMFLITSIGFAATVAITEQPTFPVDSGDNYTIKWSVIPESGETVVSTSLKFKNLDGSYTEKTKITTVASQYSYTLTNDAAIPTKQFYKIEAVTSSGTYYSLESYIVLQAKVIINPISPKGDITTTTPTFEWEPIVGAAGYKLILSGSPISVDTDSNGDTNISGGNIIWQVSTTKTKLSYGEAGDIGTDVGNPAPLTFDNSDGIKEYYYIIMPMFGTTEGSTSTSVPSTTDMTKFNLNGYSTISSTSLISPTNGIKTQEDYINFSWNSVEGANLYHVYIEELVDMQGISTRALVYDEATKATNLNIYAPGTFKSAKYYWYVITEGQDGGTSKSDEFSFTYDVPSKNIYGAILDNNNKPLERAEVYLVTTGGNKINIIPELTDTDGKYTINNVLPGTYYIEAVLEGYSQTTNPKIDVLTTSPDTVNVNNVLLTVKNSNLAGTIKDKDSGIPLKGAIVTAFDYNGNEYQGISDTNGYFNFKIDAGQWNIKYEYSGYTTKIVNDMNVLPGTTLNLGDTLLVANNVSLNGKVYTENGEPIVNANVVLYNNLNRYEVKTLQDGSYSFSLQPGDWNLYSYKTGFVTSNEQIQSFLPGANKTVNITLVGNASTITGKVLDNYNRGVIGAHLVFEGSSIYEADTDNLGNYQISLKKGDYTVKVIKNGYTQQKSISQSVGYGEAINLSILMNVNSSSILGRIEDSNGEPISGAKITAGDSEVYSNSNGEYSLTLRDGTYNLSAYKAGYASAGKSITIGAGDTISGENFTLNANVVILEGKILDKDSGAPLGGVSVVAGNVESFTDNFGKYRLELLPGSYNITINKTLYKAEAFDIILMAGSNILGKDVLIQKNIGYIEGNVYTKNGIPVNGANVLVGDINITTNDIGHYKIALIPGIYKITVNKAGYNSSSVDNVTVDLSKTVTQDFNDLELQPLTLKGMVRDSQGNAMSGIKVYTDKTETYTDGSGKFILGTLPGNITVHTEKYGYSDINKLFNVVENMDNLILNVEDVRATISGTVNIPNAKVKLSSSNIDDIIANTDDNGNFLLKAIAGTYNLTVSKIGYKDYTESITVSEKEIKPLSDISLQVETGNISISANQDSVTVYIAGVVSRTINLNTAGTAVDEELPYGDYKATFVKDGYSSETKSIVIPTDISVSGTLTQLGGKITGTITNGANAKLSLEKDSQEVWSGFADDFGKYATPKLEDGTYTIKVKKEGYKSEDLDITISGSNKEGSLVLKILDGKIGLNFSLPLEASYILKTAGNVIRRGDFNSDSLNIDRLDLGKYTVEIIPSKSNVKVADITIPELTTDVKIQTVNEIKVTKYDAKILAKIVSGINVIPNAIVKLKDGDSVLKIKYSDIEGNVRFEDLEENKDYTLDILKYGYNIPEGTNTTFKALNTTSVNTIKLDSIVANISLQTTTGASIKLYTNENVESLKADENGAVTIEALKNSQGILQVSKDGYITKSINVTVDSNGKMLDESNNEIKNVLLEKEAYISGNILNGSYATIKTNTNIVISADSEGKFEIKGLKAATNLEITVTKFGYKTVTITKSLVEGENVVNSTLEKLESTITIIVKDKSDNPITGVEITLNNEVSKTDTNGTVMFDRIPYNEDGTKYNLSIKEGISKIEDVIVVSSNAITKTYNIERKESSISGKIINGENAKINIFDSNGAKVLRLDADSTGAYDTGKVLGKGTYTLLLSKIGFKENSKQVEISTNSEDKIVEDLTLIPMEMRFEGIITDSTGAKISDAAVRILDNNGNLLGEGYSGGDGYYNIILEYKSGNYKLNVRKNSYSEVTKENLVVSDTDFVINSSVKIDKSTDQEAPVIEDKTEIKEYKKDNTIKFVATITDNEIVKDAKLYYTVNNGNINSFDLTKDVNGEYVKEFTLNDAGTLTYYIEASDGANITKTETKTIEIVGDLSIVKIVPEIPVIVKGNAIELEAKGYDKYGHIATTTSSSFKWEKISDNGVATLGTVVDKNIVSVTGNKVGIETIEVNVDGLITSVDVKVIEVNLDKVKLELQLTSSQVKAGTTVGYSLMLIPEGTSGFEVKPDNVIIDSSNAVLDENTQKIKTQEGIVGKFVITVRYKNKTISKNVEVYETANSNAKEIRRENGVKLNIAEDSLTNNEVINIIKTAIPSLPEGNLDIAGDVYKISPEFKILGNSNTVLTLPIPSNIDLREVGEDSLGIYRWNGIEWEEIDNGKSVNSDSISVNINRFGKYAIMVLSEPLGITDFEIYPNPFTPANGGTLIGYKFTSAEQSIVYATIKIYTENGKLVKTLVDNDMRSKLTKYYEKWDGLDNNGNEVKNGRYIVRLTIEDIAGELSENKVVILLK;locus_tag=LOCUS_10740;note=MGA_1074
sequence1	MetaGeneAnnotator	CDS	1222010	1223521	.	-	0	ID=MGA_1075;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKILKMTFIFLVISLASFADNENIKLNIGSSGYYEPANSFTGEGGLYGNPAFLSYESKSNISTNLSVPLLITNKMLKGDTFLGGLLNLDIDVDKKLQDEVQNQETDLVTKDDSTEDFKITKANLFTPKTTISTGFAPSINGFNFIYKKDTLTIGMGFSKSSIRADIMGKEIGGKISAEYNTEDMNLNLETNLSLNTNSKYRYEYQKISLGIAKKLNFLNSSIGAGVDYKSIYYNLDEKMKGILKLTVDGKEGNDININYNNIRTQEIYAPTYKLGVNFDWMILKWGYSYNMYRGTIRNRYTDKSKINDKEDYEKLIQENYPEYWNSEEEKIKVASAAIDDIILEANNILGTVIESGIKENIRNNYDDNSSSKISGMVDLNILKLGVDMEKFSKPVFTFEITQDNLDNDAGYKDLKDVTEFGNNVIADVYHLDTMYKAYAHILFLDGSVSAIRAEGEKGGVIFVPSDLSIETGYITVKNYNFKFGVDIGKGLGVNSKIRYNF;locus_tag=LOCUS_10750;note=MGA_1075
sequence1	MetaGeneAnnotator	CDS	1223538	1224416	.	-	0	ID=MGA_1076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582975.1;translation=MKKYLTIFLCILSVSITYSAERYGGFLQEKTNTRATGMGDAFIAVADKEGFEYNPAGLAFSDKTLLQFDKESGYNSMSNAEVVLPLTAGKGLAIGFSHIKLSVDDIAKWQDENTQLGTFSSEESANIFGIGLQYEKNLGVGVLVKLMNQSLDNAKADGYTVDLGMLYNHKDYMYLAMVLTNIKGDGLKWNTARGTIDELPSTLKLGGALRLFKDNFISSIQYENELGLKKRSSLKFGEEVWIKDRLALRIGSNSGKLTAGLGIKLINLIGIDYSYSKEDLGNVNRVSLNIKF;locus_tag=LOCUS_10760;note=WP_012582975.1 hypothetical protein (Dictyoglomus turgidum) [pid:26.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-14],MGA_1076
sequence1	MetaGeneAnnotator	CDS	1224502	1229253	.	-	0	ID=MGA_1077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLKILLFFLVTISALGAGSSSVIIFSPNGGESVKGVYYITWGTSLDVSTVKLDYSVDNGSTWKEIATDLNASYGYYPWDTSASTTDGTDGQIKVRITALKDQNGSDITGITDESDAGFTLNNFKPILLNPNSSSTNITWANDTTVSFLVENGEKVNNGDIEIQLNGIDKIESVTGGKTANPKLFSYTLDTRGATGNVVSGNGNYTLKILVKNHGNSERAVSSQSNAIDVENIYITSPIDSTTWSGTQNITWTGAETNANSYETQYSADGGTTWNSLGTGSTDNTMSINSNKILQLPANQAVGDKNVKIKLIAKNSSGFYAWTESELFKVSHRPVVNEVYAISTSSSAITQDSTISGHTAKIKWTATDPDLDTLKVNISYSVDGESYVLLAPGETNDGEYTFDSNNIPESTNVKIKVEATDNGADPNNGGPYVSSLESGTFEVKHTPTVSGVYAISTSSSAITQDSTISGHTAKIKWTATDPDGDTLKVNISYSVDGESYVLLAPGETNDGEYTFDSNNIPESTNVKIKVEATDNGAVPNNGGPYVSSSETTQFTTKHTPVITTWDIKNAGSSIKLGNSAKDWANKDSVFSWNVTDPDNDTFNVKLEYSQNSDFSNSTVIVTTSSAIGNYTWDSTSLTDGEYYVKLTATDNSANNYTISETSGKIVIDNADKPTVVVEQPIELNLTKDSNYGYKSDDIVWGKSGDKVTSKKVTFKITNNDIRSYNIGDVSYKIYYIKDSATPVLIEGTMTNTQLVAKDSEITETYDWDISALTDGNYKIKIEATTNNTALKNSSDNINSAENSNEFTILNHYPKFNKLTGLDKKIDLLQLGRIMKISWNSSDPDVIDTLKYHILYKKNSVSAWPLLTDTTSTEEKGIIIKNYNLSGYNWDTLGTSLTPDVYYDIRIISEDSNGNKRYLTKEKAIIVRQKPQVTLLSPAEGDSLSGSSEKISWYIVDPNNVSINKLKISLLDSTGTVISDLLDLSNSTDVTAQNGQFNFDTQGFNEGSYKIKVYAENSGGHNSEATSETGEYGYTESSYLKSFTIKHKPTIEVSSPVSGEVLSGTKNILWSAKDPDGDTLTLSIAYSLDSSTWNVLNSSISNNGSFSLNTKLIPESNNVSLKFIVSDGKTNYDGASELIVNNLKSIHKPSITILSPQESIVYKNQIKVSWNSYDPDGDSLTTKLSYIDDLGEHEIAGFVNGSNLSEDVLKSINTSTGEFKLKVTVNDGTSDVIKEINVTLDRNPEIFMISPVSQDIIKNIMTIKWKADNPNGDNNNVNEDMKISLLYSVNGGSNWLKLYEDLTQSKDLKKAGTDEYSYTFDTKLDNPVDKIQKHYEKGLKGIPDSKNVKIKIIVTDKNNDKFTATAETDLFTIANYIPIVRIADKPKENIIWYGKRDIRWEATSNTGIIEEDKNLNIKLYYSLYDKDNTVKTWKEITKKSTFNDGIYTWDTNTVADGKYYIKVEAQNRSGIGEDEFIIPVEINNSGIDLETKQFYNYPNPFKSSTTFKYRLPNDMKSVKIDLYSSQGQKIEMIEDLPNEAGVYRVPWIASGYSNGVYFARLVAIGYDGKEYIKIDKIALLK;locus_tag=LOCUS_10770;note=WP_011391785.1 Ig-like domain-containing protein (Moorella thermoacetica) [pid:23.3%25%2C q_cov:49.4%25%2C s_cov:62.0%25%2C Eval:1.7e-25%2C partial hit],MGA_1077
sequence1	MetaGeneAnnotator	CDS	1229324	1230313	.	-	0	ID=MGA_1078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKKNILFLLTIILSTVSFSIEYSGEIGLKSDYKDEKLSLNQLYDIRLYDKSWMSKFGNDEQELNLFQKKGNFRFKEYITNEQITNQKKIGATLYYKNYFNLGYLEERLSRMIDSKLYIYNIYARFIYKNDLGAKVESYRLALNKSYFNNILRISQDSTYYTDKRYNMNLLFNFKNFEISTDKTEKKFILKEKFYLYNKNFKLRVSNQNDVNRKKNKKEFYGAFKYKKIEPFYEYVEDSAINKGVVYYFSKLNKIEISWNNLYYKLLYNYGDFYKGLTYILIKDKSRYNNNLTFYYKKDILKNVYYKLEGSGIFTSMYELSSSIILKF;locus_tag=LOCUS_10780;note=MGA_1078
sequence1	MetaGeneAnnotator	CDS	1230328	1233570	.	-	0	ID=MGA_1079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVVIIFFVIFNIFIFAEESSENQSKNYKNKDFIKYSLEKNVIPIYTFRKYNSSIKQNESEMKLEQNIFLNVKGEQNEIKYLINYSDKKELENQNKLQLSYKKLKLGDIKLKNNFVMKYFKNRSKIFGFFYGDSKNYILGDFSKSNIISQKIVFGENKIKTIVSKDNYIKNKYYKITNSGNIANIKDVYFNDNDKTNNEKAIMINGNYYDILKKDVDYIIFDNQYIELLNPKDGDLMVKFEDDSIIKILPSEKIYKLPKFSTPNYSVKFQNKYGEYIDENYNIYENESVLYVDNLNEDDKIIFEYYEKKEIFNINDILEGSLIVYSGNRELELNKDYFWDNTNYILSFSKNIINTNNEVEIFYKRKSEQDIQNYSLNLNYNLLNFHYDLSLEKSKKRDIIGTYINSKNFKLEAGTEIYDNNYKTNENKIKFVSDSEDLMTNSKDDFLVNGNAVVSDDYVKDKSYNFENKIKVDYSSDFKIRKKLNISSKNIKKVSFWIYGDNQNEDLTIKIGGLNEDFDNDGKLDTEDKNNNGYLDTNEDNGIDIGGNLIGKNNEKLDTEDFNNNNVIDKNEEFYSYNTKINFLGWHKLEFFIDGSKSLEKFNMVEFDIGNTSGNNSYVVLGDFKFIKYNIITNNLKNYIINEDNIIINGKDINSSFSYNFSYEKNYYKNLKISMESEDNSEVTIKINGVEKYKDIIMGVKELNLDISDLESVQDITFVTKGNLKINSIIFKDKIIDINNFFYVYYNWNDNVIELDRNSKIYHLVIKNTDMDRKYRYNIEKSDDIDKFKLESNISNSLNFTYSYEKNKDILNRSYSAFYFDSIKRIELKNEIDNKTYFLYWKYKNKKNELCGNSYYKNKEIQGENIYKYSSKNIKFKYNIKKSSYDLENNLLLNNNFDNIKFESELEYSNKKNYNYDKELINKKINNFFKIGIKREREKEYLNDKETYFFPILNYSYSKNEKESYEISLENNLTDRFINSKTSIFYKKYKIIYEYSKNITEKIDVSISYFINEQLKIKSVFDEEKDNYIKYNALFDGKYQYNKFIEILPYIKLESYNDLREKFNSYNEYQIGMETKISM;locus_tag=LOCUS_10790;note=WP_011949152.1 collagenase (Clostridium botulinum) [pid:22.4%25%2C q_cov:52.7%25%2C s_cov:47.6%25%2C Eval:1.9e-09%2C partial hit],MGA_1079
sequence1	MetaGeneAnnotator	CDS	1233580	1234770	.	-	0	ID=MGA_1080;product=exodeoxyribonuclease VII large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902942.1;translation=MNNREYSVSELNKLVKLTLETNSNFKNFYLKGEISNITYYKSGHLYFTLKDKKASIKCAAFNYRFKNVPVDLEAGENVRILGSVTLYEANGQYQVIVDEIEKENKLGSLYVELEKLKKELDKKGYFDKSIKKRLPIIPYNIGVVTSGTGAAVRDIINTTHKRFENLNIYVYPAKVQGKNAELEIKKGIETLNRLDYIDVIIIGRGGGSIEDLWAFNKREVAEAIYNSEKPIISAVGHEIDFLLSDLVADSRAATPTQAAEILVPEKESLLGELNIREVRVANNLKKLLELKKIEFEQRKENYFIKNYKNYIVDKNNILIGKEEKLNNSLKKMLEIKKSKFEISKSKIDMLNPYSILNRGYSITKLNGKIIKSVEKIRESDELLTILSDGEINSVVK;locus_tag=LOCUS_10800;gene=xseA;EC_number=3.1.11.6;note=WP_005902942.1 exodeoxyribonuclease VII large subunit (Fusobacterium nucleatum) [pid:53.5%25%2C q_cov:98.7%25%2C s_cov:96.8%25%2C Eval:6.7e-115],MGA_1080
sequence1	MetaGeneAnnotator	CDS	1235038	1235631	.	-	0	ID=MGA_1081;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016369.1;translation=MSTKSLEILTDEFHKFPGIGRKTAQRLAFYVMDISKEEVEKFVSALRDVKENIKRCEICGNLSESDICDICSDDYREKDIICVVEDSKDILAMEKAGVFKGVYHVLNGKISPLNGIGADKLNLKKLIERVAKEPIKEIILALNPDLEGETTALYISELLKNFDVKVTKIASGIPMGGNLEFADIATISRSIEGRRKI;locus_tag=LOCUS_10810;gene=recR;note=WP_011016369.1 recombination mediator RecR (Fusobacterium nucleatum) [pid:58.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-66],MGA_1081
sequence1	MetaGeneAnnotator	CDS	1235853	1237094	.	-	0	ID=MGA_1082;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986386.1;translation=MEKYDVIIIGGGPAGLFTAINIKKEMSVLILEKNQKVGKKLLMAGAGRCNITHEGEMSEFFNHYGNNYKFLKTVFKEFSNKDMINFFKRRGMGIIVDKNGKIFPETEKSKDILKILINECMKKGVVIKNNETVLKAEEIKEEDKKIDEKFIIKTKNNIYMCDKLVISTGGKSYPTSGSSGDGYIFAKNLGHKIVSLKPALAPAFITDYKFKNISGVSLKNIKIYLYRENKKIGEHIGDIGFTHVGLSGPGILDFSRDIKEDDVLKVNFIGEKIDKFKKEFIKETEKDGNVIIKNYLKRYKIPESLIKSVLEQINMDILTKMAEISKDKRNKLAKMFCEYPFEIDRMGDYNIAMATTGGVALKEINGKTMESKIVKNLFFAGEVVDIDGDTGGYNIQAAFSMGYTVAKSINGGL;locus_tag=LOCUS_10820;note=WP_011986386.1 NAD(P)/FAD-dependent oxidoreductase (Clostridium botulinum) [pid:35.1%25%2C q_cov:96.4%25%2C s_cov:97.1%25%2C Eval:3.0e-65],MGA_1082
sequence1	MetaGeneAnnotator	CDS	1237172	1238362	.	-	0	ID=MGA_1083;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKWIVIMFLVTFTFILNAQSVDIIGSWMLKRVETGSNIKKMFIILTFEKNRILKYMGIKVGTWKWNNDNEIIMKSKEINDFNGNVKITKLTTNSLEMVKGKQKLYYDRFDYKNIENINKKANLNGVWEIKGEDSINFLKLDVSGNFTLISIEEGMSSTTKGTWVYNSKDKTVIVIGQPNILRGENKIISITKNKFILRNINRDEEIEANKKVLKSKIERLNFKYDNFDEEKENDSDLPWNDFYQMVDKLKNIKKLKYRKADLIEELGIFKYSEVISKVVVNSEKESIRFNDFRIVNDEEKKIHESYIDENTNIYNKFFPEKELYPYRILGNKIVTVPAGKFECTVVEGFDGDSKVKYWMINNKPGIYAKIIRENVDVFGELEYFMIELEKIEEL;locus_tag=LOCUS_10830;note=MGA_1083
sequence1	MetaGeneAnnotator	CDS	1238384	1239598	.	-	0	ID=MGA_1084;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966040.1;translation=MGISKVTSEYKGFKKEIYILFVARIINRLGSFVNLFLVLYLTQNLKLNGKAIGIILTIVGVSRITGTMISGKLADYFGRKKVLVILYVSSALFIISCGFINGSNLIPILLIIATFFLGGIRPVFNSIITDLSTPEERKRVFSFFYLATNIGVSLGPIIAGLLYRNYVNWIFWGDGTTTLIATILIIIYVKDTTPTAEDISNAKGNEKATDESSLKVIIKKPFLIVFVLLNIVGTFIYAQHMIVIPIQFSEMFGKNSGKYFGYIMSLNAIVVVVFTTYILKLTKNKTSDYNMFLGTILYTVGFGMLYFANKNLMIFIISTILWSIGEILYVTNYGVYISLHTPITHRGRFNSIFGTLNMIGFTIAPLISGFMISNYGVKNVWEIIFYIGFVLTIFFYGFTKLKNV;locus_tag=LOCUS_10840;note=WP_010966040.1 MFS transporter (Clostridium) [pid:36.0%25%2C q_cov:97.0%25%2C s_cov:96.6%25%2C Eval:7.6e-74],MGA_1084
sequence1	MetaGeneAnnotator	CDS	1239859	1241217	.	-	0	ID=MGA_1085;product=aspartate ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392787.1;translation=MRKEKDLIGEESLDEKLYYGIHTYRAKDNFRLNYHNVKEEIIKAVILVKKAAAYANYKIEKLSKEKYEIIIEACDKIYNDKKILDENFEICALQGGAGTSINMNANEVIANVALEISGKEKGDYSFINPIEDINMSQSTNDVIPTAVKIAAIKVLRELVDNVMELQLGLQEKEHQFSNVFKIGRTQLQDAVPITLGDEFGSYAEAISRDRWRLYKMEERIRQVNIGGTAVGTGVGAPLKYRFIITEEIRNLTEFGMARAENLIDSTQNLDVFVEISGLLKSLAVNLSKISNDLRLMSSGPRAGLNEIELPILQAGSSIMPGKVNPVGAEFIKQIYYKVVGNDLAITMAAGDGEFELNAMFPIIADLILENLEILRDGVKIFTEKVIKGIKANEEVCRNYLENSWSVATLLIDKIGYNKLTEILKEAKIKGKTYKEIIIEKNILNENEMKNLF;locus_tag=LOCUS_10850;note=WP_011392787.1 aspartate ammonia-lyase (Moorella thermoacetica) [pid:51.8%25%2C q_cov:99.6%25%2C s_cov:94.1%25%2C Eval:1.1e-124],MGA_1085
sequence1	MetaGeneAnnotator	CDS	1241268	1241510	.	-	0	ID=MGA_1086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEIYIIKDKIAKEIDVNKSNIILSKKFGKRNEYVWNVGKTNFGETELIFGNEEYCIFAENITYEEKKIILNIVKEPCV;locus_tag=LOCUS_10860;note=MGA_1086
sequence1	MetaGeneAnnotator	CDS	1241485	1242894	.	-	0	ID=MGA_1087;product=[FeFe] hydrogenase H-cluster radical SAM maturase HydG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079985.1;translation=MNWQDEVKEDSFINEEIIENLLETHKKPTKEEFDKIIAKAHKHIRLELDEVAMLLNSSEQDRIDTIFKTAKEIKEEVYGHRVVLFAPLYIGNKCMNNCTYCGFKATNDTTIRKTLTLDELGEEVKALEDEGHKRLILVYGTHPDYTPEFMAETIRKVYETKSGKGEIRRVNINASPLDVEEFKVVKDAGIGTYQIFQESYHLETYKRVHPSGEKSKFKWRLFGLDRAMRAGIDDVGIGALFGLYDWKFEVMGLMQHVLHLEETFGVGPHTISFPRLNEANGAIKDPKYVVKDDDLKRIIAILRLAVPYTGLILTARETAELRKECMELGVSQIDAGTKIELQGYSKHKKEQDLRKEQFKIGDSRGLDEVMGELMTQGFIPSFCTACYRLGRTGEHFMEFSKPGFIHNFCTPNALLTLSEYLDDYASPETKKAGYSLVEKELKTINLGNAKDSILKKLESIKNGERDLYY;locus_tag=LOCUS_10870;gene=hydG;note=WP_004079985.1 [FeFe] hydrogenase H-cluster radical SAM maturase HydG (Thermotoga) [pid:57.5%25%2C q_cov:99.4%25%2C s_cov:98.9%25%2C Eval:1.3e-157],MGA_1087
sequence1	MetaGeneAnnotator	CDS	1243132	1243380	.	-	0	ID=MGA_1088;product=iron-only hydrogenase system regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963809.1;translation=MEKRLGTLSIFIENENVSSKVNEILHEFRKIVISRMGTPYREKQVAVIVVILNGTTDEIGALSGKLGNIKGISVKSAISKIK;locus_tag=LOCUS_10880;note=WP_010963809.1 iron-only hydrogenase system regulator (Clostridium) [pid:47.5%25%2C q_cov:97.6%25%2C s_cov:97.6%25%2C Eval:6.8e-18],MGA_1088
sequence1	MetaGeneAnnotator	CDS	1243434	1244903	.	-	0	ID=MGA_1089;product=NADP-dependent glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948881.1;translation=MSIFKDIYVENENGDREYKILINGCWDCYFTTEKIEVRNPSDNKIVGYVPNCTEKDIETAIDELKEYKKIENYTPIERLEIMERAYEILLGNKDEVAKIITQESGKPISVSLGEVSATAERLKLTLQEVRALYGEYIAGEWVHDTQNKFAIVMRKPIGVVASISSFNYPLYIAAAKIIPAILAGNTVIAKPSSDTPITLIYFAKILEEAGLPKKAFSIVTGSGRKVGDALIQNRNIAAITFTGSTNIGMHIAKSVDVKKLHLELGGKASAIVLKDSNLENAVKHIVKGTFRNSGQRCDAVSRVLIEKEIKNEFIEKVLEESKKYKLGDPLDKKTQVGPVINKKAIERVDRLVKDAIKKGAKLIIGGKYNDLFYEPTILDNVTLDMDIAWEEIFGPVMPIIEVNNYEEAIEISNKSEYGLDSCVFTENINIALKIGKALEDGTVSINSAPGHGVGHFPFGGNKKSGIGREGLKYSIDELTKLHTIVINQI;locus_tag=LOCUS_10890;note=WP_011948881.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Clostridium botulinum) [pid:40.2%25%2C q_cov:99.2%25%2C s_cov:99.4%25%2C Eval:3.2e-101],MGA_1089
sequence1	MetaGeneAnnotator	CDS	1245060	1246883	.	-	0	ID=MGA_1090;product=glutamine--fructose-6-phosphate transaminase (isomerizing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808420.1;translation=MCGIVGYIGDKAPKTILYNGLAKLEYRGYDSAGIAIIEDNKIELNKAIGKLDSLGEILNKKYIQGNIGIGHTRWATHGKPTVLNAHPHLDCNKELALVHNGIIENYRELKDELIKKGHKFVSETDTEVIVHLIEEYYTGDLFGAVKKAVKYLEGAYALGVISLREQDKIIAARKGSPLVIGLGENENMIASDIPAVLEHTKKVIFLDDGELAILTKEKVVITDLKGNEKIKEITEIDWSIEMAEKNGYDHFMLKEIYEQPRVVEDTLRGKITDSSVKLDGINLTKEDLEKIEKINIVACGTSYHAGLVGKYLIEQNLRIPTEVDVASEFRYKDPILSEKNLVIVISQSGETADTLAGLREAKKKGAKVIGIINVVGSTITRESDGTIYTNAGPEIGVASTKAFVSQLTALYLFLLYFGEERNILSLEKRKYIVDGLKKLPEMIAEVLKRDNEILKASEEFKGVNSLMFIGRNINYPIALEGALKLKEISYIHAEGYPAGELKHGPIALIEEEVPTVAIAVKSDTYDKVISNIQEIKARSGKIIAVATDGDEKIKEHADIILRIHEVDEIFSPILTVLPLQLLAYHISNKRGLDVDKPRNLAKSVTVE;locus_tag=LOCUS_10900;gene=glmS;EC_number=2.6.1.16;note=WP_005808420.1 glutamine--fructose-6-phosphate transaminase (isomerizing) (Desulfitobacterium hafniense) [pid:53.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-189],MGA_1090
sequence1	MetaGeneAnnotator	CDS	1246996	1247940	.	-	0	ID=MGA_1091;product=DUF4351 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012220240.1;translation=MKKYMPDILWKEIIEDLFEEFVSFFMTDLYPNIDFERGYEFLDKEVSGIFQKTRKEQRYADRIVKVYMKTGEENWILIHVEIQGYYEKEFSERMFKYFYRIYDKYNKKIVALSIFTDSRKDYEPNIFEYEFYRTKLRYEYISYKILKQREEELIKSNNPFAMVVLAGLYTIKSEGKELDRLKFKYQLTKLLLKKGYKREKIEKIFKFLDSLLYLPKELELEYEDEVKRLTGGEEQMGITMEMTNIYQVGIEQGIEQGIEQGIEQGIERGIEQGKNREKVEIAIELLKNGIDIKIISTSTGLSVDEIEKLKYKVH;locus_tag=LOCUS_10910;note=WP_012220240.1 DUF4351 domain-containing protein (Coxiella burnetii) [pid:34.6%25%2C q_cov:89.5%25%2C s_cov:85.6%25%2C Eval:4.4e-44],MGA_1091
sequence1	MetaGeneAnnotator	CDS	1248032	1248964	.	-	0	ID=MGA_1092;product=DUF4351 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012220240.1;translation=MKKYMPDILWKEIIEDLFEEFVSFFMTDLYPNIDFERGYEFLDKEVSGIFQKTRKEQRYADRIVKVYMKTGEENWILIHIEIQGYYEKEFSERMFKYFYRIYDKYNKKIVALSIFTDSRKGYEPNIFEYEFYRTKLRYEYISYKILKQREEELIKSNNPFAMVVLAGLYTIKSEGKELDRLKFKYQLTKLLLKKGYKREKIEKIFKFLDSLLYLPKELELEYEDEVKRLTGGEEQMGITMEMTNIYQVGIEQGIEQGIERGIEQGIEQGKNREKVEIAIELLKNGIDIKIISTSTGLSVDEIEKLKYKVH;locus_tag=LOCUS_10920;note=WP_012220240.1 DUF4351 domain-containing protein (Coxiella burnetii) [pid:40.4%25%2C q_cov:84.8%25%2C s_cov:78.0%25%2C Eval:4.1e-50],MGA_1092
sequence1	MetaGeneAnnotator	CDS	1249110	1249805	.	-	0	ID=MGA_1093;product=Bax inhibitor-1/YccA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966116.1;translation=MFKVNQNYSYMDETVVSKLVSRIFSWMFMALLVTAGTAYAVMTSPSLTSIVMSSYIVIIVLEFAVVMGLSFLINKVSATTAKGLFFLYAVLNGFTFSIFVMFFTPASVIFSLALTTIIFGVMAAYGYFTKEDLTKFGPMLYAGIIILIITSVVNIFLHLSMLYWIISYMGVIIFTALIGFDVNRIKYMVIEMANGDEQALEKASIFGALQLYLDFINLFIYILRIFGNSRD;locus_tag=LOCUS_10930;note=WP_010966116.1 Bax inhibitor-1/YccA family protein (Clostridium) [pid:47.0%25%2C q_cov:91.3%25%2C s_cov:93.1%25%2C Eval:7.6e-47],MGA_1093
sequence1	MetaGeneAnnotator	CDS	1249862	1251145	.	-	0	ID=MGA_1094;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSIVLFTVLFLLLGCTGISKKSLKNEVKKNIKGNSYSKYDKMKLDNSTKLKGYFFDKSNVVFVFDMSANKENLEKSLKKDTTISTVSLAGSFNNWKPNDKWEMSKSTKNNVWFLKKKITDIAIPGNSGQPEFAFYLEGTYQRKGRSRPTEAWVKPSDKLEVGYKFNDQWADMYNYVILFDGDNKDVIAKNDKISRIIKSKYISDYEQANFREVSTGNIKEKTLYRSYHPFIPSRKTDPKKSKQEQLRMEKVQELMKKNQIKSIINLTDGEEISNDPRITKFYKTILDEKNVLLAKTKYSIVYYGSDTENFKELMKKVVNFIIEKEPPFLIHCRLGSDRTGVVTAVIESFMGADWGEISSDYDKTNDVGMGEYRNIKLLKYSLENLYKIKINSLEQKFNKDGYEYLSKELGFSDDKINLFYEKLKK;locus_tag=LOCUS_10940;note=MGA_1094
sequence1	MetaGeneAnnotator	CDS	1251403	1253313	.	-	0	ID=MGA_1095;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626551.1;translation=MIEIKLPDGSIKEFEKEVSVKEVAESIGKRLAKDAIAGKINGKAVDLSEIISENSEVEIITPRSEEAVEIIRHSTAHLMAQAVIRLFPNVKVTIGPAIENGFYYDFDSEHKFNEEDLLKIEDEMRKIIKENHKFERTVVSKEEAIRIFTEKEETYKVELINDLGGDSFSLYKQGEFLDLCRGPHVPSTGYLGSFKLKSVAGAYWRGNSDNKMLQRIYGYAFTTDKELKKFLRFLEEAEKRDHRKLGKELELFMMSEYGAGFPFFLPKGMEIRNILEDLWRKEHKKAGYQEIKTPIMLNRTLWETSGHWFNYKENMYTTKIDDEDVAIKPMNCPGGILVYKNNVHSYRDFPLRTGELGLVHRHELSGVLHGLMRVRAFTQDDAHIFMTEEQIEDEIVGVIDLIDKFYSKLFGFEYEVELSTKPEKAIGADEIWETATNALRGAIERKGMDYKINEGDGAFYGPKLDFKIKDCIGRTWQCGTIQLDFNLPERFDLNYIGVDGEKHRPVMIHRVIYGSLERFIGILIEHYAGAFPLWLAPVQVKVLTISDEQLEYAKKVVNLLKEKDIRVELDNRNEKIGFKIREANMKKIPVQLILGKNEMEVEEVNVRRFGSKESTGHKLTEFIESIVEESKIKFEK;locus_tag=LOCUS_10950;gene=thrS;EC_number=6.1.1.3;note=WP_201626551.1 threonine--tRNA ligase (Fusobacterium canifelinum) [pid:66.9%25%2C q_cov:97.3%25%2C s_cov:97.6%25%2C Eval:7.2e-253],MGA_1095
sequence1	MetaGeneAnnotator	CDS	1253306	1253773	.	-	0	ID=MGA_1096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYKEFYFEIDDIKFYANYFSDKLINLNIIENIPQNIKESNPPLKLYDYLVGYLSGCEIEYSGEYQLNLTEKEKIVLENCRKISYGKILSYKELAEKAGFKNGSRFVGNVMAKNPIILIFPCHRVIKSNGEYGNYGPGVNYKIKFLNIERRDKND;locus_tag=LOCUS_10960;note=WP_012583251.1 methylated-DNA--[protein]-cysteine S-methyltransferase (Dictyoglomus turgidum) [pid:37.1%25%2C q_cov:65.8%25%2C s_cov:65.0%25%2C Eval:9.5e-15%2C partial hit],MGA_1096
sequence1	MetaGeneAnnotator	CDS	1253763	1256876	.	-	0	ID=MGA_1097;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTMNLKTNKLQLFIFIYFIFSISILAESKFFIEGVSGNPKFDFEKEEFWADNGIQVKYKDMKIQAMRIKKIKNKNILLAYDKVIFVQGKNKVEADSLEVNLDTKVAKIINGKSFMDKVYYGGKDFEAHFPDKAFVKDSYFTTCNLKNPHYHLEAKKIIFYPGRKIVAYNAAIYIGKVPVMWLPYYVSSLKKGTKRASLFPRIGSSDDKGKYIIWGIDYELNKKYLSGFVDMELSEKKGWAVEWSNDYEIQKNNSGNLHLKRFLIPKKGMEKEWDFIWTHKAVTNDNPKKFFKKGNWDIFYENKSTNLLRDNKGNEINYTKKTSSMKKYQIKSAQKFGKDMNLTLDVMYTDAQILKDIINQNQNNNPNTGDEVKVEIYKRGTFSKNNSIYKLSLNYDNTKDLNPGKKGDKYSFKDNYSTNLNIKKQKITVGYSYKNQDNWKESSYDPNVTVIDYDLNKNETYKLKLGNYYILKTKFFYGLDFHRKDSEEHQIKYLDEKNKILDPTPSKNNKKENSKGGGFSFGNSSLPLFLLGSKGNFLYHQSRNWYVTKEMLMTHENKLTIDTPLYNNLKERDRNFDLKIKNSIPLVYVFSVGEVPVTMMFPDTRKEYGNILTLTLGNIVSNYTYGVKESFDGKDNWKKTDSTSNFFQTKIDKDYINLKFDKNNSYDDSAFITKKGNSLGLTFVSGDNKIEYSNSNTKNFNKKLGQELELSLNNNFKIKYTTKNIGLSYQILKNKARKEIESKDSAGNSVKTGKYKISSETIKKDYSLLFNFKGEKFDKYLKITYNDGEDNSKKESEKLDDSNLTAKLTFTEAKKKDDKAKKQQKIKEVKDETTNSEFTLFPEEEQKIDDILTEDEKIKDLFTLTGIGDETKKDDKENNKKSYSLTLSAVSDRNYYKKKADYLKSLKTFSVTTDFAYGSLLTLGYKYNWTRTAGGLDYSAKTQAQSIKFRLGPKDYEWWIGYSREYNDLKNQLTKVSYTLDHKIHCTEFKLGYDETWNDSKNKFDTVISLKFWILAFPDKNLEYKKEANKKGFGFGI;locus_tag=LOCUS_10970;note=MGA_1097
sequence1	MetaGeneAnnotator	CDS	1256970	1257290	.	-	0	ID=MGA_1098;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_006311093.1;translation=MNKIVYLNNSNFKSEVLDSEKLVIVDFWAEWCMPCRMVAPILEELSEELENVKISKLNVDEVGEIAAEFGIRSIPTLLFFKGGKIIDKSVGAMPKETLKIKIESHL;locus_tag=LOCUS_10980;gene=trxA;note=WP_006311093.1 thioredoxin (Agrobacterium) [pid:58.4%25%2C q_cov:94.3%25%2C s_cov:95.3%25%2C Eval:5.5e-28],MGA_1098
sequence1	MetaGeneAnnotator	CDS	1257394	1257633	.	-	0	ID=MGA_1099;product=KH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005899450.1;translation=MEKLEKLLYFIVSELVEDTDSIKIKSIKKGKNIILKLRVGDGELGKTIGKNGITASAIRGVVQAAAVKDKLNVDVEFLD;locus_tag=LOCUS_10990;note=WP_005899450.1 KH domain-containing protein (Fusobacterium) [pid:58.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-18],MGA_1099
sequence1	MetaGeneAnnotator	CDS	1257633	1258031	.	-	0	ID=MGA_1100;product=thioesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831194.1;translation=MVKISHRVYYYETDKMGRVYHSNFLKWMEEARTEFIRVKGISYKEIEEMGYLLPVKELNVKYINPVEYDEEVMICISIEKFTRLIIEFKYEFWDRDMKLKFGEASSISIFTNKEGKPIRVDKELYGKLREER;locus_tag=LOCUS_11000;note=WP_001831194.1 thioesterase family protein (Staphylococcus) [pid:36.2%25%2C q_cov:91.7%25%2C s_cov:81.9%25%2C Eval:3.9e-18],MGA_1100
sequence1	MetaGeneAnnotator	CDS	1258024	1258761	.	-	0	ID=MGA_1101;product=pyridoxine 5'-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942449.1;translation=MIKLGVNIDHVATLRQVRLAKEPNLIKAAVLAELAGANGITVHLREDRRHIQTNDVKLLREVITTRLNLEMATNEDVLNVALQVKPDMATLVPEKRQELTTEGGLNILDEKVNEKTIYTVKKLQERGIIVSLFIDPKPEIMKIAKATGAEFIEIHTGKYSEAKNEKEKKEELEKIIEAVKSAKALGLSVNAGHGLDYENVQEIAEIAEIEELNIGHSIIARSIVEGLPNAIKEMKELICGARKNG;locus_tag=LOCUS_11010;EC_number=2.6.99.2;note=WP_010942449.1 pyridoxine 5'-phosphate synthase (Geobacter sulfurreducens) [pid:51.9%25%2C q_cov:97.1%25%2C s_cov:98.7%25%2C Eval:4.5e-64],MGA_1101
sequence1	MetaGeneAnnotator	CDS	1258758	1258997	.	-	0	ID=MGA_1102;product=DUF4911 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016281.1;translation=MNSLEFYIKTDKKNIDFINKTIEAYEGMGIVRTLDPKNGLIKIITLDYYEDDIRNILNGLYKYDVELEIIDERNWEGEL;locus_tag=LOCUS_11020;note=WP_011016281.1 DUF4911 domain-containing protein (Fusobacterium nucleatum) [pid:51.9%25%2C q_cov:97.5%25%2C s_cov:96.2%25%2C Eval:2.8e-16],MGA_1102
sequence1	MetaGeneAnnotator	CDS	1258990	1259796	.	-	0	ID=MGA_1103;product=16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016282.1;translation=MQKQFKHKKQFGQNFLQDKAILNRIIAVSDISKEDSVLEIGPGEGALTELLLENAKKVTCIEVDRDLEKILLEKYSENSSFRLIMKDVLQLDFKEEINEKVKVVANIPYYITSPIIQKLIVNREFVEDIYIMIQKEVAERITAKSSKKRSVLTLSVEYFGEAELLFYIPKEAFFPSPKVDSAFIKISIDKKNKYEKLVNEKTFFKYVKASFANKRKNIVNNLCSLGFEKNSLKVLLEKNDISPNKRAEAFSIDEFIELIQILERTSNE;locus_tag=LOCUS_11030;gene=rsmA;EC_number=2.1.1.182;note=WP_011016282.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Fusobacterium nucleatum) [pid:58.5%25%2C q_cov:96.6%25%2C s_cov:98.5%25%2C Eval:3.1e-85],MGA_1103
sequence1	MetaGeneAnnotator	CDS	1259802	1260446	.	-	0	ID=MGA_1104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIDFDKIEADYKKSILNESKQKRGKRRREPIDERKITIVSMLISIIIIFIFLLFIINGGKQSGISMNNNLLDEVVYTNIKFENNKKENQIKNEKIKNEKNNLRLDESKNSKNIVQSNSENNVVDQKANIQVMKKYYVIQILASKNLKAVEKEIDKLKKSGYEAFYIKDGKSKYSYKLLIGNKFKTRAEAEEFGNDLKKKKIIKNFFTRFRED;locus_tag=LOCUS_11040;note=MGA_1104
sequence1	MetaGeneAnnotator	CDS	1260447	1260980	.	-	0	ID=MGA_1105;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005420875.1;translation=MNNYEIEVFISKDEIAEKVKKLGKIITDEYKNTKELVVIGLLRGSVIFLSDLVRELDLPVSIDFMTVSSYGNEMESTREVKIIKDLDENIMGKDVLIVEDILDSGLTLKKVMGILESRSPNSLKLSVLLNKTGRREADISPDYIGFEFEDGFVVGYGIDYAQKHRNLPYIGIVKEVK;locus_tag=LOCUS_11050;gene=hpt;EC_number=2.4.2.8;note=WP_005420875.1 hypoxanthine phosphoribosyltransferase (Aliivibrio) [pid:57.1%25%2C q_cov:96.0%25%2C s_cov:96.6%25%2C Eval:5.5e-53],MGA_1105
sequence1	MetaGeneAnnotator	CDS	1260973	1261515	.	-	0	ID=MGA_1106;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005420875.1;translation=MIESNIKKVLVSEEEIQKRVKELGKIITKDFKETKGLIVVGLLRGSILFMADLMREIKLPLKIDFMTVSSYGNQFETTREVKILKDLDENVMGKDILIVEDIIDSGLTLSKIMEILKNRNPNSIKLCTLLNKSARREVNIKADYIGFDIPDEFVLGYGLDYLQEYRNLPYVGVMKEDVNE;locus_tag=LOCUS_11060;gene=hpt;EC_number=2.4.2.8;note=WP_005420875.1 hypoxanthine phosphoribosyltransferase (Aliivibrio) [pid:61.2%25%2C q_cov:91.7%25%2C s_cov:93.8%25%2C Eval:1.3e-57],MGA_1106
sequence1	MetaGeneAnnotator	CDS	1261671	1262378	.	+	0	ID=MGA_1107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAIYLLTLLISISIFLFLGSRIFVKLFFNEYYVITPSFIGMKYDDAFTLSKKMSLNLVVLEKEFSKYNKDVIFDQIPKMNTKVKKNRAIKIWVSKGKIERKVPNLFRNDLAEVKSLLIKNGIEIENVSYTHSSLPFNSIIACDPAYGTILKANQKISLLISLSQNTKNVYMPDIIGINFESAKKILEKSNLIIGKTEFINDDFVDNNIILDSSPRAGEKLHPGSVVNLTINQK;locus_tag=LOCUS_11070;note=WP_005902075.1 PASTA domain-containing protein (Fusobacterium nucleatum) [pid:33.5%25%2C q_cov:68.9%25%2C s_cov:81.0%25%2C Eval:2.9e-17%2C partial hit],MGA_1107
sequence1	MetaGeneAnnotator	CDS	1262662	1263285	.	+	0	ID=MGA_1108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNLLLLDSFYHNIEPIVVINKIDLLDDIELHELKSKLSFLDLININYLLVSLEKNINLERLKKLFENGISAFGGPSGVGKSSIINILQNRVNLEIGELSNKLKRGKHTTKGATLLKLNNNNGYIIDTPGFSSMELPKIKDLEDLKRLFPEIEKYDSSCRFNDCIHIHEPDCAVKENVLNGNISATRYEFYKKVYLELKTERWNKYD;locus_tag=LOCUS_11080;note=WP_201627939.1 ribosome small subunit-dependent GTPase A (Fusobacterium canifelinum) [pid:50.0%25%2C q_cov:99.5%25%2C s_cov:71.5%25%2C Eval:3.4e-53%2C partial hit],MGA_1108
sequence1	MetaGeneAnnotator	CDS	1263278	1263910	.	+	0	ID=MGA_1109;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902077.1;translation=MIKIAPSILSADFSKLGEEVIQISKAGADYIHIDVMDGNFVPNITFGPAVIKSIRDKSDKIFDVHLMIDAPERYLQNFYDAGADIITVHVEATKHLHRTIQMIKSLGIKAGVSINPATPVEMIKYVLSEIDMVLVMSVNPGFGGQKFINSSLEKIKEIRTLSKTIDIQVDGGINKDTIKQCISAGANIFVAGSYIFSGDYKERINSLKEV;locus_tag=LOCUS_11090;gene=rpe;EC_number=5.1.3.1;note=WP_005902077.1 ribulose-phosphate 3-epimerase (Fusobacterium nucleatum) [pid:71.5%25%2C q_cov:98.6%25%2C s_cov:96.3%25%2C Eval:2.8e-82],MGA_1109
sequence1	MetaGeneAnnotator	CDS	1263912	1264589	.	+	0	ID=MGA_1110;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902078.1;translation=MKTKIVNELLEEFYKVFYEIEELSLKQGIKTLTTTELHIIEAIGTNSLTMNQLSDKLGITMGTATVAINKLLKKEFINRNRCEHDRRKVYVSLTKTGIDALKYHQNFHKIIISNITKELSSEELENFINSFNKILGNLKKQFENIKPDSIDNFDINSDLIISDVKGSSALKTFFKEKNISAGNNLKILNKTDKSIELLINNDNKMTLDILDSKNIFAINNQFKKI;locus_tag=LOCUS_11100;note=WP_005902078.1 MarR family transcriptional regulator (Fusobacterium nucleatum) [pid:48.4%25%2C q_cov:94.7%25%2C s_cov:95.6%25%2C Eval:8.9e-53],MGA_1110
sequence1	MetaGeneAnnotator	CDS	1264697	1265584	.	-	0	ID=MGA_1111;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011181584.1;translation=MNKKKIFLADTGLIYSAAIWGATFYLVKDSLGALNPVVLVGYRFLLASFIILPYLIIKKINIFHNIKSGLLLGILLWLLYVPQTVGLKYTTASNSGFITGLFIVFVPLFSYLIFKEFPSFMKLISVILATIGLWILTGGLKEINIGDIFTLGAAVAYSLHLLFAGKIMKKKNNPYLLNFQQFFFVGIFSIIFSLFAKYPLSGLSRSSINVILFLAIFPTITAFVVQLEAQKFTSSLKVAVIFSLEPVFAAIFSWTLGGETFKISGIIGGSFIVSAMILSEMRLEKIKKFYINYKK;locus_tag=LOCUS_11110;note=WP_011181584.1 DMT family transporter (Bacillus sp. ISTL8) [pid:37.9%25%2C q_cov:95.3%25%2C s_cov:96.4%25%2C Eval:2.0e-43],MGA_1111
sequence1	MetaGeneAnnotator	CDS	1265632	1266342	.	-	0	ID=MGA_1112;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011922420.1;translation=MYKNYIFDLYGTLIDLETDEENKELWEKLSLFYSYNGAKYKFDELKKNYKEEAGKEIKNSLKFTKYPDIEILKVFEKLYFMKGKKATKKLVSETSLLFRILSSRKISLYDGVLELLKELKKRKKKIFLLSNGQRSFSISELKYFDIYKYFNGIYFSSDINICKPDEKFYNYLIKKEKLDKKSSIMIGNDYTTDIKGANNIGIDSYYIHTNYSPKLIKNIGATYTNIEGEIIDLLRI;locus_tag=LOCUS_11120;note=WP_011922420.1 HAD family hydrolase (Streptococcus suis) [pid:32.4%25%2C q_cov:98.7%25%2C s_cov:98.8%25%2C Eval:3.0e-30],MGA_1112
sequence1	MetaGeneAnnotator	CDS	1266360	1268276	.	-	0	ID=MGA_1113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLTLREKIVVFSALFIIIPSIFITIVSIKISTGIIETQMNNNREQLLLQIKSDLDNKLSSVESVIVLLNNDIKARDIILKKNNKAEDSRYIRNMLKNIVTSEGDIISSISVYSYKNNNFFSYGDVKYNPKFKSEEWNKNSLSKNGGFYYGLPNDISDYDNINWPTIVVGKAFYFSNGKKPDFVMKILLRMEFFTKFINKTFYGKNSKSFIINNSGKMIVCGEQSNKIKFYKNLDEISKKDNFKNILKKVNVLKTKENSYVHIHNGKYVVYMVNFSGNSWSLVSAIPTNNITSELKKIIWIVLIILIITIVIETYFLFLFFYKELISPLNEILAVIKNFKISGIGNIKMFENNIKKNELEQIKIVILEMMQEIQNNYKDIQLNNNELKEIHIKLENKINELKELGSEKDSFLERTSYELISNLENTLAIIEVLFNKVIGQLTKEQEYNLKMIYANINKLMNTTNDVLELSKLKKNKIKLDIEDFNIKNIVDNEIKNLNVYALNKNLEISNNITEDIYVRGDKVRVKKIFYNLIENSIKFTKKGNVEISYNILKDKNRIEISISDTGVGIKKEMYSLIFDSFEKSYKMFGEREKLKGLGLYVVKKIVEAHGEELKIDSKIGVGTKISFILTLSESSKN;locus_tag=LOCUS_11130;note=WP_012545601.1 hybrid sensor histidine kinase/response regulator (Thermodesulfovibrio yellowstonii) [pid:27.2%25%2C q_cov:50.2%25%2C s_cov:53.7%25%2C Eval:1.1e-30%2C partial hit],MGA_1113
sequence1	MetaGeneAnnotator	CDS	1268289	1269539	.	-	0	ID=MGA_1114;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173996.1;translation=MKKYVVYILILGILIGINGCRKKKAQVKKIKIIYASNMYPIPATEEVIKRFNAIQNKIEVVHLNLSGTTNEVHDKYETILSRRSHDIDLFLGDVVWVAEMAQKGYILDIDDYIKRDNINLSNYIEGSLKATYYKNKIWGLPIFIDAGMLFYRKDIVATPPKSWDELIEMAKRYKGKKGTVDGYDFQCYSYEGLICNFLEYIYSYGGEVLDSNENVVIDSKEAKRGFEKFMEIEKSDFVPKDIKNYKEKESENNFLGGKSVFSRNWPYLWSESLKTDLKGKIGISPLPKGDKKSAAVLGGWVGMINKSTKHKEEAWEFLKFLASEEGEKIRAIKNGVSPTYIPLYRDKGLTELYPYFKNPEFLKALKAAVPRPVSPVYPKVSEIMQIEILKVINNEETIDQSLKNMEMKIKDAIKSK;locus_tag=LOCUS_11140;note=WP_011173996.1 ABC transporter substrate-binding protein (Thermus thermophilus) [pid:29.8%25%2C q_cov:85.3%25%2C s_cov:85.3%25%2C Eval:3.2e-43],MGA_1114
sequence1	MetaGeneAnnotator	CDS	1269580	1270275	.	-	0	ID=MGA_1115;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011707375.1;translation=MNISIITGGTSGLGLEMSKKLVKNNKNIIIIGRNGERLEKIKKTLEKENNNVKIYSYQMDISNEEDIKKLENFIIENNFIIENLFNVAGVGIFGAVDKILKTDIEKVLNSNLIGLILMTSHMIKFLRNNKKKSKIISVLSTAAIKGKANESIYCASKWGARGFIKSLEEELKNSNINIITFFPGGMNTEFWKETDVNVSKFMNPEEIAELIVKMSLEEKSFVPSEVVLNRN;locus_tag=LOCUS_11150;note=WP_011707375.1 SDR family oxidoreductase (Aeromonas) [pid:32.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.1e-29],MGA_1115
sequence1	MetaGeneAnnotator	CDS	1270313	1271677	.	-	0	ID=MGA_1116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIKIIILFLFLTINIFANIKLNLGYIKSENYDLNYNNYKTGKDVSNGYTDFLLKVKDYDNNRSFLNINFDNLNSKEDIKYNFEIELYEGFGTYIEKESVVYPIINIKNWDQNFPYKCYIQYKDLKIGRDKLAWGVGKFGNLILSDFSKYYDMIEFKHKFKYVDFDYVLISLNPYLTKVESDIIDNDTEINSQGKIYSEPYKFFIAHRLTFNLTRKIKMALTEAQVVGGKIPGLDLINPLYIYHNSFTEGYSNVMAGIDMNYKSKKYEIYGSGVLDDIVVADEKDSNSKPTALGYLGGFEYNLKNIKLNFEYARTSKWLYNRENEYLKFTNRRIIVTTYGNSGRYVVDYPIGYFLGADARTYSLKIDYNNFRFIYQKYEKGEVNLQTDYNKAIGDKNWMELSGIIEVRDIFNIEYKYKNIKFFYNKEFINNFSNQSGEKRVSDEFGFKVLLKI;locus_tag=LOCUS_11160;note=WP_038068239.1 hypothetical protein (Thermotoga neapolitana) [pid:34.0%25%2C q_cov:68.7%25%2C s_cov:65.5%25%2C Eval:9.2e-39%2C partial hit],MGA_1116
sequence1	MetaGeneAnnotator	CDS	1271726	1273093	.	-	0	ID=MGA_1117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLIILFIVISNLALALKLEIKDMITYEKSSYNSTNFILNHSNENFSFYFDLDYINNDKYKFGEERYNFGYYHILNQGFFNIKLNKNVSVKLGRMYHNDVINTPYTLFISSEKQGISGIQIKYSDEKFFFETNWFQLNVLSDLGYPDRGANYRVYGINLSDEWRFGYQESVVYTGRSFDFNYFTNPIPAYMSQSFYNDTNAPWKQYTNENSIMGLFLDRKRKNDYFCSQLLIDDMNWDWIFSPKSKNQNPNKMAWSIGYKKAIKNIGKIGIYNAGSTKYTFEPMGNGTYDKATNTQYGYTYYPDNKYYGNDLNYIDNYIGYKYGENNIAFLVDFEKEINKINLYTSFEYVVSGSKSPENPWHEYTNYSQGGEGTKFLNDKKLEKTLNFSLKLNKNMGKYTLLGGVKLGRIINKLELKEIEEDKKTVGNNIRIYRPSDEIENSFELNIGIEYRF;locus_tag=LOCUS_11170;note=WP_004081158.1 hypothetical protein (Thermotoga maritima) [pid:28.2%25%2C q_cov:55.6%25%2C s_cov:57.8%25%2C Eval:1.1e-18%2C partial hit],MGA_1117
sequence1	MetaGeneAnnotator	CDS	1273204	1274937	.	-	0	ID=MGA_1118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNILFLSDNDFLKNYLSGIGFNLLSISECKKNNLDLIIVSEKRIDEVERIERKDINDIHKILLLDTYTKVDEIKSKILFPIDYFILKDDNLDEILKKIDNSIELIKIKKEKKFLLDTIKELNDINNRLIRKSQTLEDELNTDELANVYNRNFLIKRLQEELERVKRHDRNFAVAIIDIRELKVINKKYGYLIGDEVIKKVSKITSETIRNSDVLGRLSGNIFMVILPEIIEKYAVKVIERIINKVELTKIKDINLSVNCGFVLIKKDNIEEFSESNKILNILNKLIYYSKKIDQKIVEYKDENMNAIEEIENIVGLDEVEEEHNVLWEELNKSKKFIKNLLPKYDDWSEKINFGHLYLPFNFIGGDFFDFIEIDEDKTAIIFCDVSGHGVSSALYITSIKYIFKDLIVEKKIYEPEMVLDEFNKRILEISKGAVFVVTTYGYIDRKNKKFVFGFGGGTSPIKIDVKEKKMENLVEDGGFAIGLFEEAYFERKEIEIGMDDMILFYSDGIYEFLIENNIVEDDKQFYDIVKNSIDNEPDKFIGNIYKFMQEKTDKDIDFNDDITLLAVRCNICKNDM;locus_tag=LOCUS_11180;note=WP_012584099.1 GGDEF domain-containing protein (Dictyoglomus turgidum) [pid:32.1%25%2C q_cov:27.6%25%2C s_cov:22.8%25%2C Eval:6.4e-19%2C partial hit],MGA_1118
sequence1	MetaGeneAnnotator	CDS	1274946	1276190	.	-	0	ID=MGA_1119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVLHIESSKVIRKIFSSAINSLGWNYLYSVEKTKEISEIVKERDINFLIISYETEGMELIDVLKELKKINKKDLVIIISTTKEEIAYKKDMFELGVMDVLHKDMTYEELVLYLKKIMELSSLEKQYRGIKIGMLDDSAIALNIAKSVLTLNKFYNVDYYKDENEFLDNISKYDIYLVDLILPKISGMTIISNIREKYPEKKIILISGMGNPENISNALQIGANDYVIKPFNPMLFIARLRVTIRDYMLTKELKNLALRDAMTKLYNHQYIYERVKSEVSEVNRYKNKLSVIMFDIDDFKSVNDKYGHQMGDIVIKEIVGIIKNLKRDCDIAGRYGGDEFLIILPNTDEEGAVAIAYRIRKAVENIMIITDEKITISGGVAEYKEGLNDISLVNLADERLYKAKNSGKNKIVK;locus_tag=LOCUS_11190;note=WP_012258910.1 diguanylate cyclase (Chloroflexus aurantiacus) [pid:32.8%25%2C q_cov:57.7%25%2C s_cov:79.9%25%2C Eval:1.9e-35%2C partial hit],MGA_1119
sequence1	MetaGeneAnnotator	CDS	1276258	1276863	.	-	0	ID=MGA_1120;product=phosphoribosylglycinamide formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065739.1;translation=MKIGVLISGSGTNLQAIIDSITQGIIKKSTIEVVVSNVKSAYGLERAKQAGIKAIYINSKEYNSREEYDKKIVEILKENGVELIILAGYLKWITPYFVNQYKNKILNIHPSLLPSFKGLHAIEKAYEYGVKMTGVTVHFVDESEDGGAIILQEGIRLDEGISLEKLEEQIHKVEHKLYPKAIEKFVTGKIKLEGRKVIVEK;locus_tag=LOCUS_11200;gene=purN;EC_number=2.1.2.2;note=WP_048065739.1 phosphoribosylglycinamide formyltransferase (Methanosarcina acetivorans) [pid:49.3%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.6e-49],MGA_1120
sequence1	MetaGeneAnnotator	CDS	1277294	1278841	.	-	0	ID=MGA_1121;product=bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000745439.1;translation=MARKALISVSDKTGVVEFAKGLVKNGYEILSTGGTLKVLKENGIEVEQVSDYTGFPEMLDGRVKTLHPKIHAGLLSLRDNEEHQRIMKEHNMEYIDIVAVNLYPFKETISKENVTLEEAIENIDIGGPTMIRSAAKNYKFVTVIVDPKDYSNVIAELNENNSETTAKTRFELAKKVYKHTAIYDTMITNYLSGLEKEENYPEILENKYEKAYDLRYGENPHQSAVFYKELDIEEDCAATAEILHGKQLSFNNIIDVDAAIEIVKEFERPAVAILKHTNPCGAALADDIVTAFRDALASDPVSAFGSIIAVNRKVEADLANELNSFFNEIIIAPEYSEEALEILKKKKNRRLLKVKDLKRKSSTSKYDYKKVVGGLLVQERDLKDITIDDLKVVTEKQPTKEELEELMFAWKICAKVKSNAILLCKGTKTVGVGAGQMSRVDSSEIAVKKAGEKAAGSVLASDAFFPFRDGVDAAADAGIKAIIQPGGSIRDEEVIQAANEKGIVMVFTGMRHFRH;locus_tag=LOCUS_11210;gene=purH;EC_number=2.1.2.3%3B 3.5.4.10;note=WP_000745439.1 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase (Bacillus cereus) [pid:56.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-159],MGA_1121
sequence1	MetaGeneAnnotator	CDS	1278879	1279802	.	-	0	ID=MGA_1122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERDYYEVLQIRKDATISEIKLSYKRLIHKYHPDISKTEDNIMKFKEVIKAYKILSNPIKRVEYDKKNLNVKRSKNRKKNIDRDIKNNFMKLSKDKSNKVKYLFSEIFNKKKLNDLFFNIKVARNELRRKKFVDRELSKISVSFSSDELYNNMSDIDIKARLKNKYNHFIRINAVKIIAYNRDRQYIFELVKLLSDESPLVRKEVIKTLGMLKDYRSLNFIINSSFDYDDDVRIEVAKSLRNFEDIRAVSGLLKLLDDINEEVIIEAVYSLGVIGDKDVVEDIRKLLKKRNIKLRRAVFEVVKILRE;locus_tag=LOCUS_11220;note=WP_000043949.1 chaperone protein DnaJ (Bacillus cereus) [pid:56.9%25%2C q_cov:21.2%25%2C s_cov:17.5%25%2C Eval:2.1e-14%2C partial hit],MGA_1122
sequence1	MetaGeneAnnotator	CDS	1279896	1281098	.	-	0	ID=MGA_1123;product=OFA family MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012544926.1;translation=MEKKRVERMLVIPLGILIFMCLGTIYSWSVFRKPLEKLFNVGATQSGIPYTLFLASYALTMPFAGKFIKKIEPRLLIIVGGIIVGLAWVISGFAGNIELLSLTYGIFGGIGVGIVYGVPMAVVAKWFPKKKGLTVGLTLAGFGLSPFVTAPIASFLIDNYGVLSAFKIIGVVFIILITLLSLPLKFPDEKEHAEKKTNNIELDFSIKDIIKTKQFWGLVTTYTIGTLAGLMAIGISSPFGQEVIKMSSEKAAIYVSLFAIFNGIGRPIFGTLTDKFGGKKTAIISYIIIITASVIGLTLGAGKEFLYFIVFAMFWLVLGGWLAIAPTVTSNIFGAKHYAENYGVIFLSYGLGALTGGVISGVIRDKLGTYEYVFYPVIVLGIIGIIIAIKTLDKIKIEVK;locus_tag=LOCUS_11230;note=WP_012544926.1 OFA family MFS transporter (Thermodesulfovibrio) [pid:48.7%25%2C q_cov:91.8%25%2C s_cov:90.3%25%2C Eval:1.7e-97],MGA_1123
sequence1	MetaGeneAnnotator	CDS	1281409	1283010	.	-	0	ID=MGA_1124;product=phosphoglycerate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020641.1;translation=MFNIKNMKVLIAEMVDKKVVEKIKAQCNVDEKYKLSHEELLKIIPEYNAIIIRSETQVNRSFLDAAVNLKIVGRAGSGLDNIDIDYATKKGVIVANTPESNIVSAAEQTMTLLLATSRNTVWANNTIKSGKWDRKKFIGSELYQKTLGIIGLGRIGGLISERAKGFGMNLIAYDPYISDSRFEKYGVEKKNSIEELVKESDFITIHTPRTEETIDIISDKEIELMKDGVRLVNVARGGLYNEDALYRGMKSGKIASVGIDVWMTEPQETHPLYEFNTMIGTPHLGASTREAQFRVGDEVANEVLAGLKGEIVKNAVNIPSVSDSTFVKLKTFIALSEKMGRIYSQIKREGIKKIGLSFGGNEISNKEDVKVLSLVAIKGILDSTVPETVNFVNANYIAEQRGIEIKESIELDTGDYNNLMKITIEDISGDKFEIEGTVLEKKYPRIVRIGEFELDLVPEGKLVYLPHRNVPGVIGRVGIKMSEFNVNISKMIVSDSKENGSIMILTVDNNMPDILVENLKNIDEIKDVKVINL;locus_tag=LOCUS_11240;gene=serA;EC_number=1.1.1.95;note=WP_011020641.1 phosphoglycerate dehydrogenase (Methanosarcina acetivorans) [pid:41.7%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:1.4e-113],MGA_1124
sequence1	MetaGeneAnnotator	CDS	1283141	1284283	.	-	0	ID=MGA_1125;product=alanine--glyoxylate aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545576.1;translation=MKNLLMTPGPTPIPEEARFAMAKSIIHHRTDEYSEIFKELSKNLKYLFKTENPVITLTSSGTGGMEASVANLFSKGDKVVVVSVGNFGERFVKLCDIYGLEVVKLSYNWGEAAKANDLKEVLAKEEGVKGVFLTHHETSTGVLNDVKSFGEILKGTDILFVVDTISGLIANEFETDNWGVDCAVAGSQKGFMAPPGLAFVSLSEKAQKALDKSDLPKFYFSFKNTLNRLPEGQNPTTPAVNLIIATNEACKMLKKEGLENVTARHKNLKEAVAIGIKALGLEFFVKDEAVRGNTVTAVVAPEGVDGQAVNNTMRDKYGITIAGGQGAIKGKIFRLGHLGDVDRFDVLSLFSALEMTLNDLGYKGFEAGSSLKAIQKYYLR;locus_tag=LOCUS_11250;note=WP_012545576.1 alanine--glyoxylate aminotransferase family protein (Thermodesulfovibrio yellowstonii) [pid:47.7%25%2C q_cov:95.3%25%2C s_cov:94.0%25%2C Eval:7.7e-97],MGA_1125
sequence1	MetaGeneAnnotator	CDS	1284478	1285344	.	-	0	ID=MGA_1126;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005809044.1;translation=MCRINPRVDFAFKKLFGTESNKKLLIDLINSIVSEEDQVKELELKNPYNDKNFRNDKLSILDIKAIDQRGQWYNIEMQVIDQEYFDKRALYYWARLYSGQLSAGVNYDNLKKTISINILNFRCLDEEKYHNIYKIINSESGKEFINHLEIHFIELEKYDEKMSTMLDRWVNFLKKAEGYDKNRLPKELAEVESIKKAVELLDDMSLNYEERESYEARLKWLRDEEAAIKTAEKKGFKKGQKEGIEQGREEGREEEKIKIAKSLLDILDIKTISEKTGLSEEQIRILKK;locus_tag=LOCUS_11260;note=WP_005809044.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:33.7%25%2C q_cov:98.6%25%2C s_cov:96.1%25%2C Eval:1.7e-39],MGA_1126
sequence1	MetaGeneAnnotator	CDS	1285409	1285975	.	-	0	ID=MGA_1127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRRYRDYYILSSILFLFMTFAAILQIIVIIKYNFTDSEKMVIKGSCFEERIFDDSKKIKSNTPLTLKYVLFSKEYQNFLLLMFIIYQVKSIFKIMEKDNKRAEFILNRINFTGKIIVIYSILSILQVSEKIGSNEYSVGYHIGFRWENMLYFLIGIFLVETMDYLQDKVRTERINDINLIKNKIND;locus_tag=LOCUS_11270;note=MGA_1127
sequence1	MetaGeneAnnotator	CDS	1286017	1287288	.	-	0	ID=MGA_1128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRSISKILSIVLLVYLLIFFREKFVLGFIGIYILILFTIEFLPRIINYIFSLISKFVNILTIVLILLMILNFPIKYKEKFQVKTLDEKILKNDIVLSEKLKKFDKYNSNLIDKKIKEKKYNDEDVILALKSSKIVRENIIKFILNNNFQKYYFKEKSDEADVEWINLLYIFRYGIAEIDNLIKENQLEKARCEMLELLSLSKKLWDTDYGTLLFFTNDTITEEFIRYYALNHKILDMKKEVLENFRDIKKIVNINYSKALINESDFMKLTLKNNRGNMFSTVDLETGKIEKNDYFIRWPFYNEEDTIKLIEGYYSKILDISKDKFYLNKGKIKNVKINMLSIKNPIGHIVLQAIYIDYERMYYKKERLLDKIELLNFILTDRNKLPKDRLTGGNFILEKKKDENIIKSSYMVNGKNAIKMEY;locus_tag=LOCUS_11280;note=MGA_1128
sequence1	MetaGeneAnnotator	CDS	1287548	1290376	.	-	0	ID=MGA_1129;product=excinuclease ABC subunit UvrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626200.1;translation=MKNKIIIKGAREHNLKNINIEIPKDKFVVITGVSGSGKSSLAFDTIYSEGQRRYVESLSAYARQFLGQMTKPALDSIEGLSPAISIEQKGVSKNPRSTVGTMTEIYDYMRLLFAHIGTPHCPKCGREVSKQTIQEIVDSIIINNNEKSKLIILSPVTKDKKGTHKNLFLNLQKKGFVRVRVDGEVLYLEDEIKLDKNKKHNIEVVVDRLILKKKDKEFLERLTEAVESATALSEGNLIVNVEGKDELYSENFACPICDISLPDITPRLFSFNAPYGACPECNGIGQQLEIDVKKLILNEEKSIRDGAIVIPGAATRHGWVWTLLESMAKSFGIDLDKPFKELTEKEKKIIFYGTKGKKFKVSYSGGDFNYSGLREFEGIANNLKRRHKETNSESMKEDIEKKYMVEKICKICNGKKLKPEVLGVTINDKSIIDVTELSINEALDYFKSLKLTKKEEKIALEILKEAEERLGFMINVGLDYLTLSRLTKTLSGGESQRIRLATQIGSGLTGVIYVLDEPSIGLHQRDNDRLIKTLKRLKELGNTLIVVEHDEETMMEADYLIDIGPGAGVFGGNVVAKGTPLQVKKNRKSLTGQYLSGKKKINIPENRRKFDKTLKLFGASGNNLKKIDIEIPVGILTVITGVSGSGKSSVINQTLYPILFNKLNKGKQYPLEYKKIDGIENFNKVIDINQSPIGRTPRSNTATYTKIFDDIRNIFAETRDAKIRGYAKGRFSFNVKGGRCEACQGAGIIKIEMNFLPDVYVECEVCKGKKYNRETLEVYYKGKNISEVLEMSVGEAYEFFKNIPSLERKLKVLMDVGLDYIKLGQPATTLSGGEAQRIKLATELSKISRGDTIYILDEPTTGLHFEDIKKLLEVLNRLVEKGNTVIIIEHNLDVIKTADYIIDLGPEGGYKGGKIVAKGTPEEVVKVERSYTGKYLKGILGE;locus_tag=LOCUS_11290;gene=uvrA;EC_number=3.1.25.-;note=WP_201626200.1 excinuclease ABC subunit UvrA (Fusobacterium canifelinum) [pid:71.1%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_1129
sequence1	MetaGeneAnnotator	CDS	1290536	1291951	.	-	0	ID=MGA_1130;product=pyruvate kinase PykF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005421033.1;translation=MKKTKIVCTIGPKSESKELLTKLTNAGMNVMRLNFSHGDFEEHGARIVNIREVMKETGKYVAVLLDTKGPEIRTVKLENGDDVMLKAGQEFTITTDTTVVGNNTKVAVTYAGFADDLKAGNTILLDDGLIELEVTGVEGNEVKCLVKNNGELGENKGVNLPNVSIGLPALAEKDKADLKFGCEQGVDFVAASFIRKKEDVMEIRKLLNENGGENIKIISKIENQEGIDNFDEILEVTDGIMVARGDLGVEIPLEEVPFAQKEMIAKCNEVGKIVITATQMLDSMIRNPRPTRAEVGDVANAILDGTDAVMLSGESAKGKYPEVAVQTMAKICERTDSEMTYYPMEFDETITVTEAVSKGAVEAAQTLGAQMIIVSTETGRAAITVRKHFPEAFILAVTSNEQTARQLMVTRGVYPAVVKDIKTTDDFYAKAEEAALKSGLVEKGDLVVMTAGVPVGTTGTTNMFKVHVLGE;locus_tag=LOCUS_11300;gene=pykF;EC_number=2.7.1.40;note=WP_005421033.1 pyruvate kinase PykF (Aliivibrio) [pid:68.8%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.4e-178],MGA_1130
sequence1	MetaGeneAnnotator	CDS	1291994	1292956	.	-	0	ID=MGA_1131;product=6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023041561.1;translation=MKNIAILTSGGDSPGMNAAVRAAAKVAMNKGLKVFGIKRGYQGMLNDEIFEMSSRDVSGIIDRGGTVLLTARCPEFKQPEVRAKAAKILKKHDIQGLVVIGGDGSFHGADLIYKEHGIKAIGIPGTIDNDIAGTDYTIGFDTALNTVLDAISKIRDTATSHERTYLIEVMGRHAGDLALYSCLAGGGDALLIPEEGFKVHEVADQINKRREIGKLHDIVVVAEGVGSASDIASQLKGKVKSEMRVTVLGHIQRGGTPSALDRILATKMGAFAVEKLIEGKSGIMIGMESNKLVTYPISYAWEHKRELNEKDFELALTLAL;locus_tag=LOCUS_11310;gene=pfkA;EC_number=2.7.1.11;note=WP_023041561.1 6-phosphofructokinase (Fusobacterium nucleatum) [pid:63.9%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:1.0e-112],MGA_1131
sequence1	MetaGeneAnnotator	CDS	1293083	1294036	.	-	0	ID=MGA_1132;product=acetyl-CoA carboxylase carboxyltransferase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016368.1;translation=MHYLSFENEIKELESKIKEIQNFSKEKGIDLSLEIEKMENEINSKLKDIYSNLTPWQKNMVSRHPQRPYTLDYIEKMVTDFQELHGDRLFRDDPALVCGIGKIGEQAFMIIGHQRGRDVKENLYRNFGMANPEGYRKALRVMKMAERFKLPVLTLIDTAGAYPGLEAEEHGQGEAIARNLLEMAGLKTQIISVIIGEGGSGGALALGVGDRVLMLSNSTYSVISPEGCAAILFKDSSKAETAAIALKIDSENLENIGIIDGIIEEPIGGAHRDYDATSKALKNKILDTLKELKQLSIEELKDARYKKYRSYGEYKEI;locus_tag=LOCUS_11320;EC_number=6.4.1.2;note=WP_011016368.1 acetyl-CoA carboxylase carboxyltransferase subunit alpha (Fusobacterium nucleatum) [pid:58.5%25%2C q_cov:98.1%25%2C s_cov:99.4%25%2C Eval:3.1e-101],MGA_1132
sequence1	MetaGeneAnnotator	CDS	1294036	1294908	.	-	0	ID=MGA_1133;product=acetyl-CoA carboxylase%2C carboxyltransferase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902759.1;translation=MGLFSNRKKYATISTKEEAKISETKNKIIDKLWIKCSGCNDIVYIKDVKENANSCPKCGFYFRMSAKERIEQLIDDETFVEYDSSLFSKDILNFPGYAEKIEQSHEKAEMNDAVISGIGNINKIKVSIAVMDFSFMGGSMGSVVGEKITRAIERSIELGIPFIAIATSGGARMQEGIFSLMQMAKTSAALERLREKGLPFISIPVNPTTGGVTASFAMLGDINISEPGALIAFAGPRVIEQTIHQKLPEGFQRSEFLLEHGMLDAIVERKEMKEFLYKFIKNLGFGEVKN;locus_tag=LOCUS_11330;gene=accD;EC_number=6.4.1.2;note=WP_005902759.1 acetyl-CoA carboxylase%2C carboxyltransferase subunit beta (Fusobacterium nucleatum) [pid:57.0%25%2C q_cov:95.5%25%2C s_cov:93.4%25%2C Eval:4.8e-82],MGA_1133
sequence1	MetaGeneAnnotator	CDS	1295039	1296100	.	+	0	ID=MGA_1134;product=prephenate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880586.1;translation=MLLNELRKKITAIDTQLLDLISKRAELVKNVGEVKISSDTHTYIPEREKQIFENLKKQNHSSLSNESIVSIFTEIISACRSLETPLTVSYLGPEASFTHSAAIKKFGSSVNFVSQNSIDAIFYNVERNFSDYGVVPIENTTEGTVSYTLDKFANSKLKIVSEIELKISHSLLSKEDDINSIKKIYSHPQSFAQCKNWIINNLKNVELIEVSSNSYAAKLSSNEPNSAAISPKIAASRYNLNVLAESIEDSEHNSTRFFIIGKNINAPSGHDKTSLMFSPKEKIGALYEILRIFYNYNINLTMIESRPNKKISWQYIFFIDIEGHYENDIIKKALEEIKNSSTDFKILGSYPQK;locus_tag=LOCUS_11340;gene=pheA;EC_number=4.2.1.51;note=WP_010880586.1 prephenate dehydratase (Aquifex aeolicus) [pid:45.8%25%2C q_cov:99.2%25%2C s_cov:97.8%25%2C Eval:6.8e-92],MGA_1134
sequence1	MetaGeneAnnotator	CDS	1296181	1297905	.	-	0	ID=MGA_1135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTIISSINRKILIIDDQVDVLNSLKRILGKEEKDEIEDILGDFFENDKKKSVEIEEKYEVSIADRGEEGFELVKKSQNENLPYAVVFIDMRMPGWDGLKTAKKIREIDKDIEIVIMTAYSDKSRADILKTLESHDKLLYLKKPFDIEEIKQMALSLTLKWSLSKELVEKYEVISNSKKGLEKVINSIDKIERIKPPALKTILDGILKQILSILELKSGMIIFYDNGENYFENKIETDLEKFSDIDIEVLKIKAEKEKNIFISGEFLVIPLKNRGKLIAMGIIYKDNKLDFNEEHFKLFEIFISHAINLLKNSELYTKLEKINKELKDKNEELKKAYELNKKFLVISSHELRTPITLINGYAEMLEIELDSNSTKNTVSKLKKSVERLTRIVNSMLEVFAVSNEGKEIIIEKSEVTIEELFESLKILVEEFLEKRSQKLILIKDGEIPSAITDKKKLLYFALVNIMMNAIKFSPDGAKIEFIAKFNKNTQKIEVSIKDYGVGIEQTYVNEIFKPFFTIVNEQFHHSGVYEYKASGIGMGLTIAKNIIELMGEKIWCTSKLESGTEIIFTLSAKK;locus_tag=LOCUS_11350;note=WP_010946038.1 EAL domain-containing protein (Legionella pneumophila) [pid:29.9%25%2C q_cov:46.7%25%2C s_cov:36.6%25%2C Eval:3.0e-24%2C partial hit],MGA_1135
sequence1	MetaGeneAnnotator	CDS	1297917	1298549	.	-	0	ID=MGA_1136;product=orotate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001040248.1;translation=MNYKVKVAEKLLEIGAVTLSPKSPYTWASGIKSPIYCDNRLTISYPEIRDLIAEGMKDLIEDKFSGVEVISGTATAGIPHAAFISQKMNLPMTYVRSSSKGHGKKNQVEGKLEKEEKVVVVEDLISTGGSSLKVVDVLKENEVNVLGLVAIFTYNFKEAVDRFDEKKVKFYTLTDYNTLIEVALNKGYISEEELEILKEWKKAPKTYYRK;locus_tag=LOCUS_11360;gene=pyrE;EC_number=2.4.2.10;note=WP_001040248.1 orotate phosphoribosyltransferase (Staphylococcus) [pid:59.2%25%2C q_cov:93.3%25%2C s_cov:96.6%25%2C Eval:4.2e-62],MGA_1136
sequence1	MetaGeneAnnotator	CDS	1298679	1299266	.	-	0	ID=MGA_1137;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164925379.1;translation=MELWKELEFEIKHCSKCNLHFNRKIPVIGEGDINTPIMFVGEAPGAEEDVIGKPFVGKSGGLFTKIFNSVNLSREDVYITNIVKCHPKDNKNPEDDEIKMCSQYLETQIALINPKIIVTVGLISTKWFLKEKANIGITKLRGKIFNWEGDIKVIPIFHPSYLLRNQSTTQGSPKWNTWQDMKLIKNEYEKLKNRD;locus_tag=LOCUS_11370;EC_number=3.2.2.27;note=WP_164925379.1 uracil-DNA glycosylase (Thermanaerovibrio acidaminovorans) [pid:46.4%25%2C q_cov:91.8%25%2C s_cov:85.9%25%2C Eval:7.5e-44],MGA_1137
sequence1	MetaGeneAnnotator	CDS	1299345	1300118	.	-	0	ID=MGA_1138;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016735.1;translation=MRIAILGSGSSGNSVFVEENNFRFLVDAGFSGKEIEKRLNKLGVAPDTIGAILITHEHSDHIKGAGIFSRKYNIPIYMAKKSYDYSAKKLGKLSDENLNFIIDNFIIDSEILIKPFKVMHDAVNTLGFSINFGQKKVAIATDIGYATNIVSENFKDSDAIIIESNYDYEMLMNGPYPWDLKNRVKGRNGHLSNMDTAKFINKIYSKKLKKVYLAHISKDNNTHKKAKETLFNYLKDNDIKIDIEVAHQDRVSTIFEI;locus_tag=LOCUS_11380;note=WP_011016735.1 MBL fold metallo-hydrolase (Fusobacterium nucleatum) [pid:53.9%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:3.9e-74],MGA_1138
sequence1	MetaGeneAnnotator	CDS	1300115	1301776	.	-	0	ID=MGA_1139;product=dihydroxy-acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393742.1;translation=MRSDAMKKGVKRAPHRSLLKALGLTNDEIKRPIIGIAGSFNEIIPGHMHLRTIMEAVKAGVRLAGGVPMEFNTIGVCDGLAMNHDGMKASLPTREIIADSIEATGIGMPFDGIVFIPNCDKIVPGMLIGAARLNVPSIFVSGGAMLAGRVNNKKIGLSNVFEDVGKYENGKITDTELEEVENNACPTCGSCSGMYTANTMNCLTEALGMGMPGNGTIPAVYSERIRLAKEVGMQILNLVKEDIRPKDIMTRAAFLNAVAVDMALGGSTNTALHLTAIANYTGVEFSLDDFEVMSHKVPHLCLLSPAGPDFMEDLYHAGGVTAVMKELAENGVLNTTAMTVALKTQAELIENARIKNERVIRKFNAPVHKTGGLAILKGNLAKDGSVVKEGAVSKEMLVHSGPAKVYNSEEDAVDAILHKEIEKGDVIVIRYEGPKGGPGMREMLTPTSSIAGMGLDKDVALITDGRFSGATRGASIGHISPEAAEGGVIAAVENGDIIEIDIPNRKISLKVDDKIIKERLKKLPKFKVETEYSFLKRYSENVTSADKGAVFKK;locus_tag=LOCUS_11390;gene=ilvD;EC_number=4.2.1.9;note=WP_011393742.1 dihydroxy-acid dehydratase (Moorella thermoacetica) [pid:59.8%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:7.4e-190],MGA_1139
sequence1	MetaGeneAnnotator	CDS	1301830	1303293	.	-	0	ID=MGA_1140;product=IMP dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017001.1;translation=MLNGKIVKEGITFDDVLLVPQKSSVLPREVSLKTKLTKNITLNLPLMSAAMDTVTSAELAISLARLGGIGILHKNMSIEEQADRVDRVKRYEHGMITNPVILAPDSYISEAKAIMKKYKISGLPVVDEEGYLIGIITNRDLKYRKDDNMKVYEIMTKENLITASLGTTLEEAKSILLENRIEKLPIVDNDYKLKGLITIKDIDKAEAYPNACKDSSGRLRVGAAVGVAADTLERVEALINAGVDIITVDSAHGHSNGVIETVRKIKSKFNIDVVGGNIVTAEAAKDLIEAGADAIKVGVGPGSICTTRIVAGVGVPQITAVNDVYQLASKHNIPVIADGGIKYSGDVVKAIVAGASAVMIGGLFAGTEEAPGEEMIYEGRRYKVYVGMGSLAAMKRGSKDRYFQDVEEDVKKLVPEGIEGRVPYKGKLHDVVYQLEGGLRAGMGYCGTATIDDLIKNGKFVKITGAGLKESHPHDVQITKEAPNYQK;locus_tag=LOCUS_11400;gene=guaB;EC_number=1.1.1.205;note=WP_011017001.1 IMP dehydrogenase (Fusobacterium nucleatum) [pid:71.7%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:3.3e-199],MGA_1140
sequence1	Aragorn:1.2.38	tRNA	1303643	1303719	.	+	.	ID=Aragorn_26;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_26
sequence1	MetaGeneAnnotator	CDS	1303826	1304788	.	-	0	ID=MGA_1141;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029492176.1;translation=MDFSLGLNTENAHEYDKYDVVIIGGGPAGLSAALYTARANFSTLVIEKENEGALLMAHQIDNYIGFDKGHSGKELYENMKNHAKKFGVDFKNATLFEIDPMSSPKTIKTSSQSYQADAIIVATGKGDKQGKKYLGEEEYLGKGVSYCATCDGAFFKDMTVSVFGNGDEAAEEALFLTRYASKVLFFIKEDEIKCEPDLKNSLESNEKIELITNANLEEIKGTEFVEKVIVNIDGDKKEYDSSAAFLYLGTKSSLDLYATFAKLDSKGFIETKENMETLVEGIYAAGDIRKKEVRQVVTAASDGAIAGISAVKHLMKIRQK;locus_tag=LOCUS_11410;note=WP_029492176.1 NAD(P)/FAD-dependent oxidoreductase (Fusobacterium hwasookii) [pid:46.9%25%2C q_cov:94.7%25%2C s_cov:98.7%25%2C Eval:2.2e-78],MGA_1141
sequence1	MetaGeneAnnotator	CDS	1304790	1305086	.	-	0	ID=MGA_1142;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088517.1;translation=MSNNIDTDRAVLVLKMMANETRLKILYLLKKNEDGICVGNMEEILNIPQSSVSQHLAHLRNSGIISCKKDGKKVCYKISDKTAEKILLQLELADIEEG;locus_tag=LOCUS_11420;note=WP_011088517.1 metalloregulator ArsR/SmtB family transcription factor (Bradyrhizobium diazoefficiens) [pid:39.8%25%2C q_cov:84.7%25%2C s_cov:76.4%25%2C Eval:9.7e-09],MGA_1142
sequence1	MetaGeneAnnotator	CDS	1305086	1305742	.	-	0	ID=MGA_1143;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080736.1;translation=MGLLKDTDIKFLKEKFGKELGKEVTVIAFTSENQNKENNDTFKDILTEVSDLDERIKLEFYSEEDKELVEKYGITMYPAFAMVGEKDYGVRFYGIPSGYEFAALIENLIDISKDKSALATDLLEEVKSIDKEITIKVFVTPTCPHCPGAARKAHMFAMENENILGEAIEANEFPVVSQKYGVMAVPKIVIESKDGKSVSFEGNYPEAHFIEKIKELMK;locus_tag=LOCUS_11430;note=WP_004080736.1 thioredoxin family protein (Thermotoga) [pid:41.9%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:7.6e-46],MGA_1143
sequence1	MetaGeneAnnotator	CDS	1305817	1306776	.	-	0	ID=MGA_1144;product=SufD family Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020974.1;translation=MTNQDNMDKEFEALVNAVEKTGADKNIFKGTQNGFMLVDKNKVLGLNTVEGLEVNAEEIENGIKAKIRVLKGYKLEKPVHMCFGITGDIGEQIIESEYLLEEGSEAKFISHCSFPNAINVIHKMTSKIKIEKNAKMKYEEVHYHSETGGVEVIPYTEAVVEDGGYFRSDFKLVKGRVGKLDIYYNFSLKDRAIAEMDSKIYGKKDDIIKVKEIISLDGEESKGTVKARVFASDNTYSEVYTEIYGNAPYCKGHVDCVEVVKGKNAEVSAIPIIKVTNDLAELTHEASIGRVNKKELETLMARGLDEDEATDMIVKGMLK;locus_tag=LOCUS_11440;note=WP_011020974.1 SufD family Fe-S cluster assembly protein (Methanosarcina acetivorans) [pid:43.9%25%2C q_cov:97.8%25%2C s_cov:97.2%25%2C Eval:1.3e-75],MGA_1144
sequence1	MetaGeneAnnotator	CDS	1306769	1307515	.	-	0	ID=MGA_1145;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081657.1;translation=MLKVRNMHVFRGEKEILQDINLHFEKGKIYSILGSNGAGKSTLARTLIGFEKIEKGSIILNSKDITKFSITERAKAGMTIALQEPARFEGMSVKDYLTLGGRFSGDNLKDIFELVGLEYKKYIYRNVDDSLSGGERKRVELASVLMMNPKIAIFDEPDSGIDALSIPNIVNILNYIKNKGNTAIVITHNEDIAAIVDYAYLICDKTIKKTGKPLEISNYFKRTCTNCDFKPGEYSDKVRIEERSQKND;locus_tag=LOCUS_11450;note=WP_004081657.1 ABC transporter ATP-binding protein (Thermotoga) [pid:52.0%25%2C q_cov:90.7%25%2C s_cov:93.8%25%2C Eval:6.8e-60],MGA_1145
sequence1	MetaGeneAnnotator	CDS	1307812	1308087	.	+	0	ID=MGA_1146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIANNISTNQNHYNNFDFTKVPEKKSESNSSKIDFKNIKTKKIKDVQQDYDYKQQINKLAKKIEKNQFYTKEASTAIAESLLKRKIEYVA;locus_tag=LOCUS_11460;note=MGA_1146
sequence1	MetaGeneAnnotator	CDS	1308114	1308299	.	-	0	ID=MGA_1147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPEEAIENEIIKKIIFVLINLVVILVWWNFSFGILGLLGVIIFEVVLWVAYGYLFDNLKA;locus_tag=LOCUS_11470;note=MGA_1147
sequence1	MetaGeneAnnotator	CDS	1308311	1310089	.	-	0	ID=MGA_1148;product=cache domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010937705.1;translation=MKKFNLVNLEKPNLLRKMFPYTEVPKMELERKIVLPEIPEKIWITDTTFRDGQQSMAPFKEEHIVKLFKYMNELGGENGLIRQSEFFLYSERDKKAVEKCKELNLPFPEITSWIRAKKEDFEMVKQLELKETGILTSVSDYHIYMKLKKDRKTIIEQYLDVVRTVVENGVVARCHLEDITRADFYGVVLPFVEELMKIREESGVDVKVRLCDTMGYGVPFAAAKLPRSVPKMISLLREELDVPSHLIEWHGHNDFHKVLVNGTAAWMYGAAGVNGTLLGIGERTGNPPIEALVMDYLSLKGKDETLNTQIITEIAEFMQNEMKIQVSSRYPFVGRDFNVTKAGIHADGIMKNEEIYNIFDTTGILNRPLRVTITDKSGVAGIAHWINSNLNPKKEVSKKHPGVTNIYKWIQNEYDNGRITAISDEEMLRLSKKYMTELVKTGFEELEEKSDKVAREIVERYAAKPEIMSMDSDRITEVLENLIKNNRYVQMAYVTDEDGIQITDNIAQPWIERAHDISKKGDNRREREWYKLVVKDGDTHLTEYYISQTTSKLCVTASASITNSNGEFVGILGIDFNFTDLTGVADDKEKLI;locus_tag=LOCUS_11480;note=WP_010937705.1 cache domain-containing protein (Desulfovibrio) [pid:44.4%25%2C q_cov:98.6%25%2C s_cov:96.2%25%2C Eval:1.2e-156],MGA_1148
sequence1	MetaGeneAnnotator	CDS	1310212	1310580	.	-	0	ID=MGA_1149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKFFVLGIGVGFILAGIFFSFFGNNTGKSKIIETKLESRKQQKEVLKEPVYFVQLGVYKHYESCMNLIEKIPEIKLRVIFENGLYKVITPKYKEYSKAEAVAEEIKNKYKIDVYIKKKQSI;locus_tag=LOCUS_11490;note=MGA_1149
sequence1	MetaGeneAnnotator	CDS	1310587	1311144	.	-	0	ID=MGA_1150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNILIGIGIVISLYSLLAIFLTGNKKKKVIKNHSTKNNINKGELELEFFDLKNQIVDLTMEFNRTANFNTDTLDKKIMTISELNLNLDEKIVKSTKLITDMDILYRRLLEAEVNLSEKLKNISNAEEKILRIKPKTKPMIRNTIGYEDEIVEYYKRGLDIYEIAEKMGKSMGEIEFVLGLKRMR;locus_tag=LOCUS_11500;note=MGA_1150
sequence1	MetaGeneAnnotator	CDS	1311853	1312398	.	-	0	ID=MGA_1151;product=ribosome-associated translation inhibitor RaiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016408.1;translation=MRIIISGRHLEITDAIRNYAEKKIGGIKKYFENILEIDITLSVEHSKTEGDKHIADVLLFANGTKIKAVSSDKILYAAIDEVVDVLEVQIKKYKEKLKNRQHHQENIKEIFSKLEPKEDDKMIIKSRLISPKPMSIEEAILQMNSLNQDFYAFMNHETEELNVVYKRKDETYGHIEPSWGK;locus_tag=LOCUS_11510;gene=raiA;note=WP_011016408.1 ribosome-associated translation inhibitor RaiA (Fusobacterium nucleatum) [pid:41.8%25%2C q_cov:97.2%25%2C s_cov:99.4%25%2C Eval:1.9e-32],MGA_1151
sequence1	MetaGeneAnnotator	CDS	1312631	1313089	.	-	0	ID=MGA_1152;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942074.1;translation=MYCENIFYLNSNLEEIQKMRYEFRKLSEKYNYDFETIYYIELVIGEALANAMKYGVEFDKNKKIQFEIKLSEKDVMLIIRYNGNGVNQKTVDEHAVLKNPEQVEELGDNGRGIFLIHKIMDRVEYDNSKDEIEIKMYKVIKKRGTPEKEVPN;locus_tag=LOCUS_11520;note=WP_010942074.1 ATP-binding protein (Geobacter sulfurreducens) [pid:30.4%25%2C q_cov:88.2%25%2C s_cov:85.9%25%2C Eval:3.6e-11],MGA_1152
sequence1	MetaGeneAnnotator	CDS	1313091	1313777	.	-	0	ID=MGA_1153;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495145.1;translation=MSNSILKLENIKKEYKDKKFTVGVLHDLNLTVEEGDFISIMGKSGSGKSTLLNIIGILDVPTEGNVYYRKEIINNFTEKNRDEIRNKMLGFIFQFHYLLPEFTALENVMLPALINKKKSKEEVEAEAKKLLIDVDMGHRLNHKSSELSGGEKQRVAIARSLINEPALILADEPTGNLDDETSEHIYQLLKKINIEKKQTIVVVTHSRELGDITNKKYILKKGKLQLGG;locus_tag=LOCUS_11530;note=WP_029495145.1 ABC transporter ATP-binding protein (Fusobacterium hwasookii) [pid:53.8%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:3.3e-63],MGA_1153
sequence1	MetaGeneAnnotator	CDS	1313770	1314936	.	-	0	ID=MGA_1154;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016502.1;translation=MVELFIATKHIKERKKQSIISVIGIAIGMIVLLVSLGIASGLDENMIKNILSMTAHITLTNSESSISDYTEMEKKISSIKGVKSVAAVYDTQGIIKYEDVSGNYVSGISIKGISEEDAIKNLHFDKKIIKGHLKFDKLSSIIVGKELFNALGAKLGDKVKIISSENKELNLTIVGVFQSGFYDFDTSLVIIPLRTVQILSDSGDTTTSLEVKIKNIYAAKKIGEEIFNKTGLAYRTWSEKNRNLLRALSLEKMVMILVLSLIIIISGFVVGVILNTLVREKTKDIGVLRAIGYSKDNIMKIFLLEGLILGVVGIILGIVISGIILYILKTYSISFLSQIYYIDKLPVNISWREFAVVSGATFIIVLISSIFPAYKAANLKPVEALKYE;locus_tag=LOCUS_11540;note=WP_011016502.1 ABC transporter permease (Fusobacterium nucleatum) [pid:46.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-98],MGA_1154
sequence1	MetaGeneAnnotator	CDS	1315041	1316510	.	-	0	ID=MGA_1155;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005809769.1;translation=MPNQGKELNQVMKLKLQRIKELEEMGLEPYGRKYDKKNNIIDIMDMFEEEKEVVVKTAGRIMAYRRQGKASFGHVEDTTGKIQYYIRKDEVGEDAYEIYKKMAVGDFIGIEGILFKTHTGEITIRIQNFELLSKNMRPLPEKFHGLTDVETRYRQRYVDLIMNREVKETFLVRSKVINYIRKYLEKRNFLEVETPMLHPVAGGATAKPFITYHNTLDMELYLRIAPELYLKRLVVGGYERVFEINRNFRNEGMSTRHNPEFTMMELYQAYADYNDMMNLTEEMVSNLVKDMFGKESIEYEGVEINFGKAWKRITMIDAVKEYTGVDFNVIKTQEEAKKAAEELGIEIEEKMSYFKILNEIFEERVEKKLIQPTFITEYPKELSPLSKSKKDSDEFVDRFELFMYGREIGNAYSELNDPIEQKKRFMAQLSEREGGDDEAHMMDDDFVQALEYGMPPTGGLGIGIDRLVMLLTNASSIRDVIFFPHMRKK;locus_tag=LOCUS_11550;gene=lysS;EC_number=6.1.1.6;note=WP_005809769.1 lysine--tRNA ligase (Desulfitobacterium) [pid:56.5%25%2C q_cov:98.8%25%2C s_cov:99.0%25%2C Eval:1.9e-162],MGA_1155
sequence1	MetaGeneAnnotator	CDS	1316514	1317857	.	-	0	ID=MGA_1156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIKRIRLFIIFMLLIYSISFSEEKKNVADDIIIENPITVGDRLIIHNQNNEERDWSLIKKPIFSNLQFNLKKTKLNINLDIAGEYKIKSNDDLNNYKIKTVVANPVYDEKNLLEEFENGYKEKKLNLTIKIFEKTKNNFPNNINLKKEAEDIVKLSNEKEEYNILEKYSLFILENFKLSYEDEYYFLKNLYNSSLKIGDINIEGYSLKKLIFFDERYKKELGLYYLNNNIDKKKGIEILEGYYNIFLDKSIAEILGDYYLTIDEKKSIVYYKKSNLYKLSNIYLKNGEINKIKNIIENIPDDEKKDILSEIDNYKKDIKLKEYYKKAKKSLKKYNLSLAKIYYNKILLEVPKEELLKKIYFDLGQLNFLKKDYVASLKYFNKNIILKGEIKAPEELYNIAVIYYEEGNYEKSISEFDKLINLFPNTIWEVKANIYKIKFSNRKEN;locus_tag=LOCUS_11560;note=MGA_1156
sequence1	MetaGeneAnnotator	CDS	1317866	1318033	.	-	0	ID=MGA_1157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYVVKIYIPMNIFYKEIEIFADNMYVAKQIGNKIFKEEFEKSKKNDGNYIIEPR;locus_tag=LOCUS_11570;note=MGA_1157
sequence1	MetaGeneAnnotator	CDS	1318033	1318401	.	-	0	ID=MGA_1158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELRIKTFDGDGNNFDKVFDTKKQKFDKGIKYEYKDEFGSNIIYVIKNKKIQIKRKGKINSNQLIEKNKKTKFLYKTDYLNKEFLLETKDILIQDEMLEFEYHIYENENLINKIKVLIKEVN;locus_tag=LOCUS_11580;note=MGA_1158
sequence1	Aragorn:1.2.38	tRNA	1318446	1318521	.	-	.	ID=Aragorn_27;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_27
sequence1	MetaGeneAnnotator	CDS	1318555	1318950	.	-	0	ID=MGA_1159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAVGESFSYTIEEEEIEITIVGDIFIRGKEYIIGETDESEKIVFEYMDEEEEVKYIEDEEEKEKLISYWEEEYYGTIEEVNFWEDEYSDEEVISGNNEESYEEDYESKEIDEVEEEDLNSYIDTLIDESD;locus_tag=LOCUS_11590;note=MGA_1159
sequence1	MetaGeneAnnotator	CDS	1318961	1319428	.	-	0	ID=MGA_1160;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016410.1;translation=MNINLICVGKIKEKYLKDGILEYEKRLKLYVKTKIYEIKDIGNDQNRNLVKINEGKKIVEILNKLRGYTVLLDLDGKMFDSENFSKKIEKLQIQGNDTINFIIGGSYGVSEEVKKRVDLRLKFSDFTFPHQLMRLIFFEQLYRWFSILNNSKYHK;locus_tag=LOCUS_11600;note=WP_011016410.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Fusobacterium nucleatum) [pid:55.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-45],MGA_1160
sequence1	MetaGeneAnnotator	CDS	1319474	1320718	.	-	0	ID=MGA_1161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEKIFYEIDLTCPACGHNFKSTKTKTKIKETTPIGTEAYLVAIYQTETMNPMSYEIDVCPHCYYAGFHKDFIDKGNKRRHKLGIDFKEELQKLGKNTDFNVIYKNNELARMTYVLAAYIYSKENPIDYLKLGKCYIRTAWYSKELKEIDFYRTALKKALDTYMNAYNEIDEFSISTVLLYLIAVINMELGDYEGAAPFINKLNGDLKAKKLNAIKDKLEEQTIILRKVLKEIEVERKTMTDEEKKKDKKDRREAVRVKPYKVPFGIELRTPSVSGLGKREEKKTNKLEEDYGVKLTGKPTVLIVDDSKIVRASLKQILMKDCDIVGIATNGSEGVQMYQAFNPDFVTMDIEMPGMNGIEALQKIKKIDKDAKVIMLSSLKDSKKVYEAIKAGAMNYLLKPVNSQKILELIKKS;locus_tag=LOCUS_11610;note=WP_011023007.1 response regulator (Methanosarcina acetivorans) [pid:46.0%25%2C q_cov:27.1%25%2C s_cov:94.2%25%2C Eval:1.7e-20%2C partial hit],MGA_1161
sequence1	MetaGeneAnnotator	CDS	1320728	1322605	.	-	0	ID=MGA_1162;product=DNA mismatch repair endonuclease MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495553.1;translation=MENKIKILDESVSNIIAAGEVVENPAAMIKEFIENSLDAKATSIKIYIKNSGRYVKIVDNGIGMTKNDLFLCIERHATSKISNKDDIFNLSTYGFRGEALASIAAVSKLKISSKIGTEKVGNEISIYGGKIRNSKEVSKNMGTEIEVKDLFYNTPVRLKFLKSKQTEYGKIKDVAFKEALSNYNVSFELHIDEKRVLFTTGNGIENTILELLGKNILKNLKKFKYGYLGNMDILKNSKSYIFTFFNKRYAKSLLVEKAVLEGYYTKLIKGKFPVAIIFYEISPNKIDVNIHPSKKIVKFENEKEVFKDIKTAVEEAIGTNEEEMLPNVIFNNEERNDSAEYKESDLEKSNEPSKNSYNDNRYEVPKFEENKLFNSLARNEMRENVLIEKSVDNKIDLKGKIIDRVNIEKSYKNYEENTQKKEGFYGVKEPEKEYNKLERNYKLLGQLNNMYILIEKDNKLSIYDQHIVHERILYEELKEKFYNNKLYSRELLVPISVEVNIKEKEAIFENLENFKKIGFEIEEFGENEILIRNVPEFEFRESFQNIFFEILKSLMENSGVKDIREKIIISMSCKGAIKAGQILTREAMYELVDKLHKIGKYTCPHGRPIIINISFDELERKFRRK;locus_tag=LOCUS_11620;gene=mutL;note=WP_029495553.1 DNA mismatch repair endonuclease MutL (Fusobacterium hwasookii) [pid:46.5%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:6.4e-161],MGA_1162
sequence1	MetaGeneAnnotator	CDS	1322763	1323317	.	-	0	ID=MGA_1163;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583282.1;translation=MRTIADHIYDISYNSIKANSKDIILKIKLDKEKKEFIFYIKDNGEGIEKEKMDHIFDPFYTSRDKKIRKVGLGLPLLKQNTEITGGAVSFKSEKGVGTELKAMFKTDNIDILPLGDISGTIVGLITANVNIEWEFMFENENSKEKLTTQELKDILGEGIALNNIEVIPILKDIIGNILEGLGIV;locus_tag=LOCUS_11630;note=WP_012583282.1 ATP-binding protein (Dictyoglomus turgidum) [pid:41.1%25%2C q_cov:97.8%25%2C s_cov:99.4%25%2C Eval:3.0e-28],MGA_1163
sequence1	MetaGeneAnnotator	CDS	1323373	1324098	.	-	0	ID=MGA_1164;product=PHP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583280.1;translation=MKFYADLHIHSVLSPCADLLMTTNNIIDKLIENDIKIFSITDHNSNKNSKVFKMRANEKGLIFIPGIEIETVEGIHTLGYFKCLEDLENVTKVIYNHLPKIKNREDIYGYQLILDKEDEYVEKAEEFLSGSVDLGIEDVVKLIKNNNGLAVPAHIDRSNSIISNLGYIPELKFDGIEIYMKKKIDVLVNKLDIKYPIFSSSDSHFVNTIEKAKMYFEFEKLDIDIDDIFKAINKGEINIVR;locus_tag=LOCUS_11640;note=WP_012583280.1 PHP domain-containing protein (Dictyoglomus turgidum) [pid:36.2%25%2C q_cov:97.1%25%2C s_cov:95.6%25%2C Eval:2.2e-36],MGA_1164
sequence1	MetaGeneAnnotator	CDS	1324095	1324430	.	-	0	ID=MGA_1165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583278.1;translation=MPKLSEISEKIGLNSKFLCEDVNIKNGYCCDLLSEVMGKAKEGSIWVTVHNNMNVVAVASMLDLKAVIITEGHKANDEFLKKAKEESISVFETNKDSFDVVGKLFELGIKG;locus_tag=LOCUS_11650;note=WP_012583278.1 hypothetical protein (Dictyoglomus turgidum) [pid:48.2%25%2C q_cov:98.2%25%2C s_cov:94.8%25%2C Eval:1.1e-23],MGA_1165
sequence1	MetaGeneAnnotator	CDS	1324414	1325148	.	-	0	ID=MGA_1166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKINSILIVDDSKVIREILPKMLKDLEVENIYLASDGVEGLEEYKKNRPEVILIDVKMPNKNGFEMMDDINNLKSDNRESKIIIMTSSVDENIKIQAAVRGAKALLVKPFLKDELENAIKKVYYGNVDFLEEVRKQQIKNIITEYTTIKQDSGKLDEYIKNIGIIIMKIKDGKDIELFDMLKDNINTLNEKIEDEFVNIRLNLLKEKIEAVDLELVEFDDAFLEEWIYILNDIRKGVKNAKIK;locus_tag=LOCUS_11660;note=WP_012546622.1 response regulator (Thermodesulfovibrio) [pid:36.7%25%2C q_cov:48.0%25%2C s_cov:95.2%25%2C Eval:1.2e-13%2C partial hit],MGA_1166
sequence1	MetaGeneAnnotator	CDS	1325287	1326981	.	-	0	ID=MGA_1167;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015730.1;translation=MRFSKLFVHTLKETPKEAEVISHKLLLRAGMIKKLASGIYSYMPLGYRVLRKIEGIVREELDKAGAQEILMPVLQPAELWQESGRWDKMGDEMMRMTDRHNRNFVLGPTHEEVVTDIVRREVKSYKELPINLYQIQLKYRDERRPRFGLMRGREFFMKDGYSFHTDEDSLEKEYQNMHEAYNNIFSRCGLTFRAVEADSGNIGGDTTHEIMVLADSGEDEVLYCDKCEYAANIEKAESKFVAKENSEELKELEKVETPNKKSIEEVAEFLGVEKINTVKAMIFKTEEEFYMVLIRGDYEVNEVKLKNLLKVSEVTLANDAEIEKLNLHKGFLGPVGVKLKIIADETIKNMKNYVTGGNDIDNHYINTNHNKDYSVETFADIRIVKLGEKCPRCSDGVLNSARGIEVGQIFKLGTKYSEALKCNFINENGRQQPMLMGCYGIGVSRTMAAAVEQNYDESGIIWPISIAPYIVDVIPVNMKDKEQVEVAEKLYNNLKENGIEVAIDDRKERAGFKFKDADLIGFPVKVIVGKGIATGKVEVVNRKTGEKEDIEIEELLNYINKLIK;locus_tag=LOCUS_11670;EC_number=6.1.1.15;note=WP_011015730.1 proline--tRNA ligase (Fusobacterium nucleatum) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.2e-198],MGA_1167
sequence1	MetaGeneAnnotator	CDS	1327061	1327555	.	-	0	ID=MGA_1168;product=lytic transglycosylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080641.1;translation=MKKFFIISLLLVLILSLGVLYSKLKFPVKYINYVTEISEKYNVERISILALIKAESNFRETAISSKGAVGMMQLMPSTAKWIAKKRGIKFDINDLYKYKTNIEIGVIYYKYLYENLNGDFEKILAAYNAGISRIENEQWKKISETRKYVWKVKIYRFFYSLLFR;locus_tag=LOCUS_11680;note=WP_004080641.1 lytic transglycosylase domain-containing protein (Thermotoga maritima) [pid:36.0%25%2C q_cov:82.3%25%2C s_cov:85.1%25%2C Eval:9.0e-17],MGA_1168
sequence1	MetaGeneAnnotator	CDS	1327558	1328016	.	-	0	ID=MGA_1169;product=tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016664.1;translation=MNIVLLEPEIPYNTGNIGRSCVLTNTNLHLIKPLGFSIDDKHIKRAGLDYWKNVKLSIHDSLDELIAKYPNSNFYFATTKTEQKYCDVKYNSNDFIVFGKESKGIPEDILEKNKNNCITVPMLPIGRSLNLSNTAAIILYEALRQNNFNFGD;locus_tag=LOCUS_11690;gene=trmL;EC_number=2.1.1.207;note=WP_011016664.1 tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL (Fusobacterium nucleatum) [pid:67.3%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:2.2e-56],MGA_1169
sequence1	MetaGeneAnnotator	CDS	1328013	1328381	.	-	0	ID=MGA_1170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDTMRILKNNEIIFRSRKKWIYPLFDAEIFIEKFNLNTEEIEIEDKIIGKAAAAFIIKMNVKKIYAHLLSELAKELLEKYNIEYKYDKIVKRINCKTEELFNKEDDVEKIVKILKERVKEN;locus_tag=LOCUS_11700;note=MGA_1170
sequence1	MetaGeneAnnotator	CDS	1328432	1330099	.	-	0	ID=MGA_1171;product=AarF/UbiB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941749.1;translation=MIGLRRKVEYFRRYRHILSVLFKYGFGHVVEKLNVEYYIESGKKILKIKSKEGKEQKLKGAERLKLAFEELGPTFIKFGQILSTRPDLIPMDYIEQLKELQDKIEPIEFGEIEEILNLNYGEDYKKVFKKVEKEVLGSASIGQVHKALLNDGTEVVIKVKKPDTDHIVELDISILYNIAVIIEKKIPELAYYNPVKLVNEFSKSIKKEMDFTLEGKNNDIIRMNFKKFKNFKVPKIYWDYTNEDILVMEFVKGKKLYDVLDGNLENGEFLAKLGANIFLKQILEDGFFHADPHPGNIFLVGKDTIVFIDYGMVGTLDEEAQENMAEILEGIVLKDIVKILNAFKNFDTLPDDLNERALKSEMRELLEKYYNTSLKNINIGKLIYEMSNIVIKYKIYVPADFFLMGKTLMTIDGIGRALYPDFDMIEVAKPFVKKLLIRKLSPERVGKKMLKSIKNYDNFFEGFPINMGVLFEKLKKDKIGIEIKSKDVKEFNATIDKTINKLSTSIIIAAIIIGSSMLIQSRTGFSIHGYSILGISGFVIAGFFGMVLVIDTFKS;locus_tag=LOCUS_11710;note=WP_010941749.1 AarF/UbiB family protein (Geobacter sulfurreducens) [pid:35.0%25%2C q_cov:99.5%25%2C s_cov:98.4%25%2C Eval:6.9e-103],MGA_1171
sequence1	MetaGeneAnnotator	CDS	1330113	1330673	.	-	0	ID=MGA_1172;product=crossover junction endodeoxyribonuclease RuvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902123.1;translation=MIVLGIDPGTAIVGYGVIEFENNKFKVLDYGCIFTSKDDEMPKRLNKIYDELETIIKLYKPDSIAIEELFYFKNSKTVISVGQARGVIVLCCERNNIESYGYTPLQVKMGVCGYGRADKKQIQEIVKKLLGLREIPKPDDAADALAIAIVHINSKNSRMESVKSNNKIPKIKSSKMTAQEYRKLLK;locus_tag=LOCUS_11720;gene=ruvC;EC_number=3.1.21.10;note=WP_005902123.1 crossover junction endodeoxyribonuclease RuvC (Fusobacterium nucleatum) [pid:55.0%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:4.2e-54],MGA_1172
sequence1	MetaGeneAnnotator	CDS	1330674	1332800	.	-	0	ID=MGA_1173;product=glycogen debranching protein GlgX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680950.1;translation=MAKTKKGKPILGSTVEGFGTNFAIFSRNAISVTLEIYEEFYSEEPLFKIELDKNINKTGDIWHIFVEDVFHGMFYGWRVGGVYLPKEGQRFNANKLLIDPYAKSIAGTIDCNLECIYGYEKENRRRDLSFSNLDSKYSQVKSVIVEDSIYNWENDIHPRIPLKETIIYEMHVRLFTMNKNSKVKNRGTFDGIVEKLSYLKDLGVTAIELLPIFEFSVNSIINTDPKTGERLKDIWGYNPLNFFAVTGNYSYGLKLGEQVFQFKDFVKAVHKAGLEVILDVVYNHTGEGNEFGPTISFKGIDNNVYYVLEDNKRYYSNYSGTGNTLNCSHAVVKEMVIDSLRYWVTEMHVDGFRFDLAAILGRGANGEWIGDLSLLKDIADDPIISGSKLIAEGWDAAGGYYVGEFPVGWAEWNGKFRDTVRKFIKGENGQVGDLATRIVGSPDLFEKYGRKPYHSINFITAHDGFTMWDLVSYNEKHNLNNGEENRDGANDNNSWNHGVEGETKDKKIIKLRKQQIKNFVVIMTVSQGIPMLLMGDEFCRTQNGNNNAYCQDNKMTWLDWDKKEEFKDVYRFFKKMIEFRKNHPSFKREAFFKGKDFSGDDIPDITWHGAKLNEPDWSNESHSLAFMISGKDFSGEIENDNNIYVALNSYWEDIEFEIPKMKNTKWYLVVDSSKKMGEDFLDNPKEIKAKTYKVKARSSIILISRMNY;locus_tag=LOCUS_11730;gene=glgX;note=WP_002680950.1 glycogen debranching protein GlgX (Treponema denticola) [pid:44.7%25%2C q_cov:98.2%25%2C s_cov:97.8%25%2C Eval:3.9e-178],MGA_1173
sequence1	MetaGeneAnnotator	CDS	1332787	1333146	.	-	0	ID=MGA_1174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRELILNKVYNIMKKTGKNFLKLILKIDEKITFEKYKREREKRKKIGSKYKNVEKKVVLEKIKVQELQKIVENQRAQIKNCKSNNEKLKYKLKIVENELKEEKEKNESIIEGMGNNGEN;locus_tag=LOCUS_11740;note=MGA_1174
sequence1	MetaGeneAnnotator	CDS	1333449	1334168	.	-	0	ID=MGA_1175;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003102782.1;translation=MKKIIILFSFIILFTNSFSEKTIVFATDEWAPYHGSSLKNQGILSEIVKEALKEEGYGCEIKFMPWKRALALVKKGIYDAVLGGYYSAKRGEDYLFTDKIIDITVSFFSYKNIKYNTLKDLKGYKIGVVSGYFYTEEFEKSNLKKMKVSMPKNLIKIYTAGIVDVIAAENRVFKYYMRGLKNNRYKNKIGELSSDSFYLLFTKKNKDSERMVKDFNAGLKKIRKNGKFDEILKRFEKSN;locus_tag=LOCUS_11750;note=WP_003102782.1 transporter substrate-binding domain-containing protein (Pseudomonas) [pid:27.3%25%2C q_cov:92.9%25%2C s_cov:77.4%25%2C Eval:1.1e-19],MGA_1175
sequence1	MetaGeneAnnotator	CDS	1334299	1335018	.	-	0	ID=MGA_1176;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011707741.1;translation=MKKIIILFSFIILFTNSFSEKTIVLATDEWEPYYGNSLKNQGILSEIVREALKEEGYNCEIKFMPWKRVLALVKEGIYDAVLGGYYSVKREEDYLFTDKILDVTVSFFSYKNIKYNTLKDLKGYKIGVVSGYFYTEEFEKSNLKKIKVSMAKNLIKIYKAGIVDVIAVENRVFKYYMRGLKNNRYKNKIGELSTNSLHLLFTKKNKDSEKMVKDFNAGLKKIRKNGKFDEILKRFEKSN;locus_tag=LOCUS_11760;note=WP_011707741.1 transporter substrate-binding domain-containing protein (Aeromonas hydrophila) [pid:26.6%25%2C q_cov:89.5%25%2C s_cov:89.6%25%2C Eval:4.8e-15],MGA_1176
sequence1	MetaGeneAnnotator	CDS	1335301	1336140	.	-	0	ID=MGA_1177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELSLKKGIKLKDKYEVKERIAGTDISNIYLCVELKTDKMFVIKEMFVKGCFRDLDNKTVVNKNKGILEEAKESYRKEGKVLKEISHKNIVKFKEIFEENNTVYIVTKYYKGLDYERYIQARKINIKKEICKNIYPILDAIEYLHKKKYIHRDIKPNNIIITKDGPILLDFGAVSHINSKNKRINISNGFSPIEFYEDDTKQGYYSDVYSIAATIYYMLNKKIPILAKNRVVEDELFLEKRKDKVELLDKIILKNMDLDYKKRAKNIKVLRKELKLIMR;locus_tag=LOCUS_11770;note=WP_027480135.1 right-handed parallel beta-helix repeat-containing protein (Deinococcus radiodurans) [pid:27.0%25%2C q_cov:78.5%25%2C s_cov:22.8%25%2C Eval:5.7e-21%2C partial hit],MGA_1177
sequence1	MetaGeneAnnotator	CDS	1336149	1338368	.	-	0	ID=MGA_1178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKENSKFITKFVTNEGSKKSNRDYFAYVELDDYGCWLLADGLDTDEEKLSAEIVAGSIIEDFTENPKMSKKTLKRYLKTANEMLLKETRINLLKASIVVIISDYHSIIYGSIGNTRLYHYRKDNLLYRTKDHSVAELMLKLGKVEKNNINQNIEKNNLYEYLGKKKQLKMNISNKKIELKEGDMLLLATVGYWENMKDIEIGDILKASEDVESFVMNLENMMLEKENPHLNNYTIVSISIQKIFIENVKKSIVNTKTIVAASLVIVLIVGVLLFRNHLNKIKIAKSKMQQMKISKLKAEKLKLEKLKAEKLKLEKLKAKKLKLEQLKSEKLKEKEVEFQKTKDVEKNGDDSLLKKDYVTAKENYNEALAVYTQLDKKEDEDRVKGKIKTTEKLEKSDKLLLIANSYYESGDYINAKLNYIKAKELLDGIEGADSKSIDNSIFNVETMSKAKDLEKVGDIYFSNENYDKSIEKYGLAKEHFLKVKKYDTKEITSKLEKSKILNNAKQDENAGEELYNNQKYIKSIEKFELAKESYKKAKSKEKENKMKDKLEKIKRILTAINLESEGDQLKTGEDLAGSKSKYEESKAIYKEVGLNLKEKDVNDKLVLVNLSLLKQAKIKDAESIESDGDSSLGAKDFDGAKEKYEKAKKTYQEVQKYEEAGKLDIKLKKVEEEREYFKANSYKELADTFFKQKKYDDAIANYEIAKNSYLSLEKTKEYMEMEKSIKDAKKKKKILGIF;locus_tag=LOCUS_11780;note=MGA_1178
sequence1	MetaGeneAnnotator	CDS	1338420	1343303	.	-	0	ID=MGA_1179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENINNSTKITDKELLVFSNLTNLDWQFTELMKINKDGSKSFFKLKDLLTPKSFIRFDDKNQEDWKYIYIPNAYNKSIEELTEKDTSIGYENMRRKAGLGMECIEDISGKGKELKGWEVIYGGDQYKVISDFKDSLYDGMCEMVGKDNKSNRPKLYPTREEIEKTKEKQAKLKIAMTVVDVASNLIPIGVNLKFAEEGVESGFKLLEKSVKKDILEGSEKAILSLVPTGSQIKDISTAINKGGGKNWALSAVSTGGLLGKNIGGVKDKKLVGRLEKELTEKEYKELKEKEKSGTQEISLIRKFNMSNTDFKVLVLKKEKEIVIAYKGSKNDEKEILPDEMDVLQLVYSKIKYENKDSNIRFVGLNEGGDLSGLSGLLYGEKGAVFYSKDSNIKDYVEFTYDDIDKKYKNAGEITVETVKNISIGVAYELIGGVLLGTGVLPGLIALGIGAAIGVLFNLLKDSNYKRVYNGLKEIGYITEKGDVIGEVAENRLEIEDKDGKKIKLKESDFIYLLKETSGEILNKERVEINKKKDNSEAILDCNMKNYKLENIGEGYKIKSKNLILYNTLISSGGYSITPGVYSTNFSNEIIIIYNELLSKWEKEELNKKEKKEFEEFYNTISNVEKNYFVNLLQIIKNIQDNYKINKNLIEYIYKTKSNKLKKSSNYPEEVLKEYSFECKFATYLNEEGELVEEYSDDYIVNLLLSDFLSSKIKMSKSNYRGYDELEWKFDDNKINKLKEEILKLDITLDEFGNSEDLKSYLLKELNPFDKKEIGNRLDNIDISKYYKVKNIGFDKVEIQFKFSDRKDIFGKYIVGKLIGLDFSIKVSIAEGYNNYNQLKGSYEDKKESSGEISILSNTNNRKSFNEEKMTEYIKIDEFELGTDIKNQIEIEDFLEELELKSEKAIETIIKENKKSYKDRIKKLSKDGKIYIEIQRKEDKILSVIYVYKISSFFGHFKNPTVTIYYGEFGEEWNILEIEEYKRKDYGIDLLDKNIILGSIKKEKNIDEKGYEFKIMPISTYEYSKEDKWQQECIYLKYNNGNKERLGENISYVKEDGEKYYYEDKKKNSYIYDLENSELEIVYGKNYGEKLLIKEFRNEDYGIDLGVGYGVLFGSKDRTGMSSNKGIKYNIVNGAPLIVNMNTLGKGMVIIDKKDISEDEIKSEESFVKSKLKTEDTQLLMKLCKKGLRYQLLADKAGRIYLYDLGDDKLTILIRKDVKDTSVKLYEEKLIIRDFYKIEIWNYKNGDYNISLPIELEERYGHRAKEVYEVKKGDTLYEISEKYLGLGSKWRKLLNKKGQSFTKDEAKRLQIGTKVYIPYKLGENIGFTKIDIDGKGVGKDIDFADEINRYLYKDRDGNIFEKLPLYRKVLIKSSKEANKIIKIDNFKEGNHGIWLELEPPYILKNGKISNGVREEELSKVKEIEENSYIKLDERIENGFLFIQSDELLSLKTKAENEKEEEEKEKAEEAVAENEKSESKKRERKKDKDGSSSSGASQSLMGIKYVCQGAKLKCPFGSSSGSLTVMQNMKVTIGGQLVATMMDNKPMANISPFGQCKSMANPQVAAATAAANGKLQPMPCIPQVVAPWSNPHQKVTIGYIPVLTDKSMCSCMWAGMITISKPGQEKVKG;locus_tag=LOCUS_11790;note=WP_003089513.1 DUF4280 domain-containing protein (Pseudomonas) [pid:40.8%25%2C q_cov:7.6%25%2C s_cov:95.4%25%2C Eval:1.2e-18%2C partial hit],MGA_1179
sequence1	MetaGeneAnnotator	CDS	1343330	1344406	.	-	0	ID=MGA_1180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEKQARGIVLAIIVLVMVYLVPKLIGVQGGGKAEKVRKQIEESLLKKYGEEFIVDRIGIRKAYKDKFYQARIYPKSKLKNGIRDKYYEGSASVDIGTFGILDNEAGDSYWIQKMNDSAEEYLIQKVKKIFGNRVRLKVDVKYKKKADVPNNNFYVGKKKYDFKKAIQDEKNDKKDLIHLEVTLYIYIFDKINNEEEKEKRREEIFKYINYLKEEGLFKYLEMGVIFIDERVLAPSYRKYKREIFIMPDEKVKVEGETVYLPPMKLRKEMSEVLGEEVKKMSEKELIKRMNMISKGELDPFDTGNFKYSLNYISLILSIERLKLRGEYEEEKENNKLEDYKYLKKQNIKLIKYKNYIY;locus_tag=LOCUS_11800;note=MGA_1180
sequence1	MetaGeneAnnotator	CDS	1344961	1347780	.	-	0	ID=MGA_1181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNETTNNKITDKELLVFSNLANLDWQFVNLKDSTVKIKNNGKNKLKDLLTPKSFIRKNEKGEFEKYIYMPGVKDENSITDKDKIQGKTAMRKRSGLGMECIEDISGKGKELKDWEVIYGADQYKVISNFKDSLYDGMCELTGKDSKSNRPKLYPTREEIEKSKEKQAKLKIAMTVVDVASNLIPIGVNLKFAEEGVESGFKLLEKSVKKDILDGSEKAILSLIPTGSQVKDISTAVNKGGGKNWALSAVSTGGLLGKNIGGVKDKKLVGELEKELTEKEYKELREKEKSGTQEISLIRKFNMSNTDFKVLVLKKEQEIVIAYKGSKNSKKEILPDEMDVLQLLYSKIKFENKDSNIRFVGLNEGGDLSGLSGLLYGEKGAVFYSKDSNIKDYVEFTYDDIDKKYKNAGEITVETVKNISIGVAYELIGGVLLGTGVLPGLIALGIGAAIGVLFQFLKDSNYKRVYNGLKEIGYITEKGDVIGEVAENRLEIEDKDGNRIKVKESDFIYLLKETSGEILNEERVEINKKKDNSEAILDCNMKNYKLENIGEGYKIKSKNLILYNTLISSGGYSITPGVYSTNFSNEIIIIYNELLSKWEKEELNKKEKKEFEEFYNTISNVEKNYFVNLLQIIKNIQDNYKINKNLIEYIYKTKSNKLKKSSNYPEEVLKEYSFECKFATYLNEEGELVEEYSYDYIVNLLLSDFLSSKIKMSKSNYRGYDELEWKFDDNKIKKLKEEILKLDITLGELSNSEDLKSYLLKELNTFDKKEIGNRLDNIDISKYYKVKNIGFDKVEIQFKFSDRKDIFGKYTVGKLIGLDFSIKVSIAEGYNNYNQLKGSYEDKKESSGEISILSNTNNRKSFNEDKMTEYIKIDEFELGTDIKNQIEIEEYKRKDYGIDLLDKNIILGSIKKERNIDEKGYEFKIMPISTYDTPLLMVS;locus_tag=LOCUS_11810;note=MGA_1181
sequence1	MetaGeneAnnotator	CDS	1347798	1348865	.	-	0	ID=MGA_1182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEKQARGIVLAIIVLVMVYLVPKFIGVQGGGKAEKVRKQIEKSLLKKYGEEFIVDRIGIRKAYKDKFYQARIYPKSKLKNGIRDKYYEGSASVDIGLFGMLDKESGDDYSYINRNDDTEKYLLPKVKEIFGNRVRLKVDVAHEVTGDGSWWAGYKSKSLKEVRDRIKKDPKHNRILLTLYIYIFDKIDNEEEKEKRRKEIYEMINYLKEEGLFKYLEMGVIFIDERVLAPSYRKYKREIFITPDEKVKVEGETVYLPPMKLREEMSNKLGAEVKKMSEEDLIKRMNSIIKGSLSHKGINKYNAQYISEVYSEGKVKVRYSSWLDNGYKLKKYDKLKDIGYERVLDYIYVNNNKK;locus_tag=LOCUS_11820;note=MGA_1182
sequence1	MetaGeneAnnotator	CDS	1349418	1349639	.	-	0	ID=MGA_1183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEYIKIDEFELGTDIKNQIEIEEYKRKDYGIDLLNENIILGSIKKERNIDEKGYEFKIMPISTYDTPLLMVS;locus_tag=LOCUS_11830;note=MGA_1183
sequence1	MetaGeneAnnotator	CDS	1349847	1350047	.	-	0	ID=MGA_1184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKRVIELKKEDFEEVVENFKNWLLSQKFKIRGEEKVENGILLKIKTKLWTMVSYRVNVEFYKVEL;locus_tag=LOCUS_11840;note=MGA_1184
sequence1	MetaGeneAnnotator	CDS	1350172	1350327	.	-	0	ID=MGA_1185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKFDWSRVIIFSLIILVALILNLNGIKKDEIKSGKITIKSTLETASIKK;locus_tag=LOCUS_11850;note=MGA_1185
sequence1	MetaGeneAnnotator	CDS	1350351	1351175	.	-	0	ID=MGA_1186;product=Stp1/IreP family PP2C-type Ser/Thr phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392426.1;translation=MFKINQLIYFLFTLIISISILIIYFRNRKSKLKILVGSSQILGERNEQEDNYSVINSDNGLLAVLADGMGGFLNGKLASKIAVETFLEEFVKVYNLQNIGQFFINTSYIANDKLLKVSMDSKMGTTLVSCYMYNNKLYWVSIGDSHIYLYRNKEINLLNNVHTYSKVLLSRYKAGEISRSEYFSNSKRERLTSYLGYKNFHEIDYNENGIELLKGDKVILCSDGVYKSLTEEEILNYVSKKINPEIVTEEIMLEIEDKRISGQDNATIIMVEKR;locus_tag=LOCUS_11860;note=WP_011392426.1 Stp1/IreP family PP2C-type Ser/Thr phosphatase (Moorella thermoacetica) [pid:28.9%25%2C q_cov:80.7%25%2C s_cov:91.5%25%2C Eval:2.1e-20],MGA_1186
sequence1	MetaGeneAnnotator	CDS	1351390	1351932	.	-	0	ID=MGA_1187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMKKCDNGHLFNSEKFEECPYCSETAPVAKKSKEKSRPERAVRQKENNDMRTQAIWSDEGTEDYVVGWLTCIEGPDKGNDYQIKSEKNFIGRSEEMHIQIQGDSAISRRNHAIISYNPKERNFILIPGEGRGIIYKSTEAIYTPTELNGYDVIEMGKSKFIFVPLCGDYFEWENVGENI;locus_tag=LOCUS_11870;note=MGA_1187
sequence1	MetaGeneAnnotator	CDS	1351954	1352562	.	-	0	ID=MGA_1188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRRIKEYFILKKIEKHANENIIKSKKLKKTKKLKKIKIIDIVYMLVGLSVIYLNILYKNIMALGVTIVGYILLIVISKLILKKSNKKVKSKIKSIYLLDESGKKTKKWDLEGKISLLIGKNTSEENVDIDLSEEKYSSLVSRQHGVMNYTNSCWYFEDIGSSNGSGLKKGEEERYKIYPGELHKVETGDIIYLANTKLLLK;locus_tag=LOCUS_11880;note=WP_164929613.1 FHA domain-containing protein (Gloeobacter violaceus) [pid:43.1%25%2C q_cov:33.2%25%2C s_cov:37.9%25%2C Eval:3.5e-07%2C partial hit],MGA_1188
sequence1	MetaGeneAnnotator	CDS	1352706	1353143	.	-	0	ID=MGA_1189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNHYKTLGVEKTSELTEIKKAYRKLAMKYHPDRNGNNEKAKEIFFRVQKAYEILSDEKKRKEYNRILEGGSKKNESVNNKSTKQRKRNTGNQGFNMDDFSKNFENFFGFNPDTGDKKASRKKDDVRKVNTNDMFDNFFNGAFKK;locus_tag=LOCUS_11890;note=WP_004454751.1 molecular chaperone DnaJ (Clostridioides difficile) [pid:37.7%25%2C q_cov:86.9%25%2C s_cov:32.3%25%2C Eval:2.3e-17%2C partial hit],MGA_1189
sequence1	MetaGeneAnnotator	CDS	1353155	1353961	.	-	0	ID=MGA_1190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLKYPEFKKGRILKKEMLEELRDYPREMFEIYFSDYSDGIIVGFEIKVKDEELIISPGILKINKGILYLKKEEKISYEKTNKEMQIKLVLEEKTEDKDYGYLNGEVVIEELKEKSKNKDEIKERDENKNEIELGRYKLREGALLRDSYENLMDYSVEYNMLNIINVKYSTISGNSLKKEILDKFGDVLVRKGEQSIDISFGMNILNGKEVSRKAINVYLERKLKKKIDELENIDIYNHLLKISKNIGKEERVEKTGRRRATRIIVE;locus_tag=LOCUS_11900;note=MGA_1190
sequence1	MetaGeneAnnotator	CDS	1353990	1356575	.	-	0	ID=MGA_1191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGRYTKRELIKMTVYELQKICNREKLVKGYTKFNDRESLINIILRYRGLEERLFINNLSYENYFKLQEYFLECESTKLKDINVEVPAKIQLYKGLGVTVNDNYRIKSSGLEEGNALVVDPKNKYIYGVFNLVRVENRKDEFYLLGDKSLFRFNEVWKKSYEIIFLNKKSSDYLYKVVNEENELSLMALEYNNVIIPEIEIRELEKTSSVLCIDFGTSNTALGVYLDENYIESLPSNLILNNQIKLNDINFVKFKDVSREKEKIVEIVPSLIYVRNILSDGVEYLYGYEAQKRIKSKDYITMATTFREIKRWVGNYNKEEEIQDENSNILKVKRGEIIRSFLKYVINEAESQFKCRFKNLHLTTPVKLSNQYIKMFKELLYDYEIEEKETLNEGMAVLYNTIFSQISKNNFDDDEEYKGLVIDSGGGTTDLSSCSYRINEGEISYNVSIKTGFENGDTNFGGNNITYRIMQFMKIILSNYYKEEKLLTIDDLISYSEGDIFRVIDDCGINKVYEKLEDEYIKAENIVPTRYREYENRTLDEYKKVKNNFYFLWELSEMMKKDFFQKTNILRNKFESISQDEKESDMQITQLNRWNLSVARKERLELIEEFPEVIFNVKEIIKLIKGDIYEVIRKFLEPYYENKELTEYSIIKLSGQSSKIDIFKEAIKEFVPGRSIEFKQKNNENSFELKLACLRGVINYINNKRNGRIVMEIRNDIPVVPYSIVSHTFTGEEKELFEGQRRLDKLTGYISRPISAREIKFYLKDIEGKVKRQYIYKNDLSGLEAIKVEELEEKYKGYINQEDTDNMKNGEIRYFIVSEEESWGFYVVPIIRKEEQLYINRSKFFDFDYEIDEYDFFNGLK;locus_tag=LOCUS_11910;note=MGA_1191
sequence1	MetaGeneAnnotator	CDS	1356626	1357333	.	-	0	ID=MGA_1192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDEMNKTIGEILIKNNKKGIKNEDVKFKLAKTYSPYIEVNNQDINRVPYKKIEVNPYYRFAGIFSEMLHPESKWVQERKEITEEILDYSIYFLGELDRDSGMYHETLLINLLIEELINGRWGEEIANKFKKLKRSEMQELAYNLYRYYSSYDNIYFFRKSVRDIIANSLIYKKEEENGYLLYIGSKWSEEKENKLELIKELFLSLKEKIEVYWEHHFGIIEEKTTLKIDRIALY;locus_tag=LOCUS_11920;note=MGA_1192
sequence1	MetaGeneAnnotator	CDS	1357326	1358603	.	-	0	ID=MGA_1193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKEMKERAENRIKEMTSISDQEIFKSLLGNYFKELMVEQMKFNENLMERVLKGVENKNWGYDIYCTILKKEELTLYDDILIPILAEDLSENILPLKLLSDYIKRKEKFVIGQIYIDLKFHEIKKVCEKEFIGEIHNVNGESYRVKIKLEQNRKYKEEEKELYEGFILSGTKWKTIINPYSKRFFYVKVEGYLDEIPEDAEIERLTYNLEEYEGLKKEGYICVWNVCKTEIRSQGFPIKLSHNIGYQLDVPLEGINTNGYILTGDNKSIINISRDENKLMVRATREDIKKWDSYEIRDCSRIKKEKLVENLYGNNKLRDVVEYYMKDSLGVIRTKGEINRFINSFEESKAIKLKNVRIEEYIEGENDMEVENDYILDEIRGDEKSNILKFEFEKVNESQHTEDIIAFLMSEVRLYFPEYICVSE;locus_tag=LOCUS_11930;note=MGA_1193
sequence1	MetaGeneAnnotator	CDS	1358621	1362385	.	-	0	ID=MGA_1194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERGNVKDLEFLVLADLAYERYEKKDNNNPLKDILLKKEFNNSERQQRWNYFSERMEDWKLLEGFNLDEYKNKYKEEYESSFGGKKEGSKEFKNIELQYKQFYAAAFEKDDEIVIAYRGTDGENGKYDSHKDFKIFFGLIDLGDRDFIMEHYLTNGKIVAGIPGIQFKLAVDFYKDIVNNDDYKDKTISVTGHSLGGGLAQYVSVMEGVKRGVAWNGVGIKDFLKFSGNEFLGGAQGVKDFILDVTHLKEIEDEIRKSLVNSNILEEEKKGEIIKITDKYLDELFNENKQNDSLKLANQQLHKMVNESNRKRNISSYDINSDNSFEGIIKHSIFQVLLNYEMRKLKAQKKGEIEIFSIPISKNWEIKFQIGVKKEEKEFINNFYEEEITSNEINEIWEKIKKHIDSKFTLEIAKRKMEFINSYKKKGLNLSMVTYSISRDLTGTMLKHIGECVLVDNGLVDNNIGLQKKELVATLKAIKKNHLDAGAYHGLTMFYPHIKLDDVSKLEKTVYRRTEQEDITSMLNKDYLGSAIKYILEKLGIDNNEEIKNELFYNTYEEIAGWRGFVNSLTKLDKGNKEKIEEYIKNTKHSENIIKDIESYKLKDLVGLEMKKGEVKLKLGFEEDEKKVIIYNEKLGIDTKEKEITLKIIEPSKYLLNIEREKPNNDYELYSSLGYKDKYYNIRNIGKNSKVTADGKDISGTYKGKDKEESLVKDKINRDTGCKYYGDNIILIDRNLRYYYGDNLDDYLTISNYMEGYLGIDLVEKPKEKKEDLGKGFMDYQVKIKGIKYVNLLNLEIIKEVNEHTVAEIEGIIAGEDTDEVTRFLNVETQGIEILYGDDNKPIFRGLIYEHSMEIEQNSCKVKIKSYSLSKELEKEKRNRVYHNLGTKYEDVISKLNETYQNKYSFGFNSHIDKQELITELNPVEVQYKESDWDFLKRILRRESDLIIVDDSKGKNPKTVAGIAIGEFGSSQKTIDNKNLLLSRKMKKGAIENSYKLKGYPQIKGEELFSIGNPYNLNIDVNTGKQDSLLLIKNRIYKEDAVLKSDLVFVRRDEFNIGKVKREESITGLTLKGTIKKVSKQHKAQIEYTEMENEYDESKSYYYPIERMYTGTYFTPEEDTLVEVHFGDEAGEVSIRNVSSKTEDIDNDPDIKVIRTSFGKEIRFDSKSIKITGKDDESYVEITEESVNLKKGEKEVVLKGGKIEIKNKDRQIVMDEKKVDITSGESTVTMADGKLSLNNGGVGIEIGNGKINLG;locus_tag=LOCUS_11940;note=MGA_1194
sequence1	MetaGeneAnnotator	CDS	1362406	1363245	.	-	0	ID=MGA_1195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKIIIFLILILGILGCKSIDITNSKKKLALEETRIRALVMNELEGRYDEKFEIRRIRYDKRRDKWKLEVYPLENNIDDETFVAYVKKDPKERVIENYPSIKEANLTTIYYRPIIKKIFKEKKLYFWGNMGIHIYDEKRDSLKILKRKKFDFFFNNISNKMHVNIQILIFEDVTSTEAKKEAFIKEVWELFKYLKSQNLEWASIRIKIYDKEFFRDKDIDHILKVSNWFSRGISEFDVFKYRRKQKYSIWVEEKEYYQIKSLDDMKKQFTVMKKYYQK;locus_tag=LOCUS_11950;note=MGA_1195
sequence1	MetaGeneAnnotator	CDS	1363321	1364022	.	-	0	ID=MGA_1196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERENVKDLEFLVLADLAYERYEKIKDIRPLKEVLSIHHFNDTTETGKSERQQRWNYFSERMEGWKLLEGFDLDEYKNKYKEEYESSFGEKKEGSKEFKNIELQYKQFYAAAFEKDDEIVIAYRGTDGENGKYDSHKDFKIFFGLIDLGDRDFIMEHYLTNGKIVAGIPGIQFKLAVDFYKDIVNNDDYKDKTISVTGHSLGGGLAQYVSVMEGVKRGVAWNGVGIKDFLKIN;locus_tag=LOCUS_11960;note=MGA_1196
sequence1	MetaGeneAnnotator	CDS	1364043	1364876	.	-	0	ID=MGA_1197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIIIFLILILGILGCKSIDITNSKKKLALKETRIRALVMNELEGRYNEKFEIRRTLYDKGRDKWKLEIYPLENNIDDETFVAYVKYGKVVIENYSSIKKANLTTIYYRPIIKKIFKEKKLYFWANMGISIYDERREKLKILKRKKFDSFFKTIPNKMFVNIFIYIFGDVTSTEAKKEAFIKEVWELFKYLKSQNLKWASITVNIYDEDFFKDKDIDHILKVSNWFSRGTSEFDVFKYRRKKKWVIWIEEKDYKQIKTIDGIRKKLLYEEGYYQK;locus_tag=LOCUS_11970;note=MGA_1197
sequence1	MetaGeneAnnotator	CDS	1364948	1365607	.	-	0	ID=MGA_1198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERGNVKDLEFLVLADLAYERYEKIKDIRPLKEVLSSHHFNDTTESGKSERHQRWNYFRERMEGWKLLEAYDPDDYKKEWLLKSEDIELQYKQFYAAAFEKDDEIVIAYRGTDGENGKYDSHKDFKIFFGLIDLGDRDFIMEHYLTNGKIVAGIPGIQFKLAVDFYKDIVKDRKNKDKTIFVTGHSLGGGLAQYVSVMEGVKRGVAWNGVGIKDFLKFN;locus_tag=LOCUS_11980;note=MGA_1198
sequence1	MetaGeneAnnotator	CDS	1365628	1366452	.	-	0	ID=MGA_1199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKIIILLILILGILGCKSIDLTSGKKKLALEEIRIKSLVMNELEERYDEKFEIRRIRYDKRRGKWKLEVYPLENNIDDETFIAYVKKDPKERVIANYYSMKISNLTTMYYRPIIKKIFREKKVYYWTGLGNDTNKSLKRIKNINKIIKEVPEKLSFHMEMLIFEDVVSTKEKKEAFIKEVWELFKYLKSQKLEWASITVNIYDEDFFKDKDTDHILKVSNCFSRGTSEFDVFKYRRKKIYVLYIEEKDYKNIENIKEVKNKLRKLDWSLIKK;locus_tag=LOCUS_11990;note=MGA_1199
sequence1	MetaGeneAnnotator	CDS	1366527	1367222	.	-	0	ID=MGA_1200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERGNVKDLEFLVLADLAYERYIDDDEGYNLEKVLKKHHFNDTTETGKSERQQRWNYFSERMEGWKLLEGFDLDEYKNKYKEEYESSFGEKKEGSKEFKNIELQYKQFYAAAFEKDDEIVIAYRGTDGENGKYDSHKDFKIFFGLIDLGDRDFIMEHYLTNGKIVAGIPGIQFKLAVDFYNKILTKNTESNISVTGHSLGGGLAQYVSVMEGVKRGVAWNGVGIKDFLKFN;locus_tag=LOCUS_12000;note=MGA_1200
sequence1	MetaGeneAnnotator	CDS	1367225	1368037	.	-	0	ID=MGA_1201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKIIIFLILILGVLGCKSIDITNSKKKLALEETRIRALVMNELETRYDEKFEIRRTLYDKRRDKWKLEIYPLENNINDETFIAYVKYGKIVLEDYYFMKVTDLATIYYKSTVNKIFKEKKIYYLSSIGSYAKEKLDKKKKIYDILKKYSKESFITFKILIFEDVTSTEEKKEAFIKEVWELFKYLKSQNLKWASITINIYDEDFFKDKDTDHILKVSNWFSRGTSEFDVFKYRDKMIYNLIIWEQDYKRIKTLSDIRNELYKIEEESE;locus_tag=LOCUS_12010;note=MGA_1201
sequence1	MetaGeneAnnotator	CDS	1368112	1368753	.	-	0	ID=MGA_1202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERGNVKDLEFLVLADLAYERYEEKDKTYELKKILLEKDFNDSERHQRWNYFSERMEGWKLLEAYDPDDYKKEWLLKSEDIELQYKQFYAAAFEKNNEIVIAYRGTDGANGEYDSHKDFKIFFGLIDLGDRDFIMEHYLTNGKIIAGIPGIQFKLAVDFYKDIVKDRKNKDKTISVTGHSLGGGLAQYVSVMEGVKRGVAWNGVGIKDFLKFN;locus_tag=LOCUS_12020;note=MGA_1202
sequence1	MetaGeneAnnotator	CDS	1368835	1369620	.	-	0	ID=MGA_1203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKKRDGKMKRKIIIFLILILGILGCKSIDLTNSKKKLALEETRIRALVMNELETRYDEKFEIRRIRYDKRRDKWKLEVYPLENNIDDETFIAYVKKDPKERVIANYYSMKISNLTTMYYRPIIKKIFREKKVYYWTGLGNDTNKSLKRIKNINKIIKEVPEKLSFHMEMLIFEDVVSTKEKKEAFIKEVWELFKYLKSQNLKWASITINIYDEDFFRDKDIDHILKVSNWFSRGTSEFDVTEYWKKKLCWTLDRRTRLL;locus_tag=LOCUS_12030;note=MGA_1203
sequence1	MetaGeneAnnotator	CDS	1369727	1369885	.	+	0	ID=MGA_1204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRRKLLLEALALDFLLLFHQGKSNVFFFSNLNKNIIKRLKNNVLIFCYKNG;locus_tag=LOCUS_12040;note=MGA_1204
sequence1	MetaGeneAnnotator	CDS	1370172	1370603	.	-	0	ID=MGA_1205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFRLKVEGQNETIDLGMANIQKAEYKTDTPDDSNARSTDVGTLIIVTGKIITAVNGEEADHTLNLAKWSVVSAEKADCYRVTTLEVIAADQVVRKIILPNSFVVDYTEKYGDTEGVGTFEIVIKQKKDKTELTDIDGGFAQE;locus_tag=LOCUS_12050;note=MGA_1205
sequence1	MetaGeneAnnotator	CDS	1370763	1372928	.	-	0	ID=MGA_1206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIITQTNRTMLFEELNPEKLDLLTLVGDVKGYESLSDEKLTEINEHLLIRDFDEFLNKFEPKVYSFYNATNQKVVYSLVKPEGLPEEAISEIPLDENNDFLKMLFTLIDTKKNQGIKNVDFKFENVLEMISPKKVMEDIKQIRKEIGYLHGKYEELDEEDPSKGEIGDKLNSKFEEASKNYNNVMGMLPIAIEDIKTRLLLGQKPEDAESEAIKVGMLTMGEQGELKILEAPKAESSALLVKGQENANRLLEVLEEDYTEITESPTPYVKDLVLRTFAPMPVVQDEIDVEKEVANYNSYLEFYKSSKDEFVKAAKPLIEKILGIKMYFEQYETKSKEMKPSLIITNTKVDMMVKSNNKDRFLKYLNTINAKNDFNNTIWFGIVPAIEFESSAKPKLRRERFKGSKKVSKEKGNTMETLTQILDIAKDYKIQIFFNFQSKEETTFNSMATIGVEKYITKCEPLMKQKYSEFAIPCLPNFTIIPKDKSGVVLDSRLKVNDGGGVELSKLKEDIMKLWLEGVYIDASYVAAGLVSSYQCPEYLKGKFRNATNKYPGVRYDLESGDNSLKTVTTLAKEISGFTNTIKDEINRNNFGFVFSSENAQIDGELVKRITVYKARSLSLTEEGFDPIYKTTVSSYIERILRFHTSDFRQDKIIKFFSNNPKSQKSIWNNDMGFVNSIFQTGDSISNIIDEKNNVCQIELAFNGSVKNLEIAITKSANSN;locus_tag=LOCUS_12060;note=MGA_1206
sequence1	MetaGeneAnnotator	CDS	1373015	1373680	.	-	0	ID=MGA_1207;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_071542425.1;translation=MKVLIVEDDPLIREVIKISLLEENFIVYESENGRDAVRTVEEKKPEVILLDLNLPDISGLDVCKFIDKNRKEYNNPYIMIISAIDDSETVLRSFKNGADDYLRKPFTSDEVIHKIKRAFNIEEKGFKRDINKEILMDSVATIEIGEIPENLTDKEYELSKFFRENANVVCSREAIIEKVWRGNYRGGNRRVDAFVKKIRQKDPLMKEKLVTLIGRGYKLER;locus_tag=LOCUS_12070;note=WP_071542425.1 response regulator transcription factor (Moorella thermoacetica) [pid:31.1%25%2C q_cov:98.2%25%2C s_cov:96.9%25%2C Eval:3.0e-29],MGA_1207
sequence1	MetaGeneAnnotator	CDS	1374143	1384372	.	-	0	ID=MGA_1208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRAGIILYFIISVIVFGGIKGEYYNSIDLSGGVALERIDNEINFNWGSGSPSTINNDDFSVRWEGVLLTKNISGDYQFITTSDDGVKLWIKDSSTPLISNWTLHGTTDNTGTITLEANKEYYIKMEYYEHTGAAVAQLSWIPPGGTREIISASNLKEAFSDLVLDYRLIGDAKDSSGNNNNGIVSNAVLTQDRNNRNDSAYKFAGTNSSYISTSNSNSLNISSNITVASWVKWDINPQDGVLNNKIIDKSGQYSLGHNGDNSKFSFGLNGNKSIESSSIVNTNRWYFVVGTYDGSSLKIYVNGNLENQTNYSDPIITNTNSILTGKNFSGIIDEVKIYNLALNNTEILNMYNEEKPSYKGIKGKYFNNITLSGTPVLERIDNEINFNWGTGSPDTVVNNDDFSVRWEGVVKTKNIAGDYQFITTSDDGVKLWVKDSSTPLISNWSLHGSTDNTGTITLEANKEYYIKMEYYEHTGAAVAQLSWIPPSGTREIIPALNLAQAYSDLILDYEFIGDTNDSSGNNNTGIGYNITLTGNNSGKANEAYGFAGNVDSYIETADSGSLNPTDKISVMSWVKFDELPTIATYVTEKNGQYGIGYENGKLFFEINGTKLISNSNISAKKWYLVSGTYDGSSMDIYINNVRDNFVGKSGNINISSNKLITGKNLKGAIDNIKIYNKALTGQEIKDYYKETSPSYNCIKGEYFNNIDLNGTPALTRIDNEINFNWGTGSPDSLINNDDFSVRWEGFVKTKDIAGNYQFITTSDDGVRLWIKDSTNTLINNWTLHGTTDDTATINLEANKEYYIKMEYYENTGNAVAQLSWIPPGGTREIIPENYLYQQKSDLLLYYDFEDDSLGYVKDTTENGYDGIEKGDFSIVNSGKVGKCGYFDGNGDYLAIKALNFKNSADLENLSVAAWVKSDSKNRQIISSFDRSENWRLSLKDDMNNNIGWDTTSGNVTDDFGSSSDYTDGKWHFVVATYNKGNKKIYVDGNLVESKAGNETGLGSNTLRYGFVGTGSEANSEDGTTGPDYWFDGYIDEFRIYSKELSQSEINSLYLEGQDLVAEYKFDGGLTLDSSGFNNDGIINGGVVETENRDGDSGKALSFDGSTGYVEVDDSESLNPTKQLTLSAWIKWNIDPTTGENYAEILSKNGDDQYQLQHSSGNDKFEFAINTTSGRKYIQSTTSPVADKWYYVVGTYDGINMKLYVNGALETTTGYTGDLLTSNEKLDIGRRSVNNDRYFNGAIDDVKIYRKALTADEIGKNYVSKPDLLVYYDFDNEISGKVKDMSYNNNNGIIKGGFHTVDGGIDGKGGYFDGTGDYLSIDNLNFGNANGITDLTVMAWVKSSSENKQIISSFDRSENFRLSLKDDMNNNIGWDTSSLGTATDDFGYDKDYVDGNWHLVAATYSNGSKKIYVDGEKVAEKTGVHASKGIGTGADRYGFVGTGSEATTVDGATGPDYWFNGIMDDFKIYSRELSSSEISKIYTNGLKLIAHYKLDSDTNDYSGNNHNGTGTNISFDSNGEVDGAGVFNGVDSNILTDDFSVPETFSVVMWANPNSIDESGFISKTDLSGNNIFDFGYDNNGVFVKIRDSINSEGIKLKGWEHLAVVIKKIDANRSNVKVYRNSEILWEKDMNSVIGDSIGNGWKIGANSTNKYFNGELDDIRIYGKELSVDEITELYRAAGANENFTIYYPFTHNNPDSVTPDSTKDESNSGNDGILHNGVTIQDETKRVNLGKTAYFDGIDDYIEVPNTDSINTGVHDKRSISLWFKPEDLNSRQILYEEGGTVRGLNIYIYNGRLYFGGWNEPSNESNWKYSSISTDEIEVDKWYHAVLVLDGTDQLTSGAFKAYLNSRLLDEQEGSKLWPHPGLVGIGAENNGTKFHDIGDDGGSTKYFFKGYMDEIHTFNEAINQDKIDELYSVGLDVIAYYPFDDSTSNDKSGNGNNGTLYGGVRYEDGYFGKEALFNGIDGYINLTDFYVPPTFTVAMWVRPDETQTNQAFVSKSFTNGDNLFTAGYSTTGLYVDLNDKNIDFSSSGFKSREFQQFVVKVEKLTALSSKVTVYINGEKKSEENVSSAFNEVYGNSWILGKDINNNYFQGNMDDVKFYGRGLSDEEVADLYKEIHKDYKNRLEIYYPFERDTGDGKVKDESESGNDGVKHGNIIYEPGKQEQGARFDGASYVEVPNTEDLNTATISKRTVSLWFKTDDVTTKQVLYEEGGTVRGLNIYIENGKIYYGGWNEPTSESNWDYSFISADIVAGRWYNAVLVLDGTSNLENGAMKAYLNMELVGTAEGSKLWPHPGNIGVGAVNNGTKFHDSGDYRGTGLYYTGLLDEIRIYRDALSLEELQKIYGYQKIVINEVMWAGDEYIELRNKTPYDVDLEGWMINNAQYSQNSNPYIEIANAKGISGSSTTIPADGYLLIQNEDNSNITGWTIADNSVTSNEKVRVFVCADSNKMNLNNSGEQLILKDNNYITVDMVNIENSSWPKGKNEVGGISMERFQENTIPPGTASGDGTLDTSWYTFTGVTDSNIQKNLDKYGNIRKGTPGDSNSLLFKINSVSPINFTDKTLTATINIADYLYGQTEHEPKDYIDSIEFSIGNSEVYSKDNVIVPWEEIPSKGTDINKDLSSYTLEGNYYIYVREKKGTIYSDVYVSNSVYLNTIINITDVWDTLSGDNSKDYDVTSRSSGIYGMIKIDATSNVDSINYFEYKIYVKNSSGVESVVQNWVNNNKNLEISQGGIPLTNNYTYYIEVRADYGVNHKKTAPVRSDGIICKTEFGNINIYKNNSKTDEILESIWNNTGEPVDSKIYIEWIEDSYASSYEYGMKAGSKDSITISDGDFTGNTTATNLDDFNISEGVKTFFIRAVYPDGVKGQIKKFELKIDDTKPDITGMGLIDVRADLTSDVEWTNGETPEGATYTLKCMYNGATDSLSGVDHYEYGAWNRSENVTVFDWENRGVSTGVTTKSGLSLTEYDNTDNTIYIQKIRVYDKAGNYIDVETNGVKFDKTKPDVSGMNLIDVRADKTEDVEWTNGETPEGVTYTLKYNYKGALDNLSGVNHYEYGVWDSEGVVSNWENIGNTTGTGIKSALNLTEYDNTKPNELIYIQKMKVYDKAGNISDVVETNGVKLDITKPVISNIYLRDNDSDVYRTGETSGIYYGNSSNLKLNIAASDNLAGVGGMKYGLSGDLSSENYILYNSPTDFSLNLGNDGEKDIFVQVVDNAGNESVIKGSKSEFNNIFNYDNTVPVFNAINGNGDKLGYQEKEGSEIIIPLTSGTAIAYNYIFDSNDCDTSDKDIDVKLIFNPTENYIWKIIIANNSIEEIGEFNDSSGNLYKSVIWQNASGDYADTNPMEIKLYDKAGNYVEEDRVFIKILSGDINKKIIDAYIDIYGKKKHIYYIETSNGNFEKYYLDSDK;locus_tag=LOCUS_12080;note=WP_020640785.1 LamG domain-containing protein (Amycolatopsis balhimycina) [pid:22.3%25%2C q_cov:31.2%25%2C s_cov:48.5%25%2C Eval:2.0e-31%2C partial hit],MGA_1208
sequence1	MetaGeneAnnotator	CDS	1384566	1386761	.	-	0	ID=MGA_1209;product=1%2C4-alpha-glucan branching enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056426.1;translation=MTTLNEWEINQIVNATSRDPHGVLGIHKINEKDFSIRAYNPAVKKIEIIFNELESPIEMDRITEDGLFEKKVELEDFAKYKFKYTGHNGVEWERYDAYSFLPSITEYDMYLFNEGNHHRIYEKLGAHIKEIDGVKGVSFGVWAPEAERVSVVGHFNSWDGRVNQMRILGNSGVWELFIPNIGEGELYRFEIKTKNNDILLKSDPYAFYSEVRPDNASVVYEIDNKYDWNDDKWLKNRREKDQLNSPMSTYEVHLGSWARKVEEENRVLTYREMADLLVNYVSENNFTHVEFMPILEHPLDESWGYQVTGYFSTTSRFGKPEDLMYLIDKFHEKNIGVILDWVPGHFPKDVHGLGRFDGTALYEHADPRQGEHKDWGTYIFNYGRNEVKNFLISNALYWFDKFHFDGVRVDAVASMLYLDYSREADEWVPNKFGGRENLEAIEFLQYFNSISHEYYPGIVTIAEESTDWQGVSKPTYLGGLGFSMKWNMGWMNDTLEYIEKNPIFRRYHQNSLTFSLVYAFSENFILVLSHDEVVHGKKSMLDKMPGEYWEKFANLRLFYSYMYAHPGKKLIFMGGEFGQWKEWNCKQSLDWDLLEYAPHNNLKNFIKDLNGVYKENNGLWENDFSGEGFEWIDFNDADNSVISFVRKGNNPDERIVCVFNFTPMVRYGYRLGVPDEGYYEEILNSDSENYFGSNNGNYGGVWSEQIPWQGKGYSIDITLPPLAGVYFKLKK;locus_tag=LOCUS_12090;gene=glgB;EC_number=2.4.1.18;note=WP_011056426.1 1%2C4-alpha-glucan branching enzyme (Thermosynechococcus vestitus) [pid:51.9%25%2C q_cov:99.7%25%2C s_cov:98.0%25%2C Eval:2.1e-243],MGA_1209
sequence1	MetaGeneAnnotator	CDS	1386796	1387920	.	-	0	ID=MGA_1210;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904330.1;translation=MLNIKVNRVKFLGVIQIVERAISENKIRPIISGLFMEAKGNIITLKGTDLEMTITSTIEGEVIEEGTVAFSHKLLVEYLKEISDETVQINEKDGELKVITKYSESEFYVYDSDEYPRIKLLEHGNEYYINKTIFLDGLEKVSIATSDTENLAVNCVRLEIEDKKIKMIGTDSFRLAYFEETLSTDTVSNKILKISIPLKTVDSLIKTLKTIEGDVINLKFEGNQIFFVIGEVAILSRIIDLAYPDYANILKNQEYSKKIFMKKDEMISLMKRVLLFVRNNKEGKNSGLFNFVGNKLYIKGISDKAKVNEELDILKEGDDLKISLNVKFILDYILQVEEENIELNMSNASSGVLIEGEGNNKFIYLTMPLALRED;locus_tag=LOCUS_12100;gene=dnaN;EC_number=2.7.7.7;note=WP_005904330.1 DNA polymerase III subunit beta (Fusobacterium nucleatum) [pid:36.7%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:1.0e-69],MGA_1210
sequence1	MetaGeneAnnotator	CDS	1387937	1388278	.	-	0	ID=MGA_1211;product=STAS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000406877.1;translation=MKVSYSEDKKKKVTIVKIDGEVDVYTSISLKKELNKLLEDNKNRLLINLEKVSYMDSSGLGVLVAMLKKSRKEKGNLKITNLTESIRKIFELTRLNKFFEIFNTEAEGLKSFD;locus_tag=LOCUS_12110;note=WP_000406877.1 STAS domain-containing protein (Leptospira interrogans) [pid:47.0%25%2C q_cov:88.5%25%2C s_cov:90.1%25%2C Eval:3.8e-21],MGA_1211
sequence1	MetaGeneAnnotator	CDS	1388318	1388644	.	-	0	ID=MGA_1212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGREIKKITEEKAIYIPTEEIEVYNASEIREELSEMIDNGVKEIIIDLRNVEYVDSSGLGVLVSTMKRLKKINGKMILLSPKNAIKQVLELTSLDKVFTIEYDESNIK;locus_tag=LOCUS_12120;note=WP_003975386.1 anti-sigma factor antagonist BldG (Streptomyces) [pid:38.3%25%2C q_cov:75.0%25%2C s_cov:71.7%25%2C Eval:2.4e-12%2C partial hit],MGA_1212
sequence1	MetaGeneAnnotator	CDS	1388662	1389483	.	-	0	ID=MGA_1213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNAQNLIKLYLSDIKDFKLLTKEEEYKLIEESKKGNEEAKEELILSNLKLVIKIAKGYRNKGLSFMDLISEGNIGLIYAIEKFDLSRGFRFSTYAVWWIKQTITKSIINKGRGIRIPSYKHDILNKINMYIGKYLSVYDKYPSPEEISEELNLDKDKVHQILIEFQDMVSLSTSVGEDIFLEDIIPEKESEMLEDDILDEVIKENISKEMEILNERERDIVISRFGMGGIKPLTLEELGKKYDITRERVRQIEKKALKKLKSVLKKDLLGLK;locus_tag=LOCUS_12130;note=WP_000764065.1 RNA polymerase sigma factor RpoD (Bacillus cereus) [pid:44.2%25%2C q_cov:90.5%25%2C s_cov:66.4%25%2C Eval:6.5e-54%2C partial hit],MGA_1213
sequence1	MetaGeneAnnotator	CDS	1389480	1389836	.	-	0	ID=MGA_1214;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545197.1;translation=MKKILIVDDEKYARFLYMEILGKNYEFTEVEDGIEAIEELESDTYDLALVDLNLPFIRGEEVIKQVIGKLKKTKIVIISALKQEELIKELTELGIVGLITKPINDIKELKESVKKWCE;locus_tag=LOCUS_12140;note=WP_012545197.1 response regulator (Thermodesulfovibrio) [pid:37.1%25%2C q_cov:95.8%25%2C s_cov:92.7%25%2C Eval:5.4e-12],MGA_1214
sequence1	MetaGeneAnnotator	CDS	1389833	1390840	.	-	0	ID=MGA_1215;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931786.1;translation=MAKIVVMGAGSWGTTLAILLAKKGNQVTLWEYKKERAEKLKKNRENIDYVKGIKFPDTLEVTNDINGLLDGCEYLIFSIPSQFLRGIVSMVSDQIKENMILINTGKGIEISTHERLSEVIKDEILGKFHNNIVVLSGPTHAEEVSKEFPSAIVAASKDEKVSKKVQELFNTDFFRVYSNNDLIGVEIGGALKNCIAIAAGITDGMGFGDNSKSAIITRGLAEIIRFGEYFGADFKTFSGLSGVGDLITTCTSKHSRNRFVGEKLGEGKTIEDIMREMIMVAEGVPTAKAVHEIAKEKGIEMPVVESVYKIIYESEKPKVILQKLMSRELKGEFYK;locus_tag=LOCUS_12150;EC_number=1.1.1.94;note=WP_010931786.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Chlorobaculum tepidum) [pid:49.4%25%2C q_cov:99.1%25%2C s_cov:99.7%25%2C Eval:2.6e-90],MGA_1215
sequence1	MetaGeneAnnotator	CDS	1390850	1391452	.	-	0	ID=MGA_1216;product=glycerol-3-phosphate 1-O-acyltransferase PlsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016461.1;translation=MIKLVMGIVLSYFIGAIPSGVIIGKKFKNIDIREHGSKNSGATNAYRVLGAKLGIIVFIFDVLKGIIPILIGMSFKIAPHNLVYLGVAAIIGHTFSPYLKFKGGKGVATSLGVFLILVPKTILFVFGVFAIIVYFSKYISLGSITAAFLFPFANYFFYKNNKIEVTILGALVAAYIIYKHKSNIGRLLKGEENKFNFKKK;locus_tag=LOCUS_12160;gene=plsY;EC_number=2.3.1.15;note=WP_011016461.1 glycerol-3-phosphate 1-O-acyltransferase PlsY (Fusobacterium nucleatum) [pid:57.9%25%2C q_cov:91.5%25%2C s_cov:93.3%25%2C Eval:2.8e-57],MGA_1216
sequence1	MetaGeneAnnotator	CDS	1391655	1392986	.	-	0	ID=MGA_1217;product=23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495280.1;translation=MKKGDIINVKIDKIAFGGEGLGFYENLAVFVPMSVPGDIVKIKIISVKKNYARGLIEEILEKSSGRIEPRCKYFNKCGGCNFMMMDYKTQLDCKTDIVKNLIRDEKVIVNKTLGSKNSYNYRNKVIQPFGTKNHKIISGFYMKKTHEVVDMDNCIIQPKISNKIIRKIKEIAQKQSITIYNEKKHSGFLRNVMVRVNKKNEAMVVFIINSNKYEVLNPLIKKLTDSIKEIKSVYVSFNTIKTNVALGKKVKRLYGEYFLYEDICGYKFRISPKSFFQINLFQTERLYNLVLDLLGDIKNKNILDAYSGTGTISTLMSKRAKFVYGIEMVESSVKDAKLTAKENSIKNVEFITGKVEDEIDKLKDIDIVVFDPPRKGLDSSIIKVLGKRKIENIIYISCDPSTFIRDVKLLEEYGYILEEVHPVDMFPQTSHIEVVGKIRLKNV;locus_tag=LOCUS_12170;gene=rlmD;EC_number=2.1.1.190;note=WP_029495280.1 23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD (Fusobacterium hwasookii) [pid:50.6%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:2.4e-124],MGA_1217
sequence1	MetaGeneAnnotator	CDS	1393034	1394074	.	-	0	ID=MGA_1218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSKEYNNIKLIISIISTIINLVIIFILGFSKIGIYIKNISGNNIFYYGLITIIIFFISEIGFSYYSGYYLEKKNNLSNENIKKWIIKTLKEFGIGLVIGEILIVSLYFFIKISKDRWWIYFYIFMMIINIILGVIAPTVILPLFYKFKELDNENLKSKILDLTSKVKVKLVGIYKFDLSKETKKANAAFTGLGKNKRIIIADNLLNEFSDDEIVAVFAHEMGHFVKKHILKQVVISSVIMFILLFLINSYFYLDYNNFIVIYQVGFYFFIFQLFISFLLNLYSRKNEKEADLYAKEIMGTGEYLIEALKKLSKQNLADENPNKIIEFLTYSHPSIGTRINYLKE;locus_tag=LOCUS_12180;note=WP_164927265.1 M48 family metallopeptidase (Chlorobaculum tepidum) [pid:32.0%25%2C q_cov:82.9%25%2C s_cov:71.9%25%2C Eval:7.4e-43%2C partial hit],MGA_1218
sequence1	MetaGeneAnnotator	CDS	1394248	1394907	.	-	0	ID=MGA_1219;product=lysophospholipid acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367246.1;translation=MSKLEEMKEEKSYRKYKRYGKILYFISKIINRTINMKVIIESDDYNEKNNYLYGFWHGSIFLPMVNMTKNGKKIANLVSPSKDGEIIATMLEMYGYELVRGSSNKNNVRSLVKLIKMVKNGYSGGFAVDGPRGPIYKVKQGIVYTAQKTGIEIVPLAGVFKNKWRFNSWDSFQFPKPFTKAIYIIGKPIKIEKDISVEEGIKLVEERLIELNKKADMMS;locus_tag=LOCUS_12190;note=WP_147367246.1 lysophospholipid acyltransferase family protein (Fusobacterium canifelinum) [pid:36.3%25%2C q_cov:92.7%25%2C s_cov:97.6%25%2C Eval:5.0e-37],MGA_1219
sequence1	MetaGeneAnnotator	CDS	1394921	1395505	.	-	0	ID=MGA_1220;product=nicotinate-nucleotide adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003699801.1;translation=MKDLKKKKIGIYGGSFNPIHMGHLILAEWIKDRYDLDEIWFIPVGIPSHRENNLVNWELRYKMVKESIKDNPKFKVLDIEIKKDVTSYTIDTLVELKKRYPDYKFYEIIGEDSAEYLDKWKDIEKLLTMCKFIVVNRKGYNFKNIYGEKVKIISSPIIEISATEIREKIKNGKSIKYLVNENVLDIIKKEKIYK;locus_tag=LOCUS_12200;EC_number=2.7.7.18;note=WP_003699801.1 nicotinate-nucleotide adenylyltransferase (Ligilactobacillus) [pid:45.1%25%2C q_cov:99.0%25%2C s_cov:91.0%25%2C Eval:4.5e-41],MGA_1220
sequence1	MetaGeneAnnotator	CDS	1395514	1395969	.	-	0	ID=MGA_1221;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005919085.1;translation=MLKYVKVKSILVENGSVGKDEIIKKLINSIYENEDIIINKDNFLKKIFEREVMGTTGIGKGVAVPHARCEDLKDIVLAIGVLKRAIEFNTPDDEKVNIIILVGAPKDKNTEYLNLLSSISKAFRNRAFRDSIIESETEGDIIENIANFFEG;locus_tag=LOCUS_12210;note=WP_005919085.1 PTS sugar transporter subunit IIA (Fusobacterium hwasookii) [pid:29.1%25%2C q_cov:96.0%25%2C s_cov:96.2%25%2C Eval:1.5e-17],MGA_1221
sequence1	MetaGeneAnnotator	CDS	1395971	1396669	.	-	0	ID=MGA_1222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439005.1;translation=MNNYVIIDGRFKSIGEELKKYGFNVILTKKNMKVYDAISFHPDIQLFVDEEEKKIFVDKQFYEYYAKRIKGYEIIEGEAVEGGYPNSAKYNAVKFEKKVVHNFKYTEKNILKHIEKKKYKKIDVKQGYTNCNIINLKDKLITEDNGIYKNLKNRGEKILKLNKVEVDLIGMNYGFIGGATGFFENKLFFTGEIKKNPYYIKIKEFVGNNVEMVSLNLGRLQDVGTIIFMRGN;locus_tag=LOCUS_12220;note=WP_003439005.1 hypothetical protein (Clostridioides difficile) [pid:36.7%25%2C q_cov:95.7%25%2C s_cov:90.1%25%2C Eval:2.0e-31],MGA_1222
sequence1	MetaGeneAnnotator	CDS	1396662	1399040	.	-	0	ID=MGA_1223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDCPKCGSEIKNGICEKCEKRFYDILLEESELLQVKRDYDKALEYLKEARKLAKTEDEENEVERVIKGIQFSRFDLSGDILKSHNVGDSKKTIKKESYIYSGFKKMLVISLLIFLIFGGIEIGKILYYKNIKISDKVINNRKLDIAFLFHLNQGSNPHADIADKVTYYNLIKTLRKHPSLKFNLHISGTLIQDLLWYNPETIKLIKDGIKSGQFEILGSTYAQNVMYSTDEQSNIWQIEEHKRIIKKVFGVNPVGFWNAERTWNQNITKLVLKYGYKYTFVENHILKESGAKDADWVLRTTENGKLTIVNDDTNFLPLVNNAIDTGDNEVKRDERGANLTEKSKNYKKLFKYIRKIYEKDKKSDFLLNYADDAEVTGLWDFSSQKNPEWDFENLDFLLTKLENKKWIKLVKYSDILSEKKAEDITPIKDGYASWMEKAAKGEGQYSEKGYDGWFDFNKNSPKLAYYRKLHKKYEKFINEYKNSDKKNIKKLVALAKENFLSHQFEFGCTGIAGTDEEWKNGRRLGVWENIKTVSVIEEAVKDIEENIKNKIYEKDVNMDNIKEVIVVNNDNFYVFSKARGGRLLFWYDLKTGKEIVGGELGVQLGEEYYDGNFPTQPFSIKNNIRFLNGMNSVLNYFEKRVYLTRVKGLNEKFEYENSDNNNYKISDYYKADMEVEYNEDYLIFTADNYKKEIKFTKNGFEVDYLNISNDVKNINVKSEFEPGYFTIVNNGKKVLDIKNSNNKIEILNKKVNIGIEITVPKDVKIKNYYSLFGIVAEFDLKKEYKILVDKIE;locus_tag=LOCUS_12230;note=MGA_1223
sequence1	MetaGeneAnnotator	CDS	1399044	1399826	.	-	0	ID=MGA_1224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREKIEKAMLEKDYREITEIYMEKGIVPILEIFSEYANWRSYFKIKLDGEIVEKDINLMLPLINNILDTKNRDEIEKNFKIILDNYILKIEREKVKKKIDRLSSKEIDKIEKNFFNLLQKNEQAQVIRYGNELFFRNKEKFYETILFYSLINNKNKTLPLIVLSMINIIEKVGKENYFYPFIIGMRLLGRYPNEFNEYEEAVNKDGIEYDEISKEIETEKIDIENYGYLKGLKYFNENFNHPKKNIINILGMEYIEKRGM;locus_tag=LOCUS_12240;note=MGA_1224
sequence1	MetaGeneAnnotator	CDS	1399919	1400914	.	-	0	ID=MGA_1225;product=tetraacyldisaccharide 4'-kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626176.1;translation=MKFLSYIYKFIINFRNYLYKINILKSKGIDGVKIICIGNITVGGTGKTPTVQYLVKKMKKNHKIAIVLRGYKGKRKVDPLIISNREKIIAKLYESGEEAYFHAKTMKNIPVIVGKNRYEACKLAVDKFEVDTIILDDGFQHLKLKRDENIILIDATNPFGNGYMLPYGILREPLEGLERADKFIITKSNLVDENKINLIKKELEKYNKDILLAKHSAKYIYDLKLEKRKLDFIKGKSILLVSGLGNPKSFENTVMEFDPKKIKRVDYPDHYSYNIEDIKGITEIKNKENFDIILTTEKDFIKFPLEDIENDVVIRKEKEKIFVLKIEFETV;locus_tag=LOCUS_12250;gene=lpxK;EC_number=2.7.1.130;note=WP_201626176.1 tetraacyldisaccharide 4'-kinase (Fusobacterium canifelinum) [pid:48.2%25%2C q_cov:99.1%25%2C s_cov:96.1%25%2C Eval:3.4e-82],MGA_1225
sequence1	MetaGeneAnnotator	CDS	1401046	1401915	.	-	0	ID=MGA_1226;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041466227.1;translation=MIYRKLGKTDLELSLIGYGGWQLGEHGWGKWDINSAAKLLEICYENGINFYDTAPIYGFGKSEERIGEIFKGAREKIVIATKFGLVWNDTKWISHDLSRSSILREVELSLKRLKTDYIDIYQVHWLDSKTPLEELFETLNYLKKNGVIKHIGVCNFDIKNLEKSLKFSEIVSIQNQYNMLQTEVEKNILPFCKENNISFIPYSPLAQGLLTGGIDENFKLSKKDARKFNPLFNDKIKFSDSINFVKKLKKPVSKTALDYLIKREEVVSVIVGSRKVEHLLENLKVLENY;locus_tag=LOCUS_12260;note=WP_041466227.1 aldo/keto reductase (Chlorobaculum parvum) [pid:36.3%25%2C q_cov:93.8%25%2C s_cov:88.7%25%2C Eval:2.4e-49],MGA_1226
sequence1	MetaGeneAnnotator	CDS	1401966	1402169	.	-	0	ID=MGA_1227;product=DUF1858 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902519.1;translation=MAKVTTDMNILEAVQKYPEINGVFAKYGLGCIGCMVAAGESIGEGISAHGLNADVIVDEINEILGDE;locus_tag=LOCUS_12270;note=WP_005902519.1 DUF1858 domain-containing protein (Fusobacterium) [pid:59.0%25%2C q_cov:91.0%25%2C s_cov:95.3%25%2C Eval:6.2e-16],MGA_1227
sequence1	MetaGeneAnnotator	CDS	1402323	1403282	.	-	0	ID=MGA_1228;product=KpsF/GutQ family sugar-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016738.1;translation=MNILKEGKKVFELEIEELNNVKDKMDNEFERAVNEIYNCKGKVILTGIGKSGLIAKKIAATLSSTGTQSIFMHSAEGIHGDLGVVRKEDLVIAISNSGNSEEVIAIMPAIKKIGAKIIGMTGNKKSYVGKNADIALDIGVKKEACPLNLAPTSSTTATLVMGDAISTVLIKMKGFKEENFALYHPGGSLGKRLLLTVEDLMHSGKELPILNLDEKIEKIILELTNKKMGAVCVVQSGEFKGIITEGDIRRALMQRDSFFKFTAKDIMNSNPISVNKDMMAIEALKIMENRESQISVLPVVESKKIVGIIRIHDLIGKVK;locus_tag=LOCUS_12280;note=WP_011016738.1 KpsF/GutQ family sugar-phosphate isomerase (Fusobacterium nucleatum) [pid:51.1%25%2C q_cov:98.1%25%2C s_cov:97.5%25%2C Eval:1.3e-88],MGA_1228
sequence1	MetaGeneAnnotator	CDS	1403354	1404193	.	-	0	ID=MGA_1229;product=3-deoxy-8-phosphooctulonate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023041482.1;translation=MLISKVKEIKISENVKIGGQKHFTLIAGPCVIESEELVLEVAGKIKDITTKLGIDYIFKASFDKANRSSIHSFRGPGVDKGLEILQKVKDKFNIPVITDIHEPWQAEKVAEVADILQIPAFLCRQTDLLIAAAKTGKPISVKKGQFLAPWDMKNVVKKLEESENKNIMLTERGAMFGYNNMVVDMRSLMEMRKFGYPIIFDATHSVQKPGGQGDTTGGDREYVYPLMRAALAIGVDAIFAEVHPDPDNAKSDGPNMLRLDDLEDILIKSLEIDKIIKEL;locus_tag=LOCUS_12290;gene=kdsA;EC_number=2.5.1.55;note=WP_023041482.1 3-deoxy-8-phosphooctulonate synthase (Fusobacterium nucleatum) [pid:72.9%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:2.5e-117],MGA_1229
sequence1	MetaGeneAnnotator	CDS	1404356	1407628	.	-	0	ID=MGA_1230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIRISVLILMLSLISFGCINKEVNKDENSNQNSNQNSNQNSNQNSNQNNLEVKETNDLVVDWAKNAVFYEVFVRSFYDGNGDGIGDFKGLKDKISYFKELGVNALWLMPITKSPSYHGYDTTDYYETEPDYGTLTEFHDFLKAAHKNGIKVIMDLVANHTSIDNKWFLESQKTESNKYTNYYVWATEYDALNEKEHWYLLNNKYYYAIFWSGMPDLNYRNEAVKTEMKNIAKFWIDPNKDGDLSDGVDGFRLDAAMHIDKDANITHNWWREFNRTVKSINKNAFIVGENWTNEKNIAPFYKDMDSSFDFPIHGKLITFANGEYVDIVGKLKNIRDTYKQANSNFTDSTFLTNHDMGRVASDLGNNIGKEKLAAAALLTLPGTPFIYYGEELGQLGKGEDDNKREPFDWYRSASGTGMTDMSKGGFFNPMIYTKANDNISYEEEKDNSESLFNWYKKLIKIRKENSIFVTGDYNVVNLGSSLYAYTIEDINVGYKLLVVDNKMDTAQELEVTNNTTELISGGDFIIGNKLKINGYGTKIFKYNDSLPVKISDEAETYKIKLHYNRRNGDYDGWGLHLWGGAVSAETDWLKPKMSDGIDDFGAYFDISVIDKSQPLNYIPHNGDKKDLDIDRRFPDLEKYSEFWIYKGDKNTYVSNNESDIKNIEITPNAEQIVERGETISFNANAKDINGEYVYSKNISFEVEAGDGAGTVDTNGKFTATEIGNVKIRAKLGDKYSDYINIKIIAPEAKKITYNDIVYNGKGEVIDSSSPINYVYNDPLGSILVSEPKERSFNADGFFRIKGSSTYKDDYQFLRIQLIKGDYKLKDYTNTDDFANSVSNAKEQTEYWVKDTFKKNIWLRFGKGEYTLFVYKTQLSNNNLNYTGDIGIDSGIGYSYWVPIYEFHIINTRDEDGKFYYPSDPLESDSLIIKNKALELTNGVTNTKDKIKKINDFVVNSLTYDFDSLEDGKRKKQDAITCMNTGLAVCEGYTSLFDALLRASGIKAKAISGYGIESDGSKAAHAWSEVYVAEEDKWYFVDTTWDDYKDMTSYAYYMLDETPKDHEKLGERIYRNNMKKTGEYSRYDYLNMTY;locus_tag=LOCUS_12300;note=WP_012584022.1 alpha-amylase family glycosyl hydrolase (Dictyoglomus turgidum) [pid:40.6%25%2C q_cov:43.9%25%2C s_cov:93.6%25%2C Eval:5.2e-100%2C partial hit],MGA_1230
sequence1	MetaGeneAnnotator	CDS	1407643	1408395	.	-	0	ID=MGA_1231;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_026080286.1;translation=MKLKIILIICFLISFEISLSEGVLVVTENFPPYNYEENGGVKGISTEILKEILKKADINYKIKVYPWARAYNMAETQKNILIYSILHTKKRENKFKWGGELIKTQSSLIKLKSRKDIVVKKLEDAKKYQIGVRLEDAGHQYLKSKKFKKFEYTNKGGLNILKLYYSRIDLMLYDVSSFKYWVLKKYGKKYNFSINDFEIAYTIDDLSVGLEFAFSKKTDDKIVEKCKKAFKEIKENGIYEKILKKYKIKK;locus_tag=LOCUS_12310;note=WP_026080286.1 transporter substrate-binding domain-containing protein (Aeromonas hydrophila) [pid:34.5%25%2C q_cov:87.2%25%2C s_cov:88.1%25%2C Eval:2.3e-31],MGA_1231
sequence1	MetaGeneAnnotator	CDS	1408406	1409200	.	-	0	ID=MGA_1232;product=YdcF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881298.1;translation=MFLILYKLILSFLLPPGIFILIFFITGGLIFYFNKEKLYKFKIIGIVLIGTGTILYLFSIEPIKDLVVMPLENIYAPIKYKDLENADSIIMLGGGIIDNAPLSFGEKGIPSYSALARINEVIRVYNKTNKKLKILLSGGSVYGNTEPEAKLYRRYLISLGVNGNDILIDDKSRTTYENVINLKKLLKLNKFQHPILITSATHMPRSVYTFKKNQIDVIPDNCDYITRRAGYQFSSFFPSALNIEYMRRGVWEYIGIVYYKIKGF;locus_tag=LOCUS_12320;note=WP_010881298.1 YdcF family protein (Aquifex aeolicus) [pid:38.6%25%2C q_cov:79.2%25%2C s_cov:80.9%25%2C Eval:8.4e-27],MGA_1232
sequence1	MetaGeneAnnotator	CDS	1409200	1410636	.	-	0	ID=MGA_1233;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016996.1;translation=MEKLFKNIEFEILNQGEKTDYNKMEYDSRKIDENDIFVALEGFSIDGHNFIETAINNGCKMVIVSKKVEILDEKVTYIKVNNLRKRLGIIASNFYDWPQKKLKIIGITGTNGKTTTTYLIEEILGKVARFGTIEYKIGDEIIAAPNTTPESLDVVKMCKKAIEKNIEYLIMEVSSHSLELGRVDMLEFDVAIFTNLTQDHLDFHGDMENYFLAKEKLFSKLKEKSNAIINIDDEFGKRLYNKYSNGISYSNINGDIVGKITNYTNHNMILEIDYIKKSSFETKLMGKFNLYNIMAAFGAGIALGFSEDVLVEKLSNAKRVPGRFETISENQNFMVVVDYAHTEDGLLNILSALEEIKKSKIITIFGAGGDRDKTKRAKMAKAAAKFSDFVIITSDNPRTENPVEILNGVEQGMKDIDYKNYEVIENRELAIKKGIEIAMKNDIVLIAGKGHEDYQIIGKEKIHFDDREIARKFLKEKK;locus_tag=LOCUS_12330;EC_number=6.3.2.13;note=WP_011016996.1 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase (Fusobacterium nucleatum) [pid:50.0%25%2C q_cov:99.4%25%2C s_cov:98.4%25%2C Eval:1.1e-127],MGA_1233
sequence1	MetaGeneAnnotator	CDS	1410956	1412707	.	-	0	ID=MGA_1234;product=NADH-dependent [FeFe] hydrogenase%2C group A6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868906.1;translation=MEMVKITIDDKLVEVPKGSTILDAAKKVNVEIPTLCHLNLHDVGLVNQTASCRACVVEVEGRRNLAPSCATPVTDGMVVKSNSVRALNARKVVLELLLSDHPKECLTCAKSGECELQDLSEKFGIREIRCDGAQSTYREDYSPSIIRDMDKCIMCRRCETMCNEVQTVGALSGINRGFDAVVSPAFEMNLEDSVCTYCGQCVAVCPTGALTEKDYTWDVVSALADPEKTVVVQVAPAVRAALGEEFGMEPGTLVTGKIVTALKKLGFDNVFDTDFAADLTIMEEASEFLDRLTRHLEGDKTVKLPILTSCCPAWVKFFEHQFPEMKDIPSTAKSPQQMFGAIAKSYYAEKIGVKRENMVVVSIMPCLAKKYEVGRDEFKVDGNPDVDISISTRELARMIKQFNIDFVDLEDQEFDNPLGESTGAGVIFGATGGVIEAAVRTAYEWVTKEELKDVNFTSFRGLDGIKSATVKVGDLDLNIGIAHGLGNARKLLEDIKSGKSKFHAIEIMACPGGCIGGGGQPYHHGDLDILKKRAEAIYREDEGKAIRKSHENPYIKELYSTYLGSPLGEKAHHLLHTHYFNRK;locus_tag=LOCUS_12340;note=WP_012868906.1 NADH-dependent [FeFe] hydrogenase%2C group A6 (Thermanaerovibrio acidaminovorans) [pid:72.7%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:3.9e-258],MGA_1234
sequence1	MetaGeneAnnotator	CDS	1412728	1414524	.	-	0	ID=MGA_1235;product=NADH-quinone oxidoreductase subunit NuoF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868905.1;translation=MANYKMHVLICGGTGCLSSGSKAIADNIKSLLKENNMENDVQVLMTGCFGFCEKGPIVKILPDNTFYTEVKPGDAKLIVEEHLIKGRKVDSLLYKDPMTKKHISDSKHMDFYKKQMRIALRNCGFIDPDKIEEYIAREGYQALGKVLSEMTPKDVIAEMKESGLRGRGGGGFPTGLKWEFASKYNIGEQKYVVCNADEGDPGAFMDRSILEGDPHSVIEAMSICGYSIGATKGLVYIRAEYPLAIERLQNAISSAREMGLLGKDIMGSGFDFDIELKYGAGAFVCGEETALIHSMEGERGEPTTKPPFPAESGYWGKTTNVNNVETFANIPVIINKGANWFNKIGTEKSKGTKVFALAGKINNVGLIEVPMGTTLREVIFDIGGGIKNGKKFKSAQTGGPSGGCLTEKDLDVPIDFDNLVAAGSMMGSGGMIVMDEDDCMVSIAKFYLDFTVDESCGKCTPCRVGTKRLYEMLDKITKGQGTMDDLKKLKMLSGVIKDTALCGLGQTAPNPVLSTLDNFWDEYVAHVVDKRCPAGQCTALLQYVIDPGKCIGCTACARVCPVGAISGKVKTAHVIDQEKCIKCGACYDACKFGAIEKK;locus_tag=LOCUS_12350;gene=nuoF;note=WP_012868905.1 NADH-quinone oxidoreductase subunit NuoF (Thermanaerovibrio acidaminovorans) [pid:73.0%25%2C q_cov:99.2%25%2C s_cov:99.3%25%2C Eval:1.2e-270],MGA_1235
sequence1	MetaGeneAnnotator	CDS	1414545	1414949	.	-	0	ID=MGA_1236;product=(2Fe-2S) ferredoxin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868904.1;translation=MAKIKSLDELKKLREKLQNKVELREKGENVDDLVQIKIAMATCGIAAGAKDTMDAFIGKLNEKNIKNAVITQTGCMGYCHSEPTVEITLPGKEAVVFGNVDADKTEEIIEKYIKNGELVDGIIPVGYTTIEEEK;locus_tag=LOCUS_12360;note=WP_012868904.1 (2Fe-2S) ferredoxin domain-containing protein (Thermanaerovibrio acidaminovorans) [pid:48.1%25%2C q_cov:97.0%25%2C s_cov:97.8%25%2C Eval:1.0e-34],MGA_1236
sequence1	MetaGeneAnnotator	CDS	1415059	1415550	.	-	0	ID=MGA_1237;product=NAD(P)H-dependent oxidoreductase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868903.1;translation=MSNGCQNKLAQDCYSKLEKFINELPEKKGALISVLHRAQDIFGYLPAEVQKFISEKLDIPLAKVYGVVTFYSFFTMTPKGEYPISVCLGTACYVRGAEKVLDEFKRELDLEVGETGLDGKFSLDALRCVGACGLAPVVLVGEKVYGRVTPEQVKDILKEYKNV;locus_tag=LOCUS_12370;note=WP_012868903.1 NAD(P)H-dependent oxidoreductase subunit E (Thermanaerovibrio acidaminovorans) [pid:61.5%25%2C q_cov:98.8%25%2C s_cov:92.5%25%2C Eval:6.0e-53],MGA_1237
sequence1	MetaGeneAnnotator	CDS	1415706	1416221	.	-	0	ID=MGA_1238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYIILLIGIGFIFGFENMIAILTTLFFIYVFFTLFGVLFSLLPVLIVIGLIYYFLNKDKINYKYKSYKNFFEDGGNKNYYYKWDNTESNNYQNSSQSFYNNINNLDEYYSILGASKDLSDEDIKKKYKELAKKYHPDIHHNKPEEEKKIYEEKFKKIQEAYEKIREERKF;locus_tag=LOCUS_12380;note=WP_003547790.1 molecular chaperone DnaJ (Lactobacillus acidophilus) [pid:42.2%25%2C q_cov:37.4%25%2C s_cov:15.1%25%2C Eval:1.1e-10%2C partial hit],MGA_1238
sequence1	MetaGeneAnnotator	CDS	1416257	1416808	.	-	0	ID=MGA_1239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRTKIFNEISNIKKIGLKIQKLNEILSQAPNNIKALEELGTIYHYSGQDIEAIDIYEKLKKLEPKNIDIRGFLGYLYYEINNLEKAIDEFNFILDIAPDSPFVSFLLGNAYSRAGLVVDAVNAYEFAIFLDFDMYSAHLDFAKKYEDMGRINRALKEYKAAYEIDVKDKKILEKIKTLEGMK;locus_tag=LOCUS_12390;note=WP_011022778.1 tetratricopeptide repeat protein (Methanosarcina acetivorans) [pid:23.4%25%2C q_cov:93.4%25%2C s_cov:15.0%25%2C Eval:6.9e-09%2C partial hit],MGA_1239
sequence1	MetaGeneAnnotator	CDS	1416894	1419404	.	-	0	ID=MGA_1240;product=bifunctional aconitate hydratase 2/2-methylisocitrate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002852522.1;translation=MEVFKSYKKRAEERYKSYGLYPRPIKSQEVESFFKMLIAGENLEENIEFLGEKFVFGELLVKLIKNEVLRGTFPETYKKAEYLYKIISENIKNSFINKEDALITLFNMKGGAATPIMIKLIEEKIESDRVVEELKKVVLVNKEDFDKLAKLSKNSSEIANLIKAWAEKEFSKTWNLKSEYLGVGIKVGDFISTDHLSPGKRANSRTDKPLHATYIMDGRPDEADFMERLNKLKEKSKSIYIVGGEGFGEGSSRKSATYTVLQVIGENIEGEPENKTGGVVIAKTMAPIFRNSLVSSAILPILCNTDGINEEDSIKVDVENSKLIINNEKEIEFEKIEDLDLEKIKAGGVNNYTAGKELQAWASDYCIENNIDFDNSKMPEKLKDSDEKVAMNLAEKLVAYNRIDGKTTVKAGETATVKVRGVYSQDTTGPMTMEEYQSMAGGMTFGADFVVQSLCHTCEAPSSEERDRHKFLVGFVDDRGGVGLRPGEGIIHTIGNRFVTPTDIIVGGDSHTRSPRGISFPGASDIVASCMKYGKMELIMDKVVKVEFYGELQAGMTARDMVSMLVMEAEKQGYGKGVYTGKIIEMYGIEKLTSEEKYILTNAVAERSASAGLIQADENTIKELEKDLEYLKNRPDANISESVKKASKSIEEFLENPIFLRADENAEYDAVIKINLNNYKEPIVAVPHHPDNVAFLSEVAGTEVDEVYIGSCVGGEYESISSAARILDGNKIKRGINFVVSPAAEDITERLADNKDLDKIINAGGVVIMPTCGLCMGNKRRIGSNSTAITTTTRNYQGRLGPANSGAYLGSSLVAACCAILGKFPTLEEYMEFLNK;locus_tag=LOCUS_12400;EC_number=4.2.1.3%3B 4.2.1.99;note=WP_002852522.1 bifunctional aconitate hydratase 2/2-methylisocitrate dehydratase (Campylobacter) [pid:34.4%25%2C q_cov:100.0%25%2C s_cov:96.9%25%2C Eval:1.7e-119],MGA_1240
sequence1	MetaGeneAnnotator	CDS	1419830	1420741	.	-	0	ID=MGA_1241;product=1-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986316.1;translation=MIYTVTLNPSLDYNIKLSEFKEGRLNTIVSQYKTAGGKGINVSQVLRNLEKDSIALGYIGGFTGKYIEKNLKEKNIKCDFIEINQDSRINVKIKSEKSETEINDKKLKISESEKKELFLKIKSLKKDDILVLAGSVPTSLEEDIYAKLSEIVDEKVKIVVDTTGKYLVNSLKYNPFLIKPNYFELENIFGVKLKDEKDVIVYGKKLLEMGAKNVIVSMAGDGALLINEKDILKAMVPKGTVKNSVGAGDSLIGGFLSAMEEDKELIECFRIGVASGTATAFSDELCKKEEIEKIKKDIIIKKL;locus_tag=LOCUS_12410;gene=pfkB;EC_number=2.7.1.56;note=WP_011986316.1 1-phosphofructokinase (Clostridium botulinum) [pid:50.3%25%2C q_cov:94.1%25%2C s_cov:95.3%25%2C Eval:6.6e-74],MGA_1241
sequence1	MetaGeneAnnotator	CDS	1420927	1421808	.	-	0	ID=MGA_1242;product=UTP--glucose-1-phosphate uridylyltransferase GalU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005899251.1;translation=MQKIRKAVIPAAGLGTRFLPATKAQPKEMLPIVDKPAIQYIVEEIVKSGITDITIVTGRNKRALEDHFDYSVELEYILEKKNKDKMLKVVREISEYANIYYIRQKEPLGLGHAILKAKHHIGHEPFVVVLGDDIVYNDVPVVKQMLDVREKYKGGSVIGVQQVPDDKVSSYGIIKPGNRFDERTVKVEDFIEKPTKEEAPSNYACLGRYILEPQIFEFLEKIEPGKGGEIQLTDAILEMIKYGDKVLAYDFVGERYDTGDKLGFIKANIEYGLRHEEVGEGLREYLKELAEKL;locus_tag=LOCUS_12420;gene=galU;EC_number=2.7.7.9;note=WP_005899251.1 UTP--glucose-1-phosphate uridylyltransferase GalU (Fusobacterium nucleatum) [pid:62.4%25%2C q_cov:98.6%25%2C s_cov:98.3%25%2C Eval:1.1e-99],MGA_1242
sequence1	MetaGeneAnnotator	CDS	1421832	1423739	.	-	0	ID=MGA_1243;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017027.1;translation=MGKNFYVTTPIYYVNGEPHVGSAYTTIAADVLARYKKTAGYDVFFLTGTDEHGQKIEEAAKLKGMSPQEFVDSITPKFQKMWNLLNINNNDFIRTTEDRHIKSVEKIIKKVYENGDIYKGEYEGHYCVSCENFVPESQMGEGDSCPDCGKKLRVVKEESYFFKMSKYADKLLKYIEDNPNFIQPSYRKNEVTSFIKQGLKDLSISRNTFKWGIPLEIDKEHVVYVWFDALTNYLTAVGYENNPEMFDKFWNNGEVVHLLGKDILRFHAIIWPIMLMAAGEKLPSKIFAHGWWTAAGEKMSKSKGNVVNPKSEVEKYGLDAFRYFLMREVHFGMDGDYSTRAMVQRINADLANDLGNLLNRTIGMIKKYFKGVVTKGEGEEIFDVQIKELFFEMLVKVDEEMENIQFSKALEQIWKFISRMNKYIDETMPWKLAKDETKKERLAVVMYNLVESLYKIAVLVYPYMPETAAKIWNQLGINGNIEDARLENLKEWGNVPEYTTVKNAEPIFPRIEVEEKKEEIKVKSKKIEPTIEIDEFKKTKMVVAKILLAEKVEGADKLLKFKVSIGKEERTVVSGIAKYYKVEELKDKKVLMVSNLKPVKLRGILSEGMFLTTMEKKRIKLIEIDNSVPEGTLIG;locus_tag=LOCUS_12430;gene=metG;EC_number=6.1.1.10;note=WP_011017027.1 methionine--tRNA ligase (Fusobacterium nucleatum) [pid:59.5%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.4e-224],MGA_1243
sequence1	MetaGeneAnnotator	CDS	1423777	1425549	.	-	0	ID=MGA_1244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIKTKLNIFMSIIGAILVVKGLFIFIEINNLQQQWRIIDNNIMRRSVLISKIRDNFGYGGAIHQFKNYIIRGQEKQIKSFEKQMNSFRENYKEYLKFNDLGEKEKYDLKIINNTFEEYNRNLKLAIKLKEENKTVKEIDSTVKISDGPALKSMKELDEIIQTQLNENTKSFYKKINSLKLRLYILLFIIIVLFIGIYIIIIYLLKNLKIVADRLKKIAEGKGDLTKRIFVKRKDEIGELATYFNSFVGNLNDIIYSIKQLIFEVSEKTEKITFVLDNVSKGNRYNKRNNNLNEKIIEKGMEDLEENIEVVLDNVRNQTAGIEETLAELEEIAETGKKVQNNVEDSLKLSKETIDTAKIGESKIKEMAVGMLDISSSVERAEKKIKDLISISLGIGDIITAINSLSDQTNLLALNASIEAARAGEAGKGFAIVADEIKKLAEKTSDETEKIEKLVNDIQTEVSTVKEANDDIEISVRKGLEITESVKTVILSIINIIDKNDTEIRKITELTKDQTNSSEGITKVVKEITDNSTGIEELSINNSDISKGVRDLLDYSLAEINILIDLTLNLSKNISNFKIEENDKNQLKEI;locus_tag=LOCUS_12440;note=WP_010941069.1 methyl-accepting chemotaxis protein (Geobacter sulfurreducens) [pid:29.1%25%2C q_cov:59.8%25%2C s_cov:59.6%25%2C Eval:1.8e-40%2C partial hit],MGA_1244
sequence1	MetaGeneAnnotator	CDS	1425563	1426405	.	-	0	ID=MGA_1245;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015945412.1;translation=MCRINPRVDFVFKKLFGSEDNKDLLLDFINSVVSEDDRVTELELKNPYNDKNFRNDKLSILDIKAVDQRGRWYNIEMQIIDQEYFDKRALYYWARLYSGQLSTGINYDNLKKTISINILNFRCLDEENYHNIYKIINMESKDEFIDHLEIHFIELEKYNEKFSTMLDRWVNFLKRAEKYEENKLPKELEEVSTIKKAVEILEEMSLNKDERESYEARLKWLRDEDAALKKAEKKGIEKGIEKGIKKRNIEIAKSLLDVLDLKTIMEKTGLSEEEIEKLKK;locus_tag=LOCUS_12450;note=WP_015945412.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:36.6%25%2C q_cov:98.9%25%2C s_cov:97.3%25%2C Eval:8.6e-41],MGA_1245
sequence1	MetaGeneAnnotator	CDS	1426524	1427567	.	-	0	ID=MGA_1246;product=4-hydroxythreonine-4-phosphate dehydrogenase PdxA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545509.1;translation=MKNKILITMGDPAGIGPEIILKFYKDFFSKSGNNFIPVVVGDKEILKYYIGKYNLDLKVEDILGNYKNREEIKNIISKNIIPIINVEHKTIDENIAKAKELEIGIPTKQSGKMSMLYIEKALELTKDKTFDAMVTAPISKEAINLAGYHYSGHTSFLADNTNTKNYAMILKGDKITVVLNTTHLSLNDAIKKVKKENILKKIKLANKAKKLLGIKTKIAVSGLNPHNGEGGLFGDEEIKEILPAVEEAKKLGIEVEGPIVPDTLFVRMLKDEFNIAVVMYHDQGLIPMKMESFGLGVNITVGLPIIRTSVDHGTAYDIAGKNLADYGSLKKAVGVANIIIENSLGMD;locus_tag=LOCUS_12460;gene=pdxA;EC_number=1.1.1.262;note=WP_012545509.1 4-hydroxythreonine-4-phosphate dehydrogenase PdxA (Thermodesulfovibrio) [pid:41.8%25%2C q_cov:96.5%25%2C s_cov:97.8%25%2C Eval:1.6e-61],MGA_1246
sequence1	MetaGeneAnnotator	CDS	1427817	1429802	.	-	0	ID=MGA_1247;product=excinuclease ABC subunit UvrB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016236.1;translation=MFKLVSKFSPTGDQPTAIAKLIDSLDNNNKYQTLLGVTGSGKTFTIANVIAKTNRPALIMAPNKTLAAQLYSEYKAFFPENAVEYFVSYYDYYQPEAYIASTDTYIEKDSSINDEIDKLRHAATAALLNRNDVIIVASVSAIYGLGAPEVYRKMSLPLEKGYAPPRKEILKKLISIRYERNDIEFSRGKFRVKGDTVDIYPVYMDTAYKLEFFGDELEEISEIDPLTGKKIKKNLERIMIMPATHYVTEEKKIEKILNQIREEMITQVEFFEKNGKLLEAQRIRQRTQYDLEMIREIGYCKGIENYSRYLAERKAGETPYTLLDYFSKDFIVFIDESHVGAPQIRGMYNGDRARKTVLVENGFRLPSAYDNRPLQFKEFLKKAKQLVFVSATPGDFEIENSKANIAEQLIRPTGIVEPEIEIRPTTNQVDDLMSEIYKIAKRKERVLVTTLTKKMAEELTEYYLEFGIKVKYMHSGIDTLERVDIIRGLRMGEFDVLVGINLLREGLDIPEVSLVAILEADKEGFLRSRRSLIQTMGRASRNINGRVILYADKETKSMKEALYEINRRKKKQKKYNIDNNIDPKQIIKELPKDALNYDYETIIGDKKILEVKKIYRNKTQMEAEIKKLGKDMKKYAEELNFEKAIQARDEMKKIKEILLEI;locus_tag=LOCUS_12470;gene=uvrB;EC_number=3.1.25.-;note=WP_011016236.1 excinuclease ABC subunit UvrB (Fusobacterium nucleatum) [pid:68.8%25%2C q_cov:99.8%25%2C s_cov:99.2%25%2C Eval:2.4e-267],MGA_1247
sequence1	MetaGeneAnnotator	CDS	1430080	1430295	.	+	0	ID=MGA_1248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLRKLLFGTLALDFLLLFHQGKSKDSLISKIENKPKQMSRLMNVQKILFFCSFVHKKLLSPVNKQIDILF;locus_tag=LOCUS_12480;note=MGA_1248
sequence1	MetaGeneAnnotator	CDS	1430303	1431493	.	-	0	ID=MGA_1249;product=GumC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164930608.1;translation=MEENRQYVEEDEIDLLDLIKVIWKNKKLIIGITILITIIAAVVSIRMPKIYKSEMVFMAEQGDGSNGLSALASSIPFASMLGSSGGKSGINFITIMESRTFREDIVKNLKLYDYYIEKNEIDLSKLEEKDKPTITDIAEWLKNIVTVAQDDKSGTYTVDVELDDAEKSAEISNYYYTELERYIKEKNLTKAKRNREFIGKQLKLVEKKLKTQEEKLKNIEKKYNTVSIMDEAQALTEILTKLKTNVFELSGKLEVLKQFTGNENIEVKKLKKEISVYQGQITALEKGNKKLPIEMIALKDVPDIKIKMSRLQREVETTVSIYKMLLAQNETAKIDEVKENSVINILDPAITPKVPIKPNKKLNVIIGFVLGIFLGIFLAFFKEFIKGVDWNKIKED;locus_tag=LOCUS_12490;note=WP_164930608.1 GumC family protein (Aquifex aeolicus) [pid:27.3%25%2C q_cov:95.2%25%2C s_cov:90.3%25%2C Eval:3.6e-28],MGA_1249
sequence1	MetaGeneAnnotator	CDS	1431537	1432436	.	-	0	ID=MGA_1250;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164920959.1;translation=MAVFNIKFWGVRGSYVLSGNKGVKYGGNTTCIEVETDFGIIILDAGTGIIGLGKKIAAEKKHSDINILFTHTHKDHTEGFPSFLPAYFGNYKINLYGPKVLKDGIEEVISSSMAYSYFPVSYDEMGSLKNCTDINHTDVLILKKDSQKLKVYNKYHADFVSSENDVVVKILKGYNHPKNGVYIYRIEYLGKSFVFATDVESYIGGDAKLIQFAKDADVLVHDAAYDYKTYLKKQGWGHSTPEMAAENAKKAGVKKLFLTHHDPEDSEEDIEKKLEVAKNSFENSDLAIEGLEIDMLKNI;locus_tag=LOCUS_12500;note=WP_164920959.1 MBL fold metallo-hydrolase (Thermosynechococcus vestitus) [pid:35.0%25%2C q_cov:98.3%25%2C s_cov:94.5%25%2C Eval:5.7e-38],MGA_1250
sequence1	MetaGeneAnnotator	CDS	1432450	1433973	.	-	0	ID=MGA_1251;product=HD family phosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000836895.1;translation=MATKNDLMKELNKIGIALSAEKDTNKLLQLILEESIKITNSDGGSLYIKEIIDKEEKLKFKITKNFSREFPFKEFTLPLNKKSISGYVGLTGETLNIKNVNNIDSLLKITYNNSFDKSINYKTINMLVIPMKDYSGDVVGVLQLLNKKKEEGTVLGEPDTIEKNIISYTRDEEEIITSLASQAAILLERTRLYNEIEELFQSFIEAMVSTLDARDTTTSGHSRRLAGYAIELAKAIDRIDYGPYKDKTFNKDEIRQLYYAALLHDIGKVGIKENILLKRNRLTDDRMETIKYRFQYFKKNLELRKVLHRLSDYETELLLKIDKYYEIISDINKKGFVTVDEENMISKISMVEFIDVDGTNRNLLDEFEIENLMIKKGNLTDEERREMNLHVTFTYDILEGIKWTKLLKRIPEIASGHHEKIDGSGYPHGLVGDEIPFEAKLLAILDIFEALTARDRPYKPPMAVEKALKILEFEVKDNHLDKYIFEIFVKEKIYELYKKELNKIVII;locus_tag=LOCUS_12510;note=WP_000836895.1 HD family phosphohydrolase (Leptospira interrogans) [pid:38.8%25%2C q_cov:97.2%25%2C s_cov:77.1%25%2C Eval:9.4e-104],MGA_1251
sequence1	MetaGeneAnnotator	CDS	1434002	1436470	.	-	0	ID=MGA_1252;product=DUF3536 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011058103.1;translation=MKNKKDIKKSYLVIHGHFYQPPRENPWLEAIEIQKSAHPFHDWNERINEECYRPNAFSKIFNSKGEIIKVVNNYSKMSFNFGPTLLSWLEKNDFETYNRILEADKESLKEYSGHGNALAQVYNHIIMPLADKEDKNTQILWGIKDFESRFKRKPEGMWLAETAIDYKTVDALIENDIKFTILSPYQAKNTREMEKKEWKDVLGGKIDSTKPYRCYSKTYPNKYIDIFFYDGPISSSIGFEDTVKDSSKYISRLKLALNEKAEHSQIVNIATDGETYGHHKKFADLTLAHLLFDLAPKNNFEVINYGYYLEKFGVVDEVELNEGKGEGTSWSCAHGVDRWKDDCGCNSGGNYGWNQKWRKPLRDGLNKLRDILKEIYGKEATPYFKDIWKARNEYVDVVLNRSLKNVNDYFKRNLKKEVDTEEQEFLLKLLEIQRNLLLMFTSCGWFFDEISGLETIQILSYASKAIQLAQDYTNQDIEKIFTNYLEEAKSNIKEFGTGKDIYFNMVKSRIVDFDKMVAHYAISSSFYKYSKKSEIFTYEIERDDFSKIEDGNLILNIGKVKIKNLITNEFRYVMYGVLKFGNMDFRCSVKNIFSNTEYFEIKREILKKIEKKFSIVESMRALDMYINSEYYTFNELLLETKRKILKKVTGKFFEDYKNTYEKIYTESSQVISALLDAELSIPEEYRIAAEYTFKNKITNLLEEFLENLNSQSSESELVSAIMSSKKLNYKIVNDKMKDRLKEKLNILIDELQFEKIEIIEDILKLFNISKLLKIDISTNHSQEKVYKFGLENYDKLSDINKNKFIELIKNLKFSEKTFDVIN;locus_tag=LOCUS_12520;note=WP_011058103.1 DUF3536 domain-containing protein (Thermosynechococcus vestitus) [pid:40.1%25%2C q_cov:94.4%25%2C s_cov:92.5%25%2C Eval:1.2e-175],MGA_1252
sequence1	MetaGeneAnnotator	CDS	1436467	1437879	.	-	0	ID=MGA_1253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIIILSNDKNIFIEDIEFFYDVKIFGENEFDLKKIEKNEKFYLLIDEENWNKNILKELLDLELNFKFAIFSEVNVIRFARKYYKLGASCVYNGKIKDYNIVDIISELDERVYDRFGYKELEKRNIEIENELTDYQVLYEMTKILRLELAFEEVIEKLLYLLENLVSGFSLFVLKRNEKEKHYYLKDGKSERISFLKKLLKYSKSSMLIDILENSIAFIPNFLDSKSWYSFPIIIKNNLRGYLLLVKHSELELSEKEEQIIIDILSHAGIIIENAYLLEESKNMNFEIVKSLVKAIEAKDTYTKGHSQRVAEYSYMIAKELGFSPAKLKELDMAAVLHDVGKIGLPEYILNKTGKLTDYEFEQIKKHPENGYEIVSQINNMKNIAEIIRHHHEKWNGTGYPLGLKKKEIPLTSRIISVADTYDAITSDRPYRKGLSHEFAVQELKKNKNIQFEEKLVDVFLKLMEDREL;locus_tag=LOCUS_12530;note=WP_012583578.1 HD-GYP domain-containing protein (Dictyoglomus turgidum) [pid:34.8%25%2C q_cov:73.8%25%2C s_cov:98.4%25%2C Eval:8.4e-51%2C partial hit],MGA_1253
sequence1	MetaGeneAnnotator	CDS	1437898	1438620	.	-	0	ID=MGA_1254;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947927.1;translation=MKIYEDETLEELTKFNMKIIQKKNGFRFSLDAVLISNFVKIDNKRKINLLDIGTGTGIIPLLLVNNENINTITGVELQENIASMSKRSVLINKLEDKIKIENIDIKDYEVEKKFDMIVTNPPYMKVKNGKVSNNLIKAISRHELKLDLNSLIESSNKVLKDGGSFNIIYRSKRFQELVNVITKHNFHIKRLRFIHTKVDKNAELFMLEAIKNRKKNIAIETPLNVYSENGKYSSEVESYY;locus_tag=LOCUS_12540;note=WP_011947927.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Clostridium botulinum) [pid:37.8%25%2C q_cov:99.2%25%2C s_cov:97.2%25%2C Eval:5.1e-41],MGA_1254
sequence1	MetaGeneAnnotator	CDS	1438627	1439508	.	-	0	ID=MGA_1255;product=regulatory iron-sulfur-containing complex subunit RicT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903716.1;translation=MEHNVLGVMFEVTKKRYNFEVIGDEQYKKGEKVIVDTVRGQEIGTVYAEVRVMDEKALVSPLKPVIRKANKNDTDKYDKLREDAKKAYEICKKKIFEHNLPMKLITAEYTFDKNKLIFYFTAEGRIDFRNLVKDLASSFRLRIELRQIGVRDEARILGGFGICGHELCCRKFIDKFDSVSIKMGREQGLVINPSKISGVCGRLLCCMKYEYEQYKEILADYPAVGQRVETPSGRGKTINLNPLNGYIYVDVKDKGVNKFNIDEIAFDKEEAKQMKESHNLGEHGSKTASLEKE;locus_tag=LOCUS_12550;gene=ricT;note=WP_005903716.1 regulatory iron-sulfur-containing complex subunit RicT (Fusobacterium nucleatum) [pid:58.4%25%2C q_cov:99.3%25%2C s_cov:92.6%25%2C Eval:5.5e-94],MGA_1255
sequence1	MetaGeneAnnotator	CDS	1439509	1440105	.	-	0	ID=MGA_1256;product=imidazoleglycerol-phosphate dehydratase HisB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009566359.1;translation=MVVRIKRIGEVTRNTTETKIYVKINLDGDGKYDVKTGVGFLDHMLELFAKHGSFDLICKAEGDTYIDFHHTVEDVGISLGVAIKEALGDKIGIKRYGTFHLPMMEALTRVSLDLSGRGFLSFNCEFTKDKVGEFDTELVEEFFYSLAYNGGINVHMDLIRGTNTHHIIESFFKGFAKALQEAVNIINDKIQSTKGVIQ;locus_tag=LOCUS_12560;gene=hisB;EC_number=4.2.1.19;note=WP_009566359.1 imidazoleglycerol-phosphate dehydratase HisB (Cereibacter sphaeroides) [pid:55.2%25%2C q_cov:96.5%25%2C s_cov:99.5%25%2C Eval:1.8e-56],MGA_1256
sequence1	MetaGeneAnnotator	CDS	1440106	1440783	.	-	0	ID=MGA_1257;product=DNA repair protein RadC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016743.1;translation=MKKELLNGHRKRLKEKYLNSGANGLHKYEILELLLTYAIPRKDCKIIAKELLNEYGNFTNIFSLTKEELMEINGIGENSAILINIINEILKINLKEKLNKKNKIENTLELIEYLKAKLSNNSKELFIIIFLDSKNGIIKDEILFEGTLDRNYIYPRELIKKIIFSNAKKVIFAHNHPSGDETPSKNDIKFTKKTKNILEEIEVELLDHIILTTNNYYSFLENNLI;locus_tag=LOCUS_12570;gene=radC;note=WP_011016743.1 DNA repair protein RadC (Fusobacterium nucleatum) [pid:44.0%25%2C q_cov:96.9%25%2C s_cov:97.0%25%2C Eval:9.5e-47],MGA_1257
sequence1	MetaGeneAnnotator	CDS	1440906	1442186	.	-	0	ID=MGA_1258;product=3-phosphoshikimate 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005457254.1;translation=MNKIYEVKPHKNFKAEVEIPGSKSVANRALILSALATGKTILKNMLFSDDTRYMMKALQQLGNKIDIDEENKVVTIEGNQNRNFGECELFVGNAGTAMRFLPTYISTGKGKVILTGIERMKQRPIKDLVEALTQLDVDVNYMENNGYPPIIINANRLNGTEVTIKGNKSSQYLTSLLLSTPYGENDITINIDGNLVSIPYVNITLTMMKDFGMEIKNYNFKKFEIKSGKKYQGREYSVEGDCSSASYFFGMAAITNSEIKVNNVKKDAMQGDIKLLEVLEKMGAEVEYGENFVIVRGNGKLKGVTVDMHHMSDVAQTLAVVALFAEGKTEIKNVYNMRIKETDRIKAVYNELTKLGAKVTELEDGLIIEPVKKYNEGILIDTYDDHRMAMSFSLAGLLIPNTKINDPKCVSKTFPNYFDEFEKIYK;locus_tag=LOCUS_12580;gene=aroA;EC_number=2.5.1.19;note=WP_005457254.1 3-phosphoshikimate 1-carboxyvinyltransferase (Vibrio parahaemolyticus) [pid:49.3%25%2C q_cov:98.1%25%2C s_cov:98.4%25%2C Eval:1.5e-107],MGA_1258
sequence1	MetaGeneAnnotator	CDS	1442252	1442623	.	-	0	ID=MGA_1259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKNKFKENLKMYILRGFIPGFCVTIYVGVDKNIDFFYIRYILAVLILSIPSFFIVSFFIFVLESTVIKLFKDGISGKIILFFAILIAFFRSYAMGNLFDTLPGFLELMIYGSVVIWLEKRI;locus_tag=LOCUS_12590;note=MGA_1259
sequence1	MetaGeneAnnotator	CDS	1442672	1443037	.	-	0	ID=MGA_1260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKNKFKENLKMYILRGLIPSIYGTISIGVFDNSFFIGDIPAVLILSIPLFFIVSFFIFVLESTVIKLFKDGISGKIILFFAILIAFLRSYVMGNLFDTLPGFLELMIYGSVVIWLEKRI;locus_tag=LOCUS_12600;note=MGA_1260
sequence1	MetaGeneAnnotator	CDS	1443039	1444064	.	-	0	ID=MGA_1261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMHRYEEKGFKTELHLVGEKDTIVLKGKSLTNLIMKYKAKMFFISGRILEDDFESLKLAKWSLVSSEKKEHLRKMILRIVKADNIVREIEINNVHVINYDGNYGTMTYSISLAQHNRNSAYKSMPVETKYGRGYLVLQGKDEKTNMFLNNISLGLNAAGSLVVLNAGKNVALRYLGIGTKSFIQTDMSFLARFNLYYLATHGTNLVISTSADIYFKAIGYEEGVGKVNPLKTIYEELGALIGKSFDKSRGGNYYEKKGKNIGKEAYNWVDLSGALLGAGTDLKEVTNSLKYGKNISYRIKFNKNFTYAVRKYKMSYMILAGGATARDINPIISDSKELSK;locus_tag=LOCUS_12610;note=MGA_1261
sequence1	MetaGeneAnnotator	CDS	1444107	1444904	.	-	0	ID=MGA_1262;product=tryptophan synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496709.1;translation=MNISEKFKKLGKNNEKALITYVAGGDPNYGSSKKIIKALIKGGADIVEIGIPFSDPMADGPVIQAAAERALKNKFSLKDALKLVGELREEDIENPLLFMSYYNPIYSYGIEKFIKDAKKVGVNGVIIPDLPPEESDEFYIIAEEYDFNLIMFLAPTMTEERLEKVISRANGFIYFVSVAGITGARKNVNENLENLIKKVKEKTEIPIGIGFGISSKEHVKGISKFADASIVGSAIVRKIEENLDNEEKMLEEIEEFVRELKSGTK;locus_tag=LOCUS_12620;gene=trpA;EC_number=4.2.1.20;note=WP_064496709.1 tryptophan synthase subunit alpha (Methanocaldococcus jannaschii) [pid:47.6%25%2C q_cov:100.0%25%2C s_cov:96.8%25%2C Eval:3.2e-66],MGA_1262
sequence1	MetaGeneAnnotator	CDS	1444904	1446085	.	-	0	ID=MGA_1263;product=tryptophan synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943010.1;translation=MKKETGHFGIFGGQYVPETLMPALEELEENYNKYKNDKDFLDELNYYLKEYVGRETPLTFAANVSKELGAKIYLKREDLNHTGAHKINNTIGQILLAKRMGKKRIIAETGAGQHGVATATVAALFGLECEIFMGEEDIKRQSLNVFKMKLLGAKVNPVKSGTATLKDAMNEAIRDWVTNVENTFYIIGTAAGPHPYPIMVRDFQSVIGKEAKRQIMEKEGRLPDYLIACIGGGSNAMGLFYPFVEDKSVKLIGVEAAGFGLNSGMHAASITGGKVGILHGNRTYLLQDENGQILDTHSISAGLDYPGVGPEHSYFHSIGRGTYVSVTDDEALEGFKFLTEKEGIIPALESSHALGYLLKLKGKLKEDDIVILNVSGRGDKDMNTVAKVLGVEL;locus_tag=LOCUS_12630;gene=trpB;EC_number=4.2.1.20;note=WP_010943010.1 tryptophan synthase subunit beta (Geobacter sulfurreducens) [pid:68.0%25%2C q_cov:98.2%25%2C s_cov:97.7%25%2C Eval:1.8e-157],MGA_1263
sequence1	MetaGeneAnnotator	CDS	1446312	1447241	.	-	0	ID=MGA_1264;product=inorganic phosphate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080645.1;translation=MIIFIIIAVSFVGWNLGANDASNIFGTIISNKILKFKTAGIIGTIFVILGAVIGGKNGIETYNSLYNGQDLKIALAISFAAGISVLIMTIFKIPVSTTHSILSGIVVSALISGNINVAPLFKIFTSWFLSPIGAMGLGYIIYKISRKFIRNKIKNVLVFNKFIKILAILIGIYGSYSLGANNVANVVGIFAKGTNFSINLWLILGGISISFGLVTYSKRVMKTVGLDIVYLDNYGALVAVLASAIVIHLYSVIGVPVSSSQAIVGGVIGVGMTESVRNINYKIILKIVSGWIYSILISGFLTFIFIKLL;locus_tag=LOCUS_12640;note=WP_004080645.1 inorganic phosphate transporter (Thermotoga maritima) [pid:42.8%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:3.1e-66],MGA_1264
sequence1	MetaGeneAnnotator	CDS	1447248	1447892	.	-	0	ID=MGA_1265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKIRIEDLRLELESYMDKVIETYKQFEYSIVKYMEQGLILEVEDEFLKIHKLEYEADILRRKLIENIIKSEMLLKSMEEFIRLIELIDKIANMSETIIDNILVKKIDENKIDINIIKEILTITENQVLRLKDAVSNLFLDFDIAYKKARELEIDEQSVDELERKCLKKLRDSEISLNGKIYYRDFINKIADISDLIEDIGDEVEKISTIRRV;locus_tag=LOCUS_12650;note=MGA_1265
sequence1	MetaGeneAnnotator	CDS	1448135	1449454	.	-	0	ID=MGA_1266;product=PhoH family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942511.1;translation=MIKVYILDTNVLIHDPEAIFSFEDNEVILPIYVIEEIDKLKKEQTEVGSAARRTARNIDKLREKGTLSNWIKLDNGGYFKVETKGNFKNLPDALQNEVMDNRILSVAYEISNENSEKEIIFVTKDINMRIKADSLGLEVQDYETNKIRIEEFYTGNLDIEVEDEKVNEFYNNGYLKRKEIGEINLYPNQTVTVISKKSHKKQGLTVYKKNKDRLKKMTFGKASIWGVDGRNKEQKYAIELLMDMDIKVVTLIGKAGTGKTLLALATGLEQVVERHLYKKLFIARPIMPMGKDLGYLPGGEKEKLKPWMQPIYDNLAFLSANKEGKEAEKLADSLEAMGLLKIEALTYIRGRSIPAGFIIIDEAQNLTPHEIKTVITRAGEDTKVIFTGDPYQIDNPYLDANSNGLTYLAERLKGEEISGHVTLLKGERSELAEIAAKLL;locus_tag=LOCUS_12660;note=WP_010942511.1 PhoH family protein (Geobacter sulfurreducens) [pid:51.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-124],MGA_1266
sequence1	MetaGeneAnnotator	CDS	1449621	1451426	.	-	0	ID=MGA_1267;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016545.1;translation=MKKIRNIAIIAHVDHGKTTLVDAMLRQSGVFNSHETVTDRVMDSNDLEKERGITIFSKNASLNYDGYKINIVDTPGHADFGGEVQRILKMADSVLLLVDAFEGPMPQTKYVLKKSLELGLRPIVVINKIDRPNSRPEDVVDMVFDLFVELNANEAQLDFPIIYASAKNGVSKYNLEDDNDNLIPLLETIVKHVDEPEGDENAPLQMLVTTIEYDNYIGKMGTGKIHNGKIKLGEEVVLLKRDGERLLYRISKIYTYNGLKKVEIKEASAGDIVTVAGLEMVDVGETIADRENPIPLPIIDIDEPTLAMTFMVNDSPFAGKEGKWITSRNIWDRLQKELQTNVSLVVEKTESADAFIVKGRGELQLSILIENMRREGYELQVSKPQVIFRELDGKKTEPLELALIDVPDEFVGVVIEKLGIRKGEMINMIQGNDGYTRLEFKVPARGLIGFRNEFMTETKGTGIINHSFYEYEFYKGEIPSRTRGVLISIDNGVSVAYSLFNLQDRGTIFIPAVTEVYEGMIIGEHSRENDLVVNACKGKKLTNTRSSGTDEAVKLVPPRQFTLEQGLEYIADDELLEVTPKSIRMRKKILNASLRKRSKKN;locus_tag=LOCUS_12670;gene=typA;note=WP_011016545.1 translational GTPase TypA (Fusobacterium nucleatum) [pid:69.1%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:2.0e-249],MGA_1267
sequence1	MetaGeneAnnotator	CDS	1451657	1452223	.	-	0	ID=MGA_1268;product=GNAT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000639830.1;translation=MKRLFKLKLRELQLGDIEDYQVWTHPSRIYHKYNGPYYKHANEKEHEENIKTLRSRLESGEQNVLGNREIIADMETNEIIGLVNWYWKSKETNWLEVGIVIFNENYWGCGIGYKALALWIDKVFETKDELVRIGLTTWSGNVRMMGLAEKLGLKKEAEYRNARIVNGVYYDSVSYGILKEEWEMLKHE;locus_tag=LOCUS_12680;note=WP_000639830.1 GNAT family protein (Streptococcus mitis) [pid:38.0%25%2C q_cov:94.1%25%2C s_cov:92.5%25%2C Eval:3.9e-31],MGA_1268
sequence1	MetaGeneAnnotator	CDS	1452327	1452713	.	-	0	ID=MGA_1269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNSKYCEVDLLEKEKAVYCKWKKFCEYDNYRKPLIYGLKLIQNNNLKNWITYANDGFENNPDDTEWLLNEFSPKIKDSTCKNIFFIVEPNNKLIEEVINQKRALSKNFNVEICNNINEVRKLIKILN;locus_tag=LOCUS_12690;note=MGA_1269
sequence1	MetaGeneAnnotator	CDS	1452788	1452955	.	-	0	ID=MGA_1270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHIGDSIGSDILGAKNCGIKSIWLKRNKINRTNESIENICIDLNEVKNFIETKI;locus_tag=LOCUS_12700;note=MGA_1270
sequence1	MetaGeneAnnotator	CDS	1452999	1453979	.	-	0	ID=MGA_1271;product=LD-carboxypeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004399250.1;translation=MMIFPEKLKRGDEIRIIAPSKSLSLISEETRDIANKCFEEMGLKVSFSKNCEKSDEFDSSSIEERIEDLHEAFLNKKIKGIFTALGGYNANQMLKFIDYELIKNNPKIICGYSDITVLLNAIYKKTGMITYLGPYYSTFGMKKGIDYTKNYFKKIFFNNEDFIVEKSLEWSDDLWFLDQENRIFYKNEGYRIINKGIGKGKIIGGNLSTLNLLQGTEYMPNLENTILLIEDDKLTFPENFDRDLQSLIQQPNFEKVRGIIFGRFQITSKMKEEIFLKIIQSKKELRNIPIVSNVDFGHTTPQITFPIGGFSEINLVDKVEIKISVK;locus_tag=LOCUS_12710;note=WP_004399250.1 LD-carboxypeptidase (Bacillus) [pid:52.2%25%2C q_cov:96.3%25%2C s_cov:96.6%25%2C Eval:1.0e-94],MGA_1271
sequence1	MetaGeneAnnotator	CDS	1454241	1454858	.	-	0	ID=MGA_1272;product=LysE family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011181585.1;translation=MQKIFFKGLTTGLLLQMAIGPVFVFIAKISLQNGATTALSAVIAVTIVDYIYIILAIMGVGKILEEEKTKRIVGFISSVILIIFGLLMIVKGISFMPKNIQVEIINSGLKQSFILAFILTISNPLTIVFWTSIFTAKMIEYSMGKKELIVFGIASGLATFLFLGLCVIILSFMKTMIPEKVIQILNILVGLLLIVYGIIRSIKTK;locus_tag=LOCUS_12720;note=WP_011181585.1 LysE family transporter (Bacillus) [pid:22.9%25%2C q_cov:92.7%25%2C s_cov:91.0%25%2C Eval:1.4e-11],MGA_1272
sequence1	MetaGeneAnnotator	CDS	1455198	1455740	.	-	0	ID=MGA_1273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQLDPSKVEASAIDFTIEELIPYIQPYREKYTKDGAIGMLPHISIIYPFFRNLSDINNNLSRLEKLCNTISKIDISITDIGYFMSNEIMYFKPTLQEPILDVIKKFATEFIETPPYNGKISIDNLSAHITISSSKNHNVQIEKELALLKEKIPPNIKLNKINLNIKYDGKWINYKTFQL;locus_tag=LOCUS_12730;note=MGA_1273
sequence1	MetaGeneAnnotator	CDS	1456169	1456642	.	-	0	ID=MGA_1274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKNGRKAIYKGKEYRVLRIKGDKTKVELISHDEEDLVENGFELVYNERTKLPEIGIYSKIVPLEEIENAYSLRTIIWYKGRDFYIHNEAENGYFRVFGSWEFQKKHNLEIISVDGPNDLTLKIPKAEVEKVELEKEGILGFEVSEDERLMEIELD;locus_tag=LOCUS_12740;note=MGA_1274
sequence1	MetaGeneAnnotator	CDS	1456660	1459518	.	-	0	ID=MGA_1275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEIYSYDSLGESVRTEIILKPLTTDGSGEKIHLTSNFIKGMNLDYSSKVYQIKGYYPNNDYEETKEGIKLAKWAGLVNRNDFNNSTSSIRKIEIRIVKAGQVEREIKFEGCALSYKEEYIGVEHYFYLTLREVEEMPYYNNLIFPKSEKILQITFKAYKENKGLDFVFKKLGESYNLSEYKESSHILLNNNIKKKAMRRQKDLHINYWVMELWISALSKNLEKVSFRLNVYLSKEGYEILLNYKKPLMELKRLIGAVGSYIAEKILSKERVELKKSELSSIMYLYSKDLREVVEQENIKFKISRILGEEKVKKSGSSGSLVVSMKAKEDDRRIVNEEENYGPIREEFKEEELKKEEEKIIGINYLYQDGSAVESAYYKILDKNGELFQEGKLDKNGKILIEGKIPEGELEAHLGEDERKYKPEIKPEVNPNYNPRASIEEILTKEESIKEDSWYEEIYNKTLKGLKEAGNWSKGVLLGDFEENPTTGQIIARMLLTMIPVIDQIGDIEDIVANILHLCDESEENDQQAWLGLILTTVGMIPVAGSALKGIFKIILKETGEAALKGMLKLLRKMGKGDPIKFLEKLDWEKLRKSSTKNLQKVFDSSIDGFKKIKEKIPGIGKFKELIETLEDIINRLEKLKVQINRRVKEFFEEMQDKLSEILSNKELVEANTGIRVKVKAVPKSSYKEIEDIREIKKTEVREGNVIAKTEESELERKSLEERAVKNADEVLKIEGRFTRKYVKGLKSSEEIIKKRVLKLGKDMKYFKKLLLKQGDELSESEAKFIKEVRDSISSPTEDTLLQKVMPIEKLDDIFNYTTIRGCTAKAGDVQDLKTIEEIYDGLRLDYEGSLFTEADKCVAIRYKVEEPEYLTVPYSKKIDINTKKMDNIDSPQTGHGFIKNDRCIPEYESWIKGKPEGLMPTEGEVYIVSKDGSEELIGEFNSKKEIWKKLK;locus_tag=LOCUS_12750;note=WP_005493834.1 DUF4150 domain-containing protein (Vibrio parahaemolyticus) [pid:27.3%25%2C q_cov:35.5%25%2C s_cov:45.0%25%2C Eval:7.4e-26%2C partial hit],MGA_1275
sequence1	MetaGeneAnnotator	CDS	1460217	1461581	.	-	0	ID=MGA_1276;product=bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015965.1;translation=MKAIAIILAAGQGTRMKSNLPKILHKVNGIPMVKQVIKELDKAKVEKNILVLGHKIDEVLEELGEVEYVVQNERLGTGHAVMQAEEKLKDYDGIVVVLCGDTPLITAKTIDMLINEHINNKEAATVLTTDFENPFGYGRIVKNTSGNIEAIVEEKEATEEIKAIKEVNTGVYCFDSKKLFKALHKVGKNNEKGEYYLTDVVKILKENGENVKTHKISDNKEVYGVNSKVHLSTAESILKDRKNMELMESGVTLIDPSTTYIEMDVKIGKDSIIYPGAIIQGNTVIGENVTIIGNSRIVNSEISANVVIESSVIEESVVEEGVTIGPFAHLRPKAYLKKNVHIGNFVEIKKSTLEKGVKAGHLTYIGDSEIGEDTNIGAGTITCNYDGKNKFKTIIGKDVFVGSNTKFVAPVVIGDNVLIAAGSTITEDVSKDSLAIARARQVVKDGYLKKIKKS;locus_tag=LOCUS_12760;gene=glmU;EC_number=2.3.1.157%3B 2.7.7.23;note=WP_011015965.1 bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU (Fusobacterium nucleatum) [pid:56.1%25%2C q_cov:98.0%25%2C s_cov:99.6%25%2C Eval:5.4e-140],MGA_1276
sequence1	MetaGeneAnnotator	CDS	1461595	1464390	.	-	0	ID=MGA_1277;product=SMC family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016450.1;translation=MRIKKVKLKNYRVHKDVEIEFTNGINLLLGKNGKGKSSILEAIGMVLFNVSQKERPNKDSILYGEKSAEIYVEFVGVDGNEYGVKKKIGTSPVNELRALNKNVILAKGTNDINIELKKIIGIENNVSAIFENVIMAYQNKMVNIFTEKGENRKKLFNKIFNTQIYREIYDRYSKSLANKYNDSLNLLIGEINGLKSNLQDLNLLKESLEERKIKKVDIEKELDKLILELNDFEIKKENFEKIKRKLEKERELENGILINLETTKNYILEREDELLNSKDALKKVVETEKDYLKYVEVEKKISELEKLHKDKLEFDLKLKKIKEGKLKSENQISINKSEINKYIELAKKDKNQILKSKEEVEKLEEELNEIKKNGKEYRKSEEKLEEEINNYKKIFNSINDLNNEKKIKIKDKSNTEKNIKLEEEFLQKKDILEKEIDDYNKKIEEKNSLNREIEILNYRVKELKNAEKSLIKGECPYFEEKCKNLNSINTNRYFEDTKEKYVEKIDNINEKLENYKEVEKELKKIQTEKNRLEGQLSNIKSDKLKLDKLKLEIENIDKNIEIKKLKNREYEFTNEEKEKLDLSLSKIKSKLENLIDEYNKIEKSKKNKLEEQRKYEKNIEESENLIKSIEGKNEIIETKIEKLDKEIEELKNIPNELEKLTIEIDELKGKKLILKKNYGIYQENINKSKELDRIEESIKKEEQKKKDLLKKQSKTVEAITELEGKFIKEEYENILLEIKNLKLKKENIVEEKIEVKQEIEHIEKNIIIEKEKSKQIKEKEKEEKRINLKNSLLKEFRDGLNELGPKIAKKFMEKIEILSTDNYRKITGRSEEVKFYDNYSLVLKGANIEKSFNMLSGGEQIAVAISVRSAMAKFLSNTNFAIFDEPTINLDEERRLALADSFKEIVGNLEQAIIVTHDDTFREMAQNIIEL;locus_tag=LOCUS_12770;note=WP_011016450.1 SMC family ATPase (Fusobacterium nucleatum) [pid:28.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.0e-102],MGA_1277
sequence1	MetaGeneAnnotator	CDS	1464547	1465740	.	-	0	ID=MGA_1278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIMHISDIHLGRKPVGGQGLFAKKRYEDYFKAFRKAIEIAIEKKVDTVLIAGDIFDKKELYPEVLEKTENILKNLKENNINCVVIEGNHDNIYFNKEVESWIIYLEKKGYFKRPTYYFENEKYIFEPVIINNIYFWGVGYPGAFVDEVLLELSDFIDEKEENIILVHTGIAKNDFLAGTINGDILNNFKGKVKYIAGGHLHSYAEYPKENPYFFLPGSLEYWDLAENGEKKGAIIFDTETMEREFITFKDFIRKKIDIKFEVESNNINQFQEEFIKKIEDIKIEKEEDIVIVEMTFKKYFFIDINWCEKALEEKGALKAIVKSKYPKIEKQGSIGDISKNIEEIEKDIIIEWENDFSANSEETVKVLEKLKNLQEEKQEDIFIDTFDQFLEKIVQS;locus_tag=LOCUS_12780;note=WP_010942369.1 exonuclease SbcCD subunit D (Geobacter sulfurreducens) [pid:29.6%25%2C q_cov:58.4%25%2C s_cov:57.9%25%2C Eval:9.0e-19%2C partial hit],MGA_1278
sequence1	MetaGeneAnnotator	CDS	1465934	1467037	.	-	0	ID=MGA_1279;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868699.1;translation=MIMFLYFLIVVFFISSGVYKKRYIRNMASKNVYSEKISIIIPAKDEENNIETILTSCLNQNYSKELYEVVLINDRSKDKTLELAKKFEKEFKNLKIITIKKKESNLYGKQNALDVGIKNATGDLILITDADCKINKNWVRRMSKYFAGKDLGMVIGKTEITHMQNPNFLYRLQTVAHRFLMEIAQVPIMFGYYTSGIGNNLAFRKNAYIKIGGYENLGESILDDEILIRGFARKGYKLAAGFTKNSIVETNPMKSYKELFNQHKRWIVGSLNIFTPSGLLVFVQYFFNIYTIYSLFTGDKSVIFKLIGDYLLYSKLDIENGRILRIVDKIAIVFFVPFYITALGTAAIINPKTNWKEQKYKKKILKK;locus_tag=LOCUS_12790;note=WP_010868699.1 glycosyltransferase family 2 protein (Pyrococcus abyssi) [pid:26.4%25%2C q_cov:92.4%25%2C s_cov:94.6%25%2C Eval:5.0e-21],MGA_1279
sequence1	MetaGeneAnnotator	CDS	1467232	1468029	.	+	0	ID=MGA_1280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNITEYLKDISYNELLSKSEEKELAILIAEGNIEAREKLIVSNLRLVVSIAKKYIGTGMSIQDLIQEGNIGLIKAVSKFDPYMGKRFSTYATWWIKQSILRAISTNKGAMRYPAYVHDSISKITKFIRSYKVSFESYPSVIVIAKNLEMRNEEVERILNLINVSYVSFDETFADNIDFHNIIADDDLLEEQIFDDFENHQLMNLLNYLNPKEKIVLIYRYGLFNTNPLTLEDIGEKLNLTRERIRQIQNAALSKLKKKATLYFSN;locus_tag=LOCUS_12800;note=WP_004081730.1 RNA polymerase sigma factor RpoD (Thermotoga) [pid:41.7%25%2C q_cov:96.2%25%2C s_cov:63.4%25%2C Eval:2.3e-48%2C partial hit],MGA_1280
sequence1	MetaGeneAnnotator	CDS	1468149	1468862	.	-	0	ID=MGA_1281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIILTMILALSILGCASKTIIISEETVKKSQQEKLIKDFITNISDENYIRENSVNYSDELYNKIKIEDLYFYNILSVEIENDIAKIKILKLKKIVKKIDDPIIVYPNENSEKYKNLIFNENVGEINIGIECFYNETDNQGIKHEKTINKDIEYSFSDINTFSIGIGRNRGIKTIVSIFKDGKEKKDILNVSGEITKIEVISLKYGTKDKDETSNDYNLKIINENGKYKIDMESFK;locus_tag=LOCUS_12810;note=MGA_1281
sequence1	MetaGeneAnnotator	CDS	1468874	1470148	.	-	0	ID=MGA_1282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNLVIIMLFVLTAVSFSQENGSAGVGMGVLKQGDESTPVLKMNFSPELQFGRLGLGLKLGIYLTSGGLADYNNDGKKDMHDIDFGFKYIYWNGEIFKFRYGVLNNYILGHGTLVNRYSNNEKTSLVLGINLPEKAAGIEGFMPLKKDILGSAIPTEEQPHAVGGRVYVRPLKVMGTAIPVINNSEIGVTYVTDNRDEFSGVKGSVDGTAYEFAIPLLEDQNASFIPYYDLVKVNGELGEKSNDGSGNFIGVMGKVAIIDYRLEYRDIDRNLIPGYFGKFYEISAIDNLNYLIGTESNEKVKGYFGNVDFDFMGTAKFTLSYEDYKDENIKPHLFAKLDVTPTKKLKSTIIYEQQNMGAENHKDNFLNEDTYVKAHIIAPGYMFGVPGPTNVAIDIKQTYFYDNDKNEYVPNRDYSMNIIFNF;locus_tag=LOCUS_12820;note=MGA_1282
sequence1	MetaGeneAnnotator	CDS	1470332	1471576	.	-	0	ID=MGA_1283;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081014.1;translation=MNLEYLRKEDPEIADVIEREEERQEYGIELIASENFVSKAVMEAAGSVLTNKYAEGYPDKRYYGGCQIVDIAEKLAISRAKELFDVEYVNVQPHSGSQANMAVYIALINPGDTVMGMSLPHGGHLTHGSKVSFSGKIYNSVSYGVAAGTETIDYEEVRKIAIENKPKLIIAGASAYPRIIDFKKFREIADEVGAYFVVDMAHIAGLVATGLHPSPVPYAHVVTTTTHKTLRGPRGGMIMTNDEEIAKKINKAIFPGIQGGPLMHIIAAKAVAFKEALSDSFKEYQTQVVKNAKVLADELTKAGLRIVSGGTDNHLMLVDLTPKGLTGKAVENALVKAEITVNKNGIPFDKEKPFVTSGIRIGTPSVTTRGMKETEMVKIAELIVKVIDNIDNEDIIKEVKNEVRKLAERFPLYR;locus_tag=LOCUS_12830;note=WP_004081014.1 serine hydroxymethyltransferase (Thermotoga maritima) [pid:67.9%25%2C q_cov:99.3%25%2C s_cov:97.7%25%2C Eval:5.3e-163],MGA_1283
sequence1	MetaGeneAnnotator	CDS	1471588	1472856	.	-	0	ID=MGA_1284;product=alpha-amylase family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082154.1;translation=MNKNLILYNLFPKAAGKISDWIDYLDEIKYMGFNSVYLNPIYETGFSGSLYAPRDFYKINNNFIDDYFDGSPEEQLKNFVEEAHKRGLKVIFEMIVTHTSIDSELLLDHPEWYKYNGDRVKSFSANDNLGFVEWADLAEIDNYNSAEKENLWLYWEQLAKYYISTFDIDGFKCSTAYKVPIELWNKIIKSSKEIKNDIIFIADNLGSDFNKMVELARGEFDYLFTSLKWWDFNETWFLEQHYTLKNLVGLISFPESYNTERIVEEYGEMCSSKSWYGLSAFMNSGVMLPIGYEFGVEDRLDVIMSSQIMSEDKRFNISDYIKRINEIKNSYNIFQQETELYFLDFEKEKLVVLKKSTDIENVLLIINLDFDNHIEIKIEDLKSILDGDEIIDISPEDKQNDINNFYKYKLSPGEIRVLYSKK;locus_tag=LOCUS_12840;note=WP_004082154.1 alpha-amylase family glycosyl hydrolase (Thermotoga maritima) [pid:23.3%25%2C q_cov:92.7%25%2C s_cov:93.8%25%2C Eval:1.1e-25],MGA_1284
sequence1	MetaGeneAnnotator	CDS	1473209	1474237	.	-	0	ID=MGA_1285;product=phosphoribosylformylglycinamidine cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393542.1;translation=MSDKLTYKDSGVDIKAGAKFVEAIKKSVKSTYRDGVIGDLGGFGGLFKLGQYKEPILVSGTDGVGTKLKVAFMMDKHDTIGIDAVAMCVNDIVVLGAEPLFFLDYLATGNLEVEKQSAIVEGIADGCKQSGCALIGGETAEMPGFYNSEEYDIAGFSVGVVEKDEVIDGKEIEDGDIVLGLASSGIHSNGYSLVRKLFFDKLDWKIDRYVDELGKTLGEEILTPTKIYVKSLLNLKKDVKIKGLVHITGGGFIENIPRILPENVDVEIEKESYEVPAIFKLMQKLGNIEEKEMYKTFNMGIGMAVIIKENDAEKSISILEENGEKVYKIGRIVNGKRNCKLV;locus_tag=LOCUS_12850;gene=purM;EC_number=6.3.3.1;note=WP_011393542.1 phosphoribosylformylglycinamidine cyclo-ligase (Moorella thermoacetica) [pid:56.6%25%2C q_cov:98.5%25%2C s_cov:96.9%25%2C Eval:3.6e-111],MGA_1285
sequence1	MetaGeneAnnotator	CDS	1474281	1475654	.	-	0	ID=MGA_1286;product=amidophosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942281.1;translation=MFDEIHDECGVFGIYSNKQENAKLTMYGLFAIQHRGQESAGIATTDGYGINYHKDMGLVSSVFKDEKTFDKLKGNIAIGHVRYSTTGDSEVVSAQPLVIRHSKGDLAIAHNGNLVNTGVLKQKLEEQGSIFQTSNDTEAILHLIARSLEDNIEDSIVDALGQVKGAYSILFMTNDKLIAIRDPLGIRPLVIGKIDGDYVFASETPALDLIDAEYIREVEPGEMVVVDSNGLRSEKVFFKEKTAKCIFELIYFGRPDSNLFGRNVYLIRKEIGKQLAREHKIEADIVIPVPDSGISAAIGYAEESGIPFEKGIMRNHYVGRTFIQPTQLDRELGVKKKLSPIADVIKGKKVIVIDDSIVRGTTSRKIVKLLKKAGAKEVNMLIAAPPVVAPCYYGIDMPTRKELIAATHTLEETKKYILADYLGYLSVKGMHKAIRTEKNEFCDACFTGKYPIKFPDM;locus_tag=LOCUS_12860;gene=purF;EC_number=2.4.2.14;note=WP_010942281.1 amidophosphoribosyltransferase (Geobacter sulfurreducens) [pid:59.0%25%2C q_cov:98.2%25%2C s_cov:96.1%25%2C Eval:1.3e-157],MGA_1286
sequence1	MetaGeneAnnotator	CDS	1475746	1476450	.	-	0	ID=MGA_1287;product=phosphoribosylaminoimidazolesuccinocarboxamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047943.1;translation=MEKKELLYEGKAKRVYGTDEKDLVIQEFKDDATAFNGEKKGTIVGKGVVNNKITSILFKLLEENGVHTHLVEVLDDRNMLIKKVEIVKLEVIIRNIAAGSFSKRYGVEEGVVFDSPTIEFSYKEDALGDPLLNDYHALALKLATKEEIEKIKNYAFKINEILKKYFDDRNVILVDFKLEFGRTSDGEIILADEISPDTCRFWDKKTKEKLDKDRFRRNLGNVESAYKEMLKRLS;locus_tag=LOCUS_12870;EC_number=6.3.2.6;note=WP_012047943.1 phosphoribosylaminoimidazolesuccinocarboxamide synthase (Clostridium) [pid:61.1%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:2.4e-80],MGA_1287
sequence1	MetaGeneAnnotator	CDS	1477088	1479727	.	-	0	ID=MGA_1288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNIRATIEILFKKQNPEKMLYKYYNSIKEKNVDRDLFIATYSYENPTKYNKDEIENVYSLLDSNWKKLEGVKEDSIFNVLANFTKGILIENKGVPLCKYKELLRWRELSYLLGEDLLTTAYFAYKDFTISYNRTIFAWKPIISTDNTMLKEIMKKGCAENHFHLKGSAPHFQLAWISLMNNIEGRDKEFKKIEKETRLSPDVNYGFENFSLELKALVKKASAIRLFLYKKFILKEKIEKVENFKMNYILKSKNNSEIKLFIRDLQNEINKLKYSNGKKLNGEIPDYIIPKKISLNNYNKDNMKYNGNILLYGERFFLYTIFKTFFEGDKEIIKYKRLIHTYILIKERFRDELIQINRRVGFGNFSDYQNRKNIFLGKGIYEKAVVSMAINSSLYDQHINYLEARIAPEKNNAELSKTIEKLDENIESEMFYDVKDFKNLNFENTSIKKEVKDKKKYFYVIHFIKKQEKYKEIMEMAKNTPIVLYVKPLNYQLRRLLKKQADAIINLRKSSGEAKNRIYGIDAANFEIGCRPEVFAQCFRYLRNYKITNKFEEFGKDEIFNLGITYHAGEDFLSLIDGLRAIDETIRFLGYEQGDRIGHALALGVDANKYYKDKNYTLIMPKQIYLDNIAWMLAKIRELNIEIDENLKSKLCSDYYRLVSEIYEKEYSYENYYRAWKLRGDDPNIYKDKDYKLKSSLTFWEKCSIDPRKEMIEIRKNEEIVEIYRKYHFNKNVKERGIKSEEIKINKKMGKIVTEIQYAIQKELANKNICIEANPSSNYVIGNFKRYDGHPITKFYNIGLNVSEEENQKSSQLSVSINTDDQGIFGTYLENEYALITLAMEKLLDENGERVNKPMMVYEWVDKIRALGLEQSFLRRNEK;locus_tag=LOCUS_12880;note=WP_015705077.1 hypothetical protein (Klebsiella aerogenes) [pid:26.0%25%2C q_cov:40.8%25%2C s_cov:45.3%25%2C Eval:7.2e-20%2C partial hit],MGA_1288
sequence1	MetaGeneAnnotator	CDS	1479727	1482270	.	-	0	ID=MGA_1289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADESVIKINLGEEYKAKVEKINEFEKSVFNEVYLKAFKNTAEILKSKGIELHENYNNIIAFAGERGTGKTSAMLSFAGVLKDNDKLKNNKDYNLSVEDKKLSSYNFCSVGVIDPALLSGNSNILEIIIAKMFQTFKNDIETKNEVKNENLKREIIGSFEKVYENIKIIKDKRDVFEEEALDALLKIAESTSLKSDVEKLIGSYLEFMNNDEKKEKNGILVIEVDDIDLNTEYAYEMVEQIRKYLIIPKVVILMAIKIEQLEQIVERNYLKEFESLLDKKAMSYDEIKNMTEKYLEKLIPLERRLYLPKLEDIRMTSKVEVNYENGNKIEGGIIDQFVRKQIYLKTDMIFIDGKYIIPDNLRGLVELIVLLVKMEDVRDLKKRKKERIEIINSENFIKFKEYIFENWIKTYLTYQQQNALKELVKRDVTERNKFIINKIEDIYSLLDKDDEYRARARARGKGDYEQEIEYQNIVNLNNNGANVSLGDLLFVLNKADRYKIELQDKKFIYAIKMIYSIMLYELYAKAVKEAKEAKFTKVIKVAEVEKAAAKKTYSDYQKLLGGYLYNPIEYKIMRKEQDSNEKRDRRDMKVDKIKSFSEEYKKNGSKLDAEELLNKFNIKSSEFNFIKNNIYRKEKEVYYNKKDNSKPTKIQFDILGFLFNREPTSDSDFYIGNIEILERILNEDYKAVNKSYFVHFKTFFKNFKELEINFNLGADEKLELKDDAQICDIYNFIIDIEKKELEGKFNDIFKVEVDIDKLIGELITEIDGLKITNRITNINTIRNSFSNIKNIIENNKKISEDYKKEIIDFIEGKETEAEEMKTEKGKIRIKDFVEKIKEKINSTKGIE;locus_tag=LOCUS_12890;note=WP_015705076.1 hypothetical protein (Klebsiella aerogenes) [pid:24.9%25%2C q_cov:34.1%25%2C s_cov:29.1%25%2C Eval:2.6e-14%2C partial hit],MGA_1289
sequence1	MetaGeneAnnotator	CDS	1482646	1483899	.	-	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVRIFLMLSLISISLSGCIVMTYKTNEVTKVFNNAEQQINKSSKAYNDAFLSYNGMYEGLKEELNVNNKKIAVLLSKKMQKLGKELDEFNGLKKEMDSIIIEYKKLSKNKKEFRSDEKEWKQFQEVKNKYNVVKNKIIKNGKEFQSGMNDVVKIFNKNKLIKVFNLNDILKQIGNNTVLINQSLAKQKTQFEKARTILDEIYLNINEKDISPYNNLEELMTKITQIRENEYKEIEKINKLKGKIKEISLKTAVIKNSSKEWPEFNKINNNLKETVKTIENYSASYNNEASKLVNIMNKYKINRINVIEISTKVNKMIGTIETNVNEINSEINKNKNKKLNSKQKKKISKIEAVIKKINNKKNEAKKIISEFEKEVNGKSEIAIGPGMRTHSIIVDLGNISKSLNKDISEYNKLIK;locus_tag=LOCUS_12900;note=MGA_1290
sequence1	MetaGeneAnnotator	CDS	1484127	1484528	.	-	0	ID=MGA_1291;product=endonuclease domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942019.1;translation=MNYNKKLISIAKKLRKEMTQQEKHLWYDFLRHYPIKIYKQKVIDNFIVDFYCYKAKLVIEVDGSQHYTEDGIEYDKARTKVLNSYNLEVVRFSNYEVENRFEEVCESIDEIIKSKVKDSPSQSLRDSSPKGRA;locus_tag=LOCUS_12910;note=WP_010942019.1 endonuclease domain-containing protein (Geobacter sulfurreducens) [pid:45.0%25%2C q_cov:83.5%25%2C s_cov:91.0%25%2C Eval:7.3e-25],MGA_1291
sequence1	MetaGeneAnnotator	CDS	1484808	1486649	.	-	0	ID=MGA_1292;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080080.1;translation=MGNKKNFFAPIKAWKYLVKKPISIPMEDIFENPREAADRYRGFHANDWEKCIGCGTCSEICPTNAIVMQEREELPDEDGSKPEKPAIDYGRCTFCGLCVDICTTNSLTMTKEYVHISKDVDDFYFLPKENGIHDIKYENAYVRDEVSELLDLKRYDMVGLEADERKDSFIEIVKGFSKETAIAEASRCVECGICTKTCPATMNIPEYILSIWKDDLEEGVDWLYKTNPLPGVCGRICTHKCETACALGNRGEAVSIRWLKRYIVDNTPEEDYEKVVLANVSKGGEGKVAIVGAGPAGISAGYYLRTMGYEVDIFEAMPLAGGVMRYGIPQYRLPDYSLDKDISFIEKIGVKIHTNTQVGKDIQLEELHSKYDVVFLGTGFFGARGLNIPNSDHKDVHLAMDFLPQVRDFARGVIKDIDVHKSAVVIGGGNVAFDVARSLIRLQEIKYGKSDVKLIALENEEQLPADREEYEEGMEEGIKYQLGCGPQEVMLDDKGNIKGVKGFKCLSIFDGQHRFNPQFDTSDVKMVEGTQVYVSIGQSPDYSYLDKELEEKLGITRGKITKIGKNRQVEGVDWLFAGGDIVQGPDVIHGIADGHEAAKAIDEYLMNGKNKKK;locus_tag=LOCUS_12920;note=WP_004080080.1 FAD-dependent oxidoreductase (Thermotoga) [pid:54.7%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:5.6e-194],MGA_1292
sequence1	MetaGeneAnnotator	CDS	1486662	1487771	.	-	0	ID=MGA_1293;product=NADH-quinone oxidoreductase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080082.1;translation=MRELKLFLGPNHPGMHGNFSVHLYVDGDIVKRARPLPGMLHRGFEKLMERRLWTNNIALIPRICVVEPDINEMVYAMGAEALGNIEVPERAHWIRMIILELARIGIHMMAFGGIGGPTGLYTGPNWAITERDLILDIFEEITGARVYHMYIVVGGVRKDLPKGIEKKIENVLDKLEGRLSEYEDLILRNSTIINRTKDNIVLPEEVARELGVTGIGLRTSSGKAYDIRKVDPYARYDQVEFEVPVANYSDAYTRLETKYKEVKQSIRIIRQVLEKMPKDGPVRAKVSTGSALKWRIPKGQVFSHIESSRGEYGYYIVSDGSRQPYRIAVRGASYPQGLLGIEKYLPGTRLDDVAIWLDTMGVCAPEIDR;locus_tag=LOCUS_12930;EC_number=7.1.1.-;note=WP_004080082.1 NADH-quinone oxidoreductase subunit D (Thermotoga) [pid:62.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-137],MGA_1293
sequence1	MetaGeneAnnotator	CDS	1487768	1488280	.	-	0	ID=MGA_1294;product=NADH-quinone oxidoreductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080084.1;translation=MNSMNKIIEDIKSKYNVLNIEQPTKQQVSFDFESRDIHAILAYLKSIGWNQLTFLTCVDFIDDKEFQLVFILMNWETGITIQVRTRLDREKPLFKTIVPIFPGAKFYERDVHEFFGVEFEGNEDSKKGLFLELWDDIPPMRKDFDPQKYSDKKYAKRDYNVDFKKEGEER;locus_tag=LOCUS_12940;note=WP_004080084.1 NADH-quinone oxidoreductase subunit C (Thermotoga) [pid:47.3%25%2C q_cov:88.2%25%2C s_cov:85.1%25%2C Eval:1.7e-37],MGA_1294
sequence1	MetaGeneAnnotator	CDS	1488264	1488812	.	-	0	ID=MGA_1295;product=NADH-quinone oxidoreductase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080086.1;translation=MVLDEKDRKTWEELGDFFRGKSMWMMHFCTGCGAIELPPAMTSRFDMERIGMGPMATPRQSDVLLVTGYLSAKTLRRVIYSYEQMLNPKYVIGFGSCTLNGGVYYDSYSTINKLDNYIPVDVFVAGCMPRPEAVMNAFKDLMDKIKAGTANGWKKYQENKEWYEENQKLALGEVDVKDEFHE;locus_tag=LOCUS_12950;note=WP_004080086.1 NADH-quinone oxidoreductase subunit B (Thermotoga) [pid:68.4%25%2C q_cov:97.3%25%2C s_cov:99.4%25%2C Eval:1.3e-76],MGA_1295
sequence1	MetaGeneAnnotator	CDS	1488803	1489720	.	-	0	ID=MGA_1296;product=respiratory chain complex I subunit 1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080087.1;translation=MNYMGFIIGFGLLLFAFAWQVSLDGIQRKITARIHKRFGPPWYQTFLDIFKAMSKEPISHGWIYDFGVMMALGGTMATLIFMPVAGIISFDNMDNFFVITYLLAIGSLGMAMSAVGSGNPWASIGVMRALTQMVGYELPFIITVMTIIFGFKTSSISTIAHLQQGGFLYWNMFRFPLGGIVAFVSLMGMLGKKPFDTPIAPAEIASGPLVEYGGKHLAMLILQHEFSTFIEVSLFVNLFLGGGPTIIAFLTKYFLVYTLTTMIATAVGRFKIDDLIKFYYKVPLAMAVVQALVVVFTGLGVTIWF;locus_tag=LOCUS_12960;note=WP_004080087.1 respiratory chain complex I subunit 1 family protein (Thermotoga maritima) [pid:55.3%25%2C q_cov:95.4%25%2C s_cov:97.6%25%2C Eval:1.6e-91],MGA_1296
sequence1	MetaGeneAnnotator	CDS	1489717	1491540	.	-	0	ID=MGA_1297;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080094.1;translation=MSLINLILLIMVGGVAAYFTTKLNKKSGAWITVIISLITLIVLYSYKDLSVVSGQNIFQFKITPYGWFFAMVMTLTYVGASFFNIYWMERLIYPASYNFLYLLSLAGTIGLFFSSNLLGIFVFWEIVVWGSMFIIPLGKSRKASVVYYTISTAGSFSMLFGIMFLYSKYNTFDTVAVLASVAKDPLLATGMFFLLVMAGLTKLGIFPFHIWLPLAHGNAPHTFSPVLSGGLVKMGAFIAFLTVAVLPSGKAFGSSLKILGVPYQNYILLILGAISIVVGTLMAIKQDDMKRLIAYSTVSNSGYILIGIALNDSIGMAGGLMHIFNHAMATSAMFLAAAVVAYRTGTTKMSKLGGMIHKMPVTFVVYLMAIISLAGIPPMGGFVSKWLIFQSLVKHGMVFIAMAAFFGSVGSFLYVFRPLSTVFLGQELPEHKDVKEAPMLMLIPMIAISALTQYFGIFPTVMLKYIGKIEKSVGMIPIKIDGLNIIANNGNLNATWMSVVFTFGFIIALIIFLVLPKSRKVGLMDTYTSAEFIHSPELYHYSSNYYAPFERLYEKHPKVEEFLFSIGTRVKDLGDMVSKIFFSFRPAVAVLWIVVIVSVIFMLGGRA;locus_tag=LOCUS_12970;note=WP_004080094.1 proton-conducting transporter membrane subunit (Thermotoga) [pid:42.5%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:2.1e-140],MGA_1297
sequence1	MetaGeneAnnotator	CDS	1491556	1492929	.	-	0	ID=MGA_1298;product=complex I subunit 5 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080096.1;translation=MMNSPVLLVAFPLLLAFISVMWKRGAKILLSLSIAINLYLLSVVKYGIYNIGNWKPPFGITLVLDGYSFTGILIVNIIFALAVIMGYSEVKKYASVLIVSLAAVNGMVLTGDLFNLFVFLEIASISGYIISAMTKKYRHSFNYLIIGTVGSSLYLFGIIIIYNIFGTLNMADLRGKLYAPGVTSGVLLLPIVLIFAGIAVESKLFPFNGWVKGVYNSTNKLSGPIFASVYAAAIMFVFGRLFSQTLLISQNLSIVLITISLLTLFLAETAAFSGNSLRKILLFSSIAQAGLIVTLFLLKLDDVAILQIVNNAVAKLIMFSIAGALAIQAGSDKVEDLRGIFNKHKIMGFGFTTAAMSIIGLPMFFGFYVKLKVLIAIFNGNHEWVAVVLLISSLIEGVYYVRLLSKLWVPGEEGVETSEKYVTSLSLDGEFILKCSVGILGVLIVFMGIMPLVLLKI;locus_tag=LOCUS_12980;note=WP_004080096.1 complex I subunit 5 family protein (Thermotoga maritima) [pid:35.2%25%2C q_cov:98.2%25%2C s_cov:93.3%25%2C Eval:6.6e-69],MGA_1298
sequence1	MetaGeneAnnotator	CDS	1492919	1493263	.	-	0	ID=MGA_1299;product=NADH-quinone oxidoreductase subunit K;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250172.1;translation=MIQYLFIILILIGIYGMLTERNLLKILISLNVLDVGLNLFIISIGYVKGGVAPIFTKVFNNNMIKFVDPLPQALVLTSIVIGVGVTAVGLAFAKNIYAKYGTFDLDEMEVKDDE;locus_tag=LOCUS_12990;EC_number=1.6.5.9;note=WP_011250172.1 NADH-quinone oxidoreductase subunit K (Thermococcus kodakarensis) [pid:54.0%25%2C q_cov:87.7%25%2C s_cov:86.0%25%2C Eval:8.2e-24],MGA_1299
sequence1	MetaGeneAnnotator	CDS	1493263	1494015	.	-	0	ID=MGA_1300;product=Na(+)/H(+) antiporter subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080100.1;translation=MKKIGALLIVILFGYFIFSNLYLDSSKVKFNKYGEANISQSVSNKFLNKNVNGNNESIRYGKNKDLESGSANVVTSIVVNYRSFDTLGEVTVLFVSALGVALLLGGVGTKLQFAVEPNFIVKAGVKVIVGLMFIVGVYIFVHGHLTPGGGFPGGSMLASIVLLLYVSHKDFQAKVHSLKLVEGIAGSLYVIIGLTGILLGGAFLYNFLPTGTIGNLFSAGIIPIIYVLVGLKVGAELSGIIVNFISGEVE;locus_tag=LOCUS_13000;note=WP_004080100.1 Na(+)/H(+) antiporter subunit B (Thermotoga) [pid:45.7%25%2C q_cov:96.4%25%2C s_cov:96.9%25%2C Eval:8.7e-55],MGA_1300
sequence1	MetaGeneAnnotator	CDS	1494016	1494267	.	-	0	ID=MGA_1301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIIEISEIIIGLILILFGIMAVSSKKVLNSIIYLSIMSMLAVVSFVFMKSPDVGITEAVIGSGMATALFLFTLFSAKKEGDK;locus_tag=LOCUS_13010;note=MGA_1301
sequence1	MetaGeneAnnotator	CDS	1494254	1494592	.	-	0	ID=MGA_1302;product=monovalent cation/H(+) antiporter subunit G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080104.1;translation=MSVIGYVLIIIGALFYALGGLGIFRMPDVYNRLQAGTKATTLGAISLILGVGFLHPSWLVKTILIVIFLAITNPVGSSAIGRAAYLIGVKPAKVVVDEMEDKYKRGDENGDN;locus_tag=LOCUS_13020;gene=mnhG;note=WP_004080104.1 monovalent cation/H(+) antiporter subunit G (Thermotoga) [pid:65.1%25%2C q_cov:94.6%25%2C s_cov:96.3%25%2C Eval:7.5e-33],MGA_1302
sequence1	MetaGeneAnnotator	CDS	1494589	1494840	.	-	0	ID=MGA_1303;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080106.1;translation=MINLVVFSLLGIGVFFSILRVILGPSVPDRVVGVDTLNVIITGAIVFLAHIFRNSLYLDIALVYGILAFVETVLMARYLEGRK;locus_tag=LOCUS_13030;note=WP_004080106.1 cation:proton antiporter (Thermotoga) [pid:56.1%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:2.7e-22],MGA_1303
sequence1	MetaGeneAnnotator	CDS	1494837	1495322	.	-	0	ID=MGA_1304;product=Na+/H+ antiporter subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867824.1;translation=MKKFISTFVLLWLIWIVATGISIQEIVVGGIASLIVAAVIYKQVSYSFGVDSIVKIFKFVFVYIPVFIYQMILSNLDVAYRVLSPSLPINPGFVKIKTSLKGEVGKLALANSITLTPGTLTLDVDDENIYIHWIDVKGSGSKEYQENISQTFEKVLGGIFE;locus_tag=LOCUS_13040;note=WP_010867824.1 Na+/H+ antiporter subunit E (Pyrococcus abyssi) [pid:49.7%25%2C q_cov:100.0%25%2C s_cov:96.4%25%2C Eval:5.3e-38],MGA_1304
sequence1	MetaGeneAnnotator	CDS	1495671	1497026	.	-	0	ID=MGA_1305;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933733.1;translation=MKKFDVIVIGGSAAGLVSAMTGKAHYPDKSVLLIRKEKDALVPCGIPYIFGTLDSSDKDVIPLGGLKKAGVEFKQDEVVDVNREEKVLKTASGEEFQYDKLVFATGSTPYKPTWLKGSDLENVFSIPKDKIYLDAIKEKFNSMKKIVVIGAGFIGVEVSDELNKIGKNVTLVEVLPTILGRAFDVEIAERAQEILVKRGVSLKTGVAVKEIVGDGKVEAVVLENGERIEADAVVLSMGYRPNTKLAADSGLELNKLGAIRVDSYLRTDDKDVLAVGDCAAKVDFITRKSTPIMLASTAAAEARMAGMNLYNLSIVRTFIGTVAIFSTAIGEIGFGAAGVTEEEAKRSGFEVMVGRNEGVDKHPGTLPGTKKQFVKLIVAKDSEIIIGAEVIGGESAGELINVLGLAIQNRMTVTELYTTQIGTHPLLSSAPTKYPIIKAAECIVLRKGCKK;locus_tag=LOCUS_13050;note=WP_010933733.1 FAD-dependent oxidoreductase (Chlorobaculum tepidum) [pid:55.5%25%2C q_cov:98.7%25%2C s_cov:98.5%25%2C Eval:1.2e-139],MGA_1305
sequence1	MetaGeneAnnotator	CDS	1497177	1497671	.	-	0	ID=MGA_1306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEIFYPLIDIDKVVPIINRISIFGGLNDLQLYRIFGVLNSVYYKKDEIIFKQGDSPSNIYIINSGKVKLYFEKENEIFELIEFGVGSCFGETALIGIQPQSATAIATEDVELLIISKKALMKLAKEDKDIFSRVILNIARETCRRLSQAENVELHYFLKKKK;locus_tag=LOCUS_13060;note=WP_010946296.1 FAD-dependent oxidoreductase (Legionella pneumophila) [pid:31.7%25%2C q_cov:61.0%25%2C s_cov:13.7%25%2C Eval:2.2e-07%2C partial hit],MGA_1306
sequence1	MetaGeneAnnotator	CDS	1497789	1500239	.	-	0	ID=MGA_1307;product=glycogen/starch/alpha-glucan phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680347.1;translation=MNINRGEFKENIKLKLKEQFGKTISCATKQEIFDAVSRAAMDYVLDNWLDTKKTYAEEEVKQAYYLSAEFLMGRALSNNLVNMLIEEDVAEVLNELGFNYNEVEDTEPDAGLGNGGLGRLAACFLDSLASLKLPGHGYGIRYRYGMFEQKIIDGYQVEFPDNWLKNGDPWSVKRKDESIEIKFGGKVTLVREENGRERFKRVDAEVITAVPYDMPIVGYNNKTVNTLRLWEAEAEDGFDLQLFNDQEYIKAMSKESITEDISRVLYPNDSGPSGKALRLKQQYFFVSASVQDIVRNYKKKYGNDFSKFAEKVAMQLNDTHPVVAIPELMRIFLDWEGLNWDTAWDITTKACAYTNHTILAEALEKWPIDLFSGLLPRIYQIVEEINRRFLAELNEKYPGDWARTHRMGIIADGMVKMAWLAIVGSHSVNGVAALHTEILKNQELKDWYELYPEKFNNKTNGVTQRRWLLKSNKELAKLLNEKIGTDWAINLSELKKFEKFIDDEEVVNRFMKIKYENKVKLAEYIKEHNNIDVDPNSIFDVQVKRLHEYKRQLLDVLNIMALYNRLKENPDLDIYPRTFIFGAKAASGYRRAKLVIKLINSIANKINNDQSIKGKIKVVFIENYRVSVAEKIFPASDVSEQISTAGKEASGTGNMKFMINGALTIGTLDGANVEIVEEAGEENAFIFGLKADEVLELNKTNSYNPWDEYNRNLELKKVIDQLVDGTYSPDNREIFRELYDSLMYGVEGNRPDQYYVLRDFASYAEAQRKIGATYRDKIDWAKKAMINVANGGKFSSDRTIQQYADEIWEIKATEVK;locus_tag=LOCUS_13070;note=WP_002680347.1 glycogen/starch/alpha-glucan phosphorylase (Treponema denticola) [pid:60.2%25%2C q_cov:99.9%25%2C s_cov:99.8%25%2C Eval:1.6e-295],MGA_1307
sequence1	Aragorn:1.2.38	tRNA	1500362	1500439	.	-	.	ID=Aragorn_28;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00270;note=Aragorn_28
sequence1	Aragorn:1.2.38	tRNA	1500468	1500543	.	-	.	ID=Aragorn_29;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_29
sequence1	Aragorn:1.2.38	tRNA	1500554	1500631	.	-	.	ID=Aragorn_30;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_30
sequence1	MetaGeneAnnotator	CDS	1501204	1502124	.	-	0	ID=MGA_1309;product=patatin-like phospholipase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583274.1;translation=MKESRKKLGLVLSGGSAWGLSHIGVIKRLEEEGIKPDLIVGSSIGSIIGSLYAIGMPIKYIEGIASNFNYSLLLDFTKERKNGLLKGKYAEEFIKILTRGRNFSDCKIPFYINATDFLTGEEVIISSGKLYKGVRASISIPLIFKPVKRGGRYLTDGGVYDPLPIHIAKKYGAEKIIAIGFRDKINKDDKVVDEELLKDGEELILNPGKIFIDEIANNEILKTILKKSKFSLTKNEGIKEKILVIENFLNILFMGDLKRTEREADIFLKPDVLKYMQLNFFKGEKIIEEGYKEADKNIDEIKKLII;locus_tag=LOCUS_13080;note=WP_012583274.1 patatin-like phospholipase family protein (Dictyoglomus turgidum) [pid:33.5%25%2C q_cov:97.7%25%2C s_cov:95.5%25%2C Eval:6.8e-34],MGA_1309
sequence1	MetaGeneAnnotator	CDS	1502168	1503265	.	-	0	ID=MGA_1310;product=prephenate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392846.1;translation=MKVAIWGVGLLGGSIGYILKKKKWSDKVIGIGRNSSKLEKAVSLNAIDEYMIELDDRLSEIDILVLSVPVKLMPNLVKRALPYLKKGAIITDVGSTKEYITKEIENILPKDIYFVGGHPMAGSEKTGVEALDPYLFENAIYVLTKTKNTNLSAFEKVKEMVKKLDSTLLELDVEIHDLAVASISHLPHILASSLVNTANDISNNNQNIILSLAAGGFRDTTRIAAGSPEMWRDICLTNRDKILYAIDKFKKELSNFEENIKNGNEEMLTALFRNGKEVRDKIPQRRKGILSPMIELIVFVPDKPGIIGDITKILGRNNINIKDIEVLHIRENYGGSIRVGFDVNKENEKAEEVLKNAGFEVKELK;locus_tag=LOCUS_13090;note=WP_011392846.1 prephenate dehydrogenase (Moorella thermoacetica) [pid:41.8%25%2C q_cov:99.7%25%2C s_cov:96.5%25%2C Eval:3.5e-75],MGA_1310
sequence1	MetaGeneAnnotator	CDS	1503420	1504523	.	-	0	ID=MGA_1311;product=YibE/F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015955.1;translation=MNFIKKIGILIIFLIFPIFIFASSNDKYEKGKITEILRTISANKDEVENGISKKIKVIVEIKTGDYKNKKVLIMHPVFKDKAYNVPIKRNEDVVLDIHNQDGMITYNIIDIDKRGLMISILLIFIFLVIVIGKGKGVKALMGIAISIFFIFYGMLPLILKGYSPLWLGVIFSFLIALFTIYFVAGDSKKGLVAFLGTIGGTIIAGVLSQIYIYAMKLTGYTDLESIYASNLFKNVNVVELISAGIIIGSLGAVMDTAISIASSLNEIREHNNQLTEKQILKSGMKIGKDVIGTMVNTLILAYIGSSMFTILMFMVQKNDYPLIRILNFEFISTEFLRSIAGSIGILIAVPLTAYFGSKIFTKKIKKK;locus_tag=LOCUS_13100;note=WP_011015955.1 YibE/F family protein (Fusobacterium nucleatum) [pid:40.8%25%2C q_cov:93.7%25%2C s_cov:97.3%25%2C Eval:8.2e-72],MGA_1311
sequence1	MetaGeneAnnotator	CDS	1504544	1506106	.	-	0	ID=MGA_1312;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016739.1;translation=MRYEVNNVIVPVEKNQDKAIMFQLKKMGIEKYNVKGIDYLKRSIDSRKKGNIKFIYKLLVTTNKHMDIKNSQIKEYKQLENVKREPVKLKGEVAVIGTGPAGLFAALRLAEYGLKPLLFEQGEKVENRAKTVNNFFENAKLNKNSNIQFGEGGAGTFSDGKLTTRIKSEYIDKVFKTFVENGAKKDILYDYKPHIGTDILQEVVKNMRKKIIALGGKVYFNSKLTDINIKNGKVKSIEINRDEKIDVEYLILAIGHSARDTYEMLNKNGVYLENKDFAIGVRIEHPRGIIDQMQYGKFANNPNLGAATYNFTYNNRNENRGAFTFCMCPGGEIVNSASELGSSLVNGMSYSTRDGAFSNSAVVVGITEKDYGKNLFDGIKLQRKIERKTYKEVGNYGAVYQNLIDFLENKETNKNIESSFKMELKSYKMDNLLPKYVSKNLKKAFNYWSKNRYFISDKANLIGAETRTSSPVRIKRDEKSRAINIENLFPIGEGAGYAGGIVSAAVDGIKVVDINFTKVK;locus_tag=LOCUS_13110;note=WP_011016739.1 NAD(P)/FAD-dependent oxidoreductase (Fusobacterium nucleatum) [pid:59.2%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:1.1e-179],MGA_1312
sequence1	MetaGeneAnnotator	CDS	1506109	1507683	.	-	0	ID=MGA_1313;product=N-6 DNA methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003431790.1;translation=MYKFGYDISDKYETELGKKFSVYTPQEITRKMLAISFYKYFKDGDRKEKLKNLKLIDLSCGTGNFLVESLNFLIKISKIYFGEYKFFSNWITGYDIDKDSIDIAKIRLKKILKSYNINDYSFEKELNIENSLLKTFEVNYDIVVGNPPYLGEKNNREFFIDIKNSEFGKKYYEGKMDYLYFFIEKGIEILKKNGILTYITTNYWFTADYAKKLRATVKANSQFYYIEDLNKSVFKRALGQHNMIFSLIKMDKTIKTRVINDEIDEFINSNLLYTDNCKIVTASNEKLIFFNKMNKKCNFKLGDILNINQGIVSGYDKAFVRENFEERFSKYLKPFYKSKDILNYKIKDKNDFWILYLDKNIEVDSELLKELLPFKERLEKRREVKNGLINWYNLQWGRKKEIFENEKIVGRQRGSKNLFSYSNSSFYGSADIYYLTLKQTIYELNLFYILGYLNSKMFFDWFYYNGKKKGQDLELYSTPLKSTPIYYPDNLEKIEYISKLVKEQIENYTQENQEKIDKFFRWEI;locus_tag=LOCUS_13120;note=WP_003431790.1 N-6 DNA methylase (Clostridioides difficile) [pid:29.6%25%2C q_cov:94.3%25%2C s_cov:92.9%25%2C Eval:2.0e-48],MGA_1313
sequence1	MetaGeneAnnotator	CDS	1507770	1508468	.	-	0	ID=MGA_1314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYKILSLKKLLENFYIDEISKAKNIESKDINYINSEEIYINKNKISKDSKKECFHLAENRVEKYLSTFSCHRNKDVENFLHINSIRMQKENISRTYLIIDEENGNIIAYFALSIKPIIIREEHKISANKKNKMKINVSNGYDDEVFYSFLIGQIGRDDKYNRKIIRLEEIIDYILDIIDEVKSLIGGKIILIEVLEDENSEKLIKRYEEVGFTSIGIINDLTQLMTFSKNY;locus_tag=LOCUS_13130;note=WP_202943867.1 N-acetyltransferase (Natranaerobius thermophilus) [pid:31.6%25%2C q_cov:69.8%25%2C s_cov:85.9%25%2C Eval:6.8e-11%2C partial hit],MGA_1314
sequence1	MetaGeneAnnotator	CDS	1508471	1508650	.	-	0	ID=MGA_1315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATKSFTRNIIIKNKEAIDKIHSMLKSEFSTKTATRVINNCKEEREADKKTISSLLKKY;locus_tag=LOCUS_13140;note=MGA_1315
sequence1	MetaGeneAnnotator	CDS	1509053	1510531	.	-	0	ID=MGA_1316;product=murein biosynthesis integral membrane protein MurJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016596.1;translation=MKKMLRNSFVVMIITLISRVLGLGRTVIIAYFFGAGVLTDAYFSAFKIANFFRQLLGEGALGNVFIPIYNEKLKESGEEESKKLIFSIINILFIILSLLAILTIVFSNDIVNIMVNGYSDKTKELAGKLLKIMAFYIVAIGIAGMIGAILNNFKKFLLPASISIIFNISIILFAAFLHNKIGIYSLAIGVLVGGFMQLIILLPQFFKLVGFFRLKIDFEDPALKKIFIMLLPMLVGIFARQINVIVDQYFASFLSSGTISALENATRLYNLPLGMFGISIATVVFPMLSKNITENKIEDAKRNIEEGFKLLIFLVAPSMTVLIYYSKDIVKLILGYGKFSNIAIKITSESLATYSLGLLFYTGIHILVRGYYSYKDTKTPVKISIIAIGTNILLDYLLVKEYKYIGLALATVIASGINFTLLLYFFNKRYFKINVMGIVKFILVVSFKLVVVVAILNLFEIWIIIKLIFFALLYLLFWSFEYKKNGKNMFKG;locus_tag=LOCUS_13150;gene=murJ;note=WP_011016596.1 murein biosynthesis integral membrane protein MurJ (Fusobacterium nucleatum) [pid:47.6%25%2C q_cov:99.0%25%2C s_cov:99.4%25%2C Eval:3.6e-124],MGA_1316
sequence1	MetaGeneAnnotator	CDS	1510509	1510949	.	-	0	ID=MGA_1317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINFLFVYGKLRELYIDKENLEIESLITLPVKTKGELYSYDDSAVLFDSEDGFVYGNLLVASDIDKLLRRTDFVMEFNENDYSNSKYVRINKKVFIDSTNEEIDAWMYIFPTSRKTDIAPKSEFVKEEDWLKYKERKAFEENAKK;locus_tag=LOCUS_13160;note=MGA_1317
sequence1	MetaGeneAnnotator	CDS	1510950	1511663	.	-	0	ID=MGA_1318;product=ScpA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902469.1;translation=MEIKIKLDNFEGPLDLLLHLVEKNKVEIYSINISKLIDDYLSIINKAKESSLKIKVEFLNIAVELLEIKSLAILNKREKKEKEEELEKRIAEYKFYKELANEIRELENIYNISYTKTGEPIKNIINRDIDLSNLTTEKIYETYINIKSIDKSLNKKNNKLVVKSDNENSYTLEEAIYDFTEKLEKVKSINLKNLFYKETEKIKKVIKFLAVLELYKMKKVIISLSGYDYIISKRREV;locus_tag=LOCUS_13170;note=WP_005902469.1 ScpA family protein (Fusobacterium nucleatum) [pid:37.7%25%2C q_cov:93.2%25%2C s_cov:95.6%25%2C Eval:2.2e-33],MGA_1318
sequence1	MetaGeneAnnotator	CDS	1511647	1512096	.	-	0	ID=MGA_1319;product=S-ribosylhomocysteine lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948445.1;translation=MPLIESFTVDHTIMKAPQVRKAKVMNLPKGDIVEVYDLRFVKPNTTPMETAAVHTLEHLIATYMRDKMDNIIDVSPMGCRTGFYMSVYNENKKEDIQEVLIYALKKILETTEIPGATEKECGNYRDHSLVKAKETAKRVIEGFENGNKN;locus_tag=LOCUS_13180;EC_number=4.4.1.21;note=WP_011948445.1 S-ribosylhomocysteine lyase (Clostridium botulinum) [pid:54.8%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:2.0e-40],MGA_1319
sequence1	MetaGeneAnnotator	CDS	1512087	1513022	.	-	0	ID=MGA_1320;product=bifunctional riboflavin kinase/FAD synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016595.1;translation=MKVIYGIENIDEKFKNPCVALGTFDGIHLGHQSVIKSAIDKAKELNGTSILFTFSPHPLKVITSSAGPKMINSKDEKEFLLEKLGVDILIFANFTVEFSDLHPEKFMKNVLKDILDVKEIFVGFNYTFGKDAIGTTDYMKELSEKYDIKLNVVEPMKIEDEIVSSTLIREYIKNGDLKKAEKLLGYPVMISGKIVQGKKIGRKLGFPTANLKIVNKAYPPYGVYGVKIIFDSEKDKSYYGIMNIGKNPTLKPGEHSIEVNIFDFDKNVYGEKIIIELMKFIRYEKKFETVENLIKEIKNDIKIWKEWLECH;locus_tag=LOCUS_13190;EC_number=2.7.1.26%3B 2.7.7.2;note=WP_011016595.1 bifunctional riboflavin kinase/FAD synthetase (Fusobacterium nucleatum) [pid:41.3%25%2C q_cov:98.1%25%2C s_cov:95.0%25%2C Eval:3.5e-70],MGA_1320
sequence1	MetaGeneAnnotator	CDS	1513022	1513969	.	-	0	ID=MGA_1321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545019.1;translation=MKLNEFFEIGIKAGRDGDPRSNEEIEKFLNDKKEKFEALSDEEKEYFDKDELMNPYLDSAIYYNSGKDIKKIFVGIDTEVQEILLADKLGVDLILGHHPEGKGLLKLWKVLEIHQEELIKSGLPVNIAERLVSEREAELERGLHGQNYNRSVDAAKLLDLSFANLHTVADNLVNKYMIDYLEEKKVYKLKDIIKSVLEIKEYHETAKNSLKPKIVAGTGENRVGKIFVKFNGGTSGNKKMFKHLENIGISTFICMHLPEDQIKEAKKCNISVIVMPHMASDSLGVNLLLDKIEERSGIDFDIIAGSGFIRVSRRK;locus_tag=LOCUS_13200;note=WP_012545019.1 hypothetical protein (Thermodesulfovibrio yellowstonii) [pid:46.1%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:6.0e-73],MGA_1321
sequence1	MetaGeneAnnotator	CDS	1513971	1514867	.	-	0	ID=MGA_1322;product=DNA-binding protein WhiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902471.1;translation=MSYTQLVKEEILQKEVINVIEKRYELYAVLKAKNSFKNDRIDFTVENIGIAKRVYSIIKSFTNLKIEIKYSISKRFGEHRVYGVIVRKQKGYKVFVDNFKHMDKEKINKAESKLAGYIRGIFLVAGYIKQPEKEYSMDFFLEDKNDAKKLYDNLKGINKKVGYTQKKNKYLVYLRNSEDIMDILVMTGAMKSFFEYEETIMFKDIKNKTVRSINWEVANETKIINTAEKQLTMIKEIEKKVGLESLTGVLEEVAKVRIKYPESSLTELAKIIGISKSGIRNRFRRLEKIYNELEEETN;locus_tag=LOCUS_13210;gene=whiA;note=WP_005902471.1 DNA-binding protein WhiA (Fusobacterium nucleatum) [pid:53.2%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.7e-80],MGA_1322
sequence1	MetaGeneAnnotator	CDS	1514867	1517509	.	-	0	ID=MGA_1323;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016594.1;translation=MKKAVLIDVSAVMYKAYYSLINMRNSNGEPTGAAYGFTNTLLSIIDKFKPDYIAACFDVRREQLKRREMYEGYKKQRKAAPEELIAQISKIEEILDGFNIKKFKVIGYEADDLLGTLSKNLAENNIKTYIVTGDKDLSQLLSENRKISLLGKGVGKFRVLETDDDVVEQLGVLPSQIPDLFGLQGDSSDGIPGVRGVGPKTAVKFISEYGDLETLYENIDKTKGKMREKLEQDKELAFLSRKLAIIDENVPVEVDVEKLEFKKLDNDRLYKIFNELEFKSLLKKLKIEAGEATIEENKKEINNENLIEFKKEDIIIIDNNEKLRDIEFADEIALLFNGAGVAISSNEKLYYISLYHNYLGATNCDEMLLKEKIEKCNVIGYSLKNLIKKEYIKEKNYFDIMIAYYILDSDSKYDLENILNSKFGIQLANYKETFGKEVIEKIDINRATEFYCKRVLYFENLKKSFEEELKQEELYDLFINIELPLVKVLAKMEKYGIKIDIKYFEKYSKELYGKLVKLEEEIYEMANEEFNINSPKQLSEILFIKMGINPVKKTKTGFSTNVEVLETLKNRGIEIADKLLQYRQYKKLQTTYVEALPKLVDKNDRIHTTFNQTGTTTGRLSSVNPNLQNIPVKTSEGIKIRYGFLAEEGYSLVASDYSQVELRVLAELSKDKNLIEAYSKDLDLHDLTARKILGKDETEEITRAERGIAKIVNFSIIYGKTPFGLSKEIGITVGEAKTYIDKYFETYENVKKFIDDTVEFAKENGYVKTRFGRKRRIIGINSKNKNIKNQAERMAVNSVVQGTAADVLKIVMIKLYAELKDKKDIKMLLQVHDELVFSIENSKIEEYSKLIKDVMENSINFENIKLITNINSGKRWSETK;locus_tag=LOCUS_13220;gene=polA;EC_number=2.7.7.7;note=WP_011016594.1 DNA polymerase I (Fusobacterium nucleatum) [pid:48.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-236],MGA_1323
sequence1	MetaGeneAnnotator	CDS	1517658	1522727	.	-	0	ID=MGA_1324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKGISILILLALLFISGCLKSEKYNTKINLEVIPESVIVNKDNVNIKIVTNGDTLKINGTQINGGLSGVYNENIKLQPGENKIIVESVITNYGEKSKLSKEVDVNYLKEGLEVNINNQNFSKDSGKILYPNNGEIFNEKSNKNLSRSINRDVLNPDGTNIQGGVGLDKIEAVYDGTSNSDYIADDEIGIYVFINGVVVDYKIGKVSGTKKVEYPQSSGTGKIILNVKGDNVDDYILAEGKNSISLLLINLRAESTAYVGNASGTGPVEVTVDAKPPKLEVLYPVNGNKLNFDENLTDFGNVNLEIKTSDEYKVTLYGALIKDDGKSTAQEIKSEGNKIKKDGVEIASALSTTILTTDIISLFIDKDPATSGKYSGTTGTKWFLYILAEDANGNETLIKREIAKADVLADLDTANLKIKVGEESIRKYEGNPSAPMQINGKTITFQYTSKNDKNATINLIRIEEINSTIVDKEKVTLQHEPDTELYSGTYDLEKDFGYDSLASSQMVGFKIEMTDEALNHSTDVLSFRYIDENALATEINIKDSDITFYSDDNSTSGQEINPLGDNIENKYYFDYDGSTDVVLKSIKINNPDKLDYKIKVGNNTSYTVSADKEKYNIDDITLNQTIQKSNLQIYLGDSLIKSITFILLVNNGDINEDGTKTDTKISLSEVTIKQNKEEMYIKGNINMPAEISDEYNIQADFINKSANESAWIGGFQKNAIDNSNINFEGSIIFNYSEVSPKNYDMIQIRADNSLTTVTPTSFDLDSDNTDDLLGVNGVEIDGINDSDLSWKIASEIQNIDILNGDKFSELDLYLNGELKEKNSSPNGTGTDFASVDLTGISSIKIVGTIKTLTNPIVKIERIVSLTRPLESEKPKFVSVPELNTEYKGDFVITGKVDNADIVEIVSVKNSSGNVIAWKGGTTTIPTTLKSLTLLSDGTFYSPNLADDPIYAGSVTSTDGVYTDFNNNNGIIEGNEYTIKIRATKINGASVDYEYVGTFDTLAPTEYHKRDALSVYNKFGTTTTTEWEGINKIYFDFAGNLKEDSSDALYTGLDSTGTDYTIKNPGGNYTFSINEATVSPDIDQGWMTLVENYSGYDDYLIAYIPYSNPNGDYDNFGTPTTSGENITVFITDDKGNVILRKLIRKDDTGKNRELVVDLGDNQYDKINVYLQDEHLNKTDIYKFENTIYLNLTLANVKAAIHEGATQEAPLREFSVSQAPNLTYVTLNMYKDSLSGEFLLSAPGIDLSGANGYTLPLSGNINTGDTLVIKAVDKYGNSTFIGDKTNSISLKVEDKLPPELPTSVVVTNKKSPELDEISGKAEANSTIKAKDSSNNEIGNTLADSNGDFKLNINGDSYSMIKLEVVDSSGNSSTTSTLHDAYETITSKFAQSYSYTVTGVTATSGKLKKGDTVTVGWNAIAETNDDVAKGNVLGTYRVDYYNGSTKIYTQDVTTNSTTVKTEDLGNYNLTTITVKVYGESKLGFETSTPGTATFDIDSSIPDITALDTTKIVASVKKDTITISSNALNTTLVGIGSSDKIYVNIDGESKEWTGSDLTYNKTVNNSSTFKLKLKDLAGNETSEVTINASDDEAPNVDALVIVGSIDTVSLNGVDYLQLSIKQTEEDNVTVYAYDGSGANANLIGVVKLGVKNTVVQISIKASSAATVYLKVADDSSNKNTSAAKQLTMVTTE;locus_tag=LOCUS_13230;note=WP_011109597.1 Ig-like domain-containing protein (Enterococcus faecalis) [pid:25.5%25%2C q_cov:23.2%25%2C s_cov:22.2%25%2C Eval:2.2e-07%2C partial hit],MGA_1324
sequence1	MetaGeneAnnotator	CDS	1522758	1526543	.	-	0	ID=MGA_1325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKKMLLILLLSLIFAGCIMNYFDKEAPTIVLKNKNIIKIKEGEYNLPYKDGIVKIEGSVKDNDKVKYLKENDINVELKNGEFTLYIDTTKIQKITLIAEDERGNKKNIKINLIKDDSSPKVSKLKINDKDYIDNMIVGGNNNKIKIELNATDESGIKEVSLEEQTFTKGTDSYTLNYENIKSGDNVLSINVVDEVGNVTTSAIKFYYDKVPPSYHKIYCDDTEVNLGEEYITNKSKVTLKFELEDVSDIINLNYLSVNDIQIDKSKFINQQVTVDVKNGSNVIKFSFLDEFGNVTEEKNIKIYNSITKPKMDNIKILESSIEVLPKDDIYYVNSPNISITGELKTEDVHLNLSYFKLNSENADWDKSSGDFNLDYILSEPKKDEIIKLEVGDNAGNQESVEKNIYYDNTKPIVTFDNEYNDKIWIKSKEDAINLSGKVEDDNFEKLLIENSEITVDSSTNRFTKDITTTKSSIYYEVSDKAGNILTGEKMVSLDAESPTVKSLTINGKLYADDMIVNLKDNKNILIDVTLEDNVGIKDVKLGDKSPKEIKSNMRYIFEITSEEIKDSEFSGKLIFYDFAGNQNEKNILVRYYKESPIIKEIKLDNKDIVENKIEYSANGDVSLVIKIDSQNIKMKIDKFILKLNGEILYSKEESNGIYPIYLGKKNSNNDINIYLENENGLSEENNYEIYYDALPPITSEIKVYKKDSSNLIYSEINYTKNMNYPMDGDIYIDFKVTDDLEVESSEVNLKIGDNTINASPLEKGIYSVSITNNLLTQGLNKLDILSKDKAGNISIKTLYINFYKLLPIELSYGNLSQTALTLNWTGLYPGNNLLKYELYMEKEGDDENYERVYSGTKLYNVISGLDDDSIYKFYILGYDKYIKDSENKVQSNILEIKTLNKQPEKLTIYFGNVEKEIDTLQKYGIKIYWDKVSEIDRHDFLEYVIYRNDTGSDNENDYKEIATIKNANETYYKDEIGKENENKLYKYEVVVRDKGYKISDRSNGVSAYSYNLPPDIPTDFEMKFEEESSGSVYSYDSTKFYGSNDENNKVRMKIKINDVSTKIKDLQYYEVYRSISTSVDNTTVIYPSILIYRGKYNKTYYSNGSVDYSNNEINLIENGLNENSKYYYKIRAWDKDLDVNSVNDEDEYSETNIFTIKTCDLKPAKVKNIVGYVSGDFVSIWWEFPYIKDFSKYSVYRKENNSYVKLKDITDINEKYFSETDLDFDNNSLYNYKIEAYDSGNNSSEIIFTIDKDGGITVLN;locus_tag=LOCUS_13240;note=MGA_1325
sequence1	MetaGeneAnnotator	CDS	1526893	1527651	.	-	0	ID=MGA_1326;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011071783.1;translation=MIKIKTKEEIKKMRKAGKLAGELLIYLEPFVKEGVSTQYLNDLAEEFTKEHGAISAPLNYNGFPKSMCTSINNVVCHGIPSEKEILKDGDIINLDVTVILDGYHGDTSKTFLVGNVDEEVVNLVKRTENAMYKGIEAIKPGKYLYEVGKTIEKYINKFGYSIVRDYTGHGIGAKFHEEPAVFHNYTAKNRIRLKEGMIFTVEPMINMGKSHRTITSKEDGWTVTTADNSISAQFEHTVLVTSKGVEILTKVD;locus_tag=LOCUS_13250;gene=map;EC_number=3.4.11.18;note=WP_011071783.1 type I methionyl aminopeptidase (Shewanella oneidensis) [pid:57.9%25%2C q_cov:98.0%25%2C s_cov:94.0%25%2C Eval:2.1e-77],MGA_1326
sequence1	MetaGeneAnnotator	CDS	1527684	1528271	.	-	0	ID=MGA_1327;product=Holliday junction branch migration protein RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902889.1;translation=MYEYIKGKIVVKRVDYVAIDINGIAYKIYISLKTYESIKNSEEKLYIYTHVKEEAFKLFGFYTEEERKFFVILVNASGVGPKLAIAVLSTYSIAELKDIIINEQLKRLIKVPGLGMKKGQKLILDIKDKIKLTGEIGEETAETNNGYKLEEDIILALQSLGYGEKEIKKLLKTEDIMKYTSIEEAIKDILKKSRK;locus_tag=LOCUS_13260;gene=ruvA;EC_number=3.6.4.12;note=WP_005902889.1 Holliday junction branch migration protein RuvA (Fusobacterium nucleatum) [pid:43.6%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:7.8e-41],MGA_1327
sequence1	MetaGeneAnnotator	CDS	1528297	1528488	.	-	0	ID=MGA_1328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRCKWYFVCPMKFAYEEGRIERKWIDRYCLSESNWKNCVRYQMEEIGKYHSDEMLPDGNYIEG;locus_tag=LOCUS_13270;note=MGA_1328
sequence1	MetaGeneAnnotator	CDS	1528608	1530752	.	-	0	ID=MGA_1329;product=Na-K-Cl cotransporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404985.1;translation=MEKRFGTFNGVFLPTFLTIVGVIYFLRLGWVVGNSGLIGTIAIIIIAHIITISTALSMSAITTNMKVKGGGAYYLISRSLGLEVGGSIGITLYLSQAISVALYVLGFIESVEIIFPGVNKTAVSIVVALIIGAISIVGADFAIKAQYFIFGSIILAVGTVFISGDYNTPITYIGNFKEAKSFWVAFSIFFPAVTGILAGVSMSGDLKNPRKNIPRGTFLAIGITFIVYILQTIWFSLNVDSQTLMSNKLILISITKFPYFIILGIWAATLSSALGSIVAAPRTMQALAKDGVLPKKLGKGSGAADEPRIASIITFIIAFIFIIMGNLDVVAPIITMFFLNTYGAVNLAAGLESVVGNPSYRPTFKVHWSISLVGALGSYWVMFLINKWATIISLIVTFFIYLYLSRKQVTKTWGDLRGGIWIALARFALLKIRFNKEENGKNWKPDIIVFSGTPRQRQRLVYLSNLLTKGNGIVTLVSIVAGGIKDKLKSKEIITENLKDYVNSRNILAFQEVIIANSFKESATAIVQANGIGTLKPNTVLLGFSEDENKMIDYVRFIGDMIKIEKNIIIFKENAKLGFGRKKRIDIWWGGLENNGNLMLMLAHVISLNEQWKNATINIKSIVMKEYNNLNLKDKLKNMFEEMRIDANIELYNAEDETVIELIHKKSNGADLVVMGLAEPIEGNEQLYIERLNVLSEGMPTILFVKGVNIKEIV;locus_tag=LOCUS_13280;note=WP_011404985.1 Na-K-Cl cotransporter (Salinibacter ruber) [pid:38.8%25%2C q_cov:98.0%25%2C s_cov:94.6%25%2C Eval:4.5e-150],MGA_1329
sequence1	MetaGeneAnnotator	CDS	1530875	1531690	.	-	0	ID=MGA_1330;product=glutamate racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003425992.1;translation=MERRGIGVFDSGLGGLTVVKELRKLLPNEKIIYFGDTARVPYGSKSKKVIVKYSKEITNFLMTKNIKIIVIACNTATAMALEEIKNMVDIPVVGVIKPGSRRAVRTTTNNNIGIIGTTATIGSNSYYNEVKNINKNINVYQKACPLFVPLIEEGLLEDSVTYEMANRYLNGVKGKVDTLVLGCTHYPLIKKTIKKIVGENVILIDSAEETAIEVRDILYSKRLLRNDEGEESDFFVSDMPKKFEEIGKIFLGTDLKEAKYIDIESYSGENN;locus_tag=LOCUS_13290;gene=murI;EC_number=5.1.1.3;note=WP_003425992.1 glutamate racemase (Clostridioides difficile) [pid:47.0%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:7.4e-66],MGA_1330
sequence1	MetaGeneAnnotator	CDS	1531672	1532712	.	-	0	ID=MGA_1331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTIFYLIIILSSITFSQEFFVKKELSTRFFPVSVAVDKFENAYVVDGITHSVKKFNSKGKYLFSFGIKQTGGKNYKEGGVYPSPVDLFVKGNKVYLLDTNNGIYIFDLKGKLLKEIDLKAGKLLGEIERPKAIYVSDKKIYIADTDNNRVEIFNLEGEAIRDFGYKSVTVGGMIQPQGITKLNGDIIVSDSGNNRVMIYDENGIFKGSLYGKSKELDLSYKAPLDIFADTAGEIFVVDNGNQRIQVFNKNYKILLLFGERGDKPTQFRDANDIWVTDNYIYVTDGANKSVKVFNKDFTYIRSIGKNVFQDIFISTLLILTSIFIVVSILIKRVTARRRKWKEEE;locus_tag=LOCUS_13300;note=WP_011023741.1 PKD domain-containing protein (Methanosarcina acetivorans) [pid:31.6%25%2C q_cov:48.8%25%2C s_cov:32.3%25%2C Eval:1.9e-14%2C partial hit],MGA_1331
sequence1	MetaGeneAnnotator	CDS	1532714	1533814	.	-	0	ID=MGA_1332;product=alanine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048315.1;translation=MGNSKNSYLEIDLDKVVENYNYIKGLTNSKVMAVVKANAYGLGIVEIAKVLKKAGADFFGVAFYEEAIKLIKSGIKEKILIFNYIKKEYLNKLININNIIITIYSIEQLNGYIDYMGDNINKLKIHLKVNTGLDRLGIREEDLNIAIKLIKKYNLKIEGIYSHFANASGNEGYTRFQDNNFNKIIKKFEENNILFRVKHISNSAATLLYRKFDYDYVRVGMAIYGLQPLEEYNNNIKEVLTLKSIISGVFNVKKGENIGYGLKTAALKNMKIAIIPIGYSDGYLFQLSSKGLVEINGIECNIVGEVCMDQIIVDVSKIENLKIEDEVIVIGGKIGINRLAKIVDTIPDEILCKLSNSLEKNYIGDV;locus_tag=LOCUS_13310;gene=alr;EC_number=5.1.1.1;note=WP_012048315.1 alanine racemase (Clostridium botulinum) [pid:36.6%25%2C q_cov:99.2%25%2C s_cov:96.6%25%2C Eval:1.4e-55],MGA_1332
sequence1	MetaGeneAnnotator	CDS	1534139	1535431	.	-	0	ID=MGA_1333;product=NCS2 family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896779.1;translation=MERVFKLKEHNTTVKQEVIGGATTFLTMAYIIFVNPNILSATGMDKGALITVTILAAFIGTLLVGVWANVPFAMAPGMGLNAFFAFTLVLGQKVSWQTALGVVFVSGIAFLILTVLGVREKIVNAIPLSLRLATSAGIGLFITFIGFKSMGLVVDNPATLVGMGKFNTPVILGLVGLITIAVLEVKKVKGSILIGIILTTILGIIFKEVSIPTAIISVPPSIAPIALKLDIMGALSFGLIGAVFSFMFVDLFDSIGTIVACSYEADMVKEDGTIKKIDKMLEADAIATVVGSLFGTSTTTTYIESASGIADGARTGLAAAVTAILFLLALLFTPIIGIVPAFATAPALIVVGVYMFRNIKKIDFQDFEVAIPAFLTIILMPLTYSISTGLIFGFLSYILITLVSGDFKKISPTMWVIGALSLLDLAFTAF;locus_tag=LOCUS_13320;note=WP_005896779.1 NCS2 family permease (Fusobacterium) [pid:58.1%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:3.5e-141],MGA_1333
sequence1	MetaGeneAnnotator	CDS	1535648	1536511	.	-	0	ID=MGA_1334;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016843.1;translation=MAEYIIDEDYDNVRVDKFLRKKYKDIPLMGIYKMIRKGRVKVNGKKTKEKYRLLEGDILKVITNDIVKEKKFIKLDERDSKLVTQGIVYEDENILLFNKPYGIVVHKGSGHDYGLIEILKSYYKNSDINFVNRIDKMTSGLILAGKNLKTIRTYTEYIRNKEIKKYYYVLVKGEIKEKKFVIESNLLKGEKNVNEVAEDKEGKWSKTIFKAIKVNNGYSLLEAELVTGRTHQIRVQLAEKGYPILGDYKYGVKSGKKMFLFSHKIEIEKENFKFNLELPEYFSEKLF;locus_tag=LOCUS_13330;note=WP_011016843.1 RluA family pseudouridine synthase (Fusobacterium nucleatum) [pid:49.8%25%2C q_cov:98.3%25%2C s_cov:99.3%25%2C Eval:8.3e-71],MGA_1334
sequence1	MetaGeneAnnotator	CDS	1536572	1537678	.	-	0	ID=MGA_1335;product=rod shape-determining protein RodA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016844.1;translation=MKNNQSIRQLLRKVRKVDIKFILNIYILVFLSLSFVYSASLKKHGIFFKKEIVWTLLGTIVFIIFSLIDYKKYAKYSKVIYTLNIGLLLSVYVIGKKILGAKRWISLGFMSIQPSEFAKIFLVLTFSELLANKYSKGVRGWKNIIVCGFHILIPFLLILKEPDLGTSLVLIFIFFLLIFLNDVDLYPLFSLVGAGIIFIPIAYFFLLKDYQRGRIDTFLDPTKDLHGSGWNVVQSMIATGSGGLFGKGFLHGTQNKLKFLPESHTDFIFSVLSEELGFLGSSILIILYLTLIIYIINVGRKTKDRYGKFVAFGIAGIFFFHVFVNIGMAIGIMPVTGLPLLLMSYGGSSFMFSFMMLGIVQSIKNYSN;locus_tag=LOCUS_13340;gene=rodA;note=WP_011016844.1 rod shape-determining protein RodA (Fusobacterium nucleatum) [pid:51.1%25%2C q_cov:96.2%25%2C s_cov:96.7%25%2C Eval:6.2e-96],MGA_1335
sequence1	MetaGeneAnnotator	CDS	1537668	1537946	.	-	0	ID=MGA_1336;product=cell division topological specificity factor MinE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392080.1;translation=MFEAIKKLFVKEKSGEIAKNRLRVVIMQDRTTFTPVLMENLKRDLIGVFSKYLEIDTEGLEFNLEKEDDNVGLSINIPIKKVKSDTDSIDEK;locus_tag=LOCUS_13350;gene=minE;note=WP_011392080.1 cell division topological specificity factor MinE (Moorella thermoacetica) [pid:46.2%25%2C q_cov:98.9%25%2C s_cov:94.9%25%2C Eval:3.2e-15],MGA_1336
sequence1	MetaGeneAnnotator	CDS	1537982	1538782	.	-	0	ID=MGA_1337;product=septum site-determining protein MinD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012255922.1;translation=MGKGVIYAITSGKGGVGKTTTTANISTGLAMQGKKVAVIDADIGLRNLDVVMGLENRIVYDIVDVVEGRAKLKQALIKDKKLKANLQLLPAAQTREKDAVTPENMMEITKELAETFDYVFIDSPAGIERGFKNAIAGADEVIVVTNPEVSAVRDADRIVGLLEAAEKNPPKLIINRIRMDMVKRGEMLSIEDVLDLLEIEILGIVPDDEDIVISTNRGEPIVKTEESRPGKAYRNVVKRILGEKVPLLTLEEKKGILKKLATLFKK;locus_tag=LOCUS_13360;gene=minD;note=WP_012255922.1 septum site-determining protein MinD (Chloroflexus aurantiacus) [pid:64.0%25%2C q_cov:98.1%25%2C s_cov:97.7%25%2C Eval:1.7e-88],MGA_1337
sequence1	MetaGeneAnnotator	CDS	1538815	1539315	.	-	0	ID=MGA_1338;product=dUTP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016845.1;translation=MAEKLVEENNKEDNNNNIKNNEINIRVILEEGAKLPEYKTIGSAGMDIFAFINKDLEIAPLERVLVPTGVKMEIPVGYEVQVRPRSGLALKHGLTLVNSPGTIDSDYRGEIKIIMINLGKESYNIKPYDRIGQFILKKVDKAKLEVVSELENTLRGEGGFGHTGKN;locus_tag=LOCUS_13370;gene=dut;EC_number=3.6.1.23;note=WP_011016845.1 dUTP diphosphatase (Fusobacterium nucleatum) [pid:58.3%25%2C q_cov:86.7%25%2C s_cov:98.6%25%2C Eval:2.7e-48],MGA_1338
sequence1	MetaGeneAnnotator	CDS	1539315	1540139	.	-	0	ID=MGA_1339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKFIENFIEKLKNIVSFETILNESFEMLKKEYNIKKIAFYKYDEKNDIYKKNIAIQCEGKKLYKELNDIDCINNGHKHILNVRGKKYGVIIFEKEFPVLKPFISMLELAIERIALSGHIINFDEEIEFEKEYLKEILDIERKRNQKFILLICEIDYYIDYESQKQLNIPIQKFNEIINKIDDNIKESDIVIRYMHNKIAILLNKISVEELHTVLERIKNLVELKNYEDSSVIKLNYGYSIFEGNKSIENLMEEAEKNIKKKLKIERWLKNL;locus_tag=LOCUS_13380;note=MGA_1339
sequence1	MetaGeneAnnotator	CDS	1540142	1541371	.	-	0	ID=MGA_1340;product=pitrilysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016846.1;translation=MFKFEIVELENGIPVIMEVTKNVKSATIGIYAITGSKYENYEEKGISHLLEHMLFKGTSRRNAKEISEDIDNVGGKINAYTSKEVTAYYVSIVNTYLNLAIDVLADIYTNSTFPEEELEKEKKVVIEEIRMYEDIPEEKIHEINSRFVLNKSNLGLPIAGSEESVTNISRELLKKYWEDRYTKDNTVISVVGNFNKEEVIKQLNENIGKLNRTKVDREYNKEVIINTGIEEMKRESNQVHLCVNTKGISYLDKNRYILSLLSNILGGSMSSRLFQKVREDKGLAYSVYTYSSMYKEGGFFTAYAGSTKDKYNEAIEIIKNEFKDIYENGITKKELEKSKNQYISDLTLGLETTRSRMARMALAYIRYGEIRKIEAILEDIKNITLEDIHDFAKTYFKEDNYSVVALGDI;locus_tag=LOCUS_13390;note=WP_011016846.1 pitrilysin family protein (Fusobacterium nucleatum) [pid:43.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-95],MGA_1340
sequence1	MetaGeneAnnotator	CDS	1541390	1542460	.	-	0	ID=MGA_1341;product=LPS export ABC transporter permease LptG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933214.1;translation=MKKLDKYILKSFIKSFLLGVMAFLIIFILSEMFRIIGYIMDGKLTPIQGFILLLNGLPTVMINVIPLGVLLGGLMTVNKMATNLEIMALKTSGVSFKRIILAPVILSGLISIGLLWFNNNVVPNSNKKYRELKNNEVYNVKESRIKTDVFMKGQGNYLTYIRLVNGNNISDSEIVLLDNSFSKIEKIITVKRGKYNIKLKKWYFSRVKINDIINNKIETMGFYEPDFFKETPSDLLRDKVREKEMNISELKDAANFIKKTGGDVKKILVAMYKKMAYPFAALIMSFIGLSLGSRYIRGASAVSIGLSVVIGYIYYVVTATTEALGVGGFLSPMLSGWIPDILFLVLGISLVKISEY;locus_tag=LOCUS_13400;gene=lptG;EC_number=7.5.2.5;note=WP_010933214.1 LPS export ABC transporter permease LptG (Chlorobaculum tepidum) [pid:27.1%25%2C q_cov:99.2%25%2C s_cov:92.4%25%2C Eval:6.1e-24],MGA_1341
sequence1	MetaGeneAnnotator	CDS	1542461	1543543	.	-	0	ID=MGA_1342;product=LptF/LptG family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901847.1;translation=MKIIDRYFYEEMGAPVIFGISLFTFIFLIDALVEMMENIIVKNVPVKDVLSLISYYFPPVLVQTIPMGLLLGVMISYGKLSGNSEIVALESIGISMTRFLRPALILGVLTMGFVFFLEEEVVPESYTKFGMLSKKIAYRKPAVKIEEKVFVEGIGDYNIYINKMDNEVSEAENLIVFKKESDTPFPEVIISKKAKWKKSDMILENANFYNINSKGEKELSGSFEKQSIPINTFFGNFSINKKRKSMMSITELREAIIKRRKKKINSLSYEIEYQQKLAIPISALILSFLGVLLSVKNNRNGKGVSFGISLVIIFFYIMGINFGRLLIYNKVLSPIVGMWYPNLLLLLLSLILFYKQTRSR;locus_tag=LOCUS_13410;note=WP_005901847.1 LptF/LptG family permease (Fusobacterium nucleatum) [pid:36.4%25%2C q_cov:98.1%25%2C s_cov:97.8%25%2C Eval:9.1e-68],MGA_1342
sequence1	MetaGeneAnnotator	CDS	1543540	1544202	.	-	0	ID=MGA_1343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIDSIIIAIIALSMIIGIFKGFILEFFSLFGGLISILIAKRISGNIYLIVFGSKHIKNNTNYLIVYVLTILVSYIIMYMIILLLKKFFHTILLGWLDRVLGGLAGFLKGSFIAIVILLVMAAISNFNDQFHKELYKSYSGKAISKISPKLVSLMPKNLEEEVKKFNTNINIEEIINKSVKKNVKFKDLKNIDTKKILKNSKNEKEINDILQKALKGEVK;locus_tag=LOCUS_13420;note=MGA_1343
sequence1	MetaGeneAnnotator	CDS	1544234	1545418	.	-	0	ID=MGA_1344;product=class I SAM-dependent rRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016848.1;translation=MAKVRVILKKMKDRKIRNFYPFVYKDEVKSIMGNYENGDIVDVVSEDLSFVGRGYINDNASTLVRVLTTQDEKIDKKFIKNRIKTAYENRKHILNETNSIRLFYSEADGFSGLIVDMFGKYLSVQFRTLGIEKFKEEIIKSLREVIKPKGIYERSDMGSRIKEGLELKSGLIYGEIPDEIIMEDNGMKFIIDIVNGQKTGFFLDQRDSRKFIMNYIKPNSKVLDVFSSSGGFSMAALKKGSKKVVAIDKSPEALEVAKKNYSLNEFEGDFSTIEGDAFSILNILSQKKEKYDLIVLDPPALVKSKNDVKKGRDLFYNLCDNGFKLIEKDGILGVCTCAYHITLQDLIEVTRMAASKNGKLLKVVGVTYQPEDHPWILHIPESLYLKCLWVKVMN;locus_tag=LOCUS_13430;note=WP_011016848.1 class I SAM-dependent rRNA methyltransferase (Fusobacterium nucleatum) [pid:63.4%25%2C q_cov:98.5%25%2C s_cov:98.7%25%2C Eval:1.8e-149],MGA_1344
sequence1	MetaGeneAnnotator	CDS	1545498	1546268	.	-	0	ID=MGA_1345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKIISVLLFFLIFLFSFGDNNKYIEIENILYGFTLDDSFTIEKQIGIMEKKVYGEVGEGSIEERENKLYNFLQDNIKNKLGESELIIFGKKSFDKSILDRIEKIEYGCFRKYNNKLNFLDRIKKIKKFLGNKNSEEKIFFSQEKELKKSMKNNKIELKLYRDFRKIKLKNGEIIKFILEEKIKGIAEKGSIIYGKVINVKKSLFFFYSELDIKLFKIINKDKKIYDINELIILKKEIKKLKRKKSINVKMFEMK;locus_tag=LOCUS_13440;note=MGA_1345
sequence1	MetaGeneAnnotator	CDS	1546381	1546872	.	-	0	ID=MGA_1346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFFKKKSNIITILDLIFIFGLILLLNYYFQKKMPTKQELILNNVKYSAIISKYKIDKDEALLIKVEIKNRSKKPKYFILKKENSFNFIITKGDKIIYKKDILEKNASGKRKLKINGYSKIVFSDLWMNESNTEEAINSGEYELHIYSKDFNIKFDMNFFIN;locus_tag=LOCUS_13450;note=MGA_1346
sequence1	MetaGeneAnnotator	CDS	1546872	1547990	.	-	0	ID=MGA_1347;product=alanine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048315.1;translation=MRVWSDINLNNLIINLNLIKKLTSNNKKILGVIKANAYGHGAVEIARELSANGVSNFGVACIEEAEELVKNRIRGKILILGCTPLEEWDKAVSLGIQLTLSSYEEINYIEKKGLFPDIHVKIDTGMGRIGFSYEEAEKAIQYIKNKNIANIKGIFTHLSVADEDLEYTQKQVEIFKKIVDENKDIEYFHISNSAGILNVINEGNMVRPGIILYGIPVVKNRFSKEFKPVMSFKSKIIFLKEVKQDMPISYGKTYIAKKGEIIATVSAGYADGINRKLSNTGEVYLKGKRCKIIGRVCMDQMMIKIPKTLIGKVKVGDELEIFGENINIDEIAKISGTISYEILTNINNRVPRIYWKNGKIIRVNSLLGKEEI;locus_tag=LOCUS_13460;gene=alr;EC_number=5.1.1.1;note=WP_012048315.1 alanine racemase (Clostridium botulinum) [pid:43.0%25%2C q_cov:97.0%25%2C s_cov:97.2%25%2C Eval:4.7e-67],MGA_1347
sequence1	MetaGeneAnnotator	CDS	1548043	1548249	.	-	0	ID=MGA_1348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYSFEKTGAAAGKVWNYLNENGATGIKAMVDNSELKKDEVLLALGWLFREEKIGSEKKGRTIVFFLK;locus_tag=LOCUS_13470;note=MGA_1348
sequence1	MetaGeneAnnotator	CDS	1548267	1549136	.	-	0	ID=MGA_1349;product=protein translocase subunit SecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016589.1;translation=MNLKIIKNTKIWFTISITLVVAGLLLFMVKGLNYGIDFTGGTLFQLKFEKSVKLSDLNKDLKDMSAKYKELESKKIQISEGNVVLIRTNAFEEAQKDNFLNDFKAKEGKFEILKVDKVGATIGKELKWKAINALLIGSLLIVLYITIRFEFRFAVGAIVALLHDLIIAVGAIALLGYEINTPFIAAILTILGYSINDTIVVFDRIRENIKKKSKKNIGDLIDDSINQVFTRSINTSVTTLLAILAVLIFGGASLRTFITALLIGILSGTYSSIFVASPIVNLLEKKEAK;locus_tag=LOCUS_13480;gene=secF;note=WP_011016589.1 protein translocase subunit SecF (Fusobacterium nucleatum) [pid:56.2%25%2C q_cov:99.0%25%2C s_cov:91.2%25%2C Eval:7.8e-85],MGA_1349
sequence1	MetaGeneAnnotator	CDS	1549139	1550356	.	-	0	ID=MGA_1350;product=protein translocase subunit SecD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902477.1;translation=MKKSLLVNLALIAVVLGLAVWFAFLKPVRLGLDLKGGVYVVLEAQDTKEAKVDNQAMDRLVEVLDRRVNGLGVSEPVIQRSGDRRVIVELPGVKDTEEAIKVIGKTALLEFRLLKSDGSLGDVLLTGKELKKADVSFDRLGRPQIGFELTTKGAKIFADITKKNIGKQLAITLDGAQQTAPTIQSEIPGGKGVITGSYTVDEAKKMATLLNAGALPVKVKMLETRTVGATLGEESIQASYKAGIVALILIAIFMVVWYRLPGLIADLALLIFGIIAFGTLNFIDSTLTLPGIAGFILSVGMAVDANVIIFERLKEELRLGNSILAALDAGFKKAFMAIFDSNITTLIITAILFALGTGPVKGFAVTLTIGILASMFTAIVVTRVLLKGFIYLFKIENPILFGVRR;locus_tag=LOCUS_13490;gene=secD;note=WP_005902477.1 protein translocase subunit SecD (Fusobacterium nucleatum) [pid:64.2%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:3.6e-148],MGA_1350
sequence1	MetaGeneAnnotator	CDS	1550367	1550789	.	-	0	ID=MGA_1351;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902478.1;translation=MRVLALDVGDVRIGVAISDPLGMIASPLEVIDRRKVKAIKRIVELAKEKKVEKIVSGLPLSLNGTEKRQAEKVREFIEKLGKSLHDIPIETVDERYSTVSADNMLKVTTKKNAKEKRKVVDKVAATIILQTYLDMEKRRR;locus_tag=LOCUS_13500;gene=ruvX;EC_number=3.1.21.10;note=WP_005902478.1 Holliday junction resolvase RuvX (Fusobacterium) [pid:65.4%25%2C q_cov:97.1%25%2C s_cov:98.6%25%2C Eval:6.4e-43],MGA_1351
sequence1	MetaGeneAnnotator	CDS	1550786	1553383	.	-	0	ID=MGA_1352;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016588.1;translation=MFTGNEIRKKFLDFFEQKMHKKYESASLVPDDPTMLLTIAGMVPFKPFFMGKQVPTYKRATSCQKCIRTNDLENVGRTARHQTFFEMLGNFSFGDYFKEEAIVWAWEFITEELKLSKDKLWISVYKDDEESIKIWNEKAGVSLDRIVKMDEDNFWSAGPTGSCGPSSEIYVDLGEDKGCDSPTCGVGCDCDRYIEIWNLVFTEYNRLEDGTLEPLPKKNIDTGMGLERITSVIQNVSSNFDTDLLKPLVEEVAKATGVKYNEKENIDFSLRVIADHIRAVTFLIGDGVLPSNDGRGYVLRRILRRAARHGRLLGYKKSFLYELSDKVIDMMGEFYPEIVKNSDHIKKVISIEEEKFEATLDQGIILTNNEIKKLKLEKKDKMNSEIVFKLYDTYGFPFELTEEICQENNIKIVYDEFKEKMEEQKNRARNSREVIKEKIEDSFIEEFYKENGKTEFLGYENLKLEGKVLHKKDIDTETYEVIFDKTPFYAESGGQIADSGIIKNRTFKGKVLNVQKRKDIFIHIVKIIEGNLKIGDNLTLNVDKEKREAVTKNHTATHLLQAALQEVIGKHVHQAGSYVNRERLRFDFSHYESIKKEEIEEIERIVNREILKNHKVDISLKNIDEAKKMGAMALFGDKYGDVVRVVKISDFSIELCGGTHVNSTGEIGLFKIVTETGIAAGTRRIEAITGLNSLEYLTKLEDRTEDLAEILKVDKDKLEEKANKLLDENRELKKNISELNSKLASIEADKFLENPEMINGINVIIKAFKGQNPQNLRKMADKAKDKLKSCVVVFGTNNGKAIFLVSVTKDLIEKGIKAGDIVREVAKIAEGNGGGRPDFAQAGGKAGNKVQEALNFAKKLLEEKL;locus_tag=LOCUS_13510;gene=alaS;EC_number=6.1.1.7;note=WP_011016588.1 alanine--tRNA ligase (Fusobacterium nucleatum) [pid:55.1%25%2C q_cov:100.0%25%2C s_cov:99.9%25%2C Eval:6.8e-273],MGA_1352
sequence1	MetaGeneAnnotator	CDS	1553708	1554874	.	-	0	ID=MGA_1353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKEIINNFEKVFNVKIEIDSGRNIKVTPKRDKEKIIKLLAPFLELNKKYKEVVEENTKNYEKIYNLSELLSLGGRNISELELIDTIINLGMMILEVDNLVIKYKNKFYSNKNNKIIENIIGNIIESNSKDEYIHKNIERKSIVVYNARDELILGIEFEKALDSNTVEKKLKGIRILSEVIKTIYNIRNYKSNIENIYISILKKVSSILEYRNYIYGNFYDIDKLLLLLEFMAKKLEMNFTEIETLKLSAILKDVGTILITENILHKRTSLTNEEKKIIEKHTYYSYNILKNIPYFEEHALIIKNHHERYDGNGYPKGINGKEIPISANLLNLVSTFLALVSSRVYRKAYSNIEAKEIIKNESGKRFYPELVEIFIENYDEIIEILS;locus_tag=LOCUS_13520;note=WP_012582664.1 HD domain-containing protein (Dictyoglomus turgidum) [pid:31.6%25%2C q_cov:50.5%25%2C s_cov:42.8%25%2C Eval:2.1e-25%2C partial hit],MGA_1353
sequence1	MetaGeneAnnotator	CDS	1554881	1555453	.	-	0	ID=MGA_1354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKYNMIIIGISTGGPNALRKLVPALSCKIKLPIFIIQHMPKGFTKILADGLNELSELEIKEGENEVIKAGTVYVLPGGQDSKLVKVGNVLKLYPENKRIGFYNPSVDYFLESVNKISSINPLIAILTGMGRDGTEGILNLKENKRSFVLTQEEKSCVVYGMPKSIDKLGLSDVSGLTEKEIGNEINKRA;locus_tag=LOCUS_13530;note=WP_010878541.1 chemotaxis response regulator protein-glutamate methylesterase (Archaeoglobus fulgidus) [pid:43.4%25%2C q_cov:86.3%25%2C s_cov:47.3%25%2C Eval:4.8e-32%2C partial hit],MGA_1354
sequence1	MetaGeneAnnotator	CDS	1555492	1556214	.	-	0	ID=MGA_1355;product=LPS export ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016586.1;translation=MNSIAVQELCKSYKKRLVVNKVSLEVNKGEIVGLLGPNGAGKTTTFYMIVGIIKPESGKVMYNEMDIIKYPMYKRARLGIGYLAQEPSIFRNMTVGENILTILEMNKISKKERIEKKDMLLEEFKISHIENSLGYSLSGGERRRVEIARTIANEPNFILLDEPFAGVDPIAVEDIQEIILYLKKKGLGILITDHNVKETLRITERAYIMSEGKVLISGNSNEIAENEVARKIYLGKNFSL;locus_tag=LOCUS_13540;gene=lptB;EC_number=7.5.2.5;note=WP_011016586.1 LPS export ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:8.3e-92],MGA_1355
sequence1	MetaGeneAnnotator	CDS	1556214	1558913	.	-	0	ID=MGA_1356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKILYFIMLGIFLLFIYNNYIKKMSDINIGEIKKDIKTNNIKYDIGNSYKISANQLIENQTNETTVFKQAQAFFKNMSLKGNEAIVDKLKNMILKGNITGVTDNGWKFKTTEMRYDENKKKFYSVSKVEAKKDDIKITARHFEANSQFTLINLYTNVKLTSNKVTLSCDRVIYDRNKNIVKLNGNIKVQVKNLNSEKGKIELVTGELNYAIYDMDNNRLIVWGKFKARMKGYTLTANNLVYYKKTNNVDVYDNVKLKKDDMEINTPKAFYNGKTKKIVLNKPVKGKIKEYNFESDYMQIDEVTENIKLSNNIEIKNKESTMKADEITYDKKNNIIEGVGHENILVFGKDYRMKSKKFHYFVDENKLVIPENFRVVKNGMKINGSNLIFYTKDEIGTSKKIYIEKKENNLISDFVKFNLKKKIYNLEKNISINYEKYNIVTQKLDLDEANKKIYMKDNFEVYNKEDDLKIYSKNGEYDDNSKLISLLGKTKVVKDDYEISGDSFTYNLDDKFGKLVGTVEIKNRKDDLIVNANELTYKYKEEMDIYGDVRLKKDDIYGNTEKIVYKYKEKMGYLITPGKVENKTEKIIMNYETGEYDNNLKILKLRKISGHQEDIKFKSELAKYDEKSNEIDFIKKVNINQKELNIDSDKLRYFIKTKKIKSETPITVTEKNLKMVIQSGEMDLKNKTLDGEKGVITTEDGDKITGDFLSGDYSKKEFNFKDNLKADLPSEKMKFSGDIAKMYFKKNKDDQFDVTRGEIKNKTDFWYKDMNLSSDYLEMDNMKNLVFGKGNPVLKIDGDTTIKSDYVYLNLNTNTGEMKSNVKLTNITKEAGTINATANDASLNNEDKKVKMKGNIIVYQGENKVEAEEGVMDLKTNILSGIGTTKFKLRIKPKEESK;locus_tag=LOCUS_13550;note=MGA_1356
sequence1	MetaGeneAnnotator	CDS	1559022	1561619	.	-	0	ID=MGA_1357;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494923.1;translation=MIKKETPLMKQYKAIKKENEDSILFFRLGDFYEMFFEDAKIASKELGITLTSRNKEKGVEVPLAGIPYHSAAQYISKLVSKGYKVAICEQVEDPKKAKGIVKREVVKIITPGTVIDTDSLDENSNNYLLGIEIKDSGAGISYIDITTGEFKTTQFDEGNLSEKIFNEINKIAPKEILIDNVSYEILKEKIEEYTKLNNILLNTINLIDDSEEFLKDYFNIISLESFGINNKKISIEIAGTVLNYILELQKFGEIPVNKLIYVNTKNQMELNVTTQRNLDLIKNNREKNSLGTLLWVLNKTKTSMGGRLLKKVIVSPLIDIDKILERQNNVKYFIDNLMIREEIREELINIYDIERIIGKIVLGTENGRDIIALKKSLKSVIEIKNILKDSDILKFELKDLIEIYELIDSSIIEEPPFSIREGKIIKENYNKELDELRNISKQGKKYILDLEKEEKEKTGIKSLKVKYNRVFGYYIEVTKSNIDLVPENYIRKQTLSNAERFITPELKEYESKVLNAKDKIEELEYKIFKEITSNIKNMKKTLQDVASKIANLDMIISFAVVAIENNYIKPEIDEGFEIDIQDARHAVVEKLIGSEDYVSNNIKFTEKEKLIILTGPNMAGKSTYMKQIALIIILAQIGSYVPATYAKIGVVDKIFTRVGASDDLVSGQSTFMVEMSEVANIVNNATERSFVILDEVGRGTSTFDGISIAWAISEYIHDKVKSKTIFATHYHELTELEKKFENIVNFRIEVKETSNSVIFLRKIVRGGADKSYGIEVAKLAGIPNDIINRSKKILFNLEKRRKLVESTIQVEQLSLFGNNDIIVEEEEKVEDEILIELEELNLNNITPLEALNKLNEIKRKIENRK;locus_tag=LOCUS_13560;gene=mutS;note=WP_029494923.1 DNA mismatch repair protein MutS (Fusobacterium hwasookii) [pid:55.8%25%2C q_cov:98.8%25%2C s_cov:98.7%25%2C Eval:1.8e-273],MGA_1357
sequence1	MetaGeneAnnotator	CDS	1561755	1562594	.	-	0	ID=MGA_1358;product=polyamine aminopropyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808145.1;translation=MEFWFSEFHLPGLKYSLKVKECLYSGKSEYQRLDVFETEEFGRAFTLDGILMVTEKDEFVYHEMMAHLSSNIHPNPKRALVIGGGDGGTIRELARYDSFEEIHLCEIDKHVTDVCLEYFPNVAGILKSDERVKLYFEDGIKFLENKKNYYDIICIDSTDPIGPAVGLFKEDFYKLCYESLTEDGIVIAQSESPWYHLPIIKDVQDSFRKIFPISKLATASLLAYQSGFWSFSIGSKRYNPIEDFNLEKAEKIEKFTKYYNSGIHKASFVLPNYVKKIFR;locus_tag=LOCUS_13570;gene=speE;EC_number=2.5.1.16;note=WP_005808145.1 polyamine aminopropyltransferase (Desulfitobacterium hafniense) [pid:48.6%25%2C q_cov:98.9%25%2C s_cov:97.5%25%2C Eval:9.6e-77],MGA_1358
sequence1	MetaGeneAnnotator	CDS	1562631	1563788	.	-	0	ID=MGA_1359;product=pyridoxal phosphate-dependent aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986780.1;translation=MEFSKRLEGITPSATLKIIAKVNELREKGENVISFGAGEPDFDTPLPIREAAKKAIDDGFTHYTSASGIVELKDAIINKLLRDNGLKYTRDNIIVSNGAKHSLYNALAAILNPKDEVIFANPYWVSYSEMVKLLGGVPVLVDTSFDNCFKLTAEAIEKKITSKTKAIIINTPNNPTGSVMSREELRKIGELAIKYNFYIISDEIYEKLIYDNEHVSIASISESIKNRTIVINGVSKAYAMTGWRIGYMAAPEKIAKLAVGFQGHTTSNPNSIAQKAVIAALNLDNKILDSMVLEFKKRRDYMYKKLSKIDKFILPDIPGGAFYIFVNIEKIGKNSEEVSEEILDIAKVGVVPGAAFGMDGFIRFSYANSLDEIEEGINRIEKLYK;locus_tag=LOCUS_13580;note=WP_011986780.1 pyridoxal phosphate-dependent aminotransferase (Clostridium botulinum) [pid:52.9%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:9.9e-108],MGA_1359
sequence1	MetaGeneAnnotator	CDS	1563791	1564483	.	-	0	ID=MGA_1360;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016759.1;translation=MLILGIDTSTKISSVALYDSENGIISKLDLEVKFNHSDSLLKGIDTLFEFSKLKISDVDRVAVGIGPGSFTGVRVGIGTAKGIAFAIDKEIIGINSLEILANGISDSSDLIIPMIDARKERVYYGVYKYVDSKLKVVEQIRDGKVLDILEKYKDSKKILTGDGSINYRELILENGIKNIKFNKISRSKIDAGVLCEIAEKKEDDNIYLLEPEYISKSQAERQKEKIKIEV;locus_tag=LOCUS_13590;gene=tsaB;EC_number=2.3.1.234;note=WP_011016759.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Fusobacterium nucleatum) [pid:50.0%25%2C q_cov:96.1%25%2C s_cov:99.1%25%2C Eval:5.0e-51],MGA_1360
sequence1	MetaGeneAnnotator	CDS	1564464	1564931	.	-	0	ID=MGA_1361;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903737.1;translation=MKRKVNFNEINQIAEKLSKAIKSGDFIALVGDLGTGKTTFVKEIAKNLGITGEIKSPTFTYVREYKTKIGCPFYHFDVYRIGEPEEVYEIGYEDYINGDGIVIVEWADLIEEELPDKYIRITLEYSDEESRMMKIEVIGDEKRAEEIIQYVNFRD;locus_tag=LOCUS_13600;gene=tsaE;note=WP_005903737.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Fusobacterium nucleatum) [pid:48.6%25%2C q_cov:92.3%25%2C s_cov:93.5%25%2C Eval:1.2e-36],MGA_1361
sequence1	MetaGeneAnnotator	CDS	1564954	1567869	.	-	0	ID=MGA_1362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIVILLVLLLINIISYGEVNLANNSVSSGTTIDNLSNLNSNLSNLNSNLSSLNNVSNNNVNNNVNDLNLENNEINTNKKQLNNNKEILKDDNSKKKIEDKKELERQTEDLYSKLKKRGFNDENNISMFGSSFFNNKSNSKQFLPSVVSVGKNYILSNGDYILVKFWSKNFSELSNTNNSKQGYNVYIDGSGNVFLNNFGALYVRGKSIKEVEKEIKEKGNKKYKDFNVDISLLKMRSIKVFVLGEVNKPGNYILNPMSGIVSSIYMADGITQNASLRNARILRSGKTIDVDIYDFLLGKDEKSNILLKDGDVVYVPVIKSKVTITGEIKRAGSYEFNEKDTVESIIKLAGGFLDNAYKLSVKLKRISGDSLKVFDVSDKKDFVVKSGDIIEIGKIKNNFENGIYIYGNIVRPGLYQLNKNERLQEILKKAGGILPDTYFKRGDIFRIGKDTLREKIPFSFEENPELKTGDTIFIYNLKDIGERSYVTVMGAVKKQGIYESFKNSKVSDAIFQAGGLKDTRVYLKRADIFRVEKDGGINVIPVNLGKILDGDKKADIELKKYDTLKVYNIEDVGEGREYVTVLGSVKKQGSYLLYGNNRKVSQIIFQAGGLKDTGVYLKRADIFRVEKDGGINVIPVNLGKILDGDKKSDIELKKYDTLRVYNYSEVKEFSKVYIYGEIRAAGKYDYYDKMTINDLIFHAKGLKNSSDKTKVEVVRNSVNGEKTSVIDVDINKNPNFKLQADDQIFVRKLINWEKKATVDISGYVNYPGKYSITKNETLNDVMKRAEWFKKGASPEGIKLYRKEKIASELQNINIDSDMKKTIDISNLTANARIVNLKYDSNKKRFIPDVILKDGDAIYIPEKVNYVKIIGEVYLPGIVTYNQNISLDNFLDLAGGIKETAAKNKIFVIRENGKTLRRGLFGGMKIKAGDTIVIPKNTTEKTDWIKKTMTVLDFFIRVVTAYKLAEATF;locus_tag=LOCUS_13610;note=WP_162303164.1 SLBB domain-containing protein (Bacteroides thetaiotaomicron) [pid:25.8%25%2C q_cov:67.6%25%2C s_cov:84.8%25%2C Eval:2.5e-53%2C partial hit],MGA_1362
sequence1	MetaGeneAnnotator	CDS	1567869	1568345	.	-	0	ID=MGA_1363;product=D-glycero-beta-D-manno-heptose 1-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896999.1;translation=MKIIEKNNIEKIIKNLKQEKKTIVFTNGCFDILHVGHLRYLEEAKSYGDILVVGVNSDSSVRRLKGEKRPYVPENERMEMLAGLESVDYVVKFEEDTPIEILKQIKPDIHIKGGDYKEEDLPEAKVVKENGGIVKIVSLIQGKSTTNIIKEILNREDI;locus_tag=LOCUS_13620;gene=rfaE2;note=WP_005896999.1 D-glycero-beta-D-manno-heptose 1-phosphate adenylyltransferase (Fusobacterium nucleatum) [pid:60.3%25%2C q_cov:89.2%25%2C s_cov:91.6%25%2C Eval:1.4e-45],MGA_1363
sequence1	MetaGeneAnnotator	CDS	1568572	1569198	.	-	0	ID=MGA_1364;product=uracil phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032884835.1;translation=MAVVEVNHPLISHKLTFLRNKNTDTKLFRETLNEIAGLMTYEVTKGLKLEEIEVETPVMKTKSYILPDKAVAVVPILRAGLGMVEGIITFIPTAKVGHIGVYRNEETLKPVYYYCKLPEDIADRKVILVDPMLATGGSANYAIDYLKKEGVKDIVFLSLIAAPEGIANVVKKHPDVDIYTAKIDEGLNEKGYIYPGLGDAGDRIFGTK;locus_tag=LOCUS_13630;gene=upp;EC_number=2.4.2.9;note=WP_032884835.1 uracil phosphoribosyltransferase (Fusobacterium nucleatum) [pid:76.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-89],MGA_1364
sequence1	MetaGeneAnnotator	CDS	1569199	1569648	.	-	0	ID=MGA_1365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLTLVILGLISLSGCGTTTKSQMKKEKVVVAVNSNDSKQFYEAIGMGAPDIKASNKAFRRQTSYETAKSAALNDIASYLYGVKLESGMIVQDAMVKDSTIKTSVISFIREAEMTKREWDSDDSCVVTMRINLKEFKKKLEELGVK;locus_tag=LOCUS_13640;note=MGA_1365
sequence1	MetaGeneAnnotator	CDS	1569976	1570185	.	-	0	ID=MGA_1366;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003814855.1;translation=MREGIHPDYKLITVECSCGNSFETKSTYSKGDTLKVAVCSNCHPFYTGKSRFVDETGRVDKFRKKYGLK;locus_tag=LOCUS_13650;gene=rpmE;note=WP_003814855.1 50S ribosomal protein L31 (Bifidobacterium) [pid:60.9%25%2C q_cov:100.0%25%2C s_cov:97.1%25%2C Eval:7.1e-20],MGA_1366
sequence1	MetaGeneAnnotator	CDS	1570257	1570874	.	-	0	ID=MGA_1367;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016953.1;translation=MKIEKFILGKFQSNCYMLTNGNEVTIIDPGSYEVENIIKYMNMNKMQLKRILLTHGHFDHIMGLKIFLNYFENVEIVIGEEEINFLENEKLNLSEMLNEKLKFDINKLNLIKVKENDEIDNFLVINTPGHTIGSKSYYFKSENIMFVGDFIFENAIGRTDFPTGNFMQLKDSIKKILIFKDELIIMSGHGRNTVLGKERKRLEKY;locus_tag=LOCUS_13660;note=WP_011016953.1 MBL fold metallo-hydrolase (Fusobacterium nucleatum) [pid:38.8%25%2C q_cov:99.5%25%2C s_cov:98.1%25%2C Eval:5.2e-38],MGA_1367
sequence1	MetaGeneAnnotator	CDS	1570891	1571985	.	-	0	ID=MGA_1368;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017102.1;translation=MIGIGIVGLPNVGKSTLFNAITKAGAAEAANYPFCTIEPNVGMVTVPDRRLEELAKIINPQRIQAATVEFVDIAGLVKGASKGEGLGNQFLSNIRNTAAICQVVRCFEDENITHVDGAIDPIRDIETINGELILSDLEIVERGIVKNSKLAKSGNKESKNLITVLTKIKEHLEEFNLIRTLNLNEEEMALVKQYQFLTIKPMMFAANVSEEEINSGNKYVDKVKEYADTQNAEVVIVSAKVEAELSELDDEDKEMFLEEIGIEEPGLNRLIRAGYKLLNLQTYFTAGVKEVRAWTIKIGATAPKAASEIHTDFEKGFIRAKVVSFDDFIKYNGWKGSQEAGGLRIEGKEYVVQDGDLMEFLFNV;locus_tag=LOCUS_13670;gene=ychF;note=WP_011017102.1 redox-regulated ATPase YchF (Fusobacterium nucleatum) [pid:72.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-154],MGA_1368
sequence1	MetaGeneAnnotator	CDS	1572066	1572200	.	-	0	ID=MGA_1369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISDKILFYIFLICLFLIVVFNWSNKPFYSDNHIKDEVIVTLK;locus_tag=LOCUS_13680;note=MGA_1369
sequence1	MetaGeneAnnotator	CDS	1572360	1572644	.	-	0	ID=MGA_1370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKIILQGDIQLFNIMEYEKKLKYNSLEKYTDILKIDMSNVGYIDLSGVLLFLKMKREYKKRGIKICLEKLNINILKLFKEVNLIDEFKIKNI;locus_tag=LOCUS_13690;note=MGA_1370
sequence1	MetaGeneAnnotator	CDS	1572746	1574020	.	-	0	ID=MGA_1371;product=phosphoribosylamine--glycine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545691.1;translation=MKVLVIGNGGRESAICWKLFNSNKVSKIYIAPGNGGTLNYGENIDISVDNIVELKKFAVNNKIDLTVVGPEIPLTLGIVDEFGKDGLKIFGPSKEAAELEGSKDFAKKIMKKYKIPTADYETFTEYEEALKYLKNKGVPIVIKADGLAAGKGVTVAFNIDDAINALKDIMLDKIFGESGAKVVIEEYMDGEEASILAFTDGKTIYPMVSSQDHKRIYDGDKGPNTGGMGTYSPAPVVTDEVYKMVYNDILVPMIKGLKEEGIKYKGVLYAGLMISGKEVKVVEFNVRFGDPETQVVLPRLKTDLFEVFEAVAEEKLDKIKLEWDDRVAVCVVMASGGYPGKYEKEKLITGIKEAEENGLLVFHAGTKDENGKVTTNGGRVLDVVSIKDNIKAAVDDIYNKIDSINFENKFYRKDIAHKALKRES;locus_tag=LOCUS_13700;gene=purD;EC_number=6.3.4.13;note=WP_012545691.1 phosphoribosylamine--glycine ligase (Thermodesulfovibrio yellowstonii) [pid:54.9%25%2C q_cov:97.9%25%2C s_cov:99.0%25%2C Eval:1.7e-127],MGA_1371
sequence1	MetaGeneAnnotator	CDS	1574333	1575907	.	-	0	ID=MGA_1372;product=bifunctional UDP-sugar hydrolase/5'-nucleotidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082429.1;translation=MKKRFLVALLAMLVVTVGAFSEKITILHLNDTHGHAWPYFSYPMPNIGGFAAIATKVKEIKKENPNTLFLHAGDINTGMPESDLLNAKPDIEALNMMGLNAVAIGNHEFDHTRDVLKKQMKWADFPFLSCNIFKKGDILPYFQPYTTMKVGNLKVAVIGVTTQSTEEIGNPKHVGDLDFRDPIQYVKRYKALLERTYNPDLIIVLSHLGYFTDKREKYAGSRQLAQAVSGIVIVDGHTHTELDKPVEVNGSIIVQASSWGKFLGRLDLDIENKKIVSYNGKLIKINFKKREKYYVEKDGKKIKKYKYYPIGDVIPEDKAVKDMLDKYKAEAGKGLNKPIGETKILLSHGTAETKDNLLAEIITDSIKDFTKADIALQNGGGIRADINPGKISYRDVLTVLPFGNTVFKMNMTGKEVMAVLNYAAGLPETIGAHLHTAGLTWTNNKGKVENVKVNGEALELNKMYSVAANDYMANGGDGYKTLTVGQNRMDTGYVLADLVADYIKKIKLIDGDNYKLEVRNTIIK;locus_tag=LOCUS_13710;note=WP_004082429.1 bifunctional UDP-sugar hydrolase/5'-nucleotidase (Thermotoga maritima) [pid:45.7%25%2C q_cov:95.0%25%2C s_cov:95.5%25%2C Eval:4.4e-112],MGA_1372
sequence1	MetaGeneAnnotator	CDS	1576140	1576568	.	+	0	ID=MGA_1373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVVLLLLLLSFSVVMNAQENLFKEIKVKKAILCENVKDRAPIKETDSFFKGERGWLFSKIEGTGKKDYIFHIWYHYNEDNSKKVIAKIKLNINGYQWRTWSNKYLALSGKWEVVILDSKGNQLDSKEFYVLEKENNNNEK;locus_tag=LOCUS_13720;note=MGA_1373
sequence1	MetaGeneAnnotator	CDS	1576558	1576977	.	+	0	ID=MGA_1374;product=SoxR reducing system RseC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902636.1;translation=MKSSGIIQEIKGNKAKVLMYKSSSCGGCKTCTEGSRFAGEFEFIIDAPVKKDEVIYFELDDNKILNLGFLFYIFPVIFLFIGYFISTYFTEKEAFRVLISFISFAVSFFIIFLIDKFVGEKFIKQIKISDVFKSDEFCK;locus_tag=LOCUS_13730;note=WP_005902636.1 SoxR reducing system RseC family protein (Fusobacterium nucleatum) [pid:31.6%25%2C q_cov:97.1%25%2C s_cov:90.7%25%2C Eval:2.6e-17],MGA_1374
sequence1	MetaGeneAnnotator	CDS	1577139	1577537	.	-	0	ID=MGA_1375;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901602.1;translation=MAERIQIWGTGRRKTSTARVRLIPGESGIVINGKEMADYFGGREILSMIVKQPLELTDTLNKFQVLVNVKGGGISGQAGAIRHGISRALLLNDETLRKVLREAGFLTRDSRMVERKKYGRKKARRSPQFSKR;locus_tag=LOCUS_13740;gene=rpsI;note=WP_005901602.1 30S ribosomal protein S9 (Fusobacterium) [pid:78.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-51],MGA_1375
sequence1	MetaGeneAnnotator	CDS	1577551	1577979	.	-	0	ID=MGA_1376;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901604.1;translation=MKTFMLRKEDTDRKWYEVDAEGKILGRMATEIAMMLMGKKKPTYTPHVDNGDFVVVVNAEKIVVTGAKLNDKIYYNHSGYPGGLRDRTLAEVISKKPEEVIMLAVKRMLPKSKLGNQMLTKLKVFAGPSHPHMAQKPEKIEL;locus_tag=LOCUS_13750;gene=rplM;note=WP_005901604.1 50S ribosomal protein L13 (Fusobacterium nucleatum) [pid:68.6%25%2C q_cov:98.6%25%2C s_cov:97.2%25%2C Eval:6.3e-54],MGA_1376
sequence1	MetaGeneAnnotator	CDS	1578244	1579107	.	-	0	ID=MGA_1377;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016546.1;translation=MIGIINVNKPKGITSFDVIRKLRKLLNEKKIGHTGTLDPLATGVLVVCVGKATKLVSDIEAKEKVYRAEFELGYATDTYDTEGKIIKKVDNFEIKKEKLEKVLSEFVGEQLQVPPMYSAIKINGKKLYELARQNIEVEREARKIKIDYIKLLKFEDKKVMIETKVSKGTYIRTLIYDIGEKLGCYGTMTELQRSSVGEYLVENSFTLSKIEDMALYNDFGFVVDVEEAFSEFENLTLENETELKLFKNGNTVVKEDWNNNKYRVYFEDKFIGLGRIIDFRLKGYKYF;locus_tag=LOCUS_13760;gene=truB;EC_number=5.4.99.25;note=WP_011016546.1 tRNA pseudouridine(55) synthase TruB (Fusobacterium nucleatum) [pid:62.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.1e-94],MGA_1377
sequence1	MetaGeneAnnotator	CDS	1579104	1579952	.	-	0	ID=MGA_1378;product=histidinol-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582599.1;translation=MLADYHMHFEYGSYDEEWVKGFFDAAKKRGVSELGISEHSHGFKEFEELYYEDLILDDSFIGEFQKKWLKTNKFKCYISDYEKFINELKGKGYPVKFGMEICNFQNQNRVKKILDKYNFDYLITSIHFIEGWAYDSSQIKKEWDNKDIYNVYEKYVEEIEKVAKSGLYDILGHPFNLRMYGYFPKEDMRELIERAVLALKNSNMAVDVNTGTLYRYPIKEISPYNEFMKMAKRYDLPIILSSDAHKPEDAGNYIKQASEYAKSFGYSEYLRFENRKRIIEKL;locus_tag=LOCUS_13770;note=WP_012582599.1 histidinol-phosphatase (Dictyoglomus turgidum) [pid:34.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-47],MGA_1378
sequence1	MetaGeneAnnotator	CDS	1579956	1580654	.	-	0	ID=MGA_1379;product=DNA/RNA nuclease SfsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877131.1;translation=MRILKIDWDEEGEFLSRPNRYLAEVKLGDKIELVHVHDPGRLEELLYKGNKVLIKRAANPNRKTNWDVIAAKKDEEWILINSAYHRKIGDKLLINNLNQLGKLDTIRAEVKYKNSRLDYLVTKDNKNIWIEVKGCTLSRDEIAIFPDAPTKRGVKHLKELMELKEKGERAGLYIFVLSKAEKFMPNWETDVEFAENFYRALKSGVEIYPIQFEYKNSWIVYKKVLEIIKRGV;locus_tag=LOCUS_13780;gene=sfsA;note=WP_010877131.1 DNA/RNA nuclease SfsA (Methanothermobacter thermautotrophicus) [pid:37.0%25%2C q_cov:85.3%25%2C s_cov:83.3%25%2C Eval:1.1e-37],MGA_1379
sequence1	MetaGeneAnnotator	CDS	1580670	1581911	.	-	0	ID=MGA_1380;product=nickel-dependent lactate racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_157860456.1;translation=MKVKIPYGKDNLEVNISEENLLEILYPNSVEKTNSTKQIKEVLNKEKFNEFIDSNEKIVIIVNDGTRPTPTIKVLKEIFPKLRSKNFQFIIATGAHRAPNDEEYEFIFGKDIYGELKGTDKIWAHDSKKDEMIYLGESKNGTPMYINEIVAKAKKVIVIGSVEPHYFAGYTGGRKGFLPGVASYETITENHKLALNSTAKALSLKGNPVHEDMMDAMKVLKDIDIFSIMTVLDREHDIYALTAGDLEKSFYNAIDKANEVFCVEIKEKADIVISAAPYPMDIDLYQSQKAIDNGKLALKENGILIFVSQCRMGIGGKTFFDLMASCGTPKEVLDKIKKDYKLGYHKAGKMAEINMWAETWGVTELPEKEIKAVHIKPFKNLDEAIEKALEKKGKDSKILVMPYGSLTVPLLSE;locus_tag=LOCUS_13790;gene=larA;note=WP_157860456.1 nickel-dependent lactate racemase (Methanosarcina acetivorans) [pid:32.8%25%2C q_cov:99.8%25%2C s_cov:98.3%25%2C Eval:1.5e-61],MGA_1380
sequence1	MetaGeneAnnotator	CDS	1582049	1583878	.	-	0	ID=MGA_1381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIRNKVIISELFILMFIFLFTFIFNNVLLKKVTKIETQEYNIMAVQIKENILNDDIIKKYSNLNEINIIIKKGNYKNEGIKITKIGDKTITGYFSSEKLKEKIILDKYRNYYNSIKKILKTVEIIFFLLIVLIEIIIILIIDKKVLKRIDTLDNRLKYLVKEKEFFLNIDVNGNDEVSSIKNNLNRLLDTIRKITEENQEKQDELERIIYNLPIYIGAVDEKHNIVMWNKMCKEKFGYDREDISTLEKLIEKLAKKDKDKKERILDYMENGKAEDSISGEIITKDGTIRSLKVINMSHIHIKGWKIWIVGIDITETKKYQKTLEREKEKYKLLYEENSAIHMLISESLDILDVNKMFEETLHYEKKDIIGENFVEIIADGNKEKFLENFETIFLGDEVKDLEVKVYDRFMKEKYLLISISNAIIEEEESYEILITAINISDRKKMEKQLEIFANYDSLTGLFNRRIGLDILNQKMKEANRYKNDLSICFVDVNRLKYVNDNFGHSNGDILIQTVAEAIISVKRDSDILCRIGGDEFLIIFDKCNVKQAEFIWDRIKEKFEEYSKDLKFEVTASHGIVEYEENTVIDDFVKKADEKMYVEKEKNKLKNS;locus_tag=LOCUS_13800;note=WP_003358707.1 GGDEF domain-containing protein (Clostridium) [pid:41.3%25%2C q_cov:28.6%25%2C s_cov:98.4%25%2C Eval:1.0e-30%2C partial hit],MGA_1381
sequence1	MetaGeneAnnotator	CDS	1583947	1584972	.	-	0	ID=MGA_1382;product=galactose-1-phosphate uridylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080684.1;translation=MSELRKDPVSKRWVIFAPERSKRPSDYRKDKDEEVKVDLEEESGKCPFCEGKEKTSGDELLAYEKIPGRKPNSPGWWVRVLENKYPALQDESEIGKKGVGIYDKMNGVGHHEIIVETPKHHKCISDLEYNEVEKVIWAYRDRYMTLQEDARMKYVLIFKNYGKDAGASLEHSHSQLIATPVVPKRVEEEISGARHYYEFRDRCVFCDIVTQELADKERIVEENDNFIAFVFFAGRFPYETWILPKKHSSNFENITKKEVMNLAVILKNVLKRIKGALGDPAYNFVIHTLPINGEGQHYYHWHIEIMPKLTKVAGFEWGSGFYINPELPEKAAKILRDTNIE;locus_tag=LOCUS_13810;gene=galT;EC_number=2.7.7.12;note=WP_004080684.1 galactose-1-phosphate uridylyltransferase (Thermotoga) [pid:54.8%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:2.1e-111],MGA_1382
sequence1	MetaGeneAnnotator	CDS	1584988	1585926	.	-	0	ID=MGA_1383;product=ribose-phosphate diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903312.1;translation=MKIFSGTSNVSLAKKIASNLGLPLGNAKIVNFKDGETYVRLVETVRGDTVFVVQPTSNPVNENLMELLIFIDALKRASAKSIVAVIPYYGYARQDRKSKPREPITSKLVANLLTSAGADRIMAMDLHANQIQGFFDIPADHIEAMPILAKYFLDKGLSGDKVIVVSPDVGGVKRARALSEWLGSGIAIIDKRRPKPNVAEVMNVIGKVEGKIAIFIDDMIDTAGTITSGVDAILDRGAIEAYACCTHPVFSGPAIERLKESRVKEIIVTNSIELPDDKKLDKIKVLSVDLLLSEAIRRVYNNESLSELFEKN;locus_tag=LOCUS_13820;EC_number=2.7.6.1;note=WP_005903312.1 ribose-phosphate diphosphokinase (Fusobacterium nucleatum) [pid:72.5%25%2C q_cov:99.0%25%2C s_cov:97.8%25%2C Eval:3.5e-126],MGA_1383
sequence1	MetaGeneAnnotator	CDS	1586227	1587456	.	-	0	ID=MGA_1384;product=inorganic phosphate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073547.1;translation=MSSMTIILGIALIVGFYMAWNIGANDVANAMGTSVGSKAITLKQAVIIAAIFEFLGAVLAGSNVTNTVRKGIVSPDVFTDPKIFVIGMLAALLAAGLWLNLATHFGLPVSTTHSIVGSVVGFGIVSKGIGAVHWSKIGNIVLSWVVSPLMGGIIALIVFKIIERTILEKDKPVERAKKIAPLFVGMTGFILTLSLVFKGLKNLHLDLSFGEASLIGTGVAIVIYIISFVLLRNVHSKGDEYKSVEGIFRYLQIITACYVAFAHGANDVANAIGPLAGIVAVVKTGSIATTAAVPMWVLALGGVGIVVGVATMGYKVIGTIGEKITELTPTRGFSAEFGAATTVLVASRMGLPISTTHTLIGAVIGVALGRGVAALNMAIVKDIVASWLITIPFAAGLTMVLFEIFKLIF;locus_tag=LOCUS_13830;note=WP_011073547.1 inorganic phosphate transporter (Shewanella oneidensis) [pid:48.7%25%2C q_cov:98.8%25%2C s_cov:95.8%25%2C Eval:1.6e-108],MGA_1384
sequence1	MetaGeneAnnotator	CDS	1587548	1588216	.	-	0	ID=MGA_1385;product=TIGR00153 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868517.1;translation=MIKFQSIFAKSPFTGMVEHIEKVELCLDELEKLLKLVGEGKSDQISEVSEKIYKYEHEADVVKDELRVTLSKNLLLPIDKGEILSILTAQDGIADVSEDIAKLFSLRKMEIPKELVEDYKKLTEAILKAAKDGIKTIKEINNLFEVGFKGPEVERVVKILKHLERKESLADDVGLDFTRKLLALEGKESPVAIYMWMRIIKVMGDLANISEKLSNRFRLILN;locus_tag=LOCUS_13840;note=WP_010868517.1 TIGR00153 family protein (Pyrococcus abyssi) [pid:33.5%25%2C q_cov:98.6%25%2C s_cov:98.2%25%2C Eval:8.4e-24],MGA_1385
sequence1	MetaGeneAnnotator	CDS	1588367	1588528	.	+	0	ID=MGA_1386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLDESNFLQIFLIKESSLDTENWILTYSSKFREIVEGGVSKIEDIKFFLYNN;locus_tag=LOCUS_13850;note=MGA_1386
sequence1	MetaGeneAnnotator	CDS	1588592	1588945	.	-	0	ID=MGA_1387;product=50S ribosomal protein L20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901611.1;translation=MARVKTGKVRRQNHKKVLDEAKGFRGASGTNFKQAKQAVMRAMAFSTRDRAQRKRKMRELWVIRINAAARLSGLSYSKFMYGLKKAGIELNRKVLAELAVSNAEEFAKLVEVSKKSL;locus_tag=LOCUS_13860;gene=rplT;note=WP_005901611.1 50S ribosomal protein L20 (Fusobacterium) [pid:67.0%25%2C q_cov:98.3%25%2C s_cov:99.1%25%2C Eval:9.9e-38],MGA_1387
sequence1	MetaGeneAnnotator	CDS	1588974	1589180	.	-	0	ID=MGA_1388;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005893833.1;translation=MPKMKTHRGTKKRVKVTGTGKFVVKHSGTNHIMTKKSKKRKNKLRGDMVVEPGKARKIKKLLPTGEGR;locus_tag=LOCUS_13870;gene=rpmI;note=WP_005893833.1 50S ribosomal protein L35 (Fusobacterium) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-16],MGA_1388
sequence1	MetaGeneAnnotator	CDS	1589203	1589610	.	-	0	ID=MGA_1389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAQEAELDLVEISPNANPTVCKIMDYGKFKYEKGKREKDAKKNQKVIVVKEIKFKPRIDTHDLEVKSNKILKFLNKGNKVKVSLMLFGRERMHAEIGIKLLEKVAKQFEEIATVERKFGSKENQKFLILTPKK;locus_tag=LOCUS_13880;note=WP_005901608.1 translation initiation factor IF-3 (Fusobacterium nucleatum) [pid:57.0%25%2C q_cov:100.0%25%2C s_cov:70.7%25%2C Eval:1.8e-39%2C partial hit],MGA_1389
sequence1	Aragorn:1.2.38	tRNA	1589930	1590006	.	-	.	ID=Aragorn_31;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00300;note=Aragorn_31
sequence1	Aragorn:1.2.38	tRNA	1590203	1590296	.	-	.	ID=Aragorn_32;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00310;note=Aragorn_32
sequence1	Aragorn:1.2.38	tRNA	1590323	1590409	.	-	.	ID=Aragorn_33;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00320;note=Aragorn_33
sequence1	MetaGeneAnnotator	CDS	1590720	1591073	.	-	0	ID=MGA_1390;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003384878.1;translation=MFKKKVPIYEQIKSIIIDNILSGVWKEGDKIPSIRNFALEFGVNPNTIMNALKDLQQKKILENKRGIGNIVCDGVVEKILRDKKEKFCNEKLNEVIKEAKILKINLNELKDEIESKW;locus_tag=LOCUS_13890;note=WP_003384878.1 GntR family transcriptional regulator (Clostridium botulinum) [pid:40.8%25%2C q_cov:88.0%25%2C s_cov:81.6%25%2C Eval:4.0e-15],MGA_1390
sequence1	MetaGeneAnnotator	CDS	1591078	1591794	.	-	0	ID=MGA_1391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKLKQIYCLLKMNIKIEHKRILILGVFSYVAIVILSFLNPITVDWVFRVNYFTAMSKIDMFIIIGAKIAWIFNISAGVFFMLKNFIREKRYFYLLPFDLDVKIYSVYLYSFIWIILNTAIYFLLIMIFGNDLNDSYGFTIPLLKVIDVIYYGLIYLNLITYAIIYYIVKKNNSTIYNFAFLWITTILENIFIKKLQYFFSYKGIYGMNQTLIVFSINFILLGTILYFISKRQNIKG;locus_tag=LOCUS_13900;note=MGA_1391
sequence1	MetaGeneAnnotator	CDS	1591784	1592629	.	-	0	ID=MGA_1392;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107699.1;translation=MLKIENLNFGYGFKKNMYENLSLELKKGKIYGILGRNGSGKTTLLKMISSLLVGYDGNIMLDGEEAKKRSRNYLKKIFYLPEVIEKDDFKVKDLIILGRCYENWNETKFLEFIEREKINKKKKIKSFSKGWKKRIWFYYSVAVNPKVLILDEVSEGIDIIAQKEVIRDILEYFNEEKIILIASHHIEEFENILDEFIVIDNGNILYKGEKDYVDQNFGWAKEEESKNIEAEDIINERKIFDEKYILVQNIKKYSDINFKNIDIATFLESIIKMKGDNNYEK;locus_tag=LOCUS_13910;note=WP_011107699.1 ABC transporter ATP-binding protein (Bacteroides) [pid:26.4%25%2C q_cov:92.2%25%2C s_cov:92.2%25%2C Eval:1.2e-26],MGA_1392
sequence1	MetaGeneAnnotator	CDS	1592980	1594953	.	-	0	ID=MGA_1393;product=fructose-1%2C6-bisphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948262.1;translation=MKNVNLKEINRELDYLKLLSKHYPTINAASKEIINLGAILELPKGTEHFLSDIHGEYEAFSHILRNGSGMIKKEIENIFGTSMKKSEKKSLATLIYYPEEKLDTIKEEETELEEWYKITLYRLVKVCRKVSASYTRSKVRKALPKDFSYILEELLHEKENNKEKYFNKIIKIIIEIDKADDFIIALSKLIQRLIIDRVHIIGDIYDRGPAAEKIMDLLLNYHSVDIQWGNHDIVWMGAASGGVACIANALRVSLRYGNLDTVENGYGINLFPLATLANEVYGDDDCKEFKPIVKEDEHSEKEMKLISKMQKAITIIQLKLEAKIIKKYPEFNMEDRLLLDKINFENGTIKIDDKIYKLKDMNFPTINREDVFKLSEEEEEVIKKLKTSFMNSEKLQKHVRFLFSNGSMYLKYNSNLLYHGCIPMDENGNFKEMRLKGEKYKGKALMNAIERYVRDGYFNKTENEDKDYGKSIMWYLWLGINSPLFGKKKMATFESYFLDDKEIKKEEKNPYYKYRDEEKYAVKILKEFGLEPEKAHIINGHVPVQAKKGENPLKAGGKLLVIDGGLTAAYQRTTGIAGYTLICDSKGLVIAAHEPFTSRQTAIDEEKDIISTKVILENADDMQSIRDTDAGKNISKQIEFLKHLLFAYRKGLIREKI;locus_tag=LOCUS_13920;note=WP_011948262.1 fructose-1%2C6-bisphosphatase (Clostridium botulinum) [pid:57.8%25%2C q_cov:99.2%25%2C s_cov:97.9%25%2C Eval:4.1e-227],MGA_1393
sequence1	MetaGeneAnnotator	CDS	1595109	1596326	.	-	0	ID=MGA_1394;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003404919.1;translation=MKLSEAGISAIKSVFANKMRSFLTMLGIIIGISSVIMLTSVGRGFQDGISGELTKMGSNMFSLYINYNENVREKDLLRMVDKNIILENPQILNVSSVYGYWGGEVINNLKKKNKKKANLQLLGVDSDYFKVNKATLLYGRLLNKDDNINRRRVAVVDNTLGKKVFGRANIVGEFVKVKTERGIQKYIVVGVIKNPMEKFMTLFKQESFSIITPIKTAHSLFKTNSVEYFEISSKNPKNIAQSAKNTIKILERVHRNKNVYIVENVSKYLNNFNKILFGITAFITFVASIALFVGGIGVMNIMLVTVTERTREIGIRKSLGAKKRDILIQFLIEAVILTLIGGGIGIAFGYGGGVLAAHFLKITPKLSLQMLIIAFAVSSSIGIIFGVYPAKKAADLNPIEALRYE;locus_tag=LOCUS_13930;note=WP_003404919.1 ABC transporter permease (Clostridium) [pid:39.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-68],MGA_1394
sequence1	MetaGeneAnnotator	CDS	1596331	1597014	.	-	0	ID=MGA_1395;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005809408.1;translation=MIIDIKNLKKDYINGELKVSALKNINFQVKKGEFVSIMGPSGSGKSTLMNILGCLDKPTSGYYILDKLEVEKANDNELSEIRNQKIGFVFQAFNLLNRLNSFENVELPLIYNKVHKAKRKKLALEALERVGLVDRVKHKPTELSGGQKQRVAIARALVSSPAMILADEPTGNLDSHSGEEIMKIFKKLNAEGVTIVMVTHEPDIAEHTKRIITVKDGEIISDINNVR;locus_tag=LOCUS_13940;note=WP_005809408.1 ABC transporter ATP-binding protein (Desulfitobacterium hafniense) [pid:62.9%25%2C q_cov:97.4%25%2C s_cov:91.3%25%2C Eval:2.9e-75],MGA_1395
sequence1	MetaGeneAnnotator	CDS	1597004	1598452	.	-	0	ID=MGA_1396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGKMKKIVIIIIVILVVLSVVGKFLGKKNSNKKTVKVTVEKVKLDKIESKVLAKGVVAVKNKETIYLSTPLKIKKVNFKAGDNVKKGNIIIIYDTEKRKELEYSIKKMGINIENEKLALKELMKPLDEISLINKKHDIEQLKNDMKKSELSLEKLNLEAKTINKNIKKTEDEVEKKEELYKNGMIAKEELEKTKDNLDNYKSSLASNNIEQKQFDINLKDTQSRIEFLKTIYEDAKNKFEMETKTREDQIKIKENSIDISLLELKQEKEKLQKMVRKTVSPVTGTILKLNAEKNYIVNIEKPVVEIADISKLIIKSEVSEYDAPKLKLGEKVVIKSDALNDKKYYGKVYKISELAHESKNRDYKENIVNIEILFDNSKKILKPGYSVNLEIITAKKESAKLISILSIMEKDKQKYVYVVDKENKLEKRDIKIGVESDFYVEVVKGLNEGDKVVVNPEEKIAEGMKVEVLDKELGSVKNDN;locus_tag=LOCUS_13950;note=WP_010932152.1 efflux RND transporter periplasmic adaptor subunit (Chlorobaculum tepidum) [pid:23.1%25%2C q_cov:74.7%25%2C s_cov:89.0%25%2C Eval:1.4e-19%2C partial hit],MGA_1396
sequence1	MetaGeneAnnotator	CDS	1598472	1599716	.	-	0	ID=MGA_1397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIIFIMAFIVGQILSAETVSLKKLISIYEKSGEYKKVELLNDEKMRIEKKEIDYNDLDKLNLKVDGNVGKSIIGNSKNSIINLSYKDIVLSLNYDIKNNKISSNSISINKNLNNIIFQKHNQDEKIYELKNSSYKISRKLEQNQKIIEIIEIYKIIKDADIDIKVDEMILEKYKKQLKTLNIKIEKGESTNSDKSYLLLKIKESEKDIKFLKKNREVFKEKLTYKLNYNIKKNIKFEKINFDKNINFNKIGELEIDKNGLEYEIGKKQFEFSKKYNNFSITANANYDFDSKDYSYGISFSKDIFDFKSDIKTNGVELKISEERIKQLEKDKLFERENQKNSFEDMKESIEIQKRYNEYYKSEEKKSKKMFKLGYISFQDYEKSIEDYKESELKLEKLENNFNAYKYKIEYQ;locus_tag=LOCUS_13960;note=MGA_1397
sequence1	MetaGeneAnnotator	CDS	1599977	1600717	.	-	0	ID=MGA_1398;product=NAD-dependent protein deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762545.1;translation=MFVHKKIREVARILKNSKKTMVFSGCKIVENEIKKSKNQKVKNLFKKNVNRTIDIDIFNRDPVFAWNEILENFYNPIKDWKPNIIHKTLYEFEKANIISGIVTQNIDGLQIEAGSKNVYEFQGSAQRAVCLECGREYHIKDLPKDFKCPRCNRYLKPKLIFFGEPIPHKTYSKGMKLSSSAEVIILIGAEGNIMPTSAIPIVAKNNGAFVIEINDKPSRYTNSISDIFVEYDMEYVMEKLHEEMNK;locus_tag=LOCUS_13970;gene=cobB;EC_number=2.3.1.286;note=WP_011762545.1 NAD-dependent protein deacetylase (Pyrobaculum islandicum) [pid:38.3%25%2C q_cov:77.6%25%2C s_cov:76.1%25%2C Eval:4.5e-32],MGA_1398
sequence1	MetaGeneAnnotator	CDS	1600728	1602851	.	-	0	ID=MGA_1399;product=patatin-like phospholipase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962399.1;translation=MYKKWIIVLNLIFILNLVYANDVKIGLTLSGGGAKGFAHIGVLKVLEKEHIPIDYISGTSMGSIVGALYSIGYSAKEIENIALNTNWFYYFDDEIDYKNLPIEEKIYSNRYIGQLPLKNYTLKIPGGLIEGQKIESLLRELTWDAKNIRYFNKLKIPFSCVATNLKNGDAVVLKSGILSEAIRASMSIPSVFTPIKYKNMLLVDGMLSRNFPVQEVLDMGADVVIGSDVGAMLKDEKDLNTFLDVANQSFSFRGVESSLKERKKVDVLIVPKLGNYGATSYRNVKELIKIGEEAAEKMVPKLKNLRNEKKYLKMMKKKNIKNETAIIKKIKIVGVDESEKTYILTISELKIGKLYNKFELEKSIEKIYRTMFFKKVSYEINKDELILKLEKKENNLIGLAFRYDSYLKSGILLNYTNFGYKKIGFKSILDLKLGENPFFTHKLIGYKGINNKFSVIMKNQYKELPFYLYNEGQTIAKYKYNNISSELLLGSFFSTNTFLGGGVKLEYYNAVPEITEEKLSVEDYLFLYDFDFKIDTTNRKNYPEKGNKLFLNYILGNSFLLSNSDFNKLTFDYKKYFKLNVKNILEFNLTSIFVEGNVIPENYYIYIGGEEDETRFYGVKSAEYSTKNFISIRLENRYEFSKDRYFIVGYNYGKLFSAFQGVIDKKKDLHGFAVGIGARTLIGPINLMVLKEKSSDILIYFNTGFKF;locus_tag=LOCUS_13980;note=WP_011962399.1 patatin-like phospholipase family protein (Flavobacterium psychrophilum) [pid:30.6%25%2C q_cov:96.9%25%2C s_cov:92.1%25%2C Eval:2.0e-78],MGA_1399
sequence1	MetaGeneAnnotator	CDS	1602978	1603742	.	+	0	ID=MGA_1400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLYFIFLSILIQNSYSDEFNLSLGYNINSKFKINYEENYYNHLNNYNNNFDLNNSYNLGIEYIKFLNSYFGFGGGFKFFKENGVIKTYGKHFDEFQYEKLNKMKSNYSYALYSSLKLKTFYSTFLISNLGVYFPYLDISNSIDNSSSEIYKIYFNCGFGYELHNFIFELTSNYGTQFFTVTNSNGYLSGNWSDSFISFNIKYNFYDLIFNKTNISAFDRAQKFNELYRKKEQGEISNEEYEKESNKIIKLN;locus_tag=LOCUS_13990;note=MGA_1400
sequence1	MetaGeneAnnotator	CDS	1603957	1605300	.	+	0	ID=MGA_1401;product=IS3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_094396572.1;translation=MSNKIFTKKEIEILSKNKYVKTISSKAITYTSEFRRIFIAESQDKILPRAIFEKYGFDVQVLGMKRIRSAAARWRRAYKEQGVLGLDDRRKENSGRPLERELSLEEKYERLQVKNDYLQAEIDLLKKLDVREREVNGKLIELSPSEKFVIIKDVIETSGVKNIIKYLCEVAEISRTSYYNYLSETSKTNKSNQELEDEKARDLIIKAYEFKGRQKGARQIKMTLENEFATIFNLKKIRRIMKKYSIVCTIRKANPYKRIAKATKEHTTIPNKLNREFKQEIPGKILLTDITYLSYGNGQRAYLSTIKDSSTGEIPAYVLSKNIKLEIATETIRTLMENKSFKIHKDALIHSDQGVHYTSPTFQKLVKNSGLDQSMSRRGNCWDNAPQESFFGHFKDEANIKECNTFEELINEIDDYMDYYNNYRCQWGLKKMTPIKYRNHLLENKSA;locus_tag=LOCUS_14000;note=WP_094396572.1 IS3 family transposase (Bacillus cytotoxicus) [pid:59.7%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.4e-155],MGA_1401
sequence1	MetaGeneAnnotator	CDS	1605418	1607055	.	-	0	ID=MGA_1402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWNKKYIILFILILLSFSGCLKNNNTNTTEKSTLEISSIKLNGEEFKNVDNVTVYDGVSYKLDIIVTDISGMSSSTVVSSEKGTIKKNNNNDFSYSIYGVDSDTLNITAKNSVTGTEINMVKKIIVKKIEPLTNEKELTFMIYMAADNSLNNFAMMDLEEIKNANINNNINVVIYGDFKNDNSNTPGIFVKNGNKIDKIKELDEFINTGESINVTKFLNFVKENYPAQKYILDLWDHGDGWYDDKYGDTNNPINKAIAEDDSSNGDSLDLWEIEYGIKNSHIPKIDVIYMDACLMGGIEVAYQLKDVADYLAFSPELTPGAGGEYKGILENINLNLLDKTNKQLAIDIQSANWDYYSKLDPNNKEPVVYTITDESKIDEFMVKFNDIVTELNSNINLIKDVPISQTSPLSYSWDRNKDYNKLSPYVDLGDFMKKIEESIPEDTFGSNENSLLKQKFDNFLDYLNNRDNLIVYLEAQNGVGDYYQIPAIEESSTGLSIYFWFNEIDSNSYSAKYYKASINYYKNASRFGYETIWKDVLNNYETTID;locus_tag=LOCUS_14010;note=WP_004081155.1 clostripain-related cysteine peptidase (Thermotoga maritima) [pid:27.0%25%2C q_cov:54.1%25%2C s_cov:58.8%25%2C Eval:1.2e-19%2C partial hit],MGA_1402
sequence1	MetaGeneAnnotator	CDS	1607136	1607432	.	-	0	ID=MGA_1403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNCWNCGKEINEEDKFCKYCGKEQGKKGKLHQKPMGILLEFFVIGPFCLYHLWKSPIINNRDKKIYTAIISGITIVLILLLSYAVSIIIKYYMTMFSF;locus_tag=LOCUS_14020;note=MGA_1403
sequence1	MetaGeneAnnotator	CDS	1607537	1608604	.	-	0	ID=MGA_1404;product=Xaa-Pro dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000411056.1;translation=MKLKELLENEKLDGIFITNMYNLRYFTGFSGTTGVALVTSKNRYFFTDFRYIQQANNQVVPKGFKVVKVERDSLETVKEYIKQDNVKTLGLEDLDMTLSAFSSVKKYFGDIEYKFLGEKLSGIRIVKDEIEIETIKKAISISDIAFTEILKDIKVGISEREIAAKLEYVMKINGAEDKSFETIVASGYRSAMPHGVASDKKIGNNEFITMDFGCYYNGYVSDMTRTVFVGDNLTDKHKEIYNTVLEAQLLAISKVKAGMKAKELDKIARDYITEKGYGENFGHGLGHGIGVEIHEAPGVSTRGEIILEENMTITIEPGIYVEGFGGVRIEDDVIVKKDGCIVMNKSPKDLIILKK;locus_tag=LOCUS_14030;gene=pepQ;EC_number=3.4.13.9;note=WP_000411056.1 Xaa-Pro dipeptidase (Bacillus cereus group) [pid:49.1%25%2C q_cov:96.3%25%2C s_cov:95.8%25%2C Eval:1.5e-91],MGA_1404
sequence1	MetaGeneAnnotator	CDS	1609147	1609923	.	+	0	ID=MGA_1405;product=type III pantothenate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903485.1;translation=MILIFDIGNTHIVTGVFDNSGKLLLNFRVASSENLTEDQIFSYLKNIADFNNISIKSVNGIAISSVVPNLTTILFFLSRKYFNINPIIVNSSLNLPIQFDVDNPAELGADRLANIVRAHNLYPENSKSVVIDFGTATTFDILQGNCYIGGSILPGIDLSIRALFKNTAKLPKVRFHRINSVIGKNTIEHINAGIYYGSIGQIKEILRKIEEEIGNFNLITTGGLGKIISKELNHKFEYMPDLTLNGILDIYNINKSSD;locus_tag=LOCUS_14040;EC_number=2.7.1.33;note=WP_005903485.1 type III pantothenate kinase (Fusobacterium nucleatum) [pid:47.9%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:7.0e-63],MGA_1405
sequence1	MetaGeneAnnotator	CDS	1610137	1611483	.	-	0	ID=MGA_1406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFTSKILILGAVIGTIFAGCINKETNNNEVNNSKDEIYNQNVEKNYVELNGEKYFTGYVPVSEEKYRSFTRAKTPIYRGTLPSKIDLSGNMPTPGNQGHQGSCTAWATTYAYKSFQEGLDQKWGLNTTDHLFSPAYVYNQINGGQDRGSQIYLALDLIVKQGAATLSVMPYNQNNYWTQPTSYQKQEAAKYKAKSWGTVPDGDINAIKSHLAAGDAVSVGIPVYPDFNVSASNPVYDSTYGKLEGYHAITLVGYDDSKGAFKLINSWGTNWGFNGYGWISYNLIRNNRIRGYVMTDILTGPEPGPGPNPNPNPQVLKNVALNKNISVSGYYSSSYAGNKAVDSDVNSSRWVVSSSSYGWLNLDLGKDYDVKQLKMKWSTSNYPGTYYVWGLKTGDRNWTRLATYDNSNGGKDTIEFSQSKKVRYIAMTLDYPNSSYYVLYDLQVMAY;locus_tag=LOCUS_14050;note=WP_010890690.1 C1 family peptidase (Clostridium) [pid:47.7%25%2C q_cov:48.2%25%2C s_cov:70.2%25%2C Eval:1.3e-53%2C partial hit],MGA_1406
sequence1	MetaGeneAnnotator	CDS	1611984	1613252	.	-	0	ID=MGA_1407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGINNYLIKIGIFLAWLILGVLVNLILKKKLKKVIHNTKNKFDDKLYSISNKFVIVLSVLIGAKYSLREVAGLEKIIDILDMVVLFFLLFLLSVFISDFLIYIFGKYIKRVVEKSKNKLDDKIYEIVNRYLYLILILISLKFSSNLINLTKYNEILKLRKELFIGIDIIIVLLLSIIIIKTVNIIVDEFIGKELEKSGKNHYYTVIPLFKNITRILVWTVAISIIMKEFGYSPVSLLAGMGIIGMGVSFAAKDTIANFLSGLFILFDGPFTVGDRIKTGDLLGEVMEIGIRTTKIKTLDNLVVTIPNSNITNEEVTNYNKPNSKIKVYHSIGVAYESDMIKVKKLILECLEKTDGVLKNPKFSTYFLKFGDFSLDFEIIFWINNFKDKYDILDRLNYILNDRFKEEEIDIPFPIQDVKIIGR;locus_tag=LOCUS_14060;note=WP_010942278.1 mechanosensitive ion channel (Geobacter sulfurreducens) [pid:32.7%25%2C q_cov:56.9%25%2C s_cov:68.1%25%2C Eval:4.2e-38%2C partial hit],MGA_1407
sequence1	MetaGeneAnnotator	CDS	1613281	1614399	.	-	0	ID=MGA_1408;product=YibE/F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002682145.1;translation=MKKHMDLIISGILLLILVVVQINFFNHQNKRKKYFKQKFETAIVKNVIKEELQEDKVISNRYNGNQTLRLKILTGRLKGKEFVVTNPMSVMHNAKATKGAKVIVGITKQNGKDSVWVYNYKRDYVVYILGGLFIIALIALGKKKGIRSLIALTITGSNIIFVILPRIFAGQDPIIVSIITISITTIISFLLISGYNKKSLAAILGTVGGSIIAGILVFIAGQLAGLSGVTMDKGQQLLYIARDYNIKIKGLLFVSILIASHGAIMDVGMSIASAASELNKHKKDISSKELFIASMNIGKDIVGTMANTLILAFVGSSLNLMMLIYGYNMQYLQFMNMPIIVTEAINGFAGSIGIIMTVPLTAIIAVFLNKKV;locus_tag=LOCUS_14070;note=WP_002682145.1 YibE/F family protein (Treponema denticola) [pid:45.2%25%2C q_cov:91.7%25%2C s_cov:92.2%25%2C Eval:6.8e-82],MGA_1408
sequence1	MetaGeneAnnotator	CDS	1614455	1616407	.	-	0	ID=MGA_1409;product=5'-nucleotidase C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002682151.1;translation=MEKGKMFSKVRAAVVLMFLLSLAAFGADKSITVLQTSDLHGRIYAYDYAIDAPDKDAGLAKIMTILKKERAMDPDSILIDNGDTVQDNSAELFNDLPVHPMIQSLNEMKYDIWVLGNHEFNFDLNFLKRNIKGFNGTVLAGNIYNTDNGERFVKAYKILNVKGVRVAIVGMITPNVTRWEASSPEHFEGLKFTKLINETGKVLDELKGKYDVLIGSYHLGRKGEYGGAGLYDIADEFPQFNVLFGGHEHAKYVEKRNGVQLIEPGKYGAALAKAVITVSGDNNNYKVASVKLENLGTKKVKENKEILNKFEFVNKKSREDANKVVGKITEDFIKGVDYITKADKVTTMPTAQVEDTAIIDLINDVQMFYSKADVSSAALFNFGSNLKKGEFKKKDVAYIYKYPNTLIGVRITGKNLKKYMEWSASYYNTYHYGDLTVSFNPNVRGYNYDMFSGVNYDINLSKEAGNRIENLKFNGKPIDDNKVYKLAVNNYRFGTLLGLKLVTPADKYYDSYATMQDAGRIRALIVKYVQEQDNGVVSPKVDNNWKITGVILNHPLRDKVFDMVKKGDIQIPRSSDGRTSNIKSLNIRDLMNKGVVELFDIKGIVGYKVKSGDTLGKIVGYKDVQWKGAAQLNGLKDPNKLNVGQIIYIY;locus_tag=LOCUS_14080;note=WP_002682151.1 5'-nucleotidase C-terminal domain-containing protein (Treponema denticola) [pid:56.1%25%2C q_cov:86.3%25%2C s_cov:89.7%25%2C Eval:7.8e-186],MGA_1409
sequence1	MetaGeneAnnotator	CDS	1616562	1617257	.	-	0	ID=MGA_1410;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898215.1;translation=MSIHIGAKKGDIAETVLLPGDPLRAKFIAETFLEDVKCYNEVRGMYGFTGTYKGKRISVQGTGMGVPSISIYVNELINEYGVKNLIRIGSCGSLQEDVHIRDVILAMSASSNSSINNVRFNGTGFAPTANFELLNKAYLIAKEKKVNVKVGNVFTSDHFYQDDAGWWKIWAEHGVLAVEMETAALYTIAAQKKVNALAILTVSDSLVTWEETSSEEREKTFTDMMEIALNL;locus_tag=LOCUS_14090;gene=deoD;EC_number=2.4.2.1;note=WP_005898215.1 purine-nucleoside phosphorylase (Fusobacterium nucleatum) [pid:64.6%25%2C q_cov:99.1%25%2C s_cov:97.4%25%2C Eval:6.6e-83],MGA_1410
sequence1	MetaGeneAnnotator	CDS	1617507	1618667	.	-	0	ID=MGA_1411;product=phosphopentomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965365.1;translation=MKKIERVTLIVLDSAGVGFLPDAAEYGDLGANTFAHIGYATGGLNVPNMEKLGLGNITDIEGVKKLEVTEGAYGKAKEVSKGKDTTTGHWEMAGIITDVPFPTYPNGFPEDIIKEFEEKTGTKTIGNVVASGTAIIKELGDEHVKTGALIVYTSADSVFQIAAHEDIVPIDKLYEYCKIARKMLNVGRVIARPFTGESGNYTRTPRRHDFSLVPTSKTILNKLKEAGKDVVAVGKISDIFAGDGITESKGVNKNNLDGIEKTIKALKEDTKGLIFTNLVDFDMAYGHRRDPIGYKNALEEFDNKLPEIYENMKENEILIVTADHGCDPIFKGTDHTREYIPLLVYGKNINPVNLKIRGKFSDIADTIEELILGVEKEGSFAKDIIK;locus_tag=LOCUS_14100;EC_number=5.4.2.7;note=WP_010965365.1 phosphopentomutase (Clostridium) [pid:60.4%25%2C q_cov:99.0%25%2C s_cov:99.2%25%2C Eval:8.3e-131],MGA_1411
sequence1	MetaGeneAnnotator	CDS	1618722	1619387	.	-	0	ID=MGA_1412;product=deoxyribose-phosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000773709.1;translation=MNVAKYIDHTLLKAVATTDEIKKLCSEAKEYGFYSVCVNSGNVELSKKELEGSDVKVCSVIGFPLGAMTKESKIFEAKDAVAKGAEEIDMVLNIGLLKSGENEKVYEEIKEIKEAIGDKVLKVIIETCYLTEDEKRTASELTVKAKADFIKTSTGFGNSGANFEDVKLMLDIAGDKAFVKAAGGVRDFETAKKYIEMGVMRLGTSSGIKILNGEKVGEGEY;locus_tag=LOCUS_14110;gene=deoC;EC_number=4.1.2.4;note=WP_000773709.1 deoxyribose-phosphate aldolase (Streptococcus mitis) [pid:53.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-59],MGA_1412
sequence1	MetaGeneAnnotator	CDS	1619419	1620729	.	-	0	ID=MGA_1413;product=pyrimidine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009896135.1;translation=MRAVDIIQKKRDNETLTTEEITFLLDNYLKGNVPDYQMSSFLMAVYFNGMAKDELKVFTERMMHSGDIIKFEKITKFLVDKHSTGGVGDKTTIALAPIFACFDIGTAKLSGRGLGHTGGTIDKFESIKGFTFPETRDELVNLVNKTGIGIMGYSDKIVPLDKKLYSLRDVTATVPSIPLIASSIMSKKLAVYADGIILDVKVGSGAFMKNLEDAETLADTMIDIGDSFDRKVVAILTDMDQPLGFAVGNSLEIIEAIETLKGNGPKDFTELVKTLAAIALIIKGDETDIEVAKTKVDEVIHSGKALSHLKDFIRNCGGEEKIVDDYSYLKIAEKTYDFKAEKDGYVSKIEAESVGKAAMVLGAGRATKADIIDHSVGVVLEKKIGSKVKAGDVLAKIYYSKEETLNSSIEKLKEAFEISNEHLAERDVIIKIKKNF;locus_tag=LOCUS_14120;EC_number=2.4.2.2;note=WP_009896135.1 pyrimidine-nucleoside phosphorylase (Clostridioides difficile) [pid:52.8%25%2C q_cov:99.1%25%2C s_cov:98.0%25%2C Eval:5.8e-123],MGA_1413
sequence1	MetaGeneAnnotator	CDS	1620932	1621579	.	-	0	ID=MGA_1414;product=fructose-6-phosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356970.1;translation=MKIFIDTANVEDIKKANDMGIISGVTTNPSLIAREGRDFKEVVKEITGIVDGPISAEVISLESEKMVEEALELVKIHKNIVIKIPMTVEGLKAVSQLHKKGIKTNVTLIFTPAQALLAARAGASYVSPFLGRLDDLGEEGVLLIEKIAAIFDKHNIKAEIIAASIRNPYHAVKAAEYGAHIATIPYNVILKMTEHILTDRGIERFLNDWNSVMNK;locus_tag=LOCUS_14130;gene=fsa;note=WP_003356970.1 fructose-6-phosphate aldolase (Clostridium botulinum) [pid:67.9%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:2.5e-78],MGA_1414
sequence1	MetaGeneAnnotator	CDS	1621632	1622513	.	-	0	ID=MGA_1415;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964024.1;translation=MVSIILSLLLATIRQAAPILITAIGATFSEVTGVVNIGLEGMMLMGAFSAAVTSFYTGSPWAGVLAGMISGGLLAWLHGILSIKYRGNQIVSGVAINLFASGFTIFMLRVLFHQSGNSPAVAKLPTLFGMSILVYIIYAIAILAHIFIYKTVTGLRMRAVGEHPLAADTVGIDVYKIRYFGVIMSGVLSGLGGAYLSLGALAQFTKGMSAGRGFIALAAMIFGKWTPIGSIGASLLFGFADAGQTLLQQYVKSIPPQFIQMTPYLLTLLALAGVVGKAVAPAADGQPYDKNDI;locus_tag=LOCUS_14140;note=WP_010964024.1 ABC transporter permease (Clostridium) [pid:44.4%25%2C q_cov:99.3%25%2C s_cov:98.7%25%2C Eval:9.8e-67],MGA_1415
sequence1	MetaGeneAnnotator	CDS	1622515	1623555	.	-	0	ID=MGA_1416;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082660.1;translation=MNNKLKEALIPVLSVFIAMLIGGGVIAYLGKNPFTAYMYLFQGAFVGKREIAQTLLMSTPLIFTGLSVAFAFKAGLFNIGSQGQMVAGGLAAVAVAAFVKTPLISNVVIAIIAAAAAGFIWAGISGWLKAKLGVHEVISTIMLNYIAINFEQYLLNYPFKEGGVAGPSPVTPPISAASKLPSILPPTSLNFGFIIAILAAITIWYILEKTVLGYEIKAIGFNPTASENAGINVVWGVVLAMGISGILAGLGGAERVLGGIGQDRYISGLMASYGFDGIAVALLGKNNPFGIIVAAILFGALRAGAMKMQFLAGVPSQIIIIIQAVIILLVASENMFKALLNRKKVS;locus_tag=LOCUS_14150;note=WP_004082660.1 ABC transporter permease (Thermotoga) [pid:43.7%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:8.9e-73],MGA_1416
sequence1	MetaGeneAnnotator	CDS	1623548	1625065	.	-	0	ID=MGA_1417;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289202.1;translation=MGSNYILEMKNIRKVFGKVVANDSVTLKVQKGEIHAIVGENGAGKSTLMKILNGLYQPTSGEIRLHNEKVDIDGPGEASRMGIGMVYQHFMLVPTLTVAENMILGVEPKTGMFLDINKAREEVKVVSEKYGLKIDPDAIVNQLSVGMQQRVEILKILFKGAELLVFDEPTAVLTPQEVKELYKIMKNLISEGKTIIFITHKLQEVLDTANNITVIRRGKNVGELDVKDATKEKIANLMVGRAVLFELNRKEVELGEKLVEVSNLNVKNRQGMIAVKDLSFDIRKGEIFGIAGVEGNGQTELIEAISGLMKAESGSFKIAGKDLLNHSPREITLNGFAHIPEDRHKRAAIDEYDVEYNLALGVHKDKYQKGINLDFSKMEKESTEFLEKYDIRPRNINTKFGRLSGGNQQKVIVARELEKKHEFIIASQPTRGVDIGAIESIHNMILKEKENKKAILVVSAELSEVMSLSDRIGVMFEGEIVGIIDRKDATEEKLGILMAGGKIDE;locus_tag=LOCUS_14160;note=WP_002289202.1 ABC transporter ATP-binding protein (Enterococcus) [pid:50.9%25%2C q_cov:99.4%25%2C s_cov:96.7%25%2C Eval:3.3e-149],MGA_1417
sequence1	MetaGeneAnnotator	CDS	1625083	1625898	.	-	0	ID=MGA_1418;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_018306772.1;translation=MYDKVMKTVEFLKAKTEYRPKVAVILGSGLGGLVDLITEKEFVDYKDIPNFPVSTVEGHKGRLVFGKIGDVELLAMQGRFHYYEGYAMKEVTYPEYVMKMFGIEKLIVSNAAGGVNRSFTPGDLMIITDHINLFGDNPLLGANDKRFGARFPDMSEAYKKNLMAKAKEVADKIGVNYQEGVYAGLTGPYYETGAEIQYLSRIGADAVGMSTVPEVIAANYLGMNVLGISCITNMATGISKTAHSHESVVDTANKATAEFCRWVEEIIKNID;locus_tag=LOCUS_14170;EC_number=2.4.2.1;note=WP_018306772.1 purine-nucleoside phosphorylase (Desulfitobacterium) [pid:55.6%25%2C q_cov:98.9%25%2C s_cov:96.8%25%2C Eval:6.0e-84],MGA_1418
sequence1	MetaGeneAnnotator	CDS	1625946	1626581	.	-	0	ID=MGA_1419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAINWLEWFGYAASVVVAVSLMMSSIVKLRWYNLIGAGMFSAYGFLIGAMPVGFLNGFIALADIYYIIKIYQTKEDFEILNSDFNSEYFSHFFKYYSDDIKNYFPDFESNENKKDKVVFFVLRNMIPANLVVGEKAGDKYIVDVDYATPQYRDFKLGRYLFEEMKDNFKKEGINVIVAKSNNEKHSKYLKKIGFNFEKKEGNNELFSKNI;locus_tag=LOCUS_14180;note=WP_011071323.1 YgjV family protein (Shewanella oneidensis) [pid:57.7%25%2C q_cov:33.6%25%2C s_cov:88.6%25%2C Eval:2.3e-15%2C partial hit],MGA_1419
sequence1	MetaGeneAnnotator	CDS	1626758	1627762	.	-	0	ID=MGA_1420;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356351.1;translation=MGIKKIAKLADVSISTVSRVINAPEKVKEETRERVQKIIEENNYRPNLLAKELLKNKTNLIGVLLPRIDVSIFATAVEGVAKTLNEKGYNILLANAREKVEEEIKYFQLFQEKRVDGILFFTTELKDEHIEIIKKIDVPLVIIGQKNRRIDVPSVLYDYYNASKKAVEYLIERGHKKIAFLGVPETNTYLGQLSKEGYLDALEENGISIKKEYMYIGDFAVGTGYTAIKHIIEKSKEIPTAIYAATDHLAITAMHYLYEKGIRVPEDMSIVGSDDMEISKYTNPALTTIKYDYFGAGVQAANLVLDKVEGKSGVLKTVVIDYTLQERDSTKRIK;locus_tag=LOCUS_14190;note=WP_003356351.1 LacI family DNA-binding transcriptional regulator (Clostridium botulinum) [pid:34.9%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:4.8e-52],MGA_1420
sequence1	MetaGeneAnnotator	CDS	1627891	1628286	.	-	0	ID=MGA_1421;product=cytidine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964852.1;translation=MKTNVIDLIEKAIEVRERAYSKYSGFKVGAIVIGDNDKMYKGVNVENKSYGLTMCAERTAIFSGVTDGMKKLKTIVIVADTEDVVTPCGACREVISEFATPETEIVLSNLSKKYKIYTIQELLPFSFELEE;locus_tag=LOCUS_14200;EC_number=3.5.4.5;note=WP_010964852.1 cytidine deaminase (Clostridium) [pid:51.2%25%2C q_cov:95.4%25%2C s_cov:94.7%25%2C Eval:3.1e-31],MGA_1421
sequence1	MetaGeneAnnotator	CDS	1628784	1628972	.	-	0	ID=MGA_1422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQEKNKDSELVINAFSRVKKALDNISIFHTDRGNEFKNKAIDELLKTFDISRSLSKKRISL;locus_tag=LOCUS_14210;note=WP_138405618.1 IS3-like element IS1485 family transposase (Lactobacillales) [pid:64.8%25%2C q_cov:87.1%25%2C s_cov:20.3%25%2C Eval:5.0e-13%2C partial hit],frameshifted%2C insertion/deletion at around 1628961%2C1628804,MGA_1422
sequence1	MetaGeneAnnotator	CDS	1628953	1629192	.	-	0	ID=MGA_1423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYSLVSNYTIKQYKVYRVKCNEEKVENIVDREFNLRENLEVVVSDLTYINVKGKWNYICVLLDLHNREIIGYAAGKK;locus_tag=LOCUS_14220;note=WP_099098442.1 IS3-like element ISEfa8 family transposase (Enterococcus faecium) [pid:53.2%25%2C q_cov:100.0%25%2C s_cov:20.4%25%2C Eval:4.2e-20%2C partial hit],frameshifted%2C insertion/deletion at around 1629434%2C1628954%2C1628803,MGA_1423
sequence1	MetaGeneAnnotator	CDS	1630021	1630185	.	+	0	ID=MGA_1424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIVANVPGNIMPAFLSSKVGGEGAKFFGSGLKVLLKESLEGALNSPKYIKKCS;locus_tag=LOCUS_14230;note=MGA_1424
sequence1	MetaGeneAnnotator	CDS	1630720	1631814	.	+	0	ID=MGA_1425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKELKEKLPRIIIFIILILLIPVLKPMIFGHSVKEIRTKMEQELKKDYGEDFIVENIGTRSANGEKFYQAEIYPKSIIGTNKEYDSYYHARASVDILPFGRLSGVAGTYGEIQMNDEAEEFLLPKAKKIFGEKIRMKVQVDYKKHEGDWFSKYFVSGFQEKMKAVKEDPKNKRLELTLYIYIFNKIDNEKEERRKEIYEYIQYLKKDGLFKYLEMGVIFIDERVLAPGYYDYTYEIKHGKKVALTVDGEKVYMPPMKLRKEMSKKLGEEVKKMSDDELIKRMNRISKSELNYYGISKYNAERYVSICSVEMLRAINNTKYSKEKKEKMLYKRKYIKLKDITYKKNLEYIYINKKGEDKNDKNN;locus_tag=LOCUS_14240;note=MGA_1425
sequence1	MetaGeneAnnotator	CDS	1631798	1636648	.	+	0	ID=MGA_1426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTINIKDNELLTFNNLANLEWQFLSIFNSEKKISDNQSTLLKDLLTPESFVREYDDKKTKKIKTRPVYGNQNEQLDKTQALIEMRKSAGIGMEYLSKLDSVGKFLGEWEVIYGGDKYKIVSEYLTKNMSDYVDIYATSLNEILEKSKSDKDNLDNLEKLKTKIKNQSDANFNKLLKALEENNVEDEKNIKKQLVKDLLNLPSREKVEQLKKSIQILEMTMFIVSNVPGNIMPAFFFSKVGGTEAKFFGSGIKTLLKESLEGASDFSKYFKKFTGELSELMRVRFNNSNKLEKLMILSDILFDKGSYFTFKGIDAGLNALGDYEKNNGKVSDEKNLGEITLTEELDMFDDGFRVFVLKKGEDILIISKNIEDNKSVQSKKALPKNLDYLRIVYNKIKDDNPGSNILLSGLDNGADISFVTGILTERQSKLYYSNPPKNLIDFINFTTEDIKRDYSSTNKIVITGLESYIASELYATLCYSVLEGGTPYLIVLGLDFVLSVISGAIEIFEDIKIRKLYSELLSKEIIDDENSGIKGYITNRLEKSISDGTYNFAPIDYLELYSKTAFDKLEEKKDNTLEYKDNKNLRGHNSNELLKFEMKHLIVDRYYLYKYIKDNKGEYKLKECKYIYEGLIKGERDLKNKKYLKIEIPLKEANSEGYKLYSLLKLIKDLQRRFLHENNLGEVVYIENEKSKIGKLKEIMFVEKNEEQIGKIKGNEYLFLPWLDKQGNIGQELQKGYMASILKSVLLLQIVRTDPAYRGYGEVALIERYGEKDYKIELNFKKLTVEEYLKKMFFRYIIKATSNITTVIRDMREIYKYNYATKIKDILSKEGLSFLDNYCTIEHINAKKSVIKFEEKKDELNYAYNPLDKIIGGTLEIDATDLEINKEYLQSYLKGLLKYLGINSNKDISELTFFNIYSGKYCTTFISSLSEVDTENKIEEFISKDNFFSSLKELKSNLKKYPLKELIGLKVKKGEATIILGNEKDEKKVKVYNKELGIDNKEKEITLKITTPSKYFLNIERDKPNNDYELYSSLGYKDKYYDIRNMGKNSKVTADGKDISGTYKGKDKEESMVKDKINRDTGCKYYGDNLILIDRNLRYYYGDNLDDYLTISNYMEGYLGIDLVEKPKEKKEDLGKGFMDYQVKIKGIKYVNLLNLEIIKEVNEHTVAEIEGIIAGEDTDEVTRFLNVEKQGIEILYGDDNKPIFRGLIYEHSMEIEQNSCKVKIKSYSLSKELEKEKRNRVYHNLGTKYEDVISKLNETYQNKYSFGFNSHIDKQELITELNPVEVQYKESDWDFLKRILRRENDLIIVDDSKGKNPKTVAGIAIGEFGSSQKTIDNKNLLLSRKMKKGVIENSYKLKGYPQIKGEELFSIGNPYNINIDVNTGKQDSLLLIKNRIYKEGGVLKSDLVFVRRDEFNIGVVKREESITGLTLKGTIKKVSKQHKAQIEYTEMENEYDESKSYYYPIERMYTGTYFTPEEDTLVEVHFGAEAGEVSIRNVSSKTEDIDNDPDVKVIRTSFGKEVRFDSKSIKITGKDDESYVEITEESVGLTKGEKEIILKDGKIGINNKDSTITMDDKKVNITTGGSAITMKDDKLTLDNGGVGIEIGNGKINLG;locus_tag=LOCUS_14250;note=MGA_1426
sequence1	MetaGeneAnnotator	CDS	1636705	1637736	.	-	0	ID=MGA_1427;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437479.1;translation=MRITIKDIAKIAGVDHSTVSRSLNDSPRVSKKTKEKIKKIAEELGFEFNHNARALSSQKTGTVGLIYPETYEQTGTSLFLAYLLKNIQRIFEKHSLDVIIKFPKNKFTNESNIKKIISQRKVDGLIIASPDILPEDWEYINKFNIPVTFLHFRPKYFHSDKIDYVYTDHKKGGYMATKYLLNLGHKKIITITDEMYDTQFQDRTHGYQEALEEVGYKLKAENVFKCKTSFEAGYELAKENLEEFKNADAIFAQTDIVALGIQEYLKSKDVKIPQDVSIIGYDGLEIGEFFSPKLTTILQPKDKLADLACERLVELLKERKEGIYLHKILEPKLLIRESCVEKK;locus_tag=LOCUS_14260;note=WP_003437479.1 LacI family DNA-binding transcriptional regulator (Clostridioides difficile) [pid:35.2%25%2C q_cov:98.0%25%2C s_cov:98.2%25%2C Eval:1.5e-56],MGA_1427
sequence1	MetaGeneAnnotator	CDS	1637788	1640175	.	-	0	ID=MGA_1428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVKKNKKNIGIKLQILLPVIFVIIILVGVVSGVSSFLLKTGFFKVKYSVNEKLEKMKENTITNTENFSSEVNKSLSKTSEKIKEGKENQLKNSIKQAAKAGNKFIDNKIEMNSKMVNIVSKTSKVVNLMTDALVEKDTRPMLDKKSGYYVQRFKQTGSILLFTSFLNDIKKETWSNSPIGLNLFIKNGMVIATSKFKYGELKKSYNNKNISDMIKKKKELRDVVDSKDGLAIQIYEPIIDSLHQIAGGFVVTLPINSEFIDELKAYIGVDIVLYNKWKSYTSTFGGHRRLKLEDEKDLFEKIKNSDLVIKDTKIKDKNYRIAYVPIKDKENNVKGMIGFVVSTESLYATLQKLDSDKSKLLKTIGNMKDNSIKSFEEDEKSIIQNLDETQSSTLKSSNNIIIILVIIGAIVSSLIIVFVISKIAKKILEILNITNYVSNGDLTKEVIIKNEDELGKLGIGINAMVDNLKNIVKMILNVSDNSVKSVDEINKLSDKNQVTVTEFVKDFHKVGEKLLLEVREIENMNTSLEEINIAAEELSRNITEINDRSESASDMAKEGSSYIEKAVDSINRIEREVREISRLENKLIDKFNSIEKFVGVINQISEQTNLLALNAAIEAARAGDAGKGFAVVANEVKKLAEESVQAASDIENMVLDMRQESENVKSSINIGLNEVESGVEVYAKTGEFLKQIIGAIENINDMIRNSVAATEEQSANITSGMTAMNEMHKEVLEIKGVMEKLTGSSKELIDNSEEIDNGIGKIEMEVLKIRDKISEFVVDDKNEIKQMKEVNKK;locus_tag=LOCUS_14270;note=WP_010966106.1 methyl-accepting chemotaxis protein (Clostridium) [pid:27.1%25%2C q_cov:54.1%25%2C s_cov:66.5%25%2C Eval:8.1e-47%2C partial hit],MGA_1428
sequence1	MetaGeneAnnotator	CDS	1640452	1641780	.	-	0	ID=MGA_1429;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010888077.1;translation=MKKFLVMLMVGVFVSAVAFGGIFDSLFKKKAAKSDNGKVVIKIASGAVGNELELMKKAAKWYTDEHPNVEIKVWDTPDSTTDRLGLYLQFMEAKSPEIDIYQIDVIWPGDMAEHLVDLYQYGAKAVVGDHFPAIVKNNTVDGKLVAMPFFTDAGMLYYRKDLLAKYGLTPPKTWDDLEIAAKKIQAGERAAGNQDFQGFVWQGDAYEGLTCDALEWIKSNGGGSIVSPDKKITINNPNAIEAINRAKNWVGTISPKGVTGMAEESARAVWQSGNAAFMRNWPYAYSLGNSKDSVIKGKFDVSALPAGKSGMGAATLGGWQLAVSKYSEHKAIAADVTLFLTSKRVQKMRAIEGSYNPTIKSLYKDKDVLAAAPFFGSLYNVFTSAVARPSTATAPNYAKTSQKFYTAVYDVLTGKQDAKTAMEYLEADLEDITGYPAGSPQK;locus_tag=LOCUS_14280;note=WP_010888077.1 ABC transporter substrate-binding protein (Deinococcus radiodurans) [pid:54.1%25%2C q_cov:91.4%25%2C s_cov:96.0%25%2C Eval:8.2e-117],MGA_1429
sequence1	MetaGeneAnnotator	CDS	1641898	1642770	.	-	0	ID=MGA_1430;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010888075.1;translation=MIMSKKTKKILGKVGLWTMVILIFVYMLFPFYWAIISSLKTEAQLQMMPATFIPRDPMTHKISFSFKNYISVFQNIGFIRGLWNSTIVATTTTVLSLIVGAFAAFALGKLRFKGKRIALYTILSMTMFPQVTVLTGLYAVVNVLGISAMPSMILSYMIFTLPFTTWVLTSFFKDLPVELMQSAQVDGATPFQSFKYVLLPLTAPALVTTGLLAFISAWNEYLFALTFTSIEPTARTVPIAIALFSGKIARQEPFGEIMAAAVVVTIPIIILVLFFQKRIVAGLTAGAVKG;locus_tag=LOCUS_14290;note=WP_010888075.1 carbohydrate ABC transporter permease (Deinococcus radiodurans) [pid:52.4%25%2C q_cov:94.5%25%2C s_cov:94.3%25%2C Eval:4.0e-73],MGA_1430
sequence1	MetaGeneAnnotator	CDS	1642767	1643783	.	-	0	ID=MGA_1431;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173997.1;translation=MGNKKMKGLAQQEQSLATKLLLPTFLILLLLAAYPLIQVFYTSFTDKRFAGVNKTNFIGLKNYQKLLSFTIKEIDPKTQRAIDVLPRRPIRFKELSRINIFGKHYIIGASDVEFIKSIKDTITFSFWSVLLETILGLIVALVVNSNFRGKGAMRAIMLVPWAIITVVSARMWGWMFQSTRIGFFNSLLSQLGIGNGNISFLTNEAWQMPSIIAIDVWKTTPFMALLLLAGLQVIPGSLYEAAEVDGAGKIRQFFSITLPLLKPAIAIALVFRTLDALRVFDLFQVLLSTRRFSMASYNYAQLINYRNMGMASSIGVIIFILIFGFAITYIKMLGVDDE;locus_tag=LOCUS_14300;note=WP_011173997.1 sugar ABC transporter permease (Thermus thermophilus) [pid:40.9%25%2C q_cov:90.5%25%2C s_cov:91.1%25%2C Eval:9.2e-59],MGA_1431
sequence1	MetaGeneAnnotator	CDS	1643801	1644907	.	-	0	ID=MGA_1432;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228038.1;translation=MAKVVLKDMEKTYPNGFKAVHGHNLEIKDGEFMVFVGPSGCAKSTTLRMIAGLEEITGGTVAIGDTIVNELPPKDRGIAMVFQNYALYPHMNVYDNMAFGLKLAKTPKEEIDKRVKNAAEILGITDLLDRKPKEMSGGQRQRVAVGRAIVRDPEVFLFDEPLSNLDAQLRVHMRVEITKLHKRLKTTMIYVTHDQVEAMTMGDRICVMELGVIKQVDTPLKLYNEPQNKFVAGFIGSPSMNIVEAKLEKEGDTTYVVTEHMKLRLPKEKADKVQKYVGKEVWFGIRPEHIGSHETHPDEKDNYVKSEIYVVEQMGNEVFVYFTPGKNQYIARLGSEGVTVKSGQKYELWFDTTKCHIFDKETEENISL;locus_tag=LOCUS_14310;gene=ugpC;note=WP_011228038.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Thermus thermophilus) [pid:58.4%25%2C q_cov:99.5%25%2C s_cov:97.1%25%2C Eval:6.6e-114],MGA_1432
sequence1	MetaGeneAnnotator	CDS	1645059	1646708	.	-	0	ID=MGA_1433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIENLWKTLYGDSKEKELDELKKIIDVEKEKYKNVVVENQFWYKESVVYSLYVDLYAGDFKGLIEKLPYLKKLGVNTLWLLPMLDSPMRDQGFDIRDYYNVRKELGGTEQFLNFVKIAHEYGIKILFDLAVNHTSDEHEWFKKAKVDKNSIYRDYYIWSDKPDKYLDARLLFKGMINSNWEYNPKTDDYYFHRFYGFQPDLNYKNPKVLIEMLKNLLFWKSKGIDGLRMDAIPFVWKKEGTNCEDLDEVHIILKIFRRVLDYVQEGTLLIAEANMKPKDVVKYFGDGDECQTAYHFPLMPKFYLSLAEKDSKYIVDALDSEYTPKIPKGCQWISFLRCHDELTLEFVTPEERKVMLENYLIDKKYSFREGEGIAGRIYNMLGKDIKKILLLNSMMFTTIGSPIIYYGDEIGQENDEEFYLESSKKTGYEDARFFNRGKMRWDKVEKIDKDKTNDESKLFYGIKNMIEVRKKYIDFFNSETIFEDNEDKELYIVKKIYENKQILFIHNLSENKKVINIEFAGVGLLTGNKLGKTIKLTPNECIWVMSE;locus_tag=LOCUS_14320;note=WP_010942997.1 maltose alpha-D-glucosyltransferase (Geobacter sulfurreducens) [pid:40.2%25%2C q_cov:88.3%25%2C s_cov:45.6%25%2C Eval:4.8e-109%2C partial hit],MGA_1433
sequence1	MetaGeneAnnotator	CDS	1646860	1647501	.	-	0	ID=MGA_1434;product=thiamine diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903694.1;translation=MKKAVIFLNLEDINYKYLEKYKAEKIDIFCADGGAKIAYKLNIIPKMILGDFDSLSGEILNYYIEKGVEIKRYNPDKDKTDTEILLKIIYKFYDEIILEGAIGGRVDHTLVNINLLNKFKNIVINNQNEELRMITKREEIYKIKNRIGDIFSIIPFSEEIVITLNGFKYNIENKKIKKGDSLGISNLIIEKSASIKMEKGKALAVVSKIEHKK;locus_tag=LOCUS_14330;EC_number=2.7.6.2;note=WP_005903694.1 thiamine diphosphokinase (Fusobacterium nucleatum) [pid:42.0%25%2C q_cov:97.7%25%2C s_cov:99.5%25%2C Eval:3.2e-38],MGA_1434
sequence1	MetaGeneAnnotator	CDS	1647519	1648343	.	-	0	ID=MGA_1435;product=endonuclease/exonuclease/phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903695.1;translation=MKLKIIIIYMVIEIFTFSNDIGVISSFNSLHLGWKSKNYKKFAKVISLFDLIGLEEVMNETGIKKVKKELEIETGEKWDYHISEKKVGNGRYKEYYGYIWKENKVKFIKYYGFYKEKKNEFSREPYGAEFKIGKFDFTYILCHFIYGKNRAVREKEAGYLDNVYDYFQRKNGREQDVIIAGDFNLPSYNKGFKEIYAGKDNIFAVVNSKYKTTIGKHSLSKSYDNFFLSYKYTKEFTGDYGVYNFTNKNYSIVRKTISDHLPIFIEVDTTKDDD;locus_tag=LOCUS_14340;note=WP_005903695.1 endonuclease/exonuclease/phosphatase family protein (Fusobacterium nucleatum) [pid:46.7%25%2C q_cov:99.3%25%2C s_cov:97.1%25%2C Eval:1.2e-68],MGA_1435
sequence1	MetaGeneAnnotator	CDS	1648375	1650393	.	-	0	ID=MGA_1436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKKLTIYSMISGLITFLILWTFVYSGLEKEKLKELNKEIEISNHVVKDLIVSPVWDYDFDLLYTSLSKFLENSYISKIIVKNIDDNIILDLEKSNSIHKKYNLKLEKNGEKIGEVEICYNKTKVENDMKDIKYKINILLLLVMILFIIFNYVEYNYFLKPLSIFREGFKKVSDGVLSYRIDLKRKDEFRELEIYFNKMTNSLKEENEKNEKSKKEIKEKSDELEAAYNEMSAINDTLTETLKELEESENKYRNLFNYSPVGMVIFNYQTGEIKEFNREFLSIFDLKTIDVIKLNILTLITLDAMNKIREKIKINEPVYNYDIELENDKYIILSASLVNKNEKIAQIVVKDITELKKLQKRIEGYAKELELKVKDRTKKLEDANIKIREQQNDMVENAYNRGLLEVTAGVIHNIGNIVNIINLNIEEILEKEEGKENKTIKFFEEIAFQEIKRVENKSENLKKIENIMPKLIDAMKNRELGYTEKFKFLYKKINHLKDIIHLQQNFIGELGTEDYNNMNEILDEVLELYESSIEKRKIKIKFNKGDVPDLLSDKGQLIQIYSNFIKNSYESIEEKGIENGEITITTYFENDNIIVKLKDNGLGIKKEDKDKLFTFGFSTKKKAGKGNGFGLHNTKMILDKYMCDIDINSEYGEFMEFILKIPIKKTDKKR;locus_tag=LOCUS_14350;note=WP_010946039.1 ATP-binding protein (Legionella pneumophila) [pid:23.9%25%2C q_cov:41.4%25%2C s_cov:59.4%25%2C Eval:2.5e-17%2C partial hit],MGA_1436
sequence1	MetaGeneAnnotator	CDS	1650576	1652999	.	-	0	ID=MGA_1437;product=homocysteine S-methyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949155.1;translation=MNKEWLDNILNNEVLILDGAMGTELQKLGMKPGYCPELLNIEDPEMVKKVHKSYVDAGSNIIEANTFGGNRLKLKEFGLENKIEELNIEGIKIAKEMAKDKAKVFASVSSTGKFIEPMGDYTFDEIYDVFKEQALILEKAGADGVIIETMTDIHEMKAVVIAFKENTNLPIFASMTFQADGRSVTGTDPKTAAIILDALGVDAIGVNCSLGSEGLYKFLEEMIEVTDVPLFVQPNAGLPRLEGDKTVFDATPEFMLEYSEKFYDLGINIIGGCCGTTPTHMRKIAERFKNRKSNKKKLKKNITYLTSRSQFVGIGYPEMVKILGERINPNALKRIKEDIKEYRTTQIRKEAIAQVEAGADVLDINVGLGTIDEAKMMKKAIIAVQNIVNVPLTIDTTDIIALEAGLKAYSGKPLINSVMGKKKSMETIFPLAKKYGAAVLGLALDENGIPATAEERLKVAEKIVKTGMEYGIKKEDILIDTLVLTASAEQDKVLETVKAIELVKKELGVNTVLGVSNISFGLPNRKYVNAAFLSMCIGAGLDLPIMSPMNMEMKNALMASCVLTGRDKNSGKYILYSSGMSVTETKKDEKDIPLEKQAYNCVIKGDTGEIKEILEKILESGEKPLDIVNKILIPAITEVGDLYDKGIYFLPQLMMSAEAMKKGVERVKKEIKEGDSNSLGKVIFATVKNDIHDIGKNIVTVLLENNGFEIVDLGKDVPTEEILEAAKRENVDIIGLSALMTTTMVEMRKTIEAIRKEKLSVDIMVGGAVVTPDFAETMGAYYSKDAVEAVKVAKEIMKKRGIGNNKK;locus_tag=LOCUS_14360;note=WP_011949155.1 homocysteine S-methyltransferase family protein (Clostridium botulinum) [pid:47.1%25%2C q_cov:97.8%25%2C s_cov:99.0%25%2C Eval:9.3e-200],MGA_1437
sequence1	MetaGeneAnnotator	CDS	1653172	1653549	.	-	0	ID=MGA_1438;product=adenosylmethionine decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081137.1;translation=MKSLGKHLIIEFFDCDDKVLSNLEGVENAMNQAAIEAKSTIVNSVFHHFSPYGVSGAVIIAESHITIHTWPEYGYAAVDIFTCGEEVEPYKAYEYLKEKFNSKSVNIKELNRGELDIENLKVKVS;locus_tag=LOCUS_14370;gene=speD;EC_number=4.1.1.50;note=WP_004081137.1 adenosylmethionine decarboxylase (Thermotoga maritima) [pid:59.5%25%2C q_cov:92.8%25%2C s_cov:89.2%25%2C Eval:4.0e-39],MGA_1438
sequence1	MetaGeneAnnotator	CDS	1653663	1654598	.	-	0	ID=MGA_1439;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903868.1;translation=MRYKYIFGPVPSRRLGVSLGIDLVMSKTCNLNCVYCECGKTDKLYNERKEYVNAEEVLNEVKDFLDKKPYLDYITFSGSGEPTLNSKLGYLIDEIKKITDTKIAILTNGTLFYNDKLIEEVKNADVIVPSLDAVSEEIFYKINRPNKELKIEKIINGLVNLRKNYKGKINLEIFIIDKLNDTKEELDKFKDVILKINPDKVQLNSLDRPPVESWVKPVEIDKLNEIIKYWGLDNVEVIKKYKVRRAIKSYSENLESEILNMLAKRPCTIKDLEFITCLKAVEINKYLDVLEKEKKIESYIGERGIFIRLKS;locus_tag=LOCUS_14380;note=WP_005903868.1 radical SAM protein (Fusobacterium nucleatum) [pid:45.1%25%2C q_cov:76.2%25%2C s_cov:85.9%25%2C Eval:1.8e-53],MGA_1439
sequence1	MetaGeneAnnotator	CDS	1654617	1655606	.	-	0	ID=MGA_1440;product=phosphotransferase enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016754.1;translation=MTVEIYSAGDEMAVYTKLTENDIDEIGDMYNLGKILDYKGIEKGIMNSNYLLETQNSKYIFRILEGNRDINNEIDELKYLEHLSKNGIPCPNVLRTKLNMDYIIIKGKMGVLFSFLEGSEVEVVNKKLLNEFGEILGKMHNLSVGKIIHRNEKIEMDYLYEILIKDEKKLKNLLNSDYNIINKKYNDIKQKIENIYDKLPKGVNHNDIFPDNVFVKDGKISGVIDFNDALSDVFLNDISIVINFWIYNKLKKYDLEYINSFLEGYQKERKLTKLEKISLPIFLEKTALTFVFLRIRKFNFHDVEGEREFKDYRDLLPMVFENKNIIKIN;locus_tag=LOCUS_14390;note=WP_011016754.1 phosphotransferase enzyme family protein (Fusobacterium nucleatum) [pid:35.9%25%2C q_cov:94.2%25%2C s_cov:99.0%25%2C Eval:2.4e-40],MGA_1440
sequence1	MetaGeneAnnotator	CDS	1655628	1657094	.	-	0	ID=MGA_1441;product=type II secretion system ATPase GspE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000853744.1;translation=MFEENLVENFDLKNQEVEEEAYKIFEENFIHEKKVFPYKITKREIFVAMLDVTDAQTKMKIKLKVKRRVVPVKMTEDDFYLLTNKYFGVGSGMLYQTTENVQLGREEFNLEDKEESAEIIKFVNRVILDAYKRGSTDIHMEPLKNDIILRYRIDGVLHNIQMPAAIKNVFAAVVSRIKIMADLDIAEKRLPQDGRIKIKVGEKEQDLRVSILPTINGEGIVIRILANQKSEMTLEKLGMETEILNKFRELIHKPNGIVLVTGPTGSGKTTTLFSAIKEINDYSKKIITIEDPVEYQLDGVSQIQVKPDIGLTFAQGLRAILRQDPDIILVGEIRDKETAEIAIRASLTGHLVFATLHTNDSVSAVTRLIDMGIEPYLITSSLIGVLAQRLVRVICPYCKTEKILDNGEVTYFGKGCDFCFETGYKGRTSIHELFLIDNYSKKDILNEKSNFEIKNNLKAKGWKDLKDDGMLKIEKGITTYEEILRVAW;locus_tag=LOCUS_14400;gene=gspE;note=WP_000853744.1 type II secretion system ATPase GspE (Leptospira) [pid:45.5%25%2C q_cov:95.9%25%2C s_cov:87.4%25%2C Eval:2.8e-113],MGA_1441
sequence1	MetaGeneAnnotator	CDS	1657130	1657384	.	-	0	ID=MGA_1442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAYYDFDSKKHSSIISYFNKNFIKTEEIEKQYSKFLTKAFKIRNDSDYEDFFIISKDEVKEQLKNAKEFIERIEKYIQENIYK;locus_tag=LOCUS_14410;note=WP_005812482.1 HEPN domain-containing protein (Desulfitobacterium) [pid:41.2%25%2C q_cov:95.2%25%2C s_cov:55.2%25%2C Eval:7.3e-12%2C partial hit],MGA_1442
sequence1	MetaGeneAnnotator	CDS	1657498	1657638	.	-	0	ID=MGA_1443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVDERRKELSKYRDEKAKENLKASKLLLENELYLESINRSYYGMA;locus_tag=LOCUS_14420;note=MGA_1443
sequence1	MetaGeneAnnotator	CDS	1657628	1657987	.	-	0	ID=MGA_1444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNISEISLEKIDSILEKSKIELKKVFGKNLKKIIFYGSYARNEEKDGSDIDIMALADINRIDLSKYRDKISDIMVELSLEFDLLVSITEINIDDFNNFIEYIPFYETVEEEGIELYAS;locus_tag=LOCUS_14430;note=MGA_1444
sequence1	MetaGeneAnnotator	CDS	1658205	1659206	.	-	0	ID=MGA_1445;product=isocitrate dehydrogenase (NAD(+));inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964290.1;translation=MAHKITLLPGDGIGPEITEAVKKIISATGVDIEWEEVNAGITVMEKYGTPLPEETIETIRKNKVALKAPITTPVGGGFRSVNVGIRKALNLYANVRPSKTFKGVKARYEDVDIVIMRENTEGLYSGIEHYIGNKIAAETIKIITKEATENIARYAFEYARKNNRKKVTIVHKANIQKFSDGLFLDVSREIAKEYPEIICEDKIVDNMCMQLVQNPEIFDVLLCPNFYGDIVSDLCSGLVGGLGVAPGANIGKDIAVFEAVHGSAPDIAGKNIANPTALLLSAVMMLEYIGEKESADKISKSLKDVLEKGEVVTKDLGGNATTTEFTEEIIKNL;locus_tag=LOCUS_14440;EC_number=1.1.1.41;note=WP_010964290.1 isocitrate dehydrogenase (NAD(+)) (Clostridium) [pid:66.5%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:2.5e-125],MGA_1445
sequence1	MetaGeneAnnotator	CDS	1659224	1659670	.	-	0	ID=MGA_1446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903314.1;translation=MNKMARQAMNANKMSQVDMMNNQAMMGMASFMQKLGKGKRKYTVKIDKGNKKFLGKLAEEMKKQMGVYGNNPQAKGMGIFLNYLESECKKKDKELKLSYDELEFLKKTISESVKQMSTMKFKWYQFIRKIAIKMMAKQYKLLLEEIQK;locus_tag=LOCUS_14450;note=WP_005903314.1 hypothetical protein (Fusobacterium nucleatum) [pid:44.1%25%2C q_cov:95.9%25%2C s_cov:99.3%25%2C Eval:9.3e-30],MGA_1446
sequence1	MetaGeneAnnotator	CDS	1659663	1660379	.	-	0	ID=MGA_1447;product=orotidine-5'-phosphate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156274057.1;translation=MNNVKEKLVFALDVPDLKSAKALIKELAEYVGVFKVGKELFTAVGPEIFKVIKENNGKIFADLKYHDIPNTVASAARVLVRHGVEIFNVHATGGFEMINMTAKAIKEEAEKLGINRPKLLAVTVLTSLNDEDLKSLKINETTSDYVIDLAKLAKSAGADGVVCSPNEVEQIKKELGKEFITLTPGIRPLWSVKGDQKRVMTPAQAVKNGVDYIVVGRPIRNVENRVEAAKKILKEMSE;locus_tag=LOCUS_14460;gene=pyrF;EC_number=4.1.1.23;note=WP_156274057.1 orotidine-5'-phosphate decarboxylase (Moorella glycerini) [pid:50.2%25%2C q_cov:97.5%25%2C s_cov:95.9%25%2C Eval:3.4e-61],MGA_1447
sequence1	MetaGeneAnnotator	CDS	1660422	1661045	.	-	0	ID=MGA_1448;product=L-threonylcarbamoyladenylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015966.1;translation=MRILNNSKENIKLAGSEIKNGKIIVFPTDTVYGVGADYKNKNAIKKIYEYKIRNSKKPLILLISKIEYLDEIIKVENELEKEIIEKLSERFWPGSLSLILKKNRVKLKELNPEYDTIGVRIPNNKIALELIENAGGIIATTSANISNKETPKNFSELDDGFINKVDYVIKSEDEIIGIPSTIIEISENGYKILRVGSVTEEEIEELL;locus_tag=LOCUS_14470;EC_number=2.7.7.87;note=WP_011015966.1 L-threonylcarbamoyladenylate synthase (Fusobacterium nucleatum) [pid:42.2%25%2C q_cov:99.5%25%2C s_cov:94.5%25%2C Eval:6.3e-39],MGA_1448
sequence1	MetaGeneAnnotator	CDS	1661062	1661574	.	-	0	ID=MGA_1449;product=5-(carboxyamino)imidazole ribonucleotide mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048147124.1;translation=MEKILVSIVMGSDSDLEVMSETAKLLEKFDISYEMKIYSAHRCTEEALNYVKEAEKNGVKIIIGAAGKAAHLPGVLAAHTNLPVIGVPMQTSDLGGVDSLYSIVQMPTGIPVATVAIGKTGAKNAAVLALKMLGIKYDKYRKIIKDYREEMRKEVLEKNRRLEEKGYKNY;locus_tag=LOCUS_14480;gene=purE;EC_number=4.1.1.21%3B 5.4.99.18;note=WP_048147124.1 5-(carboxyamino)imidazole ribonucleotide mutase (Pyrococcus abyssi) [pid:55.8%25%2C q_cov:97.1%25%2C s_cov:96.4%25%2C Eval:3.3e-44],MGA_1449
sequence1	MetaGeneAnnotator	CDS	1661605	1662225	.	-	0	ID=MGA_1450;product=phosphoribosylanthranilate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545776.1;translation=MNVKVKICGITRLEDAQVAIENGVDALGFIFYKKSKRYIEPNKVKEIIKNIPPFISKVGVFVNEDINDIKRIGKELKLDILQLHGEESVEYLKELEKGFTVVKAFRIKDIRELEKIKDYKIKWFLLDTYSSKEYGGTGEKFNWEIVKEAKKYGKVILAGGLNSENIKLAIDELKPYGVDISSGVEIDKGIKDRKKIIDIMRIIKDD;locus_tag=LOCUS_14490;EC_number=5.3.1.24;note=WP_012545776.1 phosphoribosylanthranilate isomerase (Thermodesulfovibrio) [pid:53.2%25%2C q_cov:88.8%25%2C s_cov:86.2%25%2C Eval:1.0e-49],MGA_1450
sequence1	MetaGeneAnnotator	CDS	1662222	1662449	.	-	0	ID=MGA_1451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEHKSEEKEVNKKVEKFLKYLKMGLIMGIGYGLMFGWMWGIKGIIIGPIVGTIVGFGLSLIFTIYDKNLWERRE;locus_tag=LOCUS_14500;note=MGA_1451
sequence1	MetaGeneAnnotator	CDS	1662607	1664799	.	-	0	ID=MGA_1452;product=chemotaxis protein CheA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081040.1;translation=MDINELKENYFSLFITDARDYLSQIVESLMVLENEMTNKDMIDSIFRAFHSIKGASGILEYHNLEKLTHISENLLSDVREGKISINDEIMDMLFKVLDYLEKGIEKIEKSGDDIDFENDLGIKFSVIEDKINKILNKKVISSKNVNTKKRVVGNVINEPEIIKEIKDKGYKIQIILKEDAMMKNVRLFLIYQNLSSIGDIIYSLPDIKKLEDEENEIEYEKSIVYIDSETDVDTIKKLALVSDVKEATVEELKRIEDLDLENEIKKDDLKESDNKVKTELKKNNAEKPKVIKEEKTKKAESKKVEANEKLNKKVKVKEYLKVEREKLDSLLNVVGELVIDKSRYNQMRIELKKLYMELIEKGIDKKELKKLFNFIDELKKLNKHLERESIELQKEVTELRMVPIKELFLRFPRAIKELGKRLNKEVEFEIHGEDTELDKIIVERLSDPLLHMIRNSMDHGIEMPEIRSKTGKNKKGIIKLSALNEGNDIIIKIEDDGAGIDSEKIVKKCIEKGIITEAKAKNLTKLEKLNLIFLPGFSTADSLSDVSGRGVGMDVVKRSIEMLKGRVEIDTEVGKGTTFIVHLPLTLAIINALLVQNNGNIYSFALDNVVTTVKVKKEDIEDVNGNRVSKLREQVVPIFSLDEIFNNKIDEEKTKKEKNIIDVILVKRGNSIYGFEVDSLLGQQEIVIKNIEGEYHKDKGISGAAVLGDGKIAIMVDLENLIEYYSARQA;locus_tag=LOCUS_14510;gene=cheA;note=WP_004081040.1 chemotaxis protein CheA (Thermotoga maritima) [pid:34.4%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:1.7e-123],MGA_1452
sequence1	MetaGeneAnnotator	CDS	1664992	1667115	.	-	0	ID=MGA_1453;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680511.1;translation=MKIKSVKTKIILGILPVVLVTLIVVTFYNLNESSKIIRNEVEKEGFSKVKDGSDSITNFLIDRKTVLEMSEAVVENRDINESIKMLEKISRKDENIEMFFLADRDGKAPTTSGVVANISDREYFKDIMNGKNFATQVVISKASGKQILVMAVPYYTEAKLSGVLGLTIKLDVLKKIASEIKFGKTGYVYIMDGTGLTIVHPDPKLVLNVNLSKEGVQSGVTVTKELSKAMLSVINNDKRFVEYNFAGISKYVFVSKIDMLDMYFCLTAPEKEFTEKIEFLKVKNYIFDSVVTILLIILILFVVGKITKNIVAVKDMMKDISQGDGDLTVRMKVNTEDEVGELAKYFNEFVNKLENIIIDMNLTSERVASSSVELSSGMKNIADGSQEQAQEVDELGKNVEDLKVNMEQVMDNIRSQTASVEETSSAVEEISQTIKQVAENSEFTMKTSEETAKGAEEGGKSVSKTLEGMARIEDVVKNIEEKVVKLGNSSEEIGEIVGVIEGIAGQTNLLALNAAIEAAHAGDVGKGFAVVADEIKDLAERSQDATKEIEKLIKGIQNEVKDVMDTTKIGYTEVKKGTDLSKEAEKKLNNIIEKIQETNHQVKDISTSMEEQATAIAEISKAVEVISQGSANIEDLSEEQMGLLNGVVTNLERVSHIIEMNVGTTEEASASSDELSNIAENLNELVSQFKVKEDKELKKEIKEARNV;locus_tag=LOCUS_14520;note=WP_002680511.1 methyl-accepting chemotaxis protein (Treponema denticola) [pid:26.5%25%2C q_cov:98.6%25%2C s_cov:98.3%25%2C Eval:7.1e-63],MGA_1453
sequence1	MetaGeneAnnotator	CDS	1667136	1669319	.	-	0	ID=MGA_1454;product=glycoside hydrolase family 31 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582587.1;translation=MYKKAEIIKNVELYKFGNPIKTDAVIISVDIEKFKLGNSIEGIELEKGDNSFKIKYNLDDSAKIYGLGEAVGSLNRRGKVYKTYATDDFDHTPGKEALYGAHPFLIIDNGTEKIGIFIDYSGEIIFDVAFSDKKILEIEISDLNFDMYIFKNSNYSEITKKYLELTGKSYVPPKWAFGYQQCRWSYPDSKTIKEVAGNFKKYDIPVDTIYMDIDYMKDFKVFTVDEGKFPDFKNFVKEIKDMGIKLIPIVDPGVKIESEYNVYEDGIENNYFCKNQNGEDFVAAVWPGKTHFPDFLNSKVRKWWGAQYKKLIDLGIEGFWNDMNEPAIFYTPEGLKKAFEKLNEISLKDDIGIYDMFALNEVMNSISNNRDDYKSFYHTLDNGEKILHDKVHNLFGFNMTRAASEGFDEINPDKRFLIFSRSSYAGMQRYGGIWYGDNKSWWEHILLSIKMAISVNLIGFLYSGADIGGFGENASAELLIRWSQAALFMPLYRNHSALGTRNQEPWAFDEGTREILREIIRIRYMFLPYIYSEYMKAINEKRGYINALFTKFNDENVYEIEDQFLVGENLMAAPIYEQNSTGRYVYLPETNWLQWNLSKEKLRDVKIIDKGYHYIKSKIEETAIFIKENSLVVIGEVQNFVGEKKEDSLTIIGFVEDRANYCYYNDDGVSKEYEKGEYIKIDIEIISKDNDYEIKISKEGNYKHNIREINFEIYNSKESWNKRIILK;locus_tag=LOCUS_14530;note=WP_012582587.1 glycoside hydrolase family 31 protein (Dictyoglomus turgidum) [pid:36.7%25%2C q_cov:96.6%25%2C s_cov:88.4%25%2C Eval:1.9e-140],MGA_1454
sequence1	MetaGeneAnnotator	CDS	1669341	1671194	.	-	0	ID=MGA_1455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METLYRLKNHILGFDKEKGYITFLKDANVETVIIDKKDEDYNFIFKNKKYNKSNLKVTKVKYNPQGLMLQIEYETDDRQMLLKEIIRYISRTTLERYFIIKPRFEGVLKEFNVCLSGIKFNEEFELILPMEKKFIYDDFEKIVMKKAPIDSSGVVIINNKKSRENLTIWYYNEETADIKLDKNKNLDLTYKIKIDKKLEKKQEKIIGGQYIKFYDENYLESIEEIEKFYRPTEKTILEKKYKNKKGLLAYKYNSKIVDKRIGDILEDFYMRKIKKENFYRYIEIENAILPLRYVNKEYDFFSKSKSFSEQLFNNSKLFMLNLGNLTENMKKNLISEEKYIRLNKGKNYFKYVLINKSGVGYIKQSGEKFILVIQNITAITKNIDVELKEEFLKENLKNESYILKNIVTNKVERILKNIKNFNLEFKPFETKILKFEVILEENYIGNYYKFNKNENELYFENSFFNMFFQKEKLGYLINKEEDSVISEIKFNYKYEATVFHKNRIVYKYQNLKATYFYDETNKIKIKFEAEKDLKKLKLELKFEKIKYYLLDKKICENEVKLNELETVKFIGKNLLNLKLNSKNFDKKNIKIGKNHLKLELSSEEIKKKIFEIELDII;locus_tag=LOCUS_14540;note=MGA_1455
sequence1	MetaGeneAnnotator	CDS	1671678	1671902	.	+	0	ID=MGA_1456;product=glutaredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582458.1;translation=MSVIVYSTNTCPYCDMTKQFLSEKGVPFNDINVAEDPIAAREMVSKSGQMGVPVIDFNGTIVLGFDRAKLESLI;locus_tag=LOCUS_14550;note=WP_012582458.1 glutaredoxin family protein (Dictyoglomus turgidum) [pid:55.4%25%2C q_cov:100.0%25%2C s_cov:91.4%25%2C Eval:3.6e-19],MGA_1456
sequence1	MetaGeneAnnotator	CDS	1671999	1672526	.	-	0	ID=MGA_1457;product=5-formyltetrahydrofolate cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627936.1;translation=MKNILRKELLKNRRNLKFEYVTKYSKELFENFIKTKEYKNSKIIMSYMSIKNEVDTKWFNEAIIKNGKKLVLPIIDNNDEIQPILVKKLSKMKVGKYNILEPIGDVIEKQKIDLIIVPGVGFDKSYNRIGFGKGYYDKFLKNYKGIKVGVAYDFQIVDKIDADEYDVKMDMILHF;locus_tag=LOCUS_14560;EC_number=6.3.3.2;note=WP_201627936.1 5-formyltetrahydrofolate cyclo-ligase (Fusobacterium) [pid:40.5%25%2C q_cov:94.3%25%2C s_cov:91.7%25%2C Eval:2.7e-28],MGA_1457
sequence1	MetaGeneAnnotator	CDS	1672651	1676196	.	-	0	ID=MGA_1458;product=pyruvate:ferredoxin (flavodoxin) oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016958.1;translation=MAKQMKTMDGNMAAAHVSYAFTETAGIYPITPSSPMAEYTDEWGAHGRKNIFGTTVKLVEMQSEAGASGAVHGALQAGALTTTYTASQGLLLMVPNMYKIAGELLPGVFHVSARNIATHALSIFGEHSDVYATRQTGFAMLASGGVQEVMDLGAVAHLAAIKGRVPFLHFFDGFRTSHEIQKVEAWDYDDLAKLVDYDAIKEFKARALNPEHPVTRGTAQNPDIYFQAREASNKYYDAVPDIVAEYMKEISKLTGREYKPYNYYGAADAERVIIAMGSVTETIKETVDYLMAKGEKVGVISVHLYRPFSKKYFMEVLPSTVKSIAVLDRSKEPGALGEALYLDVRALFYDEEVKPTIVGGRYGLSSKDTTPSQIVEVYKNLDRSEPKNQFTIGIVDDVTFTSLPLGDEIDTVPEGTVECKFFGLGSDGTVGANKNSIKIIGDNTDMYAQGYFSYDSKKSGGSTVSHLRFGKKPITSIYLVNHPDFVSCSVPAYLGQYDLLKGIKKGGTFLLNSIWDAEETLKRLPNNLKKELAEKEVNFYIINATKIAEEIGLGHRTNTIMQSAFFKLAEVVPFADAVEYLKSAIVKSYGKKGEDIVKMNYAAVEKGGEELVKVEVKPEWKDLVVDKKEVVASNISDPTLANFVEKIAKPINKLEGDDLPVSLFADAADGTMPNGSCAFEKRGIAVSVPEWNVDNCIQCNQCAYVCPHAVIRPFLLDEKEMANAPEGLETKKPLGKGFDGLQYKIQVSVMDCTGCGSCANVCPAPNKALVMKPLDTQRDEAKNWDYLANNVTYKDKIMDKKSSVKASQFAQPLFEFSGACAGCGETPYIKLITQLFGDRMMVANATGCSSIYGGSAPSTPYCKNAEGQGPAWANSLFEDNAEYGIGMAMGVEKQRDMIAETMTSNMDTVSAEMQEAFKAWIDGMHDADASKEASAKLTEVLEKDGTELAKTLLEAKQHFVKKSVWIFGGDGWAYDIGFGGVDHALASGMDVNVLVVDTEVYSNTGGQASKASVTGQVAKFAASGKPIRKKDLGKIAMSYGYVYVAQVAMGANQAQYLKAIREAEAYPGPSIVIAYAPCINHGIRKGMGKSQLEEKLAVESGYWHLYRFNPELEAAGKNPFQLDSKEPNWDKYLEYLNGEVRFTSLMKTFPEKVDVLFAQSLEDAKWRYNSYRRLAEIDYTK;locus_tag=LOCUS_14570;gene=nifJ;note=WP_011016958.1 pyruvate:ferredoxin (flavodoxin) oxidoreductase (Fusobacterium nucleatum) [pid:65.4%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:0.0e+00],MGA_1458
sequence1	MetaGeneAnnotator	CDS	1676245	1677450	.	-	0	ID=MGA_1459;product=acetate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010956840.1;translation=MNVLVLNSGSSSLKYQLFNMKTEDVLAKGLVERIGLDKSVITHKPTGKAKKELTQDLNNHKEALKIVLNLLVDKEAGVISSMDEINAVGHRVVHGAEEFSESALVTDEVYKAIEKCEVLAPLHNPANKMGISACSEIMPNTPQVAVFDTAFHQTMDATSYLYAIPYKYYEKYGVRRYGFHGTSHKYVFYKTAEFLGKKPEDLKVITCHIGNGASITAIDGGKVVDTSMGFTPLEGLVMGTRCGDLDPAILPFLMNNEDLTAKEMDKVLNKESGLVGLSGISSDMRDILKAAAEGDEKANNALNVYTYRVLKYIGAYTAALNGVDAVVFTAGIGENSVPVRKKIVEKLGWLGVQLDEEANKVMGEEKIISTTDSKVKVLVMPTDEEYMIAKDTYEIVKKHNI;locus_tag=LOCUS_14580;note=WP_010956840.1 acetate kinase (Treponema denticola) [pid:62.4%25%2C q_cov:98.3%25%2C s_cov:99.2%25%2C Eval:2.5e-138],MGA_1459
sequence1	MetaGeneAnnotator	CDS	1677464	1678459	.	-	0	ID=MGA_1460;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627902.1;translation=MGIIEKILKEAKSLSKRIVLPETEDERVLKAAEIILKQGIAKVILIGKEDIVKSDATKLGINLEEATIVDSNKCEKMDVYVNELVKLREKKGMTKEQALEILTTEPRYFGAMMIRMGDADGMVAGSNSPTASVIRASIHVIGAAKGIKTISSSFMMVMPEPTYGDNGILFYTDCGVVPDPTSEQLADIATSAAWLSRKLANMEPKVAMLSFSTKGSAKHPDADKVIEAVNILKNRDVDFEFDGELQADAAIVPAIGAKKAPGSNVAGNANVLVFPDLGAGNIAYKLTQRLANAGAYGPLLQGLAKPVNDLSRGCSVEDIVNVAAITAVEAK;locus_tag=LOCUS_14590;gene=pta;EC_number=2.3.1.8;note=WP_201627902.1 phosphate acetyltransferase (Fusobacterium canifelinum) [pid:56.4%25%2C q_cov:99.7%25%2C s_cov:98.8%25%2C Eval:2.1e-100],MGA_1460
sequence1	MetaGeneAnnotator	CDS	1678677	1680191	.	-	0	ID=MGA_1461;product=YifB family Mg chelatase-like AAA ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015709.1;translation=MLSKIISSSFIGVKGFIVGVEVDVARGLPSFTIVGLGDAAISESKERVRAAIKNSDISLTPKKIIVNLSPADMKKEGSYFDLPISIGILASLEQIKFDKLDRYLIVGELSLSGEIRRVKGIINSVITAKENGLEGVILPFGNYEEAKMIKGIKIVPVKNLNEAIDFLNDDIEINLDNIKIENHIENNVIEYDFKDVKGQEKAKRAVEISAAGGHNLLMIGSPGSGKSMIAKRVPGILPEMTDEDIIEATKIYSIAGLLTEKNPIIRKRPFRSPHHTASDVALIGGGRVPRPGEISLAHNGVLFLDELTEFPRKVLEVLRQPLEDRIVSISRAAFNVTLPANFITIAAANPCKCGFLYETSDSPKQCTCTPSEVKKYQQKLSGPIIDRMDLYVEIRRLSEEELLNYKEGESSEKIKLRVEKARDIQRRRFKSKKTNSNMTSRDIKKYCKLDEKSEELIKLASRRIGLSGRGFDKILKTARTIADLNESEQIQKEHILEAVSYRNQ;locus_tag=LOCUS_14600;note=WP_011015709.1 YifB family Mg chelatase-like AAA ATPase (Fusobacterium nucleatum) [pid:53.9%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:1.4e-152],MGA_1461
sequence1	MetaGeneAnnotator	CDS	1680240	1680917	.	-	0	ID=MGA_1462;product=Crp/Fnr family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461647.1;translation=MDLEFLRDMVILEDLSEEDLLGLSKIVYTKTLKKGEILFFEGDKGDSMYIIKSGKVKILKLSEDGREKILSILSEGDFLGEMALLDSEMRSATVEAMEEIELYAIYKTEFLDFLKKNFSVTMHIIRTLSDRVRILNKKVEVLTFKDVYARFNETLKELSEKYGVVHKGTIKLNINLTHKDLANMLGVTRETVTRMIGKLKREGILDIQDKKIIILDIEKLENMKI;locus_tag=LOCUS_14610;note=WP_011461647.1 Crp/Fnr family transcriptional regulator (Desulfitobacterium hafniense) [pid:36.7%25%2C q_cov:92.9%25%2C s_cov:87.9%25%2C Eval:1.6e-33],MGA_1462
sequence1	MetaGeneAnnotator	CDS	1681024	1682175	.	-	0	ID=MGA_1463;product=8-amino-7-oxononanoate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001077285.1;translation=MDFFKEELRKIKDLNLFREIKKISNSNGKYIYINGKKYIDFSSNNYLGLKDDERVKDAAIEAIKKYGVGSGASRLVTGTNELYNRLENEISNFKNTEATLLFNSGYDANLGSISTIMDKNDVIFSDKLNHASIIDGIFLSKSKLIRYKHNDINDLEDKLIKNRKNYKKALVITDSIFSMDGDKANLQDIAKLKEKYDFLFMIDEAHGTGIFGKNGIGLAEEQNVLGKVDITMGTLGKSFGTQGAYITGKKDIIEYLVNRCRSFIFTTAIAPSAIGAALKSLEIIKKEAKRREKILRNSDYLRKELLKLGLDTQNSSSQIIPIIIGEEKKALEISQKLFEENLFVSAIRKPTVPSGTARLRISINYNIDKDDIDKLISILKNIL;locus_tag=LOCUS_14620;gene=bioF;EC_number=2.3.1.47;note=WP_001077285.1 8-amino-7-oxononanoate synthase (Bacillus cereus) [pid:45.4%25%2C q_cov:92.4%25%2C s_cov:89.6%25%2C Eval:7.8e-89],MGA_1463
sequence1	MetaGeneAnnotator	CDS	1682177	1683127	.	-	0	ID=MGA_1464;product=biotin synthase BioB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986728.1;translation=MNKYINNEITKEEAVKLFSLKGSKLMELFTVSNKIREKYCGNEIHHCTITNAKSGKCSEDCKFCAQSARYNTNLKTYEFKDEETLEVEYKRANELNSENFGIVTSGKSIKKGSKEFEKIKEFLLKNRDKTKPCASIGLLDYEEFVELKEAGLTRYHNNIQTSIDKYGEIVATTHSVEDRIKSIKAAKKAGLKVCSGGIIGMGESYEDRVNMAFTLKELEVDSIPLNILNPIKGTPMGDREILSVDEILKTVAIFRIILKDKTIKIAAGRETILKDFMGLAFMSGANGLLVGGYLTLKGRSVEEDENFIKNLKKMWS;locus_tag=LOCUS_14630;gene=bioB;EC_number=2.8.1.6;note=WP_011986728.1 biotin synthase BioB (Clostridium botulinum) [pid:44.8%25%2C q_cov:97.8%25%2C s_cov:95.9%25%2C Eval:2.6e-68],MGA_1464
sequence1	MetaGeneAnnotator	CDS	1683351	1683752	.	-	0	ID=MGA_1465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRISIPRILRIKPNALYKIGKYLRKEGFYKVALFFGEGIKEFTYDKISISFDSSEINVTYEKIIENNNIDDIFELVSKIPTGTQAIVAVGGGKAIDESINIKENFYTILSEIENRDKLKEFLLNDEIFNKITV;locus_tag=LOCUS_14640;note=WP_010964934.1 iron-containing alcohol dehydrogenase family protein (Clostridium) [pid:41.1%25%2C q_cov:71.4%25%2C s_cov:26.9%25%2C Eval:3.4e-14%2C partial hit],MGA_1465
sequence1	MetaGeneAnnotator	CDS	1683771	1684571	.	-	0	ID=MGA_1466;product=HAD-IIA family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013230236.1;translation=MAIKNIISDMDGVIYRGKNLIPGAKECVENLLKNNIKFLFLTNNSEQTAIDLIRKLELLGIKGLTEKNFITSAMATAMFLSEQKPGGTAYVIGGGGLINELYKVGFSISENNPDYVVVGKTKSYNFEMIKKAVELINKGAKFIATNPDVIDPIENGIEPACGALLAPIERATGKSPFVVGKPNAIMMTLAKRKLGVHSEETLMIGDRMDTDIIGGLEAGMKTCLVLSGVSTKEMLNKFPYRPNYIFNNISEVNLEKINKELEILEK;locus_tag=LOCUS_14650;note=WP_013230236.1 HAD-IIA family hydrolase (Amycolatopsis mediterranei) [pid:52.0%25%2C q_cov:92.5%25%2C s_cov:92.8%25%2C Eval:2.6e-68],MGA_1466
sequence1	CRT:1.2	repeat_region	1685075	1687354	.	+	.	ID=CRT_1;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=atttacattccaatatggctagattaaaat;note=CRT_1
sequence1	MetaGeneAnnotator	CDS	1687699	1688451	.	-	0	ID=MGA_1467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKSSPQTNFFMKSLYLDRWYNKIFILIIFLSIIFIFLKLDILVNILSILFIIVLGVLKYLIDFYREKGEIIRRRDFIDNSFGSKLHYENSEGYYDNEEIEEGLYKTIVNLFENTFFSKEISEKMKQKVLYNSIIPGIIIIGFSVLGFANSQIALPILQLFLSKIFIMKTINVWNYNKNTEDIFNRIIMLFNELKIEEIGKYEPQILNLWIEYECSISNYKLFLDSKIYNELNPILIEKWNIMKEKYKIK;locus_tag=LOCUS_14660;note=MGA_1467
sequence1	MetaGeneAnnotator	CDS	1688472	1689254	.	-	0	ID=MGA_1468;product=type III-B CRISPR module RAMP protein Cmr6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986670.1;translation=MSEMGNVGYLFYKKLYENKEKLLLEICKGNAKKLNDGKEGEDKVIENILSHKLNTETNKEEVKDLETFKLKITYPGLLIGSGYNHDSGLEEDFKLGFFFDYTTGLPVIPGSSIKGVLRSVFPSEKDDEEKREGKREYINEILSKDFSFEELKEIELEIFEGIKGGEKIPMKDRDIFYDAEIVEVKDKIFEDDYLCPHGDNPLKAPKPLRFLKVAPGAVFEFKFDLKEGILGEEEKKSLFEEILLDLGIGAKTNVGYGQFE;locus_tag=LOCUS_14670;gene=cmr6;note=WP_011986670.1 type III-B CRISPR module RAMP protein Cmr6 (Clostridium botulinum) [pid:36.6%25%2C q_cov:98.8%25%2C s_cov:98.3%25%2C Eval:8.7e-37],MGA_1468
sequence1	MetaGeneAnnotator	CDS	1689247	1689699	.	-	0	ID=MGA_1469;product=type III-B CRISPR module-associated protein Cmr5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986671.1;translation=MSDKKVIENLISKAMELLEKEFDIKNKGGVPKELKGYISNFGASIIQSGLIPAVAFYERKETSKTDNVAINRKKLMRIIGNLIGYDLKSKEIKTEKNSKDDILLEELIKNNGTDAKIKKKDIINASIAVKLAIRVYKQIDENEKIGDKDE;locus_tag=LOCUS_14680;note=WP_011986671.1 type III-B CRISPR module-associated protein Cmr5 (Clostridium botulinum) [pid:37.7%25%2C q_cov:94.0%25%2C s_cov:98.6%25%2C Eval:6.7e-15],MGA_1469
sequence1	MetaGeneAnnotator	CDS	1689692	1690483	.	-	0	ID=MGA_1470;product=type III-B CRISPR module RAMP protein Cmr4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986672.1;translation=MCIKIKKDIYLIECFTNLHVGSGDNDFGLIDTRVQRDVITGFPTINSSSLKGALKEHCGDDLIEGFGNETQKGKYKFFPAKLLAIPARALDRPYYLVTCQEILDDFKEMMELFYKETEDFKNEEFQEEKEVEGYKTKKYIKYKKLIKDIDKEKGEEEILILEYKDFKELVSELPVIARNHLENGESQNLWYEEIVPRKSLFYFGIDKGIEEKVEGKTLEEKFEEKILFDENGGELIHIGGNVTIGYGACKIKKLKTKEGDKSE;locus_tag=LOCUS_14690;gene=cmr4;note=WP_011986672.1 type III-B CRISPR module RAMP protein Cmr4 (Clostridium botulinum) [pid:36.4%25%2C q_cov:93.5%25%2C s_cov:98.2%25%2C Eval:1.6e-41],MGA_1470
sequence1	MetaGeneAnnotator	CDS	1690483	1691619	.	-	0	ID=MGA_1471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRNRKKNKSKKKRTKTISKKIYFVRLKPLDSYFFSGRETFNYSSGRESIKNYYVKSEYFPQQTTILGMLRREILIVTGYYKEDRREYSKNSQEIVKLIGNGSFNAEGHKNEDGFGKIKNISPIFLYKDGNIFTPAPLDYGLKFEKSEGNCYFNSENKDSKADKDYKNFIPNLKNYEVKNGLNRKIISFNSFKKKYLFDDIFEEDERIGIDTKVTENGYYRQLYYKLKNNFEFCFFVKLEEDIFEISEKESYKTTVYIGAEGKPFKLEITKSSLDFEGLVENYKTSKERIVCISDIILNEDEFYKLKTEVDFILGEKQFFKNFVYDYKTNDGKKVKPYFLLKRGSVIYVSKGSQKIEEIINKKHIKVIGYNYITGGIK;locus_tag=LOCUS_14700;note=MGA_1471
sequence1	MetaGeneAnnotator	CDS	1691619	1693166	.	-	0	ID=MGA_1472;product=type III-B CRISPR-associated protein Cas10/Cmr2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986674.1;translation=MTKYIGVTIGPIVDTISRAKKTRSAWRTSYMFSYIMKKIIWKLKQDNRIELILPYSKDDSIYTKPKKAGLFHDRLIIEVKKDFKLKDLVEIKDSVFEEFAKNAFKDNLDKKTKEEFIKYLDTYINFYALEKELDSKDNIILEISKYLDVMELQPQICFMQFEENKDYLFDFINDVSNDFLEKDAFEEGYEIKSLPEIAFTDIYKKSLEKVEEIDKEINKGKEDDKYPDDEKCYEIFKESMSAEFKKHHKYYAVVRADGDGIGAIIKELKVKEDYQNFSNILFEFAKESVEEIEIYGGLPIFAGGDDLLFFAPIINSSCNEYKNIFELTTALSNIFEEKLKNLKGKTNKKGTLSFGITINYYKYPLYEAYNNSATLLFEKAKKYKGKNATAVKLLKGGNKPIEFILSKAEKEKFQEFLKIFNYDNKDKKLIKGVIYTLENQIELLKLIQNDEEKLTNFFINNFKKEIHTDKTQINGLVREINKILQLVINYGKKEETENLLKLLRFLMFLTERGDE;locus_tag=LOCUS_14710;gene=cas10;note=WP_011986674.1 type III-B CRISPR-associated protein Cas10/Cmr2 (Clostridium botulinum) [pid:32.6%25%2C q_cov:98.6%25%2C s_cov:97.7%25%2C Eval:5.3e-62],MGA_1472
sequence1	MetaGeneAnnotator	CDS	1693159	1694607	.	-	0	ID=MGA_1473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKLIVKLKQHTPLIHFQSENIVFNLDKEIMEYILKEEFRNQEVEYKKFSKINKKTKRITKKLDFSLSYKKKIPEDISGELKNKEINFLDFKIFSKHEELIEIIQNRITKFIKESKVLKDYIPISQKQLQIRGTEIKSKIDKFIKESYLKDEFKELFYDTKEIVEKNFPVNNKTEIGKYKLKVIKKNSYEVYDIKNTSYFGESIAFFYSDREIEIEFFSFDKKVLELIKNVLPYVFVYENFGTRQSKGFGSFTPEEYKFSIEDKYFEYKYEVDEIIRKNYNLYFTKEDNEPLKYVNNFYNILKSGKNFRGYKKSKIVEYIGENYRWEKAILKQKLKEKYPLYYEQLKGDNDRSFHSEIKEYRYVRALLGLAEHIEFGLKENNKKIAFKISNDSIERFQSPIKFKIIDNKIYLLPNEIPSYLYDVLFNFILQYKEKKGKEWEVIYEDKDFLKCRTPKQSEFNLYDFLINSINGEFIKVGDKDD;locus_tag=LOCUS_14720;note=WP_011986675.1 hypothetical protein (Clostridium botulinum) [pid:31.1%25%2C q_cov:72.4%25%2C s_cov:88.4%25%2C Eval:6.7e-35%2C partial hit],MGA_1473
sequence1	MetaGeneAnnotator	CDS	1694626	1696209	.	-	0	ID=MGA_1474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986676.1;translation=MAKNDKDIISHHTFMFPFTIEEDEFDLKKTVKILEKNKWEYIPFDVEGEQKDKNKIFNYNEFVYFYPAVQKLLYNQKDKIDKLDLSVYLINKQIKENAKYIIKILNEKEYELEISGVAIRIFKTGVGILLFHLENYKYEERTDILKINDFGRRIYPQFIPVESAKANFLAKELEIENIISEDFYNYLNGKNIRISKTIRKLIGDELSNKIKPLIDDRMFTICWYGNDEFSEVLKKYNNSSKEYNYFSNEDWAKFLFIDGNFNSLKSKNMIKEYLKKYSYDRWIEEGTLFGISRYSFVVATNERWFPKNILLSHIKTMYYQIMIIVLMQRATILKFKNKISKVMKEENIESIRRLQKEYLEFLNLMNFREVTAQEQGIEIYNMVRDIMGINDAVRELEKEIYELYNYYSMLESEKRLKQDRKLQLRLNIITILGGAIGIASLINSIIGMDRFKDILDINNKYELFIKGGFFVIIPFIITILILYNLVYESKKNKENIINKIAKKFQNEKWSLTSIIILFILYYIFIIA;locus_tag=LOCUS_14730;note=WP_011986676.1 hypothetical protein (Clostridium botulinum) [pid:36.0%25%2C q_cov:83.5%25%2C s_cov:87.8%25%2C Eval:4.2e-78],MGA_1474
sequence1	CRT:1.2	repeat_region	1696753	1699678	.	+	.	ID=CRT_2;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=atttacattccaatatggctagattaaaat;note=CRT_2
sequence1	MetaGeneAnnotator	CDS	1699879	1700163	.	-	0	ID=MGA_1476;product=CRISPR-associated endonuclease Cas2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903132.1;translation=MYIILVYDIIFTDTKEGSKALRRIFKTCKRYLHHIQNSVFEGEISNAKYIEMSYELAKYIRKDMDSVIVFKQDSGKWLRKDFLGIEDDKTTNFL;locus_tag=LOCUS_14740;gene=cas2;note=WP_005903132.1 CRISPR-associated endonuclease Cas2 (Fusobacterium) [pid:53.2%25%2C q_cov:100.0%25%2C s_cov:86.8%25%2C Eval:7.5e-25],MGA_1476
sequence1	MetaGeneAnnotator	CDS	1700169	1701167	.	-	0	ID=MGA_1477;product=type I-B CRISPR-associated endonuclease Cas1b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896423.1;translation=MFKIKRNYYLSKSGTLKRKDNSLNFIINGENHYIPIEDVDVIYILGELNLNSKLINFLSQNGVILHFFNYYGFYTGSFYPREKLNSGYLFVEQVKHYIDNEKRVEIAKEIINTASFNIHRNIRYYNERDKDLEIYIDEISKIRNKIEQCKTITEIMGEEGNIRKTYYKTFNTIINQDINFTKRVRRPPDNMINTLMSFVNTLIYTTVLGEIYHTQLSPVVSFLHEPGERRFSLSLDIAEVFKPLIGDRMIFYLLNKNIITEKDFVEEINYMYMKDGARKKILKEYDERLNKTIRHKKLKRDVTYKHLIRLELYKLVKHLSGEEEYDGFKIWW;locus_tag=LOCUS_14750;gene=cas1b;note=WP_005896423.1 type I-B CRISPR-associated endonuclease Cas1b (Fusobacterium nucleatum) [pid:57.9%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:7.5e-114],MGA_1477
sequence1	MetaGeneAnnotator	CDS	1701190	1701693	.	-	0	ID=MGA_1478;product=CRISPR-associated protein Cas4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016964.1;translation=MQQENIKITGVMFYYYFVCKRKLWYFSKNISMENNSENVSIGKSIDENSYKKEKKHIMIDNTINIDFIEGYKVIHEIKKSKAIEEAGHWQIRYYQYYLKKNGVDNMDGIIDYPLLRKREKIVLTEKDEEKIENILIEIKDIIKRKEIPKKIDSKICKKCAYYELCYI;locus_tag=LOCUS_14760;gene=cas4;note=WP_011016964.1 CRISPR-associated protein Cas4 (Fusobacterium nucleatum) [pid:49.1%25%2C q_cov:95.8%25%2C s_cov:97.6%25%2C Eval:2.3e-39],MGA_1478
sequence1	MetaGeneAnnotator	CDS	1701873	1704083	.	-	0	ID=MGA_1479;product=CRISPR-associated helicase/endonuclease Cas3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861769.1;translation=MNNYLAKSNPRETIQEHTDNLLRNFEIIKSVYSDLDINWNALKISCIYHDLGKINRKFQDKIEKIKKHKDEIAHNLLSLAFINAKELKEEYNFTNNEIKIISQAVARHHERGDYNAENYNEEVELLKKEAVNFKYDKLEIKKIKKISAKYFANERTYGDSDYFLEYVKIKGLLNRLDYAASGGIDVEVKNDFLNDSLDKFKKENNFNWNDLQNFMKNNLDKNIIAVAQTGMGKTEAGLLWIGNNKGFFTLPLKTAINEIYKRVVNEIVKNKERIGLLHSDTYSKYLENKNNGDNIEEYYNKTKQLSLPLTICTLDQIFDFVFRYRDFESKLATLSYSKVVIDEIQMYSPDLLAYLILGLYYIDKIGGKFAILTATLPQIIIDLMKKEGINFITGEKPYINSLIRHSIKVRNSEIDSREIIEKYNKNKVLVICNTVRKAQEIFEELSNNKELIDKKVKINLLHSKFIKRDRKNKEKNIMRMGDKNSNEIGIWVATQVVEASLDIDFDLLFTELSDINGLFQRFGRCYRKRAFDKNGYNCYVFDGGENKCSGVNYVIDKDIFEFSKEALKNLDGKITEQDKLDIIGEIYTTEKLKNTEYYKKVLANIDYIKTIPEYELSKKEVRKRFRDIENITIIPKTIYEERKDAIDELILDINRAIYNNENRKEFTENRIKKIYELKDYTVDIRRNEIYGIQLNEKLKIGKYMEIPILDCKYSEKEGVTIEKKVDRNIDFDSRSF;locus_tag=LOCUS_14770;note=WP_011861769.1 CRISPR-associated helicase/endonuclease Cas3 (Clostridioides difficile) [pid:35.4%25%2C q_cov:98.4%25%2C s_cov:99.6%25%2C Eval:7.8e-113],MGA_1479
sequence1	MetaGeneAnnotator	CDS	1704337	1705101	.	-	0	ID=MGA_1480;product=type I-B CRISPR-associated protein Cas5b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439785.1;translation=MKKAIRIKLEQELVNYKVPTSFQLKETYPLPPYSTVIGMVHSICGYEEYKEMQVSIQGKYHSKVNDLFTRYEFKPEMKFESGRHQLNANGFGIGRGIATTELLTEVELLIHIIPEDQNLIEEIEKCIKNPLEFISLGRREDLVIIKEVNSVEIREEEFEKDLELSNDYLAYIPLEMIESEKIILGSETSSYGIENRGTMYNLNKNYELKNFGTKKQPKYFRKWNKKKVIYSSRIIGSEGEKILVDEDRNIVFAI;locus_tag=LOCUS_14780;gene=cas5b;note=WP_003439785.1 type I-B CRISPR-associated protein Cas5b (Clostridioides difficile) [pid:34.2%25%2C q_cov:89.8%25%2C s_cov:88.0%25%2C Eval:8.1e-24],MGA_1480
sequence1	MetaGeneAnnotator	CDS	1705085	1705957	.	-	0	ID=MGA_1481;product=type I-B CRISPR-associated protein Cas7/Cst2/DevR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012544921.1;translation=MKTKGLILSMIFEAESANYGEGIGNVASLKKMSRGNGNQYTYISRQAIRYNIIEQLGEKLTPTRVEKEVVQFSPEATIKDYPEIDFFGYMKTKKGEGSVTRSAVARLSNAISLETFKGDLDFLTNKGLSDRTGGEMKGMNIAQSEIHRSYYRYSIAIDLDKIGIDKNDSINLENDEKARRVNKLLDTIALLYRDIRGRREDLKPLFAIGGVYDIKNPIFENVLDIKNNKLVIESIKGVLFDFIEKDTICGLIEGKFDNDIKIKEELKAESMPTLFKNLKTKVSEYYEKSN;locus_tag=LOCUS_14790;gene=cas7i;note=WP_012544921.1 type I-B CRISPR-associated protein Cas7/Cst2/DevR (Thermodesulfovibrio) [pid:44.3%25%2C q_cov:97.6%25%2C s_cov:97.3%25%2C Eval:3.0e-60],MGA_1481
sequence1	MetaGeneAnnotator	CDS	1705957	1707627	.	-	0	ID=MGA_1482;product=type I-B CRISPR-associated protein Cas8b1/Cst1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546150.1;translation=MEEKIHLSLKDWLYNVGVVGFINILKYAGHEEEIEFNGQEVIIDSKVLENFEEKYFNYFINTYEKKLAWSKVVSYRNKIEYFEKENYSNFDKKAFENFNKYIENLKKYLKSNSHKAAYELISSDFPILEKEKNIQKIKLKKNESIEDRLEDVKRIIEKIKEVIDFYSLDEVKKYIAAKNVIYTIIKNAWNGISFLNPQTKEKNIYSDYKNYFPLSTFKYLNESKEKYKYDCFTCDNKIKKMDNDLGFLNATGFDTSRKTSHVWNFVNDIAICPVCKLIYSCVPAGFTYVYDKGIYVNANRSIAEAIKINNRVRMTILNDEEMNSNTTYRAMITAMSESINNSSKYELSDIQVVRYENEKYRFNILSKKILNLINNSKHELDILIKAGYKEIDKYFRVYEEVMRNILNNENMFLLIHKMLILKLTKSNNALFNGRHLLAVININFEYLKGVGEMKKIEKDALKSYNGAGYYLKQAYKDKNSENKLNGISYRLLNALKTNNNGMFMDTILNCYLYTGKKVPKFFIDCLQDIETFKTIGYAFVSGLIDDKNNNLDGGDR;locus_tag=LOCUS_14800;gene=cas8a1;note=WP_012546150.1 type I-B CRISPR-associated protein Cas8b1/Cst1 (Thermodesulfovibrio) [pid:25.0%25%2C q_cov:97.3%25%2C s_cov:94.6%25%2C Eval:1.6e-27],MGA_1482
sequence1	MetaGeneAnnotator	CDS	1707647	1708405	.	-	0	ID=MGA_1483;product=CRISPR-associated endoribonuclease Cas6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861772.1;translation=MRFNLKFELKKKEIPLDYRRAFISFLKSSFEDYSEKFYEKNYIGKMGRDPIVKPFTFSVYMKNPKFLSDKIEIEGNEIYLNYSTFSQEYGLYFYNSILGKLHKVYNFKNSFEFTLINVKMAKEKVIKSNEAIFKTLSPVVIRYHDNKNRDNSKDNHLVYNDENFLDQMKINIYESGKSFFDFDIKKDVENLKIEIGKMKSVPISHFEERIHRRITGNIGIVKISGDGYLLDYLYKAGIGSRRSQGFGMVDMV;locus_tag=LOCUS_14810;gene=cas6;note=WP_011861772.1 CRISPR-associated endoribonuclease Cas6 (Clostridioides difficile) [pid:27.0%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:8.3e-21],MGA_1483
sequence1	MetaGeneAnnotator	CDS	1708857	1709549	.	+	0	ID=MGA_1484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFAIIDDSGDILLLLKEILKKHFNDSIIKTYDSGEDFFDNPNHKDFDIIITDMNLPGISGIDIAKLSKSKSNTPVILITANGSSELVRQLFIEKIVDDYLDKPILESNLIERINNVIKANNKYESFIWVKISRDKSIQVDIDNIDYISTSERAKFLTVSTSTNEKYETRALLKEIAAKLPENFIKLTKGLIINKNNIKFISSEELIISFNSNSKVKISRNKLFELKQKL;locus_tag=LOCUS_14820;note=WP_000192137.1 response regulator transcription factor ArlR (Staphylococcus) [pid:27.2%25%2C q_cov:68.7%25%2C s_cov:65.8%25%2C Eval:1.5e-07%2C partial hit],MGA_1484
sequence1	MetaGeneAnnotator	CDS	1709704	1711146	.	-	0	ID=MGA_1485;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016630.1;translation=MAVEYEAVIGLEVHIQLKTNTKIFCSCSTDYDGDEANTHVCPICLGHPGVLPKLNEKVLRYAIKAGLTLDCKINQDTKFDRKNYYYPDLPKGYQISQFDKPFAEFGHIDINVNKKEKRIGVTRIHMEEDAGKLVHSDFADESYVNLNRASIPLIEIVSEPDMRTSQEAYEYLTKLRTLIKYSEVSDVSMELGSLRCDSNVSVRPKGQKEFGTRTETKNLNSFKAVARSIDYEIERQIEVIENGGTITQETRLWDDNLGITKSMRSKEEANDYRYFPEPDLVSIEISDELIEEIKNEMPEFPEEKAARFVKEYKIPEYDADVLCTEKELADYFEIAVKNSGNAKTTSNWIMTEVLRVLKDKGISIEEFSISPENLGGIIKLIGEKTISGKIAKDLFEIMLEDGRTPEVIVKEKGMIQITDTGAIEEIVQKVLDNNQQSIDDFKNGKKKAMGYLVGQVMKESKGKASPQIVNKLLNEKLRNV;locus_tag=LOCUS_14830;gene=gatB;note=WP_011016630.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Fusobacterium nucleatum) [pid:61.3%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:7.8e-169],MGA_1485
sequence1	MetaGeneAnnotator	CDS	1711160	1711705	.	-	0	ID=MGA_1486;product=ECF transporter S component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948224.1;translation=MEISVKKIKEKSVSFLLAFGITLIIPWVVHYIGLGLNLKDPSFLGKTFLPMHIGVFLAAMIYGPFEGVLVGALAPIVSFMVTGMPIAAPFPMAQIMTIELTAYGFITGAIYNKTKNEYISLISGMLLGRVVVFIALSMNFIMIKNPKFLPTSFIVGGIMAGLVGIVIQLAIIPMIVKKLKK;locus_tag=LOCUS_14840;note=WP_011948224.1 ECF transporter S component (Clostridium botulinum) [pid:37.8%25%2C q_cov:97.8%25%2C s_cov:95.4%25%2C Eval:2.8e-23],MGA_1486
sequence1	MetaGeneAnnotator	CDS	1712027	1713484	.	-	0	ID=MGA_1487;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903492.1;translation=MELYSLTAHELKELLSKKEIKSTEIVESVFNRIENVENKVDSFVTLTKEKAIEAAKKADEKLARGETLNGLEGIPIALKDNMVSMGDLTTASSKMLSNYEGIYDGSVVKKLKGNGIPIIGKTNMDEFAMGSSTENSFVKKTKNPWDLNRIPGGSSGGSAASVAAGESIISLGSDTGGSIRQPASLCGVVGLKPTYGRVSRFGLIAFASSLDQIGPITKDVEDAALALNAISGYDSNDSTSVNMEVPDYTKFLTEDIKGMKIGIPKEYFVDGMEAGVKKIVNESIERYRDLGAEIVEVSLPHTEYAGPAYYIVAPAEASSNLSRFDGVRYGYRTKEYKDLTELYTKSRSEGFGDEVKRRIMIGTYVLSAGYYDAYYKKAQKVRRLIKQDFDNAFNNVDVILTPTSPSVAFKIGEKTDDPLKMYLSDIFTISANLAGIPGMSVPAGLSEGLPVGIQLLGKAFGEGDILKAGYAFEKVRGKVELPKLK;locus_tag=LOCUS_14850;gene=gatA;note=WP_005903492.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA (Fusobacterium nucleatum) [pid:61.2%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:3.9e-168],MGA_1487
sequence1	MetaGeneAnnotator	CDS	1713550	1713837	.	-	0	ID=MGA_1488;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903491.1;translation=MALTKEDVLKIAGLSRLEFKEEEVQKFQSQLNDILKYVDKLSEVDTENVEPLSHAIDLKNALREDVVKKSVSNELAMKNAPQEEEGTFIVPKVVG;locus_tag=LOCUS_14860;gene=gatC;note=WP_005903491.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC (Fusobacterium nucleatum) [pid:52.6%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.0e-21],MGA_1488
sequence1	MetaGeneAnnotator	CDS	1713840	1714589	.	-	0	ID=MGA_1489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLLKPSIFLYILFIIMIYKLIKEGYWKNILKKTIEEIKKNYKILTVILIGVIFIIFFVDSDLSRFFSKINSKKNIFSVISELGNVYIGNGKFIFPFLLTGIIVGIILNLKKIEKIFSISLMSTSYAGLMVLLIKGVISRERPFVANNPLQFFNYIKAYNAGELFKFDYLSMPSGHTITAFATFIPFFLYVKNKYLKALFLFIPSIVLFSRVYTYRHWLSDVIVGAVLGSLVAYSVYENNKNKIIEEV;locus_tag=LOCUS_14870;note=MGA_1489
sequence1	MetaGeneAnnotator	CDS	1714699	1716120	.	-	0	ID=MGA_1490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKIKYFFWIVLILCSVYNIFLPLHPDEAYYWVWSKHLQLSYFDHPPMVAYLISIFTFFSNNEFFVRLGTVISMGVTGIIIFKLSKKIFSGKVAEKALIIFLLLPLTQAGFIVMTPDSPLILFWGVTLYSAYIYIFEEKSKYAYLTGLFGGLLLVSKYTGVLLLVSIFLFLIFSKYKKLFLKKEIYIAILIAILVFSGVIYWNYINDWVSFKFQFSHGVSEKKVLKLNSFFEFLGGQIGIFNPIFFIGLIYYLTKDYMKNIKDNKFKYLFITFVFTLLFFLYNSLFKKAEANWAAPAYIAGTILIAYFIEINNKRKLYISGIILSFIFIVILRFPEILPLPKRAVLKNKFYGYNKLFKPVKKYLNKDMLLFGDSYQNSSEAGYYLDKVDGLYSLPDSRYSMYNIWLKNDKKNGKLDNKKSIIIIENNDLKRLKKYFNNLKLLEEINYKDKYVNRRYYVYEGKYYSEKKETIK;locus_tag=LOCUS_14880;note=WP_012545854.1 glycosyltransferase family 39 protein (Thermodesulfovibrio yellowstonii) [pid:33.3%25%2C q_cov:85.0%25%2C s_cov:62.1%25%2C Eval:1.8e-56%2C partial hit],MGA_1490
sequence1	MetaGeneAnnotator	CDS	1716165	1716902	.	-	0	ID=MGA_1491;product=polyprenol monophosphomannose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942433.1;translation=MSISKKKALIIIPTYNESQNIEKLLEEIYNQKNDINILIVDDNSPDKTYEIIENLMKDKYNKKLFLLKRAGKLGLGTAYIEGFRWALKNEYDYIFEMDADFSHNPIYIPKFLEEIENNDLIIGSRYVNDGGVKNWGIIRKIVSRGGSLYAKIILGLPLNDITGGFKCFKKEVLENMDLDRIKSNGYSFQVELNYITYLKGYKIKEVPIIFEDRTLGKSKMSKKIFLEAILMVWWMRFNRRFLKNI;locus_tag=LOCUS_14890;note=WP_010942433.1 polyprenol monophosphomannose synthase (Geobacter sulfurreducens) [pid:48.1%25%2C q_cov:95.9%25%2C s_cov:97.5%25%2C Eval:1.9e-62],MGA_1491
sequence1	MetaGeneAnnotator	CDS	1716909	1717319	.	-	0	ID=MGA_1492;product=GtrA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000413285.1;translation=MLKKIMKLFIKFGIVGISGVIVNMIVYSILIFMNINYLIAATISFFIAVTNNFIWNNIWTFKGKAEHKSFKRKYFSFLLISGINFIVNILVLRLLVENFSINKILSQLIGIGVASTLNFLGNYFIVFKEKNQDYGE;locus_tag=LOCUS_14900;note=WP_000413285.1 GtrA family protein (Bacillus) [pid:34.7%25%2C q_cov:91.2%25%2C s_cov:95.3%25%2C Eval:8.8e-18],MGA_1492
sequence1	MetaGeneAnnotator	CDS	1717391	1718086	.	-	0	ID=MGA_1493;product=MtnX-like HAD-IB family phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816647.1;translation=MKNRKDMINKKNKEDKIMILIDFDKTITNKDSTDELVRIYNEDEVLNTQKSFQNKEINIKEYLSKLLGLLELSEEEFKIDIVKNVEVDRYFVEFLNFVKLKKYEYRIVSAATCENIDAVLEYNNIFIDKNKIYSNNLIFEDNKLKVEFPYEKNCGFCGICKKSILGKYKDMKYKIIYIGDGSSDICASGYADILFAKKGYGLEKYCIAENIDYYGYKNFRNIIEKLEESII;locus_tag=LOCUS_14910;EC_number=3.1.3.-;note=WP_005816647.1 MtnX-like HAD-IB family phosphatase (Desulfitobacterium hafniense) [pid:24.6%25%2C q_cov:90.9%25%2C s_cov:92.8%25%2C Eval:9.3e-13],MGA_1493
sequence1	MetaGeneAnnotator	CDS	1718076	1719377	.	-	0	ID=MGA_1494;product=histidinol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949111.1;translation=MEIRRYNKNLKDVLQLLEGRFTIDEKYEIIVKDILSDVKKNGVDTIVKYTQKFDSASFKKEDLKVTEKEIEEAYKEIDGEFLEAIKEAKANIEKFHKKQLRNSWLDYGDNGEALGMKITPLKRVGLYVPGGQGGNTPLVSSVLMNGVPAIVAGVKELVIATPVNNENKINPYLLVTADIIGIKDIFKMGSAWGIGALAYGLEGVLEPVNKIVGPGNIYVTVAKKILYGTVDIDMIAGPSEILIIADENGNEKFLAADFLSQAEHDKMAASILITTSEELAKKVEKEVQNQLDKLERKEIAGESIKNNGHIIVVDNLNEAFELSNAIAPEHLELEIENPFEYISKVENAGAIFLGKYTPEPVGDYFAGPNHVLPTNMTAKFYSPLNVDDFIKKTSILYYPKELLMAKADKIIRIAEVEGLTAHANSIKVRTDEK;locus_tag=LOCUS_14920;gene=hisD;EC_number=1.1.1.23;note=WP_011949111.1 histidinol dehydrogenase (Clostridium botulinum) [pid:53.5%25%2C q_cov:97.7%25%2C s_cov:96.8%25%2C Eval:4.8e-122],MGA_1494
sequence1	MetaGeneAnnotator	CDS	1719457	1720170	.	-	0	ID=MGA_1495;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903490.1;translation=MEKIRINKYLSSIGVDARRKIDELIKNKKVRINGKIAELGDRVNPKEDKIEVNGKIVKEEKKDLVCYMLNKPAKVLSAAKDDRGRKVVVNLIDDKQKLFPIGRLDYETEGLILITNNGEIFNKVIHPREKVYKTYIARVKGEIKNKDISLLTNGVYLDDGKTLPAKVELLSIKKNISEVKISIREGKNRQVRRMFDKIGHKVLHLKRVAIGELKIKNLKIGEYRKLSKKEIGKIMGE;locus_tag=LOCUS_14930;note=WP_005903490.1 pseudouridine synthase (Fusobacterium nucleatum) [pid:50.7%25%2C q_cov:96.2%25%2C s_cov:97.4%25%2C Eval:4.3e-61],MGA_1495
sequence1	MetaGeneAnnotator	CDS	1720158	1720682	.	-	0	ID=MGA_1496;product=SMC-Scp complex subunit ScpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903489.1;translation=MKQELKNKLEAILFLSGEGLEIGDLAKFFGISKIAIKKILNEIKEEKKSSGLEVKFYGDTIVQLTTNFKYGETINNFFNPAQAPKKLTNAAMETLAIIAYNCPITKTEIENIRGVNVEKVLRTLEEKNLVRICGKKEAIGNPNLYEITEDFFGYVGIDKIEELPKYGEVKKWKK;locus_tag=LOCUS_14940;gene=scpB;note=WP_005903489.1 SMC-Scp complex subunit ScpB (Fusobacterium nucleatum) [pid:48.5%25%2C q_cov:96.0%25%2C s_cov:91.7%25%2C Eval:5.6e-39],MGA_1496
sequence1	MetaGeneAnnotator	CDS	1720691	1722415	.	-	0	ID=MGA_1497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFIYIGLFFITVISFAEPILVSTNGETTIKFDTRYKKIVSAENRSEIIEKNIGEIEIGYILNNKIYYLRDILKSTGYLQNTNIIKLFSMVKGIKIYTYIYTPKFENIRYIYIYNEFISDEMNKKVNIQSFYSIKKREDGAVINDNLNKEYIYNKIYYKSLLDNSNLYLATEKDFENFKLKKIYDQKEKKDIENMIIINSVGKLESYDKKNDGIAIKFGKIKDEMDNLNIDYIIDNEVDDWSYWNENSEIKDKMILQDIILLKAAQDKNGLILSNSKDDNIVIEKYLYEIEAFIVTGHYAEAKKSLKYILDKNLGMIYSYSYNIITKKLENRKSYHNFGVFLRVYSEYIDKSGDINFLKKYFRTIIGLIENRLFPEIKDGLLKDSYSNENYGFYAISQWLIYDGLEKFRNTIKFFAPKGLITKYETEMKLIKTTFNKTFFNRNYILDKLKSKSFNLRDIICIKNNFFNSNDVTKELLNFYTKNFKIKDENGFSKILGGSLEDFWIELDVLDVYYELGLLEMAENLKNRIDNFSKSNSNILPEYILHGGIKKYGDKGIDYGVIAKYIVVNYGR;locus_tag=LOCUS_14950;note=MGA_1497
sequence1	MetaGeneAnnotator	CDS	1722431	1723927	.	-	0	ID=MGA_1498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATKIDINMFLISLLIIVLIYFTFIIINIFIKSKLKTNRLRNPLILILIGVSTKIFFTFNILNVNMKVINSIIYSLILFSTIKILDYMFKEIYFVKLNNKVPKLMNDIATGIIYFVTFFMILKIELGIDLTPLLTTSAVLSMVIGLALQDTLTNFISGIVINLEKPFKIGDWVLVNEVEGKVVETNWRTTKILTFDNDFLIIPNGNIVKNSIINFYYPTTSHILNLYLGTSYNDPPNKVKKVILDVIKDIKGILLVPLPQIRLIKYNDFSVDYEVRIWISDYGNKKTIENSLMTHIWYAFRREGIKIPYPIRESYIHRAQDNIKYEVEIKKHDILKEIEFFNRMNDEILEKISNKLEKIVYGKNETIVKQGNKGDSFYIIYSGEVSVLIDTEKVAELKKGDFFGEMSLFTGKEITATVVALEDVELLKLNKESFSEIIKENKELAEMLSDIITKRELENEEKKIGNLKLGKKTEREKKRIADKKKKGIFDNIVKFFNL;locus_tag=LOCUS_14960;note=WP_011056673.1 mechanosensitive ion channel (Thermosynechococcus vestitus) [pid:26.3%25%2C q_cov:70.7%25%2C s_cov:63.8%25%2C Eval:4.4e-37%2C partial hit],MGA_1498
sequence1	MetaGeneAnnotator	CDS	1723917	1726175	.	-	0	ID=MGA_1499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVIKYIIFSIVIILSFALFFEKSIKKNITNLLLSQTKMFVEAKTPTLIKNINNRSILEFKENYNLSKVFYMENGKIKYSSLITEIGKKYKLKKIPEISREEFLKKGSWLKDKDKLLYYIPIESYGFLVININLKNEYQRYKKIENYILEMLIYSLIIVFMLVFLYYLYNFYHPMNELKKFIYRFRNPLENGAFDKKFPDKFNGDFNEVTSLFNTFLNKIYSKIDMIEADRKAMRRTYELMKLKNTQLLSLYEFANDLSFDIELEKIYVKIKEIMTGIMNSGVVIILLKDEKQELNVEYLYGVSKYENKIDKNSIEKIAEKYGKTIRVKDAYNDKRVDFSKMVKQDQEKLQEFTITPLSTNGEVIGFLIVDKIFNKKLKNIEEVTTLNSIGEITARAIKKALKYKEMNVGLNMASILYKITTLVETNEDLYEIFKMIIQSIKRVVDYSSAAIYLINSKNELEEVPEYREGEKDELLESIEFKLGKGMKAVVAQRKDTIIIRDVSKSTKGLQEMFKASNEHIASFASVPMLIENRLVGVINLTHDQANKFREEDKMILKLFANQAASTIEKIKKDRKIEKLLAKVTNESITDPLTQLYNRRYMMRRLGEEIARGKRENVAVSLIGIDIDFFKKFNDTYGHQIGDLVLKHVGIQIKKSLRVIDIPCRYGGEELFVILPNTNMQGAYKTAERIRYNIENMKLKHKNLILNVTVSVGVSIYPTNALDSESLIKTTDLALYKAKESGRNRVIVYGN;locus_tag=LOCUS_14970;note=WP_235044972.1 diguanylate cyclase (Geobacter sulfurreducens) [pid:31.0%25%2C q_cov:52.1%25%2C s_cov:56.2%25%2C Eval:4.8e-41%2C partial hit],MGA_1499
sequence1	MetaGeneAnnotator	CDS	1726214	1727260	.	-	0	ID=MGA_1500;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367094.1;translation=MKISINRLLGFFSEDIGVDLGTANTLFYVKHKGIVLNEPTVIAINNKNKSVCAVGNNAKKMIGKTPKNIDALRPLKDGVIADYEVTEKMLKEFFKIVSKKKLFTNPRVVICVPAGVTQVEKRAVMDVAKEAGSREVYLIEEPMAAAIGAGLDIFEPHGNMIVDIGGGTTEIAVISLGGVVQTHSLRVAGDKLDDAIVEYVKKKHNLLIGNKTAEDIKVNVATAEKDDKEIFYEVRGRNILSGLPRNIKVSSKEIGEAISDLVYRIVEEVHVILEKTPPELSADIYQKGLVLAGGGALIKNLDKKISQEIEIPVLVAENPLECVVTGIGKLLEDFEYYKGVLISPETDY;locus_tag=LOCUS_14980;note=WP_147367094.1 rod shape-determining protein (Fusobacterium canifelinum) [pid:55.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-116],MGA_1500
sequence1	MetaGeneAnnotator	CDS	1727277	1727855	.	-	0	ID=MGA_1501;product=nucleoside triphosphate pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903487.1;translation=MILASKSPRRKEILESFDMKLEIKTADIDESSNEIKPSKQVEEIAYKKAIKIANENKKSYVLAADTVVVFENNILGKPKDEKDAYDMLKKMSGKVHEVITGYVFLNLEKKIEIISHNRTKVYMRDFDEEKINWYIATKEPMDKAGAYGIQGKGNILIDKIDGDFFNVMGFPLSKFINDLEINGISLEEIKKL;locus_tag=LOCUS_14990;note=WP_005903487.1 nucleoside triphosphate pyrophosphatase (Fusobacterium nucleatum) [pid:46.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-43],MGA_1501
sequence1	MetaGeneAnnotator	CDS	1727874	1728245	.	-	0	ID=MGA_1502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSYIIGIFIFFIIIAIFQNRNKKNNIDEKGKILGVVYSKLTNKEVEGAKVRIGNIEGKEKGHIFKTEEESNVYFTNEKGEFEFNNLELKSYWIMVEYKGKKVLKMAKLSADNKNIDDMLLIV;locus_tag=LOCUS_15000;note=MGA_1502
sequence1	MetaGeneAnnotator	CDS	1728238	1730439	.	-	0	ID=MGA_1503;product=DNA translocase FtsK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003388321.1;translation=MSKNLRNELLGIFFLGIGGYIGYVLSMGNNSNEIGFVGKNFYNVFFLLLGVMTYAVPFIFFLYGIVFLLNRNLKMNKVKFYSFLIFFVLLSAILVLKGVSVDGTKKDIIKELLRVGGNSHSGGLFGAFISIFLFTLFGKTGAIIFLITFTVIDVFIFANKMIKSILFSFLYPFIKIKMILKRKKEEKIANLEKIKEKKLREKEEKNIKLSREKEKKIAEKLLKRENKRKKIDKDGNISIKYEEEEILSENIENKKQFELKEEENINKFEEKEIEKEDKIKKNELKDDNWELIFNTEKKSKLTKSEIEEQVKLKTDILEQVLTEYGIEAKVINYERGPVITRYELSIPRGIRVKKIVALSDDLAMNLEAKSIRIEAPIPGKNAVGIEIPNDTAEAVYFSKTLKSKEFKKSKSPVSVILGENIVGENVIVDLRKMPHLLIAGRTGSGKSVCINSLISSIISKSSHEEVKFIMVDPKMVELMPYNGIPHLLVPVIIEPKLAALALKWAVNNMEERYRLLSKTGVRNLEGYNKLKGVEKLPYIVIVIDELADLMMVAPASIEESIARIAQKARAIGIHLVVATQRPTTDVITGTIKANLPSRISFSVASQIDSRTILDTPGAEKLLGKGDMLFLESGSPNLVRIQGAFITDEEVNKLTDYLKSKNSPEYLEEIITESTDDTDELFTKAIEIIKNEGKVSISLIQRKLKVGYARAARIVDQLEDNGIINDKREILIDV;locus_tag=LOCUS_15010;note=WP_003388321.1 DNA translocase FtsK (Clostridium) [pid:41.8%25%2C q_cov:95.2%25%2C s_cov:92.9%25%2C Eval:2.5e-135],MGA_1503
sequence1	MetaGeneAnnotator	CDS	1730749	1731576	.	-	0	ID=MGA_1504;product=MEMO1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020650.1;translation=MKIRESVFAGKFYPDNKVDIDMLLDEIHKKEMKNIKIDLSKKDIIGGVVPHAGYIYSGYEAVHFFDIVGKSKRYDTIVIINPNHTGYGSELEADSNDKWKTPFGEVDVDIEFRDKLNINISDLGERYEHSGEVMVPYLQKYLDYDFKIVPICMGIQNFRNSSYLANELYKVKKELGREILIIASSDFTHFMTPKKGREMDQYVIDAIFEMDSLKIEREVRNRDISVCGFGLIMTLIEYSKLIGDEIKIELLKRGHSGEVIESDEVVDYVSMLFYM;locus_tag=LOCUS_15020;note=WP_011020650.1 MEMO1 family protein (Methanosarcina acetivorans) [pid:37.7%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:1.6e-44],MGA_1504
sequence1	MetaGeneAnnotator	CDS	1731840	1732703	.	-	0	ID=MGA_1505;product=AmmeMemoRadiSam system radical SAM enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393777.1;translation=MKEAKYYKKLSDNRVQCELCPHNCIIENGKRGLCRVRKNYNGILIAETYGLISAIHLDPIEKKPLYRFYPDTKIISIGTVGCNMRCEFCQNHEISQVGVDEIGLKKVSVNEIIEMVKNEKNSIGLAYTYNEPTIYFEFMLDLAKEVKKLGLKNVMVSNGFINKKPLSDLLEYIDAFNIDLKAFDNNFYSKITKSNIEPIKESLKLIKKSGKHLEITNLLIPTLNDNLGEFENMCKWISEELGRDTVLHITRYFSNYKMIIEPTGIELMRKCYDIAIKYLDFVYLGNV;locus_tag=LOCUS_15030;gene=amrS;note=WP_011393777.1 AmmeMemoRadiSam system radical SAM enzyme (Moorella thermoacetica) [pid:49.5%25%2C q_cov:99.3%25%2C s_cov:84.6%25%2C Eval:2.8e-79],MGA_1505
sequence1	MetaGeneAnnotator	CDS	1732756	1733283	.	-	0	ID=MGA_1506;product=AmmeMemoRadiSam system protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081947.1;translation=MYEAKSIYVKLAWETIKNYVANIKEEKIDKSEELKVKRSCFVTLHKKNGELRGCIGTILPVREDLYEEIRGNAISACSRDPRFMAVTEDELENLTVSVDVLTEPEIVKNIEELNPKIYGIILVDQFGRQGVLLPDLDGVDTIDEQISIVKQKAGMPFGTKIEDLTIYKFEAKRFF;locus_tag=LOCUS_15040;gene=amrA;note=WP_004081947.1 AmmeMemoRadiSam system protein A (Thermotoga) [pid:50.6%25%2C q_cov:95.4%25%2C s_cov:96.0%25%2C Eval:1.8e-37],MGA_1506
sequence1	MetaGeneAnnotator	CDS	1733414	1733653	.	-	0	ID=MGA_1507;product=YdbC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986552.1;translation=MAGIKFEIVDKLGLIGEGAKGWSKELNLISWNDRKAKADIRDWNETHEKMGKGVTLNKSELKELKKMLNEIDIDSLDMV;locus_tag=LOCUS_15050;note=WP_011986552.1 YdbC family protein (Clostridium botulinum) [pid:64.4%25%2C q_cov:92.4%25%2C s_cov:100.0%25%2C Eval:5.3e-23],MGA_1507
sequence1	MetaGeneAnnotator	CDS	1733671	1734669	.	-	0	ID=MGA_1508;product=virulence RhuM family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964264.1;translation=MQKLQQFILYTAENGKVKLEIFLEEETLWLSQKMMSELFEVEVNTINYHIKEIFKSGELDENSVIRKFRITASDGKNYNTSFYNLDMIIAVGYRVNSKRATQFRIWATSVLKEFIIKGFTIDDDRLKQGKKFFEKDYFRELLEKVRSIRASERRIYQQITDIFAECSIDYDPKSQTTKDFFATVQNKFHFAITGKTAGEIIYTKADKEQSYMGLTTWKNAPDGRILSSDVTIAKNYLTEDEIKKLERAISGFFDYIENIIERRNAFTMSEFAKSVIKFLEFNEYKILEGKGKISKEKADKKALEEYKEYNKKQPIESDFDKEVKKLFDLSKK;locus_tag=LOCUS_15060;note=WP_011964264.1 virulence RhuM family protein (Flavobacterium psychrophilum) [pid:64.7%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:2.4e-120],MGA_1508
sequence1	MetaGeneAnnotator	CDS	1734768	1735223	.	-	0	ID=MGA_1509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNSKEVFIKKYFENIETIDIAEASEENKSIVNYSEEYHLDGVKDEIKDIYNKIKTNLSLETNKIIYNPQRYYISLRKKRNFAYIKIRKSKIIIVVMLHIDEVKKRIKEHKIKELSEGIQKFYNGNCCQVLIESNKNLDEITSLLLEIQK;locus_tag=LOCUS_15070;note=MGA_1509
sequence1	MetaGeneAnnotator	CDS	1735452	1735604	.	-	0	ID=MGA_1510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLKEHKSFIEQINILESRGIIIENKDKMVKFLSNVNYYKFSNCLKFFE;locus_tag=LOCUS_15080;note=MGA_1510
sequence1	MetaGeneAnnotator	CDS	1735999	1736631	.	-	0	ID=MGA_1511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEKLTKSLEDLMLEDSFEKVIKKSFCSTFSLSFKPKTLLMLIILLFFIFLMTFIEVNSNKYILEIKEIVSHLNNISLYFITLVFTGYAIFQALLGENILKTLLVHSQNNTSKFKIYNYQFLGICIYILILLFFNFIIIFLLNNSMVVISLQSLNSKIKILIKIFFTTIYLIANIYLFFEMLLFFYNIYQAFSINAVQNGIDILKKSEK;locus_tag=LOCUS_15090;note=MGA_1511
sequence1	MetaGeneAnnotator	CDS	1736642	1737640	.	-	0	ID=MGA_1512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKGFKYYNVANFNCTFGEENEPMLNYFDTIIYPALKSELINKSGKNKYFAFKDIEIIKFGDEYALKGCFVKKTELEIKSDLRDGQLIEKNEIYSTAPFSLFIILLSNHRLILIKNQKGSPTIKNFETHTKGIIKKYIRQENKIRKKLEKDEEKEISLLPDISLNIVAFPSKEKLRKQLEELQKINRIELKIYPLNGEVIVNDIFNSFREEIEILKANSGNVSINSPKNYDEVANLVEGTKGTAKSKILGVDKSGQSAVVSEEEYKEELIIELPEHNSEVENTNLLIEKARLSKSEMRGLSKENKDIYENNLWRIERIFNNPAFLMMLNNR;locus_tag=LOCUS_15100;note=MGA_1512
sequence1	MetaGeneAnnotator	CDS	1737849	1738730	.	-	0	ID=MGA_1513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYECIVYKILIASPSDVSQEREELKNLIFNWNMINSTHYKIMFSPVMWEANVTPELGGRPQEIINEQIVNDCDILIGVFWTRLGTPTGVEESGTIEEINQFISSDKKTMIYFSNTPIVPSSIDSLQYEKLTNFKNYLYEQGVVDNFSSISEFKSKINNHLTLVAQNLSNTFENNIQTKFENNFDNNHYILKELKKNFNSFKIDWITEKDSGTYTIDDGKYILEQIQSELTYFLGKINIELPNKEELIKVITELKRIQNHQVYLGGSKSFNAFWVNGDKIISILTNQINQINL;locus_tag=LOCUS_15110;note=WP_011035595.1 hypothetical protein (Xanthomonas campestris) [pid:44.9%25%2C q_cov:57.0%25%2C s_cov:60.3%25%2C Eval:4.1e-41%2C partial hit],MGA_1513
sequence1	MetaGeneAnnotator	CDS	1738901	1739314	.	-	0	ID=MGA_1514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNQILSSLLAGGLAGQVVSLIANHRLQRRRDLNLWIRNEKYKNFSFFISLVSATNRDDYNTFPDEIRVASQKIHILYIDGVAPKNIEILMEKLFQYFLQRKLGRVNNLKKWRGEVRENVKLLRIEFSKELRKNFT;locus_tag=LOCUS_15120;note=MGA_1514
sequence1	MetaGeneAnnotator	CDS	1739451	1740941	.	-	0	ID=MGA_1515;product=PIN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000222795.1;translation=MKLENEINKFMEEDYIIILDSSVYLNIYEYSPEIGDFFINLLEKLKDKIMIPATVKREFSRNNQSALGRQKKKYKNIPKEFENKIKSSKEGINKQLLILERFKFPNINELKENIESKFNEIIFTLDEYVENHDIFQNISDDIFSEDKVKKFFVNMEDLNRYFPELSINELYKICEEGKTRYKKQVPPGFKDEKSKDGIDKYNDLIIWKECLKYAEKNNKNLIFVTDDVKEDWWENGKTFHKQLTKEFEDYTKRKIIGLNSEEFYINMSRILNLSIPDKVDVIFKFNLDDYINSLIESGDIQNIINEKLIYSGESYVNTSSLSNYDGSEFELSEEIDEINLLEYSFEGYEFGEANYKLKFQIKLDAFSRIYWGRDSDTKEVILSDNTITHHLKGYVDIEISREIELFSDDINENYEIRIDDIYIEMEEESFTDSADLCVECGKNEGIFFNSRGEPICNSCMNDDSNGFVCPACGLKKSREFDALNGFCTSCSEELDF;locus_tag=LOCUS_15130;note=WP_000222795.1 PIN domain-containing protein (Bacillus thuringiensis) [pid:25.5%25%2C q_cov:97.8%25%2C s_cov:96.8%25%2C Eval:8.8e-38],MGA_1515
sequence1	MetaGeneAnnotator	CDS	1741113	1741919	.	-	0	ID=MGA_1516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDLDVSNYFDTVKHHILLKKISEQISDKEVLYLIKLILKASGKAGVPQGGVISLLFANLYLNDIDKMLEKAKEVTKQKGKYYELDYARFADDLVVTVSSHSSMRRLLSKVIERLKEKFEKMGVTINKEKSRVVDLKKGGVINFLGFIIKRRRNKSGKWGILTIPQSKKRKGLLEKIKEVVRRHRTLGIFQILVNELNTTLREWVNYFSIGNSSKCFSYVRNYVEKKLRRYLMKQRGKKGYGWKRWSNDWLYNEIGLFDNYKVKYIPE;locus_tag=LOCUS_15140;note=WP_000561483.1 group II intron reverse transcriptase/maturase (Streptococcus) [pid:34.7%25%2C q_cov:95.1%25%2C s_cov:57.4%25%2C Eval:1.3e-38%2C partial hit],MGA_1516
sequence1	MetaGeneAnnotator	CDS	1742860	1744068	.	-	0	ID=MGA_1517;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003404919.1;translation=MEFIEIINFAIKSLNSNKIRSLLTMLGIIIGISSVIMISMIGKGSQQSITGNLIELADKKVTISVQSKDQILTKRDYITKDDIEQIKKLENVKAISPSMHTRMRVAITKKTRGFGGLSSSNEYVKDINSLNMIYGRSFIKGDIEKSKKYILVDDLYAMKKFGRLDVAGEEVELQFKKKNRSRFIIIGVFENQMKALMSSFGREYYQFYIPYTTFQKYVEDVQISSITILVNDVNKKDDTSGKIVDLLEKNHNKKDIYEVSAKFSQLDSFNKILTTLSLLLTSVAGISLFVGGIGIMNIMLVSVTERIKEIGIRKALGAKKIDILFQFVIEAIFLSVLGGIIGIILGILLSNIVGTFIGIKPIIDYFILILAIVVSCGIGVIFGTYPAKKASELNPIDALRYE;locus_tag=LOCUS_15150;note=WP_003404919.1 ABC transporter permease (Clostridium) [pid:37.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-65],MGA_1517
sequence1	MetaGeneAnnotator	CDS	1744224	1744898	.	-	0	ID=MGA_1518;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003404917.1;translation=MIKLKGIEKDYKMGDIILKALDRVSINIDKGEFVSIIGSSGSGKSTLMNILGCLDVPTKGDYYLDNEDVSKLNDNQLAIIRNKKIGFVFQSFNLLAKLNALENVELPMVYGGVHLKTRIKKAKEALEKVGLTDRMHHKPNELSGGQRQRVAIARAIVNNPKIILADEPTGNLDSKSEIEIMEIFKKLNNEGATIIMVTHEQEIAKNSKRIITVKDGLVIGDNKI;locus_tag=LOCUS_15160;note=WP_003404917.1 ABC transporter ATP-binding protein (Clostridium) [pid:58.9%25%2C q_cov:100.0%25%2C s_cov:97.0%25%2C Eval:1.2e-73],MGA_1518
sequence1	MetaGeneAnnotator	CDS	1744948	1746429	.	-	0	ID=MGA_1519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISIFVVILIILGSGYFYIQKNSKNSKNSSKIKDVVVEKAKKGDYLETIKVDGVVEVKNVVNVYLAQAETAKKIFVEVGDRVKKGDILVTFNPYDRNLVLRNIKRIELDIENEKAKLKEYNYEVNNTAVLKKEKSIEDLKDSITTNEENLRIKKLEKETLVAQLETKNKDYEVKKKLLEIGGISQLDVENLGNDIKSLEGNIEKKVTDIKENSKGIEQLKKDISLNEKEYNDLIKSYNLDTLKQKNSIIISKNNIEKLDLNLKDAKENLDRYILQITAPVDGVVTDVKIDENAKINTNQNIMTIEDMNSKIITANVISTEIKDVKVGQKANVTSESLKSNKKIVGVITKISEIAEKESGSGYTDIVVPIEIKFNDGENLKPNYEVNCEIITKQKKNALLVSAFAIQNEGNKAFLFTLKNGVAKKQYIKVIDKNDFVANIKGINEKERIIVNPSGLIDGERVNPVSHIRSKIKSKKRSSNKNSKNNFQGPPR;locus_tag=LOCUS_15170;note=WP_005898025.1 efflux RND transporter periplasmic adaptor subunit (Fusobacterium nucleatum) [pid:23.7%25%2C q_cov:62.7%25%2C s_cov:76.8%25%2C Eval:2.5e-16%2C partial hit],MGA_1519
sequence1	MetaGeneAnnotator	CDS	1746591	1747808	.	-	0	ID=MGA_1520;product=TolC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962668.1;translation=MKKLIILILILVITLFTYSKEVTYEILVNSAMKNNSTIKVKDLELKKISNNLKIINTDNFPTIKLSDRVNKDENREKLNYSNSISLDKKIFDGGLKKYNKKKENVNIQMKNIEISKEKKQIKYEILVNYLDILKYKNQKNIYENSLKELEKEQEKQKLLYKEKAGKKQDLLTIETEILDVKANMIKNNSNYLITIEELKRITGENEEIELKNIEYEKMYIDLEKDIENYKKSSDDIKNINLQNDINMLDKKIIKSKDYPVVSFNANYSSNSDELSKIFKDWDWSLGVSLSYDIFDGGKKKIEYENSDITGKINKMNSDEIIKENIIAIKKKYYELKNDELLIENQNKKIEGLEENYKIVKIQYEYGVEDINTFLKIKNDLENSKINLINLKLDYILKYAEYRMGL;locus_tag=LOCUS_15180;note=WP_011962668.1 TolC family protein (Flavobacterium psychrophilum) [pid:22.9%25%2C q_cov:91.4%25%2C s_cov:86.5%25%2C Eval:1.5e-08],MGA_1520
sequence1	MetaGeneAnnotator	CDS	1747886	1748353	.	-	0	ID=MGA_1521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSLVVLIGVLLSAFSFSAGLENIPKDVFIKAGVSEANIEKALDLSKLAKIEIEKNQIEAKKVDLDIKYLLLDETKDWVKIENLMKKSSGYRIKAKIKILKVKEELKKYITEAQFKMIFREMRQRNDKRMKFQKKRKGNRPKRGNEPKRVKRAY;locus_tag=LOCUS_15190;note=MGA_1521
sequence1	MetaGeneAnnotator	CDS	1748422	1748697	.	-	0	ID=MGA_1522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRKDRIKINIYKELLEEEKAKNRLYKRGIVSMLLFLVVTVGYFGNNFRTNIEGKNLAYVATLYQENVNLEDTVNVNLGTKQSIYDDLLGL;locus_tag=LOCUS_15200;note=MGA_1522
sequence1	MetaGeneAnnotator	CDS	1748690	1749151	.	-	0	ID=MGA_1523;product=RNA polymerase sigma factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902394.1;translation=MKYNFDDIYDEYFDRIFNKVYSMVNNEKDAEDIVQNAFISVYKNLKKFNKKSNIYTWIYKIAINKTYDFFRKKKEEFELKDNHICDDVEIIDDLIFINKKIDELDEENKKIVVLHTIYGYKFREIGKLLKMKLSTVKAKYYKALNLMGGEING;locus_tag=LOCUS_15210;note=WP_005902394.1 RNA polymerase sigma factor (Fusobacterium) [pid:56.8%25%2C q_cov:95.4%25%2C s_cov:98.7%25%2C Eval:4.0e-42],MGA_1523
sequence1	MetaGeneAnnotator	CDS	1749357	1750688	.	-	0	ID=MGA_1524;product=DUF4139 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943931.1;translation=MKRILILLMIISNMAFAEYSSTSKDIQENSLTIYNGGFGLVREIRDSSNISNSEKIINYLDVAQKIEPDSIIVNGVNILSLNYEYDLVSMNKLLEKYIGEDVIYTKNKSKINCTLLSVKGGIVLKDKKSGEIYLGVGVDKIILPKMIEGLRLKPALIWDIEEGTSSNELEVSYLTKGIKWEANYVINLENKRLNLIGWVNINNNSGKDYKNTKLKLIAGDVNRANNNEGLFLMKRSMLASNSPKDNFKEKSFFDYHMYTLNRNLNVKNNQSKQIKFISGNNIKYKKYYSYSNTNKETKVIVSFENSKNNGLGIAFPKGKIKIYKKDLEDNSSEFVGEDRINHTPKDENIKVVAGKVFDVKVEYKEINYKKISKRIYEKTIKYTIKNHKNEKIKINIEHSLYGDWEMLNSNTKYVKDSIKKIIFPIDINRDSTYVLKFTYRVKR;locus_tag=LOCUS_15220;note=WP_010943931.1 DUF4139 domain-containing protein (Geobacter sulfurreducens) [pid:35.0%25%2C q_cov:99.3%25%2C s_cov:98.5%25%2C Eval:9.9e-70],MGA_1524
sequence1	MetaGeneAnnotator	CDS	1750739	1751362	.	-	0	ID=MGA_1525;product=manganese efflux pump MntP family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023653.1;translation=MNFIDVNIIKNVPNYKCDLERIMIMSLVSILLIAIGLAMDAFAVSISSGIAIKNLKIGHSIKIGSFFGVFQAIMPILGWLAGNSFVKYAGKYSRWVAFLLLLFIGGKMIYESFVIEESEAKKDVLSMINLLLLAIATSIDALAVGVTFSLLKIDVMEPSVIIGIVTFFISVIGVYLGNKLGDLFGNKIEIIGGIILIGIGVKILVVG;locus_tag=LOCUS_15230;note=WP_011023653.1 manganese efflux pump MntP family protein (Methanosarcina acetivorans) [pid:48.8%25%2C q_cov:77.3%25%2C s_cov:85.5%25%2C Eval:9.0e-38],MGA_1525
sequence1	MetaGeneAnnotator	CDS	1751386	1752099	.	-	0	ID=MGA_1526;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014518847.1;translation=MKIIEMKEKKKIDKIKNHFEEEAKEFDGIILKLIPFYKEMLEALILSIPFEKNSEIEVIDLGCGTGNILDKVKKQFPNAKLTAVDLSKNMIEMTKIKLEKYNDVDYYVGDFYNFEFLKKYDVILSSLALHHLVTDEDKKIFYNKIYNALSQNGVFYNADVVLGSNYKVQDVYMNKWIEFMKKSCSIDEIENIWLEKYQEEDSPTTLINHLNWLEEIGFKDIDVIWKYYNYSVYGGKK;locus_tag=LOCUS_15240;note=WP_014518847.1 class I SAM-dependent methyltransferase (Clostridium) [pid:27.1%25%2C q_cov:95.4%25%2C s_cov:99.1%25%2C Eval:7.3e-16],MGA_1526
sequence1	MetaGeneAnnotator	CDS	1752086	1753075	.	-	0	ID=MGA_1527;product=RhuM family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011070741.1;translation=MENKEVMFYKTDDGDISIDVNLKEETVWLSLNQISDLFERDKSVISRHIRNIYNSEELMRDSTVAFFATVQSEGGREVKREIEYFNLDLIISVGYRVNSKRGTQFRIWATNLLKQHLINGYTINEKRLKEQNQKLKDLQTTMKILNRTIENQKIELGEAKGLLKVISEYTYALTILDEYDHQILQIGKTTKKEAYILRYEEAMKVIESMKSEFPSDLFGNEKDDSFKGSLGAIYQTAFGEEVYPSIEEKASNLLYFVVKNHSFSDGNKRIAAAIFIYFMRINNIIYKEDGSKRIADNALVAITLMIAESRPQEKDIIVKVLVNLINEDN;locus_tag=LOCUS_15250;gene=rhuM;note=WP_011070741.1 RhuM family protein (Shewanella oneidensis) [pid:36.9%25%2C q_cov:95.7%25%2C s_cov:94.6%25%2C Eval:3.6e-60],MGA_1527
sequence1	MetaGeneAnnotator	CDS	1753101	1754786	.	-	0	ID=MGA_1528;product=ABC-ATPase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011082593.1;translation=MKRLNTKLREIDGKGYRAYKDIKGRYNFNDYILEIIKVQGDPFASPSLLKVEIDLKKYGYNSEMYSNISKKVAFEDYVSRVFEKAIWKEAKGKRGTGKSGAIFIYRNGQEILKRSSVEIENDILQIRFYMGLPAAGRRVLSKEAKEMIFVELPNVVKYLKKEKVGYENLTKHIKVNERSDYIREEIKKRKLVAFIANESILPRESGVSEKPLKNAIKFMSPKEFEIELELQNGDKIKGMGIKEGITIITGGGFHGKSTLLDAIEKGIYNHIPNDGREMVITNYNAVKIRAEDGRGISGVDITPFINNLPYGKSTENFYTENASGSTSQAANIIESMELGAELLLIDEDTSATNFMMRDVKIQEIIKKEKEPITPFVERIQAMYEKSGISTIVVVGGLGDYFDIADTVLMLDEYKVKDITKEAKAVIEKYKDYSITKEILDEEVKVRNRYLDIKNIGKIIEKKDKIKSRDLDEIIIGTEEVDLRYLEQLVEKGQVEFIGNVIKYIINKNSGKLLLKDILQKIEEEINSQNITKFLKYESGNMVFARRFEIGATINRIRKRIF;locus_tag=LOCUS_15260;note=WP_011082593.1 ABC-ATPase domain-containing protein (Staphylococcus epidermidis) [pid:41.1%25%2C q_cov:98.9%25%2C s_cov:97.7%25%2C Eval:1.5e-113],MGA_1528
sequence1	MetaGeneAnnotator	CDS	1754783	1755085	.	-	0	ID=MGA_1529;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_018306389.1;translation=MKEEIITKMFKALGHPLRYKIVKLLSEEPKCVCEIEPELDFSKPNLSQHLKILKEAGIIIGKKRGLNIYYRIKNSEMKRIIKLGENFYAEYIKDLKGEEE;locus_tag=LOCUS_15270;note=WP_018306389.1 metalloregulator ArsR/SmtB family transcription factor (Desulfitobacterium hafniense) [pid:41.7%25%2C q_cov:96.0%25%2C s_cov:90.6%25%2C Eval:5.6e-17],MGA_1529
sequence1	MetaGeneAnnotator	CDS	1755103	1757373	.	-	0	ID=MGA_1530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNGKRSKKFMLFFLLFLVFSFLLRWHATIKLGIDFDENVYVPIAKKYADYLKLGDFYKIITFKENIEHPILIKLIYGIGIYLASLFGMDVTTFIAQINISRIISVLFSVAHLALIYLINPIAGIFMAVSTWQIKYSAEAMLDSGATFFATLAILAFIKMNGKKFDKYFLISAMAIGMAFASKYITATTAITILPFLFIKTKKNRKLFFIYGIVAFATFFIFDPILWTDTFHRLKESILFHKNYSTGEFVKKAGFPFYMQMIWLLQSVPWKPFNAFFIRIDSLIFIGAVFGAKALYKKNRILGTWFFVNAIFLIIYPTKWPQYTLIFIPVMSIAAAEFYSKLYIKLKELYIEKIEDNIENKSGRKWLYVIIFGWSVILYSIYNIIISVMKAQNMVKSENSVMPFIFIMLGLAVVFIGTVKLIKFMTKEKIEKYKKASLAYKFIFPAILGTIILTLFPVILSIYLSFTDYSLETGYANFNFIELGNYMWILLNKDSIFWNVAFMTLWWSIWNILFGLGLGLGLALILNKKTLRFRRFYISILMITWAIPSYITAYMWKIILNKKYGIFNMILAPFLSIFGIGKVDWLNRSFIKVDDVIKIPILRDIIGTVFATQGYFVSLPFFSATVVNIWLSFPFLMIVSLSGLKSISDEYYEASSIDGATKWQQFRHITLPLLKPVIMPGVILSIIWTFNQFNVINILRSRKSNMTILMELNYWPFREGWYGYAAAFSIIVFIILMFYVKIVMRFFKEENYKKI;locus_tag=LOCUS_15280;note=WP_012256399.1 sugar ABC transporter permease (Chloroflexus aurantiacus) [pid:28.8%25%2C q_cov:40.6%25%2C s_cov:89.1%25%2C Eval:2.9e-38%2C partial hit],MGA_1530
sequence1	MetaGeneAnnotator	CDS	1757402	1758109	.	-	0	ID=MGA_1531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAELFGKDRTVITRHINNIFKEGELDKNSVSANFAHTASDRKVYDTLYYNLDVIISVGYRVKSKRGTQFRIWATNLLKQHLIKGYTINEKRLKEQNQKLLDLQSTIRILERTVETKKVDLEEAKGLLKVISDYTYALTILDEYDHQEVKMRDTSKKEAYLLNYEEAMNVIESMKNEFTTDLFGNGKDESFKSSLGAIYQTAFGEEVYPSIEEKAANLLYFIVKNHSFSDGNKIFI;locus_tag=LOCUS_15290;note=WP_011070741.1 RhuM family protein (Shewanella oneidensis) [pid:44.4%25%2C q_cov:97.4%25%2C s_cov:69.6%25%2C Eval:8.1e-52%2C partial hit],internal stop codon at [1758143:1758145](-),MGA_1531
sequence1	MetaGeneAnnotator	CDS	1758483	1760438	.	-	0	ID=MGA_1532;product=glycoside hydrolase family 15 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980092.1;translation=MAREIVLGNENLILTYDSNLCIRDIYFPHIGEENHLEEDKNRIGFWVDGKFSWVDEEWEKNIKYMKDSLVSDIVASTEYLNIKIREKSTVHYKKNIFLRKIEVENLNKEDKEIMVFFHHNLKLYGKNKNNTGLYDPITKGIIQYKKRRYFIFNGMVDGQSMYEYNIENITLGEGYNYKDAEDGKLEMNSIAQGRINSLFSLKTFIKANSKKTFYYWIGAGKNFEDMRELNNFVLSRGIENLIEETDNFWKNFINKRELDFSNLDYKFKDLFKKSIMVIKSHINENGALISSVDYEHVQFNRDTYNYIWPREAALGAMALDEAGYTEVSRRIFKFLTSVITKGGFFWNKYHSNGSMASSSHSWIVKGELQLPIQEDHTSMLLIALYKHYKISKDMKFIEDIYDDLIEPSLNFLVEYINEGTKMPFSSYDIWEEKKGIHFYTIASIYEALVVSKEFIEIFDRDGLREKIDKSINYLDNLFEKFWIEKEKRFVTTITENGDREDKKDIKYDSSMLLTLLFDNFYDKYKERLLLTSEKTVDKLWIKSEIGGMARFNNDRYHQLTRDIKNIPGNPWVYTTLLAGFYYLKIDNFEKVKEILEWAEDKTLDSGILAEQVHPHTGESISIAPYILSHSMYILLVNEYVKKTGKKLIGNV;locus_tag=LOCUS_15300;note=WP_010980092.1 glycoside hydrolase family 15 protein (Sulfurisphaera tokodaii) [pid:33.9%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:8.9e-97],MGA_1532
sequence1	MetaGeneAnnotator	CDS	1760487	1761818	.	-	0	ID=MGA_1533;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003226923.1;translation=MSQEKQIPFNLEAEESIIGGILIKPDALSKVVDIIAPDDFYKGAHRIIYDEMLKFYEKGEVIDSLLLAERLKKQDKLEQIGGEETLYTLAEAVPTAANIFNYAKIVKEKSTLRKIINVGTKIVEIAYEGYEEVDQILDKSENMIFKIAQNKENKEVVSVKDLVDEEFKRLETVYANKGEVTGISSGFTEFDRMLSGFHPSDLIIIAARPSMGKTAFALNLALNAGVHEDKGVLIFSLEMSNSQIFQRLIAADARVQLNKIRNGFLQPEEWQKLGISTGRLAESPIYIADVPNVTVMEIRTIARRLKAENKLDMILIDYLQLISGRSGGGESRQQEISEISRSLKGLARELDVPVIALSQLSRAPEQRSDRRPMLSDLRDSGAIEQDADAVIFLYRDDYYNEDSELKGIAEIIIGKQRNGPVGTVHLRFFNEITKFENYTMREE;locus_tag=LOCUS_15310;gene=dnaB;EC_number=3.6.4.12;note=WP_003226923.1 replicative DNA helicase (Bacillus) [pid:50.0%25%2C q_cov:98.0%25%2C s_cov:95.6%25%2C Eval:2.3e-119],MGA_1533
sequence1	MetaGeneAnnotator	CDS	1761875	1763788	.	-	0	ID=MGA_1534;product=Lon family ATP-dependent protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048441.1;translation=MENFFNKIGVKNLLKKNGKDFNKNFYEKQVTILYGMLGNIYGSKEMVLKASQLGVLQELQSEEIYKKLYALLVVANGKKDNVEMIYEEDEIPEYISEIENKIAEILSYKTVEAEINKKVNELMEKKHTEFIKEMKKKILSDESGPETEFTENKYNNLEKLENRYNLKTIMEILRPKDISEIIGQEKAIKSLLTKLATPYPQHVILYGPPGVGKTTAARLVLDIVKNIKYTPFSEESPFIEVDGTTLRWDPRDMANPLIGSVHDPIYQGAQKDFAGDGIPEPKPGLVTDAHGGVLFIDEIGEMDAQYQSKLLKVLEDKRVNFESAYYDSENPKIPKYIKKLFKDGAPADFVLIGATTRTPNEINPAIRSRVAEVYFQPLTMKNIENIVEIAAKKLDIKISEDAKKLIANYTIEGRKAINILSDVYSSILYSLKDEDEVTNIKIEKIDVENVIKINRLNPIISKKGDDSQKVGRVFGLGVSSYMGSLIEFEGIKFEAEKGKGNVRFNETAGSMAKDSLFNALTVARAITKKDVKNYDIHINIIGGGKVDGPSAGAAITALIVSILDDRPIRQDVALTGEISIQGEIKPIGGVVEKIYGAIQGNMKKVLIPYENRKDVPKDVEIEVVIVKSIDDVIRELM;locus_tag=LOCUS_15320;gene=lonC;note=WP_012048441.1 Lon family ATP-dependent protease (Clostridium botulinum) [pid:52.2%25%2C q_cov:97.8%25%2C s_cov:97.8%25%2C Eval:2.6e-186],MGA_1534
sequence1	MetaGeneAnnotator	CDS	1763793	1764242	.	-	0	ID=MGA_1535;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048442.1;translation=MEVILKADIKGVGKKGEIKKVKEGYFRNFLAPKQLAIEATKEEKNKLGKAAEKESKKKAKEVEKAKKLAETINGKGLQIKVRTGKDGKIFGSITSKDIEKALKENLKFEIDKKKIKLEKEHIKSVGKYSAELKLYAGVKAKIIIDIIGE;locus_tag=LOCUS_15330;gene=rplI;note=WP_012048442.1 50S ribosomal protein L9 (Clostridium botulinum) [pid:38.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-24],MGA_1535
sequence1	MetaGeneAnnotator	CDS	1764278	1765108	.	-	0	ID=MGA_1536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRFIITKFIFIILSMIFPAFGGVVPGYSIKNRNGINKKNMILSEIIIFALVALIFDLKIAIFVYSIFLSIELLYYLLEKSKIKKIDKIIIISFALLGLLYIFFYFNQKDIINAVELAKKTYISFGISKVAVNEVFAYMSLYGFFIAYFYLFFVVFITYYMLDYKEFKEWKISYYILLGYVVAFIIKYIFKVENIYINNFIMIIKLGYVIYGSKEIYYLLVEKLKSKILSNLLVVMITMFLYSITFYIGGFFSLIDMDSFKKKIINKKDNNKNKEK;locus_tag=LOCUS_15340;note=MGA_1536
sequence1	MetaGeneAnnotator	CDS	1765101	1765556	.	-	0	ID=MGA_1537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLIEKLKNEDIDTNQLGILSEIGEKLTNGGKISKELELEILQLFESENDFVRIKCTEISEFSKADEIIDKLIERLKNDSNYFVRGFSAKALGAIGNLRVKDSLEEALDDKEGFVVSFAMQALKNINLKSAFSSKLNMLKSKLKAGSKNG;locus_tag=LOCUS_15350;note=MGA_1537
sequence1	MetaGeneAnnotator	CDS	1765567	1766652	.	-	0	ID=MGA_1538;product=M20/M25/M40 family metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459517.1;translation=MKSDLRKKENTIIQNIIDLSKLKNEKVNEIEKAVFLQKLLYSYGIENVKIDVAGNVVAKIIGENQDEAIVISTNLDSVKDVGKIKLTGKELIGVGVGDNLLGVISLAILGEYLSKEKLKHTIYLVGTVNGNSDFSGMKFLLEKEISESIKGVININGLWLGRIHSTTVGLKRSKILFKGIRKHIWRNVVSSSVVDALGNFILKIKNEDFGENSVVNIAGIETGIHYNTVPENLEIKIEIRSNSEEEFQAALNIVKSIILGVGQEENIKVKIKDEVFRKIQKVEENNIEKIFIDVAKERKINIYTGPTNSEIAIPLEKGIEAVTVGIANGGKRYSKNEYIEINSIYTGIEYIFNSIIKYDKS;locus_tag=LOCUS_15360;note=WP_011459517.1 M20/M25/M40 family metallo-hydrolase (Desulfitobacterium hafniense) [pid:23.7%25%2C q_cov:95.6%25%2C s_cov:93.6%25%2C Eval:1.1e-07],MGA_1538
sequence1	MetaGeneAnnotator	CDS	1766657	1768390	.	-	0	ID=MGA_1539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLVSILFLCISAILFIGVILLKIKVEKLKLNIDNLQEKNINFIKLLEEEKKEIENVELESTDKNFKFIAINQMIKTLVREKDLETLERIIADMLFEVESIEKGAFFRIENEKLKLIVDKGFDVKKDDIKILNNGEFIKKLLSSNLIKNIEILDVEELKENIDFTNSESGYTIAFKGLDDDSGNQILRYVMVLGEKKFGEYSETDIEFLETISGQIEIVLENAIKSNYIEKKNVELTEKIYDLMTINYATKMIFSTLNLDEILKNSIDMFAEVAGTTQAAIAYFDQDTKELEIKNIRGDINENLIGEKIVLDKEDIEFVKENEEIFIITNLKKSDNGILKFYRKHKEFFKKINIEVLVPLIAKNNFFGFIFLGMKYAEKGYSENNVEVYNTLASQISVSVANSNLYNLAITDGMTKLYIHRYFRQRLTEEIERGRRYKKKLSILMTDIDHFKIFNDTYGHQAGDEVLKAVARVMMKKTRKVDIVARYGGEEFVVILPETDRGGAIQAAENIRKEIEKLEIVYNGEILKVNMSLGVYTFDFGNETLSDEEFIKRSDIALYYSKENGRNRVTHYDNIKE;locus_tag=LOCUS_15370;note=WP_000623742.1 sensor domain-containing diguanylate cyclase (Leptospira) [pid:33.9%25%2C q_cov:58.4%25%2C s_cov:95.5%25%2C Eval:1.4e-45%2C partial hit],MGA_1539
sequence1	MetaGeneAnnotator	CDS	1768424	1770097	.	-	0	ID=MGA_1540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAYDEMLYLENLSKNITKAQKIEMIENLGKLKSRKAISELTRIARNEMEDEKIRAKAILSLTEIGDLNFVKNFFPLVEQEDKEILEMILIAIRELNIYYAIPELEKFFKSKDNNIKKEVIETLAKFNTLESVKVLLKIYSNGDNFIKSEIRYYLKESESFESFLNDSDELTLLNFITLIPKEKAEILLRKKIETTEDEELLILIVKSIGELKLKNILEILEKIYKSTESKKLKSIIIENIAKISDKGKIEFLFSVLDSADRDLKAKAILALESNKTNKAVINKLVDVMKNRDEWWMNRKLAIITLEHIDNKEYFEALIEMIKEEDDNRILRNVISALGDARKKIAIPYIEGYINNSNLELKKVVIIALSKLGDEKVLGMLVEDRSLIETLFPESIKAILNFKDERVEEVILGILKSRQEKVLDVILGEIADRESREIKDELLKIALDKLVSREIRAKTLMILSSYKSELLDNGIDVILSDIEEWWMIKKIALLIIGEQKMYKKYSTIIKYANDIDKRMSNTARQVAKDFYKYYFLEELSKENSSMLEIAKDIAELI;locus_tag=LOCUS_15380;note=MGA_1540
sequence1	MetaGeneAnnotator	CDS	1770339	1771811	.	-	0	ID=MGA_1541;product=DNA polymerase III subunit gamma/tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903025.1;translation=MYLTLYRKYRPKKFEEVYGEDVIVRTIRNSLKENRISHAYLFTGPRGTGKTTLARLIAKGLNCKENGITDNPCNKCENCLGIDNGSFMDLIEIDAASNRGIDEIRALKDKINYQPTEGRKKVYIIDEVHMLTKEAFNALLKTLEEPPSHVVFILATTEPDKVLDTIISRCQRYDFRPVNFNNISERLKYIAVQEGIVIDDESLKLIYNKSEGSVRDSISIFEKVLSSCYGEEITKEKTEKALGVIPQELLSELESIFADKDLEKGVNFLNNIWEKGIDCEKIFKDFAYYLQEKLLNKNGKIELTRAVKLIESIFDITSKFRYEEDKRLLGYLILYKALEEESKPKIIEKVVERIVEVAPNNIEKNNNSEFIEESSEINLNLDINVIKSGWKNILNKCKNRKISLVAFLNMAKPTKVVKNIVYITFPEENSYHKISMEKNENYRILVDILEELYGKGIKVKFDINENRKKKENKEDVVKGIVDFFDGEIIS;locus_tag=LOCUS_15390;gene=dnaX;EC_number=2.7.7.7;note=WP_005903025.1 DNA polymerase III subunit gamma/tau (Fusobacterium nucleatum) [pid:43.6%25%2C q_cov:99.4%25%2C s_cov:99.8%25%2C Eval:1.9e-114],MGA_1541
sequence1	MetaGeneAnnotator	CDS	1771822	1773228	.	-	0	ID=MGA_1542;product=sigma-54 dependent transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015857.1;translation=MKVLGIEIEDKERDILTRLFIENGDSIDYEDGGLLVNKEFKKKKYNIVVIDSDKFEYDELMILVKEISSIDKKIVVLVIGENSTLQMIAGVIKNGAYDYILKPLEGVEILTVSEKALKDQKIKAEKFTPRIFFGEEDEIIGTTKRMIEIFKLIGKVASSNVSVLITGESGTGKELIAKAIHEFSDRKDDKFVAVNCTAIPSTLMESEFFGYEKGAFTGAIARKIGKFELANEGTLFLDEVGDMELDIQAKLLRVLQENEFVRVGGTETISVDVRIVVATNKSLEDMITDGKFRDDLYHRLKVVEIELPPLRERKDDIPILIEHFVKVFNGELNKNIKGVSKLAMKKIMSYDWPGNIRELKNSIKSGMAVCRGDSILPEDLPGDVTGAKISKRHGDIQDWILADWIEGELSILSQNKEKNYYNSIISRVERELIRQLLESTNGKKVDTAELLGITRNTLRSKMNAYGLE;locus_tag=LOCUS_15400;note=WP_011015857.1 sigma-54 dependent transcriptional regulator (Fusobacterium nucleatum) [pid:48.5%25%2C q_cov:91.5%25%2C s_cov:92.0%25%2C Eval:1.8e-114],MGA_1542
sequence1	MetaGeneAnnotator	CDS	1773234	1774133	.	-	0	ID=MGA_1543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNDNKIFIFAIVISILIHNLLFLIPINFKTNYEEKIVERKKIKANFVKLYSTKTKAVKTKKAKVRKKIKVKKQGKKLKKKITKPKVVEFKKIDYKNLIEKIDVPVKKNRNLGKIIDIPINKTTKNPSIEHISKIENIKAEKKEELKILEPNLDIQNSKIEEFTPKIKDESIITENEVIPVKGEIQEGGLSSTEIPQGITIDEVVDGVGKAEILKYVKPKYPLVAEKNGWEGKVTLILNVSAEGRVKEIRIKKKSSYTILDKSAVDAGKNWRLIIQDKGVKLSGSVIVTINFRLIKGR;locus_tag=LOCUS_15410;note=MGA_1543
sequence1	MetaGeneAnnotator	CDS	1774142	1774555	.	-	0	ID=MGA_1544;product=biopolymer transporter ExbD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_021779456.1;translation=MKFRPKYRRENKDMFLELTPLIDVVFLLLIFFMVSTTFTDINTGINITLPESAVKELPQEREVIVSITKQKNIYINRKKVSNENFENKLSDKLKELKKYNVIIKADKSLSYGIIVEIMSKAKDAGALELDIATDEKE;locus_tag=LOCUS_15420;note=WP_021779456.1 biopolymer transporter ExbD (Fusobacterium nucleatum) [pid:41.3%25%2C q_cov:97.1%25%2C s_cov:96.6%25%2C Eval:2.6e-17],MGA_1544
sequence1	MetaGeneAnnotator	CDS	1774565	1775164	.	-	0	ID=MGA_1545;product=MotA/TolQ/ExbB proton channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894436.1;translation=MRELFAQGGPLMYGILLLSIAGLTVIIERLYYFIVVERANYEELKENIKNYLERKDIDGAINYCRGYNNSVARILETILENSDSNRDVLEEEIRETILERIPFLERYMWILGMAANVTPLVGLLGTVTGMIKAFNVISNQGIGKPEMLAGGISQALITTAAGLTVAIPALIMYNYFNKKIDSLTNEMEKTAVEFLNILG;locus_tag=LOCUS_15430;note=WP_005894436.1 MotA/TolQ/ExbB proton channel family protein (Fusobacterium nucleatum) [pid:45.2%25%2C q_cov:97.5%25%2C s_cov:97.5%25%2C Eval:4.0e-40],MGA_1545
sequence1	MetaGeneAnnotator	CDS	1775233	1776897	.	-	0	ID=MGA_1546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLLISIIGFFLLINLVFSEENYNLGEKDVVGKDKRDYKEELDLKSNKIKIKDEKLQIKLKDEKLKFLKSLNIKNIKIKNDVSESELKYNIYVYNTPKVIMKSEDKKSKNYDNYITFGLGGYKGIDAFKYIIDYTNDDKEKDLTYFLHLGREIKGEDRRNDNESTDNYFVKLWHKNMNLALSHIIINQNFPGKDNATAKVDTFKEEKKSEINFNSDVIIKKSENLNIGLDAFFNQTKSVTAPIREYNNRYYNVYGKYIKLLKEDFMEFNLEYFSDGLDDFNLNSIRVKGNDKLKLKKYGDINLDLGVALEVANVDGVGEQNYKLKVSGDKSLSDIFSVNFNIMKNSLREVNKDILSGFEFGNDVLPYSSLENEDIFKTGFGSKYGNEKLNVEAGIIYNFVKNKIIYAEEDSKIANEIPISVINSKKNLNWWNLTLNSNYKYNNYLRGDVSYTYSNLENISFNPSNRVVLNVVYEKNNLKSRLEGKFYSKMYGKEDEKSYIGLYKTLNLYNVYRFSESMDISLNILNLFNYSENKKSNYPVDSRKIMLEFKMNY;locus_tag=LOCUS_15440;note=MGA_1546
sequence1	MetaGeneAnnotator	CDS	1776894	1779716	.	-	0	ID=MGA_1547;product=tetratricopeptide repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015862.1;translation=MKKMVIALLLGTSLTTFANDIDDMDYIYKLYQNKMNKEAILELNKFVNRYSNSKLYDSALNLLGYNYYIVGDYKKSEEIFLQLLNTNYKEEAYYYLMNIYIKWDNKELATFYYEKIHNDSKLKSKSMFLMGNFMYSLGSLKEAETYYSRAIKYSDKYYNNSLLNLGLTYFGEKEYIKTAAVLEEYISEVRIKDDNLAKAYFFLGLANEKLKDYESAIKYYKNIELEFRNSEYYVQSIYSLEKLSYALDKDTEILIYAKKLENTKLEKDGLILLSEMYYNSKKYKESAKYYNKIFQKYKDIGAGYKLILSYLKLKDYDNALININILKNTKYNNEYYYYSIYIYYNKKEYKEILNLEKEIKKEEYKINKDYKKDIFNMIAEAAYNLKNYEMAKQYYAKLNTPNAIYRLITIAYIQEDVEEMETLFEDYKKNYDKDITKKLDIYSLMGNLYAEQSENKKAEILYKEFLKKEKNEIIINNLITVLFDERKYEQALIYIKDIKNENKKSWLNAVTFMALHNYKPAAIELKKLILKDNKYTKRAYLKLIEVLFNENKFEESIKYCDMYTKKYNDNEVYIIKKKGSSYFKLKDYSKAIEIYEKLKGYKDEKPFAFFMLAEIYYNSENYQLAEKNYEYIVLNYPNSKYSKESLYWLTSLMYSDKRYKEALSYGKLFIKKYSKDKAYLEDVLFYIGNIYIENGDVSGAEAEFSKLLNVTNKEEVKINLIDILVRSYYKNGEYEKALKWLEKLKDSSFKSIWLGVIYEKQGNKEKALKEYQKVTKDVKNADKGFFYMGSFYLNNKQYNVARVYFNKVLDYRISEYKDKSIFKIGISFEEEGNYKAAITAFLRIKLVYSNSSLQDIATLKTAENYEKSGNLDRALKFYQEFYDNYKNSKYINVVVERLLINSLKNKDLKKAKKYYDELIKNMPQKKNEYKKFFETGGANK;locus_tag=LOCUS_15450;note=WP_011015862.1 tetratricopeptide repeat protein (Fusobacterium nucleatum) [pid:23.6%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:1.7e-75],MGA_1547
sequence1	MetaGeneAnnotator	CDS	1779723	1780262	.	-	0	ID=MGA_1548;product=DUF116 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903018.1;translation=MKLIYYRIVSTLWIFLILIFRKIKDDDYNNSLLAKKFMKFNNKFAINRLKKKKIPTEKIAILLPHCLQDDNCLFKITSDISNCKKCGKCKIGEIVKLKEKYDIKVKVATGGTLARLFIKKTRPKFIIAVACERDLITGIYDSFPLNVYGIFNERINGPCYNTNVNVNEIEEVLKKVSRG;locus_tag=LOCUS_15460;note=WP_005903018.1 DUF116 domain-containing protein (Fusobacterium nucleatum) [pid:41.0%25%2C q_cov:98.9%25%2C s_cov:99.4%25%2C Eval:4.8e-36],MGA_1548
sequence1	MetaGeneAnnotator	CDS	1780279	1780893	.	-	0	ID=MGA_1549;product=uridine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986880.1;translation=MSKTILIGVAGGTGSGKTTVARNILEVFNRGEAELIEQDLYYKDLKSVPFEKRLENNFDHPNSIDFELLIEHLNALKDGKEVNMPIYDFKKHIRSEDIKKLYPAKIIIVEGILVFAQKELRDLFDMKIFVDTDDDVRLLRRIERDINERGRTFESVKKQYLGTVKPMYLEFVEPTKRYADVIIPRGGENKVAINMIVAKLMRLL;locus_tag=LOCUS_15470;gene=udk;EC_number=2.7.1.48;note=WP_011986880.1 uridine kinase (Clostridium botulinum) [pid:54.9%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.6e-60],MGA_1549
sequence1	MetaGeneAnnotator	CDS	1781075	1782661	.	-	0	ID=MGA_1550;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015951.1;translation=MELTKFKELGLSENILKALKKKGFEEPTPIQEKTIPLLLKGEIDIIGQAQTGTGKTAAFGLPLIDRLEEKSKSVQALVLAPTRELAIQVAEEINSLKGNKKLVVAPIYGGQSIEGQISKLRRGVDIVVGTPGRVIDHINRKTLKLENIKYFILDEADEMLNMGFIDDVKLVFEKAPAEKKVLLFSATMPREILNIAKKYMNKYEVIAVKKQDLTTSLTEQIYFELNERDKFDALCRIIDVEREFYGVVFCRTKLDVDRVASKLSDRGYYAEGLHGDVSQAQRERTLNKFKKKKTMILVATDVAARGLDVNNLSHVINYALPQDPESYIHRIGRTGRAGKEGTAITFVTPSEYRKLLFIQKVANTKIKKSKLPKVSDILQIKKERIKSDILDILENDKIGDKEIEFAKEIMGEKDPLAVIASILKLSFSEELEDNNYKEIREAKIDTSGKVRLFVALGKKDNMTLKSLVDYIIENAKVSSRKIREVKVFENFSFITVPFEEAEIILEVFKRNKRGRRSIIERAKERKRK;locus_tag=LOCUS_15480;note=WP_011015951.1 DEAD/DEAH box helicase (Fusobacterium nucleatum) [pid:60.6%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:3.3e-184],MGA_1550
sequence1	MetaGeneAnnotator	CDS	1782685	1783638	.	-	0	ID=MGA_1551;product=bifunctional oligoribonuclease/PAP phosphatase NrnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016831.1;translation=MESIIKKLKESKRILITTHVNPDGDGIGAGLALALALNKINSNEDKMVRFIIQDDVPSFLRFLPHSVLIEKVENVELKYDFDCIVVVDVANKERIGTVVKYINENSIVINIDHHTSNEMFGELNYLDAKASSVAEIIFNLITKLEIAIDKDMGEAIYCGIINDTGNFSYNNVSVDTFNIAAKLKAIGVDNEKVTENLYANKSEARLKILGLALNNMEYFEKEKLSFFYLSNKVLKEYNAKSEDTEGIVESLRSFEKCEIALFLKEEEDGKIKGSFRSKGKDVNKLAAIFDGGGHVKAAGFKTSLDKEEILKRVLEKL;locus_tag=LOCUS_15490;note=WP_011016831.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Fusobacterium nucleatum) [pid:41.2%25%2C q_cov:97.8%25%2C s_cov:95.6%25%2C Eval:4.6e-65],MGA_1551
sequence1	MetaGeneAnnotator	CDS	1783679	1784557	.	-	0	ID=MGA_1552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNRNVYLSIGSNIGDKFFNILNAIFELNNLNDSFVVRISKLYKTEPYGYLEQDYFINVGIWLKTKLLPYELLDEIGKIELKLKRKREIKWGPRTIDIDIIFYENIKVDRTDLQIPHKEYKKRNFVLHPLKDIYYNKNILKYYSKASGRVEIYKNFDKILVSSCLLGINCKYNGGNNSRKFLKEFLKKFCIVSICPEQLGGLSTPRVPAERFGEKVVNKKGEDVSLEFYNGAKEAGKIAKVTNAKYAMLKAKSPSCGFGKIYDGSFTGRLINGNGVAADFLEKKGIKIFSV;locus_tag=LOCUS_15500;note=WP_012048129.1 DUF523 domain-containing protein (Clostridium botulinum) [pid:50.7%25%2C q_cov:45.2%25%2C s_cov:91.0%25%2C Eval:2.4e-33%2C partial hit],MGA_1552
sequence1	MetaGeneAnnotator	CDS	1784614	1784964	.	-	0	ID=MGA_1553;product=dihydroneopterin aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861219.1;translation=MDKIIIKNMRLYGYHGVLEEEKRIGQKFFVDLEIYLDLEKASMSDNLNDTVNYAKIYEKVEFINRNQKYDLIEKFAGDIAKEILKYDKVKNVRVTVKKPEVPIPGQLDYVAVEIYR;locus_tag=LOCUS_15510;gene=folB;EC_number=4.1.2.25;note=WP_011861219.1 dihydroneopterin aldolase (Clostridioides difficile) [pid:48.7%25%2C q_cov:100.0%25%2C s_cov:96.7%25%2C Eval:4.2e-28],MGA_1553
sequence1	MetaGeneAnnotator	CDS	1785064	1785939	.	-	0	ID=MGA_1554;product=YitT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391779.1;translation=MTRDKKRFIKDFIIMNFALILASLGFVWFLIPSKIAAGGVSGIATIIYYLFHLPVGMVMLVLNIPLFLAGLKFFGKGYGFKTLYGTIMLSVYTDTFSYIFTLNGVTDNILLSSLYGGITTGIGIGLIMKIGGSTGGTDIIAQILHEKFKIQTGNALIGVDFIVLASAGIVFGMEPALYAIITLYTTGRMINVVLDGANYSKVAYIISDEYDLIRNMIVSDINRGGTVFYSKGLYTDKNKNVIMTVVKNKEIYILREKIKNIDEKAFIIITDAHEVLGEGFSPIGEKVIENK;locus_tag=LOCUS_15520;note=WP_011391779.1 YitT family protein (Moorella thermoacetica) [pid:41.5%25%2C q_cov:92.8%25%2C s_cov:95.4%25%2C Eval:1.3e-58],MGA_1554
sequence1	MetaGeneAnnotator	CDS	1785950	1787911	.	-	0	ID=MGA_1555;product=HPr(Ser) kinase/phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901728.1;translation=MEKVVSLEQLANELDLEVLTGEKLLNSEIVLSELYKPGIELTGDITVMETESEKCIHLLGKDEMRYLYSLDEEIRKYNLVHYMNGEFPCVIVGDNIKVENDFLDIAKISSKPILKTEKSLEAIIKKLKNYLEKELAPEIILNKFIFLEVFGTGILIYGEEAAKLGTTIELLGKGHRFITDQLLVVKKISNDTIIGENGFLSEADESNIKYFFRLTKNNEINIIDYFGIGATRKSKEIDLIVKLENWQEGKYYDRLGLGEETQYLLGIKVPKLTIPVRQGRNLSIIVETAAINERLKKTGKHSAIYFMEETNKLIKDNSRRKNDGDDKMLNFMTVKYLKDKIGLKVLNGESLLENKKIYKKYLHRPALEFTGFFDVLEETGKNRIQILSGAELKYVDRMAQEKREEYFSKYLSYDFPCIVISGVKTVPEYFSDAIKRYNKILLLTEKNISESHEKITELLEKFFAPTLTMHGVLVEVFGFGVLLVGKSGIGKSETALELIHRGHRLIADDAVKVVKYPDGRLVGSADKIPYFMEIRGLGIIDIKTLYGLGSVRDKKQIDMIIELKELKSNAYISQADYNEETLKILETDIPKIELYISSGRNAASMVEIATMNVRAKKVGYDSSADYLHNYKNLKKIEEKTDEIVGNLKNIMDN;locus_tag=LOCUS_15530;gene=hprK;note=WP_005901728.1 HPr(Ser) kinase/phosphatase (Fusobacterium nucleatum) [pid:36.7%25%2C q_cov:93.7%25%2C s_cov:98.5%25%2C Eval:1.1e-110],MGA_1555
sequence1	MetaGeneAnnotator	CDS	1787874	1788395	.	-	0	ID=MGA_1556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNKNRKIKQYRNFILFLLIIYFLIQIFVDFNMRYTNLIKNRNQFMEKFISGIKIRNDKFYNLKDDKQKIRVIEKSNFKNDKKVKKYYIQIGIYSVLDIANTDIKDLKEFNPSLKSIMINNKKYYKVVVENINSKLEAKNILKEINKKGFQGPFIREMKIDGKSSKPRTISK;locus_tag=LOCUS_15540;note=MGA_1556
sequence1	MetaGeneAnnotator	CDS	1788396	1789637	.	-	0	ID=MGA_1557;product=folylpolyglutamate synthase/dihydrofolate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016834.1;translation=MNLLKKEELLDELYSYSKFGIKLGLENIDKLLNELGNIENNYKKIHIAGTNGKGSVATMLETILIESGYNVGKYTSPHLVDFNERITVNNKKISDEELVECFLEVKKAIKSLNIQPTFFEVTTAIMFLYFDKKNIDWGIIETGMGGQYDSTNVIVPEVSIITNVTVDHTNYLGKNLREIAKEKAGIIKKDVPVIYYGNCKELIEEVEKKSVNRVNIGKYNYKVEFDNEKFSTVIDIDNEIYEIPLYGEFQSKNFLLAYETLKKIGVSKKDIKKGLKNVKWPGRFEVIEKNPYLILDGAHNIAAALGLKRSLLKKFKREEILVITSILKDKDVNEILDIFSKFADTAIFVSLKTVDRGLSEEEMYKLGSGKFDNSLKIDDINEAIKVAKENFDKKAIIIAGSLYLIGEVKKGRI;locus_tag=LOCUS_15550;note=WP_011016834.1 folylpolyglutamate synthase/dihydrofolate synthase family protein (Fusobacterium nucleatum) [pid:45.0%25%2C q_cov:98.1%25%2C s_cov:97.6%25%2C Eval:8.6e-89],MGA_1557
sequence1	MetaGeneAnnotator	CDS	1789603	1791198	.	-	0	ID=MGA_1558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKESFFDVFKKDRNFGILISSQIISQLGDAINWMANLAFVAVIAPGIGTSILMVWLMLPILLIGPFAGVIVDRFSRKRIMLISDITRALTIVLFLLYVLNFVKMENEVYKFQIQNNKFKLEKAEIKSLLSNDKVKTEKYDMKIEIKKINRSLVITGVPIKNINSDKVKIVITTGLEDYEKIYLKKNGNKYIGMVKFQESKYGKKKNKIVETNKKGTLSISVVEEKGFVNIIYIITFLISFITQFFIPAKSALLPHIVSKEHLVYANSFSASANRIVIVIGGALGGFLIGRFGILFAFFIDALTYLLSFSLVMIIKKDKVEKRAKHVKSNFIAELKEGIKYILNKDLTSFVFFRYVGIMSAGGVAYIFLVKYSNETLQMGVEGLGYLQTSLGIGIALGSVFLGFIGNRVKKVVFIKLGFIIVGLSVAGFAFIENIYMALGIGVLAGFGGAFIIILSETILQTVVPKNMQGRVFATLQTATNAAFALSAVLTGFLISGLNDKVVFTVLSLILLIIGITGEIYELIKKRRAIR;locus_tag=LOCUS_15560;note=WP_011228796.1 MFS transporter (Thermus thermophilus) [pid:24.0%25%2C q_cov:51.0%25%2C s_cov:67.5%25%2C Eval:1.9e-17%2C partial hit],MGA_1558
sequence1	MetaGeneAnnotator	CDS	1791203	1791901	.	-	0	ID=MGA_1559;product=5'-methylthioadenosine/adenosylhomocysteine nucleosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416187.1;translation=MIGIIGAMNEEIIELKSNMKLSKEEVAANMSFFVGEINGKEIVLVESGIGKVNSAMCTTILIERFNVDKIIFTGVAGAINNNLEVGDVVISKDLIQHDVDATAFGAKLGEIPRMKTSIFKGDEKLIEIAEKAAKINIKKHSAIIGRILSGDQFVSSSEKIDKLRENFNGDCVEMEGASVAQVCYIYNIPFVIIRAISDKADHSAKVDFKTFVNDAAKNAKNIVLSMLENMES;locus_tag=LOCUS_15570;EC_number=3.2.2.9;note=WP_003416187.1 5'-methylthioadenosine/adenosylhomocysteine nucleosidase (Clostridioides difficile) [pid:52.2%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:4.9e-62],MGA_1559
sequence1	MetaGeneAnnotator	CDS	1792269	1793870	.	-	0	ID=MGA_1560;product=CTP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011462257.1;translation=MKKRKYIFVTGGVVSSLGKGITGSSLGRLLEERGYKVTIQKFDPYINLDPGTMSPYQHGEVFVTDDGAETDLDIGHYERFIDQNLSKHNNVTTGKIYWSVLNKERKGAYLGATVQVIPHITNEIKSRIEIVGKQNDSDIVITEIGGTVGDIESLPFLEAIRQFKNDVGKENVIYLHVTLIPYIKAAGELKTKPTQHSVKEMMGIGIQPNIIVCRTEHPLTDEVRRKISLFCDIEQKAVIEAPDAKSIYEVPLIMEKNGLADIVVEKFGLRTEKPALTEWKNLVDRIKNPKNNIKIAVVGKYVELKDAYISINESLEHAGFKFETEVDITYLNAEELNVKDLENVDGILVPGGFGDRGIDGKIEAIKYARENKKPFFGICLGMQCAVIEFAKNVLGYEGANSTEFNLKTEYPVIDLLPEQREVEDMGGTMRLGLYPCKLEKESNASKYYNEDLIYERHRHRYEFNNEFREEFIKAGLKFTGTSPDGRLIEIVEIEEHPWFVASQFHPEFKSRPNRAHPLFVGFVESILKIKGVK;locus_tag=LOCUS_15580;EC_number=6.3.4.2;note=WP_011462257.1 CTP synthase (Desulfitobacterium) [pid:67.4%25%2C q_cov:98.1%25%2C s_cov:99.1%25%2C Eval:1.5e-211],MGA_1560
sequence1	MetaGeneAnnotator	CDS	1794186	1795232	.	-	0	ID=MGA_1561;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIAVLLAGMLLVGGMVFADPATTSVNGKVEFTAIDMDSTRDGQMLSQTGDQYFKLNLTKQFDETTKVTAEYNTDEDSKDDSVASLTLTKQVNDKIEAAVKVNVDTTIGLKFADDEGGDTYLKYTASKDLNITLKPFEAGTGVGDELGTKDTQDAHGVEVNATLVDGLATTAVVNFANDGKDDKMGLKAGATYTGVENLSVTGEFSMNDTKATKTAVDARGSYKMGSLTLSGEMLNVTNKVKDSTTGKVTEKTGMGLFAKAAYDLGTLSEGVTANTNVSFKQLGEKLYYDGDSDRSIIGAGFDVVVNGLTISNSVEMTKTGSKVLKDKDGKATDSKTTFSTAVKVEF;locus_tag=LOCUS_15590;note=MGA_1561
sequence1	MetaGeneAnnotator	CDS	1795503	1795775	.	-	0	ID=MGA_1562;product=30S ribosomal protein S16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903282.1;translation=MVKLRLTRLGRKKLPVYRIVAMEALTRRDGKAIAYLGTYDPLKNPAAVTLKEEEILKFLSNGAQPTRTVKSILTKEGVWEKFLATKTIKK;locus_tag=LOCUS_15600;gene=rpsP;note=WP_005903282.1 30S ribosomal protein S16 (Fusobacterium nucleatum) [pid:68.6%25%2C q_cov:95.6%25%2C s_cov:97.7%25%2C Eval:9.6e-25],MGA_1562
sequence1	MetaGeneAnnotator	CDS	1795837	1797171	.	-	0	ID=MGA_1563;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903281.1;translation=MLNNLGNRFQDIFKKIKGNGKLSEKNIKDALKEVRLSLLEADVNYKVVKEFINKIKEKSVGEDVLKGINPGQQFVKIVNDELIELLGGTNARLTKALRPPTVIMLAGLQGAGKTTFAAKLAKFLKKKNEKPYLIGADVYRPAAMKQLQVLGESIDTPVFTIEGSKDAVEICTKGLAKAKEENATYAIFDTAGRLHIDENLMEELKNIRKIIKPQEILLVVDAMTGQDAVNVAKKFNETLNIDGVVLTKLDGDARGGAALSIKAVVGKPIKFIGVGEKLDDIELFHPDRLVSRILGMGDVVSLVEKAQETINEDEARELEEKIKKQTFDLEDFLKQLNQIKKLGPITKLLQMIPGANQLGDLAPAEKEMKKIEAVIQSMTKEERKNPKLMNAGRKKRVAKGSGTNVQVVNNLLKQFEQMKKMMKMFGGGGLPGMKGGFPGMKLPF;locus_tag=LOCUS_15610;gene=ffh;note=WP_005903281.1 signal recognition particle protein (Fusobacterium nucleatum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.7e-167],MGA_1563
sequence1	MetaGeneAnnotator	CDS	1797184	1797498	.	-	0	ID=MGA_1564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903280.1;translation=MELEDFFETSILLQYYKNLLSEKQKKYMIEHFEEDYSLSEIANKYSISRQAVYENIKRGIKVLYEYEEKLKFRNKEKRIKNELQKINNKYNIIELEEIINEFSV;locus_tag=LOCUS_15620;note=WP_005903280.1 hypothetical protein (Fusobacterium nucleatum) [pid:51.5%25%2C q_cov:95.2%25%2C s_cov:96.1%25%2C Eval:2.7e-22],MGA_1564
sequence1	MetaGeneAnnotator	CDS	1797650	1798024	.	-	0	ID=MGA_1565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVDANIILRYLLEDHEEHLREAENIIENNDILIFNEVIAEVIYVLEKLYKVNRVNIMQGLVDFFSNRSVELEKEEVVKKALKLFSEKKLDFVDCLLYAYSFEAGYEIATFDKKLLKAIANSK;locus_tag=LOCUS_15630;note=MGA_1565
sequence1	MetaGeneAnnotator	CDS	1798011	1798250	.	-	0	ID=MGA_1566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIIHTEKYSDNIIIPVKEWNVILEKLKNVEDIKIEPKENENFKQLKGKGVFKMYSNVELIKREKKVWEETAVIKFENS;locus_tag=LOCUS_15640;note=MGA_1566
sequence1	MetaGeneAnnotator	CDS	1798458	1799738	.	-	0	ID=MGA_1567;product=adenylosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015701.1;translation=MAGYVVVGTQWGDEGKGKIIDVLAEKADVIIRYQGGNNAGHTVVINDEKFILHLIPSGILNGNGDCIIGPGVVVDPKVLLEEIELLESKGINTEKLYVSDRAHLIMPYHITIDEVKEDLRGKNKIGTTKRGIGPAYGDKISRIGMRVGDLLELDYFKDRLYENVKEKNMFFEKVYGVNSLDFEEIFEEYKGYASQLKDRIIDNIPIVNDALDENKMVLFEGAQATMLDINYGTYPYVTSSSPTSAGAPVGTGAAPTRIDKIIGVMKAYTTRVGAGPFPSELDDEMGEKLRKTGGEYGATTGRPRRCGWFDGVVGRYSVIINGLTDIVLTKIDVLSGLDTIKIATGYEIDGKVYKTVPASLGKIEKAVPVYEELNGWAEDISKIKSYDALPENAKKYIAKIEEVVGAKISMVSVGPNRDQNIFIREI;locus_tag=LOCUS_15650;EC_number=6.3.4.4;note=WP_011015701.1 adenylosuccinate synthase (Fusobacterium nucleatum) [pid:63.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-162],MGA_1567
sequence1	MetaGeneAnnotator	CDS	1799743	1800420	.	-	0	ID=MGA_1568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWQNFFEKEKKFLNPYIERMKNYKDYIMYEKEKMNLYKGSWKEYFKNDNPIYLEIGSGAGNFIARSGEKVKDKNFIGIEIKFKRLVLAAQKCKKRNLKNVLLLRRRGEEILEFLGKSEISGLYINFPDPWEKEKQRKNRMIQQGLFDNLDVIMKKGGKIFFKTDHKGYYMDVLELMKDIKGYKIVFNTEDLHSSDRAKENVSTEFEDMFLKKGMKINYIEIEKEV;locus_tag=LOCUS_15660;note=WP_011015702.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Fusobacterium nucleatum) [pid:51.8%25%2C q_cov:100.0%25%2C s_cov:35.0%25%2C Eval:1.9e-63%2C partial hit],internal stop codon at [1800432:1800434](-)%2C[1800438:1800440](-)%2C[1800453:1800455](-),frameshifted%2C insertion/deletion at around 1800500,MGA_1568
sequence1	MetaGeneAnnotator	CDS	1800492	1801709	.	-	0	ID=MGA_1569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYIYNILRVILILIGYLFNPDFFKKRVKENFDDLMSDDYIWIHMSSVGEVNLSEPLINKFLSDTDYKILLTIFTDTGMEMAKKKYLKNKRVVIKYFPLDNVKTIKKILNKINVKLVVLIETEIWFNLIDIVYKKTKIVLVNGRISDKSYKRYLKIKLLLKNRLNKITLLMMQTKLDSSRIEELGADSKNIKTIGNIKFNIDLEKYNENVIKEIKEKFKLKDRKNFVCGSTHDTEEEIILDIYKELKNTTVFLVPRHIDRCEKIEKELLKNFNYVKYSDSKVVKTPDIILVDKIGELRKLYQLADITFVGGTLTNVGGHSLLEPLFYRKTPIFGKYIQNVKEIALEIEKRGIGYMVKNKDEFKEKIDEITNENIEKNIKKDEIDIFFKENSENLKNVYNNLIDII;locus_tag=LOCUS_15670;note=WP_011015702.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Fusobacterium nucleatum) [pid:48.4%25%2C q_cov:95.6%25%2C s_cov:61.2%25%2C Eval:6.0e-95%2C partial hit],internal stop codon at [1800432:1800434](-)%2C[1800438:1800440](-)%2C[1800453:1800455](-),frameshifted%2C insertion/deletion at around 1800500,MGA_1569
sequence1	MetaGeneAnnotator	CDS	1801795	1802646	.	-	0	ID=MGA_1570;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015740.1;translation=MKLNTKFKGYFLVFISVLFFSFMTLIVKLITKNNNIPGVEVTFFRFLIGFIIIYSIKSIKKKKIVPVNKKALWARAILNTLAVILFFVTIQLSTVTKANIYNLTYPIFVAIFAPFFLDEKLTLKKAFIVLLALIGTYLVVGFNFKEVGLGDITGILGGVVAGFAIISLRKARLTDESFTILYYLMKIGLVITFFSFVWFFKIPSVYELLLLVSVGAVSFLGQFFITEGYKYISALGGSILSSSRIFVAAILSIIFLGELLKLNVIIGGTLIFLSVVLINLGTD;locus_tag=LOCUS_15680;note=WP_011015740.1 DMT family transporter (Fusobacterium nucleatum) [pid:25.6%25%2C q_cov:97.5%25%2C s_cov:97.4%25%2C Eval:7.7e-13],MGA_1570
sequence1	MetaGeneAnnotator	CDS	1802719	1802997	.	-	0	ID=MGA_1571;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003359333.1;translation=MTKKDFIEKYAEKVGESKRKAGEMADAFLEVVEEALVAGEGVQFVGWGTFEVRQNAERKGRNPRTGEEITIPAKKAVKFKVGKKLADKVNHK;locus_tag=LOCUS_15690;note=WP_003359333.1 HU family DNA-binding protein (Clostridium) [pid:56.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-20],MGA_1571
sequence1	MetaGeneAnnotator	CDS	1803131	1804591	.	-	0	ID=MGA_1572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLYEENGKNILKNIMKSNYEINAPCGGNGTCGKCKIKILNGKFNDISKNEKLLLSEKEIENGIRLACMTEFKDKVEIEIIEKEEFYEKSLLEIDNKKLICTVDLGTTTIEMNFYNKENFEKVGEKKFFNPQIIYGADVISRILYAVESKEKLREIQKILIDRLNRELIGNIEKLVLAGNSTMQHIFLGISPKSLITPPYAPAFTEKKALKGLEIGLNVTGIEVMPNIAGYVGGDTYAVIMGYYNKKEDMDNIVIVDIGTNGEIVLIRDGKFYVTSTAAGPAFEGASLSCGMRATLGALSDIRIDEKVEIQTIGDKPLKGICGSGVIALLRELIYTETIGKDGNIKSKNRYYPFLNRRLKEQKFYLTEDIYISQNDIREIQMAKSSIRSAIDMMENNYDKIKKIIITGNFGKNLDKKGLIKIGLMPNIELDKIKIVDNLVISGLYRYITGEIDEKFYDEFHQKIEYIDLANSDNFKRKFIKNIDF;locus_tag=LOCUS_15700;note=WP_011949051.1 ASKHA domain-containing protein (Clostridium botulinum) [pid:33.8%25%2C q_cov:83.5%25%2C s_cov:72.7%25%2C Eval:5.9e-63%2C partial hit],MGA_1572
sequence1	MetaGeneAnnotator	CDS	1804593	1805588	.	-	0	ID=MGA_1573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNMKKFIIVLAIIILGIFVYYEYNNYISNEKSNEIVSDIKNIKNEIINSNYKFELKDKSVTVFIEEDEIPEFRFDLKVLKEKRDAKNKNIINFFNGDIIAFKIKINWIKVNKLAILIDDVGENLSTAYKFSNIKEKLNFATIPFLRDSKKATSYLRKNGYNVILHMPMESLGSEYLNKRTKDLIRTTMTKKEIINRFEKGLENIGGAKGFNNHMGSKFTSNKEKMEELLEYVKEKNMYYIDSRTTSKSVGYKTAKELNIKTYYCSIFLDNEKNVEYIEKRIKLAVEKTKKYGKLVAIGHYNKITEEALENMIPYIKENGIKLVFLNEVIE;locus_tag=LOCUS_15710;note=WP_000549805.1 divergent polysaccharide deacetylase family protein (Bacillus) [pid:34.5%25%2C q_cov:65.9%25%2C s_cov:84.6%25%2C Eval:5.1e-30%2C partial hit],MGA_1573
sequence1	MetaGeneAnnotator	CDS	1805585	1805908	.	-	0	ID=MGA_1574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWIIIIFILDLLFLFMDIKFLNGFYISIYHIILFLEIYLYIGIKYFYLKGRRYFLIISGLIGIFCGELIARGNFTVGKGTISGMVWILGINLMIIMLLEYIDYRKEK;locus_tag=LOCUS_15720;note=MGA_1574
sequence1	MetaGeneAnnotator	CDS	1805913	1806587	.	-	0	ID=MGA_1575;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015703.1;translation=MEFIVAIDGPAGSGKSTIAKLLSDELGFVYLDTGAMYRAISLKVIQNKIDLSNLDEIENMLKNTILDIKDKNIILDKKDVSDEIRGREVSNFVSKVATVKLIREEMVRMQREISKGKRVILDGRDIGTVVFPNANLKIFLNATALERAKRRLLDYKKQGIGIEIETVLEEIKKRDKMDTERENSPLVKALDAIEIDTTDRKIEHIKNEILGLINKMIIDKIVVG;locus_tag=LOCUS_15730;gene=cmk;EC_number=2.7.4.25;note=WP_011015703.1 (d)CMP kinase (Fusobacterium nucleatum) [pid:50.2%25%2C q_cov:95.1%25%2C s_cov:97.7%25%2C Eval:1.3e-51],MGA_1575
sequence1	MetaGeneAnnotator	CDS	1806589	1807515	.	-	0	ID=MGA_1576;product=50S ribosomal protein L11 methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029493681.1;translation=MKWEQVEVMFDSDNIEATKDKIMNIFYDFGVRDLQIDEPMEKNPLDYYSNEHNFFRNNYSIIGYFPMNIYLEDKKIVFEEKLTEISEKENFIFQIFYGEVDEKDWQNVWKKYFFPEKIGERIVVKPTWKDYEKKDEDEIIIEIDPGLAFGTGTHPTTFLCVKMLEKYIKSGDSLLDIGTGSGILMIAGDKLGAGSLYGTDIDEEAIKAAEENLLLNGVLKDKFTIKKGDLLEAVCENKFDIVVSNILAKVIMDLLDDITKVIKSGGLFITSGIILEQKELVISKMKRVGFEIIDIMEEDGWISVVGRI;locus_tag=LOCUS_15740;gene=prmA;note=WP_029493681.1 50S ribosomal protein L11 methyltransferase (Fusobacterium hwasookii) [pid:45.8%25%2C q_cov:98.7%25%2C s_cov:98.4%25%2C Eval:5.2e-74],MGA_1576
sequence1	MetaGeneAnnotator	CDS	1807585	1808466	.	-	0	ID=MGA_1577;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015945412.1;translation=MCRINPRVDFAFKKLFGTESNKKLLIDLINSIVSEEDQVKELELKNPYNDKNFRNDKLSILDIKAIDQRGQWYNIEMQVIDQEYFDKRALYYWARLYSGQLSAGVNYDNLKKTISINILNFRCLDEEEYHNIYKIINSESGKEFIDHLEIHFIELEKYDEKMSTMLDRWVNFLKKAEGYDKNRLPKELAEVESIKKAVELLEDMSLNYEERESYEARLKWLRDEEAAIKTAEKKGFKKGIEAGRAEGKKEGREEGKKEGIEKIAKEALKNGLDLETIVKITGLSEKEISDLKK;locus_tag=LOCUS_15750;note=WP_015945412.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:33.7%25%2C q_cov:99.0%25%2C s_cov:97.3%25%2C Eval:1.2e-40],MGA_1577
sequence1	MetaGeneAnnotator	CDS	1808529	1810130	.	-	0	ID=MGA_1578;product=L-aspartate oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545397.1;translation=MRIIDELNPINFVDIEKIEVEKKEFIVIGTGISGLRAALEISKKSKVTLITKSEMIETNTNYAQGGVAVVFSEDDTFELHKQDTLYAGAGLCIEKAVDVLVEEGPLRVKELININTNFDKNDKGEINLTREAAHSKFRILHAGDTTGAEIERALTEEVKKQKNIEILEYNFLLDIIDKNSCLVHDIKKDEMKLFSFKGIIFATGSIGKVYKNTSNPDVATGDGLAIAYRNKVELSDIEFVQFHPTTFYKKGAPRFLISESLRGEGGILRNINGERFMAKYDSKKELAPRDVVSRSILTEMEKTNSECVYLDMTNLDKDYLYKRFPRITEFCMEYNIDIAKDYIPVSPAAHYIMGGISTDINGKTNKKEIYAVGEAARTGVHGANRLASNSLLEGLVFGKRAGEIALKEREKIKIEMKGIKFNINSKKEISSEEIEKIKENIEELMWEKVGIRREEKSLKDSLNEIGNIVEYIKQYKFKREDVVKGIELLNILTVAYLITEAALNRKESRGGHYRIDYPETLESERKHSVIIKD;locus_tag=LOCUS_15760;gene=nadB;EC_number=1.4.3.16;note=WP_012545397.1 L-aspartate oxidase (Thermodesulfovibrio yellowstonii) [pid:49.5%25%2C q_cov:95.5%25%2C s_cov:97.1%25%2C Eval:8.5e-127],MGA_1578
sequence1	MetaGeneAnnotator	CDS	1810127	1810891	.	-	0	ID=MGA_1579;product=5'/3'-nucleotidase SurE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082178.1;translation=MNILISNDDGIHAKGIEVLHDCLKEAGHNVYVIAPAKEESGTGHGVTLHRPLRLQKINKNNIHFGYAVDGKPSDCIKLGYWGVFKDKKIDMIISGINRGENLGTDVLYSGTVSAAAEGALSGVRSIAVSLYKPSENPNYETAGKFLVKFLEEIDELEFPKESLLNINVPDLKFEDILGYKYTKQGDRKYIDNFIERDDPRGDKYYWLGGEVCETGDDPNYDFNVVKSNYISVTPINLDLTDYKFLSNLKGEYNK;locus_tag=LOCUS_15770;gene=surE;EC_number=3.1.3.6;note=WP_004082178.1 5'/3'-nucleotidase SurE (Thermotoga maritima) [pid:45.1%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:9.5e-57],MGA_1579
sequence1	MetaGeneAnnotator	CDS	1810900	1811310	.	-	0	ID=MGA_1580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKCVRCGKELDIITRDPNKAFYCKKCSEELLGKFSYEYSDKRATKKNKIIEYLIPGLFQFQSGYYLRGILIFLNSIFIPIVWLILFWSEVKYKIINKKIFGINIIFSFFIIINFLIAFTLNIREILNNKKSKTNY;locus_tag=LOCUS_15780;note=MGA_1580
sequence1	MetaGeneAnnotator	CDS	1811321	1811587	.	-	0	ID=MGA_1581;product=acylphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010890591.1;translation=MKRLIVKGRVQGVGFRYFTEILASEYGAKGYVKNLFNGDVEIIISNENEIEYKQFKNKIIAGNSMSEVDKLVEEEYYGEKYNKFTIKY;locus_tag=LOCUS_15790;EC_number=3.6.1.7;note=WP_010890591.1 acylphosphatase (Borreliella burgdorferi) [pid:36.7%25%2C q_cov:98.9%25%2C s_cov:96.7%25%2C Eval:8.8e-10],MGA_1581
sequence1	MetaGeneAnnotator	CDS	1811590	1812375	.	-	0	ID=MGA_1582;product=TIGR00282 family metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904102.1;translation=MRILVVGDIIGKPGRLALKKYMEKHEEEYDFVIVNGENSAGGFGITKKITDELYDMGVDLITGGNHTWDKKEIYPVLDKEIRIIRPLNYGIDNVPGRGYIILNTKNGKKIGVINLQGRVFMPELDSPFKIVEQVIEEVMSKSDVVVVDFHAEATSEKMALGWFLDGRASLVFGTHTHVMTADNRILHKGTGYISDIGMTGGFDGVIGSKKEKIIGKFMNYLPTRFEVCNDNIRFNGIDVTFNSKTGKCLSIDRIDIGLEEI;locus_tag=LOCUS_15800;note=WP_005904102.1 TIGR00282 family metallophosphoesterase (Fusobacterium nucleatum) [pid:57.1%25%2C q_cov:97.3%25%2C s_cov:96.2%25%2C Eval:2.0e-81],MGA_1582
sequence1	MetaGeneAnnotator	CDS	1812548	1814098	.	-	0	ID=MGA_1583;product=ribonuclease Y;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627077.1;translation=MASVLAAGLGGVIGYLLRKKVVDAKLGELEEIEKEINSAKDKAKIIIEDSKKEAGTIKKEAIIKAKDESYKIKEEAEKEIKLANGELQIKERRLIKKEEQLDNKIAKIEEKEENIEKKKLTLIKKEEEIESLKVKEEEELERISGLTKDEAKDILLSELQNELDHESALAIKEYEKKIEFEKEKLSKKILSTAIGKAASDYVVETTVSVVQLPNDEMKGRIIGREGRNIRTIEALTGVDVIIDDTPEAVVLSSFDSVRREIAKIAMEKLVADGRIHPAKIEESIEKAKEEVGLAIIEAGEQAVLELGIHSVHPEVIKVLGRLRYRTSYGQNVLVHSIEVGHLAGTLASEIGADVELAKRAGLLHDIGKALDHDIEGSHALIGKDFLRKFKEKPQILNAVAAHHGEEEFESVEAVLVQAADAVSASRPGARRETLETYLKRLEGLEKIANSFEGVETTFAIQAGREIRIIVKPDEINDDRAIKLSRDVAKKIEENMQYPGQIKVMIVRETRSIEYAK;locus_tag=LOCUS_15810;gene=rny;note=WP_201627077.1 ribonuclease Y (Fusobacterium canifelinum) [pid:56.6%25%2C q_cov:99.0%25%2C s_cov:98.1%25%2C Eval:9.5e-160],MGA_1583
sequence1	MetaGeneAnnotator	CDS	1814168	1815370	.	-	0	ID=MGA_1584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLKYIKKINLLKLVKKICRFVHIFQKNDSLIFLKKINKKSFFILFFILISVFSNGTENKNIYKNYNLAKNYYKNKEYKKSEFLLKKVLKKFPEYYKAMELLYEIEYINSEKKDRTEKFEDLKTNGDESIKSKLLYFFISQNDIKKSIEIYEKLDEKSVYKKDFLEFLFKNKKINLILNKYGNSEYIEKISILRKEADKLFFNSIEMLKSGKVENAILNLKKAIEIFPANYQYYYRLGLIFADNNNFKLAKINLKKALNLNKSQKIYLSLFRIYKDTNDINGIYNIAKYIIDNKEVQKELKKYYQKEKKYRKGIKILKKDDKYIYAENRFSDYLEIGDSFLIYNYQNILRDNITGEILYKKKNIVSKIRVYNITKKMLIFKIIYLNSEINLKNNYYIDKF;locus_tag=LOCUS_15820;note=MGA_1584
sequence1	MetaGeneAnnotator	CDS	1815360	1816268	.	-	0	ID=MGA_1585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIIKEELDENKKEGKKERALKLGDFYEKEGLYDEAIKNYELYMFYEDESKIGSELLKKIGICYSFQGMTAEAINNFKKANKLVPEDTSILYLLAQMYTQAKILDEAEKYYKKIIELGWENPAVYYNLGEIAYKQGEMDESIKCWKKVVEIEPTNNYANYLLGAIYYYKKEYKLAKKYFVMAHDNGFRTSALYNYLGKVYNKLGEIEKSKTNFLIASEKEPYNSGYYKNYLKELSEEELKDEEEKLYERLEAEYTETKYKMALLYLVKGNIEKGKEILKKILEQPLPNDKKNIIEEELHDVS;locus_tag=LOCUS_15830;note=MGA_1585
sequence1	MetaGeneAnnotator	CDS	1816291	1816635	.	-	0	ID=MGA_1586;product=STAS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903963.1;translation=MLANFELKTEEKNGVVIVRVIGELDALVAPKLKDKLIEFSKAGKNNFIIDFEGLVHINSLAMGILRGRVREVRDAGGDIKIINLNSHIATIFEMVGLNEIFEIYKSEDEALKKF;locus_tag=LOCUS_15840;note=WP_005903963.1 STAS domain-containing protein (Fusobacterium nucleatum) [pid:59.5%25%2C q_cov:97.4%25%2C s_cov:96.5%25%2C Eval:1.9e-33],MGA_1586
sequence1	MetaGeneAnnotator	CDS	1816629	1817042	.	-	0	ID=MGA_1587;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894582.1;translation=MKEGELEIGVGSLYKNLVIIRSVIRTFLEVEMVSKLDKVQLVSVADELSTNAIEHAYENEKEFGTINIVLKIKENIFTMIVEDYGQGFLENKISKEEGGLGLNIVKGIVDDFAISRKEQGTKIKILKKVNREERIVC;locus_tag=LOCUS_15850;note=WP_005894582.1 ATP-binding protein (Fusobacterium nucleatum) [pid:42.7%25%2C q_cov:90.5%25%2C s_cov:89.7%25%2C Eval:4.8e-24],MGA_1587
sequence1	MetaGeneAnnotator	CDS	1817047	1817568	.	-	0	ID=MGA_1588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKFLIILLTIILSGCSFLKIKENIPEEKNFYKNYELWKLEEAKVDLNIIKEKNSVNNKEIRKLELKLEERVKNKKELKVIIEDMVKLLSKNEYKNIEKHIDKSLLNVLKFNIVKKYDLSSSKIYKGKIKFYKKNAKILLLINFYDETYYFDLYFKFEKNGWKLINFKERG;locus_tag=LOCUS_15860;note=MGA_1588
sequence1	MetaGeneAnnotator	CDS	1817736	1817861	.	-	0	ID=MGA_1589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMVKEIEEMIKTYEKYSDDYVIAEFLEQLYDIRSNILKQG;locus_tag=LOCUS_15870;note=MGA_1589
sequence1	MetaGeneAnnotator	CDS	1817924	1818769	.	-	0	ID=MGA_1590;product=prolipoprotein diacylglyceryl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016426.1;translation=MHPVFLKFGIFEIRYYGLMYAIAFFLGLYLAKKEAKRLNIDTNLIEDYVFVAMISGLLGGRLYYVLLESHYYFAHPAEIIAVWHGGMAIHGGIIGGIIGTMIFAKVKKINIWTLGDIAAAPVILGQSIGRIGNLMNGDAHGVPTFAPLNIMLGNDFNQWWAEYLKGMHQGLKNLVPWGITFPVGTPAGNEFPNIPTHPVMVYEMILNFLAFLSIWFIFRKKKLAKGSLFFIYLIEYGVIRSIVTIFRADDLEILGLRAPHVASLIMITVGIYLLKKKNSKV;locus_tag=LOCUS_15880;gene=lgt;EC_number=2.5.1.145;note=WP_011016426.1 prolipoprotein diacylglyceryl transferase (Fusobacterium nucleatum) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.9e-81],MGA_1590
sequence1	MetaGeneAnnotator	CDS	1818769	1819668	.	-	0	ID=MGA_1591;product=tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903969.1;translation=MKGIVICGPTGVGKTELSIKLAKKLNAVIISADSMQVYKHMNIGTAKIKKAEMQGITHYMLDIVEPDEKYSVGKYEKDVNLLLEKLEKEDKTVLLVGGTGLYIRAITDGFSDLPKENIELREELNKFSNEELYEMLKNLDIAATENIHLNNRKRVIRALEVCKLTGEKFSEVSKRNYKRNNYNFYKFGLERNREELYNRINLRVDKMFNDGLEKEAKFLYDNYRNGITAIQAIGYKELSDYFDKKIDIETAKELIKRDSRRYAKRQFTWFKRDAEIEWFSLGKYSVDEIEKNILKKVKD;locus_tag=LOCUS_15890;gene=miaA;EC_number=2.5.1.75;note=WP_005903969.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Fusobacterium nucleatum) [pid:53.4%25%2C q_cov:97.7%25%2C s_cov:95.7%25%2C Eval:2.3e-79],MGA_1591
sequence1	MetaGeneAnnotator	CDS	1819681	1820964	.	-	0	ID=MGA_1592;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015918.1;translation=MFIDEAVVTLKSGKGGDGSAAFRREKYIQFGGPSGGDGGRGGDIIFVADSNINTLIDFKYRKKYVAGNGENGQKKRMYGKWGEDLIIKVPVGTMLRDYETNELLMDLSEENVERVFLKGGRGGRGNIHFKTSTRRAPKIAEIGRKGKEIKIKLELKLLADVALVGYPNVGKSSLINKVSASKSKVANYHFTTLNPKLGVVRVEDTKSFVVADIPGLVEGAHQGVGLGDKFLRHIERCKIIYHLIDVSGTEGRDPIDDYEKINLELENYSEKLSNKKQIVLANKMDLAYNDENFNALKKYLEEKNIEIYPVSVLLNKGLKEVIYRTYDILQTIPREQIEEEKDVSELLVERGMEQPEWDINKIDEGFYEVSGRVVDSLLNRFVLNSEEAIVQFLHMLKEKGLENKLRNFGVKDGDVIKIENIEFDFVE;locus_tag=LOCUS_15900;gene=obgE;note=WP_011015918.1 GTPase ObgE (Fusobacterium nucleatum) [pid:61.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-156],MGA_1592
sequence1	MetaGeneAnnotator	CDS	1821297	1821584	.	-	0	ID=MGA_1593;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902873.1;translation=MLNFNINLQLFAHKKGVGSSRNGRDSNAKYLGIKKYGGELVKAGNILIRQRGTKIHPGNNVGLGKDHTVFALIDGYVKYERFGKSKKKVSVYSEL;locus_tag=LOCUS_15910;gene=rpmA;note=WP_005902873.1 50S ribosomal protein L27 (Fusobacterium) [pid:73.1%25%2C q_cov:97.9%25%2C s_cov:98.9%25%2C Eval:2.2e-37],MGA_1593
sequence1	MetaGeneAnnotator	CDS	1821587	1821916	.	-	0	ID=MGA_1594;product=ribosomal-processing cysteine protease Prp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016913.1;translation=MIKVTIYRKNGEITGFSGNGHANFEEYGKDIVCSAVSTAMQQAVVGILGYLKLNPKVGNRDGFLKLDLKNCKISEKNRELNAILESMYIMLKEIEKIYPKNLKIIEKEG;locus_tag=LOCUS_15920;note=WP_011016913.1 ribosomal-processing cysteine protease Prp (Fusobacterium nucleatum) [pid:46.3%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:4.0e-23],MGA_1594
sequence1	MetaGeneAnnotator	CDS	1821916	1822227	.	-	0	ID=MGA_1595;product=50S ribosomal protein L21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896540.1;translation=MYAIIKTGGKQYKVKEGQKLRVEKLPYDVDAEVELTDVLLVSNEGDVKVGTPFVEGAKVVASVIEHGKGKKVINFKYKPKTGFHKKKGHRQPYTELEIKNIQA;locus_tag=LOCUS_15930;gene=rplU;note=WP_005896540.1 50S ribosomal protein L21 (Fusobacterium) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-30],MGA_1595
sequence1	MetaGeneAnnotator	CDS	1822603	1824315	.	-	0	ID=MGA_1596;product=oleate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262036.1;translation=MNNYQRINTRKPKGIEKKRAFLIGAGIGSLAAAEYLMRDGHMEGNQITIFEQDGISGGAMDGAGNPENGFIARGGREMEAHYECLWDLYSGVPSIEEEGRTVLDEFREINENDPNFSNVRVIFNRGEKHRKTDLGLKEKHTKELTKLLLTKEEDLGAKTVEEYFDKSFLDTDMWLYWRSMFAFETWHSVVEMKRYMQRFIHLMPGMSTMRDLLFTKYNQYDSLILPLKKLLESKGVNFVFNTIVTDLDIDFSDNKKTVTGIHINKENSEEVIKTTSDDFVFFTNGSMTENSTLGDMENAPILDKSEGAVWSLWKKIAKKDKSFGNPEVFCSDIDKTKWESYTITAKGTKMRKLLESFAEREFLPNKTATGGIITVKDSNWLLSVTVNRQPQFKNQPADATVAWAYALFPDNKGDFIDKKMSECSGRELLQELLYHFGIDKNDMQEYIDECIVIPAMMPYITSQFMPRVKGDRPEVIPEGSVNLAFLGQYCEIKNDCVFTVEYSVRSAIMAVYSFLNLEKKVPEIYASQYDIRALATATKTMKSEHEGVVKKIVANVIKKKLANTTFEDLI;locus_tag=LOCUS_15940;EC_number=4.2.1.53;note=WP_002262036.1 oleate hydratase (Streptococcus mutans) [pid:43.7%25%2C q_cov:99.6%25%2C s_cov:98.0%25%2C Eval:2.2e-144],MGA_1596
sequence1	MetaGeneAnnotator	CDS	1824458	1825510	.	-	0	ID=MGA_1597;product=low specificity L-threonine aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461701.1;translation=MTNITNEKKVYNFKDDYSEGAHERILKALIDTNFEQQNGYGNDEYSEKAKQLLKNKMNNKELDIHFLSGGTQTNLIAISSMLRSYESVIALETGHISVHETGAIEATGHKVNTVKSSDGKITVDLIKSVLDLHIDEHMVKPKMVFISNSTEIGTIYKKKELEKISNFCKNNNLYLYLDGARLGAGLCSEESDLTLEEISNLVDVFYIGGTKNGALLGEALVIINSELKKDFRYYLKQRGALLAKGRIIGIQFLELFKDELYFELATHANLMAKKLSVEIKKLGYKFLSESTTNQIFPIFSNKVIEKIGDKYGFHIWEKIDNNSSTIRLVTSWATKEEMVDKFISDLSKIS;locus_tag=LOCUS_15950;note=WP_011461701.1 low specificity L-threonine aldolase (Desulfitobacterium hafniense) [pid:61.8%25%2C q_cov:96.6%25%2C s_cov:98.3%25%2C Eval:1.5e-123],MGA_1597
sequence1	MetaGeneAnnotator	CDS	1825751	1826134	.	-	0	ID=MGA_1598;product=thioesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016728.1;translation=MEELKIGLIKKCKREVKREELADKVGSGVLKVYSTPSMIAFMEYTSEECVNPLLEEGETTVGIAVDIKHIKATLVAKKVECISELIEIDGKKLKFKLTVSDEDGKIGIGNHTRFIVNSKEFMKKIKK;locus_tag=LOCUS_15960;note=WP_011016728.1 thioesterase family protein (Fusobacterium nucleatum) [pid:42.3%25%2C q_cov:96.9%25%2C s_cov:96.9%25%2C Eval:2.5e-20],MGA_1598
sequence1	MetaGeneAnnotator	CDS	1826386	1827804	.	-	0	ID=MGA_1599;product=4Fe-4S dicluster domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012099524.1;translation=MRNFILNEKIKLRRKTLIELARATINNNLKKELPKLSKKILPGNEAKYRESIYQEREILNQRIKIYLGMDYEKSKDMEMYEVAENIDEILEKNSKYSNSSKILQIIEEACDVCPSNKYYVTDLCRNCIEHSCKSVCPKNAITIENSKAKIDLDKCIGCGLCARACSYYSIVKLERPCENSCELKAITKNPNGTPKIEEEKCVNCGSCYIACPFGAIESKLDLIKVLNRIKKDNKRSVIAIFAPSVAGQFGPKVTIGQIKNGLKRAGFNKAYEVALGADMVAEEESEYIENSNELVTTSCCPAFVDYIKKHQKDYIKNISPSDSPMIALAKKIKEEEDCEIVFIGPCIAKKNEDINREIVDYVITFEELGALFISCGVEPAEIEDVDYEGSFDGWNFAHSGGVAQAVINKLEGKEISCIKMDGLKESKELFSKLKNEKFDLMEGMACEGGCICGPGIMVNPNVANAVLKKIKK;locus_tag=LOCUS_15970;note=WP_012099524.1 4Fe-4S dicluster domain-containing protein (Clostridium botulinum) [pid:39.9%25%2C q_cov:97.9%25%2C s_cov:93.2%25%2C Eval:2.0e-92],MGA_1599
sequence1	MetaGeneAnnotator	CDS	1827805	1828050	.	-	0	ID=MGA_1600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKIKICVGTTCHLMGSSSLVDIKKKFPLEITDDIEVGFATCFGFCNGEKIPPIVEINGKFYEDMNEEKLIQIVKDLKEV;locus_tag=LOCUS_15980;note=MGA_1600
sequence1	MetaGeneAnnotator	CDS	1828091	1829260	.	-	0	ID=MGA_1601;product=SpoIIE family protein phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986397.1;translation=MIKMISATVYKNSLNKFGEQVCGDNYQLGKTEDSKLIILSDGMGSGIKASILSILTTEIIGTMYKKGVKIEEIVDTITKTLPVCKVRGIAYSTFTLVQIFKSGKVKIINYDNPSPVILTKGELYKPKYITKRINEKDIKITEFEIFAEDFIFIMSDGLVHAGLGRLMNFGWGEENIANYLKRMYRKTREIKYIVDSLIAVTESYYGFEPGDDSTLIGIKSIENPIATIFTGPPLNPKTDEYYVKRFFSRIGKKVICGGTTSNIVSRVLDEEIEIKLEGEKLGKLPPTGTMKGVDLITEGVLTLKYLNRMLDKCKDNMHEINIPEKMNSGEKLFSILTECDEVNILVGRKVNAFYHNPNLPFDMSIRSTLIRGLSKNLERLGKTVNIEYC;locus_tag=LOCUS_15990;note=WP_011986397.1 SpoIIE family protein phosphatase (Clostridium botulinum) [pid:40.1%25%2C q_cov:97.2%25%2C s_cov:97.7%25%2C Eval:2.4e-77],MGA_1601
sequence1	MetaGeneAnnotator	CDS	1829257	1829754	.	-	0	ID=MGA_1602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMNIWEKIFDYDPNGVLVVNENLRVEAVNSGFINMFKLNGTDVIGRAVNDFFDDIDDFVDFTIGKIKNKKQIKEYPEKSIILSEVMFRIDNENLIVKIFHDITLQEKNEKEMKNLKIQVIGELEKIVDKQMKVGQEIASILGETTGETKASLVKLLEILKKEDR;locus_tag=LOCUS_16000;note=WP_003396717.1 [Fe-Fe] hydrogenase large subunit C-terminal domain-containing protein (Clostridium botulinum) [pid:29.7%25%2C q_cov:95.8%25%2C s_cov:27.4%25%2C Eval:2.8e-18%2C partial hit],MGA_1602
sequence1	MetaGeneAnnotator	CDS	1829755	1830030	.	-	0	ID=MGA_1603;product=NAD(P)H-dependent oxidoreductase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986396.1;translation=MDIYICMGSACYLKGSNKIITIFKNEFEKLNKGTEHNILELKGSFCLGPCNQGVAIKIGDKIFKNYNPNNCKDRLYSELIPYIEELEKEKN;locus_tag=LOCUS_16010;note=WP_011986396.1 NAD(P)H-dependent oxidoreductase subunit E (Clostridium) [pid:49.3%25%2C q_cov:78.0%25%2C s_cov:83.8%25%2C Eval:9.2e-12],MGA_1603
sequence1	MetaGeneAnnotator	CDS	1830103	1832694	.	-	0	ID=MGA_1604;product=bifunctional acetaldehyde-CoA/alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948126.1;translation=MEELKVTNVDELKALLERVGDAQQKFSKFSQEQVDEIFRAAALAANNARIELAKDAVLETGMGIVEDKVIKNHFAAEYIYNQYKDDKTCGILEVDDTFGIKKIAEPIGIIAGIIPTTNPTSTAIFKALLALKTRNGIVFSPHPRAKECTNKTAKLVLDAAIKAGAPKDIIGWIDEPSVELSQYLMQNSNLILATGGPGMVKAAYSSGRPAIGVGSGNTPAIIDETAHLKMAVSSILLSKTFDNGTICASEQSVIILDEVYDEVEKEFLERGAYILNEDEKEKVRNTILKNGRLNAGIVGQSAFKIAELAGVNVPEETKILIGKVEITELTEPFAHEKLSPVLAMYRAENFEEAVKKAVRMVEIGGMGHTSVLYTNQTINQDRIDYFGAKLKTGRVIINMPSSQGAIGDLYNFKLAPSLTLGCGSWGGNSISENVGVKHLMNIKTIAERRENMLWFRVPPKVYFKYGALPLALKELKDKKRAFVVTDKPLFELGYADRVTEILEEIGVESEVFHDVEPDPTLGTIKKGVERMNSFEPDVVIAIGGGSPMDAAKIMWVQYEHPEVIFEDLAMRFMDIRKRIFEFPKMGGKAMMVAIPTTSGTGSEVTPFAVVTDEKTGFKYPIADYELTPNMAIVDPELVLSMPKALTAFSGIDALTHALEAYVSVLANEYTNGLALEAIRLIFKYLPASYENGDKDLKAKEKVHYASTMAGMAFANAFLGVCHSMAHKLGAMFHVPHGLANAMLISQAVKYNAVDNPRKQAAFPQYKYPQAKFRYAKIADYLGLGGNTPDEKVDNLIKAIEELKSKLNIAKSIKEAGVSETEFYAKLDKMSELAFDDQCTGANPRYPLISEIKELYIKGFNGEI;locus_tag=LOCUS_16020;gene=adhE;EC_number=1.1.1.1%3B 1.2.1.10;note=WP_011948126.1 bifunctional acetaldehyde-CoA/alcohol dehydrogenase (Clostridium botulinum) [pid:68.2%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:0.0e+00],MGA_1604
sequence1	MetaGeneAnnotator	CDS	1833428	1834261	.	-	0	ID=MGA_1605;product=KilA-N domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004804477.1;translation=MAKKVDVKGISISVKKANQSDYISLTDIAKYKSDSPNDVIKNWLRSKDTIEFLGLWEKINNSDFKPVEFDGFKNEAGRNAFTMSPKKWIEGTNAIGITTSSGRYGGTFAHKDIAFEFASWVSAEFKLYLIKEFQRLIDEENSRKNIEWDVSRTLAKINYRIHTDSIKENLIPKDLTPQQQSFTYANEADLLNMALFSMTAKEWREKNPDKDGNIRDYASLEQLLILANLKNLNSEYIKAGLNQKERLINLNRVAIEQMKILSNKKAIEGMKKLEKNK;locus_tag=LOCUS_16030;note=WP_004804477.1 KilA-N domain-containing protein (Bacteria) [pid:56.7%25%2C q_cov:96.8%25%2C s_cov:99.3%25%2C Eval:5.0e-86],MGA_1605
sequence1	MetaGeneAnnotator	CDS	1834302	1835321	.	-	0	ID=MGA_1606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVYYDPKRIKNIVRDILRINPKSQNIVLDGHRIRLSIEVTSTKYFSEGSDFMKKIFLSYCWERYDQLVIDLATKLSSKYDVILDKWEIRPGHNIDSFMENSIREAEKVFVICEKEYVNKANNRISGVGVETSIISPKVYRNTKQEKFIPVFLEGISVKPDYMESIFGIELNPSFDLNDEKLNEFINAIEGKPIVEKPKFELSTQIEIPDRINNISIDEKVKKGLFDSEVYSKILKILEEDLIAKFIVKYHLNNFGKIIIKFEEINQIKILDSIDSNYVQATGYGGWDNYDLFGKTAYDVGMGTENEVIKKRAKLILENCANIKCNLEELLDDFNKSNL;locus_tag=LOCUS_16040;note=WP_010933132.1 toll/interleukin-1 receptor domain-containing protein (Chlorobaculum tepidum) [pid:28.1%25%2C q_cov:50.1%25%2C s_cov:54.9%25%2C Eval:4.8e-07%2C partial hit],MGA_1606
sequence1	MetaGeneAnnotator	CDS	1835553	1836086	.	-	0	ID=MGA_1607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENLKWYIKSIIIISIIIYLLVDKMFVDKSILENIGKTISIVIVLSMSYIHFFWKFNPLSKTPKLHKEYDGFLISEFDGNKREAKIRIVQNLFAIQIYLKTDESESKAIMSKIYTEYGEKFLVYYYLNTPNANVRNRSEIHYGICRLKIENRDRLTGQYFTDRKTLGDIEFESTIS;locus_tag=LOCUS_16050;note=MGA_1607
sequence1	MetaGeneAnnotator	CDS	1836100	1837062	.	-	0	ID=MGA_1608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFDEELLKKFALPLSQTEDEKCKNAIKMVRDAMKLSGYLDNSEVIKKYSEDTFSYTLDMNTSDYSKKLRILIQGSYANNTNIRSHSDVDVAVILESTFIPEYRAGITGEKYFFTDGTYSAKELKDDVERALNLKFNNQGVIRNDKSLKVIGNSYRVDADVVPAYRLRNYKDDYNFDSSNYIGGIEIRPDSGGRIRNYPEQHIINGKEKNNKTNYYFKKHVRILKKIRNLMKEDGYKSVEQVSSFGLESLLWNLPNDLFSKYSLLKYTFDDILIYLNNNNFMLGTFKEVNGIKVLFSNEEMVNKYKKFIKEINEYFEIEI;locus_tag=LOCUS_16060;note=MGA_1608
sequence1	MetaGeneAnnotator	CDS	1837336	1841049	.	-	0	ID=MGA_1609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFKWITTNDLKLWSETNSKESQQECPTLVKKLIYASYGNNEIKYSRFPSGDSVQYSGLDGFVEVENNKKYIPKGISIWEIGTNKNVKLKLESDYSKRSEQDLGIDKSNSTFIFVTPRLFTTKNDWINEKKKDGIWKDIKIYDACDLEEWLELFPVISKWLKGMIHKLQIDNFLSINEFWDKFVGETEFEITSNMILAGREKEEKLIKIWIENDKPFLNIIGESKEEAILSFIAVVKKLESDKKDNIISKTLIVKSEEDWDLTSKHLKNHYLITYYDFTSPITNSNNKQLFTFGKEYKGSIDKGIELSFINRGKISEELRNIQIDSNKKYELEREMKGSIFRLIRLSSKNQLLKESDWIKKPNLVELLPALLVGCWNDENVKDKEIIEKISNEKYSEYINKLLNWTYEVDPPIKKINSIWKITNYKELWYKLHNKIDSSKFEIFIEQFEEIMKVTNPKFELEEGKQQFWQLYNKTTDFSSNLKNEMLKSITTLVCINDSYQLKIDYSIKNIIKNIDSKQKLQTFIENFEILSEISPDIVVDFILNNRDNEDFLSLFKPVDSFYGGDKSYMSILWGIEKLVWNEEYFSDCVNILFELVDCFTIDYNNNNPMRSLENIFNLYWPQTIVEYKFRLAAIESFFKKDAQKAWRLVTNILPKPHAVLFPNSSPIYREWGLEKREYHNNKEILIQTERIIELKCNNIFNVECCFDLISDYSNLPNNLKDLVLSSIYSYTKNLSEDKLQLLKVEIEQEINRHIRFKNTYWAIKGNYLDKLTELKDHIIIEDIILKNLWLFQNSEYNLFQDEENWEVSRSKAKKLRCEALVEIANKDRSLIFDLIKKSDSSSLFHIGYYCGELFFDNIDKEFILKLLDLKKYRVIHGFVRYFVSEKGVSIIVNFLNNTALLSNENKVMLLQYEDITSELLDFLSLNIEIEKLYFELQAEFRTNESKVAIKLIEKLMYYKHYVKAINFIYHECYRNKDIPSNLIVLALEGYLTSQKKTISSYNFGELFKYVYNKNDYDKNKLMILEWNYLKIFRYIDVNPEILNKEIITNPEFFIEILKMGFRDDDGNYFKKLDNNIQIYLNIKEFFDIWKFNINLNDSIEQNTLLSWLEYVTKFSKDHNYTKSVYTIIGQMLSKSPKGSDEVWPHEVIRDVLEKYYCKELFDGILHGKIYPNGIRVSHKNIYDAGNEERAIAEEYKNNSLKINPLHSKTKKLLKKLAEFYEKESNLEYAQLEHWGD;locus_tag=LOCUS_16070;note=WP_164923174.1 hypothetical protein (Pseudomonas syringae group genomosp. 3) [pid:24.1%25%2C q_cov:55.9%25%2C s_cov:96.0%25%2C Eval:1.6e-52%2C partial hit],MGA_1609
sequence1	MetaGeneAnnotator	CDS	1841575	1842633	.	-	0	ID=MGA_1610;product=Gfo/Idh/MocA family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986537.1;translation=MKKLNIGIAGFGLGGRVFHAPILASLEDYYIIKKIMTSNKENIKKANETYPEAEIVSKYEEILYDKSIDIVVIALPNLLHKEFAEKALFAGKHVVVEKPFTVTTKEAIELIKIAKNMNKIVSVNHNRRWDSDFLTVKKVIKSKTLGKIVEYEAHFDRFRNYIKDGTWKEAKKVGSGILYDLGSHLIDQSLELFGRPKEVFADLRMQRENSTVIDNFELILYYDELKVTLKASMLVREKGYKYSVFGREGTFVKSGTDIQEEELRKGNIPKDISNWGKEPENIWGEINSTINGMNIKGKIESENGDYRNFYINIYKAIAGEENLSVTPESATDVIHIIELAMLSNKEKRIVKF;locus_tag=LOCUS_16080;note=WP_011986537.1 Gfo/Idh/MocA family oxidoreductase (Clostridium botulinum) [pid:59.5%25%2C q_cov:99.7%25%2C s_cov:98.9%25%2C Eval:2.9e-119],MGA_1610
sequence1	MetaGeneAnnotator	CDS	1842664	1843725	.	-	0	ID=MGA_1611;product=DNA-processing protein DprA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124795245.1;translation=MNEWYKLHLAGLTRGEIYKLMIEFENFENIINSDLNILSLKLKIKKEKLIKIKKITDEEIMLEKSKYDKLGIKILSLKDEKYPYLLREISNPPLFLYYKGEMKIPNKTIGVIGTRKITAYGESATKKITKELIESGVTIISGLALGVDAIALNTALKSGGNVVAVVGSGLDVIYPYENKRIWEKIENEGLIISEYPIGTQPLRWNFPERNRIIVGLSNGILICESYKSGGSLITGKICLDENRELFAVPGFISYPSFEGCNNLIKRGEAKLVSNAEDILEEFNWDTDKSDIENEHIILSKEEEILYKKLVVEKNLDELIMETGYKGNNILVYLMEMEIKGIIKSISGGRYTRV;locus_tag=LOCUS_16090;gene=dprA;note=WP_124795245.1 DNA-processing protein DprA (Fusobacterium canifelinum) [pid:41.4%25%2C q_cov:78.8%25%2C s_cov:97.5%25%2C Eval:2.3e-63],MGA_1611
sequence1	MetaGeneAnnotator	CDS	1844080	1846311	.	-	0	ID=MGA_1612;product=DNA helicase RecQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948677.1;translation=MLKEAEKILKKYYGYDSFRKGQIKVVESILSKKDTIGILPTGGGKSICYQIPAMIFEGIAVVVSPLISLMKDQVDSIINLGLSAVYLNSSQTAKERNRIINEISMGIHKIIYVAPERLDSEEFINALNYNKLSLLAIDEAHCISQWGHDFRKSYLKIPEFIDRLKNRPVIGVFTATATPEVRKDIIKKLSLKNFNEYVNGFERENLYFEVIKGIDKKNYVLEYLKNNEGKSGIIYVATRKDVDKLYELLLDKKYLVGKYHAGLKDREKEYYQDEFIYDRIKIMVATNAFGMGIDKSNVNFVIHYNMPKDIESYYQEAGRAGRDGERAECILLYSPKDVMLQRYFIENNEFQANPEIIESKYEKLQYMNNYTTTSMCLKKYILSYFGEDIIEEKCGMCSNCNENIEKQDITVEAQKIFSCIGRVNQNLGMTMIANILKGSKSKKVIANRWDRITTYGLMSEYSVKDIKAMINLLIGDGYLEVTKGEYPVLKLSDLSYNVLKKGEKVYKNVIKIEKKVEANEELMRLLKEKRTEIASRENVPPYIIFSDNTLVEMSEYQPLTKNEFLRVKGVGEIKYERYGELFLDIIKKYIYEFDEENKVLDGTMVELDDEIAEDIIELPVLNDSETKKEDFKSTEGNNDAINEEIEDKKIINNEKSEMKIKAIKEMTIKELGKSKLKEAIGHCIKYLYSEDLDEIKESIISIGNLAEDYRSECKILIPVLEEKLNSENLDIQIEAKRSLEKVK;locus_tag=LOCUS_16100;gene=recQ;EC_number=3.6.4.12;note=WP_011948677.1 DNA helicase RecQ (Clostridium botulinum) [pid:54.4%25%2C q_cov:79.7%25%2C s_cov:83.2%25%2C Eval:6.1e-190],MGA_1612
sequence1	MetaGeneAnnotator	CDS	1846350	1846817	.	-	0	ID=MGA_1613;product=ribonuclease HI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003087954.1;translation=MEEILIYTDGACANNQSKNNRGGYGAILIYKGKEKEIYGGYRNTTNNRMELKAVIEALKSLKRKDIPVKIFSDSAYVVNGITIWINGWIAKGSAKKNPDLWLELYNLKKSFKNISFHKVKGHNGDEYNEIADKLAVKGSDMYDLEEDVEDKNARF;locus_tag=LOCUS_16110;gene=rnhA;EC_number=3.1.26.4;note=WP_003087954.1 ribonuclease HI (Pseudomonas) [pid:46.2%25%2C q_cov:88.4%25%2C s_cov:93.2%25%2C Eval:2.6e-28],MGA_1613
sequence1	MetaGeneAnnotator	CDS	1846857	1848404	.	-	0	ID=MGA_1614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKDKIFRYVIFTDIIITTVILIITSLILFNFFTYFKTEEIYLNNGNFKNYLSANISEIDNFMNMIANTNDVVFLFDKNKLISKYASESLKKELMKEISKKKIISEIEIINNNGESIHLGEKNKFKIGETLFIYKNSNINIIILKKLDSYENKKLIVVLKLSKIFENYLKNNNRMDINLITYIGDNIFVTKNNKTKTIKKEELKKYFKVENSKFNIKKLKNISFYITESKDIIYKHIFNFIVIFIILLIIIIFLLYLLSNKISKNTTNSIINMIKSVEAYDSTNFVPIEIKNNYEDEIKLLTLKFNNMGKDLSKYIHNLEEIVSERTKKLELQKKELKILNNKLKKNSITDELTGLNNRRYFDDRFIDDFKMSSREGFYLHFSIIDIDHFKNINDTYGHLAGDFCLKKLGKILKENLSRANDKVFRYGGEEFVFYYFSKEKENFLKILEKLRQNVENEDFIYENEEIQFTISIGGASMIPNLECCNTYNKYMKMADDALYKSKETGRNRVTMVL;locus_tag=LOCUS_16120;note=WP_010880121.1 GGDEF domain-containing protein (Aquifex aeolicus) [pid:35.8%25%2C q_cov:48.0%25%2C s_cov:72.5%25%2C Eval:1.1e-27%2C partial hit],MGA_1614
sequence1	MetaGeneAnnotator	CDS	1848498	1849439	.	-	0	ID=MGA_1615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILILMVLMFSFAFSRDLNEIKKSGYLIIGIRNIPTGGIYQPKIKDKQGFTFELAESFAEYLNVKLKLYVVKSFKEYWTKDGEIMFKKNIIGTPDIYKKVDIIADIITVTESRKKLVKMTPFVENVSMFFTRKNEDINNYQDFKGKKIITMEVFNFYNTIRKELKKRDINYIVNKVSIKNNKFTYLGRTKKVNKNDVEIDIIPTGDYIDRMGFYYQVILGNADVSISDSFSFFPKLLTSLTFKDNLKALFPAENKVGYLAFCSSYNTPELNKMLSMFMEEFRKTERYNLLFEKYTGISYTEYKKIFTDGN;locus_tag=LOCUS_16130;note=MGA_1615
sequence1	MetaGeneAnnotator	CDS	1849769	1851091	.	-	0	ID=MGA_1616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIIAMFVLINIMAISAGIPSWYLNNGNSEYSTNNYFIGLGEGKNYKEAEMAAQVDIASQIKTNIDSSIESKTVQSTVGNKENYSKNVELNIKALANEVLIGVDFVKKEKSGNSFYVLALLDKSKYLLGLETELDKISEEIKKDEELNLTPYVLVKEYLKAKKKVNEFYKKKIIYDSISNNEYIIPTFFSQLDFNAKIKKIISNIYFEVVDGKNQYGKEGEVLKNPIVFKIKYKNEVIPNFPIVVKYQNNKILEKATTDNNGEFKVYVTVFTDESRNGKIIASVDLLKVPFELKDYFKNIKVYANYFRKEEKTTNFSVNIVNEKNQKIKSINRNISRLIVKGGDIISKKANLIVTGKVSVDSIDEVESYSGTMYVANVNLDLNIVENKTKLVLSNITFKGKGIGKNREKAIESAYRKIRISKKKFAVMVAEAKRKFGR;locus_tag=LOCUS_16140;note=MGA_1616
sequence1	MetaGeneAnnotator	CDS	1851134	1852414	.	-	0	ID=MGA_1617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKLILIFMFFITIFGFASNLPLSKEATIIENVSSAEVLMKGTGIYKSKERSKRKIKKDIEKNGIFNAIKDAKRAIIYYLLYEGTDPILSSNDEKNKFQNIEEKYFEIGKINNYITYESTRFSKKIIIDRGKGIKIAKSFKVNKELLMKDLTNDGVLIKRENLVEKLGNPSIMVIPMTKKGENPIELLNKNDNMRHISSVIESYLTAKQYDVVVPEQQEKMNKLNSAQMGLADAEEDFSYKLALSVGSDIYITFSGELTDAGYGTKQYVVNLKAYETTTSRLLGTETGYSNSRDGNVKISIEEAVNDAMNNILSRINNYWVADLKKGIQYKLVINCSDEFDEDELEDIQFELIDIIEKLSNKSKENIVSKNMIDYSIWVSNEKLSSSFKIYRYIKKEFGKSGMDGRIKKINLNRKMIILEVSPE;locus_tag=LOCUS_16150;note=MGA_1617
sequence1	MetaGeneAnnotator	CDS	1852583	1854358	.	-	0	ID=MGA_1618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGEDGKYVRKSITAVDSVWVKPGAIAEGYKFNYKMLDEMLDFYVKGINPIKETKDIKSNSRFDFNILPQKLTTKFRRKANALKRVTPKRISKILENTVGKEILNILNSNEIKKIRIENLKSETDLETFAATKGKSLGATFEEMKILMNSAYIYLPYITSVNKVVKGKNILYKIDGGIIWYHVEISKTGEVSIKELVADETFAIGTSEIGAKDIFGNYKYRKFNFAGNSYNVSEAQYAQYSAILALAKNLGVKTKKIDDFKLAAQIVEVKSGKEYSISLGHKEGLFLDDAFDIIEKQENENGKIITKKVGFARIIKTGDNKKDPTNYSTIKQYIGAPQTEGTLITEHPLLGLDLKLKAVSAANLNIKKEDINFILDWAKNGGYSSSYQDEIITEDANKASGIEGIFSYDLAPIINSPQTFLDLDLMAMLPELTTTTDDTPTIYTYSAYLGLSKKMWFGRFNLNGGMGLGVDMLSFNYNYKSYYKYNYDYYDEYTYDISFLSYGVKLDIGTEYLLSPDLMLDLGITYKISLKPSKVTTKYTNNRSGDEFNKDYTASGFNSTLGGMSIGLGFTYSLGELPFDVFGVLDPLKRY;locus_tag=LOCUS_16160;note=MGA_1618
sequence1	MetaGeneAnnotator	CDS	1854473	1855774	.	-	0	ID=MGA_1619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKLFIIFILLNAILNAGIFKIEKIDGEKPWWTKNYVIEGLHSSIGEVDKTLGKTNNAIREEAISSAKAELAGNKSTTIKTEIKTVKTNTESQTAVGSVQTVDTKLKVEIIDSWENDKKYYVWVVEKTDNWENDKKIIKNMIEKNNKKTKIRREKILKENEKNKESKKYDNRIIEKHFNRVLINIGQGEAKLGEIANIYDYSLKKVGEMEIVELFKNESLGKVSLWSSFKIKEGYGVKLTGLSKRKKYIPIDNTYKVFSENIEQAKVIRNRNYLLKIDRNFAENINNMDFKYGLFDFFELLLKYDERDFNYGIKLGLDFKKINIGGIYFVKDKSFDILLDSKFIMGMNSHLNYKKTDSDKIIVLGLSKNIERITIYGDAKYDMNKNKIDEELIKLTLNIVKDKKLYLDLGMKRDEDLKDSSFFMGISKIGTF;locus_tag=LOCUS_16170;note=MGA_1619
sequence1	MetaGeneAnnotator	CDS	1855826	1855990	.	-	0	ID=MGA_1620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSIFIIGMVFVSFGCKRAEVKKVKVKKDNSKVLKRAQENQKELTNEVDKY;locus_tag=LOCUS_16180;note=MGA_1620
sequence1	MetaGeneAnnotator	CDS	1856016	1856435	.	-	0	ID=MGA_1621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAGIVIFIMLLSLVGCSSMNSKGNSFKNENSSNKMPNWVFNSTLNGKYKLAGIGVSKRTIDGTTRQREIAISRAIDEISKQMGIKVSNRSLSHATKSESSFEQYSLQTVEGKTVNAVINGMWYNKDTGELYIWMVVK;locus_tag=LOCUS_16190;note=MGA_1621
sequence1	MetaGeneAnnotator	CDS	1856432	1857607	.	-	0	ID=MGA_1622;product=membrane-bound lytic murein transglycosylase MltC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005417550.1;translation=MKRILMLIICFQIIFIFSFGDDGFENYKKNSNKEYQTYKKNIEKEFKNYEKIQKEEFENYKKNILKNWKNPKVSSAKIFVEYDNKYSERKIVDFEKGEITIEKIVDKSRDEKTIKKDLAKSFSKLILEDTNTAFNRNEYLKNTEKRLNKKIKSPISFPIITDIYLKKGEKNIKKVSEIVIDKVKRNKLKMEKSKIKGKKRVIIKIKLPKNYKNKKALMYSKYIKKYSEKEKIKESLVYAIIQSESDFNPMSTSYVPAYGLMQIVPKSAGADATKKLYGKVKILTPKELYNAPKNIEIGAAYMNVLYYRYLRKINNLESRMYCTIAAYNTGAGNVSKAFIGNTHISRAIIKINKMSPKKVYNRLIKKLPYKETREYLKRVSIRERKWREVIK;locus_tag=LOCUS_16200;gene=mltC;EC_number=4.2.2.-;note=WP_005417550.1 membrane-bound lytic murein transglycosylase MltC (Aliivibrio) [pid:30.9%25%2C q_cov:83.9%25%2C s_cov:83.1%25%2C Eval:3.4e-31],MGA_1622
sequence1	MetaGeneAnnotator	CDS	1857811	1858392	.	-	0	ID=MGA_1623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSVAGALILGALGLSVLGGCANNKPKPETKVQQQSQYPNWVMNPSVEDGIAAVGSAKIGAAGLSFARTEAMANARDELARQLEVKVNNMFKSYTNAVGVGGQDGVDKVATNVSKQVSSKVLTNSKQINMWISPEKEVYILVAIKKEDTLPKIKETVNSTLRNEKALWQEFKSKNAQDELDSSIDKMFNKGN;locus_tag=LOCUS_16210;note=MGA_1623
sequence1	MetaGeneAnnotator	CDS	1859455	1859883	.	-	0	ID=MGA_1624;product=IS200/IS605-like element ISDra9 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010888562.1;translation=MEYRKGSHSIYDIKYHIVWVTKYRYKILKGEMAKRLRDLIRQGCEARNITIVKGNITKDHIHLLISCPPTLSPAKIVQYLKWRSSKLLQDEFPELKKKYWGQHLWGRGYFCGTVGSVTEEMIKEYVENQDKMKDNDIFKITE;locus_tag=LOCUS_16220;gene=tnpA;note=WP_010888562.1 IS200/IS605-like element ISDra9 family transposase (Deinococcus radiodurans) [pid:44.4%25%2C q_cov:95.1%25%2C s_cov:93.1%25%2C Eval:5.5e-34],MGA_1624
sequence1	MetaGeneAnnotator	CDS	1860154	1861062	.	+	0	ID=MGA_1625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVAVKRFIGPTEKETTDDLIKLSMYYGFDYRFCNTRRGNEKGHVERGVEFVRRKSFSRNLESSSLEEANNHLENTLKNINSKPRKWMGNKSPEDKLKEEKEYLLKLNPDYVIAKKVECRVNKYSTITIEQNKYSVPERLVNKFVEAKIYPENIKIYFEGELLATHERSYKLQDWILDINHYLETLKRKPGSLKHSTSLQCSEHRLQEIYTSYYSKKPKEFLELLEIIREKSLKEVEKVIEELLKNGEKLVTTENIKNIINQEKIAIPEAVDKNEIEEKSIELLEKISEIFTSNNNETRYIS;locus_tag=LOCUS_16230;note=WP_002289052.1 IS21 family transposase (Enterococcus) [pid:27.9%25%2C q_cov:64.6%25%2C s_cov:41.5%25%2C Eval:2.0e-14%2C partial hit],MGA_1625
sequence1	MetaGeneAnnotator	CDS	1861059	1861814	.	+	0	ID=MGA_1626;product=IS21-like element helper ATPase IstB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289053.1;translation=MKNNELKLIKEYLKELKLSGIATELEEKVEEANKTEQSYELFLKEILELGIDKRRENGKLNRLRYAKFPYKKYIEDLEKESLPKEAQIRLKELKSLKFIEEGRNLILAGNAGTGKTHMAIGLGIEACMKGYKVLYVTIPLLINELKETRSGGKLRVFEKRFEKYDLVVCDELGYISFDKEGSELLFTFLSLRAGRKSTIITSNLPFNKWNEVFKDPVLTAALVDRLIHKSYVINMNGNSYRTKETLEWLKT;locus_tag=LOCUS_16240;gene=istB;note=WP_002289053.1 IS21-like element helper ATPase IstB (Enterococcus) [pid:39.2%25%2C q_cov:94.8%25%2C s_cov:96.3%25%2C Eval:1.6e-40],MGA_1626
sequence1	MetaGeneAnnotator	CDS	1861894	1864947	.	-	0	ID=MGA_1627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYNEKLQKIRNNEIILITIGREKSLLSMIVIVFMFTGCFNQKDDQGNLSGVIKESGGNVLKDVKVEIGGKATLTDGLGKYVINDLKFQKYSLIAKKEGYKQITKDIQISEKENIINLELKKLVAPKMDIKETITDKTINLTINATDSDGEIKEVTIDWGDNTTSLTITSGFDNIIKEHIYSSEGTFTIKVTAKNDDGAISSEALNVKVPNIVPKINITSEIEGLKLTLTGTVKDSDGEVKEVTIDWGDNTTSLAITSGFDNIIKEHIYSSEGTFTIKVTAKNDDGAISSEALNVKVPNIVPKINITSEIEGLKLTLTGTVKDSDGEVKEVTIDWGDNTTSLAITSGFDNIIKEHIYSSEGTFTIKVTAKDDDGAISSEALNVKVPNIVPKINITSEIEGLKLTLTGTVKDSDGEVKEVTIDWGDNTTSLAITSGFDNIIKEHIYSSEGTFTIKVTAKDDDGAISSEALNVKVPNIVPKINITSEIEGLKLALTGTVKDSDGEVKEVTIDWGDNTTSLTITSGFDNIIKEHLYSSEGTFTIKVTAKDDDGAISSEALNVKVPNIVPKINITSEIEGLKLTLTGTVKDSDGEVKEVTIDWGDNTTSLTITSGFDNIIKEHLYSSEGTFTIKVTAKDDDGAISSEALNVKVPNIVPKINITSEIEGLKLTLTGTVKDSDGEVKEVTIDWGDNTTSLTITSGFDNIIKEHIYSSEGTFTIKVTAKNDDGAISSEALNVKAPSKLKWSYKTGDWVSSPAIGSDGTIYVGSSDNKLYAINPDGTLKWSYLTGYWVTSSPAIGSNGIIYVGSWDHRLYAINPDGTLKWSYLTGYRISSSPTIGSDGTIYVGSRDSNLYAINPDGTLKWSYLTGNSINSNPAIGSDGTIYVGSHDNKLYAINPDGTLKWSYLTGDWINSSPVIGSNGTIYAGSCDHKLYAINPDGTLKWSYEIENSIDSSPVIGSDGTIYVGSYDRNLYAINPDGTLKWNYEIGYIIYSKPAIGNNDTIYVGSYKLYAINLRSK;locus_tag=LOCUS_16250;note=WP_011021765.1 DUF2341 domain-containing protein (Methanosarcina acetivorans) [pid:56.7%25%2C q_cov:33.2%25%2C s_cov:8.8%25%2C Eval:4.3e-104%2C partial hit],MGA_1627
sequence1	MetaGeneAnnotator	CDS	1865308	1865517	.	-	0	ID=MGA_1628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLIGRVEEFKELHEYYTTRAKNPLKKKQSIIAISCKLIRVFYAILKKGIKYNAEKLVNDIKRPELQAA;locus_tag=LOCUS_16260;note=MGA_1628
sequence1	MetaGeneAnnotator	CDS	1865557	1865769	.	-	0	ID=MGA_1629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIEELLKKIPNSNLMLEIKGVGLTTVAGFIAEIGDISNYNSPKQIQKLSGLDLKENSSGKHKGKTSISK;locus_tag=LOCUS_16270;note=MGA_1629
sequence1	MetaGeneAnnotator	CDS	1865811	1866506	.	-	0	ID=MGA_1630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYTQNKKILQVTEKTLVVGIDVGSEEHYARAFDWRGLELGKVFKFKNTREGFLSLNNWIETLKKNNSKTKTLIGAEPTGHYWFGLGSYLKNTNKKLVLVNPFHVKRSKELDDNNPSKTDMKDPKTIAKLVIEGRYNEPNILEGEYAELRVANNNRLNLIKDLNRIKNKVERWLKIYFPEYKRVFKDWTGKGSIMILKEIPLPSEVLSYKVEDINQIWRKEKVRAIGEKRV;locus_tag=LOCUS_16280;note=MGA_1630
sequence1	MetaGeneAnnotator	CDS	1866640	1868334	.	-	0	ID=MGA_1631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNKLIILFLILFLSGCFLNEKLKIDKVELNINKKLIRADGTDKLVLKGIVKNKYGDILTNYHINYYVNRQKIENNFFSTDKSGKYILECEVEGIRSKSIEVEFDKPPVLNMFGKRENNNINLSGNILDIDGKIKKIQIDWENDGEIDEEIDENFLMLNLNHSYNLEHKTIELKIIAFDDKGLSTVKTYIFFYNKHFENVIKAKLDIPENGNIYYNDLKQVKNLLIYKFDLIEELKYFTNLKTLYIESIENKTLIKFIIPKLDYLNDLTIENCRISDFSFLKNIKNLERLNLEKDDIENFNIDEYIKNLKELDIIQNKIDNIKRLINLMGLEKLYLPYLKNKDFEFIKKLNNLKELYLAGDNIEDISFLGNLKHLEKLDLSENSIKNILPLTDMVNLKELNLEGNLLEDISSIENLTKLEKLYLSDNQLKDISKLEKLTALKILDLKFNEIIKLDGLDNLINLEELMISNNKIDNLFPIVNLMNLETLEFSYNKIKEISYLQNMTNLENLYADNNLITDLRVMLELNSLKYLNIKNNPIYENVQIDNYKIILELEKKLDIFEY;locus_tag=LOCUS_16290;note=WP_011986496.1 leucine-rich repeat domain-containing protein (Clostridium botulinum) [pid:29.1%25%2C q_cov:52.8%25%2C s_cov:83.7%25%2C Eval:6.2e-27%2C partial hit],MGA_1631
sequence1	MetaGeneAnnotator	CDS	1868705	1871308	.	-	0	ID=MGA_1632;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015785.1;translation=MLKKMLGRIIGTKNEREIKRMLKKVEKINELEPQFQALSDEQLKAKTVEFREKLANGETLDDILAEAFAVVREAGKRVLGMRHYDVQMVGGIVLHEGKIAEMKTGEGKTLVATLPVYLNALTGKGVHLVTVNDYLAKRDKEWMGKIYEFLGLKVGVILNGLENDERKEAYDSDITYGTNNEFGFDYLRDNMTTDKGQKVQRELNYAIVDEVDSILIDEARTPLIISGAAEETTKWYKIFADISIQVIKGTDYEVDEKAHSTLLTDVGIKKVEKILKIDNLYSPENVELTHYLNQALRAKELFKRDKDYIVKDGEVVIVDEFTGRLMSGRRYSEGLHQAIEAKEGVDIAGENQTLATITLQNYFRMYTKLSGMTGTAETEAGEFMHIYKLPIIIMPTNKPIARKDNPDLVFKTKREKIDAIVNRIIELYKKGQPTLVGTASIDSSEELSAVLKAKKIPHSVLNAKHHEKEAEIVAQAGRYGAVTIATNMAGRGTDIVLGGNPEFMAKLEAEEGTEEYEKLLKKHEEHCSIEKEKVLAAGGLFILGTERHESRRIDNQLRGRSGRQGDPGATEFYLSLEDELMRLFGSDKVRNVMERLGLPEGEPIFHPMITKAIENAQKKVEARNFSVRKQLLEYDDVMNQQREIIYDQRNKILEKDNLKSEVLNMLKSTSDFEATIKLTGETPEEWDVEGLKDRLYELYEYDLNIENIKEKDVEDIKNEIYSELVDIYESKEKEFTEELMRRLEKYIMIEILDGRWRENLQVLDSLKEGINLRAYGQKDPVVEYKILSSEIYSDMIKTVKEETTSYLFKIKVEKPDFIERQRVETPMYYNTSEDEEVKKKPIRKTKVGRNDPCPCGSGKKYKNCCGR;locus_tag=LOCUS_16300;gene=secA;note=WP_011015785.1 preprotein translocase subunit SecA (Fusobacterium nucleatum) [pid:62.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-314],MGA_1632
sequence1	MetaGeneAnnotator	CDS	1871459	1872409	.	-	0	ID=MGA_1633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545019.1;translation=MKLIDIFKLGIEAGIKADPRKDRVKEVLEENKKLYEKEENKEYFNESLIWNPYNDSNILYGDENLDIKNIAVGIDMEAQELLIVDRLREKGEKIDLVLAHHPEGKSLFGLNKMIKIQEDLLLEAGVGVSTAEKILNESLVKYGRSLMSLNYNRAIDTAKILDIPFMNIHTAADNAVHTYLDELFKNKMPYKLKDIIKILLEEEEYKIASRNQNAPKIISGTEDNRVGKIYIDVTGGVEANDSIYEKMENAGVGTLIGMHMSEAHLKKAEEHNINVIMAGHMSSDTLGVNLILDAIEKVQKFDKVIDMSGFTRIRRI;locus_tag=LOCUS_16310;note=WP_012545019.1 hypothetical protein (Thermodesulfovibrio yellowstonii) [pid:41.8%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.5e-71],MGA_1633
sequence1	MetaGeneAnnotator	CDS	1872845	1873915	.	-	0	ID=MGA_1634;product=mannose-1-phosphate guanylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966353.1;translation=MLTAFIMAGGSGERFWPLSTKEKPKQLLKLVSDKSMIRETVDRILPIIPAERIFIGTNAIQANGIKKELPMIPEENIIIEPSFKDTAAAIGYGALNIDIRYPNSEMIVLASDHLIKNEENFRKRILSGAEEAKKGNIITLGIKPTKPETGYGYIETEAECYIGEASKVIRFWEKPNLERAEKYVESGNYLWNSGMFIFSTKTILESIEKFMPNHWETLEEIKLIMGNKEIDPKEKKVRIEEEFEEFEKISIDFGVMEYAKNIKVIPVDFGWSDVGSYTALDEVFDKNEKGNIVKDARVIDIDSKDNIVVGEKESEKVIAVIGVKDLVVVDTKDSLLICSKKNAQHIKKVIKELKNV;locus_tag=LOCUS_16320;note=WP_010966353.1 mannose-1-phosphate guanylyltransferase (Clostridium) [pid:42.1%25%2C q_cov:99.2%25%2C s_cov:99.4%25%2C Eval:3.0e-71],MGA_1634
sequence1	MetaGeneAnnotator	CDS	1873993	1876470	.	-	0	ID=MGA_1635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISQKLILLGGILLIVIILIGQNGILQVQSMKKGVETISGVSNKILKNTIPLIESTVKIENSILNLKVKERTILLEDNLKEIKKSKREIENIHKIINVQAGDLGDNNKIVDLKKNIETVKNSIEKIIALKESIIIKEDVNNENLKKLLVTTEELKGKIRNLEVNYKSNINKTIERKLKNSIRIEEMQLRRKKAIVNNKEFTDLQVANTVKGNVYVSKYFYVGGYGKKGYGIILDKNFNVLFHPYLKKLPKTLKFDKNSGMILTSDLRNSENNLEDAVIYYKKTKYRGIILGAVMFSSDIYNLTDFKLLNSKLLEIIGYEKDSFILKGDSYNENTKKWSDAVAKYRVILKKQLEKYPKLKKVYIELGKKLDIHTKIFDSISQYQSFKNEKWVDIYKEQSKVDENINKSLGITDELRKVTSKNVSDTVDKSEIIKNGISKKAKSSKTFVIIILVIGVLIGILLTAVISFMITNPIFKLKTLMKKAENGDLNVVAEIKTKDELKDLADSFNNMIKGMKDIIVNSKNVTLEVGKEAENLVSSSVESRNSVESIGENSIKVKNNSEENISRIKMFSSKIKDLTKKVEMVSNKITVSSENSIEMSSIANEGYSFSNNLINDVKDIIVNSEDISKLIEDLSEDIKNISQFLLKINSISDQTDMLALNAAIEAARAGEAGKGFAVVAQEIRKLSGETNDIANDISSYVGEIEKKNTEIVNKTEKTERISKVTQDGINEIKSKLNNIMKTADLIKENMGNITLVEDEQIKDFELILKDSDNIEKDNNKILEDINEINVSIEEQMKVIEYISESAENLNSKVENLNGIIEKFKI;locus_tag=LOCUS_16330;note=WP_011460093.1 methyl-accepting chemotaxis protein (Desulfitobacterium hafniense) [pid:25.4%25%2C q_cov:44.5%25%2C s_cov:54.8%25%2C Eval:1.1e-38%2C partial hit],MGA_1635
sequence1	MetaGeneAnnotator	CDS	1876762	1877955	.	-	0	ID=MGA_1636;product=maltose ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228835.1;translation=MKKSLLMLIAMLIVTSLSFSTEIQIWEKWESTIDPTYDKAIAMFEKENPGITVKRVHYAPEDLRYNFQNAAFSGNPPAIVLGPSDTVGVYATMGIIKPISEVKGLDQEFLKKFIPTSLKQLTIFGELYGVPEQIGNHLTLIYNKKYVKKVPTTWKELLATDYGTEYKLVYNLNEPYWFVGFLGAFGGWVMDDNSQPTLDTPAMVKALQFVHDLKYVSKAVPTEADYGTADSLFKDGKAAFIINGDWSYSSYKSVLKDNMGLAKVPQVPGGGFYSPMTAVQGLFVPEGLDPKVEEAAGKFIKFITRKDIQLFTATRDKTLPVNIEAANDPSIKNDPFLAGSVAQMLMGKPMPIVPEMRAIWDAIRPFQEDIMNDKISAKDAAAGMQKLAEKKISDMNQ;locus_tag=LOCUS_16340;note=WP_011228835.1 maltose ABC transporter substrate-binding protein (Thermus thermophilus) [pid:32.8%25%2C q_cov:79.8%25%2C s_cov:80.9%25%2C Eval:3.1e-35],MGA_1636
sequence1	MetaGeneAnnotator	CDS	1877970	1878437	.	-	0	ID=MGA_1637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRGIAVASILIVLSFTGCTGLSKKGNTSKDLKAQVVKLQEENRAYAKSLDKLVVDLKKAKLNVKRVQSTYKKLMAQKVKEVEELKLKLSKAELKTRRVQNTYKKLMAQKVKEVEELKLKLSKAELKTRRVQNTYKKLMAQKVKEVEALKAKLKK;locus_tag=LOCUS_16350;note=MGA_1637
sequence1	MetaGeneAnnotator	CDS	1878552	1879442	.	-	0	ID=MGA_1638;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003976585.1;translation=MAMKDKLSKRIIIHTILIIASILAIYPILRVVTISLRPGDRAFTASLAIIPKDASFDSFKNILFLRGLDPKYASADLITKFFHASFWIWLKNSTIVSFFTVIFGVSFASTAGYAFSRFNFPGKKSGLTFFLITQMFPATMLLLPMYLVMSKLHLTNTYFGLILMYTTTALPLCVWQMKGYYDTIPYTLEEAAMIDGASQFKAFYKIILPLVKPGVVVTALFSFMASWTDFVVANVFMQKESLKTLPLGLQTMAGQFQTEWGNFAAASILVMVPAMALFMYLSKYLISGLTLGGVKE;locus_tag=LOCUS_16360;note=WP_003976585.1 ABC transporter permease subunit (Streptomyces) [pid:37.5%25%2C q_cov:93.6%25%2C s_cov:85.1%25%2C Eval:1.1e-52],MGA_1638
sequence1	MetaGeneAnnotator	CDS	1879442	1880989	.	-	0	ID=MGA_1639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQNKTTLYTASFLLFLLFAITLFFSRNTYLGGVLDNKKVKRKVMRTTEYRKSDLKKDSIFRRFPLSTTISMKKYRGKILQFKEVKKYQKLTDNELSKSNFVFYSLIIISLIFAFAVLAYKRLYFLLTLNTILTAGVLLYDKLLGIGLHNLGLKVSVINKLGVAEVTQHVVVITVYIISLIYIIRGGLKKEEKKSVKENIEETKKEITKTYNWVKKERFAYYMLFPAVLIVLVIIIYPFLYNFRISFSNLNLKRFIVFIKADKLYYNGFENYLSIFGDVLFWKVFMRTIIWTFANIFFHVTGGIFLAILLNREMKMRPVYQTLIIMPWAIPQFIAVLVWKGMFNGQYGAINLMMNDVLRFFHINATVTIPWLTNANWMLTGAIITNVWLGIPFMMMIALGGLQSIPETYYEAAEIDGATSWEQIKNITLPLLKPVMTPAVIMGVVWTFNNVNVIYLMSQDKLTGKVDILVTYVYKAAFNLYRYGYAAAFSVAIFLILMVFSVLLIKVTKAEEGVR;locus_tag=LOCUS_16370;note=WP_003243623.1 arabinogalactan oligomer ABC transporter permease GanP (Bacillus) [pid:30.4%25%2C q_cov:70.7%25%2C s_cov:86.8%25%2C Eval:2.9e-52%2C partial hit],MGA_1639
sequence1	MetaGeneAnnotator	CDS	1881014	1882120	.	-	0	ID=MGA_1640;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228038.1;translation=MAKVVLKDMEKTYPNGFKAVHGHNLEIKDGEFMVFVGPSGCAKSTTLRMIAGLEEITGGTVAIGDTIVNELPPKDRGIAMVFQNYALYPHMNVYDNMAFGLKLAKTPKEEIDKRVKDAAEILGITDLLDRKPKEMSGGQRQRVAVGRAIVRDPEVFLFDEPLSNLDAQLRVHMRVEITKLHKRLGTTMIYVTHDQVEAMTMGDRICVMELGVIKQVDTPLNLYNKPENKFVAGFIGSPSMNIVEAKLEKEGDTTYVVTEHMKLRLPKEKADKVQKYVGKEVWFGIRPEHIGSHETHPNEKDNYVNSEIYVVEQMGNEVFVYFTPGKNQYIARLGSEGVTVKSGEKYEIWFDTSKCHIFDKETEENISL;locus_tag=LOCUS_16380;gene=ugpC;note=WP_011228038.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Thermus thermophilus) [pid:58.7%25%2C q_cov:99.5%25%2C s_cov:97.1%25%2C Eval:1.6e-115],MGA_1640
sequence1	MetaGeneAnnotator	CDS	1882184	1883182	.	-	0	ID=MGA_1641;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860719.1;translation=MGVTIKDIAIKLNISKAAVSKALNDKEDISIELKDKVKKTAKEMGYSPNYFAKKLATKKSNTLGVFILGKENLKGEEYYGYKFLDGIIETAVSYAYDILVFSENKNKSYTEIIREKMVEGVIFIGVDSEDKKINSVKDLLLPISIIDFHLKGENISFLSSDSYKGVKSVIDYLTELGHEKIGIIIGGEAEISKRRYFAYKKILESKNLFHKKYVYEGDFTKKSGYEIGKRLFRKKDRPTAIFSVSDLMAIGFIEGVKANGMKIPEDISVVGFDNIGFGYYSNPSLTTVDQNPLEIGQMAVKYIMDVIENKNVNNEILIEPKLIKRKSCKKIK;locus_tag=LOCUS_16390;note=WP_011860719.1 LacI family DNA-binding transcriptional regulator (Clostridioides difficile) [pid:32.2%25%2C q_cov:96.4%25%2C s_cov:96.4%25%2C Eval:5.3e-35],MGA_1641
sequence1	MetaGeneAnnotator	CDS	1883550	1884161	.	-	0	ID=MGA_1642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIFIDKVKVDADIEKTDDLDTIIKEVENFIKETGKVIISINIDGRALEDVDNVTINEVKKIEFETQIPQVLLLESFQEMNNYIYKLKDGIQNIVNLLAIEEESEAFTIIVQLTNGLEWIDNVFSSVKEILGIEFKKIEFDELIESFQNIVESIVESIEDRDYVLLSDILEYELLDMLEDIEKKLPILYDEILEDGKNKYMKS;locus_tag=LOCUS_16400;note=MGA_1642
sequence1	MetaGeneAnnotator	CDS	1884297	1886291	.	-	0	ID=MGA_1643;product=flagellar filament capping protein FliD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392286.1;translation=MAGVQLAGMASGLDTSSIIQQMLEADRQPMYQKQKEINKIKMEKTIWQNIDSKMSSLKSAATNLKFSSTFDSRTVSSTDDSKITGTATTSASASSYVLENVVLAEPGKITSGTALNFTDGVKANVEETSTLTDPNEKFSVGGSVTEGSFKINGKVVDVIADDTINMVINKINVSNAGVVASFDSTTGKFKIEAKEASTSQNIEFDSTDTSGFLTAVGMETHLGEKIENGENPDYQKKITDVSNLSGVSNGFFTINGYTFEMNTADDSIESIINDINGSSAGVTAFYDNDTKKMTLTAKESGDDITLENDTSGFLASMNLMNQTDDTDATTEKSVYSGSDATVTINGVNFTKPSNKFNINGVNFELKSATDTGEKITLSVSQDTDKAYGEISGFVDKYNNLISYLEDKTKKDGELQGDSMAVNLIYSLRNKLTGTVSGLDSDYNQLALVGVEASDTKTSTLKIDKSKLTEALKANMEAVKGLFTQDIGTGTITDEAVGTGDGTTVDYSLNYTPSSIDKVTLQVGTTTYTASNSTNKLITSGTPQAGEIYVNLQSGELKFGTAPASGETITSTYDYDENNSRDGIAVRLKSYLNPYTIYNGTMDSHIKSLDSTVKDMNEWIDSMNSRLKMRSDSLKKQFTAMEQAISTSNSQSSWLTGQLASLGTS;locus_tag=LOCUS_16410;gene=fliD;note=WP_011392286.1 flagellar filament capping protein FliD (Moorella thermoacetica) [pid:26.1%25%2C q_cov:75.3%25%2C s_cov:88.9%25%2C Eval:3.6e-37],MGA_1643
sequence1	MetaGeneAnnotator	CDS	1886344	1886676	.	-	0	ID=MGA_1644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVENVGAYLENSPPIKKMEVPKEAVEKDKKIGYNNIKNKVETKLKELGIKTDNKDKGIRYEKDDDTNKWVVKIYNEQTGEMLQQIPAKEIINVAKGVEELIGNVLDKKI;locus_tag=LOCUS_16420;note=MGA_1644
sequence1	MetaGeneAnnotator	CDS	1886809	1887627	.	-	0	ID=MGA_1645;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987022.1;translation=MIINHNISAMNSYRNLTNSEGTIAKSLEKLSSGLRINRAGDDAAGLAISEKMRGQINGLNMAERNSQDSISLIQTAEGALNETHSILQRMRELSVQSANDTNTSSDRDMIQLEVNQLVSEVNRIGETTQFNGMNLLSGSYSTTGLSFHVGANASQTVTLNISSMRASALGISSISVSSQTAANSAITTIDTAITSVSTQRASFGAMQNRLEHTINNLGTASENLQAAESRIRDVDMSKEMVNYSKESIISQSGTAMLAQANSMPQSVLNLLK;locus_tag=LOCUS_16430;note=WP_011987022.1 flagellin (Clostridium botulinum) [pid:60.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-84],MGA_1645
sequence1	MetaGeneAnnotator	CDS	1887827	1888663	.	-	0	ID=MGA_1646;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987021.1;translation=MIINHNMSAMNSFRNLTQTNNNVNGSLEKLSSGLRINRAGDDAAGLAISEKMRGQVKGLDMAAKNAQDSISLIQTAEGALNETHSILQRMRELAVQSSNDTNTTTDRGEIQKEMDRLRQEVDRISGQTEFNTKTLMTGSYATNGLRFHVGANEGQFVSLKFNSMKASALGISGASASQALSITSAASAETAITTINTAIESVSAERSKFGAMQNRLEHTINNLNTSSENLQAAESRIRDVDMSKEMVKFSKNKIISQSGTAMLAQANAQPQGVLQLLR;locus_tag=LOCUS_16440;note=WP_011987021.1 flagellin (Clostridium botulinum) [pid:59.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-85],MGA_1646
sequence1	MetaGeneAnnotator	CDS	1889083	1889922	.	-	0	ID=MGA_1647;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987021.1;translation=MIINHNITAMNSYRNLSQTNKTINGSLEKLSSGLRINRAGDDAAGLAISEKMRGQVKGLDMAKKNAQDSISLIQTAEGALNETHSILQRMRELAVQSANDTNTTTDRGEIQKEMDRLRQEVDRISNQTEFNTKTLMTGSFATNGLRFHVGANENQFVSLKFNSMKASALAISGASASQALSITSAASAETAITTINTAIETVSAERSKFGAMQNRLEHTINNLGTSSENLQAAESRIRDVDMSKEMVAFSKNKIIAQSGTAMLAQANTQPQGVLQLLRG;locus_tag=LOCUS_16450;note=WP_011987021.1 flagellin (Clostridium botulinum) [pid:58.2%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:5.3e-83],MGA_1647
sequence1	MetaGeneAnnotator	CDS	1890180	1891019	.	-	0	ID=MGA_1648;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987022.1;translation=MIINHNIVAMNAYKNLSTTNDSVTKSLEKLSSGLRINRAGDDAAGLAISEKMRGQIRGLDMASKNSQDAISLIQTGEGALNETHSILQRMRELAVQAANDTNTSSDRSEIQKEMNQLKQEIDRIADSTEFNTKKLLTGAFATTGMVFQVGANQGQSISLKINSMKASSLAISGASASQAISITTATAAETAITTINSAIESVSEQRSKFGAMQNRLEHTINNLKTASENLQAAESRIRDVDMSQEMVKFSKNKIISQSGTAMLAQANAQPQGVLQLLKG;locus_tag=LOCUS_16460;note=WP_011987022.1 flagellin (Clostridium botulinum) [pid:60.7%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.5e-85],MGA_1648
sequence1	MetaGeneAnnotator	CDS	1891698	1891934	.	-	0	ID=MGA_1649;product=carbon storage regulator CsrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000960595.1;translation=MLVLSRKKNESIIIGDDIEIVVVDVKGDQVKIGIKAPRKVTVHRAEVYAEIQKENEIAAKNSKEKISGLGNLFKKIKK;locus_tag=LOCUS_16470;gene=csrA;note=WP_000960595.1 carbon storage regulator CsrA (Leptospira) [pid:62.3%25%2C q_cov:96.2%25%2C s_cov:91.7%25%2C Eval:1.2e-19],MGA_1649
sequence1	MetaGeneAnnotator	CDS	1891936	1892397	.	-	0	ID=MGA_1650;product=flagellar assembly protein FliW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943666.1;translation=MKISTTRFGEIEIEEAEIINFPEGILGFEDIKKYVIFNMEEGNPLKWLQAIEEPALAFVIIRPYEFMPKYALEISEKDTEDLKLTKPEDSEIFSIVVIPDDPSKMTANLQGPIVINAKRKIAKQVISTNSRHKLKHYVLEEMEKNLPSDQEVK;locus_tag=LOCUS_16480;note=WP_010943666.1 flagellar assembly protein FliW (Geobacter sulfurreducens) [pid:36.6%25%2C q_cov:94.8%25%2C s_cov:90.6%25%2C Eval:3.1e-26],MGA_1650
sequence1	MetaGeneAnnotator	CDS	1892416	1892994	.	-	0	ID=MGA_1651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEFPSLKIETINAKINITKTDPKINITGQTGDFKLIKTEHRFEVEKKDAELLIHNYPAFRQLDNSKNIMDMTDKVASQSLNDSYTAIAEYASDGDAMMKIDKKSASPIPYIAKRKAERNLKAKVKLDVFPKNPIQIDVRKGYVTSSYSPGKIETISKERLNISAQMGEINIKANYPKVNINVIGGNINYKG;locus_tag=LOCUS_16490;note=MGA_1651
sequence1	MetaGeneAnnotator	CDS	1893033	1894028	.	-	0	ID=MGA_1652;product=flagellar hook-associated protein FlgL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392268.1;translation=MRITNKMTIANTLANLQINQAKLDKTNNKLSSGKRISIPEDDPTGTIKAMGYRSNLKEIDQYLSNVDNAKTVLNSTDVALSQVTNILQRTRELSVKAANGTFEQNSRDAIADEITQLTSELVGIANSKVGSKYIFGGYETTEAPFQSYNGDNDSGVSGPGGDLTDVNGNVRTGINNNNVTVVKYNGDSGRLQAEIDENVKTSFNISGKEIFIDSGNIFQTMMDLRDSIYSGEISDKNGDGKSVGDGITQLETSLTKILRYRSEVGAKMNRMDQAEIKLKNQTINITDLLSRTEDTDVTKTIMDLKVQESVQSMSLSVGAKVIQPTLMDFLR;locus_tag=LOCUS_16500;gene=flgL;note=WP_011392268.1 flagellar hook-associated protein FlgL (Moorella thermoacetica) [pid:35.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-54],MGA_1652
sequence1	MetaGeneAnnotator	CDS	1894057	1895880	.	-	0	ID=MGA_1653;product=flagellar hook-associated protein FlgK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000535890.1;translation=MGFFGLEMGKQSLMSQQTAIDVTGHNIANANTDGYSRQIADIQSTSYASTKYGTIGSGADVTGIERVRDEFLDDRMIKEKQEKAKWDVRESNLKHLQYIINEPSDQSVRYILDEYWSSLHDLSQNPEDRSIRITVKERAVDLANTVNNTYEQLTALKDDVNNNVAIKVTDINSKLKQIAGINAQIEKVESDGAKANDLRDKRDLLVEDLSKDVNVSVSRGTEYSVIIGGRTAVQGSNYTELKTVKDTKVNGGMYQIKWSDTDKEIYLKNGELKGLVELRDKDINKYTDYLDQLAVGLIDNTNELHKAGFDINGQKGNDFFGEFDTYDETMDLDSDGVSEGAIYKVKGSTVIDDSEVSALSTDTDISSATGDFEINGIQIEYDTDKDTASDLINRINDQETGVVASMGPNNRLILRGEKDSNYVIKSLKDSSGSLLQELGVLTSGNTEYNYEDTTTLAALSSDRTARPKPGAASKMYVAIDSVDGIAAAKGTDTNGDGIADTANASGDGSNAMDIGDLKYQKSIGKYTYADYFESLVSDLGVTAQQASRFSGNQQVLIDNLEQRRQSKIGVSLDEEMANMIKYQHGYNAAAKYISTMNSMLDTLINKL;locus_tag=LOCUS_16510;gene=flgK;note=WP_000535890.1 flagellar hook-associated protein FlgK (Leptospira interrogans) [pid:34.6%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:4.8e-97],MGA_1653
sequence1	MetaGeneAnnotator	CDS	1895923	1896396	.	-	0	ID=MGA_1654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGNSIEDNLIKILTKELELYKKALDYSIQKLEYLINEKMGKLDVVIQLESENNKKIFELEKERIDLLGEKWGKLLDYIESLENSSKKKELIEIRKIMLATINEIKNNNITAQNIVEMSNGLINKIIDNLSGKREMGYNQDKEKKNAVRKNLLNTKI;locus_tag=LOCUS_16520;note=MGA_1654
sequence1	MetaGeneAnnotator	CDS	1896406	1896723	.	-	0	ID=MGA_1655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVFGNISNIYKAYKTDKIENAKVKNEQKDSDKFSKTGAIKDKVTISQNAKIDNNKVEIEFIKQKLSQINDTNSDKISSLKQSIANGTYKMNLDKVADSLIDSIF;locus_tag=LOCUS_16530;note=MGA_1655
sequence1	MetaGeneAnnotator	CDS	1896794	1897201	.	-	0	ID=MGA_1656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFDNLVECKICGKLFMKTGRKNICPSCLNKEEELFMEVKNYLYDSPNASIKEVAEQTEIDEGLIMDWVREGRLERTGIIMTYPCEMCGKPIHTGKICKSCQNELGVVSDSLSGTKDEGKDETKRSMYISDKFKK;locus_tag=LOCUS_16540;note=WP_012869040.1 hypothetical protein (Thermanaerovibrio acidaminovorans) [pid:39.4%25%2C q_cov:51.1%25%2C s_cov:56.5%25%2C Eval:6.4e-08%2C partial hit],MGA_1656
sequence1	MetaGeneAnnotator	CDS	1897191	1897853	.	-	0	ID=MGA_1657;product=ComF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898707.1;translation=MQNLFLNIKKIIFSEKCVVCNRKVDDTRKYLCYNCYKEFYYKSSLKKIDNLYYFWHYDENHKKILLNYKFVGIKSISEIISGIIKEKVNYLLDKENIDEIISVPININRKRKRGFNQVDLILDKLKLDYIKIKRIKNTKSMYKILNENKRKENIKNSFKIDKNLDLNNKNILIVDDVITTGSTLKEIEKNIRKLYKPNKIIYLTLFVAKYYRKRVMENGI;locus_tag=LOCUS_16550;note=WP_005898707.1 ComF family protein (Fusobacterium nucleatum) [pid:33.6%25%2C q_cov:95.9%25%2C s_cov:95.3%25%2C Eval:1.2e-30],MGA_1657
sequence1	MetaGeneAnnotator	CDS	1897828	1898022	.	-	0	ID=MGA_1658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSCIKCGSNNYKLKKVIIPEKTKNIVGVEMGTYYYKICLDCGFVEVYSEKVLEKNAELVFEY;locus_tag=LOCUS_16560;note=MGA_1658
sequence1	MetaGeneAnnotator	CDS	1898028	1898372	.	-	0	ID=MGA_1659;product=YraN family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017105.1;translation=MNKRRVGSNKEEEAIKIFKENGYEILEKNFRGKRGEIDFIAKKNNTIIFIEVKYRSNKNYGYGEESVNKRKQDRIYRTAQEYIQKNELEKFDFRFDVVAINKNEYNWIMDSFWG;locus_tag=LOCUS_16570;note=WP_011017105.1 YraN family protein (Fusobacterium nucleatum) [pid:43.0%25%2C q_cov:100.0%25%2C s_cov:95.8%25%2C Eval:1.1e-23],MGA_1659
sequence1	MetaGeneAnnotator	CDS	1898365	1899501	.	-	0	ID=MGA_1660;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963600.1;translation=MNGKTKKISINDLKPGMKSGITLIDNRTGEVFLTKGIEVSENDIISLKKYMAENKGIELKTVNRADTIFSIDGKQKFLPSKSSKFVKQALSKKTQQEALKVVENLISDIRMGNVNSKEIKTAVEGIVDDILENEDSALNLLNIKDFDDYTYTHSVNVSTISILIAKEAELSKKDIIDIGIGGLLHDLGKTKIPLEVLNKSSKLTDEEFEIMKQHPVYTYLLLKDRKDISDIAKYIAAEHHEKFDGTGYPKKLKGEQINYFARIVAIADVYDALTTDRVYRKAMLPYDAMKIIVSGTGTHFDPDLVKVFLKTLSIYPTGSYVKLNTGEIAVVKKVNKNKVIRPDILIIEFEDGKKREPLEIDLSEDKTKFIVGAANINE;locus_tag=LOCUS_16580;note=WP_010963600.1 HD-GYP domain-containing protein (Clostridium) [pid:35.4%25%2C q_cov:95.8%25%2C s_cov:95.4%25%2C Eval:5.5e-55],MGA_1660
sequence1	MetaGeneAnnotator	CDS	1899503	1899757	.	-	0	ID=MGA_1661;product=EscU/YscU/HrcU family type III secretion system export apparatus switch protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545507.1;translation=MKKKAVGLVYDKENDNSPKVITKGEGYLAEKIIEIAKENGIYIKEDKSLVEILSKLDISEEIPEELYEIIAEIFLYVYSIEKED;locus_tag=LOCUS_16590;note=WP_012545507.1 EscU/YscU/HrcU family type III secretion system export apparatus switch protein (Thermodesulfovibrio) [pid:57.0%25%2C q_cov:94.0%25%2C s_cov:89.8%25%2C Eval:1.3e-21],MGA_1661
sequence1	MetaGeneAnnotator	CDS	1899754	1900812	.	-	0	ID=MGA_1662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFLRVKSKFLISTQTKQHELMSKLKKGEITKAKVIEVGKNNKILINIKGTEVRATTKRQLTKGDIIKLTVENISAEKIEVAILENDEESKTAELVPMKEKLNSKANVLKLKSDINIISREKGEILKQNDVEKIIKNFNKLKDKFPNSKSLLKSLVTLVKNGLEINSDNLKNIYSYYNGDINEKLKDIKKETTKEEVAKKIKQMLSESKDGDSSFKKGLNIINNLNKLNEKNIIEFMFLSEMMKTPAKIEVKYENSNSEDAENSDKKNSYYLKINLELENSGKVTIKIKNWNKYLDIDFFIQNINMKDEYMSKIKELKEKIEKMGYFVGGLRIQKIEDEKIIINKGVNLKI;locus_tag=LOCUS_16600;note=MGA_1662
sequence1	MetaGeneAnnotator	CDS	1900816	1901418	.	-	0	ID=MGA_1663;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626801.1;translation=MSQLIKFDKEYNKIVVGVDEAGRGPLAGPVVAAAVIINDYSGLEEINDSKKLTEKKREKLYEVIMKNCEVGVGIVREKEIDTINILNATFKAMREAISQIKRDFDIILVDGDKKIREYENTQEAIIKGDGKSVSIAAASVIAKVTRDRIMVEFSDKYPEYGFEKHKGYGTKQHREKLLEIGPCEIHRKSFLKKILGDKKG;locus_tag=LOCUS_16610;EC_number=3.1.26.4;note=WP_201626801.1 ribonuclease HII (Fusobacterium canifelinum) [pid:57.1%25%2C q_cov:98.0%25%2C s_cov:94.4%25%2C Eval:6.4e-54],MGA_1663
sequence1	MetaGeneAnnotator	CDS	1901683	1902609	.	-	0	ID=MGA_1664;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494586.1;translation=MTKKINFKSELEDENKRLDQYLNEKMEGYSRAYIQNLIKDGLIEIKGIKKIKSSYKLKGNEDIQVNIPENEELEIVAEDIPLNIIYQDKDIAVINKTANMVVHPAPGNYSGTLVNAIMHHIKDLSGINGVLRPGIVHRLDKNTSGLIIVAKNDLAHRELTEMFKEKTIKKTYIAIVNGKLKKEKGRIETLVGRNPKDRKKMAVVYRNGKNAITNYWVLDEKDGYSLVKVQIETGRTHQIRVHMKSLGHSILGDDVYGKTSKIAARQMLHAYKLEFMHPVTKKEMKLTGEIPEDFKDVLEQLGLELKNI;locus_tag=LOCUS_16620;note=WP_029494586.1 RluA family pseudouridine synthase (Fusobacterium hwasookii) [pid:52.9%25%2C q_cov:98.7%25%2C s_cov:97.5%25%2C Eval:2.7e-86],MGA_1664
sequence1	MetaGeneAnnotator	CDS	1902865	1903710	.	-	0	ID=MGA_1665;product=deoxyribonuclease IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005795638.1;translation=MKWIGAHVSVAGGVENAPLNANKIGAKAFAMFTKNQRRWESKPLTEKSIIKFKENLKEYGYKPEQILPHDGYLINLGNPDDEKREKSYNSFLDELKRCEQLGLVYLNIHPGSHLKLISEEECLDRISESINRALEETTSVTVVLENTAGQGTNLGYKFEHLAYIIDKIKDKSRIGVCYDTCHGFAAGYDIRTKEKYEETFEEFDKIIGLKYLKAFHVNDAKSEFKSKVDRHHNIGQGNIGVDAFKFLMADPRFEEKPMILETKDETLWPEEIKMLYKFAGE;locus_tag=LOCUS_16630;gene=nfo;EC_number=3.1.21.2;note=WP_005795638.1 deoxyribonuclease IV (Bacteroides) [pid:63.3%25%2C q_cov:97.9%25%2C s_cov:98.2%25%2C Eval:6.9e-99],MGA_1665
sequence1	MetaGeneAnnotator	CDS	1903945	1906209	.	+	0	ID=MGA_1666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKTISLKNILKKYNLLIISINIAFIIIALLFTILITNNNIKKLALNNIINSSNYILDNFDNSFSGYENSFNFSLKTAIISLKKQLNKTNNFSKKNIEKQLNKINKELDVKKNFYVSTLNYYIINPKGKIYITNYPKDLNLNIFNFKSLNMLRDLKTSDILIGKINFEVSSKRFRKFIYTKLNNGDILELGVFLDNSFIENLKSSFSNLKKNNDFITDISFYDSLGQDLFYNKNNLSNKFINKLNKKNIIINKIGFNKYEMYLSWESAYKKNVISSKYYYKINVSLASLNNKNYIIIFILIIFTIVYITIAFFINKTTYKKIAEPFSELTKSMKLFSKDRILNSQDISSNNNIEEFNFLIETYKNMADEITAGFEELAAMNDTLKESYDIVEETNEKMEQLLSVSSSLIEKAVNKDTDFLSFILHTALKLIPEADYGTVYLIKDGFVHYIDAVGHNKKLLNKIHIDQKYFQYGNSSIEIVENILDQDVSFFPKDLFEKIKLASKPIKTTLAYKFKVNDEIVGGMSIDISKNSIKHFSPSSTNIVKAIGSFSTAFFAIIKYINQKEVFRKDIVFSMINLLEIHETYMKGHSQQVADLSLKIAAKMGLDEKTLDEIYWASLVHDIGKIIIPSEILNKKSKLTDEEFEIIKKHTNYAYQVLNKSEFLGNIAKIVLHHHERIDGTGYPEGLHGNNIPLASKIIAVADAWDAMTHERSYKPALSKDKAITEIINNKNRQFDSDIADILIKIIKEKEKI;locus_tag=LOCUS_16640;note=WP_012584035.1 transporter substrate-binding domain-containing protein (Dictyoglomus turgidum) [pid:36.9%25%2C q_cov:47.3%25%2C s_cov:55.2%25%2C Eval:1.2e-63%2C partial hit],MGA_1666
sequence1	MetaGeneAnnotator	CDS	1906264	1906605	.	-	0	ID=MGA_1667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYVGNEISKEVTLEEKDILKSKIAKILKETAGKCEKYIMVSFRKSEIYLGGKQGEYAYVELKLLGNLTKDQKNEITKQMSKIYKEILGISDVYITFHELERENWGYKDKTFA;locus_tag=LOCUS_16650;note=MGA_1667
sequence1	MetaGeneAnnotator	CDS	1906694	1907440	.	-	0	ID=MGA_1668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRKNVIKNLIIMIALLAIFNLGYGMTGDEILKKVDENITPNSIKYNGEMIIFKRGRKYTKKMKIYGKGTEKSFVEFTYPSRDKGTKYLRIGDNMWMYLPKANRTVKISGHMLRQSMMGSDFSYEDQTNRNKLYDIYNSKVKEETKDFYLLELVVKKGVETSYYKRLIWIGKTNFNLIKEEMYAVSGKLLKAMTVLKNDIIDGKYYPSDIKMEDKIKKNSYTEIIMKDIELDVNIKDSMFTLRALERK;locus_tag=LOCUS_16660;note=WP_005462638.1 outer membrane lipoprotein-sorting protein (Vibrio) [pid:26.8%25%2C q_cov:75.4%25%2C s_cov:73.0%25%2C Eval:9.0e-12%2C partial hit],MGA_1668
sequence1	MetaGeneAnnotator	CDS	1907553	1908761	.	-	0	ID=MGA_1669;product=FtsX-like permease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005482600.1;translation=MFKIAFRNIFRNKKRSLLTAMSVVVGVAGIIVGLSWIDGTVNMMEEAGRRVTGDIRITSKDFDIKEKSLDVEASIEYRNIDKVMKNIKGIENSVPRIKFGGAMFFGDENIAGLGYGIEKKDYNIIGFDKFIYKGRFLDYSNENEIIIGKTIKDKLNLKIGDEVTLLTNTINKEMSALNYKVVGFYKMDNSKLNRSYYIRLKDAEYLLDMDGLATEYVIYLKNKKDILKKKLELKNKIVNKNLEIKGWNEIGFNRYTAGVFPIVKYVLALALAILSGVGIANTMLMVVFERKKEIGVLKALGMYRYKIFNMFVLEGVILTSIGAVLGIMLGGGISYYFSIKGIHLGNVVDRLSSDINVKSTIYMKPTLGTIYFAIVLSLIISVLATTIVTLYEVRKAPVENLR;locus_tag=LOCUS_16670;note=WP_005482600.1 FtsX-like permease family protein (Vibrio parahaemolyticus) [pid:24.0%25%2C q_cov:85.6%25%2C s_cov:84.1%25%2C Eval:3.1e-19],MGA_1669
sequence1	MetaGeneAnnotator	CDS	1908787	1909968	.	-	0	ID=MGA_1670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVKMAYRNVFRHKIRTGLTLVTIIFGILIAILGAGLNDGLKKQLIDTYVKTDIATNKIYLKGFYEDKDNNNPLDFMIKDEKKLDKILKGSIYTKRIKFSGKIIKDDLDMPAMFLGVYPNEEKKVFKREKYMLKGNFFKNKNGVVIGSELANNLKLKVGDGITITARTVENSLNADDLIISGIIKTGNPLLDSRLIFLNIDYVKKFIITNGINDIAVLGDIANKDKLKDINCEAVNWKDEVKDVILITQIRGKAFNIVSFILLAMAGITIANTMVMVTMERKQEIGIMMANGMSKSKILKLFIFEGAFVGVIGSFLGVFIGSLVTIHYQKVGIPINAGDSGIDLPLSDKIFMQLEFSKVIGYFILGFVISVVAAFYPAYKATKFNPVEAVNGN;locus_tag=LOCUS_16680;note=WP_010946586.1 ABC transporter permease (Legionella pneumophila) [pid:28.0%25%2C q_cov:75.3%25%2C s_cov:69.7%25%2C Eval:2.5e-21%2C partial hit],MGA_1670
sequence1	MetaGeneAnnotator	CDS	1909965	1910651	.	-	0	ID=MGA_1671;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978899.1;translation=MEMIKLESVEKDYGNKKIMVRALKEINVNIPQGDFAVFAGPSGSGKTTLLNIVGAMDNVTSGKVFVAGKDITNLSIKEASNFRRDKIGFIFQSYNLIPVLTAYENVEFSLDLLGKFSKSEKKDKIEKILEEVGIQELRNRRPNEMSGGQQQRVAIARALVKKPMLILADEPTANLDSVTGEKILELMKKLNEEEKVTFLFSSHDQLIIDYAKRILWLRDGKIRKEEIK;locus_tag=LOCUS_16690;note=WP_010978899.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:48.7%25%2C q_cov:99.6%25%2C s_cov:97.8%25%2C Eval:7.5e-55],MGA_1671
sequence1	MetaGeneAnnotator	CDS	1910732	1911610	.	-	0	ID=MGA_1672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIAKGILTFLLLSNIIFAADFSVGITTKYFQKKYGELRLSTDISKDDFYSKGEILIDNKSETIINKLYSEFYIGDITLSLGRQNIDWGSSYFFNYGNVFNNINWENPKEQGKGVDSLYVKYIKGLSRLEMVLFQKEKENENLGIRYTKTILNSELMVNYFRNYGKEKDELLLEFKGNLILGIWGQYLVKNKFFNVGADYSIDIFDNVLYLLTEYEYKLDSNNKKTFNMYRYNLSENAYFSQTLIYDFENANYNWNADYSYIYNDYVTLDFIYKDDNLNNSEYGVKMDVEF;locus_tag=LOCUS_16700;note=MGA_1672
sequence1	MetaGeneAnnotator	CDS	1911649	1912278	.	-	0	ID=MGA_1673;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001220164.1;translation=MKINKTKEKIFKIGKNKFAENGYEKTSIESIIEEANIAKGTFYYYFKSKEQFLDDLMDYMFLNVLEGFDKIINNKNLSSKEKLFSILKRMINMKLNDSDFTKKMADAILKNQMEIIFYKFTEKYVKKLFPYLKIIVEEGVENGEFELEYIDITLEHLLHMISYSGDIKKLISDKNYRKEFVLARERILEKILGLKKGKVTVLEELLELG;locus_tag=LOCUS_16710;note=WP_001220164.1 TetR/AcrR family transcriptional regulator (Bacillus) [pid:28.0%25%2C q_cov:95.7%25%2C s_cov:93.4%25%2C Eval:3.2e-14],MGA_1673
sequence1	MetaGeneAnnotator	CDS	1912489	1913214	.	+	0	ID=MGA_1674;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_026080286.1;translation=MKKFIIIFAILIFFITSFGETIQVVTEEYPPFNYSEYGVIKGVSTDIVKAVFKEAGIDYNIKIYPWARAYKTTLIKKNQILYTTIKSKKREKLFKWVGPIVHIDLYIFKLKSRKNIIINSIEDINKYRIEGVRDDITTQYLQTFDKNIFITSNSEIGIKHLLEKHTDLFPYGGRVIYALMKKYNKDPNLIQKAYKLDALSTGGYMAFNKDTPDYLVKKLQNALDRIKKNGTYDKIFEKWNN;locus_tag=LOCUS_16720;note=WP_026080286.1 transporter substrate-binding domain-containing protein (Aeromonas hydrophila) [pid:33.8%25%2C q_cov:91.3%25%2C s_cov:91.4%25%2C Eval:3.7e-31],MGA_1674
sequence1	MetaGeneAnnotator	CDS	1913265	1913510	.	-	0	ID=MGA_1675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902080.1;translation=MSSHDGCAASFENGQQVVDKVRAMGFTNQYLPVPLEIKCSCGNEFRMEKFESVCDKCGMVHGVTPCHAFDANNVKKAGVGY;locus_tag=LOCUS_16730;note=WP_005902080.1 hypothetical protein (Fusobacterium nucleatum) [pid:48.7%25%2C q_cov:92.6%25%2C s_cov:93.8%25%2C Eval:1.5e-17],MGA_1675
sequence1	MetaGeneAnnotator	CDS	1913531	1914541	.	-	0	ID=MGA_1676;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681570.1;translation=MIKFDKIKKMKIDELLKKYSFMSNYFETNNFENLDYKSTLEENINKLDNEELEELGVKKDDILLKIEEYIKQMIEFLGIKEDDDVNSISIIAGTNKFGNEEKYEELKIKKGEIICIVGPTGSGKSRLLADIEWVADRDTPTNRKILINGKNPDKKWRFSSSNRLVAQLSQNMNFIMDLSVEDFLQLHAKSRLVENPKELIEKIINSANDLAGEKFERETQITDLSGGQSRALMIADTAILSKSPIVLIDEIENAGVDRKRALELLIGEEKVVLMATHDPMLALLGNKRIVINNGGIEKIIETTEEEKEILKELEVIDKRMQGLRNGLRYGENLSNI;locus_tag=LOCUS_16740;note=WP_002681570.1 ATP-binding cassette domain-containing protein (Treponema denticola) [pid:54.2%25%2C q_cov:97.6%25%2C s_cov:94.6%25%2C Eval:1.3e-97],MGA_1676
sequence1	MetaGeneAnnotator	CDS	1914538	1915236	.	-	0	ID=MGA_1677;product=GTP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016161.1;translation=MNLITISGPPSSGKTAIITKLIKSFKDRKLNVGVAKFDCLYTDDDLIYKKLGIPVLKGLSGSLCPDHYFVSNIEEVVEWGVKNSLDVLITESAGLCNRCSPYIKDVKAVCVIDNLSGVNTPKKIGPMLTMADIVVITKGDIVSQAEREVFSSGVAMVNPRATIMNVNGLTGQGAYELSTLIYENDQHTDSVKGLKLRFSMPSATCSYCLGETRIGAEHQLGNVKKIEAGDLK;locus_tag=LOCUS_16750;note=WP_011016161.1 GTP-binding protein (Fusobacterium nucleatum) [pid:70.4%25%2C q_cov:97.4%25%2C s_cov:97.8%25%2C Eval:4.1e-93],MGA_1677
sequence1	MetaGeneAnnotator	CDS	1915299	1916519	.	-	0	ID=MGA_1678;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897667.1;translation=MNNKYFNISDTLYDITEKYKETIDIFVNNGFENLKEESQRKSFGSLVTLEQALKTKKIDISTFENLLNEVIDKNINTTAVDSQGKNDLEDYKLKIQGLLPCPVRVPMLNAFEKFIANKPELKNSINYELKAASMGLDWLKEDLKNGSEKDLSDIFISAGFDLFFEDELMGQYKKSGVFKDITGLKEYNKEFTDLKDPKGEYSMIGVVPAVFLINKEALNGKKVPESWEDLLSEDYANSVSLPVSDFDLFNAILINVYKNFGMDGVRKLARNLHQSLHPAQMVKSYVKPEPPLITVMPYFFTKTINERSPMKYVWPSDGAIISPIFMLTKAKKEDELKEIAEFFSSKEVGEVLSHQGLFPSINPDVKNGTEDKKYMWIGWDYIAENNIGELLKKCEIEFKKVNLGMS;locus_tag=LOCUS_16760;note=WP_005897667.1 ABC transporter substrate-binding protein (Fusobacterium nucleatum) [pid:48.0%25%2C q_cov:97.5%25%2C s_cov:98.7%25%2C Eval:5.6e-109],MGA_1678
sequence1	MetaGeneAnnotator	CDS	1916865	1917632	.	-	0	ID=MGA_1679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNLWAILLLLILVTGYRNYIYKDDLTIWNDVYLKNRKSIIANYNLGNAYKDIGNYKKAEIFYKNAIKIDDKYMWAYNNLGKLYFENKEYKKAVEINLMGMKKNKEWYNGYINIAEIMLEINNLDKADLLLKKALKLGCKDEKVYYLLSRIDILKNKLGKAILHLNEGVKKNKKSELLYNQLGNVYFLENKLEKAKIYYLKAKENGYKKIDLYQNLAKIYFLKKDKIELDKVLKKLPNSDGIRKAIERKRDNDN;locus_tag=LOCUS_16770;note=WP_010881239.1 tetratricopeptide repeat protein (Aquifex aeolicus) [pid:25.1%25%2C q_cov:75.7%25%2C s_cov:57.0%25%2C Eval:2.0e-09%2C partial hit],MGA_1679
sequence1	MetaGeneAnnotator	CDS	1917629	1918783	.	-	0	ID=MGA_1680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLDVIYKKQWIALAVIFLIGLIAYSTSFMGSFHFDDYSSIIYNYEIKNLWSAFLDIFRKSFSSRRLVYFTFAINYKLGGLNPIGYHIVNFIIHFFSALFVYLISKNIISKTKLKTYKDEISFFISAIFIAHPITTQAVTYVTQRLESMASMFFLGSFYFYLRYRDTIKIKYVIYSAIMIILGSRCKEIVVTLGGIILIYEIIFGNIKKLKKKDIGLFLLISSLALIPFWIRVYKAVSVDKVQIIKTFDLRQEHKKSMTREDYLRTEMNVVRTYLRLMILPIRQSLDYDYKIQKNMDLITWLSLVLHIGLILIAIYNIKKNKFYAFGILWFYVVLIPTSTIIPIEDVIYEHRVYLPSVGFIFAFVGTLYYLIDKFNNKVEDKK;locus_tag=LOCUS_16780;note=WP_011123734.1 tetratricopeptide repeat protein (Rhodopirellula baltica) [pid:27.1%25%2C q_cov:39.6%25%2C s_cov:21.3%25%2C Eval:1.7e-11%2C partial hit],MGA_1680
sequence1	MetaGeneAnnotator	CDS	1918783	1919595	.	-	0	ID=MGA_1681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLNRLLIAILIMLTIVTLFRNMTWLTGVTLNMDIAKKTPKKARGWINLGVNYYKEKDYDNAIKYLEKAIKIDPRYPHTYVTIGRIYVKQKKYKIAFDYYKKAVKEDDSFSPAYEALADLFKELKNREKETFFLEQIMDKGKNEDKNNFKVLLRLGKNYIELKNPEKALKYNLKAYELNQNDYNVLTNLGVAYSLNKEYEKAEPLLKRGIDIKPNDGKAYNNLGILYYRIGEKEKAIKILTKGYEMSKSKTVLRSLNIIKDRIKKGENK;locus_tag=LOCUS_16790;note=WP_011015826.1 tetratricopeptide repeat protein (Fusobacterium nucleatum) [pid:32.1%25%2C q_cov:81.9%25%2C s_cov:34.7%25%2C Eval:4.6e-20%2C partial hit],MGA_1681
sequence1	MetaGeneAnnotator	CDS	1919698	1920696	.	+	0	ID=MGA_1682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFYNPQPKLEIKLQDLINKFILEIKSNKNLSKYIKIFGITGPAARSQAVYPYSDIDFYAITNFISSKYEKILRNIFNNIFINLDIECSLLLVAPSIYYRPDLMFFEFNNSGIVYLGEKQNKLSLDKIPNWEIFRLLTFRSNPFFSTFSLSNNKLIIKDIEKFYYYYSKLILGISEAFLILKNKYSADNFERQKDIKSLEISLQLKNEIEKAFLFRYKNYNYTETPEKLFENAITFLKIVWDKLIIEYFKTDKKTALNKLKKINAPFPAILYTRLFFMINYYKYNNKIIFSIREPFIDEIFSTLEFLENPSENIRKKLVLYWKIAPRFWKKN;locus_tag=LOCUS_16800;note=MGA_1682
sequence1	MetaGeneAnnotator	CDS	1920749	1922212	.	-	0	ID=MGA_1683;product=flippase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870580.1;translation=MPTLKRKIYWNLILSYGGLLISSFLGYLANILLARKISLKEFGDFSTIWGFLILFSIFLDLGWSSVAQRYIPKFNIRKKNGNIKEIIIVSSVSLLFNGLISLIILFFLSGLISDLLKIKNSNLFFIFFAGIIVMVLENLYKTFVKSFQDIKNVNFGEIIRGIIYLSGIFFYLNNNSNLTKLSKILFVSYFIEIIFFIKILFPKIRGEKLKLSSKRIKIYFIYGFLTIGIGFNNYILNNIDILMLSVIKDNISVANYKVAVNIFKIFVTLFSGIFVFFTPLIGELYAKRDFEILKELIEKIYLFLLAGMVPIFSTLIIYPMVYINIIYGTKYYRAYGGLSLLSFGLIFLILSYINNGILYAIGKPKEILKITIVGTIINVILNLTLIPFTGLYGAAFATSISNFFMWIYTFFVSRKELKFNVNGWKLLNFLIAGLIFIIIMVGFRMLLDWSIWIKGPISFAVALIVYSIYIFITKTITREDIKKLVKI;locus_tag=LOCUS_16810;note=WP_010870580.1 flippase (Methanocaldococcus jannaschii) [pid:26.1%25%2C q_cov:95.7%25%2C s_cov:96.1%25%2C Eval:3.5e-31],MGA_1683
sequence1	MetaGeneAnnotator	CDS	1922267	1923124	.	-	0	ID=MGA_1684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIIIFAPHPDDDIINNSLMMKNELKKGNNITIVYTTQGAKNSEKRYIKARRVAIKKTIKKYFKIPLKNLIFLKYEDTTLYKIEEAKKLFKDINEILKKIKPNKIFIPTYEGGHIDHDVTNFIVMKAIEKLKLKSEIFEYPTYNNYMNLKRFYLFFMREFLKNLKLDNTKYQLPKEFIPYNNKKPKLINIKSSKKDLELKSEVILNYHRLSEIFMKRDVKLNKTERGTDLYIKKREYNYNKPPHSSFPVPLGIVLANKVKFKEFKNMVKYMEKEIENERDDKKI;locus_tag=LOCUS_16820;note=WP_010978862.1 PIG-L family deacetylase (Sulfurisphaera tokodaii) [pid:29.3%25%2C q_cov:68.8%25%2C s_cov:91.0%25%2C Eval:1.2e-10%2C partial hit],MGA_1684
sequence1	MetaGeneAnnotator	CDS	1923239	1924249	.	-	0	ID=MGA_1685;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878111.1;translation=MDNLKIVYIEKKAHKLHKEFAKSVGVEEFSYFLLPIFDREFIRRNAILHQIFSMFSIFFIPKADIYIVDAINKSLPVIIKKIFNKNIKIVAINSNSFFRDLEFDKKIVLDYKLWLCKYIDGIISTTYEIKKIADKYINIKNEVVYPFIDTKRLENIKIDYNKKAILTIGGPSKIKGTDILIEAFIGFNKKYKDYKLYIIGEDILYNNYKKRYSEYKNIIFTGYEKDIRKYFEKSSIYIQPSRSDAAGMAVLESMYCGILPIVSKNVGLKEIVEKVEKNFVIDLSKKNIVGILESIEKKEYNIKELGEKAKEVTKKYSEDRQKEKFKKVFLSVLRNV;locus_tag=LOCUS_16830;note=WP_010878111.1 glycosyltransferase family 4 protein (Archaeoglobus fulgidus) [pid:23.5%25%2C q_cov:98.8%25%2C s_cov:98.0%25%2C Eval:1.2e-21],MGA_1685
sequence1	MetaGeneAnnotator	CDS	1924254	1925225	.	-	0	ID=MGA_1686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNITVNILNYENINKEEWDYIAYKFGKDIDSIYDYQEKYLQTGYKVYGIGAYENGKFIGGLYYALKLNFIFCKILVGGIFALDDRVDVVELLIKQLKKVILFKAPLFNIIIGGVNFKFEGLLQKYFKYSKKIGTIIIDITKSEDELRKKLNKGTKWGINKAKKDGLYCEIVEKNEDWMKAYEIYKEMCIRKELNIHSFDEFSSLKEIKKLLIIKKENDIIGGSILICFGNSIKLNYNFSKTEYYKSQPNNLLYWESILFGKENGYSFFDLGGISLEKDDGITIFKRRWGGEEYHYNKYSTSPIIFNIIPKLGKIKNRLLNRK;locus_tag=LOCUS_16840;note=WP_000549978.1 DegT/DnrJ/EryC1/StrS family aminotransferase (Leptospira interrogans) [pid:24.5%25%2C q_cov:76.2%25%2C s_cov:36.8%25%2C Eval:1.2e-07%2C partial hit],MGA_1686
sequence1	MetaGeneAnnotator	CDS	1925324	1926898	.	-	0	ID=MGA_1687;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681436.1;translation=MKKLAVDMSSFGTIIRDDYLYIDKTQYIYEMVSKGKYYFLSRPRRFGKSLTVSTLEALFKGEKELFEGLYIEGKYREWDEYPIIKLDFNRIANDTSEKLKKNLKEELMLISKKYEIDLLLDDPENMFKNLIEKLSEKYKKGVVILVDEYDKPIISHLGEEKEKLDIGKANREILKVFYDNLKPLEDYIRFVFITGVSKFSKVSIFSTLNNLIELDIHQDFATFLGYTKEELHKYFDEYIEMVAKSNSISKEEMYLKIKEKYNGFRFTEEEYSVYNPFSIGRLCIYKKLKNYWFESGTPTFLVNLMKARNYDVTEMENLELEENSIIAYDIERLQLEPLMFQTGYLTIKDYEYGIYKLGYPNKEVEQGFTEQLISSYVGKNEGVTSIKMMRHFARGEYEEYFELMKGLFAKIPYILISKDLEKRELYYHSIFYMINILMKDYGYRVYAEVLTNKGRIDMVIETKDMIHIVEFKCNQNVDIAIKQIREKGYAKRYMDMGKEIYLVGVNFDTEKKNISEWKMEKREG;locus_tag=LOCUS_16850;note=WP_002681436.1 ATP-binding protein (Treponema denticola) [pid:40.5%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:2.0e-104],MGA_1687
sequence1	MetaGeneAnnotator	CDS	1927446	1929956	.	-	0	ID=MGA_1688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFKILMVVLFVLGIIGCFNQDKELKKSKAKLSFNYKLATIASKVVTKRTMRAPGAVKGTMKVTNITNSKIETFDWYGTLDEENFVAKSNSTIILSPGTYNIELIFTSGGYQYIGSALNQIIIDGTNNINLILKPVIGETSTTINMNQLTSLKLKYDTKELSVLKNPVIGMIVDNGDEVQFAINPEIGITEQYINLNMGEHNIKLKLYDDGVQIGKSVETQENVMLGLTDIDMDLIPLHGETVFNLTLDGGDAIFKFNIPKEVIEEVNGIENLKSIFKIVGPVNGLREQQLNLTLNNDGNYGAEITLSDYRYDKVTMTMEFYDASKNPEDIIGSSILENVELRKENQSLTYDLNLRRRAVATGNLLGVVGVNVFDAENLPVSGAKVYADGKLLGITGSGDFGTAGYLKSYLVKGDYTLMAEGNIYKGEATITLNALGIENKNIILNTLINNVPEAPSNPIPENGTTVTNGDLTLSWDCNDVDGDSLKYDIYLGVDSTYLPMVASNYVTSSYNVTGLVDSTYYWKVVAKDDKNGKSESSIWSFNIVPNNGLEILNRTRYSFDGTGMAPAYTNNDNYLYVFGGSTNSGTGTSDKVQKINLSDGSWETIATIPEEKRGYAGIALLSNKKLYISPYVIPGGGSLNEITVLDLTTSEFTYLNVNSSFKYYRDGAFVMDNKYFCKFEKDNNRLLRIDALTGVENNITNILNIPDLDRTAVFYESNKVYLVSKGELWYIDLAGDKTFKLVVNKDNYKIGYYSPYILKKGNYLYIFNIETSNGNYGQYNLITGDYKVFDGDLFENYYSRRPAFAFTNNKLWAAGGRKSNTELINKINMVEFK;locus_tag=LOCUS_16860;note=MGA_1688
sequence1	MetaGeneAnnotator	CDS	1930216	1930872	.	-	0	ID=MGA_1689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLKEYWNNYNFNNGIDKNREIYKFFEKEKNKLSKNSKILEIGAGSGKWLYYWKDYDYSGIDYADKQVEICHKRGLTNVIQGDARDLPYEDNSFDFVYSLGVIEHFPETQKAIEEHYRVCKPGGTILITVLNKNCPKYLERLVGNIIHKRSFEEFMVSSGKRYGFNEFRKMCEKEGIKVDKVFGEGEIVSFPKIVNELFKGFEKYFGHNLWMVGGKG;locus_tag=LOCUS_16870;note=WP_011731310.1 class I SAM-dependent methyltransferase (Mycolicibacterium smegmatis) [pid:31.2%25%2C q_cov:43.1%25%2C s_cov:45.4%25%2C Eval:5.1e-10%2C partial hit],MGA_1689
sequence1	MetaGeneAnnotator	CDS	1930875	1931447	.	-	0	ID=MGA_1690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIIKKIGFFRAKKILKRKIKILINYYFYKYFYKWNFFGSKIEIGKNIRFDNWNTYIEDNVKIEDNVILGGKGEIFLGENTSLNPNCFIVSQKKVKIGKNCMIAPNVYITDEIHNHDRIDIPIKFQGYKYKEVIIEDNVWVGRGTTILAGIKIGRDSIVGAGAVVTRNIEPFSIVGGVPAKLISKRKEGN;locus_tag=LOCUS_16880;note=WP_010937647.1 acyltransferase (Desulfovibrio) [pid:40.7%25%2C q_cov:66.8%25%2C s_cov:68.5%25%2C Eval:2.5e-25%2C partial hit],MGA_1690
sequence1	MetaGeneAnnotator	CDS	1931416	1933467	.	-	0	ID=MGA_1691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIALFIPQDIEFPIREGLRKQVWLQAKELKKRGYKIKIYCTYKDKYNFKRKKRVEIKDGIEIIRGNIFNISFFKTDILHIFSAPTPDLYFVVNFAKYKKSFITITDGELSKFWESKLSAFMVKIINKKIDRIFIQTDYQRKIAEKYFKFWKIKKIEPLIEDIDYVGEKNKNPTILFMSHFSKYKGVFEVINAYKNLVKKYPDLKLVLADSGLGEDRKEVLEEIKGVSNIELKGVVDNIEELSRAWIYIYPIQKAHNTFSVPISLYEALQCETIFISKDIGGISEYFGNEFLINANNELEKKIEYILENYNEYLEKVNGIKLIDNKKVIEDYLEYYNQKEKIGFVTLLDGIRPHFVHKAFGEGVNADFINDKFYSNRNIFINLINTFFVGLNILNKYDKLILNGATGVYIANIIKCFSIKRTEIIYLDASTTFYKICEDKENMRSKILYKLLKSVDRYITVSGLNKSYIKELFKDKKVDIVNPFFKIEKFKNNVNINKKDKNLFCYIGQLREEKNIINIIKSFIKFNKRYKETKLVIVGFGELEKKVKKLIKNNENIRFLGKVNFRDISSILEKSYYILQMAKYDPHPVSILEAMYMKVIPLISNKVGERDIVNKKLIHSSDLYDIVNISKYIEKIYLSSEKEKQEIIKENYNEVKKYTKKIKTEEFKRVVVEDENYKKNRIF;locus_tag=LOCUS_16890;note=MGA_1691
sequence1	MetaGeneAnnotator	CDS	1933472	1934800	.	-	0	ID=MGA_1692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDIFGELNEEYRELLKLISKYKYVLIKFPYYNPYRAVDIDVLVEELEFYNIKELLVKDGFVVFRSEFYEKNKIIFYKYVKNKGFMCVHLHKKISWDGVEVLDEKLILENRIEVEKDIFIPNENGEFVIYLAHNIFENRKSKEKELERLNYLVGKIDTKLIMDYIENYGWLSTFKIYKEKIEKREDINYLKNQIIKSYIFNFLRKPKNILNYAIGFLKWIIRVFTIKNRKTAIAFVGPDGSGKSSISKLFMKKFKLGGMVEGNYIYFGWKPFLITTKILNLLNKKSEEKKREELVKKVEKFKNKKVSFVKNIVFLNYFFEYFFRYFFQVYSYTRRSKLVVLDRHPIDVFAQDVLALKSGILKRLFKKFYPKMTIIYLYLESTEILKRKKEFEKDELDRQIRVYLDLTNDFNLIKIENDKDIDVVVDEIINKIWRKILIELGW;locus_tag=LOCUS_16900;note=MGA_1692
sequence1	MetaGeneAnnotator	CDS	1934797	1935918	.	-	0	ID=MGA_1693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLVQKKFKLILLLIDIIGNILFFIPNFILRKKNKIYLEHPKNIVVIRLDHIGDMVLTTSFFKNLKKNYPESKITVICRELTIPILKRCEYIDEMIPINTLWGNRGEKIEWKKLFRILKENYKKYDLGFELHTSPFNIILLRILSKNSIGYKYRGLGFLLTKGFWNNEKKIHITEKNLNLLENIGGKIFDRSLELKISKSKIIKDKQDEKWIGLQIISGRENKNWELDKWNKLILKILKSSKNVKIYLLGSKLDKEKIENLVINERVINVAGNFKLDEIIDFINELDLLISVDTMAVHIANALNKKLIALYGPTNGNIWGPFHKNSVIIQGKYNNCYGLELSKCKYKETNSCGKCMDNITVEEVYKKVEELI;locus_tag=LOCUS_16910;note=WP_010880036.1 glycosyltransferase family 9 protein (Aquifex aeolicus) [pid:25.9%25%2C q_cov:72.9%25%2C s_cov:81.7%25%2C Eval:3.8e-16%2C partial hit],MGA_1693
sequence1	MetaGeneAnnotator	CDS	1936103	1937653	.	-	0	ID=MGA_1694;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKEFNITGICIPAKHYMVDTSKKIDETIIKLIEKEKYFIINRPRQYGKTTTMYLLEKKIIKEGYLVISISFEGVGESSFESEDKFIDTFVQMIKRFLKVKGYKELVKFIEDYRNINNIKELDEFITDLVLEVGEKVTLMIDEVDKSSNNKLFLNFIGMLREKYLRRDRGEDYTFHSVILAGVHDIKNLKLRYRKDEERIYNSPWNIAADFDIDMSFSSEEISSMLIDYEKDNKTGMDIEKMSDLLRDYTSGYPFLVSKLCKIIDEKLNREFTEEGLRKAINKLLNEKNTLFDDVIKNIENNRELYELIRVLMLKGEQVPYFSTNKVIDIGVMYGILIEKQGKVVISNKIFEVLLYNHMIGDMIVNRHIKTTPNRNQFIKENNILDMEKILEKFQLFMKSEYRDKDEKFIEREGRLLFLSFLKPIINGEGFYFVEPETRQDNRMDIVVVYNKIKYIIELKIWHGEEMEKQGLKQLVGYLDGQGEDKGYLVIFNFNKGKKYEEKKVEIDGKSLFEVVV;locus_tag=LOCUS_16920;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:46.7%25%2C q_cov:98.6%25%2C s_cov:98.2%25%2C Eval:2.2e-132],MGA_1694
sequence1	MetaGeneAnnotator	CDS	1937811	1939361	.	-	0	ID=MGA_1695;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKKFNVTGLCIPERNYMVDTSKKIDEVILKYIDEGEYFTINRPRQYGKTTTMYLLNKKISKEGYLVISISFEGIGESSFENEKELSKTVLELMADILEYKEKELSDFLNKELKKVDNLKSLSKLISKFIIKAEKKVVLMIDEVDKSSNNKLFLNFIGMLREKYLRRNAGEDYTFHSVILAGVHDIKNLKLRYRKDEERIYNSPWNIAADFDIDMSFSSEEISSMLIDYEKDNKTGMDIEKMSDLLRDFTSGYPFLVSKLCKIIDEKLNKEFTEEGLRKAINKLLNEKNTLFDDVIKNIENNRELYELIRVLMLKGEQVPYFSTNKVIDIGLMYGILIEKQGKVVISNKIFEVLLYNHMIGDMIVNRHIKTTPNRNQFIKENNILDMEKILEKFQLFMKSEYRDKDEKFIEREGRLLFLSFLKPIINGEGFYFVEPETRQDNRMDIVVVYNKIKYIIELKIWHGEEMKKQGIKQLCGYLEGQGEDKGYLVIFNFNKGKKYEKKMVEIDGKILFEVVV;locus_tag=LOCUS_16930;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:47.4%25%2C q_cov:95.7%25%2C s_cov:94.7%25%2C Eval:3.9e-129],MGA_1695
sequence1	MetaGeneAnnotator	CDS	1939393	1941867	.	-	0	ID=MGA_1696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKKRVLLIFLITGLAVYLLALFSAFQYDTVASILLNPEVKDIKGAFLSIFNINTSSSRRFVYFTFALNWLVGGKAPFIYKLTNLLIHIFSAYFLYLIILETEIKNRLINKNKEIYSILVGLLFLILPIQIQAVTYVVQRLASFVGLCYFAGLYFYIKYRKSENRKYLYYIVGLIFVLLGTRSKETMVTFPIALFLYEMFFFGGIKWQSIIYYMTGFIPLILRVRYSLMLHSDKVSTVTSTFALNPGKTDLTRYTYFITEFKVILRYLRLMIFPYGQRVDYNIKIENSFFSLWVILPFIILVLLLSFGIYYYKKEKIIGYGVLLFFIGFIVTSTIIPIDDLIYEHRAYISVAGYSIVISYFFILLLKERKKILYGMLLVGVVYGGVTVARNYTWLSMTSLWEDNHKKEPNLERPLINLCTSAIVEKKYKIAERYLKIAASKYPKHESILKDYIDLYKNTDRVDKAILLSEKSIEKNIGGDDVKLILAEMYYDKNRFRDSLKVLNLVKNKISLRKKILESKILLKFNDTDKAFDILIGMKSSDEVNSLLGYIYQQKGDIDKGTEYYKKSIKMEDSKINLALIYNSKGEGKKALKLLQEIKKKDSKNEKLYLALIDVDYKNRDKYIEKLKEIGKGLGEFYYKEGMRLKTEKKLEMAYNMFKQSIENNPYFMQSYYWIGEIGYSILKKDNEVLNIFLESEKENIINYYILGRIADIYYRKKEYDNSIEYYKKALKLKESDYFYLQLGKTYFLKKDIKNSVTNLEKAVELNNKNYIANYNLGVIYYSVKDYKKAYKYLNNANNIKKSDSIEKILKKIEKNERIIGN;locus_tag=LOCUS_16940;note=WP_002679796.1 tetratricopeptide repeat protein (Treponema denticola) [pid:25.0%25%2C q_cov:28.5%25%2C s_cov:66.1%25%2C Eval:3.1e-09%2C partial hit],MGA_1696
sequence1	MetaGeneAnnotator	CDS	1942336	1947864	.	-	0	ID=MGA_1697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIIRKLGVIFLVAAFLTTAGCLNKSSEKNNVTSVVESNGGQATNPDTPDTPTNPDTTPTPTNPAYNANSNKRPVVTYFNTKDLTSPEVNGGQKVKFETTTMDPEGGKTTVEYTATGGSFAADGTWTAPTKPGYYQVSAIAVDDKGLKSDPASWTIRVKKDPAAGGIVLRSIPTVVKSVPNNSFGPQRSLAVTDASTTQTKYIMETSQTATITLVFTDTDNSHAVSTNFSYGSLTQTGASNNGTTYTYTYTYTAPSTAPSGNSASVVFNVFDPNDSSDSDSATITFIIDTAPTISNVALSVSGGSSTNTIAPSGTGTITVTASDADTGDTITYNYSILTGSGTLAESTNTTGTVDFTAPSSTGTTEVLIQLVDSRGANAEEMFTIAIATPMTVVAEDSGVSGATEAAKYTEATGSNAANYDITTDTVNSSQVSIPISNSSDMNTLMGNNAYYYYTGAPSTTIIQTWSVYNEIDSTKVLGTTGKDFGVTTRTFDFNPGTEGVDNGTRYKYMMRGGVKTLKATVDSGTSPNNQVVYASDTVYVNELPSLTGITYTDAQGNSQSLFDGTTLSTVQVSPGQKFNLTMSVSDPDNTRVSPDTTNYPLTSTSGYFANQAYDAGRAGGGTAGIDLSRTLVDGASADSSWTIASSNATDIYDPTSTSSPSYYTFTNDYTTTLSNVPVEIKPSATVDTTGTTPSYHYLALHLNDGTEQLVDEGAIKGPWDYYRVGTEVVDADGADIGAGNLKVDIGTRAGYTSYDKNLMLEFSSDTTGVYFKIKDITAGTYWSYGGSDIKVYVSGTGTNTDGDGDLQDNTNAPIDLTDSDWGASADGSDASIDWLAIDIDESSNWEAGDKVYFKTYANTVILKFQVVNGPTITSVAVPPYVTLGKTVNLNVYGDEGSSSSATVTVVEKTSSGGTLTAGTDSDGDSVSQEVWTYTAPTTMPSSATATFIVSITDGTYTNTREVSVELNQEPTITGITGSDTVDVTNGNWILSGTSPVTLVSSVSDSDSGDTFKYFWTIGGNGKYGTLTYDNTSAVDWSPYNGATALGDVDGPYTNGHFNINLLVMDKDSEGVLKGGTDSSAIDVGVNEAPTIASVMGGARGTDYWSGAIVEKTSSETYDFGANDEYKNVTLSFYPDSTLTDAADDKNSLNFDWYITLDSSDGPIVANPGKIETESKTINSIPAQMLKWTPDISLRGVTRTYYLHSRVTDDKSGVAKGISDKSFAFTVTADDDAPGLVDNEMYVQALVDKAPTGTFSLGDKIRLIIPIGASVTAVSGGTTLTAATASRDLMTATVNIGGLIDGTAGGPTAQNVEFSYNNNGTASDYSDDYLYYDLEIKAASAPSTNYTDGAIDTGGADDVNPPLVSAQDWNGNETAAGVGNDDLIKNGSYLDSTGTTVAASPAIDSQPVIGDVSSAEIDNTDIAVTLNEANNGTFYGYTKDNDMITLNDELTFIADIDEVHDNDKTSDVGSIYAPQLGIAGSGYIPGFRRTDTGGTANSNIVWSFSFTSGNVNAGKQDSSAAAAYTGILADQVVTTSQGYTGDTGTYNLDFWFEDNAGNRTHVEKDALAGGTIDGIDLRRPKVANAQLYSYSSTATTGQAGWAPVLDMDTTNVGDTDGDHKIDRTGTDRMDGNDDDLYLFGWLEVSSSNLDDNSTSTAEILKLTFDEPLLVGNGSSTTTFNFAAPVDGGVGVETDGNLVSSVNDTSIKVYNVSGSTRTEVSNHGVSNLAATTAGDTVELDKIKNYAVRYLDTNGDQTWTTADAVKTEVYIVLLSTTATGDSIDSTSADIGHFAKGKHFEVEFNAIDRANHSSIATQQVMDRNTNFINASGENMTGDDGITWE;locus_tag=LOCUS_16950;note=WP_099258551.1 cadherin domain-containing protein (Rhodopirellula bahusiensis) [pid:21.6%25%2C q_cov:64.7%25%2C s_cov:57.5%25%2C Eval:5.5e-20%2C partial hit],MGA_1697
sequence1	MetaGeneAnnotator	CDS	1948393	1949436	.	-	0	ID=MGA_1698;product=glycosyltransferase family 9 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545786.1;translation=MKKILIIRSGAIGDVLMTTPLIRELKKNMPNIQLDYLVGNWSKSVLEDNRYIDDLYTFSEEKLFMKKDYIYILKTILKMRKNRYDTIVVLDKHKLASLFAMAIGGKRYGFDRYGDGKYNNKNIKYVGGKHEIYYYLDILNLFGLEYNKEDVKMDIFLSDKDIYFAKTIFKSMKLEDKKVIGIVPGGANNPAVGDDSLRRWSIDKYTGLIKKLLNKGIKIILFGGKKDVEINKRIIDNIKNVDIIDLAGKTSIKESAAIMKRCNYIICNDSGPMHIASAVNNNIISIFGPTNPIEKAPLNKGSSYIWKENLKCTPCYDLWGRIPKCNNNYKCMQEIESEEVLEMIKER;locus_tag=LOCUS_16960;note=WP_012545786.1 glycosyltransferase family 9 protein (Thermodesulfovibrio) [pid:28.0%25%2C q_cov:97.4%25%2C s_cov:97.4%25%2C Eval:3.8e-23],MGA_1698
sequence1	MetaGeneAnnotator	CDS	1949440	1950177	.	-	0	ID=MGA_1699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKNKTAYILFPILIILIFITINRNKVYRTGESLWHDIFLKNREKPRIVYNYANYLVRNNEMKKGKEVIKNLKDNDYRKYLILSMITYRQKEFEKAAYFAKKSLEYKSNYDGYIMLGEYFFRINRIEELGRVIEKLKDFHYEETRYKVLKAKYYLVKGKAKLALNSLKGAVGEEALFYEGLSYQKLGELEKAKKIYLKVKTIPTAMVNYALIIYTEGEKEKAIKILEKINDSQSRDLLKKIKR;locus_tag=LOCUS_16970;note=MGA_1699
sequence1	MetaGeneAnnotator	CDS	1950177	1951313	.	-	0	ID=MGA_1700;product=glycosyltransferase family 9 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016469.1;translation=MIKFIKFIDKYIIILFLYLLYPLKKIKNRENRGNIENRDKNNKKILIIKLWAIGESILTIPAIKRLFEKGYKIDVLCTSNNKSVYEGIEYINKIKIFNYKNIFKLLNVIFELRKNRYNIIYDFEPFMNISVLLGAILKKKIFIGFNTGKRKFIYDKKLLYNDKIHCSAVYFNLIKEKNYPTKLVKLKYELKDKLEVEKKLEKYNINNKILIGFHIGSAPTGLGRRWNEENFAELFNRIKAEYNNVEIIFTGTNYEAELFSKIEKNLKGNYINLINELTIKQLFYLLERINIYIANDTGPMHISAAMGTDTIGLFGANLPDRFRPLGDNNISLYHKVECSPCINVHLGEVKECINNYKCMKLITVNELFREIKHKIKEK;locus_tag=LOCUS_16980;note=WP_011016469.1 glycosyltransferase family 9 protein (Fusobacterium nucleatum) [pid:27.3%25%2C q_cov:87.6%25%2C s_cov:98.2%25%2C Eval:9.2e-26],MGA_1700
sequence1	MetaGeneAnnotator	CDS	1951451	1951816	.	-	0	ID=MGA_1701;product=DUF2304 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000050394.1;translation=MRWDLRLFFGAIGILIFGFIIKLVRDRKLKEEYSLLWLILGFIFFIISLFPNLISFLNNLIGISNPVYTLFFGAIIFLVIYSAHISIKISTYEDKIKNLAQELSILKNEIRSDRELEVKNV;locus_tag=LOCUS_16990;note=WP_000050394.1 DUF2304 domain-containing protein (Streptococcus) [pid:32.0%25%2C q_cov:80.2%25%2C s_cov:82.9%25%2C Eval:1.1e-07],MGA_1701
sequence1	MetaGeneAnnotator	CDS	1951833	1952549	.	-	0	ID=MGA_1702;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393713.1;translation=MGELLILIPAYNEEKHIEKVIKKISTVLKEIDIKSKIVVVNDGSKDNTEEIAKSAGAEVINHVFNMGYGAALQTGYKYAFKNEYKYVIQLDSDGQHEPENIKNIYEALKNGEGDLILGSRFLENRSNYNPTLFRKIGMGLFSWVTSTIIGKKITDITTGYQGLNRKVLKVFIQDIYPTDYPDADVLIMLYKKRLKINEVPVLMYELSNKESMHSGIIGPLYYVFKMFLSILVMLIRKL;locus_tag=LOCUS_17000;note=WP_011393713.1 glycosyltransferase family 2 protein (Moorella thermoacetica) [pid:38.5%25%2C q_cov:97.5%25%2C s_cov:97.8%25%2C Eval:1.0e-41],MGA_1702
sequence1	MetaGeneAnnotator	CDS	1952661	1954427	.	-	0	ID=MGA_1703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNKNLLIFLLFSVLGFILYMNTLKVGFVFDSVSLKYDPQIRDIFSALKDVFLQYSSNRRLAYFTFAINYLIGRENPIGYHIFNIIIHILTAFTVYKFLEIFTKKEKASFFAALIFLVNPIQTQALNLIVQRMVLLSGLFYFLTLYLYLKNRETDKKRYYILAIISFLAGIRCKEIVITLPLVLTFIDYKNIKKIIPFYFIAFLPILFKIMVALNGNNQIGKVFNMKQANADLTRGKYFISEFKVIVYYIALILLPLKLRIDYDFKVDNSFFNIDVLFPFFILLVLIFLIIYLYKKKFLYSFSIFLFFMGIFVTSTIIPIEDLSFEHRVYISSVGVILFITLFIDEIIKSKIIKNSIFIIILLIYSGLTINRNFEWKNESKLWKTNIKYTPNKVRPRYNLVEVYLKEKKYNLALEEIDEILKIDNYYEAYKDRAKIYLETGDYNKALKSINIAISRYNKDIENYEIKIKIFEKLRKLDKIEETALKSLEIEKSAKMYNYLAEANYIRKNYNKAIKFANLGLEVKNNYRGNYLLGNISMKFSKYDKAINYFEQCVKIGRMDSKLYKRLKWLYQITGKKDKLKLGTLKK;locus_tag=LOCUS_17010;note=WP_164924857.1 tetratricopeptide repeat protein (Thermodesulfovibrio yellowstonii) [pid:27.8%25%2C q_cov:35.9%25%2C s_cov:38.7%25%2C Eval:2.5e-10%2C partial hit],MGA_1703
sequence1	MetaGeneAnnotator	CDS	1954554	1955759	.	-	0	ID=MGA_1704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLIIMIDAVRPDYISKEYTPFLYELKEKNTFLKLHTLLGYSSGIHPSIYTGCYQDKTGKFVVFYKDEENSIFKWTKFLKLIPTDFLRKYAIAFMKVPYYYTPKKYKKFLPKFFRETVIKVPPSIPLDILPYFNMGNKGNKLKTLYDYLDENSVSYESYATTKNTYFENVTSLEELKISDKTVDSFYIYEPDGYGHKYGANSKEIKELMSKIDKKVKSLYKEALEKFKDVNLFIFSDHGMYNVEKFVDIQTPLKKAGLEQPRDFIAFFDTTFARFWTKDNGVKDKIIEVLNNTEGVRYLNDTLLDKYKINFKEKEKFGEIIGVVEGGIRQFPDYFSPVRSTIKGLHGTFPEYEGSYGIFFSNCINTSEKEIKVVDILPTIMKISNLKYDEKFVDGDSIV;locus_tag=LOCUS_17020;note=WP_004081181.1 alkaline phosphatase family protein (Thermotoga maritima) [pid:25.5%25%2C q_cov:61.6%25%2C s_cov:65.1%25%2C Eval:3.8e-09%2C partial hit],MGA_1704
sequence1	MetaGeneAnnotator	CDS	1955977	1956900	.	-	0	ID=MGA_1705;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015945412.1;translation=MCRYNPKIDLVFRKLFGSEENEDILLSFINAVLENETKIKDLTIKNPYNLSSYLSGKSSILDIKAVDENGIWYDIEMQISEQGFYGKRALYYWSKVYSGQIEKASDYRELKKTIGIHLLDFNYFDDDRYLRRIVLKDFETEEVYEDLDYEELYFIEMRKFKKGYEELKTLLDRWITFLNKAYEMSKNNMPEAIKEAEIKKAVEKLEIMYLDDQEREVYEAERKLRMDRNEEMRTAIEKGLEEGRKEGREKGIKEGIKEGIKEGIKEGIKEGIEKIAIESLKNGLDIEIISKITGLTKEDILELKNAN;locus_tag=LOCUS_17030;note=WP_015945412.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:30.0%25%2C q_cov:98.7%25%2C s_cov:97.6%25%2C Eval:1.5e-28],MGA_1705
sequence1	MetaGeneAnnotator	CDS	1957183	1957821	.	-	0	ID=MGA_1706;product=N-glycosylase/DNA lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016533.1;translation=MRDTILKIYKDEHDIFINRIEDFKNKWKFGTDKDIFIELAFCVLTPQSKARSAWSAIEKMVGNDILFNGTAEEINEYLNVVRFRNRKSEYLVLAREQFLKKGEFKIKQFLLNLGNDYEKREWIVKNIKGIGYKEAGHFLRNVGFVENLAILDRHILKNLNLSGVIDEVPKSMTKKIYLDIEEKMVKFSKEIGVPMEYLDLILWYKEAGEVFK;locus_tag=LOCUS_17040;note=WP_011016533.1 N-glycosylase/DNA lyase (Fusobacterium nucleatum) [pid:58.2%25%2C q_cov:98.1%25%2C s_cov:95.9%25%2C Eval:1.3e-66],MGA_1706
sequence1	MetaGeneAnnotator	CDS	1957818	1958252	.	-	0	ID=MGA_1707;product=Fur family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904077.1;translation=MGMIIKDVSEYLKSHDIKPSYQRMKIFNYLITKKNHPTVDQIYKELVEEIPTLSKTTVYNTLKLFVDKKIAIIITIEENETRYDADISLHGHFKCTECGQVYDVNIEVPESFGEGLKKFQIDEEHIYFKGICEECLKKRNGSKI;locus_tag=LOCUS_17050;note=WP_005904077.1 Fur family transcriptional regulator (Fusobacterium nucleatum) [pid:60.4%25%2C q_cov:93.1%25%2C s_cov:94.4%25%2C Eval:8.9e-43],MGA_1707
sequence1	MetaGeneAnnotator	CDS	1958650	1959204	.	-	0	ID=MGA_1708;product=NADH peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009889371.1;translation=MKWVCQVCGFVYEGEEAPEKCPVCDAPKSKFKKLEFSADNINWADEHRIGVAKGLDEDVVKELRANFTGECTEVGMYLAMSRQADREGYPEVAEAYKRIAFEEAEHASKFAELLGEVVDADTKLNLQKRVEAEYGATEGKLKLAKRAKELGYDAIHDTVHEMCKDEARHGSAFAGLLKRYFGNK;locus_tag=LOCUS_17060;note=WP_009889371.1 NADH peroxidase (Clostridioides) [pid:75.1%25%2C q_cov:98.4%25%2C s_cov:98.3%25%2C Eval:3.9e-76],MGA_1708
sequence1	MetaGeneAnnotator	CDS	1959248	1959424	.	-	0	ID=MGA_1709;product=HTH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965557.1;translation=MDIVELVLKTLDESEEPLKGGEIAEKTGIDKKEVDKAIKKLKKEEKIFSPKRCFYSVK;locus_tag=LOCUS_17070;note=WP_010965557.1 HTH domain-containing protein (Clostridium) [pid:46.6%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:2.4e-07],MGA_1709
sequence1	MetaGeneAnnotator	CDS	1959696	1960142	.	-	0	ID=MGA_1710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCRINSRIDFAFKKSFWTESNKKLLIDLTNLVVSKKEQVKKVEVVERIKKAVELLDDTLLTYEERESYEARLKWIRDEEAAKKAAEKRGFVKGVEEGLKSVIEKGIEAGIEAGKLEIARSLLDVLDIKTISEKIGISEEKILKLKNEK;locus_tag=LOCUS_17080;note=MGA_1710
sequence1	MetaGeneAnnotator	CDS	1960281	1961255	.	-	0	ID=MGA_1711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEELKKIFGSELEVVEESEKEEKEENSLIEMEGTYFRLNSNDKLKKKMFKYLKEIYDEQLKEYAIENFVNDVIKFKFENIDLILNRSEILGLDFYVKRVAVLIEIEDMYAMLKNKKDMIIQKFKKRLYMAVKNVLKKEDILSYVGNNKFLLCTTIADKNIIKKKIINPFIEIFSNLNFEYKIAIGDTYDMPGLEAMGYSYNDSERYMKLGKKFLKSELVYEYSNVGMYMLIDNVDKIGKIKINNYVKNIIEYGEENHVDIIRILETVYKNNMVLSKVEKELDIHRSKIRKMLKEIEKITGSNPMKFENAVMLYLALETWKINK;locus_tag=LOCUS_17090;note=MGA_1711
sequence1	MetaGeneAnnotator	CDS	1961477	1962304	.	-	0	ID=MGA_1712;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948093.1;translation=MKNNIKNNIKKEKNRKESIIEGNNINFKYGDTEILKNINLDIKEGNFISIIGPNGSGKTTLLKKFLKILNVKKNEILYLNKDLLSYSNIEFAKMASYVPQFGEQNIFFSVEDVVMFGRNPYLKRFQEESIDDKKIVEDVMKLTGVWEFRDKYITELSGGELQRVIIARVLAQESKVIFLDEPISHLDIHYQIEILKILNKVKKDKSITIVAVLHDLNMAIEYSDKIVMLNNGIVEKYGDIDEVITKELIKKVYKINFEILTHPKTGKKYFLPDYK;locus_tag=LOCUS_17100;note=WP_011948093.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:40.0%25%2C q_cov:91.6%25%2C s_cov:98.0%25%2C Eval:1.2e-47],MGA_1712
sequence1	MetaGeneAnnotator	CDS	1962304	1963293	.	-	0	ID=MGA_1713;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948945.1;translation=MKNREVLFFVTIILLILFFILSIIFGSVTIPLNDVFNVILGNNNAKKAYEIIIFKLRLPRTVLALLAGGGLAIVGSIYQGILKNPMAEPYTLGVSAGAALGAVLGIVFFKSMGIINMISFLGAILTIVIVYKIAKVGSFLPPIAILLAGVAVSFFLSSVISLIMIFNRSKIADIIYWTMGSFATVYWEQIIFLGIILLLFLLLAIYFTRDLNILQLGEEEAKTIGVNVEFVKKIFLFSSAIVVSAIVSITGIIGFIGLIVPHIVRILIGQNYKNSLIFSFLFGGIFAIGCDIIARVLAMPSEIPVGVITSILGVPYFLYLLYKNKKKVF;locus_tag=LOCUS_17110;note=WP_011948945.1 iron ABC transporter permease (Clostridium botulinum) [pid:41.9%25%2C q_cov:90.0%25%2C s_cov:91.0%25%2C Eval:1.5e-61],MGA_1713
sequence1	MetaGeneAnnotator	CDS	1963290	1964162	.	-	0	ID=MGA_1714;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948944.1;translation=MKKIILIFMLFIVMLTFGSNYPIKIHDSYGRDITINKEPNRIVSLSPAITETIFALKSGEKLVGRTIYGDYPKEVKKIEAVGDLLNPNLEKIIEINPDVVLASVHVQKKFVDKLESVGITVVTFYNDSSINGAYKMIRELGEVLNKDKLSEKIINNMKSKISKISEKVKNLKKPTVYYVVGYGKYGDYSAGAGTYIDKMITLAGGENIVKIKGWKYSLEKLIEKDPEIIVVSKYYNAKEDFKKLEGYKELSAVKNNKIFEIDDNLLNRQSARLADGIYQLAKIFHTGVIK;locus_tag=LOCUS_17120;note=WP_011948944.1 ABC transporter substrate-binding protein (Clostridium botulinum) [pid:44.5%25%2C q_cov:98.3%25%2C s_cov:95.1%25%2C Eval:6.5e-63],MGA_1714
sequence1	MetaGeneAnnotator	CDS	1964293	1966224	.	-	0	ID=MGA_1715;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016727.1;translation=MKRVLLVFVILSIMVFAEEYKLSDIAVTGERFENTISNSSKDIKIITESEIKESGASTVSEVLKDISGIVISDYTGSGKTVTVDLHGQGDNAKKNLLILVDGISINSIDMSGADINSVLLDNVERIEVLPGSGGVLYGDQAVSGVINIITKKSKKNGVSGDIGLNVGSYNAKKYSGKIGYKNEIMSINLGYNKKDLDGYRKNSKFNMENFKLNLSIMDKIGMSYKNYKDSYGMPGSLTKDEMEKDRADALYTDYSGSPVGRTENKDNGATKTKEYGLWEKFEIGNIKFENNSKYVEKKLITDMISWGTPKSTTDSKEIADNLKFRYIIGNLKSSYGVDYKFGENRADLNKVNKEKIGAYILNDLKLTDLLKIEGGLRREKNSLKYYNDSKKADEKAYYKTLYTAGMNFNYRPTGKLYLEYNTNYRTPLTDEYLTFGKYMKDLKPQSGNNLQLGVTDFIVDILYVDINAYKTEMKDEIYYNSSSYKNENMSGKTLRTGADIILEEDFSIFTLKEGYSYIKSEITDGAYKGKEVPGVPQHKFNLILTINPVENLKIRGNLNYIGKRYAINDLENKGDKVKSYKTLDINSSYKINNIEIFGGIKNILNEKYSSTIVYSPYLYGATDKMAYYPSAERNFDLGVRYKF;locus_tag=LOCUS_17130;note=WP_011016727.1 TonB-dependent receptor (Fusobacterium nucleatum) [pid:25.3%25%2C q_cov:99.8%25%2C s_cov:99.7%25%2C Eval:9.8e-48],MGA_1715
sequence1	MetaGeneAnnotator	CDS	1966787	1967269	.	-	0	ID=MGA_1716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGIFNKVIDMIGFPVEEEEFEEEVVAKKENRSDKVVTIKDVKSKTQARFQSYDLIEYASFAPEKFEEVRYIAEEVVGHKIVNLNLTFLSKEEAQRTLDFLSGASLAVRSRIEKLGNGVFSIVPAKIRQNRSINLDDGGEIIADGKIKYNEEEEILRKAK;locus_tag=LOCUS_17140;note=WP_005901725.1 cell division protein SepF (Fusobacterium nucleatum) [pid:29.8%25%2C q_cov:65.0%25%2C s_cov:96.9%25%2C Eval:8.0e-07%2C partial hit],MGA_1716
sequence1	MetaGeneAnnotator	CDS	1967285	1967950	.	-	0	ID=MGA_1717;product=YggS family pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016483.1;translation=MSVAENIKLIKEDIKKYSKNPDKVKIIAATKYVDYKGVEEVLEAGIKNAGENRVQALREKREILKEKDINWNFIGHLQKNKIKYIIDYIFLIHSVDSLGLAKEINKKAEKIDRVVDILLEVNISGEKSKSGYNREDLENDMTELLKLKNINIKGLMTMAPLAEDNNIVRKVFRELRELEEELNENYFNGRLTELSMGMTNDYKIALEEGATMIRIGSKIFL;locus_tag=LOCUS_17150;note=WP_011016483.1 YggS family pyridoxal phosphate-dependent enzyme (Fusobacterium nucleatum) [pid:55.4%25%2C q_cov:99.5%25%2C s_cov:99.6%25%2C Eval:8.0e-67],MGA_1717
sequence1	MetaGeneAnnotator	CDS	1967952	1968380	.	-	0	ID=MGA_1718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNVFDFLRGIQIKSNPNALRDALLVILIIVAFFSLGFMIVNISKFKRKILDKKLYNFLFEFNGITEEEKIIINNMIKKYKIRPKYNILILESVFEKHLEYEIMKIEQSNILSSEKEKKIDKYLELKKKIFYSDIIERVEL;locus_tag=LOCUS_17160;note=MGA_1718
sequence1	MetaGeneAnnotator	CDS	1968386	1970578	.	-	0	ID=MGA_1719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGNNLKSIIMNIYKTKDIVKLNKVLDKVYNNKKIQNEIIEILHNNEKLSYFFLENSLKIDSFLERIKSSFKNTDWYKNITLFLKHPDKNVRIAFLKKLSSVKTLIFIEFYMEILKDREWEVRKTVAQNISIYNDENSLKLLVTLLDDSDRRVVKEVIFLLAKKGDVVLQYLDKHMQLPMPRMKLNILELLEKLRSFEVLKYLVILSGDDSEEVKLKAQQGIMAFMEKISIEDSNEDESKILILLKKELGKTDIKNAVYIIKILLKFKEAGSKIIREDLENRWMVKNDYFNLIKDIKIPEKIYLIIEMLESKKLEVKSNGLKLLSYYQVKSEVEEEVLRLIGEYVIKNIQYLSEEEKRSLSDFLRKNKLLEKIIKKIKSENSYERKVAVEIIGIIGDESIYKIIIGLLKDTDSEIRESVIKILGEEKNEKYLEDFKEMLSDPKDSVQLCAIEAIAKINTVSAKKIILESMDHPNKRVMEKASKIIAHESLKKYIDNFLILDEDTKKKVVKMFGKVEEETEDILSNEIQSIDPEARKRVIEILRYMPNKNKFKKILEKALVDPDKTIRASVVNIIVNISDIDLLKGLLKLLNDPDKRVRANTIEVFGNLNKKAGAKLLVPFLNDKDNRIRANAIMALYRLGKKEVIDEIDKMASMPNKLMKVSAVFVIGELGLTEKQYLLNALMKDKDDLIRKNVLKASYKIKYKNGVIFYLTDKNSEIQTLAREYYEKGL;locus_tag=LOCUS_17170;note=MGA_1719
sequence1	MetaGeneAnnotator	CDS	1970591	1971670	.	-	0	ID=MGA_1720;product=radical SAM family heme chaperone HemW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016482.1;translation=MIDAIYIHIPFCVKKCNYCDFVSFSNNKNRDLYIKYLIKELKLYSNYVYDTVYIGGGTPSLLKIEEVKEILNSINIAKNAEITFEINPKTVDYEKLKELKNLGINRVSIGCQSFNNETLKILGRIHNSEIAIKTYKDARKAGFDNINLDLMFAVPGQTLKTLKKDLNVLEELSPQHISIYSLILEENTKFWEMKKSGELNLVGEDLEAEMYKYIIEYLENIGYNQYEISNFSKTNYESKHNLKYWRNQHYVGAGLGASGYIQNKRYKNEITFEKYFEKIDNKKFPIKEVEKLNDRHIEEYKYILGLRLVREGVEILNSEYVEIAEKLIKRHLLNRIKNRYFLTKKGLFLANDVFVEFIK;locus_tag=LOCUS_17180;gene=hemW;note=WP_011016482.1 radical SAM family heme chaperone HemW (Fusobacterium nucleatum) [pid:50.1%25%2C q_cov:98.3%25%2C s_cov:98.1%25%2C Eval:1.4e-97],MGA_1720
sequence1	MetaGeneAnnotator	CDS	1971883	1973196	.	-	0	ID=MGA_1721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRTKYILIITLILGIGSLFLYFGFIKNLKNKKRVKTNINQNIKIKEKTKEKIVDKKKEYEKLKKIFTEEKKYEGKKDDKLPPKLEYKLSDSLINMEEGKYPKLLLNIEDISGIYRVRLWFLYNGKEIGYMQQNPNSKSTKIQLKFRFDNKVILDNLKSFYDFEGTELEVKLEIWDNNMNKSEKILEEKIKIIDNISPQKPNAYWDYYYNIENSDEIVYSKQIKNGFMIKKIEDLPLLKENKIKKYQISIENAENNKLLYRAGMANWKENKKKLFVTIDAEGKFIFKIKAYDLNDNFSEKVIKFGIDRTPPVGQLILPDGEKYTVGSNIKVKIEANDNLSGIFRYKISNEKDTLKYKSWISYEDSFEYKTASKEGIYTIWCQLEDNAFNETKPFYVNYYAKKKEFEIKSKSGNRERVMEVEKERYGNKIKIKSFKEK;locus_tag=LOCUS_17190;note=MGA_1721
sequence1	MetaGeneAnnotator	CDS	1973409	1975079	.	-	0	ID=MGA_1722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLLLGVVLLSNIFLIIFGKGIILGLVITVLEILILIVGWIFISKKETKAINHMKENLEDLLLGKDIFGDLADESIKGKLRGLVLEFNKFMKVFKQIIVRINVTGDKVESTSYDLTYNIENLMEGKNGNKENIKELISKTADVMKNVTNQYSSTEEIYATVNELSESFELVASNAEKTLDISNETAKLASIGGEAVKENLNEIKKIEETVSAIETRSIKLGESSEEIGNIVGLIGKISEQTNLLALNAAIEAARAGEAGKGFAVVAEEVKNLAENSKEATNKIDGLIKVIQNEVTEVIKAVKLGYEEVKKGMELSENTIEKIDDIIEKTNMTNGEIGKISTAIQDQSSSIKEITAATESVANDGESISNLSQDQSSDLEIIAVTLKDILLLSSNLTEVSTALKNSIGKIKIEITEEDKKKKFMEWTPAISTGVRIFDEEHKVLIRLINDLNDAMLEGKSKSVMGDILKELADYTVTHFSHEEEYFEKYDYPNREAHKKIHRQFVAKVEEAYKQFQNGDLTLSKDLMDFLNKWLVEHIVGTDKKGYGKFFNDKGVY;locus_tag=LOCUS_17200;note=WP_010937481.1 bacteriohemerythrin (Desulfovibrio vulgaris) [pid:30.3%25%2C q_cov:77.3%25%2C s_cov:60.1%25%2C Eval:8.8e-50%2C partial hit],MGA_1722
sequence1	MetaGeneAnnotator	CDS	1975303	1976322	.	-	0	ID=MGA_1723;product=pseudaminic acid synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987011.1;translation=MKSCFIIAELSANHGHKIENAKRTIKKAKEVGADAIKIQTYTADTITIDCDNEYFKIKQGTIWDGTTLYKLYQEAYTPWEWHKELFDYAKEIGITIFSTPFDFSAVDLLEKLNTPIYKIASFEITDIPLIEYAASKGKPMIISTGIATLEEMKDAIEACKRVGNSDITLLKCTSQYPAKLEDANLKTMIDMKEKFNVKIGVSDHTIGSIVPTTAVALGAEVIEKHFIIDRNIGGPDASFSMTPDEFKEMVDRVRDVEKTLGKVDYELTEKKKNSRVFARSLFVVEDIKKGEILNEKNVRSIRPGYGIAPKYYKDILGKKVVVDIKRGTPLNLEMIEINK;locus_tag=LOCUS_17210;gene=pseI;EC_number=2.5.1.97;note=WP_011987011.1 pseudaminic acid synthase (Clostridium botulinum) [pid:64.0%25%2C q_cov:97.6%25%2C s_cov:94.6%25%2C Eval:3.1e-123],MGA_1723
sequence1	MetaGeneAnnotator	CDS	1976353	1977771	.	-	0	ID=MGA_1724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKFYIFTEGGTEIGYGHITRCSALYEEIEKRGYEVEFIINGDEEVLDIIKNKKIRLIDWRDENYLSNLLHKNDYVIIDSYLADKEIYKFISNKVGKILYIDDNQRIEYPKGIVVNPSIYGKELNYPEKERIRYLLGANYVILRKEFLNIPIMKNHKDNKDNKDNKEKIEDILITFGGSDIKNITPKILKLLAKNDLKLKKHIVIGKGYKNIAQIKKEADNNTNFYYNLNAEEMKNLMLKCDFAISAAGQTIYELLRIGIPFVAIKVADNQENNIKGLSKLGINCFDEFTIEKLKLYYFKIPKIIDGKGVNRIINNFFIDYKIRKLEEKDKKNIYDLSNKDYVRRYSLNKNKILWSEHLIWFDKQLNDKNTIFFVIESGKNDFLGQVRLNKIIDKEEAVISASFSEKIKGKGMGKYILGDVIKKVKKERDDIKNIIAVINKNNISSVKLFKRLGFNLFKEGEEFSKYIKKI;locus_tag=LOCUS_17220;note=WP_010965485.1 UDP-2%2C4-diacetamido-2%2C4%2C6-trideoxy-beta-L-altropyranose hydrolase (Clostridium) [pid:30.4%25%2C q_cov:66.1%25%2C s_cov:97.6%25%2C Eval:5.4e-29%2C partial hit],MGA_1724
sequence1	MetaGeneAnnotator	CDS	1977764	1978606	.	-	0	ID=MGA_1725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870576.1;translation=MKIGCIIQARMSSSRLAGKVAQFLPFDSGITVLEQVIRRVKKSKKIDKIIVATTTNEDDNEIIKIANREQVDFYRGLEENVLSRYYLSAKKSNLDIIVRITSDCPCIDWEIIDELIQKHIKEKNDYTTNALKRSFPHGLDAEIINFKVLEEAYNNAKEKFEIEHVTPYIYKSHSEKFKIGILEAQDELRAPNIRITLDTKEDYILLCAVYDFLYMKNRYFRAEDIIKLFNEKKWLYNINNKIEQKKVCKNLNEEIDEAIRLLNNQDLDRAKNYLKEKYYG;locus_tag=LOCUS_17230;note=WP_010870576.1 hypothetical protein (Methanocaldococcus jannaschii) [pid:39.2%25%2C q_cov:87.5%25%2C s_cov:97.1%25%2C Eval:1.3e-36],MGA_1725
sequence1	MetaGeneAnnotator	CDS	1978619	1979632	.	-	0	ID=MGA_1726;product=UDP-N-acetylglucosamine 4%2C6-dehydratase (inverting);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015759.1;translation=MLNNAKILITGGTGSFGKKFIEAIFNKYNPDKVVILSRDEYKQFMVRQMFEKKLTKKQFSKLRFFIGNVRDRERLYRAFKGIDYVIHAAAMKQVPACEYNPKEAIKTNINGAMNIIDAALDCGVKKVIALSTDKAVNPINLYGGTKLVSDKLFIAANSYKGEKGTVFSVVRYGNVAGSRGSVIPFFQKLIDNGATELPVTDIRMTRFWMTLEKASELVFKALDESKGGETFVFKNESFKITELVKAMLPSGKIKEVGIRTGEKLHERMITSDDSRMTYEYGDYYIIYPDFEWWNFEEYFLPGGKLIEQGWEYNSGDNSEWLDAKDLKKALDEIEIGY;locus_tag=LOCUS_17240;gene=pseB;EC_number=4.2.1.115;note=WP_011015759.1 UDP-N-acetylglucosamine 4%2C6-dehydratase (inverting) (Fusobacterium nucleatum) [pid:70.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-138],MGA_1726
sequence1	MetaGeneAnnotator	CDS	1980114	1982105	.	-	0	ID=MGA_1727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDTKKECEYLMDITTDIISFHDKDRKFTKVSNSVFKVLGYRAEELIGKDPYSFIHPDDIEKMAKKLHTTNKDSEMIYEYRMRNKKGEYIWVESKINPIFNENREIISMVSITRDITKIRKMENEIKEQYILIRKIIDNAPAFIFAKDKEGKFLIANKTLSDYYGIPIEKIENFKIEDIYEKYNLNLEEAEEYLKSDIEVIETKIEKYIPLESFTTIKQDKRWLEVRKIPFEISGKVYSLGIAIDVTERKEKEEELKKAIEEAKKADKAKSLFLANMSHELRTPLGGVIGMLEILEITELDEKQMKFVKMGKNSAENLLEIVNDILDISRMEAGKVEINKTEIEIKSFFENLIEFLSINANKKGLELLLDFDKALPKQIMADEGKIRQILTNLIGNSIKFTDDGVINIKVKKEYIIDNKMGIEIKVKDSGIGIEKSKIDKIFEPFTQGDSSYNKRYKGTGLGLSISKKLVELMGGRIFINSEKGKGTEITFILPLEILNKNNEIEDISDELDKNIDEENAVMKNNKTKNDKMKLEEIKEEKIVLIVEDNVINAHLLEYLMKKINFKTITATNGKIAIEILEKMEKIDLILMDIQMPVMNGYEATKIIKNDSKLNKIPIIAVTAYAREEEIEKILEAGMELCITKPVGKEHLYKAIEKILGIKI;locus_tag=LOCUS_17250;note=WP_235044884.1 PAS domain S-box protein (Geobacter sulfurreducens) [pid:32.1%25%2C q_cov:99.1%25%2C s_cov:62.7%25%2C Eval:3.1e-81%2C partial hit],MGA_1727
sequence1	MetaGeneAnnotator	CDS	1982238	1983440	.	-	0	ID=MGA_1728;product=acetylornithine transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082331.1;translation=MDLKTLKEKDKQYIMNTYGKIDVSFVSGDGVKLYDTEGNEYLDFFAGIAVNNLGYSYPKVVEAIKNQAEKIMHSSNLYYIEPQIKLAELLVKNTIFDKVFFANSGAEANEGAIKLARKYGKLKLNGKFDIITMKKSFHGRTLTTVTATGQEKYQKHFTPLTEGFKYAEFGNIEDLKSKIDDNTLAIMIEVIQGEGGVNIAPKEYWEELQKLVDEKGILLIIDEVQTGVGRTGYLYAYEIYGLKPHMITSAKALGNGLPIGALLATDEVSIFEPGDHASTFGGNFMATASGIAVVEEISKKEFLYGVRKKGEYFRFKLNELVKKYNFVKSVRGKGLMIGLEIESDLIKDTVEKMLKRKILIGSAGGVVLRFLPPLIIEEKDIDAVVENLDEIFEEIKKDRK;locus_tag=LOCUS_17260;EC_number=2.6.1.11;note=WP_004082331.1 acetylornithine transaminase (Thermotoga) [pid:51.0%25%2C q_cov:95.8%25%2C s_cov:99.7%25%2C Eval:2.0e-111],MGA_1728
sequence1	MetaGeneAnnotator	CDS	1983459	1984349	.	-	0	ID=MGA_1729;product=acetylglutamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393771.1;translation=MIGKKIERAEILMEALPYIKEFYGKTVVIKYGGNAMIDEKIKDEVVQDIVLMKFVGMNPVIIHGGGPEINKVLSKLGKTAQFNMGNRVTDYETMEVVEMVLAGKINKNIVTKLNKFGGKAVGLSGTDANLIVADKKYIEKEGEKVDIGYVGNVKTINPRMIRILEKEGFIPVISPVGVDEEGKSYNINADYVAGELAGALGAYKFILMTDIAGILKDIEDKSSIISEMSLDDAEKLIDSGIISGGMLPKVDACLTALKKGAERVHIIDGRVRHAILLELFTDDGIGTMIKKADKED;locus_tag=LOCUS_17270;gene=argB;EC_number=2.7.2.8;note=WP_011393771.1 acetylglutamate kinase (Moorella thermoacetica) [pid:57.3%25%2C q_cov:95.9%25%2C s_cov:97.3%25%2C Eval:8.1e-93],MGA_1729
sequence1	MetaGeneAnnotator	CDS	1984374	1985600	.	-	0	ID=MGA_1730;product=bifunctional glutamate N-acetyltransferase/amino-acid acetyltransferase ArgJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965687.1;translation=MNEVKVLKDGDITWVNGFKSSGVVADIKGNGGDKKDLAIIYCEKECVTAAVFTTNKVRSRTIDVNRENLSKGNINAIVVNSGNANACVGKKGYMDALRMTEITAENLGLDKEKVLVCSTGVIGVQLPMEKLEKSIPKAVKEIKDNGGKDTIEAIMTTDLVKKHIAVEFETENGEKIRIGGIAKGSGMIHPNMATLLGFITTDIDIDKELLQNTLKDITDKTFNMISVDRDTSTNDSLIIMSNGFANNQKVTDKNSIDYLRFKNALNFVMEHLAKSIARDGEGATKLIEVKVLNADSDKDAKNIGKSVITSPLVKTAVYGEDANWGRIIMAIGYSDAEVEEGTIDIFVGDIKVCENGIGVLESEVEINKELKKDEIVITIDIKLGEATARVWGCDLSYDYIKINADYRS;locus_tag=LOCUS_17280;gene=argJ;EC_number=2.3.1.1%3B 2.3.1.35;note=WP_010965687.1 bifunctional glutamate N-acetyltransferase/amino-acid acetyltransferase ArgJ (Clostridium) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-105],MGA_1730
sequence1	MetaGeneAnnotator	CDS	1985622	1986338	.	-	0	ID=MGA_1731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEEFISIKAGRPGINIRMSKFATFILLLFLGIGIALFSQLIIREISQRNIQIEKHRRTIERLKAEMRIKDKKLKELIEFKKLLDAIKNLSRNTLNKNEQEKLSEVIYKESQKYKYNWRMILAVIMTESNFRARLRSTDPSYGLMQIKYRTAKEAGKKIGVKLKNKYELYNIEKNVLIGAFYLFEQILKFDNVKKGIVAYNLGPSLTKKISDKKKSKDITTAYLKKVVNNYNFLKENF;locus_tag=LOCUS_17290;note=WP_010964415.1 lytic transglycosylase domain-containing protein (Clostridium) [pid:32.5%25%2C q_cov:60.9%25%2C s_cov:85.8%25%2C Eval:1.0e-09%2C partial hit],MGA_1731
sequence1	MetaGeneAnnotator	CDS	1986556	1987104	.	-	0	ID=MGA_1732;product=3-isopropylmalate dehydratase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932300.1;translation=MADIIKGKAYVLGDNIDTDQIIPAMHLVYKLDDEEESKLYGKYAFSGLPKEAIGDTPFIKEGEFESEYKIVISGKNFGCGSSREHAPFALAKAGIEAVIAEDYARIFYRNSVDGGFLIPYETEKRLIDEIKTGDELEIDVLKGILKNKTSKKEYVLKELGDVKDIIDAGGLFNYAKEKNYIK;locus_tag=LOCUS_17300;note=WP_010932300.1 3-isopropylmalate dehydratase small subunit (Chlorobaculum tepidum) [pid:61.2%25%2C q_cov:98.4%25%2C s_cov:96.3%25%2C Eval:3.6e-58],MGA_1732
sequence1	MetaGeneAnnotator	CDS	1987118	1988413	.	-	0	ID=MGA_1733;product=3-isopropylmalate dehydratase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932301.1;translation=MGMTIVEKILAKHSGKEKVTPGENVWVDVDVLMTHDVTGPGTMAIFEEKFGKDAKVWDKEKIVLVPDHYIFTKDKHAMRNIEYVKDFAKKQELKYFYEPFTTNYKGVCHVALAQEGHTRPGEVLFGTDSHTGTAGAFGEFATGIGNTDGAYIMGTGKLWVKIPETMRFTFEGELPPYIMGKDIVLQVIGDIGFDGATYKCMQFDGEAIHSLSMEERMTICNMSIEAGGKCGIIEPDEITVEYVNERTNRPFEMLKSDEDANYSFTKVYDATKLEPVVAKPHSPGNKELAKNLSDVKLDRSYIGSCTGGKTADFVAAAKILKGRKVAIDTFIVPATTKVNESLDKIKFDGQSLREIFVEAGCKVGKPSCAACLGGPVDTFGRTHNTEVVISTTNRNFPGRMGSMDAPIYLASPYTAAASAVTGYITDPRKFI;locus_tag=LOCUS_17310;note=WP_010932301.1 3-isopropylmalate dehydratase large subunit (Chlorobaculum tepidum) [pid:57.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-151],MGA_1733
sequence1	MetaGeneAnnotator	CDS	1988660	1989262	.	-	0	ID=MGA_1734;product=RNA polymerase sporulation sigma factor SigH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966429.1;translation=MQIKDLDEKLIEEAKSGNEDAVNEIFTEYKDFVYIKSKNYFLIGADHEDLIQEGMIGLLKAIRGYDSNKLASFKTFASICIKRQLISAIKSSNTKKNKALNKVVNDYVDDNYDSSKYLESYIIYNPEEIYISREQIEGLKSYLKKNLSKFEYNVFKKMMCGESYTEIAETMDKKTKAIDNAMQRIKRKSEYWLEKYKKGN;locus_tag=LOCUS_17320;gene=sigH;note=WP_010966429.1 RNA polymerase sporulation sigma factor SigH (Clostridium acetobutylicum) [pid:44.1%25%2C q_cov:95.0%25%2C s_cov:92.0%25%2C Eval:1.7e-38],MGA_1734
sequence1	MetaGeneAnnotator	CDS	1989264	1989974	.	-	0	ID=MGA_1735;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015648.1;translation=MNKIYGVNPVREAVKKNSEIEKIEIYEGVNKNKIEEIVNLCKKNGIKVDYIKKREKDTQGIVAYLKEYNYVVDEWEFLERLAGKKESTVLVLDNVQDPRNFGALIRSADAFGVDGIIIPEKRSVKINETVIKTSTGAIEHVNIVVVKNLVEFMKKLKKIDFWVYGAEADGKNYYTKEKYANKTCLVLGSEGQGIRKLVKENCDIMVQIPMVGNVNSLNVSVAGGILLSQILLNRRG;locus_tag=LOCUS_17330;gene=rlmB;note=WP_011015648.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Fusobacterium nucleatum) [pid:53.9%25%2C q_cov:97.9%25%2C s_cov:99.1%25%2C Eval:5.3e-67],MGA_1735
sequence1	MetaGeneAnnotator	CDS	1989977	1991242	.	-	0	ID=MGA_1736;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015649.1;translation=MVDGFKINGNKKLKGKIRVSGSKNASLPILAGSLLEEGEYIFENVPNLKDIRTMLKLLTELGIEVEKIDENSYKLINRGIKSIEAPYDLVKTMRASFLVMGPLLGNVNQAKVSLPGGCAIGARPVDYHLKGFEKLGATINLEHGYVEAVAKKLVGNKIYLDFPSVGATENIIMAAVKAEGVTILENAAMEPEIEDLCNFLIKMGSKISGVGTNRLEITGVKKLYPGRYKIIPDRIEAGTFIILAALVGEDLKILGANLSHLESFLMKLKEAGIEVIEEDGELTIEKKELKAIKIETRPHPGFPTDMQAQIMILLNFVKGTSEIKETIFENRFMHVSELNRMGANIHIEGNIAIITGGGQLEGAEVMCSDLRAGASLVLAALAAKGETIINRVYHIDRGYEKFEEKLKKIGADIERIKLGVV;locus_tag=LOCUS_17340;gene=murA;EC_number=2.5.1.7;note=WP_011015649.1 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Fusobacterium nucleatum) [pid:62.6%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:3.7e-143],MGA_1736
sequence1	MetaGeneAnnotator	CDS	1991295	1991846	.	-	0	ID=MGA_1737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKREMIDEIEKNRMSFLKVQSEKNIFLGEYKERIIAALTKDQIIEDDVYPEIIAAINETRAYILKMSRDLPLKKLKPYIAEAEKIKLKYQLVDGLAYSGNIGLIIAAKEALKETKENVVIRDMDQDFIDAGLGEKFSKNKGKKICDECYEQVVKKLPQYKDEFKKMTIFDKILGIKCAVCKK;locus_tag=LOCUS_17350;note=MGA_1737
sequence1	MetaGeneAnnotator	CDS	1991848	1993497	.	-	0	ID=MGA_1738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPISDYYNDGKLEIFVYEFENKVVVNNEELKYDFNHPRCIEYGKNKIYISDSYNNRIVIYDIDKKEYSEFGKGILSEPYGMKIYRNKIYIINSTKKTISIFDEKNNFLKEFKVGKLYPIKLDIYNNKIYVLDKSSSEIYLYDFSGEKTDELSIKLKFPSDIKVLKGNIYIADTFNKRVIKLSDYGILLKTIIAGDYYSILNIEKDNLWYYCEKKSELNKLKISLNKDNVEEILKSGNRKEELLYYYIRNENKEKTAEIYNKSLLNKKYKNENKKLIEFIDEKNKKELYKILNSYYWEMNNEIKEIKSINKIDNLKLSKPKAICVEDENIWLSLIGYKLLLKFNKDLNFKDAYKFEILFDKIAVNNKTIFIIDYYYKKVYLIDKENFNTKKVIKEKTLVSPVELKLYNEKLYVLDSYYKKIFIFTKDGSKKKEYKINGENPISFEIFENNIYVLDKKNSEISKYNRYFELEYKKKLNGLKYPESIVSDEYGNFFISDEGNGRVIKFDKNWSLLFEIGDFGMPRDLFFDKNKLYVSDFAKGELKIINMER;locus_tag=LOCUS_17360;note=MGA_1738
sequence1	MetaGeneAnnotator	CDS	1993563	1994528	.	-	0	ID=MGA_1739;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041078769.1;translation=MRNKVKRDDMFKKIFSDKKLFLMLLKDFIKESWVSEIDESKLELIPSLFTDGLETNRESDIIYKVKINGEEIFVFVLLEQQSNINFLMSFRILEYMVKLWRKYIDDNKKASKNKSFLLPPIYPIIFYDGIKNWTSVKEFKEKVKNEEKFKRFIPNFEYELIELNKISFEKLETYEDLLSTLLLIDKIKKPEELSKLSNIEKSYWENVKKDIGSKRELEKVVEAMNLLLIRINVPKEEREEVIEQIYEGRLENMFEMAVHYDVQETRMLARKEGIREGIREGIRKEVENVVRKSIMLGLDIETIMKLTSLTRKEIKDILSKN;locus_tag=LOCUS_17370;note=WP_041078769.1 Rpn family recombination-promoting nuclease/putative transposase (Rickettsia asembonensis) [pid:25.1%25%2C q_cov:81.6%25%2C s_cov:79.2%25%2C Eval:4.2e-13],MGA_1739
sequence1	MetaGeneAnnotator	CDS	1994912	1995079	.	-	0	ID=MGA_1740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRVKIYNESDEMISDDIWYGNSIDNVKFWVDLAIRDIIQKLHYKHLYYEIDEA;locus_tag=LOCUS_17380;note=MGA_1740
sequence1	MetaGeneAnnotator	CDS	1995081	1996601	.	-	0	ID=MGA_1741;product=2-isopropylmalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164930807.1;translation=MKKIDIFDTTLRDGEQAPGATMNAKEKITLAKQLEKLNVDIIEAGFPIASPGDFDAVKTIAENIKGRTIAALARATSKDIETAARALEKAEKPRIHTFIATSPVHMKYKLRMEPEVVLERARQAVRLAKKYVDDVEFSAEDAGRSDLEFLYKVYAAAIEEGATVLNVPDTVGYKLPDEFGRFIKSIKQNTKGIEKAKISVHCHNDLGLAVANSIAAIQNGAEQVECTVNGVGERAGNAAMEELVMILKTRTDILGDYFTDINSKQFYNTSKMVETFTGFYIPKNKAIIGINAFKHESGIHQDGVLKERSTYEILKPEDIGVFGDNIVLGKHSGRHAFKVKVEEMGYNLEDSEIENLYKKFLKLADNLKEVKEQDIRAIIDGERTLVDEEYKVLYVSVSSGTQIPSAVVRLSKSGEEFTETSIGDGPVDAAYKAIDKIVGEKSILLDYNIKSTSETKETLGEARVRIKGSKGNYTGIGASTDIIEASVKAYLHAINKMIFEEQKGGE;locus_tag=LOCUS_17390;gene=leuA;EC_number=2.3.3.13;note=WP_164930807.1 2-isopropylmalate synthase (Aquifex aeolicus) [pid:54.8%25%2C q_cov:99.0%25%2C s_cov:96.9%25%2C Eval:2.6e-154],MGA_1741
sequence1	MetaGeneAnnotator	CDS	1996615	1997526	.	-	0	ID=MGA_1742;product=quinolinate synthase NadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546803.1;translation=MTKEEMINRINKLKKEKNAVILAHNYQTGDIQDIADFTGDSLELAKKVVDVKADIIVFCGVQFMAEMAHMLNPEKKVLLPRKDAGCPMADTITGEDVRKLREQYPDYTFIAYVNTNADVKEQIDICCTSANALVIAKNVDNDKIVFMPDRNLGNYIKENVPEKDIVLWDGECNVHNRITLEEVKKAKELHPNAVLIAHPECKPEVVKFADEVLSTGGMVKFVKETKAEEILVGTEEGMIHRLQKEAPNKKFYSVSRNFVCANMKKTHLEDILESLEEEKYEITLPEEARKKGKKTLDEMLKYL;locus_tag=LOCUS_17400;gene=nadA;EC_number=2.5.1.72;note=WP_012546803.1 quinolinate synthase NadA (Thermodesulfovibrio) [pid:49.8%25%2C q_cov:97.4%25%2C s_cov:98.7%25%2C Eval:7.5e-86],MGA_1742
sequence1	MetaGeneAnnotator	CDS	1997541	1998140	.	-	0	ID=MGA_1743;product=imidazole glycerol phosphate synthase subunit HisH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545834.1;translation=MIIIIDYKMGNLPNVKRALNLFTDDVEISSDINKIRKADKLILPGVGAFGDAMKNIKKMGLKEVIIEEAKKKPLLGICLGLQILFEKSEEDPSEEGLGLIKGEVLKFKNNTGLKVPEIGWNNIKIKKGNKILTRIKDNSYFYFVHSYYVKPSEDVTIATTDYGIEFTSAIEKGNIMATQFHPEKSHDEGLIILENFINL;locus_tag=LOCUS_17410;gene=hisH;EC_number=4.3.2.10;note=WP_012545834.1 imidazole glycerol phosphate synthase subunit HisH (Thermodesulfovibrio yellowstonii) [pid:52.8%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:2.9e-51],MGA_1743
sequence1	MetaGeneAnnotator	CDS	1998165	1999175	.	-	0	ID=MGA_1744;product=DNA polymerase III subunit delta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015679.1;translation=MGFKDFLGDENAKKILTNELKMKKSSGTYLFYGKKGVNIFEFAINFAKAINCPEVENDYCDECRVCKSIDKKIYADLKILDMEDKSVKVEQVREMIIEASNSSYEGGAKIFILNKVNKLNKESANALLKTIEEPVKNTYFILLTHNLNLLKTIISRSSLVEIKPLSYKKLEVTEEIYDFFDGNMEEILESKNIKEFNNNFEEELSYENIFDNLKNYIELKNNLKEDLKDIETKESEMKDMSTQKIKFKVNIIKCIIDYINKKRFLSELEIIIFAEKLALEIGKNREFLRDILYIFLLKKQKIEKNIKNLEKLLEIKESLNYNVNVGLVSYNFFKNF;locus_tag=LOCUS_17420;note=WP_011015679.1 DNA polymerase III subunit delta' (Fusobacterium nucleatum) [pid:31.7%25%2C q_cov:93.8%25%2C s_cov:96.2%25%2C Eval:5.4e-35],MGA_1744
sequence1	MetaGeneAnnotator	CDS	1999176	2000216	.	-	0	ID=MGA_1745;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902246.1;translation=MAKLFHKSFFSMNKSIGIDLGTANTLAYYKQKEKIVLNEPSVVAVDRVTKKVLAAGKEAKEMLGKTPDNIIAIRPLKEGVIADYDVTEQMLNHFIKKVFGKFNIFLPEVMICVPIEVTGVEKRAVLEATLAAGVKRAYIIEEARAAALGAGIDISAPEGSMIVDIGGGSTDIAVISLGGTVVSRSIRTAGNNFDEDIIKYVKKKHNLLIGDRTAEQIKIKIGAALPLEQEEVMDIKGRDLLTGLPKTIVINSNEVLEAIEDSLMVIVNIVKQVLEKTPPELAADIVDKGIVMTGGGSMIRHFTKLMSNNTQLPVTLADNPLESVVLGAGIALDMADVLRRLEKAER;locus_tag=LOCUS_17430;note=WP_005902246.1 rod shape-determining protein (Fusobacterium nucleatum) [pid:71.5%25%2C q_cov:97.4%25%2C s_cov:98.5%25%2C Eval:4.2e-139],MGA_1745
sequence1	MetaGeneAnnotator	CDS	2000209	2000598	.	-	0	ID=MGA_1746;product=mini-ribonuclease 3-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902248.1;translation=MGNSKLKELSSLALAYLGDSIWELHIREYFVMKNYKVGKLNNLVGKYVNAKSQNIIFEKIFENLPEEEKSIALRARNAKIKSYPKSCTQKEYKNATALEALVGYYYLNNEKDKVNNLIEKYIIEGEKNG;locus_tag=LOCUS_17440;note=WP_005902248.1 mini-ribonuclease 3-like protein (Fusobacterium nucleatum) [pid:46.7%25%2C q_cov:93.0%25%2C s_cov:92.2%25%2C Eval:6.7e-26],MGA_1746
sequence1	MetaGeneAnnotator	CDS	2000580	2002013	.	-	0	ID=MGA_1747;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015680.1;translation=MLKIYNTLTSKLEEFKSRKKNEVDMYVCGPTVYNYIHIGNARPIIFFDTVRRYLEYKGYKVNYVQNFTDIDDKMINKANEEGKSVKEIAEKFIGEYFKDTKPLNIKESTTKHPKATEYIGKMIKLVKELQEKGYAYESNGDVYFDVFSDKEYGKLSHQKVEDLISGARIEVNENKKNPLDFTLWKKAKENEPKWNSPWGEGRPGWHLECSVMSMDEFGETFDIHGGGQDLIFPHHENEIAQSECSTGKKFANYWMHNGYINIKGEKMSKSKGNFFLLREILEKYNGRILRFFVLSSHYRKPIEFSEDELKMAKTGLERIETFMKRIKLLINNPIENMEQSENKYLKEQLVIFKDKFEDGMDNDFNSSKSLGAIFELIKDLNKFLDKESNPEIYKNDLNEIYNLIKTILEDVFGVELELETKIEDNLTNELVELLLEIRFKAKNMKNWELADTIRNRLKKLNIVLKDGKDKTTWEIQN;locus_tag=LOCUS_17450;gene=cysS;EC_number=6.1.1.16;note=WP_011015680.1 cysteine--tRNA ligase (Fusobacterium nucleatum) [pid:59.3%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:1.1e-165],MGA_1747
sequence1	MetaGeneAnnotator	CDS	2002055	2003515	.	-	0	ID=MGA_1748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVWISVAIIMFLGVMGYGIFLNVSKADIMDFVIKDSDVVGISKSNDKDILELNERIKDYMKTKMPKEYEKAKGSMELEKYIKQTLVVHEFQKIEDIKSAKDIQLAIILDSGELYSVALTQLDKFFDKDGNSYILKDEYIESLFQQNNVTEIYKKELKNIKIYMRPYKGYFVLTLSKDYLDKYINLVKKGETNKRMLDKIKTEGNKYVYYIVDANKIYNSYKKYIPENNYITDLDFATIYSKYIKAKDSIVFSMKLNGKGDIFKLLSTNKLNNRNLETSISDNELYLANNSFSNLIKYILNDIKKYKGTDYLSVLDLFTGGKGENLLDSVGNEMILKADTEKNISAVLDLNSKDGLERVFKNLGLLPQNGKYIISNKMNVKFDKAGKLILNDYKIKNNSIKLENNTFLYSNIDLSKLMPQFKMKNSSYKIAGISDGNSIELKFSFNVKAFFDILDLASTLENNNKSNMIDSKKINKEEANASEKK;locus_tag=LOCUS_17460;note=MGA_1748
sequence1	MetaGeneAnnotator	CDS	2003519	2004181	.	-	0	ID=MGA_1749;product=serine O-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_207285050.1;translation=MFEDIKVIKERDPAAKNYLEILFLYPGLHAVIFYRISHLLYRIKIPALGCFIMFLVRMLTGIEIHPAAKIGKRFFIDHGMGIVIGETTIIGDDVTLYQGVTLGGTGKENGKRHPTIGNNVIVGAGAKILGSFEIGDNVNIGANAVILCDVPSNATVVGIPGRIVRMNGEKVKASILNLDHVDLPDPVMKRMKDFEKEVHILIKEFKECRGNCRIEKREDI;locus_tag=LOCUS_17470;gene=cysE;EC_number=2.3.1.30;note=WP_207285050.1 serine O-acetyltransferase (Dictyoglomus turgidum) [pid:57.5%25%2C q_cov:90.9%25%2C s_cov:88.4%25%2C Eval:5.7e-65],MGA_1749
sequence1	MetaGeneAnnotator	CDS	2004202	2005059	.	-	0	ID=MGA_1750;product=carbon-nitrogen hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941312.1;translation=MKLKIALAQTKPYLGSVEKNLDIMYKNIDEAIENGADIIVFPELAVTGYSLKDMVPVVAVWKEQFYEKILEYSKKISIIFGGVEESKNHQFYNSAFYVEDGEIKHIHRKVYLPTYGMFDEYRYFAKGNKFRSFDTKFGRIGMLVCEDAWHMSSAYILAQDGADYIFVLSSSPSRGINDKEKLSSIKTWENINRVYADMFNLYLIYSNRVGYEDGINFWGGSEVIDPFGVEEGKAKYFEEELLFVEVEKQKIRRARIYSQTLKDEDISLTLRELNRIEKNKFENID;locus_tag=LOCUS_17480;note=WP_010941312.1 carbon-nitrogen hydrolase (Geobacter sulfurreducens) [pid:47.7%25%2C q_cov:98.2%25%2C s_cov:99.3%25%2C Eval:8.4e-76],MGA_1750
sequence1	MetaGeneAnnotator	CDS	2005215	2006762	.	-	0	ID=MGA_1751;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKEFNITGTCIPSEHYMVDTSLKLDKIIKLIEKRKYFIINRPRQFGKTTTMYLLDRRLKENREYLLIKLSFEGMGEEFASESRFVKSFIELIVKKMKFLNKNKIVDFIENYKEVEKIKQLDDFITDLVLEIDKKVILMIDEVDKSSNNQLFLNFIGILRTKYLMRNEGEDYTFHSVILAGVHDVKNMKLKLRPDEQRQYNSPWNIAVDFDIDMSFSADEIKTMLIDYTNETKVEMDIDFMAKKLREFTSGYPFLVSALCKIIDEKLNRDFSEKGLEEAIKIMLNENNTLFDDLIKNINRYDELYNLAERIVLDGEEIHYNLDAHNLGVMYGIFRESRNHKLIIHNKIFEIRLYNYMIAMREIKKGAALNYKYMGKFIDENGDLDMELVLIKFQELMKAEYRKIDEKFVEREGRLLFLAFLKPIINGTGFYFVESETRHSNRMDIVVTYNNKKFVIELKIWRGGQYEQEGREQLCGYLEAQNLNKGYMIFYNFNKNKEYIKDRLNVAGKEIFEIGV;locus_tag=LOCUS_17490;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:48.6%25%2C q_cov:96.7%25%2C s_cov:95.6%25%2C Eval:4.6e-138],MGA_1751
sequence1	MetaGeneAnnotator	CDS	2006850	2008412	.	-	0	ID=MGA_1752;product=citramalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942443.1;translation=MGKKIFIYDTTLRDGSQMKGINFSVEDKLRIVKELDKMEIDYIECGWPGSNPKDEEFFKLIKLTKMNHSKIAAFGSTRHPKNRVEDDVNIKKLIEAETDVVTIFGKTWDLHVEKALGITLEENLILIEDSIKYLKENVKEVFFDAEHFFDGYKSNPEYALKVLKAAEKGGADIIVLADTNGGSLYYEIAEIIDEIKKVIKTPFGIHAHNDSGLANANSIEAVRKGGIQIQGTINGYGERCGNANLCEIIPNLMIKMGYDVIGDKLTKITKLSRFVSEISNRSQAENMPYVGGNAFGHKGGIHVSAIMKDTHTYEHIEPEKVGNKRNVLVSDLSGKSNILYKANELGIKLDKNDNVVKEVIKAIKSLENQGYEFEGADGSFELLLKKAMKQRKYFFDLISFRMIIERTELNKMISEATIKLDVDGKETHTVSEGDGPVNALDAALRKALLPHYPQIKDMELVDYKVRVLNGKDGTAAKVRVLIETVDKLTGERWGTVGVSENIIKASWEALIDSVEYYLNN;locus_tag=LOCUS_17500;gene=cimA;EC_number=2.3.3.21;note=WP_010942443.1 citramalate synthase (Geobacter sulfurreducens) [pid:60.6%25%2C q_cov:98.7%25%2C s_cov:97.2%25%2C Eval:3.4e-173],MGA_1752
sequence1	MetaGeneAnnotator	CDS	2008419	2009102	.	-	0	ID=MGA_1753;product=2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015681.1;translation=MRYYYIVAAAGIGKRMRLDYPKQFLEYKGKPIFITTVEEIEKNSKVTDIIIVTNKDYIKEVKEMIKKYRLKKVKEIVAGGKERQDSIYNGLKLIDDNDSIVGIQDGVRPFIKQNYIDEGYKKLNKNSTISGVVVGVKVKDTIKEIDKNKNIVNTPKREKLIAAQTPQIFRTQILKKAYESAFENDYYGTDDSSLMEYIGEKIEIIEGNYNNIKITTPEDLVFLKQKE;locus_tag=LOCUS_17510;gene=ispD;EC_number=2.7.7.60;note=WP_011015681.1 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (Fusobacterium nucleatum) [pid:50.2%25%2C q_cov:96.9%25%2C s_cov:94.4%25%2C Eval:3.8e-51],MGA_1753
sequence1	MetaGeneAnnotator	CDS	2009099	2009884	.	-	0	ID=MGA_1754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVRGLILILVNVFLFYKASNFFMLRDKSVYILFGVVAGWGIEYFIDVVMKAYKEKKSVKSEKTGRGKILDSSAIIDGRILDILETGFVEGEIIIPNFVLEELQYLADSEDNMKRARGRRGLDLIKSIQANKSNKVVVEDKDYKIKEVDAKLVKLGKELNGDVVTTDYNLNKVATIQGVKVLNINKLSNALKPVVIPNEELEIELIKKGDRDGQAVGYLHDGTMVVAEDGGPFLGRTITLVVTSVYPTAAGRMIFGKIKRR;locus_tag=LOCUS_17520;note=WP_015942743.1 PIN/TRAM domain-containing protein (Desulfitobacterium) [pid:58.2%25%2C q_cov:73.6%25%2C s_cov:50.0%25%2C Eval:1.6e-59%2C partial hit],MGA_1754
sequence1	MetaGeneAnnotator	CDS	2010052	2011491	.	+	0	ID=MGA_1755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKYVYTLLKIIAIQQKLIIALMIFALGKKFEFLNSKSDDKPIDKKYHRLIVDKMPIFKKIVKFDYKILLEQYQLKHNKPLKPIKRRKESSVPKSLICPICGAPHIYIYDNNGHKGQFKCKICNTNFHEKNHFAKFVVFKCPHCGKTLEKIKERKDFFVHKCTNKKCSFYLKNLQKMDADERKIYKNDPSKFKLHYIYREFTFDFNSLDKDSLVPIPSDLSKIQVSPYTLGLILSYNINFGISARKTANLLKEIHGINISYQSILNYAKAVATNVKPIIDNYPYKLSDSICGDETYTKVLGKWKYIFFFFDTKKKIILSHYTSSSRDTKSACKALIDVISKYRELPEDFQVIVDGNPIYLLAQQFFAQHDINFNVEQVIGLTNKDKVSKKFRPLKQIIERLNRTFKENYHYTNGYNSHSGAFTSVTLFTAYFNFLRPHSSLENNVPVVIPELTDLPNMPARWGKLIELSQYFIPEKHIA;locus_tag=LOCUS_17530;note=MGA_1755
sequence1	MetaGeneAnnotator	CDS	2011789	2013909	.	-	0	ID=MGA_1756;product=cell division FtsA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_035214035.1;translation=MKNLFALDVGTRNVVGLLVDYEENKIIIKKSITLEHETRAMEDGQIHDIEKVSETVLKIKESIENGEENRVTQVAVAVAGRALVTSSAKAEKEFNPKYEITEENVATLELIAVQNSMINLSEKYKEYHCVGYTVSEYKLDNEYIKNPKLQKGSKLEVEVLATFLPKIVVDSIFTMAKKVNLEIINLTLEPIAAISVVISEDMRKLNLALVDIGAGTSDIAVTKSGKIIGYEMVPMAGDEITEKISEEYILDFSEAEKIKRELNKDIEKVGYTDILGMEYEIDKKEILGKIEPVIHELSHKIADKILELNGKAPQAIILIGGGSLIPLLRENLSEAISLPIQRVAVRGTEIIKNMVDKTNMLTTAEFITPVGIANMAINGRGFKIISVTINRISHRVFSFKNSITLRDTLLSSGLSMKKLYSSSGNPITFKLNGKLRFEKGEIGQLATIKVNGEKRSLEDEIFDNDEIEIIYKRAGRDAVFYIENLKKEYKNIEVKINDEKKILEPIIKVNGEIKADNYLIKDNDEIEVKEKFLAKDILDSENSLKFYINGKEMEILVPNEILLRDNKELDLNSEIFNGDILETKKIDKAMLKVKDVMDITEESEEIKVTVNGEIINFGKIGVEILKNSKKTSGEDIIENGDRIEVAGSSSSKLILSDIFNYYNPEDLIKERGGVLQIELNGKKAEFITPIKNRDVIKLYYAKTFKK;locus_tag=LOCUS_17540;note=WP_035214035.1 cell division FtsA domain-containing protein (Desulfitobacterium hafniense) [pid:36.1%25%2C q_cov:99.2%25%2C s_cov:99.0%25%2C Eval:1.8e-111],MGA_1756
sequence1	MetaGeneAnnotator	CDS	2013935	2016280	.	-	0	ID=MGA_1757;product=endonuclease MutS2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015682.1;translation=MDNHDYRVLEFDKIRNIISGFVYTEEVQNRILNLEPLKDINEIKKSMKIIEDYMDLLRYDAGIELEGLKNIKNVIEKTELIGTYLSPEEFYYINENLKLFRRAKNKIESLKDKYRALYLFFKDVPIYKGIEELISKVVDENKEIKDDASLEIREIRRQKKSINDTINRKFDEIVNNPNNAKAIQEKIVTIRDGRCVIPIKADFKGQIKGIEHDRSSSGATIYIEPLSVVSLNNKIRELEVREREEIRKLLLRLTDTIRNNRDGIENLAENILEIDFLNSKAMYSIENDCKIPKYNDREYLKLIKARHPLLRKEESVPLTFEVGKKYNIMLITGPNTGGKTVTLKTAGLITIMALSGIPVPADEQSDIGMFNGVYADIGDEQSIEQSLSSFSSHLKNIKTITEKTTRNSLILLDELGSGTDPIEGAAFAMAVVDYIKSKNAKLIVTTHYSEVKAYGYNEEGIETASMEFDVETLSPTYKLLMGIPGKSNALIIAKKLGLKPDIIERAEKYISEEDKKVENMIRNIEEKSREIEAEKLKVEELKADFEKKTREYEEKLEEIEKEKNNTLKEAYDKADELLKNMQMKAKALVDKIQKEENIKQDAKETQKSLNMLRKSLVEDKEKTVKIIKKRNKHIDIKVGEDVFLTKLGQNAIVLKVMESKGEIQVQAGILKLMVSIDDVKKIEKKKKQKSRSKNYAFTKSRVRSEIDLRGETLDEAIIDLDNYLDKAMLNNYQEIYIIHGKGTGKLRIGIQKYIKTSRYIASFRDGNMNEGGLGVTVAELK;locus_tag=LOCUS_17550;note=WP_011015682.1 endonuclease MutS2 (Fusobacterium nucleatum) [pid:52.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-233],MGA_1757
sequence1	MetaGeneAnnotator	CDS	2016888	2017454	.	-	0	ID=MGA_1758;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015693.1;translation=MKLIIGLGNPGKEYKDTRHNIGFAAIKKFADDIGVSNFKNKFKGIVGEINYKGEKLILLQPQTFMNLSGNSVVEAVNFYKINPEKDIIVVYDDMDLDIGKLRIRLKGSAGGHNGIKSIISHIGDKFPRIKVGIGKSKSREATVNYVLGRFSKSEREDIDENLTVILKILDEFVTEENLEKIMCKYNKK;locus_tag=LOCUS_17560;gene=pth;EC_number=3.1.1.29;note=WP_011015693.1 aminoacyl-tRNA hydrolase (Fusobacterium nucleatum) [pid:58.5%25%2C q_cov:100.0%25%2C s_cov:97.4%25%2C Eval:1.7e-58],MGA_1758
sequence1	MetaGeneAnnotator	CDS	2017664	2018776	.	-	0	ID=MGA_1759;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010890322.1;translation=MFLIYLGISNMKIGLLQSSLFFVIFFTEFPSGVIGDRMGRKNTLLISVFFNILSLLLMIFHYNFITIWISFVFEGISMSFFSGTYSAIFYDSLKLYGKEDKYLKYSGNTSTIVNFLLGISIIVGAFLQNISWEIVYISTLTATLIGGIFLLFVYEKKGDSIIDTSNMKSIDFLKELINFFEKEEANKLWLLIIATSILEAVASYYYIISQSLFDSQKLSIEKIALIYGSLQILTAIMHKISIKINSKFKINKILLTSSILYILLLLLLIFNNSFISLIVLLLVTALSDISYISQDNFIQKMIPSESRSSLLSLFSFTSSVITGLIYIIFGKLGDIFSQNVSFTLLVIPCFGGLFLLNLYFQNINYLSIKE;locus_tag=LOCUS_17570;note=WP_010890322.1 MFS transporter (Borreliella burgdorferi) [pid:22.8%25%2C q_cov:93.8%25%2C s_cov:87.8%25%2C Eval:7.1e-15],MGA_1759
sequence1	MetaGeneAnnotator	CDS	2019341	2019601	.	-	0	ID=MGA_1760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQAYKLGTIIGEESGTRYSDYGNAISFRTKYTKTLISISNKYLSDPSEKKIKRGVIPDIIVRPKIDDIINGVDTQLTYILKNLIH;locus_tag=LOCUS_17580;note=MGA_1760
sequence1	MetaGeneAnnotator	CDS	2019740	2020693	.	-	0	ID=MGA_1761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMVFIFLAMFYFSNLTNAAISKEMFLKEVKDVVKKGEDIHVNFYARVKKEELNNYIEKKFKKFNDTISEREAVAFLASLMAKIKDGHTTVFLELGKFLKRDVKFLPFKFYIIGNKVYLIKDYNNKITKGSLILKINNNPVDRIIKNISEHISYDTIGWKKFKLNNEFFMYYYLLYNPTKQYEIVYRDKKDNLIKKKIINGIGVKEYKKIFIKEEKKYSFKQISSKVAIMRIKTFDYDQEYFSFLEKSFSELKKKRINNLIIDIRDNGGGNSDCGELLGRYITNKKIRVFSYIQVKVCKELKKDQNKYGIHKNSYN;locus_tag=LOCUS_17590;note=MGA_1761
sequence1	MetaGeneAnnotator	CDS	2021025	2023061	.	-	0	ID=MGA_1762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGFTFKVVLVDKKKRKSKGREISGVAKMKNIELDEVDGFKMQILLPENYKNTNKNYPVIYMLDGQDMFCKSTASDGEWKIDENISRLIKEKKIPEVIVVGIYSRFPNIRKIISFIDGKYRTLANRKNRAIMGSSGGASSSLMLTILNSDLISMAGAISLPQFEGLYEFLEKQPKKDIKIWLDGGTKEGGRGFYMYGLKNIIDILERKGYILGKDILYFEAKDKDHTPEAWSERVEYPYIFFFGKDKKDIADIDVEYYVVKAYGSYIQINPIIKWNNGLKYSLYNLADYKIIGDTKAEITNDGKLYFYGENKVEIEINYKGVKKKLKLNYEMFKKDIASGINIFLDSTLLGQKANYGIKVKNINIREFKGIDFISINSAYKILKVINNKLEKKETDDKIRISEMNAGNNLIFNISKNEIVKNNRKLNNYEQKFIKEGEYYYFPLKFMEELIDNSIVYHIESSNWHIFNKKNFEKEFKNNYIDNWWYKIKPIPRLTTSLKIFNFLFIVKILNNNDNYFNIESELKEKYLRMLMSTKNSIEYYNVVNKFIEEVNKKAFISVYGSNFIQKNELMNYIYKKNLNYILKSNGETILSLNEININAQNMEIIKQEIDKYLKEHDIKGWKHLEDEEKYVKLKYIDRNGNKKEMNFDLENVRQEISRGSNYYVLPDHSILTIIPEK;locus_tag=LOCUS_17600;note=WP_011249477.1 alpha/beta hydrolase-fold protein (Thermococcus kodakarensis) [pid:27.6%25%2C q_cov:29.9%25%2C s_cov:51.0%25%2C Eval:3.6e-16%2C partial hit],MGA_1762
sequence1	MetaGeneAnnotator	CDS	2023079	2023339	.	-	0	ID=MGA_1763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLLLFLNILIIGCANLTYKNSNTELPYKKEVNNLQLKSEINKIKLSWNVEKDESLDHIEVYMKRSVGVKFKKIKKLESNNKI;locus_tag=LOCUS_17610;note=MGA_1763
sequence1	MetaGeneAnnotator	CDS	2023690	2025126	.	-	0	ID=MGA_1764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNIKIVVIIIIFGIAMAGCTILSIREKKVSSGKYEKGFKFVTLEGESSHLTLKWKIYSPKKCKKIILKKKEYSGNIGELEIISKDDIEEPIKISPKKNRYDFEHPAYETFNYSFIVQYEDGTEIKREFNRVYKIQKNIIMEKIGGRKVAVYLPPGYNKNLDKRYPVIYAQDGQAMLIKYAEGMDCMVDESIDKYVKSGKMKEVIVVAIYSTNKRRQEYVPYLGQNEKSLSKEYGNYVVNKIIPFIDTKYRTIPNRENRGLIGFSYGAYISLWLLYNYDDIFSFAGALSLSFDSGEYQFLDDIKKIGKRNIRIWISQGTHEYGDETFRLLKLWSNQGYKYGKNIFFYQDSDGYHDYNNWKKFIIYPIMTFLNPKGTKMLNVTSNVSHVINDKGTGFDYYLNAIVETESGAKYTLFDGAKYKSLDGRVEFINSSWKFKPIAKKNSKVEISFKGKKIKTVIDYKEIEKAKNGYKFRKKYN;locus_tag=LOCUS_17620;note=WP_011249477.1 alpha/beta hydrolase-fold protein (Thermococcus kodakarensis) [pid:26.1%25%2C q_cov:47.1%25%2C s_cov:51.2%25%2C Eval:2.4e-16%2C partial hit],MGA_1764
sequence1	MetaGeneAnnotator	CDS	2025138	2026529	.	-	0	ID=MGA_1765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIFIVIFALFFIIGCSSLRVEKQSEVKNLRVEEGIKKIKLTWDTIKDKRVAKIEIKRNYDDFRKYFKRIRELSPNENSIEIEHPAYLLMEYKVSLKYKDGTESKGKSITATAKHDSVFLDEVDGRKMEIYLPPSYKKDKSKRYPVIYMHDGQSMFTTTYLGNNWEIDKIMDRLIAKDKVEESIVVAIYNRNRAEEYIPYEDKQQQKYGNFKKSKSKELGDFIEKKLIPYIDGKYRTIPTKENRAVVGCSTAGLYSLWEGINYSNLFSMIVSVSPSYELGNDKIFEEMKNTPKKNVKIWIDVGTSEWDPKPRKMIKILLSKGYVYGKDLFYYEVKDGEHFSTSWKERIEYPILLFKGKKLERKVVEIKPEVEVGVSSRTNELSEMVNPVAILDDGVKYSLLGSAEYFSLDNKAGNIDKWGNFKFLQNKDFEIEVKYGNIKKKIKIEKKEINNEEKRLGIRR;locus_tag=LOCUS_17630;note=WP_011249477.1 alpha/beta hydrolase-fold protein (Thermococcus kodakarensis) [pid:32.6%25%2C q_cov:50.1%25%2C s_cov:51.7%25%2C Eval:4.3e-23%2C partial hit],MGA_1765
sequence1	MetaGeneAnnotator	CDS	2026554	2028221	.	-	0	ID=MGA_1766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYIFMIFLLSTMIACTSLEKDKSKTQIKYMPTQITIESGDKFSRIKWNLQNKNNIEKIELFRNLEYASNKYYKLKELPFDYDFTDVQQPTFAKLKYYFKITYKDGIQKKSDTFDVIGKHNSVILDNGLGIELEVILPKNYNTNKEKKYPVVYLLDGMDNFELNMSEDELMFDEMIELNKDKLSDMIVIGIESPVDRYRRFLPYKDVKNAGVANPGGVEYSKFIAEKVIPYVDKKYRTIKRADGRTIYVVSHGGLLSNYIGETYPKLFKNSASLSPAFYVGDFAEIEKIKNNKKTDKKVYIFTGTNEWQMNGRMAVKAYENIGYKYGKDIIYYEGNDEYHHVDSWRKIEMDPLLFFENGTDDNGEFRIEIERIYGFGVEPRPYGTPESYKPGRVTTIINPVFTTKRGIQYSLMDLAKYEVIDKENGKINKYGEFKFLNNLPCRVKVTYSNVEKIVEVLPYKKTKIIKNTSIKIDSLNWNINNGKIILNWKLNRYESSNRIEVWAKQREKDKFKYIGYQPAYLEKFDTKLDFDKKYELKIRLIGENEKVIEEKIIK;locus_tag=LOCUS_17640;note=WP_011836970.1 alpha/beta hydrolase (Streptococcus sanguinis) [pid:31.0%25%2C q_cov:31.5%25%2C s_cov:66.1%25%2C Eval:4.7e-11%2C partial hit],MGA_1766
sequence1	MetaGeneAnnotator	CDS	2028419	2030332	.	-	0	ID=MGA_1767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILIWFFMMFSMIFSETNSIYNTKIDMKRYPNASVVTLLDRESIIFNKDNSYIIKKHIIKRILNYKGKKASSEYKIKFDKRFEKVDIINAKTVKISKSGIKEIAVDKSKNIRIIDAPSDVGLMKYAAHKMEVIAFPAVNEGDIIDIEYTIKNNKKQKISGTVNFASREAVYNKVEIINIPKDMNFNITKFNWNTKMEYMDNIAKDRKIIKFSEKFMPQILDESNIPESLKFMPTVIFTNYNNWAEYRDELLGKFIKINKSKENLQILKEIKEKVLDKLITKDMTNMKKEEIIQDFIAKHIEIKYIDNLLDFEASSPKEILTRGYGTSLDIENLFLLLLKEEGISGEIVILGSDKLVWDDVKKGIDMNRFNYAISKVTIDNKDYFVDATNEFSKLGESVIENNIGLILDTGKPEFVNVKSIEKNITRIEKSYNIKIDLNGDALINKTIYFYGINAIGEREKYKYMTPIMKQQDYQKELGMISQNAYPISKQMDVELGSPVKISYTYKYTNFASIDGDFIYFDLPYRLDMLDLFENVRKYPFELVSDILRKNNISIEYPANYKVRIAPKSLEIKEKNMLIKRDLKIGNSNGGNKIILDTVVRYNSHIYTIEEYSKLYKILEKLNYPKNAKVLLEKE;locus_tag=LOCUS_17650;note=MGA_1767
sequence1	MetaGeneAnnotator	CDS	2030352	2032283	.	-	0	ID=MGA_1768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIMVVLLMLFSIVSYSVENNKFLKVEKKDYPNAHYVLVDENSIVKYQSDGKSLKTEDMLIKILDEKGKNENENVVLNYDSNYEKLLLKEAYLIKKDGKKLEINISKNSKIQISPESAQSNIYDKSQKLLILKIPNLEVGDYLYYKVEHNNFKTMIKDNFSDFYLLRNEYPIIKAKYKIIAPKEKDLKYSVVLNGLKDKYKLTKKSNDKNIIYELEEKNIPQIIPEPSMPSITQVAMKWIVTTNSSWEEISKWYFNLSEPKIIIDESIRKKAESLVLNSKTDMEKIKNIFFFVSRKIRYMGITNEKNRPGLEPNSTDLTLKEMTGVCRDKAALIVAMLRSQGFEANMVLVKVGDKLDKEVPIPYFNHAIATVKLNGKYILMDPTDETTKKLFPDYEMDKSYLIAKKYGDLLKTTPVIEAVKNKLKIVTNIKNINGEFQCKTNIEFLGINDGAYRGYFARLNKDEKDKFIKRVLNILSKTAKLEKYELLPNNLLRDSSTLKLSVEYKISDYIISGNEYSMIKLPKFSRILGLYNWALGDVKLPMRKYPLKNRFTASISEKIIYNSENKNFVIKFVPSTMDINENGHTFYSKYITDKGKIISYKYMTLDKLEYSTKEYLKLKEYLKEEESYNKKYIIIKNFLKK;locus_tag=LOCUS_17660;note=WP_011037137.1 DUF3857 and transglutaminase domain-containing protein (Xanthomonas campestris) [pid:20.0%25%2C q_cov:68.6%25%2C s_cov:67.4%25%2C Eval:2.3e-12%2C partial hit],MGA_1768
sequence1	MetaGeneAnnotator	CDS	2032677	2033510	.	-	0	ID=MGA_1769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINFVFDLDNVVVSVLDYEAERKYNEYIELLGEEFVKRHTIKALGYIHMVFPGFYALFKWLKENNHNIIFFSSGIKDRNVEAVEELMKKTFPKNYEEILKDVKIFSREDLFNVERYRESGDESKRNIYKVAQNPFFGNKKKKLVDVVVSKDELENTILIEDDKSYSYGPEVKNLLMVKGSYRYFSNYSFEKDSRMVEDEFSNFYKSYYICGLLNATLNYMKEKNILLLDSLWKLQVEDTNEEFGKDFFYPMRNQKKYYMKGYEILKRMDNELYML;locus_tag=LOCUS_17670;note=MGA_1769
sequence1	MetaGeneAnnotator	CDS	2033615	2034916	.	-	0	ID=MGA_1770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVLVIMILISVNIFAAKKLGLDDIIESFNNKSSYVKKEKLELDKLKIDENGNFIDKWGKLSFNITPNYSYYTDKDKMPLNLQMTKDISKYPGGITVNLGYNMFYSAITYDNTTSKVKRVSYKLGLTKSLNDIIYSEQKYKDNSINLNSKLTKLNLKISKKTELKNIVDLYIRIKNLDSEILINENSLKVMNEEYENLIKKLEYGEAVKIDVEYMGIEIKSIKNSIEYLKKEIKNKKRELLKKVGIEDSDYEFKDIKAIDNFKIEINEDKIVVNSLNEKLNEENLKYYKRKSEPNINFDMNYDIEGKVWNAGIVFTGNIIEYGTDVRKTKKELDKLKIEKKELEIKSKEDKENAEIEYKNLLSKLEIAKEKMQNMEKRYEVDKNIYENGYMSLLDFLKEQKNRDEAKLNYDKAKNELNGFRYKVKRDEIKG;locus_tag=LOCUS_17680;note=MGA_1770
sequence1	MetaGeneAnnotator	CDS	2034913	2035791	.	-	0	ID=MGA_1771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKLLIFIMLSLNIYSSQLDILQEQYKKIKNSLEKLKILKEKSWSDTNYLKLKRDLVSKNLEIIKEENKKLKEKFQIESELEKLDKISKILKSKLKEYEKKKQIMEKNQEVVSKMDILNIKYNIFSLKEQIESNIRAKNYNVKKLKDISNLKLEKIKNIKKEIEKSYKILEAVYSKELNLANQEKLGAKEIDNREINLKLVRLQREEDLKNIDKTKDKLKKDLADNISDLKVLESKLNILELEKEMLVSKSKVGLASKTELFDKDMEYLNKVIEKLDYESKIEYLKLELAE;locus_tag=LOCUS_17690;note=MGA_1771
sequence1	MetaGeneAnnotator	CDS	2035840	2036898	.	-	0	ID=MGA_1772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNPLSVIKFLVITTIIFVLVILILFFVLKKTEYVEGKGVVIADKYNIYSPCNGRIKKIEKGFGEVVNKKEIVMEIDSENIKGKIIENERLIEDLIKNLEEENIKEKEINLEDKNNENKLKLLEIDYKNLKNEYEHDKILFKMGEISNYELKKIKYLLGKKNIEFLNFSQKNDLKLKKELIYIERLNIKKKITYYKNKNENLKNKLNNCNIASPYDRMTIITNKLKNLKGAIVNNGDLLFTLADLNNLKMLVTLKENQIEKVKKGQKVILMIDAIPYEKYSTLEGEVIKLFPQAEKGITYNKVEVKIKGFTTKLKNNRLKGVYLRNGLKGKAKIIIGEKKRFARYLWDKLFE;locus_tag=LOCUS_17700;note=WP_011228370.1 efflux RND transporter periplasmic adaptor subunit (Thermus thermophilus) [pid:26.1%25%2C q_cov:50.0%25%2C s_cov:41.6%25%2C Eval:3.9e-07%2C partial hit],MGA_1772
sequence1	MetaGeneAnnotator	CDS	2036932	2038659	.	-	0	ID=MGA_1773;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012547588.1;translation=MNYMEVIKAIKKMYTYLKKIYKLQIYVVFVMAVITILNLIKPLINKYIIDEFFIGKNIEALYIFILLYVTIFVMSSIFQISKDYLLAYIGNFISATLRKNMFKKIFSAHSLNIKEVNFGDIYVTFDSDIYNVEQVMSTKLFELIMFFFTFLVVSIIMIGLSWKYFLISFILIPGYVFNNLYFGKRLTRTNKKTQESVSNLFSFINESFFNFGHIKLNVKEKYIERKHWVKNRELIVSIFSYLKYKWLSNIGSSFIDVLEIILMFGFGGYLVYTGEISFGSYIALSSYGSILKNSLIQFINFNIDFHSFLVAVERIEKILNLKEENIKGKKIKGIEGDIKFENVSFSYEIGNKLFDNFNLKIGKGEKIAIVGESGSGKSSIVKLLMGLYEPEKGDIIIDGNNLKEININNYRKFIGVVNQDNFFFSDSLKENLLLGKKEKNEVIEEICNKCQMGEFLNQEKDGMMKKIDLNGSNISAGQRQRLSIARIILKNPDLVILDEATSALDNITERKIQDFLEKELKEKTVIMIAHRLSTVKNVDRIIVLKEGRVIEEGEHEELISKRGYYYDLVNRKDKN;locus_tag=LOCUS_17710;note=WP_012547588.1 ABC transporter ATP-binding protein (Dictyoglomus thermophilum) [pid:31.8%25%2C q_cov:97.4%25%2C s_cov:97.7%25%2C Eval:1.7e-72],MGA_1773
sequence1	MetaGeneAnnotator	CDS	2038841	2040193	.	-	0	ID=MGA_1774;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963148.1;translation=MKKIVFIFLAMFYFSNLINAAISKEMFLKEVKDVVKKGEDIHVNFYARVKKEELNNYIEKKFKKFNDTISEREAVAFLASLMAKIKDGHTGVLIETENFLKRDIKILPFKFYIIGNKVYLIKDYNNKITKGSLILKINNNPVDRIIKNISEHISYDTIGWKKCILNDEFFMHYYLLYNPTKQYEIVYRDKKDNLIKKKIINGISLKEYKKRFIKEEKKYSFKQISSKVAIMRIKEFDYDQEYLSFLEKSFSELKKKRINNLIIDIRNNGGGNSNCGELLGRYITKKKIRVFSYIQVKVCKALKKDQNKYGIYKNSYNWNEITDKQNGKILKSNVKEVYGMNRYSGNVFVLANGGSFSSASSFLGMVQAYKLGTIIGEESGTRYSDYGNAIFFRTKYTKTKIYISNKYLSDPSEKKIKRGVIPDIIVRPKIDDIINGVDTQLTYILKNLID;locus_tag=LOCUS_17720;note=WP_011963148.1 S41 family peptidase (Flavobacterium psychrophilum) [pid:22.3%25%2C q_cov:95.8%25%2C s_cov:92.2%25%2C Eval:5.4e-23],MGA_1774
sequence1	MetaGeneAnnotator	CDS	2040363	2041766	.	-	0	ID=MGA_1775;product=radical SAM/SPASM domain Clo7bot peptide maturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948312.1;translation=MEKLQYKESRYNYKIKLDNERLAVYNCKTRAIFIPKENQEDIIIKLLKKPNNIKLEEEKIKDVLIKYGYLIENNRDEILEVSRKFDYGNSLNLVLFPTEECNFRCPYCFIYKYKNVTMKEEVYRSIYNFIENKLKASNRDKNFYVNIHWFGGEPMLEYKNILNFMEKIKKLEEKYSHLKLTSNMTTNGYLLTYDKFEKLVNKGIKKFQITFDGDKESHDKLRNLRNGEGTFDKIYENLLLISKKVEKEFNIDIRVNFLKKNLKSSKVLIEKFEKEFMDDMRFFIYFAPVYEVETKRSSNERIKEEIYGTKEAMKIKHKINNEIYYKRMRYRIEKNNFKKEEIKYIISNLLPMPKNVGCYAYKENSYVISSEGLVYPCESSVGQEENNIGYITEDGEMNITNKKREKEWRQLVVKNKEQLECLDCKELPICHGGCKKKILDKKISCEIDGESVKDAVTKYSKLYFEYL;locus_tag=LOCUS_17730;gene=ctpM;note=WP_011948312.1 radical SAM/SPASM domain Clo7bot peptide maturase (Clostridium botulinum) [pid:27.7%25%2C q_cov:94.2%25%2C s_cov:93.1%25%2C Eval:4.5e-36],MGA_1775
sequence1	MetaGeneAnnotator	CDS	2042096	2042275	.	-	0	ID=MGA_1776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKIKELELEELEVNGYVDVYGYEDGGGSSSGGCHHICNSHDCSHASTCTHCTIHIHW;locus_tag=LOCUS_17740;note=MGA_1776
sequence1	MetaGeneAnnotator	CDS	2042633	2042770	.	-	0	ID=MGA_1777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKIKELEELEVNGYVDVYGYEDGGSGSFVCSCHYPYEPCFIHE;locus_tag=LOCUS_17750;note=MGA_1777
sequence1	MetaGeneAnnotator	CDS	2042821	2043504	.	-	0	ID=MGA_1778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIALIDSGLYKKTKLNIYKNIRIFFDTQYGVHVDDKKTEDEHGHATIIMKILEKYLKDEKVLNIKILNKNLATHSKLLLKALEIAIDEKVDIINLSLGTISKEYKNEIYKKILKAREKKIIIIASHHNEGEVAYPACFKEVIGIKIKQGNLFEEKLEFDFNNNDIILGGTQRLRWIDGNEYNMHSSSFSTPHITGIILKLINENKKLTLKEILNFINKNRLNLIK;locus_tag=LOCUS_17760;note=WP_003243950.1 minor protease Epr (Bacillus) [pid:25.5%25%2C q_cov:63.4%25%2C s_cov:22.6%25%2C Eval:1.5e-07%2C partial hit],MGA_1778
sequence1	MetaGeneAnnotator	CDS	2043585	2045771	.	-	0	ID=MGA_1779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVCIYPFNKVTHGLVRFKEMLDFEITSIIDFNFDIGKDAGEMVNGKKIGVKITDNVEKALETVDTLILNDPGIPMKNFEEFYESKNLREKWLDLIKVANLKNIKIISTFLGVDILKLSNMGIDIDIDCLERKKINQFVTKVLGYKKKSNNKKIQKIGIFGTKSCIGKFTAQMNLYKELSESEKVDIILTEPTGRYFKKPQIANMKIGYKETEEYLKALIKEYEYKGIEYLIFADQGGVGNTDNLEWSLSKITLLKGLMPDKYILVAGYDDDMEIRKAIDLIKIYTDLEKPFAILLPDKIEKSYGKYEKINEKQIDMRKKQLKDKFEVENVELIKEMYKIKNKLLKNKFYNEAMRGKKIKKAVLYPYNKIARGILRASEELNLWYEITGVIDFDDKIIGQDAKKILNLGEGLIVTDNVEKAICGADTVIFTDSNGIDTKFKYKHEQLKTKEKFSKVMDISLKNKKNIYVIDSDIKPYISKSGEEYLEENNIFAVYPEADITGYNEVIEEKEWEYKIKTPVIGIFGTSPHQGKLTTQLFIKKVLMEKGLKIGHIGTEPSSYLLGCEEMWTNLPKGINSELGLYRYLLKKTDKKGYDCLIVGGQSGITPFKLNVNSNSLTLPSIVCLFVANPDIYILVVNHIDPIEHIKNSINTLEALGKKKVIALVLPDIKAVSKDQWQETIYEKVTLLEMEEKKKELFNKFMLPVIDINNSEDIKILGDIILNKLFI;locus_tag=LOCUS_17770;note=MGA_1779
sequence1	MetaGeneAnnotator	CDS	2045941	2047380	.	+	0	ID=MGA_1780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKYVYTLLKIIAIQQKLIIALMIFALGKKFEFLNSKSDDKPIDKKYHRLIVDKMPIFKKIVKFDYKILLEQYQLKHNKPLKPIKRRKESSVPKSLICPICGAPHIYIYDNNGHKGQFKCKICNTNFHEKNHFAKFVVFKCPHCGKTLEKIKERKDFFVHKCTNKKCSFYLKNLQKMDADERKIYKNDPSKFKLHYIYREFTFDFNSLDKDSLVPIPSDLSKIQVSPYTLGLILSYNINFGISARKTANLLKEIHGINISYQSILNYAKAVATNVKPIIDNYPYKLSDSICGDETYTKVLGKWKYIFFFFDTKKKIILSHYTSSSRDTKSACKALIDVISKYRELPEDFQVIVDGNPIYLLAQQFFAQHDINFNVEQVIGLTNKDKVSKKFRPLKQIIERLNRTFKENYHYTNGYNSHSGAFTSVTLFTAYFNFLRPHSSLENNVPVVIPELTDLPNMPARWGKLIELSQYFIPEKHIA;locus_tag=LOCUS_17780;note=MGA_1780
sequence1	MetaGeneAnnotator	CDS	2047688	2048386	.	-	0	ID=MGA_1781;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965007.1;translation=MKILIIEDSKLVSLLIKEMLINEGYKIITAKTGLEGLERIKEDKPNLILLDKGLPDIDGLDICKEIYNKLDKYGNIPIIIISGMSGEEIEEESLMSGAIDFIEKPIDMKKLKLKIRNIKSLMINFKNKIKIENNFIEYYSLKINQSSREIYYENKNVNLERKEYELLVYLTKNRDKIKFREELMNEIWGSDYIKGTDRVIDTCICKLRNKIPILKNNLKTLRGVGYVLKSKN;locus_tag=LOCUS_17790;note=WP_010965007.1 response regulator transcription factor (Clostridium) [pid:33.6%25%2C q_cov:97.0%25%2C s_cov:95.3%25%2C Eval:4.7e-28],MGA_1781
sequence1	MetaGeneAnnotator	CDS	2048361	2048537	.	-	0	ID=MGA_1782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKKVANQKIKSNQIKSNQIKSNQIKSNQIKSNQIKSNQDVLYKIGVKIYENINNRR;locus_tag=LOCUS_17800;note=MGA_1782
sequence1	MetaGeneAnnotator	CDS	2048829	2050700	.	-	0	ID=MGA_1783;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKNKKRLPIGDSNFKSIIEEDYYYVDKSMLIKEVIESGRVVLITRPRRFGKTLNQYMLKYFFDIEENNEHLFKNLKIYEEKEIIDKYMNRYPVIFMSLKSLDALNLDDMLAMFKEVIAKLYREYEDYILNSNILKEEEKLIYKNILRKEAKIDEYKYSLKDLLRYVSNYYGEKVMLIIDEYDAPILSAYRNGYYREFMDIFKIFLSEGLKDNIYLEKSVLTGILRVAKESIFSGLNNLKVSTILTNLFNDKFGLLEGEVRELLEYYELDYEEEEVIKWYDGYNFGGMEIYNPFSIINLADENGEIKPYWVNTSSNYLIKELIRKGSATVKEKIEILISGGTIWSRIEEDLVYDDLNQGRESSIWTLFLFSGYLKSINKKEENDEEYYELAIPNRETIRFYKRVVLNLLEEKEIKLENIFNILLLGKIKTFKNEFKNIVMDSISYFDVTSKEPERFYHGLVLGMIVDLRSKYIVKSNRESGLGRADVLLIPRNKNEKGIIIEFKKLSLDDDKNLLESAISGLKQIEDKKYEEEIKSYGVKDVIKVGIAFQGKDVEIASSYDNIEELRSEYRKLEESKKDKNRLSENEKIALNLLNSGVDTEIVAKSTGIAIERVMELRRGDND;locus_tag=LOCUS_17810;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:40.2%25%2C q_cov:88.6%25%2C s_cov:98.9%25%2C Eval:5.1e-102],MGA_1783
sequence1	MetaGeneAnnotator	CDS	2050888	2051223	.	-	0	ID=MGA_1784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGNGFFNGKLILLINENTFSAANLFAGVIKKYKIGELIGEKTKGGIGVPFAFVLRDNSIVFIPVVSIYIGEDKENFSNGVESTIYEKDEVINGKDEILGKTLKKYIKKIQ;locus_tag=LOCUS_17820;note=MGA_1784
sequence1	MetaGeneAnnotator	CDS	2051229	2051462	.	-	0	ID=MGA_1785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINKNIGYLNLPNFDNENFKKKLLKILKEVKGKKKLIIDIRNNKGGLTGNAMWLLSYLTNKKITFVFEYNNKKLKK;locus_tag=LOCUS_17830;note=MGA_1785
sequence1	MetaGeneAnnotator	CDS	2051520	2051744	.	-	0	ID=MGA_1786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLWIKGRFNVFDAIKFILFISLLQLIIYFLMTFLFLMKAGVALIISRIIIILWFNHKKVFLTFFQKISLIESMV;locus_tag=LOCUS_17840;note=MGA_1786
sequence1	MetaGeneAnnotator	CDS	2051978	2052313	.	-	0	ID=MGA_1787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVYYASVLISLYKIFYLKISFTYFINHFSILNLIPLTIIQRNKNSSIIINDKGIYLPEIFIKMEDIKEYNIKNSKLEIKLLNSREKYYVNILRKNEKEVENILNDFICKK;locus_tag=LOCUS_17850;note=MGA_1787
sequence1	MetaGeneAnnotator	CDS	2052420	2052773	.	+	0	ID=MGA_1788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIKVNVETLHIIITGGAGAELAGTDKKHYFYHYLKVNVTKKGINYELIKLHSPDYNIFDRVFWALWIYLYAFISINAWSIIIVIGLTYTLIMFIYSEHFKNFKDFIYLFRWKNKK;locus_tag=LOCUS_17860;note=MGA_1788
sequence1	MetaGeneAnnotator	CDS	2052830	2053300	.	-	0	ID=MGA_1789;product=thioredoxin-dependent thiol peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582794.1;translation=MGVKVEEEVKKFILPNQDRVEIKLEDYKGKWIVLYFYPKDNTSGCTTEALEFTKLKREFDNELAVIIGVSKDSPRKHKNFIKKHEIGIELLSDENLEVINGYGLWKLKKMYGREYHGTERTTLLIDPHFKIVYKWEKVKPKGHAEKVLEKIREFNR;locus_tag=LOCUS_17870;gene=bcp;EC_number=1.11.1.24;note=WP_012582794.1 thioredoxin-dependent thiol peroxidase (Dictyoglomus turgidum) [pid:48.3%25%2C q_cov:95.5%25%2C s_cov:96.8%25%2C Eval:2.8e-38],MGA_1789
sequence1	MetaGeneAnnotator	CDS	2053377	2054540	.	-	0	ID=MGA_1790;product=FprA family A-type flavoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064402.1;translation=MKAVEMKKGIYWVGGIDWDIRNFHGYLTQRGTTYNAYLIIDEKITLVDTTKYYLVDELLERVSSIVDPSKIDYVISNHVEMDHSGGLPRVMEIAKNATLVTAPNGAKGLAKHYDTSSWNIKTVSTGDKLELGKRSIEFILTPMVHWPDNMVGYMPEEKILFSNDSFGQHIASSERFDDEFPSEIIIEEAKKYYANIVMSYGMQVGRELKEASGLDIEMIAPSHGLIFRKHVKEIIDSYVKWSSNIVGKKALIVYDTMWGSTKKMAYALQDAFEEKGYMTSMKNLQNNHISDIITEVLDVEYICVGSPTLNNNMLPTVASFLTYLKGLTPKNRKAIAFGSYGWGGQSVAQIEQYLSDSKFDIKLSKRLLYIPSEENLEELKEELKKLL;locus_tag=LOCUS_17880;note=WP_048064402.1 FprA family A-type flavoprotein (Archaeoglobus fulgidus) [pid:50.6%25%2C q_cov:93.0%25%2C s_cov:92.8%25%2C Eval:1.0e-107],MGA_1790
sequence1	MetaGeneAnnotator	CDS	2054546	2054704	.	-	0	ID=MGA_1791;product=rubredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459942.1;translation=MKKYVCVVCGYVYDPEVGDADAGVAEGTAFENLPEDWVCPVCGVDKDQFEEA;locus_tag=LOCUS_17890;note=WP_011459942.1 rubredoxin (Desulfitobacterium hafniense) [pid:76.0%25%2C q_cov:96.2%25%2C s_cov:92.6%25%2C Eval:4.7e-19],MGA_1791
sequence1	MetaGeneAnnotator	CDS	2054808	2055383	.	-	0	ID=MGA_1792;product=rubrerythrin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392800.1;translation=MKSLKGTETEKNLLKSFAGESQARNRYTYFASQAKKDGYKQIEAIFIETADNEKEHAKRFFKFLEGGDLEITATYPAGKIGTTLENLKAAAAGENEEWTELYPEFARVAEKEGFAEVAQAYKAISKVEKEHEERYKKLIENIENDKVFKKSEVVRWKCRNCGYVYEGEEAPAKCPACLHPRDYFELKEKNY;locus_tag=LOCUS_17900;note=WP_011392800.1 rubrerythrin family protein (Moorella thermoacetica) [pid:68.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-75],MGA_1792
sequence1	MetaGeneAnnotator	CDS	2055408	2055917	.	-	0	ID=MGA_1793;product=ferritin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878337.1;translation=MNKRVEEVLNVQINREIYSSYLYLSMSAYFNATGLKGMANWTKIQYQEELSHAMKMFDYVNERGGRVILEQIERPAIEWTSPLDVFEGVLSHEEYITKNINELMSIATEEKDYATVNFLQWFVGEQVEEEANVNEILDQLNLIGDNKMGLVMLDKELVQRVFVDPTLNI;locus_tag=LOCUS_17910;note=WP_010878337.1 ferritin (Archaeoglobus fulgidus) [pid:55.2%25%2C q_cov:97.6%25%2C s_cov:95.4%25%2C Eval:9.7e-49],MGA_1793
sequence1	MetaGeneAnnotator	CDS	2055950	2056330	.	-	0	ID=MGA_1794;product=desulfoferrodoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940441.1;translation=MAKKLEVYKCEVCGNIVEVLHGGAGELVCCGKPMVLQEEKMADSSTEKHVPFIEELENGYKVKVGETTAHPMTEEHYIEWIELLIDGKAYREFLNPGDAPEAIFYVEKGKAVSAREYCTLHGLWKG;locus_tag=LOCUS_17920;note=WP_010940441.1 desulfoferrodoxin (Desulfovibrio) [pid:61.6%25%2C q_cov:99.2%25%2C s_cov:97.6%25%2C Eval:1.6e-40],MGA_1794
sequence1	MetaGeneAnnotator	CDS	2056403	2057590	.	-	0	ID=MGA_1795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIIIGNGIAGISAAETIRKKNKDYEIKLLSKENYNTYYRPTILRYVLEKEFKNKFYVKDEKWYKDNNVLNFTNTEVKKINKKDKNIELDNGEILKYDKLILATGSSSFIPPIKNKDIKNVHTLRTLDDVKNLKEDMLNSKKAVVIGGGVLGLEAAWGMKKFGLDVSIIEVASRIMPRQLDGKGSEILKAAIEKENIKTYIGDFIKEILGYEKVTGVKLDNGTIIDTDIVVISAGVRPNIELAKDAGLNTNRGIVVNGYMQTSDKDILAAGDCAEHNGKIAGIWIVGMKQGKIAGENIFEENIEYKEESQAINFSGINTKIYSIGKVLDDSEPDCEYKRYENREKNEYKNLYFEDDRVVGGIFVGDTKNSNKLMGCIKNKMTKEETIKLIFEK;locus_tag=LOCUS_17930;note=WP_011861274.1 FAD-dependent oxidoreductase (Clostridioides difficile) [pid:38.4%25%2C q_cov:97.0%25%2C s_cov:44.7%25%2C Eval:9.1e-72%2C partial hit],MGA_1795
sequence1	MetaGeneAnnotator	CDS	2057787	2058089	.	-	0	ID=MGA_1796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREREVNGKLIELSPSEKFVIIKDAIETSGVKNIIKYLCEVAEIFRISYYKYLSETSKTNKSNQELEDEKARDLIIKAYEFKGRQKGARQIKMTLENKSA;locus_tag=LOCUS_17940;note=WP_094396572.1 IS3 family transposase (Bacillus cytotoxicus) [pid:47.1%25%2C q_cov:87.0%25%2C s_cov:19.6%25%2C Eval:5.1e-18%2C partial hit],internal stop codon at [2058190:2058192](-),frameshifted%2C insertion/deletion at around 2058217%2C2058221%2C2058081,MGA_1796
sequence1	MetaGeneAnnotator	CDS	2058362	2059105	.	-	0	ID=MGA_1797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRRYLVLFMVLVLSVMSFGETITLTTGEWEPYTGEKLKGYGFANDVVTRAFAKVGVNVEYKFFPWKRAFILAQRGKYNGSNCWNKSAKREKYFYYSEESIVVGKTVLFFMKGNDFTWNKLEDLKSKRIGGTLGYSSVKIFENIGKKLDLAPTDLQGFKKLFSKRVNIFICDLDVGLKLIRDNFTKEQQKQFLYNKKPLDTSGSYLILPKQLSKSKNLMKKFDKGFKMLKDSGEYDKMVKDLRSGKY;locus_tag=LOCUS_17950;note=MGA_1797
sequence1	MetaGeneAnnotator	CDS	2059323	2061002	.	-	0	ID=MGA_1798;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKIPYGLQNLEKILDENYFYIDKTKYIENLENLDEQYIMFLRPRKFGKTLWIDTLGKYYDVNYSDKFDKIFGELYIGKNPTSRKNSYYIIKFNFSGLSTENKDILKNGFKLEVYNKLDSFVKKYNLKIKLDKNLKEPAELLRDFKKKYEELKIEQKIYVLIDEYDHFANELLSFKFNEFKDIVSKTGFVRKFYEVLKESTETIVDRIFMTGIAPVTLDSITSGFNIVKNLSIDREFNELTGFTEETVINLLKMYNIPANVLEDMKRSYNGYLFNLIGEKTVYNTDMVLYFLADYLRENRKPQKIIDVNIASDYKKMENMMRLSPKSQEIIDEIIENDGVTGELIDSFNMEREQKKDDAITLLFYLGYLTIKEETFKGIKLEIPNYVMRKLFYESFMSYIDREYKVYAETSDINKSIGELIEIGNINPLLKLVEEVLGELSNRDFINFDEKHLKAIMMAYLIKSPWYYIESEREMKKGYIDILVTRRYEKVPYEAMIELKYIKKKEWKDLSKDIGKIVEEGKEQLHRYLNDKKMQNRKNMKKFVILFVGDKLEKVVKFE;locus_tag=LOCUS_17960;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:38.1%25%2C q_cov:98.6%25%2C s_cov:98.8%25%2C Eval:4.3e-105],MGA_1798
sequence1	MetaGeneAnnotator	CDS	2061342	2062088	.	-	0	ID=MGA_1799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRRYLVLFMVLVLSVMSFGETITLTNGEWAPFNGKKLKNYGFASDVVKKTFAKVGVDVEYKFFPWKRGFILAQRGNYDGTLSWGKVGDRENYFYFSEEPILSGETVFFYIKGNDFTWDKLEDLKGKKIGGTLGYSYIKSFKDVGKKLDLAPTDVQGLKKLYAGRVNIFISDLDVGLKLIRDNFTKEQQAKFSYNKKPMEKMSYYLLLSKKVSKNKELIKKYNKAFKVLKNSGEYDKMVKSLRNGEYE;locus_tag=LOCUS_17970;note=WP_002361277.1 amino acid ABC transporter substrate-binding protein/permease (Enterococcus) [pid:27.7%25%2C q_cov:87.5%25%2C s_cov:29.6%25%2C Eval:1.9e-09%2C partial hit],MGA_1799
sequence1	MetaGeneAnnotator	CDS	2062305	2063984	.	-	0	ID=MGA_1800;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKIPYGLQNLEKILDENYFYIDKTKYIENLENLDEQYIMFLRPRKFGKTLWIDTLGKYYDINYSDKFDKIFGELYIGKNPTSRKNSYYIIEFNFSGLSTENKDILKNGFKLEVYEKLKTFIEKYNLKIILDKAIEEPAVLLRNFKEEYERIGLERKIYVLIDEYDHFANELLSFKFNEFKNIVSKTGFVRKFYEVLKESTKTIVDRIFMTGIAPITLDSITSGFNIVKNLSIDREFNELTGFTEETVIELLKMYNIPANVLEDMKRSYNGYLFNLIGEKTVYNTDMVLYFLADYLRENRKPQKIIDVNIASDYKKMENMMRLSPKSQEIIDEIIENDGVTGELIDSFNMEREQKKDDAITLLFYLGYLTIKEETFKGIKLEIPNYVMRKLFYESFMSYIDREYKVYAETSDINKSIGELIEIGNINPLLKLVEKVLGELSNRDFINFDEKHLKAIMMAYLIKSPWYYIESEREMKKGYIDILVTRRYEKVPYEAMIELKYIKKKEWKDLSKDIGKIVEEGKEQLYRYLNDKKMQDRKNMKKFVILFVGDKLEKVVEFE;locus_tag=LOCUS_17980;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:38.0%25%2C q_cov:98.6%25%2C s_cov:98.8%25%2C Eval:3.6e-104],MGA_1800
sequence1	MetaGeneAnnotator	CDS	2064281	2065027	.	-	0	ID=MGA_1801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRRYLVLLMALVLGVMSFGETIKLTNGEWAPFNGAKLKGYGFASDVVTKTFAKVGVDVEYKFFPWKRGYILAQRGNYDGTVSWGKVGDRENYFYFSDEPILSGETVFFYMKGNDFTWDKLEDLKEKRIGGTLGYSYTKSFKNIGKKLDLAHTDLQGFKKLFAGRVDIFILDLDVGLKLIRDNFTKEQQAKFRYNKKPMEKVSYYLLLSKKVSKSKELIKKYNKGFKMLKDSGEYDKMVKALRNGEYE;locus_tag=LOCUS_17990;note=MGA_1801
sequence1	MetaGeneAnnotator	CDS	2065186	2065617	.	-	0	ID=MGA_1802;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902354.1;translation=MFNRVKQLIRYVFPNYTGKDENMARKYLDKYEFELFDNMSNYDKKHSINILKDILKDIELKDNKKIIKLALLHDIGKEKDINIVDRILHVILKNNSKLSNHTIKGYEKLKKYNIEMAKLILEHHNKNIKNEELKKFQKLDDNN;locus_tag=LOCUS_18000;note=WP_005902354.1 HD domain-containing protein (Fusobacterium nucleatum) [pid:41.8%25%2C q_cov:98.6%25%2C s_cov:94.5%25%2C Eval:3.4e-23],MGA_1802
sequence1	MetaGeneAnnotator	CDS	2065610	2066461	.	-	0	ID=MGA_1803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLELDLRKLEKSKKYGYLFWIWYDGTKFTSFDENKNKISVKSEFKRILNELGITWAKGVQQSARTDSNVSATENILYISSNFNGDIIKLKSEFNNIAKNFGIIKIEKTISGLVLPDIVEGRAYEYSYPLSKLNKTIEEIKKICEDLSGEYDVSKFSDEKGKKLKQKIRKVKISYDGEKFIFEGNSFMPKQIRIMLNYIVKGELKPANPKYLTLKNINLKKDIENLFFKQDKTVEIENVLKVEKLKDIYFLYVNKEKRGEIIGKNGKNIKSIKKKLGKVIVKDV;locus_tag=LOCUS_18010;note=MGA_1803
sequence1	MetaGeneAnnotator	CDS	2066485	2067141	.	-	0	ID=MGA_1804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKGFTLIELMIVIAIIGILTSVGSAKFDNYLESEKLDKALYKLKYDIVYMQTLKYSSTENYMIEFRKDINGVTVNGLAGESFDYVCFNDKNGDMIPDYTTNEDTNEILKDPLTKKYMMYKFDSKKYSDSLFRNVEIKNVDLYNGSSQKKYKVWFDKLGGLRVRNSSGSDWEDINNSGETNGEPNTDRNFIEFDLILKSSEHKKLIIYPLTVDMLVK;locus_tag=LOCUS_18020;note=MGA_1804
sequence1	MetaGeneAnnotator	CDS	2067143	2068372	.	-	0	ID=MGA_1805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLWFTKGVGWIEAITGSMYSGKSEELIRRLKRAEFANQNIIAFKHSIDNRYDEKKVVSHSKNMIEAIPVSNVESMKKYVNEMENLDVVGIDEAQFFGQGIVEFVEELANSGKRVILAGLDQDFRGEPFHPMPELMAKAEYVDKFNAICVVCGNPASRTQRIIDGEPAYYDDPVIMVGAKDSYEARCRKCHIVKNRDEKNNKLYFIVGTGTEIGKTYATLKLIEEDIKNSNKVMALKPIETGLETFDNYKGSDSYKYSEKLNKKISDINLYFFNKPVSPHMASKLDNKEINIKKIKEKIDENLKNNDIVYTEGAGGLLVPYTEYYTYLDLIKEYKDKSEVIIVTNNSLGTINHTLLTINILKNEGIKIKGLVFNNRNNIKDKEFLNENIRIIEKMSGLNVLKNIEYEGD;locus_tag=LOCUS_18030;note=WP_012583168.1 thymidine kinase (Dictyoglomus turgidum) [pid:63.0%25%2C q_cov:46.2%25%2C s_cov:94.4%25%2C Eval:7.2e-64%2C partial hit],MGA_1805
sequence1	MetaGeneAnnotator	CDS	2068652	2069569	.	-	0	ID=MGA_1806;product=cysteine synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356610.1;translation=MGKIYNNILELIGKTPIVKLNKINNGNAELYVKIESFNPGGCVKERIAFAMIKAGEKEGLIDKDTVIIEPTSGNTGIGLAMVCAVRGYRLILTMPDTMSRERSSILKAYGAEIVFTPGVEGMKGSINKAAELSKEYKNSFVPSQFENKANPKVHRETTGIEILNDMNNDIDIFVAGVGTGGTITGVGEALKEKLPNVKIVAVEPEGSPILSGGKPGPHKIQGIGAGFLPDVLNVNIFDEVFEVKNEDAFETMRLLAQKEGILAGISSGAAVYAAIEISKRAENSGKKIVVILPDTGERYLSMEIF;locus_tag=LOCUS_18040;gene=cysK;EC_number=2.5.1.47;note=WP_003356610.1 cysteine synthase A (Clostridium) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.3e-114],MGA_1806
sequence1	MetaGeneAnnotator	CDS	2069847	2071133	.	-	0	ID=MGA_1807;product=homocysteine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272631.1;translation=MGKENYSFETLQLHAGQIVDSETRSRAVPIYQTTSYLFDDTQQAADLFALKEAGYIYTRIGNPTTDVLEKRIAALDGGTAALATASGSAAITYAILNIAKAGDEIVAAGTLYGGTYNLFKSTLPKYGIKSTFVNPDNVENFKNAITDKTKALYVETIGNPGANVADLEEIAKIAHENGIPLIVDNTFATPYLCKPIEFGADVVVYSATKFLGGHGTTIGGLIVDGGKFDWEKSGKFPDFTTPDPSYNGIKYADLGGTAYIVKARVQLLRDMGACISPFNSFLLLQGLETLSLRMERHVSNARKIVEFLNENENVSWIKYPELKGSKYEKLSAKYLPKGAGSIFSFGIKGGLEAGKKFINSLELFSHLANVADAKSLVIHPASTTHAQLSEEQQIAAGVAPDLIRLSVGIENIDDLIEDLKQALEKSKG;locus_tag=LOCUS_18050;note=WP_041272631.1 homocysteine synthase (Desulfitobacterium hafniense) [pid:67.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-169],MGA_1807
sequence1	MetaGeneAnnotator	CDS	2071180	2071605	.	-	0	ID=MGA_1808;product=Rrf2 family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356138.1;translation=MFISTKSKYGIRAMAYLSLNYNKRKVTIKEISEKENISIKYLEQIFISLKTLDCLQSVKGSKGGYYLKKKPSEITIYKILNILEKDLKSYNEDYNSETLDGILEKEVWMKLDDKIYEFLKGITLEDIIDKYKNKTVNMFYI;locus_tag=LOCUS_18060;note=WP_003356138.1 Rrf2 family transcriptional regulator (Clostridium) [pid:37.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-20],MGA_1808
sequence1	MetaGeneAnnotator	CDS	2071710	2072537	.	-	0	ID=MGA_1809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVLKNIINKELIITKCKITDKEELFEKIAGLVLSKGYIEDKDVFLKEIWERENQMSTEIAKGIGMPHIKSDIVKKDFIVVIISKDGIKYGGFNKKVNLIFCIGVGKDSKTYLNIMAKIARFLSKEEIKKSLINSDVPEDVIKLISDFEKVEIVKTKEQKDKYLATIIINKVIEFDKVMELAIETGLVNPTIIDSTYGIRKMFFDIPFLNSFALFSDKNISSKILIGITEDKEYAQRLVGVLKNEGIDIEQEGKGIIFLQKLEDVVGGNDESIEI;locus_tag=LOCUS_18070;note=WP_003435038.1 PTS sugar transporter subunit IIA (Clostridioides difficile) [pid:33.8%25%2C q_cov:51.6%25%2C s_cov:96.7%25%2C Eval:3.3e-13%2C partial hit],MGA_1809
sequence1	MetaGeneAnnotator	CDS	2072537	2073004	.	-	0	ID=MGA_1810;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080627.1;translation=MKTIKIKDVRNKITKPLIVEKGKKIEEVANLFLDNKINRTIYVINSKKEMVGYITLKKAVKRLLIDMIDSDFYLKSGNENFYSLSKFASANIVDDIMETDYIGISDKDSLDTAVKIMYKFDVQELPVMNENREVIGDLNVLEIIIGWKKIKEEEK;locus_tag=LOCUS_18080;note=WP_004080627.1 CBS domain-containing protein (Thermotoga) [pid:29.6%25%2C q_cov:89.0%25%2C s_cov:91.7%25%2C Eval:4.1e-10],MGA_1810
sequence1	MetaGeneAnnotator	CDS	2073015	2074157	.	-	0	ID=MGA_1811;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000899806.1;translation=MEISQHLLAHVAIIIILAKIFSGISTKYKQPPVVGMLLIGLLIGPTGFDLIKTNVIIEFFSEIGVILLLFEAGLETDMEGMKKSGKSALIISTNGVIVPFISGILLAKAFHMPLNEVLVIGVIMTATSVSVTVMTLLDMKKFRTVEGMNIMGAAILDDVIGIILLTFIFSFLGQGDKNAMGILGDMVIYVAIASFIAFFVLNKVFEYSRKSSSEDTEVSMGLALSFLYSWGAKISGMAAITGSYFAGLAIGQTKSKNKVDQGIKEIGQSIFVPMFFINIGLTTNLRNGKFNLYFALIFVLVAMISKIVGGSLGAKFSGFNIKRSVAIGIGLVPRGEVALVVANMAMAKHIIGDTVFGAVVLMVIVSAITTPFMLKAAFKN;locus_tag=LOCUS_18090;note=WP_000899806.1 cation:proton antiporter (Bacillus) [pid:36.8%25%2C q_cov:95.8%25%2C s_cov:97.1%25%2C Eval:1.4e-69],MGA_1811
sequence1	MetaGeneAnnotator	CDS	2074282	2077836	.	-	0	ID=MGA_1812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERGNVKDLEFLVLADLAYERYEDKDNNNPLKDILLKHHFNNSERQQRWNYFTERMEGWKLLEGFDLSKYKREYEGKHEDIKAQYEGFYAAAFEKDNEIVIAYRGTDKEVGGKKSFKNFMEEHIYTNGQIVCGMPGIQFKLAEDFYNKILNAPNNQHKTISITGHSLGGGLSQYVSVIGAENISKTVIWNGVGVAGFSRMNGYELFGTEAILTKLSWKEIFDSTGEKGKYILKEFIQAGFVKTNGTYLISLNTEFVDIPNSLIKIPTKEELKNIISKGLDEYLKSNANGLNHWDESNKIEIEKNSLTSEDSLDYSIELLERKKIFMDNYYNKDINLIAYSISKDVTGTVFKHVGKRYLVDKNLKEENKGIYVGNLLKVLKEKEANHLDAGAYHGLTMFYPHIKTEEKNRGGKSIYDHIAKEEDIMEIVNKDYLQSYIKGLLKYIGIKDNEELKEKLFYAIYYKENTAFLRDVLLKELGEKLYKELPERKQRTDKYFSKEDKLKKELIEKYLNKYKIINSIEQLEDELRRYKIDELIKLEVKKGEVKLKLGFEEDEKKVIIYNEKLGIDTKEKEITLKITTPSKYLLNIEREKPNNDYELYSSLGYKDKYYNIRNIGKNSKVTADGKDISGTYKGKDKEESLVKDKINRDTGCKYYGDNLILMDRNLRYYYGNNLDDYLTISNYMEGYLGIDLIEKPKEKKEDLGKGFMDYQVKIKGIKYVNLLNLEIIKEVNEHTVAEIEGIIAGEDTDEVTRFLNVEKQGIEILYGDDNKPIFRGLIYEHSMEIEQNSCKVKIKSYSLSKELEKEKRNRVYHNLGTKYEDVISKLNETYQNKYSFGFNSHIDKQELITELNPVEVQYKESDWDFLKRIVRRENDLIIVDDSKGKNPKTVAGIAIGEFGSSQKTIDNKNLLLSRKMKKRAIENSYKLKGYPQIKGEELFSIGNPYNINIDVNTGKQDSLLLIKNRIYKESGVLKSDLVFVRRDEFNIGVVKREESITGLTLKGTIKKVSKQHKAQIEYTEMENEYDESKSYYYPIERMYTGTYFTPEEDTLVEVHFGAEAGEVSIRNVSSKTEDIDNDPDVKIIRTSFGKEVRFDSKSIKITGKDDESYVEITEESVGLTKGEKEIILKDGKIGINNKDSTITMDDKKVNITTGGSAIKMKDDKLTLDNGGVGIEIGNGKINLG;locus_tag=LOCUS_18100;note=MGA_1812
sequence1	MetaGeneAnnotator	CDS	2077857	2078675	.	-	0	ID=MGA_1813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRRILLFILLLLVTSTLLTGCENKKEKARIKSLVMNELETRYDEKFEIRRIFYDGKRSKWVLEVYPKENNIDKETFFAFVKKDPKERVIENYSSIKEANLTTIYYKSIIKKIFKEKKLYFWGNMGIHIYDEKREVLKILKRKKFDFFFENIPNKMHVNIFILIFEDVVSTKKKKEAFIKEVWELFKYLKNQNLEWASITINIYDEDFFKDKDIDHILKVSNWFSSWTSEFDVTEYWKKNYAGLRIEEQDYYKIKSIKDIEKLLGYRRNYKK;locus_tag=LOCUS_18110;note=MGA_1813
sequence1	MetaGeneAnnotator	CDS	2078752	2078937	.	-	0	ID=MGA_1814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNYYNKDINVIAYSISKDVTGTVFKHVGKRYLVDKNLKEENKGIIYNKELEIDNKIFKFN;locus_tag=LOCUS_18120;note=MGA_1814
sequence1	MetaGeneAnnotator	CDS	2078910	2079884	.	-	0	ID=MGA_1815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADLAYERYEKKDEGDDLEKVLKKHHFNDTTESGNSERQQRWNYFTERMEGWKLLEGFDLSKYKGEYKDQPESIKAQYEGFYAAAFEKDNEIVIAYRGTDKEVGGKKSFKNFMEEHIYTNGQIVCGMPGIQFKLAEDFYNYILTKNIDSNILITGHSLGGGLSQYVSVIGAENISKTVIWNGVGVAGFSRMNGYELFGTEAILTKLSWKEIFDSTGEKGKYILKEFIQAGFVKTNGTYLVSPNTEFVDIPNNLIKIPTKEELKNIISKGLDEYLKSNANGLNYWDESSKIEIEKNSLTSKDSLDYSIELLEKKKDLWIIIIIKT;locus_tag=LOCUS_18130;note=MGA_1815
sequence1	MetaGeneAnnotator	CDS	2079944	2080747	.	-	0	ID=MGA_1816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRRILLFILLLLVTSTLLTGCENKKEKARIKSLVMNELETRYDEKFEIRRIFYDDKRSKWVLEVYPKENNIDDETFFAFVKKDPEERVIENYYTIKNSNLTKIYYRPIIKKMFKENKLRFWANVGIGETNLDTDKIKKIETIFNKIPKITDVRIFIYIFEDVTSTKEKKEAFIKEVWELFKYLKSQNLEWASITVNIYDEDFFKDKDIDHILKVSNWFSSWTSEFDVTEYWKKQTYLLRIREKDYKNIKYIKEIKDKLRKLDWNQK;locus_tag=LOCUS_18140;note=MGA_1816
sequence1	MetaGeneAnnotator	CDS	2080773	2081615	.	-	0	ID=MGA_1817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNVMSESSGSAKTTDKELLVFSNLANLDWQFVNLTLNERGRKSRTNKLKDLLTPESFVREYDDKKTSKKIGKYIYGYQNGKLDKTQALIEMRKSAGIGMEYLSKLDSVGKFLGEWEVIYGGDKYKIVSEYLTKNMSDYVDVFSEALSKALEKLEEKEKEEIKKRISEQLDSDSKQDLYDLLKALENKNTAKINKLKEKITKNLLKLPNRDEVEKANNTIQALEIGMFIVANVPGNIMPAFLSSKVGGEGAKFFGSGLKVLLKESLEGALDFPKYIKKCS;locus_tag=LOCUS_18150;note=MGA_1817
sequence1	MetaGeneAnnotator	CDS	2081618	2082685	.	-	0	ID=MGA_1818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKELKEKLPRIIIFIILILLIPVLKPMIFGHSVKEIRTKMEQELKKDYGEDFIVENIGTRSANGEKFYQAEIYPKSIIGTNKEYDSYYHARASVDILPFGRLGGVGDNYGVIKMNDEAENYLLLKSKKIFGNKIRIKSRVKYSEKKGDGYLQYLECGFQEKMKAVKEDLKNKRLELTLYIYIFDRIDNEKEKEERRKEIYKYIQYLKKEGLFKYLEMGVIFIDERVLAPGYYDYTYEIKHGKKVALTVEGEKVYMPPMKLRKEMSGKLEDEVKKMSDYELIKRMNRISKSELSYKELEKYNAQRQCWIYSIGMLEANYKSSITKEDKDRKYDKLSDIKIDNYITYIYINKKGDE;locus_tag=LOCUS_18160;note=MGA_1818
sequence1	MetaGeneAnnotator	CDS	2083221	2083766	.	-	0	ID=MGA_1819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYLSKLDSVGKFLGEWEVIYGGDKYKIVSEYLTKNMSDYVDVFSEALNGALEKLEEKEKNDIKRRISEQLDADSKQDLYALLKALENKNTAKINKLKEKITKNLLKLPNRDELEKANNTIQALEIGMFIVANVPGNIMPAFLSSKVGGEGAKFFGSGLKVLLKESLEGALDFPKYIKKCS;locus_tag=LOCUS_18170;note=MGA_1819
sequence1	MetaGeneAnnotator	CDS	2084205	2084447	.	+	0	ID=MGA_1820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRTNKYQQLKLEYPVAMMPKYLVEILEKGWAEEFKKHIYPKINEEKFSLLFSEKNIKTKFTNKCNNRVIEIKRIFQSNR;locus_tag=LOCUS_18180;note=MGA_1820
sequence1	MetaGeneAnnotator	CDS	2085021	2087903	.	-	0	ID=MGA_1821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLKIIIYISILFSSNLFSEEVNNKLFTELTDVNSIYSINESSKVYVDNNKENINFKKLYNVDYKNKEIENRGSYGFSDSNYWIKSNIINSTTENNWILTIKYPLVDFLDIYIFNENGKFEKIHAGDDVAYKNRTIDNRNYSFHLKLSPNKRYTLIAKIKTKGTMRFPFELSTYNQFIKTSNENYIYMGFYFAFILVLILVFIVYFINDREITYIYLITYLFSYLIYEGIQFGILFKFLNSNNLYWKFYAYIGSGIIALMAFTYFAYSFFGLSKNKKGKSKILKLFIVLGFVIILSMLFIKVRYSLILYTIYAILTIVPNIIISFKLLKSKKIYNKIFSFGILFFLLTIVIFGLRGMGILPTNFFTLNLINAFFIIVSTLFFISISSRMNYYKKENIKIKEELEDFNNNLLEKVQERTETLNKKNIELIEAKEKAESASKAKSEFLANMSHEIRTPLNGIIGFTDLVLKTPLNKLQMQYLSNIKISGEALLGIINDILDFSKIEAGKLELELIKADIIEIVESAADIIKYNADKKRIEILLNIKPDVPRYAVVDIVRLRQILINLLGNAVKFTPKGEIELELKFIKKNKKDGFFTFIVRDTGIGITEKQQEKLFEAFSQADSSTTRKFGGTGLGLTISNALAEKMGSKIELESEYGKGTKFYFTIETEYEDRNELELDKLLDIKKIMIVDDNDKNRMILEHTLRYWGIETISVNNGFDAVNIVEEGYKLDAVIMDYHMPDINGIDSIKKIREIMSEEKLPIILLHSSSDDLKLNSECKRLGVRFNLTKPIKSKLLMEYLENLNSKRYSKERENKAENNMENKIKIEDKNVITENRLKMLIAEDVEINMMLIETMVEMYMPEVKILKAGNGLEAVKKSKENNFDIILMDIQMPVKDGLEATNEIREYEKELGKHTIIVALTAGSTKEDREKALENGMDDFLTKPIDKNELNRVLEKYLKR;locus_tag=LOCUS_18190;note=WP_011071149.1 PAS domain S-box protein (Shewanella oneidensis) [pid:39.3%25%2C q_cov:54.3%25%2C s_cov:28.7%25%2C Eval:4.4e-95%2C partial hit],MGA_1821
sequence1	MetaGeneAnnotator	CDS	2088287	2090365	.	-	0	ID=MGA_1822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLISLLVALLLFGGCFANKEELNSGSLDEDGIVISTNVDGVRLKNSEITLNEGEGTKRTAILTENFEYSIKYVANVKPVFLSGRKEAVQANDIFISGDRAYIAYNTKGKELGGALQIVDISTEEPKVILEVKHPYLDINSVYFDKDTNEVVYGGMADIYKGRGAKFGAKPGKTAFITKFNVDLSSKEKIASEINSNFRILESYTVTSINMKDSSYVVSTGAKNGGLYNIDINFSKIDKIMSKDDIRDTAVSSEGLLSFFSDGKDGDISFGNTVINVGDFSSEGHKAAIDIYDSIKNGKIYKDEDLIAFLGMSDKGLKVLKINSDKTAEEIMTIDNPEGVESYTNSVSHDGGLLFTANGGAGFRVYKINGADSIDPTIPEDKRAKFLEFVGGHTLRGDVYDNENYSANEVAYRAKRVNINGKIVDKNYLFVATGLGGVHIYSFISKNQYDEKEVPKSVKDTAKEVFDRNFDDNKNMIGSLQTLKLLKDATVNITFLNEGAGYKNRVGIFRYTDDIEKRDEFILFNNFSKKNSGGILEAGDTKYISLNAGDNFGILVHSNGYNNMNNGYLYSKKELCSNGMDHFVAYVDKESNKIVFGYEDNINLGDKDYDDGIGFITIEPADAVDTSMLPVYTLKAGDTTKNIEDWKVGIKYRVGDIVNYKGKKYECLQTHIAFRNWTPNKTLALWRKAER;locus_tag=LOCUS_18200;note=WP_011986497.1 M6 family metalloprotease domain-containing protein (Clostridium botulinum) [pid:30.8%25%2C q_cov:22.0%25%2C s_cov:24.6%25%2C Eval:1.8e-10%2C partial hit],MGA_1822
sequence1	MetaGeneAnnotator	CDS	2090492	2091535	.	-	0	ID=MGA_1823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKKIKIVFILFMLITPYIFSKEGIIVGNDDKILKTFRDGKKEDIIKLADDMSRKYSSVILHLGSRYVFKKGSFFYYKTSRENLQIFSNHLKKNNIKLYLWFFDSYGEEKFNEIYEKYKSIFNENIDALKKLDIEYSGLVVDFERINGASNKFKKRNNEKLIEILKYVRGNLKNKKLYIFASIVDSKIENKNRGYSEDEILKYVDNIIPMLYIKDEGFVIKKGLVYPVMRDERVNQLIKYYKSKKYKIAVSWENGIIIKKGDNLYFIKTAYRDNIIFKNLKEIMKVDFEKYRIYYYQAKNNFDIKRNDLVVEKISKGNVLYFIELKENIKQDTDFIWEYFLVNRKI;locus_tag=LOCUS_18210;note=MGA_1823
sequence1	MetaGeneAnnotator	CDS	2091516	2093528	.	-	0	ID=MGA_1824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKVIFIISIVVITYFILINLGYILLFITSYRGILKYKRRTKLYNYINMYQSNQTPPISLLVPAYNEEAVIIKNINAFLNNLNYPEYEIIVINDGSKDETLKKVLQEFKCEVYSYPYRKDINTKSVKRIYRSKINNNLIVVDKENGGKADALNVGINISKYPYFGSIDADTILERDSYLKVITPILSDPKRVIATGGIVGVVNGCKISGNRVEEINFPKTILAKFQVVEYLRAFMFGRYAWALINALPIISGAFGLFKKSAVILVGGYSSETTLKSTVGEDMELVIRLHKYFRDNKIEYKISFVPEPLSWTEVPEDIETLKNQRSRWHRGLIETLASNKDMFFKKRYGTIGFLSFPYYYIFELLAPIIELMGYLLLPYFYISGMLDRNVFVLFFSLSILLGVLISGFAVFLEMMTFRRYKKFKDNSKLFFYGILENFGYRQMLLLFKLNGFFQYILKQQHWGIMKRKEGVATKRHIQKGKKMKVYLIIFMSAFIILYTISICFVVNDFRTGKIRSKIEREKLIKLRKKEKTKIEENSINKNIKNKKIKNEKFETLKELIKKPIYFKKDSVEFLEKDRLSKIAKEIDLLILKKEKFKIKITGYADKTGNRDYNLKLSLKRAEKIGRELLLKSVYLTNKYFILTGKGEENITGDNRTLSRRVELEVVEYKKN;locus_tag=LOCUS_18220;note=WP_219771063.1 glycosyltransferase (Salinivenus iranica) [pid:40.1%25%2C q_cov:69.6%25%2C s_cov:98.1%25%2C Eval:1.2e-107%2C partial hit],MGA_1824
sequence1	MetaGeneAnnotator	CDS	2093563	2095047	.	-	0	ID=MGA_1825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELLLLLLIIFFVIDLIFYIIIVIQHFYYKKIDIENENRKEEYIKLFIKFAYRKKEMKLIDVHKKSKWFVVDYKKNEDKIEFSINRNYSKKKYDSDIVDSLIEVINSFEGEFRKRVIKISDEIGVSDYLYKFWTNSKNVDNRELYLYQIGEIRSKKNLHKLYDIDLKKLIKNSMVANYYIAFMKIFDEWIDKLSEIEIRDYIKHMFEVINIIEKNEGYNMKRVFNCFQNDNKNLYKYMIENKRVNEFFLNELLISSLKTQNIGELIYAISYNKQYNIINIISKEFFSAYRKKNKDDNEKEFLIKLVKASGELAIGKCIGILRLASKSEDWILRAIAAKNIWKTKNGVKIVYNMLSDSNWRVRYNAAHSLLKFGKEGEKILYKTLDSEDRFARDISGYALVAHNTFFMKNIIFNLEKGEVRNIIEKVLKVVNNSNNIMILENIISNKNIEDEIKKILISEIKSIQILKELKTIYDNKILKCNTEKLFITPKQIAL;locus_tag=LOCUS_18230;note=MGA_1825
sequence1	MetaGeneAnnotator	CDS	2095051	2095437	.	-	0	ID=MGA_1826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLANILFIEGTKIYKELLSEMFNRDTKFWIKIVENIEEAKNILDKIDLDIVVLDLILPDGRGEEIVKIIREEKKDDSIQIIVITSETSEDRIINAFNLGIDFYFEKPFNPNILKALIERIYEKKKREA;locus_tag=LOCUS_18240;note=WP_011948057.1 response regulator transcription factor (Clostridium botulinum) [pid:35.5%25%2C q_cov:59.4%25%2C s_cov:32.4%25%2C Eval:1.3e-08%2C partial hit],MGA_1826
sequence1	MetaGeneAnnotator	CDS	2095486	2097708	.	-	0	ID=MGA_1827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLFLLVVINLFSGCFLVKNPSKKIVNSNNKNEVKYNLPKEVEVPFITKDNYLAYWDYKDEVYKKFFIKGMNLGVGVPGTNAGNLSPDYTTYYRWFEEMYELGINTLRIYTLHYPRFYMALDDFNSKHADNPIYLFQGIWLDENSEKGDVHTLYDLTDESFSQEIEDLVDCVYGNKRIPHRYGKAYGDYNVNISRWVLGWIIGREIYPDEIERTNQLSKSRTFNGRYYSIDNAKNVSTAWAVEQIDHVISYEMEKYGHQRPISLSSWPTLDPLEHESEPGPPNSFEDYEAFYLEDIKKSNNDVAGYFASYHAYPYYPDFISYDPKYNDPKYSDDYGPNSYMGYLDDLNSYYNAKGIPLVIAETGVPSSWGNAKFAQSGMNHGGINEEMQGEYGIRIMKNIYDENCAGGVLFAWIDEWWKRTWITDEITFPRSRYALWDDITSPEENFGFIKFKPDNYPYKEIYRGENKNIESISAMANETYLNIKIKLSNIWKTEDTVVIGINSYDNSEEKLGSSILEDGENTQNGYEFTIVYPEIDEKGNKIAQLYVTKEYSLYGIWHFLDNSRKYSSTTIGEKEWEKVRWRNLEKYNEMGEVTKIENQNIGELGVANSNETIKSTDALIINDTELLVRVPWTLLQFSDPSRCAVIDGVKIDSSIFGKKNWKLQSKITDGVSFAVSINNDLIETNKYSWNGWGGNSLDNVDYSDISRKYVNNPDMEEKKNSYYILRKGLKSIGEVIK;locus_tag=LOCUS_18250;note=WP_010942102.1 hypothetical protein (Geobacter sulfurreducens) [pid:35.7%25%2C q_cov:54.1%25%2C s_cov:49.3%25%2C Eval:7.0e-61%2C partial hit],MGA_1827
sequence1	MetaGeneAnnotator	CDS	2097879	2098547	.	-	0	ID=MGA_1828;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000795919.1;translation=MSIVIVEDDIVTLELIADKFEKEGFFVEKCDTGKKGLNKIEKNGAELVILDINLPDILGYDVCEKIKNNPAIYGLPKVILLTQKISDNDVIKGFEIGADDYVRKPFNVEELFLRAIRLVGDRTVNSKDIIKYRNIIVYKNKKIVKVNDKEIKLTKKEFELLLYFIINKGIVLSKDKIYFNVWQDYLDSNNKTFDMCLSRLKKKIEPLKDNLENIKGMGYKLK;locus_tag=LOCUS_18260;note=WP_000795919.1 response regulator transcription factor (Leptospira) [pid:34.1%25%2C q_cov:98.2%25%2C s_cov:93.6%25%2C Eval:1.9e-31],MGA_1828
sequence1	MetaGeneAnnotator	CDS	2098601	2101204	.	-	0	ID=MGA_1829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLSILFFSISVSIYSLENEYIKSLNIIKLRKLIINSMVVGAIGIIGVLFLFQYFLIKKRKSVIYFVYMCIVFSFKVILYNEKIFNDIIKIPYSDIYVVEKLTTYIIIPFFLFYLYYQYPKITNKIIAELSAYYIIIYSLIIVFIPNVIKKIEIFNQIMIILAVGYIIYMFIKACVKKLKYSKMYMIGTIIFLIGMLIDIYNYYRKIESEYIFFGMAIFLFLEVFIFFNEIRDNLKKVEWMSSDLNEKNKKLIAHVVKLHKSIEDKKKLEEANRAKNMFLANISHELRTPLNGIIGMSEILYYIKDVKDRDEKIDMILNSAKHLKSLVNQLVDIVKIEEGKIELKNIKFSLMELFEEIRMMFENEIMDKGFDMYLFVSQKIPYEIFGDYTKLKQVLINLLNNAIKFTERGTVIIFAELLEEKDGKVEVIISVKDTGTGIPKENLRKIFNAFEQGNISIAKKYEGVGLGLAISQNLVKSMGGEIDVFSEVGLGSEFKFKLFFEYSKESIKKFKINKKDTIIGVNDEFLERYIRKILSDLDLGYYIAEDYDSLEDIIENIEDESYNVFIDRDFLRKCIIENNEIFPDNSMKLYLIDKNADNEKEIEIKPIQKDIIGVFSEKNKICENKRDEIKIDNKKYIGKKALIIDDNQINIEILKEMLENINIKTKGLTTGINVVKEYLNGNYNFIFLDVQLPRKNGFEILEELKEVIVNSTKIFAVTANVSEGFKEKCMKSGFDEYISKPFNYKTILDVLEKYNKDSYYIEDKKVIHKMNDLNIPEKILKLMLETYPKEMKIMRRKLSNNEFEQVKNISHKLKSGAGNIGLKDMYGNLSKIEELCNEKDYEAIIKLVWKVENELGNLMLNNK;locus_tag=LOCUS_18270;note=WP_000202845.1 response regulator (Leptospira interrogans) [pid:31.8%25%2C q_cov:57.0%25%2C s_cov:52.0%25%2C Eval:1.1e-57%2C partial hit],MGA_1829
sequence1	MetaGeneAnnotator	CDS	2101437	2102285	.	-	0	ID=MGA_1830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKSLNKNDGFTIFGAVKFSVIVYILVIIITIIAMLFMFGIISIYNELFTKNFNFNNKILFGIIGIISEIIVLIIIYEKGYMKNISIKINKKISKEKLILLFYLVLGVLCYILIFNNTVDVLIERFLKQSILNLQNMVNEEGIVTFIFTSVTIGPIFEEVVNRGIILKKLTLKYKNSTSIIVSALIFAISHFNIAQGINAFFLGIIFAIVYLKTNSLKTVIFMHCINNLIVILIGACYADKVGIVSKINYMQLLIGMLIFISLIIIYKKNKLLKKEEIEIL;locus_tag=LOCUS_18280;note=WP_011948923.1 type II CAAX endopeptidase family protein (Clostridium botulinum) [pid:37.5%25%2C q_cov:56.4%25%2C s_cov:59.8%25%2C Eval:4.9e-20%2C partial hit],MGA_1830
sequence1	MetaGeneAnnotator	CDS	2102302	2104056	.	-	0	ID=MGA_1831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKSKIIYLLIIILLLTSCKNLQKNNEIIKRYSNKYFEFNYPSSVNVVNVGEDKIFVKFINNKTSNIFVSIKNKKIDSIDKILKEDKKTEKEEEQNVRLRIKKKIFKKIKIDNVVGDRIEVTDAFLNYNEKQIKLNLYKSNKEFNFVFSNLSLNKHKEEKIFNKILKSIKFKDFKDIKIKKKKIKSKKTLTSKEAIEDAKYMVNKLRIHPDLYYSISKNEFNKKYKALIKKIESKEKISKKELFILFSEFIAKIKDGHTNLEWNKSGYKKDIRNFPLFRNGFPILVNIRDNKILINKKNSSKIGEMVGGEIISINGVSADKILKRMKKLIASDPNSKKWVEVRIQDGFPMWYSLIYNGSKKYTVKYIKSNSKGIKKVVLRGGISERESWKNNNYGKNIELSYLKKDIAIIRINKFPFENSDGIVNFIGNMKSYFNEMKDKKIKYLIIDDRFNLGGSPELADYFYRNLEKNNKNYYKGKVYLLVGRRTFSAGVTFSNYVRLKDKKIKIIGNKTGGWIECYGNGAVVILPNSNFRINIPIISYKVLKNIKRKGNLIPDIKVDIAPEKEALGKDQVMDKVLELIKNR;locus_tag=LOCUS_18290;note=MGA_1831
sequence1	MetaGeneAnnotator	CDS	2104203	2106149	.	-	0	ID=MGA_1832;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861272.1;translation=MKLSNIKTVYIKEIISIIRDKRNVISIFLPLIILPLMINVISHFAEKDKQISKDKISRIYYITNIPNKLKELIKYEGKFKVYNLKNKDYEKNIETKKLDLAISYKVENKKEIIEIFYRGSNIDSGKSKKRFLEIFKKYKKYKQENIVEKLNIKEPILNLTELKSIDTAEKKEITQHSFSGVVPMYLVLYAMLSTVGFAIEMTTGEKERGTLETLFSVPIKKMELLIAKIFACFTMGLATLFTSLIALSIALSRLNSVQGNLQGKLELTPMLFVVLFFMLMPLVILSTSVFLGVGLFANSYKESAALFAPITFLFMLPTYVGMIDGIKMSKFYSFIPIVNSVLIIKSALLNQLNLTFFSISLFVNIIVSILGLLFMFKVFGTEKILFGNGKSFDFRLKRSEIKKKRVIDPQDAILIFCIAIIMYIYSNLFFGTKINMVLGTLIIQYVIFAFFPIFTLWYLKADIKKSLGLKKPKLKESFGSGILWMGIFIIIMLYAIFLGKYLPDSGKSLKGIEDMINSMSPISKLFVIGLTPALCEEILFRGVLLNSLKSKISPKSAIIITSILFAMTHLSIYRLIPTFILGLLLGYTAYKTESIVPGMILHFFHNSISIFINVDFSKNLIMNIVIAFILIGIGLMIMRGKREKVSSS;locus_tag=LOCUS_18300;note=WP_011861272.1 ABC transporter permease (Clostridioides difficile) [pid:29.1%25%2C q_cov:94.6%25%2C s_cov:92.6%25%2C Eval:1.2e-80],MGA_1832
sequence1	MetaGeneAnnotator	CDS	2106154	2107395	.	-	0	ID=MGA_1833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNKVVLIFKKDFKELLRDKKALIAMFLPIIIYPIILIFIFELQSTVSNKLKSEKSRIIIKNEIPSLFLKKINLSDKFKILNSEDSNYKKLIKNEKIDMEIEFTNTNKNSPEKIKILYNSTITKSKLAKKRIDKLFDEYKVELEKNKIKELNIKVPILDAVQLKSNDLSKSKDYTEMILGSLLPFLLTIYSIMGIYAISIDLTAGEKERGTLETIFSIPVKKSEIIFGKLLASSSVGIISCFINILAVIPLLMGIMIAIPKFSFQIDIFRMVIMFFMLIPIIILSSSIIIGVGFFANSYKEAQSYLSPVLLILMLPCYVAIFPNFKLTLCTAMIPISGGIISMRNMLIGNYNILNLLIANITNIIVSIISIIFMTYIFKSEKVIFGTGGKNNFSTKTRRSQSYTKKKTKDRR;locus_tag=LOCUS_18310;note=WP_011861272.1 ABC transporter permease (Clostridioides difficile) [pid:28.3%25%2C q_cov:94.9%25%2C s_cov:59.9%25%2C Eval:1.7e-44%2C partial hit],MGA_1833
sequence1	MetaGeneAnnotator	CDS	2107382	2108140	.	-	0	ID=MGA_1834;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009896767.1;translation=MINVKNVSKKFYDKKLGEFYAVKNASFEVKKGEIFGLLGPNGAGKTTLLRIISTIMEPTNGEAVINGFDIIKNPEEVKKSIGFLSGNTKLYKKLTPVETIKFFGGLYDLDKDIIKKRTKEILDILDMNDFKDRIVEKLSTGQTQKSSIARCMIHNPEIYILDEPTLGLDILTSRTIIEFIKRKKEEGKTIIFSTHYMEEAEMLCDRIALIHKGKIVETGKVENLKKKTGKDNIRDIFLEYIDREENIKDEFE;locus_tag=LOCUS_18320;note=WP_009896767.1 ABC transporter ATP-binding protein (Clostridioides difficile) [pid:53.2%25%2C q_cov:94.0%25%2C s_cov:89.4%25%2C Eval:5.1e-71],MGA_1834
sequence1	MetaGeneAnnotator	CDS	2108535	2109278	.	-	0	ID=MGA_1835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVLGVLILLTQLGCSSLVEKKVITVTNAVKTKKTVYVSEPKYIKYNNIDITPLAQETNGFSEKNKFNEKDAKAMRDSLKESLKLNEMCSLAERGDKSEYSIKILIPNYIIAEGYGIVTEIVLILKDRSNNEIKFQDRFAVFVNKPFSGSGKNLINEAVVYKMVYDLNYYLLGENKKIRTYNNKKVKYYLGNGYQGVVRAVLNFPKRMKKVIISTSGRVRRTNTYSLNQIKWRDMIYRMDRLNLK;locus_tag=LOCUS_18330;note=MGA_1835
sequence1	MetaGeneAnnotator	CDS	2109652	2116134	.	-	0	ID=MGA_1836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMLDNRYEIKEKIWELKNIKIYRVWDNVENKRILIKLLEKSDNKKEEMKLKDEYNLLKKSSEEVDDIIKPIDYVTKENIDYFTMENFEGVLLKDVDKKIFLNIDKFLKVAIKILSISKNISNISNINNINKLITPYSIMYNLVTNEMKILNFEFNFKVDFKVYNALEEIDFPLMVLPYISPEQTGRLARSVDYRSDFYSFGIIFYEMLAGKMPIISNVPSEIIYFHLAKKPLKLNDISIGIPEIISDIILKLLNKNPEDRYQSYEGILFDLEKCISDIAENGFINRFEIGKNDITDKFLISNKYYGREKEIEAIKDSYNKISKGNFEVLFIGGHPGIGKTSLVNEANLSSMENNGVLISGKFEKLRKDIPYKAFIEAFRELILKKINSDEKEYWKEKLLNSLGNGARAIIDIIPELKLLIGDLPEMKELSPTESRNRLKSTFVKFIKIWAIQSNPLIIFIDDLQWADLESLSLIKFLINDKSVKYLCFIGTYRNNEVSPTHSLSLLMEELKKENRNFKELYLTALSEKNIKKFIRDSFKNFEKEKDISDLEKICYEKTLGNPFNLKHLLEFLYNSNLLKFNLKNGNWKFDLEKISNLKENLSEILKSKIYILSENTKEILKYGVCIGNEFDINIVSKIMKKPLKEIREDLWGAIKAEIIVPVSNFYESLSYEKDGYVNFKFVHDEIFRAVYDIISKKELQLLHRRIGEMMQENSSEEYKNKNIFNITEHFNIAKESFNEREYSEKRVWLAEMNFKSGIIAKRSAAYFSAYNYFKKGVNYLEKEDWENSYELTLGLYINSCETAYLNKYFNIMDIYFDTILKNGNILLDKVKAYEIVIQSYVARSRPQKAVDLALDVLKLLKIRISKNPNRLTVLKNIGDVQLKMMKKDIKELRELPNMENEKIIAVMRILTSIAAAAFIVNTDLYLLLVIKMVKLSIKYGNISYSAFAYVNYGLILTGALYMINGGYEFGKLALYLIEKFDAKELEAKVLMVYNTTIRYYKEPLKNTFPSLIRGYKVGIETGDFEYGTYNGAVYGYNSFFQGKSLEEYYKSTNNFSEAFKSYGQNTQYNYNQLFAQMAYNLSEDVENIFEFNGPNYNEKEVLPQNIKSNDKHIIFNYHLMKMILGYIFENEKIIDENSHKAKKYLSSALGFIPYPEYFFYDSLIFFREYDKLSIKNKIVGFGKIFANQIRQKIWSKNAPMNFEHKFLIVEAEKNRVLKKYNKAMRFYDLAIEKAKQNGFKNEEAISNELAGRFYLEQNNEKISKLYLKEALECYEEWGAISKVENMLEKYSGILEMKKYKQENMMKNTDIFSILEAANILSKEIELENLLSQLMNVVIKNAGAQSGLLLLREDKKFYIEAEFESDGEEKEKVENILAHIELEKYPNEQLKLIVEKVITTGENFIFGDNSFENIFENENMNLNSSILCMPLFNSKKKIISILYLENNLVKGAFTKDRISILKMLSSEMVISIENAVLYKELKQINESLEEKVKKRTAELEIAKEKAEVAAVVKSEFLANMSHEIRTPMNGILGLTYLMKQTNLNEKQYDYLGKINSSANHLLSLINDILDFSKIEAGKMSMENIEFELDDILKNISTIVLQNARKKGIDLLFDIDTNIPQYLIGDPTRLQQVLINLTGNAIKFTEKGYVMIKGKLLNRVNGELNIQFSIIDTGIGMKKEQQNKLFNTFTQANSSISRKYGGTGLGLAISKKIVKMYGGEINVESEYEKGSKFIFNVLLKEQKLGEKLKIDFVDIEDMRILVVDDSKISVEIAKNYLESYGGIVEVASSGEEAINLIKEKKDNPFELIIMDWKMPKMDGLETIKRLKEEKDIEKLPSIIVISSYDVDEIKEKGKEHGIDGYLEKPIYSSEILNVIKKVLKKDKNSHLNYKIKRKEDEYEDLAGNRILLVEDNEINQEIAEAILNQINIKVKIANNGKEAIEILEEDNDFDMILMDVQMPVMNGFEATENLRKNERYDKIPIIAMTANAMPGYEDVCKKAGMDGYISKPISPKYLFITLNKWLEKKGVAEMSDTKLDKSKNKYYGIEITEDMRTTLGDALLERFIIKFCENYNGIDKQIEKLIEDGDLKEAKGLVHKIKGTAGTIGAKKLDKIIRALENSIFEGDNEKMIKLSDEFSKELNLIMKNLYLVEETEEGLIVQDN;locus_tag=LOCUS_18340;note=WP_000686845.1 AAA family ATPase (Leptospira interrogans) [pid:31.7%25%2C q_cov:68.9%25%2C s_cov:84.8%25%2C Eval:4.9e-201%2C partial hit],MGA_1836
sequence1	MetaGeneAnnotator	CDS	2116553	2117467	.	-	0	ID=MGA_1837;product=PTO1314 family radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980496.1;translation=MDMSLIHRQIKWRLGIKSPIVANIKIINVCNLNCKMCNPSIRSEKNRVLSTQEWKSKLLELKKSGIKIVVFEGGEPTLRKDIKEIINYSKLLKLYTITITNGVNDFSHINSDTVWISVDGTKEFHEKVRGENIYNIIKKNILANRDKNIVILSMINSFNQYNIKEFVEEFKEFPIYFNWLYGYKSTDVSSMSKEEKIESAEFIMKLKKEGYNIFNSYKTLKSVGKKKKCDYWLLTTVNSAGEQDNTCMVSSFDDSCDCNQCDLSCYLELNNIYNLDYQTRKNWEKMLGIDMTFKIEDLIFSKKE;locus_tag=LOCUS_18350;note=WP_010980496.1 PTO1314 family radical SAM protein (Sulfurisphaera tokodaii) [pid:26.4%25%2C q_cov:89.1%25%2C s_cov:90.8%25%2C Eval:4.2e-20],MGA_1837
sequence1	MetaGeneAnnotator	CDS	2117482	2118825	.	-	0	ID=MGA_1838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEIKKYDVIVVGAGPAGLSVASELSKELKVLVVDGKSSISKTTKSWFVPKEVCDIGEAGDILEYTYPGVKRFLADTFTGVKDKAWESELEGGYLYIKEHEVLEYWGEIITKNSSEILLECNYLDHQVEKEKEYPVTIHTTKGNFESKLLVDASGYDSLIREKYHLKDEKLYWWSVYGAIMKHKDGIPQDMKVGDYMFWQTFKNTNPDVSTSLNEGRPVFEYEVLDENSSFPLILFLKDSQVSFDIMKDTFNEVMKEKKVMSKYNDCEIQEIKYGWYPSGGVSQYIAEDNVTFVGDAACWTTPCGWGFAFIVKNYKRYARNLITAFEKNEFDKDTLDSLIGLKTDEKFQILFNKVATRILSIGDTELLDKIILLFNKIGFIYCEKTFTLTITTEDIISIIVELIKNLEFDILKKIFTVEDIKWLKEELSDKLEGTVSRIIDSIEKIM;locus_tag=LOCUS_18360;note=MGA_1838
sequence1	MetaGeneAnnotator	CDS	2118983	2119891	.	-	0	ID=MGA_1839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKMGKKIILVIILSITLGGCFGGFPEVKKVGIIEGYVKDILTNQTLGQVTIRVQDVTFVTDNDGYFPLVRDSETQPYIIPKASGDGYSMKKDGYYGETGVSVFSYGQKNLIGYLTPKASDKIYSINGVARDNTGKILEGVTVIVNGVFSGESFKKVTDSNGVFVFDKIPGGNINIYAFKDGYTAYSTGRINLSSNKEVSVEIREDTTIKYGTIKGGISGFNKELCGHSLVVWGQEGSKEYQFTVADTNGKYTLYGIPEGKSQISVKSPGMYQPSPGSENIVAVTAGAITLHDVQMQYIKGE;locus_tag=LOCUS_18370;note=MGA_1839
sequence1	MetaGeneAnnotator	CDS	2119982	2122873	.	-	0	ID=MGA_1840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWKKGVLLFLLVFSFGGCFSSDSSNKLNTVTTNTDQSQITTKDVISSGGKDSNLIIRILSKPPISGASTSVVFQFLASQDGYSSDDFLYHYDLQGEGNSVAENILESDEYVSNKKLYYSSLKEGVKYTFSVSAYNKKTGKISNSSAIYQFTTTNTTQNIDVKLNYVKTDKSSYNIGDSIKVIYNLTNSSDKEYSLLTKPVFNTTPGYVTTNDKNESFTITNTDMPDKIAANSTITFTETYTILPGTIEGNFYTKLMYANTKVEFLGENGASTGVQSPAFTVVDSSKAKVKLKSVDAVYETVAPGQSNILIRYTVQNYTSVEVSIKSLVGKFYKPDGTDVSSEWQATGDSDRLTTIPAGGLGTISKRYNLASTATTGDVFCDATVNAILSNSFGLKISDSGAEVLDTVKVLAKGTGSLNLWIASPEGAKDGVVETEQEFTVYGIVNYNGELTFSTQGEIELDLSDLDGITLLSGVSKTTLTMNKQMTWTLKASKIPIVGNIKLKITKKPVDSKTKQEISFVSTEKVIPLTVQEKSKLNLEVGIETDNYGGNDGLLRTGKEFSMYAIANNANSNVVSGNVKVAIDISSVADLKLAAGETIEKVVPVGQKAIWKLNAPTVPRIGSVKFKVVETPINQNTNEATICDLEKNYTVDIKLPGALALKNVYCDWENVKPGRDGIPIKFDLENSGNEDVKITSIKAVFTQNGVDVSDRWTLTDTTIRDNTILLKGSVLTLTGYYKLRENIGDGTDLLGDIIISGEATGYDDISKEVLTDNLPRYGDVITVDDTVPPVAVISASKTTVEIGEDIVFDGTGSTDNDKIRYYSWDFDSANGVDESVPGGIIHHSYDKPGIYKVTLQVNDMSNNGPATATILITVQDTIAPVAIAGVRDGITTISVGGRIAFDGSGSSDNYMIKSYSWNFGDGTAPNGSASPEHTYSTAGSYTATLTVTDVNGNIGTATIGITVK;locus_tag=LOCUS_18380;note=WP_010943516.1 PKD domain-containing protein (Geobacter sulfurreducens) [pid:52.7%25%2C q_cov:7.6%25%2C s_cov:8.3%25%2C Eval:1.8e-11%2C partial hit],MGA_1840
sequence1	Aragorn:1.2.38	tRNA	2123344	2123418	.	-	.	ID=Aragorn_34;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00330;note=Aragorn_34
sequence1	Aragorn:1.2.38	tRNA	2123426	2123501	.	-	.	ID=Aragorn_35;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00340;note=Aragorn_35
sequence1	Aragorn:1.2.38	tRNA	2123542	2123619	.	-	.	ID=Aragorn_36;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00350;note=Aragorn_36
sequence1	Aragorn:1.2.38	tRNA	2123630	2123705	.	-	.	ID=Aragorn_37;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00360;note=Aragorn_37
sequence1	MetaGeneAnnotator	CDS	2123940	2125730	.	-	0	ID=MGA_1841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKLRKTLKPVIWVLTIAFVISVFFIGAAGTIGSVNKRFAVKVGKKKIEVTKVERLFENSINSYRQYYKDKVDPEIVKVMTFNGIIEQEILIESAKKLKVKLSGKEFRAAYNKATSGITSQKQLRTILKYQGLTIADLKKDIKDETLANKVKKAVKAEYKLPETKVKEYYENNKFGRYKGKKYADEKKGIEKELKDTLSQKYYSKWLADKLEATNIEIMEAYYNKYLNKDVIKAGNYTIDNMYFLTTVFSKRLFGAKDEADAYKKALEALKENVALAQEAIKSGEETNENYVVSDQIADLGEKLKKSIRKNYKYSDKDLKEYFNKNHSKYDQKETAKANIILLKLKPSDADKAAAKAKAEKILKEALAGKTKFSELAKKYSEGPSGPNGGELGWFTQKQMVKEFADAAFKGEKGKVYPEVVKTQFGYHIIKVEDINTKDKKVKASHILIKEDVGAKTKEELTKKANGILKDIQSGKIKIDEAMKKYSEASTKKEIDSIEKGGYIAGVGYDKKLTEELFKMKKGDFKVISTDKGDYILNLTGYTPFKAATLEEKKDEVIYNFLNEKVADKISKLKKELGPKVKVEILDEDLKSKLK;locus_tag=LOCUS_18390;note=WP_009892066.1 peptidylprolyl isomerase (Clostridioides difficile) [pid:30.8%25%2C q_cov:47.3%25%2C s_cov:84.6%25%2C Eval:9.3e-21%2C partial hit],MGA_1841
sequence1	MetaGeneAnnotator	CDS	2126038	2127255	.	-	0	ID=MGA_1842;product=argininosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808619.1;translation=MDKKIKKVVLAYSGGLDTSVMIPWLKENYGCEVIAFAADLGQGEELDHLNEKAIETGAIKIYIEDLREEFLKEYVWPTLKAGAVYEGKYLLGTSFARPLIAKKQVEIALKEGADAVAHGATGKGNDQVRFELGYMALNPELKIIAPWKDDKWTLTSREAAIDYAKERKIPLEQTKEKIYSRDRNLWHISHEGGDLENPYNEPKDNIFMLSKTIEEAPDKPTYIEIGFEKGEPVSIDGEKLGAVELMDKLNKIGGENAIGQIDMVENRLVGMKSRGVYETPGGTILYYAHNELERLCLDKETLHYKELISKKYAEIVYNGTWFTPLRESLDAFVNVTQETVTGTVKLKLYKGNIVLAGTKSDYSLYSEEIASFADTELYDQKDANGFIRLFGLPLKVRAMLKNKKK;locus_tag=LOCUS_18400;EC_number=6.3.4.5;note=WP_005808619.1 argininosuccinate synthase (Desulfitobacterium) [pid:69.7%25%2C q_cov:98.5%25%2C s_cov:97.1%25%2C Eval:3.3e-162],MGA_1842
sequence1	MetaGeneAnnotator	CDS	2127429	2128364	.	-	0	ID=MGA_1843;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393769.1;translation=MAVSLKGRHFLKLEDFTKEELIQILDTADFIKMRHKIGIREEMLKGKTLAMIFEKSSTRTRVSFEVGMAQLGGEALHLSSRDIQIGRGETIADTSRVLSRYVDGIMIRTYGQEIVEEMAKYSDVPVINALTDEFHPCQIMADFQTMREKFHKLEGLKIAYIGDAANVANSLLIGSSIMGIDISLACPKGYQPTDEILATANKFAKKSGAKIVITDNIEEAVKGSDALYTDIWVSMGKEEEMKKRFEDLKDYQINSKVLGMAKENAIVMHCLPAHRGEEITDEVLEGAQSVVFDEAENRLHAQKAIMALIMG;locus_tag=LOCUS_18410;gene=argF;EC_number=2.1.3.3;note=WP_011393769.1 ornithine carbamoyltransferase (Moorella thermoacetica) [pid:57.6%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:2.3e-101],MGA_1843
sequence1	MetaGeneAnnotator	CDS	2128385	2129308	.	-	0	ID=MGA_1844;product=branched-chain-amino-acid transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061049.1;translation=MIDSGKIWMNGKFVEHDEAKVHVLSHVLHYGSGFFEGIRCYKTPKGSAIFRLKEHTDRLFDSAKIYRTEVPFTKEEVNKAMMDTLNINNLEEAYIRPLVYRGYNQLGVNPKTCPVDVMIAAWTWGKYLGEEAMKKGVKVKISSWRRLAPDTMPTMAKASGNYLSSQLIKMEALEDGYDEGIALDYNGYVSEGSGENLFVIKNGIIYTPAMNGSALPGITRDSIIKIANDLGYEIREQGIPREMLYIADELFFTGTAAEVTPVSSVDKIVIGTGERGAITEKIQKRFFDIVEGREEDKYGWLTFINNV;locus_tag=LOCUS_18420;gene=ilvE;EC_number=2.6.1.42;note=WP_048061049.1 branched-chain-amino-acid transaminase (Methanothermobacter thermautotrophicus) [pid:62.5%25%2C q_cov:98.0%25%2C s_cov:98.4%25%2C Eval:3.3e-113],MGA_1844
sequence1	MetaGeneAnnotator	CDS	2129388	2130722	.	-	0	ID=MGA_1845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIMIIELIIIILLIKIYLKLKNRVIKLSSKFLEKDTKTLKISELENRLEKKYEYIENELVRKEVLFKISYIVNGSEEYKDIFDEVISIISELFKSKKGSILLLGDDGKLFIAGSLGIDENIKNKIRIIPGEGIAGKVYEKGEIIYAKDIELDLNMKNKMSYNSNSFASIPIKHGNDIIGVINLSERENNKIFEIDEVNFLKVVGMQLGLVIHNRMLVINKFRKTRLELVGNMAAKIVHEIKNPLNSISGMLQLLQFRLEKLEIINDEKLRKYSEVLKEETNRLKKLSNEILEYTKGIKIEKNEVNLFEFMKDIVYLYDERIVELSYELAENKIVSLDNEKIKEVLINLINNSMEALKKRDDKKIKVRVVKIDSYIEIKIEDNGSGIPKEIIKEIFEPFYTTKSTGTGLGLAICKQIIESHNGYIEVESEVNRGTEFRLYLPI;locus_tag=LOCUS_18430;note=WP_012544939.1 PAS domain S-box protein (Thermodesulfovibrio yellowstonii) [pid:35.5%25%2C q_cov:60.4%25%2C s_cov:28.4%25%2C Eval:1.1e-36%2C partial hit],MGA_1845
sequence1	MetaGeneAnnotator	CDS	2130985	2132775	.	-	0	ID=MGA_1846;product=alpha-amylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005480254.1;translation=MRKIYVGILLVLMTFIASGSEWTQAYFRGTANGWGTTAMSKISTNTWQTEVTFNGESSPARFKIDHYGDWSENYPAQDYQVTDYKTYKITFYDDTHNISVTEVTEPAPAPTPTAINGTMMQYFHWYYPADGSLWNKVSTEASNLSKMGITALWLPPAYKGAGGASDVGYGVYDMYDLGEFNQKGTIRTKYGTKDQYINAISNAHSAGLQVYGDIVFNHRGGADATETVEATKVDWNNRNLELGTRMISAWTKFDFPGRNNKYSSFKWRWYHFDGVDWDDSAKEKAIFRFDGTGKGWDWEVDGENGNYDYLMYADLDMDHPEVVQELKNWGKWYVDTTGVDGFRLDAVKHIKFSFFKDWVNYERSATGKELFTVGEYWNYDVGKLENYITKTSGVISLFDAPLHMNFYSASKSNGNYDMRNILNGTLMKDNPSKAVTIVDNHDTQPLQALESPVEWWFKPLAYSIILLRQEGYPCVFYPDVYGASYTDKGHNINMAPVSNLSKIIKARKLYAYGVQKDYLDNWDVIGWTRLGDATHSKAMAVILTDGGSGSKWMDVGRPNAVFYDYLGNRTDKVYTNSDGWGEFKVNGGSASVWVQE;locus_tag=LOCUS_18440;gene=amyS;EC_number=3.2.1.1;note=WP_005480254.1 alpha-amylase (Vibrio parahaemolyticus) [pid:68.3%25%2C q_cov:81.5%25%2C s_cov:95.9%25%2C Eval:1.9e-215],MGA_1846
sequence1	MetaGeneAnnotator	CDS	2133045	2134388	.	+	0	ID=MGA_1847;product=IS3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_094396572.1;translation=MSNKIFTKKEIEILSKNKYVKTISSKAITYTSEFRRIFIAESQDKILPRAIFEKYGFDVQVLGMKRIRSAAARWRRAYKEQGVLGLDDRRKENSGRPLERELSLEEKYERLQVKNDYLQAEIDLLKKLDVREREVNGKLIELSPSEKFVIIKDVIETSGVKNIIKYLCEVAEISRTSYYNYLSETSKTNKSNQELEDEKARDLIIKAYEFKGRQKGARQIKMTLENEFATIFNLKKIRRIMKKYSIVCTIRKANPYKRIAKATKEHTTIPNKLNREFKQEIPGKILLTDITYLSYGNGQRAYLSTIKDSSTGEIPAYVLSKNIKLEIATETIRTLMENKSFKIHKDALIHSDQGVHYTSPTFQKLVKNSGLDQSMSRRGNCWDNAPQESFFGHFKDEANIKECNTFEELINEIDDYMDYYNNYRCQWGLKKMTPIKYRNHLLENKSA;locus_tag=LOCUS_18450;note=WP_094396572.1 IS3 family transposase (Bacillus cytotoxicus) [pid:59.7%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.4e-155],MGA_1847
sequence1	MetaGeneAnnotator	CDS	2134619	2136601	.	-	0	ID=MGA_1848;product=sodium-translocating pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015989.1;translation=MEGLVYFGVLAGVFAVITAAFYSAKVGRFEINIPKVEEITEAIREGAMAFLLAEYKMLVWFVLGVAILLGIFMPDKMVALTFVLGAITSAVAGNIGMRIATRANGRTAVAAKDGGLAKALDVAFAGGAVMGMAVVGLGMLGVSILTLVFKWDMAIITGFGMGASSIALFARVGGGIYTKAADVGADLVGKVEAGIPEDDPRNPATIADNVGDNVGDVAGMGADLFESYVNSLIATMALGATMSKAHMIAPILIAAVGIISSIIAAFTVKTTDPKQVHSKLENGTRIAGILSIIGAFGVIYYLGMDMGIFYAIVAGLVAGLGIASVTGYYTEKDKKPVNSIADAAQTGGATTIIQGLAVGMESTVAPILIIAVAIIVAFQFAGLYGIAVAAVGMLATTGMVVAVDAYGPVADNAGGIAEMSALPPEVREITDELDAVGNSTAAVGKGFAIGSAALTALSLFVAYKSSIEHLTGKKLAIDVTDPKVIAGLFIGGMLTFLFSALTMTAVGKAAMEMVEEVRRQFREIPGIMEGTGKPDHRKCVEISTSSALREMVVPGVLAVIVPLLMGLWDVRALGGLLAGSLVTGVLMAIMMANAGGAWDNAKKQIEGGYKGDGKGSDRHKAAVIGDTVGDPFKDTSGPSLNILIKLMSIVSLVLVPLFVR;locus_tag=LOCUS_18460;EC_number=3.6.1.1;note=WP_011015989.1 sodium-translocating pyrophosphatase (Fusobacterium nucleatum) [pid:72.9%25%2C q_cov:99.5%25%2C s_cov:98.8%25%2C Eval:2.3e-270],MGA_1848
sequence1	MetaGeneAnnotator	CDS	2136861	2137073	.	-	0	ID=MGA_1849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGIAKVLIVIGTIIFMLGAILFLFDKVPFIGKLPGDLMIKTKAIKIYIPLTTTVILTVLVTIIINIIKK;locus_tag=LOCUS_18470;note=WP_004080917.1 DUF2905 domain-containing protein (Thermotoga) [pid:52.4%25%2C q_cov:60.0%25%2C s_cov:57.5%25%2C Eval:1.8e-07%2C partial hit],MGA_1849
sequence1	MetaGeneAnnotator	CDS	2137076	2137687	.	-	0	ID=MGA_1850;product=MtnX-like HAD-IB family phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964933.1;translation=MKKIYLIDFDGTITKQDTLDYIANKFHPKEYKEWAEKIMNGDFTVKDWLKSFEATFKTEEKLYLELLKEIEIDETFKEFIKGKEVKIVSGGFIYNIENILGNYGIDNIEIYGNDLTFIENNRIKINSRYYNEKCGKCGVCKTNILNEYKKEYDYIVYVGDGITDICTARYADKVYAKRASYLELKLKEENIEFISFDKFEEVE;locus_tag=LOCUS_18480;EC_number=3.1.3.-;note=WP_010964933.1 MtnX-like HAD-IB family phosphatase (Clostridium) [pid:31.9%25%2C q_cov:98.0%25%2C s_cov:92.2%25%2C Eval:1.3e-20],MGA_1850
sequence1	MetaGeneAnnotator	CDS	2137684	2138670	.	-	0	ID=MGA_1851;product=FAD:protein FMN transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894909.1;translation=MKNILISLIILFNLFGCNSIKKIEKEKFLFGTFIKITVFSENKTLAENSVKKAFDEITRVQDEYNPYKKGSKFYNLNHNSGKYIKVSNEEIMMLKDAIKMSELTNGKYDITIAPIMKLWNFKEEKAKALPNQKKLKEKLNLVDYKKIKIDNNFVKIGKNQEIDTGSFLKGYAIYRAREILKKNGIKSAFISAISSIEVIGEKPNNKKWKIGIQNPENKEKILKILEVSNVSIGVSGDYQTYKIINGKKYHHLIDATTGYPARENKMVVILAKNSYIADLYSTALFPLKKEKILKIVNFNKDLEAMIVDKNMNISYSSNFENYISKEKK;locus_tag=LOCUS_18490;note=WP_005894909.1 FAD:protein FMN transferase (Fusobacterium) [pid:45.4%25%2C q_cov:98.2%25%2C s_cov:96.8%25%2C Eval:9.1e-80],MGA_1851
sequence1	MetaGeneAnnotator	CDS	2138716	2139075	.	-	0	ID=MGA_1852;product=aspartate 1-decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000490176.1;translation=MYRTMYKAKIHRATVTDANLNYVGSITIDEDLIDAADIYANEKVQIVNNNNGARFETYVIAGERGSGIICLNGAAARLAHPGDVVIIISYGIFSSEDAKKLKPKAVIVDEKNKIKEVIK;locus_tag=LOCUS_18500;gene=panD;EC_number=4.1.1.11;note=WP_000490176.1 aspartate 1-decarboxylase (Bacillus) [pid:68.6%25%2C q_cov:99.2%25%2C s_cov:92.9%25%2C Eval:1.8e-42],MGA_1852
sequence1	MetaGeneAnnotator	CDS	2139086	2140270	.	-	0	ID=MGA_1853;product=bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016598.1;translation=MQNRKILLGITGGIAAYKSAIIASKLKKLGYDIYVVMTENATKIISPIVFETLTGNKVYVEMFKQIDYTEVEHIELAKKVDLIVVAPATYNIIGKIANGIADDMLTTVISAFKKDKFFALAMNTNMYENPILQENIVKLKNNGYKFIDATSGELACKTIGKGRMAEPEDIVIKIENYFNKKDILKGKKVLITAGRTEEAIDPIRYMSNRSTGKMGYSLAKAAKLYGADVTLISGPTNLKKIDGIKTINIKTANEMYEETLKKYDNMDLVIMSAAVADYKVKEYSNEKIKKQDDDLTLKLTRNPDILFELGKMKKNQYLVGFAAESSNLIKNSLGKLKRKNLDMIIANNVSGFSSDENKAYIILDENKIIELETMQKNELAFKILDKIIEYKINL;locus_tag=LOCUS_18510;gene=coaBC;EC_number=4.1.1.36%3B 6.3.2.5;note=WP_011016598.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Fusobacterium nucleatum) [pid:55.3%25%2C q_cov:97.7%25%2C s_cov:97.5%25%2C Eval:5.1e-115],MGA_1853
sequence1	MetaGeneAnnotator	CDS	2140260	2140454	.	-	0	ID=MGA_1854;product=DNA-directed RNA polymerase subunit omega;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894911.1;translation=MRELSIDTLLEEIPNKYILSIVSGKRFREILAGEKLLVNEKNNSTIKNVLLEILEGKIGVQDAE;locus_tag=LOCUS_18520;note=WP_005894911.1 DNA-directed RNA polymerase subunit omega (Fusobacterium) [pid:42.3%25%2C q_cov:98.4%25%2C s_cov:97.3%25%2C Eval:9.1e-07],MGA_1854
sequence1	MetaGeneAnnotator	CDS	2140556	2141107	.	-	0	ID=MGA_1855;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904066.1;translation=MMGKLFVVSGPSGAGKSTLTKDVVKKLDNLELSISATTRKPRKGEKDNIDYHFLDEKTFKQKIEEDGFLEYALVHGNFYGTLKDEVLKKIKAGKNLLLEIDVQGGIQIKEKFDDAVLIFIKAPSETELKERLKKRDTDTEEVINLRLKNSLEELKYEKDYKYVIVNDNFEKALKKLGDLILGN;locus_tag=LOCUS_18530;gene=gmk;EC_number=2.7.4.8;note=WP_005904066.1 guanylate kinase (Fusobacterium nucleatum) [pid:56.4%25%2C q_cov:97.8%25%2C s_cov:96.2%25%2C Eval:1.5e-51],MGA_1855
sequence1	MetaGeneAnnotator	CDS	2141104	2141352	.	-	0	ID=MGA_1856;product=DUF370 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583796.1;translation=MRPIGIGFGNIVVDERIIAVISPESAPSKRLKEEAKNQHRLVDATFGRKTRALIIVDSGHIILSAINPETISSRIEKKDDKK;locus_tag=LOCUS_18540;note=WP_012583796.1 DUF370 domain-containing protein (Dictyoglomus turgidum) [pid:58.5%25%2C q_cov:100.0%25%2C s_cov:96.5%25%2C Eval:4.1e-23],MGA_1856
sequence1	MetaGeneAnnotator	CDS	2141363	2142235	.	-	0	ID=MGA_1857;product=YicC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015992.1;translation=MKSMTGYSKVSFENEDFKIKIELKSVNNKYLNLKYKSNYILNFLENKIRTKVSEFIKRGYVELRIDFEDKRESEELFEYKENIAKSYMKLLEKIELEFSEKFINKAELLIKYPNIIKKKELNIDEKEYENFIIPRLEEALLKLNEMREFEGEKLKEYLIERIEILSKSVIKIDDYKELVVKEHKKRLLDRLEKINSDIKYNEEDILKEILLFADRSDISEEVSRLNSHLEQLNVEIEKNSNGKKLDFLIQEIFRELNTAGVKSNYYDISKLVVESKAELEKIREQVQNIE;locus_tag=LOCUS_18550;note=WP_011015992.1 YicC family protein (Fusobacterium nucleatum) [pid:48.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-74],MGA_1857
sequence1	MetaGeneAnnotator	CDS	2142349	2142672	.	-	0	ID=MGA_1858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFKILKELDEIIIVGLSGEISIDVRERLQENFAEVINKIKDKKIKKLQIDLQNITYIDSIGISYFVKLKSDLKKMEVEFDFLNTPKIVMKIFSLLSLDTYFNFYES;locus_tag=LOCUS_18560;note=MGA_1858
sequence1	MetaGeneAnnotator	CDS	2142955	2146926	.	-	0	ID=MGA_1859;product=DNA-directed RNA polymerase subunit beta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904068.1;translation=MRIKDFDKIRIGLASPEKIREWSHGEVTKPETINYRTLNPEMDGLFCEKIFGPVKDWECACGKYKRMRYKGLVCEKCGVEVTKSKVRRERMGHIGLATPVAHIWYSKGTPNKMGLVLGITPKELEHVLYFSRYIVIEGGDTNLASGKILTEREYKLYKSQYGNKFKAAMGAEAILNLLKNINLEKLEVELTEELEKTNSVQKRKKLVKRLKIVRDFNNSGNRPEWMVLNAVPVIPADLRPMVQLDGGRFATSDLNDLYRRVINRNNRLKKLLEIRAPEIVVKNEKRMLQEAVDALIDNGRKGKPVVTQNNRELKSLSDTLKGKQGRFRQNLLGKRVDYSGRSVIVVGPNLKMHQCGIPKKMALELYKPFIMRELVKRKIATNIKTAKRMVENEDDRVWGIVEEVIKNHPVLLNRAPTLHRLSIQAFEPVLIEGKAIRLHPLVCSAFNADFDGDQMAVHLVLSPEAIMEANLLMLASNNLISPASGEPIAVPSQDMVMGCYYMTKDRKGAKGEGKKFANKKEAILAYETKNIEVHAIIDVRIDNKMVTTTVGRVLFNEVLPAEIRNYHKTYGKKGLKELLNEMYNEYGFSKTADYIDRVKNFGYHYAAIGGITVGIEDLEIPEEKKAILDKAEIDVHEIEQEYRRGTIINEERYRITVDIWDKAVNDITDKMMEHLDDFNPVYMMAMSGARGNVRQMRQLGGMRGLMANTQGKIIEIPIKANFREGLNILEFFMSSHGARKGLADTALRTADSGYLTRRLVDVSHEVIVNTEDCGTDGGIIVSDLVVGGEVIEKLEERIKGRYLASDLMYNGEIFLKKNDLITPKLAKKITELEIRKVEIRSPLTCSLEKGVCEKCYGLDLSNHKKIMLGEAVGVIAAQSIGEPGTQLTMRTFHTGGVAEKGNVQTDIKSDEKGAVKYQDVRFIIKEGETDKVIVSQNAKLIINNVEYDVPSGSVLKVEDGEDVKRDQVLVEFDPYHVPIISEADGIVKYKEIYIKENKDKKYNVTERLAVKPMEKGDINPRIVIYSEEEKKILAEYTIPYGAYLMVKENEKVRKGEILSKIIKVGEGTKDITGGLPRVTELFEARNPKGRAIVSEISGVVEFVEKMKKGMRVVIVRAIEDESKFKEYLIPFGEHLLVTDKMKIVAGDRITEGVISPHDILAIKGVVAAEQYLLESVQQVYREQGVSISDKHIEIIVKQMFKKVKIKKSGDSLYLEDEVIEKRKIDIENERLEAEGKRKIEYIPVIQGITKAAVNTESFISAASFQETTKVLANAAIKGKVDKLEGLKENVIIGKRIPAGTGFFKYAKKEPLKMVEETVEEIEE;locus_tag=LOCUS_18570;gene=rpoC;EC_number=2.7.7.6;note=WP_005904068.1 DNA-directed RNA polymerase subunit beta' (Fusobacterium nucleatum) [pid:69.4%25%2C q_cov:98.6%25%2C s_cov:98.8%25%2C Eval:0.0e+00],MGA_1859
sequence1	MetaGeneAnnotator	CDS	2147129	2150629	.	-	0	ID=MGA_1860;product=DNA-directed RNA polymerase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015993.1;translation=MERLIKRFDFGKIKERGVMPHFLEFQLNSYDEFLQSKKAATNREVKGLERSFKETFPIESSNGDIRLEYLWYDIFENEFPLNDELECKKRGKTYSGSLKVNLRLINKKTDEIQESLVYFGEIPLMTDKATFIINGAERVVVSQLHRSPGISFNKSAHPQTGKEVFVGKIIPYKGTWLEFETDKNDFFNVKIDRKKKVLLTTFLKAIGFFESNEEIMDTFLESKTLNINEFLKEFSTPEESLEALRTEIEGSFIKEDVIDEETGEILLESKDIIDEEKISQMIELEVGEIIYWEVKPEKKPLANSLAEDQTVNIDEAAVTVFKKLRPGDLVTLDSSKNLIKQMFFNGQRYDLAEVGRFKINKRLKVNLPEDYTQLTKEDFIAVINYILNLYNGIGHTDDIDNLSNRRVRGVGELLAMQIKSGLVKMEKMVKEKMTIQDIGALTPQSLLNTRPLNAMILDFFGSGQLSQFMDQSNPLAELTNKRRISALGPGGLSRERAGFEVRDVHDSHYGRICPIETPEGPNIGLIASLSTYAKVNKYGFLETPFIKVENGKALLDKIEYLAADEEEGMFIAQADTKFDENGEILSDEVVCRIEEEIVYIEKEKVNYLDVSPKQLVSVSAALIPFLEHDDANRALMGSNMQRQAVPLLRTEAPFIGTGIERKVAVDSGAVTITKSAGTVRYVDARRIEIETDDNRIEKYRLLNFERSNQDMCLHQKPLVDLGQKVEKGAVIADGPATAGGDLALGRNALIAFMPWEGYNYEDAILISERLVKEDVYTSIHIDEYEIQARSTKLGDEEITREVPNVGEETLKDLDERGIIRVGAKVTAGDILVGKTTPKGETEPAAEEKLLRAIFGEKARDVRDTSLKLPHGAKGTIVEVLELSRDKGDELPAGVNKVIRIYIAEKRKITVGDKVSGRHGNKGVISRILPVEDMPFLEDGTPVDVVLNPLGVPSRMNIGQVLETHLGLAAGRLGKYIATPVFDGATEEEIKEWLTEAGIDRSGKVDLIDGRTGEKFDNPVTVGYMYVLKLHHLVEDKMHARAIGPYSLVTQQPLGGKAQFGGQRLGEMEVWALEAYGASNILQEMLTVKSDDVNGRTKTYEAIIKGEPMPDPDIPESFKVLIKEFQSLGLDVQLYDTEGEVIPLDEDTIKDESIMEFSLADLKNEEE;locus_tag=LOCUS_18580;gene=rpoB;EC_number=2.7.7.6;note=WP_011015993.1 DNA-directed RNA polymerase subunit beta (Fusobacterium nucleatum) [pid:73.0%25%2C q_cov:99.2%25%2C s_cov:98.1%25%2C Eval:0.0e+00],MGA_1860
sequence1	MetaGeneAnnotator	CDS	2150776	2151144	.	-	0	ID=MGA_1861;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940187.1;translation=MAFNKEQFIEDLKSMTVLELAELVKLIEDEFGVSAAAPVAAAGAVAGAAVEEKTEFDVILKSAGAKKINVIKAVRAITGLGLKDAKALVDGAPATLKEAVSKDESEDIKKQLEEAGAEVEVK;locus_tag=LOCUS_18590;gene=rplL;note=WP_010940187.1 50S ribosomal protein L7/L12 (Desulfovibrio) [pid:60.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-34],MGA_1861
sequence1	MetaGeneAnnotator	CDS	2151173	2151679	.	-	0	ID=MGA_1862;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904072.1;translation=MANQKKVEAVKGLLEKIKKANAIVLVDYKGIKVSEDTEVRKNFREAEVEYIVAKNRLFKIALQEAGVEDSFDDVLEGTTAFAFSYGDVVAPAKIAYEFGKGKDIFNIKAGYIEGKRVELAEIEALAKLPSREGLLGQVAGSLMSIITKVAYAVNAVKESKEGQEEQAE;locus_tag=LOCUS_18600;gene=rplJ;note=WP_005904072.1 50S ribosomal protein L10 (Fusobacterium nucleatum) [pid:57.1%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:8.1e-48],MGA_1862
sequence1	MetaGeneAnnotator	CDS	2151956	2152663	.	-	0	ID=MGA_1863;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015994.1;translation=MAKAGKRFVEVSKKVDKSKLYSPEEGLKLVLDTKSAKFVETIEVALRLGVDPRHAEQQVRGTVVLPNGTGKTIKILALTQGDNVDKAKEAGADYVGSDEYVEKLQQGWLDFDLIIATPDMMPKLGRLGRVLGPKGLMPNPKSGTVTTDIANAVSEFKKGKLAFKVDKFGSIHVPIGKADFAEDKVVENFKTFMDTIVKMKPASSKGQYLRTVAVSLTMGPGIKIDPILVTKFVEA;locus_tag=LOCUS_18610;gene=rplA;note=WP_011015994.1 50S ribosomal protein L1 (Fusobacterium nucleatum) [pid:72.9%25%2C q_cov:97.4%25%2C s_cov:97.4%25%2C Eval:1.1e-96],MGA_1863
sequence1	MetaGeneAnnotator	CDS	2152715	2153140	.	-	0	ID=MGA_1864;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894933.1;translation=MAKEVIGKIKLQLSAGKANPAPPVGPALGQHGVNIMEFCKAFNAKTQDKAGFIIPVEISVYKDRSFSFILKTPPASDLLKKAAGIKKGSANSLTEKVAKISRAKVQEIAETKMPDLNAGTMEAAISIISGSARSMGIEIED;locus_tag=LOCUS_18620;gene=rplK;note=WP_005894933.1 50S ribosomal protein L11 (Fusobacterium) [pid:79.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-57],MGA_1864
sequence1	MetaGeneAnnotator	CDS	2153301	2153903	.	-	0	ID=MGA_1865;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904074.1;translation=MAESQNFVKKWYIIHTYSGYEKKVKTDLEKRVESLNFTDKVFRIIVPEEEKIEMVRGKKKKVARKLFPGYVMVEMLVKKEETLEGIGHKVDSDVWYVIRNTAGVTGFVGIGAEPIPLEDEEAVHLLRKIGIIEKSDKNKGTVIELPYKVNEKVKIIEGPFENSIGEVASIDYEHKKVKVMIDIFGRMTPTEVGFEGVDKL;locus_tag=LOCUS_18630;gene=nusG;note=WP_005904074.1 transcription termination/antitermination protein NusG (Fusobacterium nucleatum) [pid:54.9%25%2C q_cov:96.5%25%2C s_cov:97.4%25%2C Eval:1.8e-56],MGA_1865
sequence1	MetaGeneAnnotator	CDS	2153918	2154091	.	-	0	ID=MGA_1866;product=preprotein translocase subunit SecE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943499.1;translation=MKKFLTEVKGEFSKVSWPTVTEAKNATALVIALGVATSLYLGVFDVFFSKLLNFFIR;locus_tag=LOCUS_18640;gene=secE;note=WP_010943499.1 preprotein translocase subunit SecE (Geobacter sulfurreducens) [pid:47.3%25%2C q_cov:96.5%25%2C s_cov:90.2%25%2C Eval:6.2e-08],MGA_1866
sequence1	Aragorn:1.2.38	tRNA	2154124	2154199	.	-	.	ID=Aragorn_38;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00370;note=Aragorn_38
sequence1	MetaGeneAnnotator	CDS	2154212	2154361	.	-	0	ID=MGA_1867;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940181.1;translation=MRVNIQLECTECKRRNYSTEKNKKNTTGRLELKKYCKFCKTTTVHKETK;locus_tag=LOCUS_18650;gene=rpmG;note=WP_010940181.1 50S ribosomal protein L33 (Desulfovibrio) [pid:81.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-17],MGA_1867
sequence1	Barrnap:0.8	rRNA	2154551	2154658	.	-	.	ID=Barrnap_8;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00080;note=Barrnap_8
sequence1	Barrnap:0.8	rRNA	2154803	2157738	.	-	.	ID=Barrnap_9;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00090;note=Barrnap_9
sequence1	Barrnap:0.8	rRNA	2157847	2159362	.	-	.	ID=Barrnap_10;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00100;note=Barrnap_10
sequence1	MetaGeneAnnotator	CDS	2159764	2162040	.	-	0	ID=MGA_1868;product=5-methyltetrahydropteroyltriglutamate--homocysteine S-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002864555.1;translation=MVKISTIGFPRIGEKRELKKLVESYLKNEISQNELELKAKKLKERHWKIQKNNGIEFISSNDFSYYDTMLDTMILINAIPTQYKELGLNELDTYFAMAKGYQSGNKDVKALAMKKWFNTNYHYLVPELKKDMEIKLNGNKIFYEYLEAKKIGVDTKPVLIGPLTFLKLSKISSEESYDEYVQMLTSAYIEVIDKLNELGVEYLQIEEPILVTDLTEEDIKNFKLIYNEILKDESKLKIILQTYFGDVRDIYRELLDLNFYGIGLDFVEGEKNLELIDKYGFSENKTLFVGLVNGKNIWKNDYKKSIDILNKIKKYTLVINTSCSLLHVPYTLKSETKLAKKYKRYLAFAEEKLKELEELKELFCDENYKENSKFIQNQGIIKDKKELAEFQFEDVRNEVKVLKEEDFNRKEKFEERIIKQKEVLNLPKLPTTTIGSFPQTVEIRKIRRKYKNGDINSKEYEMYIKEKIKNVIQIQEEIDLDVLVHGEFERTDMVEYFGEYLEGFLITENGWVQSYGTRGVKPPIIFGDIKRKKAFTVDWISYAQSLTKKPLKGMLTGPITILNWSFPREDLPLEEIAYQIGLAIQEEVLDLERAGIKIIQIDEAALREKLPIRKKDWKEKYLDWAIKAFKVTNFKVDLKTQIHTHMCYSEFEDIISEIKSMDADVITIEAAKSDLSMLDVLAENNYDKEIGPGVYDIHSPRVPGIDEFKIVIKKIIEKNDLNKLWINPDCGLKTRAESEAIKSLKNMVASVKEIRKEI;locus_tag=LOCUS_18660;gene=metE;EC_number=2.1.1.14;note=WP_002864555.1 5-methyltetrahydropteroyltriglutamate--homocysteine S-methyltransferase (Campylobacter jejuni) [pid:54.9%25%2C q_cov:99.9%25%2C s_cov:100.0%25%2C Eval:1.5e-239],MGA_1868
sequence1	MetaGeneAnnotator	CDS	2162543	2163835	.	-	0	ID=MGA_1869;product=phosphopyruvate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015819.1;translation=MVTIIDEVYAREILDSRGNPTIEVDVYLSGGAMGRTAVPSGASTGVHEAVELRDGDKARYLGKGVLKAVENVNEIIAREVIGMDALDQVAIDKLMIELDGTPNKGKLGANAILGVSLAVARAAAAALGMPLYRYIGGTNAKELPVPMMNILNGGSHADSAVDVQEFMVMPVGAKSFREGLRMVAEIFHALGKILKANGDVTAVGNEGGYAPAKLNGAGEAIEIILEAVKAAGYEAGKDIKLALDTAASELYTEDGKYNFAREGVIRTTDELIDYYAELVEKYPIISIEDGLAEDDWDGWVKMTKKLGDKIQIVGDDLYVTNTERLSKGIELGATNSILIKLNQIGTLTETLNAIEMAKRSGQTAVVSHRSGETADSTIADLVVATNAGQIKSGSASRTDRMAKYNQLLRIEEELAENAEYNGEGVFYNIK;locus_tag=LOCUS_18670;gene=eno;EC_number=4.2.1.11;note=WP_011015819.1 phosphopyruvate hydratase (Fusobacterium nucleatum) [pid:74.6%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.9e-179],MGA_1869
sequence1	MetaGeneAnnotator	CDS	2164311	2165585	.	-	0	ID=MGA_1870;product=DUF4912 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011144136.1;translation=MKIENLKNLTKEELYELAREYQVKGRTEMTKEELFSALSSIILDEGKTQIEAEILDLGTPMVGGGSSDKVLPSSLDVSLANRTTGENIQTKKEEGLRSVFFDGDPLPEGYGDNKIVLMPKNPQWAYAYWEISQEVFDKTKQQYGEENIKASKPTIRMYDVTLKEFDGTNANNYFDVELPDGVREWFIGGLNPKATYIADIGLKTSNNEFITLSRSNSVGTPSNQISNVVDEEWMIVEEYFKKILDKSAAGRIVNGEWIGGMGASGAVLGSSEQMVALLLKKLFLEKGVRREKLIAHLENAMGSITAGSISAGSLSVGSLSAGSLSISQGEATKGNIEKDNGKNKDFWLKVGTELILYGATEPDAKLTVMGREVKLNSDGTFSCRYALPIGHYELPVVAVSADGDEVRRATPVVDRTKKKVDNEV;locus_tag=LOCUS_18680;note=WP_011144136.1 DUF4912 domain-containing protein (Gloeobacter violaceus) [pid:26.1%25%2C q_cov:95.8%25%2C s_cov:92.6%25%2C Eval:2.6e-35],MGA_1870
sequence1	MetaGeneAnnotator	CDS	2165750	2166826	.	-	0	ID=MGA_1871;product=[FeFe] hydrogenase H-cluster radical SAM maturase HydE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964939.1;translation=MSSVSNEKELGRNEILSFMKEENEEKLKELYKKAYKIKLDNVGDKVYYRGIIEFSNICQKNCNYCGIRKSNSDVHRFTMSEEEILESAKWSYENSYGSLVLQSGERQDEEYIEFVTGLIEKIKKLSNGELGITLSLGEQTFETYEKWYNAGAHRYLLRIETSNKELYNKLHPADHKFETRINCLKDLKKIGYQVGTGVMIGLPEQTEEDLVDDILFFKDMDIDMIGMGPYIVSEKTPIGEIAQNSKEIKKKRFELGLKMIALTRIYLKDINIAATTALQALNPVGREAGLKAGANIIMPVITHKNYRKDYQLYDNKPCIDDNAVECKACLENRIKGVGDKIGYGEWGDSLHYKNKKKM;locus_tag=LOCUS_18690;gene=hydE;note=WP_010964939.1 [FeFe] hydrogenase H-cluster radical SAM maturase HydE (Clostridium) [pid:47.5%25%2C q_cov:87.4%25%2C s_cov:86.0%25%2C Eval:5.1e-79],MGA_1871
sequence1	MetaGeneAnnotator	CDS	2166991	2167242	.	-	0	ID=MGA_1872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNWYPIISGKCTKCMACVVVCPLGLLVNENNQINLINSEKCPVGCTKCSDICTEKVINYFDGTDESIMKAFSGSSCSCGTH;locus_tag=LOCUS_18700;note=WP_004080188.1 4Fe-4S binding protein (Thermotoga maritima) [pid:46.8%25%2C q_cov:73.5%25%2C s_cov:88.6%25%2C Eval:1.1e-10%2C partial hit],MGA_1872
sequence1	MetaGeneAnnotator	CDS	2167567	2168958	.	-	0	ID=MGA_1873;product=coproporphyrinogen III oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015707.1;translation=MIKIIKSNFELKIAGIKEFIRILIPEAKDDNIEINLIKENKEIILELKKEDKKIKFSESNIDGFEEQKKIMAKSGLLKLYDKKYKWGSLTGVRLTKLVRKFMDKRFSIDKIKYLLEKIYLVSEDKIDLLLEIVETELKYLNRKAITVYIGIPYCPTKCTYCSFASYEKKGKMGERYGDFLEKLLEEIKIIGELTKELEVGIESIYIGGGTPAILSEYEMESLLKKVRENFDISNLKEFTFEAGRSDVLNEKKLEILKKYGVDRISLNPQTFNEDTLMKVNRVFNREKFDKMYEISKKIGLIINMDFIIGLPGETTEDILETIKNIKKYDMENLTIHMLALKKASKLYKKGHEIEELNGEKLEKALKEVLNEKKLAPYYMYRQKNSADWGENIGYSVKGKESVFNIQVIEENQTTIGIGGGAITKFVNGEDITRLINPKDPIIYIKEFDERLKNKVQKIKKELH;locus_tag=LOCUS_18710;note=WP_011015707.1 coproporphyrinogen III oxidase (Fusobacterium nucleatum) [pid:48.5%25%2C q_cov:98.9%25%2C s_cov:99.4%25%2C Eval:2.3e-125],MGA_1873
sequence1	MetaGeneAnnotator	CDS	2169167	2170510	.	+	0	ID=MGA_1874;product=IS3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_094396572.1;translation=MSNKIFTKKEIEILSKNKYVKTISSKAITYTSEFRRIFIAESQDKILPRAIFEKYGFDVQVLGMKRIRSAAARWRRAYKEQGVLGLDDRRKENSGRPLERELSLEEKYERLQVKNDYLQAEIDLLKKLDVREREVNGKLIELSPSEKFVIIKDVIETSGVKNIIKYLCEVAEISRTSYYNYLSETSKTNKSNQELEDEKARDLIIKAYEFKGRQKGARQIKMTLENEFATIFNLKKIRRIMKKYSIVCTIRKANPYKRIAKATKEHTTIPNKLNREFKQEIPGKILLTDITYLSYGNGQRAYLSTIKDSSTGEIPAYVLSKNIKLEIATETIRTLMENKSFKIHKDALIHSDQGVHYTSPTFQKLVKNSGLDQSMSRRGNCWDNAPQESFFGHFKDEANIKECNTFEELINEIDDYMDYYNNYRCQWGLKKMTPIKYRNHLLENKSA;locus_tag=LOCUS_18720;note=WP_094396572.1 IS3 family transposase (Bacillus cytotoxicus) [pid:59.7%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.4e-155],MGA_1874
sequence1	MetaGeneAnnotator	CDS	2170588	2173419	.	-	0	ID=MGA_1875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVSILITAFLVFTMGIYADWNQAYLKGSANSWQGTQMTYQGNHKWELEVTFANGDSGGGPRFKIDRYGDWAESYPAQDYTVDANKTYTIVFYDDTKAITATPKGNPVDAWYIRGSFNGWAADALTYNSTTGKWETSITTGAGDDGGGPRFKIDHYGDWTENYPTADYTLNANSDYLVAFDAGTKAITATEQVGPSWYFKGAANNFEKDILTNGEITVTFGADVAFSIVNDDESETYASSVPAGDKKYKITFNETTKAITATEQTTPEDGWFIRGSFNGWAADALTYNSTTGKWETSITTGAGDDGGGPRFKIDHYGDWTENYPTADYSLNANTNYLVAFDAGTKTITAAEQVGPSWYFKGAANNFGKDILTNGEITVTFGADVAFSIVNDDESETYASSVPAGDKEYKIIFNETTKEITATEIVPPVVDMRGRTIYFLMTDRFSDGDPSNNNGNNPAQYSADKSNWRKYFGGDIQGLINKLDYLKNMGITAVWVTPLVDNTDGVDETYDQVGYHGYWAKDFYEVDEHLGDWALVKELDKQMEKRGMKLVLDFALNHSNPAYTDEYGALYKDGVKLTDHPNDGPTRYFDMGGKQWAYGNYYHHNGGIDAAAGDWDIYPNYIVKDMYGLADFCHKSQLTKNYLIGAAEKWMDAGVDAFRLDAVKHIDGDFIKEFTTTLNDYAINTLHRTQGVYFFGEWYDAGAGNSASINFANSSGSAVLDFQMKYKIEGAIADDSTMKDLSNYVKQRANEFNSPDWQPTFMDNHDARRTATYLKYVKGWNDENYMKQRIDLGIELLEVLPGIPVVYYGTEQYTSNGNQEVVFGQVKTGEDPWNREMMPSFDTTTPLYGELGKLSNLRANSSAVQKGAYNEKWVNDDVLVFERVDGNDVVTVAVNRGAHTTLSVSGLAKSNGTYQSILGSDSVSVSNGSATFDLSTNEMVVLH;locus_tag=LOCUS_18730;note=WP_010922388.1 alpha-amylase AmyA (Streptococcus pyogenes) [pid:33.1%25%2C q_cov:54.2%25%2C s_cov:67.1%25%2C Eval:6.5e-67%2C partial hit],MGA_1875
sequence1	MetaGeneAnnotator	CDS	2174051	2178127	.	+	0	ID=MGA_1876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKMKLLLLLAILLSTLSFGEVAATHIYHNHMPNFWPFYDVETYNSTNVGDPVRYMYDGQVINAKINPPANWFFLPDGSATPHDDLVAYYTHHAKTGAYLSWPMDTANGNHDRYPKSQTQVTMSGAVITNVESFAELNNVSGYENDNWGQYWRDVHYGTRTTNGFPALDLIHFTGHHSMGPLVGKDFFLKDLIYQNVVLSRPYFLGDGFKSSKGYFPTELGFSERLIPTLAKLGVSWSVLGNVHYSRALKDYPYLNDPGKDCLVSPPNRADMRNTDTYGGSWVDRHMFNEQQTTYNKFPFASIPHYVRYIDPETGAESKIAGIPVEQAGSWEEGYQGSVSGGFLKQFEGNTNGREQYFVVAHDGDNSSGRAGDGGTWANSGNVTYAESGIEGIGVDEYLLAHPIPQDDIVHVQDGSWIDTRDSSSDPTWYHWHIPMGIWKGQFADFNRINGTNYSPKKNLDGVEEGHTVSFEYGYHYLERNFALLQAAENYAKTAEQIWLDSHPNYWHPTSQLDYEIVGANNTANQLNPYMYSFPVKGDSNNDYAGGANPAELGWYFLTASIDSGFGYYDENVDDGVKPTVSFDQSLYFSKPYVEANLANDKTGPSVWWPQRYPYNPGSANKSKAEGWTLQYFDNNFGIYTYAFDASGIQNIKVKIRTHSEKWADPKDRTYQVYDPQKLSNQGVPEINPANVGNWVEYPMTKRSLQDSINGVDWQPSGKEMMNIVSAQEIGDMYYSYIGDYRDQLIDYYIEATDSKGNITKSNIQQVYVGAGKYKNVDDKIIEDVNGTIEGTYPFVTNVSPERKIDLYVENIESNSVNVEYVKEDGSWSSMKLMDSVSADPKYKHTVITFRSENSSTKIRYTDNNGSSWKPSASGVDVSTGTYTIYSDNSIQAGAPSGISFTTTIYYKGALGTNIHWAPTDEAGTPIESEWTIAPGDPMETSDIYGYVSKTLNLGMHNKAMVCFNQSGSNWDSDHLFNSGTWTYEAGVITSGKPSEVINYPAIPSGVAGTALSISELKINWDSAQYATSYKLYMSSSTNGVFNEITDTTNLEYTVTGLNENTTYYFKAKSFNSNGESDYSNVISATTQKLNYPEIPSGVAGTALSTSELKISWDNAQYATSYKLYMSSSTNGVFNEITDTTNLEYTVTGLNENTTYYFKAKAFNSNGESDYSNVISATTQKQAVDGWFIRGSFNSWGTDALTFNSSNGKWEITITTGNGDSNGGPRFKIDHFGDWSENYPNDDYSLDTNSSYKIEFDASSKAITATLQGNPADNWYIRGSFNGWGTDALSFNSSTGKWEITVTTGNGDSNGGPRFKIDHFGDWSENYPNADYGLNSNSSYIIEFDASSKAITATLQ;locus_tag=LOCUS_18740;note=WP_011461023.1 cell wall-binding repeat-containing protein (Desulfitobacterium hafniense) [pid:27.1%25%2C q_cov:22.2%25%2C s_cov:41.5%25%2C Eval:1.6e-21%2C partial hit],MGA_1876
sequence1	MetaGeneAnnotator	CDS	2178186	2186291	.	-	0	ID=MGA_1877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILGILLFLSSVFSVNLLAVDTDITVKVDMSVLWGNDLPEKVYLFAYNADYSDVNGLTNQSGMPMKGYDKNLKGTVTEQNTAGALELTDVDGDGFYKGTMHYSGNGDTFHTRLYIRGDDPNNSLNTPKYEEYTGPNDNLKKITDTQDFRTVIIKNDGKVLIGTVTNQVELVDGNWETAWENKYIKKIYISEQNITVYKTFDKTIKIYASYNNADDTLRRNVAKYLNWSSSNENIATVSKGKVLGVGAGNAIIKLSRNVINKNINVTVKNIPEGDRRQVIVGKPDFEIVNGDYKIDGVNDYGGNVPYGVNIDENNYLQHFYNIDFWGTAKPFVKSNNFWEYNGGNSRSSILIFKQIDNNSDIETVKFYKKDDISKTLDMKIPVQIKGFEAVEKINSVSFKWNEDNNIRIKYLSTYKEQRIIFRISKIDTDVNKVEFMKGNPLKKIIDGGNLEDFIDNKINYVDFSFDYRTSNSIEINKIKGSYKLGEFELLGFPVGQYRIQLYTLKANDKYLVYTFDAETYFNMPSSNLSGNIRDNKFYINNINSDAFNTINVGFITKTKNDIKITKDDIYYKNNNEIAEENLDKNEKKIINSGNIFVAEDKRYKNIKKPLDVILCLDTSKSMEDKLEKVKQAWEYFEEDLRKNSEYDVKYKLYTFGTKGKDDVWTPSNDWEDNLDLSKINVGSSNLSKEPSDKAIDKAIIYMEKNARSLSSNLEVLDKPTGTIPSNRVIIFITDSNATGEKNSSDLAVRLRMNDIQLIGIGGVKKDKLMLKDDLDQEGEYPNNMSVENEQHYAHLKLIMGEQFKFYQIKNDLNILKLELHNTLNLFNFVKLWNLRYDSPYSVPDGSKRRVLFDIKVNNKYINYEGKDANREYVANLIGSTNREIDQWMISKAKKDITNGNYKIFDKFMDKNYYKKIKAINLKNGFNSLFETEYSYDDISNFELNDNNYGVKWEYKKNTPLTTQTAVMVAKVSSIGNSELDKIEDDLSTTKIATMSSTNKLELSTPTENSDKVTIGWQGDVPNPDEIYNNQKLVFRLEKATNTSNVITNYKWNVYKKENPLNIVDPTIIGGGGQDPQNKADNMIKNFYSETSNYVDFVFEKDGLKSFSAGGAIISFTPGSNLELIGLNLGDYLISVYTVKTGSDGNYKVITYGNTEKFHSDIPDIAQHPMTKNGLFRIDNIDISRFSKIKVNYSTMMPFSIKAPELSNLFVSTNTGITINLQEEHPTATKAIVVTQGALSISSLKVFKYPLDIVLCIDNSGSMQEEIDSVKDGLKGFVNTLTDNGFDVKFNLITFGPRQNTDSTTGIWHKKIEEFEDRYYLGVYKKDGWFGSLDGWNGLINAFENLNATSGFNYGQENSLWAIYYAIKKLKKNGRSIDANGNILNDNSGVIKSKKWIMFLTDENADLDDLPNDYKKKNVVSKLSKEISDNSIALTGIYHVDKKGLTNEIYWNGGVIPSKYSKLDIRKYKKYYRWFYYIHDDLGNRGMTPSDVGDLYYYKFKLSLGDGFHMYEMGNGRKDINGKTLVDKALVAATKDIGIVQRWSVTYDTPFSDKDGTVRKVDFKLINLKNEKDNKEILTPDDINTVSNRQYTAPKQPITLEILTPKNKKGFLTDGKGNVLIKFKANTTKASGTILDNKIDKFVVNINLQTNAMSEGENIYSKIIKDNIELKVEDGKKWYYFTLRVPVKTLMDKITVDKKLFKVSIVAQDTALNQMEKKVTGIKLDNQPPVVNDIIISNKDLKSNLVQSIKEIENKTSDSDDKWRKYFNIKSSKVKIRIVAEDRSQTGTGSGIKYFAVGLDKNIKRDIDWENKKDGNGSSITRVDWNNIYSGITGKITTFGAIRNICNDNSNFYEDGEHKLKFVLTDSVYNTTPIPDAEVEYVYDTKEPVINGIDTIWQEKGSSYKKVKTTTNGGIKYFLSSDKIKILLDATDKGSGIAQIKLKFIKDANEINTNWKTYKPTEGGYIDLPSGVTEGEYSIEAQVRDRASNESAWIEIIKNIIYDKTPPVINQINVKNINIYNLWNTDTGDTTIATNKSTFTSNTTNIVKIYGKTGNDIKITADVVEANLSQDNTLAKLGTTSKEWSSKTGGTDNNYTITWGNDTISSNNLKLVSGETKLIVTVEDLAGNKTSVEIPIVIDDTPPSNFTINTLNGVVYSTTAQAIRTKTPGFTINASADDESGVEGFVFWGNYDGSKSDLPRLDSAHIVNDDFKIYNISLTKNDNTYTGDLSEVYSPSDGYYQSKKVENTTENAFVAIDKAGNISYFNKKAELYVDTKPPSITSFSAIKVVDKNGFNPIINPKYVKAGDEIKLTADVAEYAVQTKTVDYLGLLNNTTMNTVYTGTISTTPSTIQIGDNNSTDTTHIKVTDSGVHTSQVVVITFTVTDMAGNSTTVTKHINLDNTSPTISGAIQAIPEEAVNGWPGDASDVIKSETDPAYTTNSSAYMGVLRNGATWSPDTTGFIGKANSTNPIGGVFVTTTSSISAFDNTYNAFEVSGLVDNQNNGNDVYVWAVDKAGNISASYIYDTIVVDTIVGSENPILIGSATIEPSSSTNNSYTYKMPIDLSVITEQAGVYKISGITLKGTTTDGITTSVAISINGGLEVSTTPSSTPVADSIIPEKFATFTLANNSRLFGQTVTFSIDVYDNLGNKATYTRKYLISKIIQTDIKAKSKNEKREINVNVETTGGSQITGREEAGGN;locus_tag=LOCUS_18750;note=MGA_1877
sequence1	MetaGeneAnnotator	CDS	2186288	2186791	.	-	0	ID=MGA_1878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLVYTTSVIIIVIGSYFYYSNYMISPEKKEMLKTIEKNKKIEKEAKKVYKKSLKEAEENYVKPLEKITITKDRIIKEKALVGKFWKIYNKKEKGDIYAYMSKIEEVSKDIKTPEEKKLIYPVLIEIYQMNDEFDKMKKTAEELKILKVDVNKMKAYKNTIGGDKK;locus_tag=LOCUS_18760;note=MGA_1878
sequence1	MetaGeneAnnotator	CDS	2187065	2188060	.	-	0	ID=MGA_1879;product=2-hydroxyacid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005795327.1;translation=MKIAFFDTKQYDENFFNNANKKYGFKLKYFKPHLSEDTVALSKGYDVVCVFVNDDINKNVINKLKENGVKLIALRCAGYNNVDLEAAKGKIKVVRVPSYSPYAVAEHTVALIMTLNRKIHKSYLRVREGNFTLNGLMGFDMHKKTAGIIGTGKIAKIVIKILNGFGMDVLAYDKYPDKKAEKELGFRYVTLKELYCKSDIISLHCPLTTETKYIINEESISNMKDGVMIINTGRGKLIDTKSIIKGLKTKKISAAGLDVYEEEDEYFFEDMSGEIITDDLLARLLTFNNVIVTSHQAFFTKEALYNITETTLGNIDSFFKGKIIENEIEYE;locus_tag=LOCUS_18770;note=WP_005795327.1 2-hydroxyacid dehydrogenase (Bacteroides) [pid:62.8%25%2C q_cov:98.8%25%2C s_cov:97.6%25%2C Eval:4.1e-112],MGA_1879
sequence1	MetaGeneAnnotator	CDS	2188223	2189707	.	+	0	ID=MGA_1880;product=4-alpha-glucanotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259705.1;translation=MFERSSGVLLHATSLPGKFGIGTLGKEAYQFVDFLIKSNQKLWQTYPLGPTGYGDSPYQCFSAFAGNPLLISLETVVEDGLLTNSDLETNEKFDESKVDFGKIINFKFPILKKAFDNFSNGSFELEKIKFETFVKKNSNWLDDFSLFMSLKEHFGGKPWIEWDNDIKLREENALRDYKNKLKNDIEFQNFIQYLFFKQWKKLKAYANQNYIKIVGDIPIFVAFDSADAWSNPDIFLFDEERKPVRVAGVPPDYFSATGQLWGNPLYNWDKLKETNFAWWIDRIKANLELSDIIRIDHFRGFAEYWAVPYGDKTAINGEWWPAPGKELFEAIEASLGSLPIIAEDLGLITPDVEELRDHFNLPGMKILQFAFDSSEENNYIPHSYNKNCVVYTGTHDNDTVAGWFEKASKDDKKYALDYFNSNGEDICWDFIRGAWASTAVIAITPLQDILRLGSFARINTPGVAAGNWQWRFKAEDITNEHISKLKHLTTIYGR;locus_tag=LOCUS_18780;gene=malQ;EC_number=2.4.1.25;note=WP_012259705.1 4-alpha-glucanotransferase (Chloroflexus aurantiacus) [pid:52.5%25%2C q_cov:99.6%25%2C s_cov:95.7%25%2C Eval:2.3e-155],MGA_1880
sequence1	MetaGeneAnnotator	CDS	2190058	2190804	.	-	0	ID=MGA_1881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLIVLLATIMFSTVAFGNGKRLKEKRINNKEMMNFELNDEQGMVGNGGPLLSVLFLDLSELNVKLKSAGFKELEGQKYGNYNVMYAFGGGGIGGTFKNRFGGYGATGRIMSIIGDKKVKLEIGYGGFVYEKGLFLIKSTGTNVSAGFLFGGGNATLTLIYDDIKNEFGEVIAAPHSNILTKEYLMFAPRLNIHQRIGSFISLDLSAEYMMNLDLQGKWQLDDEEIDGPLSNSQSPVFGARLSFGI;locus_tag=LOCUS_18790;note=MGA_1881
sequence1	MetaGeneAnnotator	CDS	2191199	2191867	.	-	0	ID=MGA_1882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQRVPETNHGITGEMLVQDYDEMQKKLCERGLLKTNEIIKSGIIEGEVLEIGPGPGYLGLEWLKKCSNASLSWLDISEDMIKLAKINAEKYGVKENLTIKMGDATEQLPFSDCFFDGVFTANSLHEWENPVNVINEIERVLKVGGNFFIGDLKRNTNPLIFLLMKANLKKQVMKQGLKSSINAAYTKNEILLLLKESNFKTYEVTENYFGLSIFGKKVDK;locus_tag=LOCUS_18800;note=WP_005111484.1 methyltransferase domain-containing protein (Mycobacteroides abscessus) [pid:31.4%25%2C q_cov:47.3%25%2C s_cov:53.9%25%2C Eval:5.9e-09%2C partial hit],MGA_1882
sequence1	MetaGeneAnnotator	CDS	2191974	2192399	.	-	0	ID=MGA_1883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFMEKIIKLIKEILLFMFIGIVIDGFYLIGVLSNYVEGKIIIISLLISGLIGIIIGYISKYVFIFVLRKTINMRLTIICEVILVMVLTSGVSYFSGGRDILNLLILPILGASFSGVIIYIFYSSFINMKLKDLQKKLKDI;locus_tag=LOCUS_18810;note=MGA_1883
sequence1	MetaGeneAnnotator	CDS	2192399	2192956	.	-	0	ID=MGA_1884;product=LytTR family DNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948329.1;translation=MKASLICEDKKFKIIKTLLEAKGIELDLNANTVFIDETINVEKDNKIYILFNSENLNQFLDFLDEFFCNNSNSNKDFIAGKDDEEIKLISLKKVQFFEADNNNIYCIVENEKKIYKIKEKLYELEEKLDSKEFMRVSKSNIVSIRNISQIIPWFDNKLIIKFEGTNKKVEVTRTYLKKFKKYLGV;locus_tag=LOCUS_18820;note=WP_011948329.1 LytTR family DNA-binding domain-containing protein (Clostridium botulinum) [pid:30.3%25%2C q_cov:76.8%25%2C s_cov:93.4%25%2C Eval:6.5e-07],MGA_1884
sequence1	MetaGeneAnnotator	CDS	2193214	2195571	.	-	0	ID=MGA_1885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKKIFNFVFSGFLIFSIFVLFFTTKIFQNNLLKTKYSAQKKIISKELNKKGVILNLIIDEIKNDEKVQLYFYNNQKKELFDYLNTQYDLNNLKIKYAISIIHFHTKDIKSFLRTNNYDKSGDDLSWRKTIVASNKNKKNIKGIEIGKSGLILRYVSPVYYDNKFIGTVEAGIQLNKKFLSNLENENILYQVYNWKNEKEDNMFYEDGNNKFENIFNLTQIKKYILDNNDKIFDKNFGFFKYINSNMYVANYLTDFNGKIIGAILTKEDISLLQNIFYEVIKNILYIGIFILLISIPIYIYIIKSILSKVLLIENISENIKMNNYNSISKINVNSNSKNELEKSSFKLKESILFLKNILMDIFSSFKKTILYINKFKRELLLNGDLMDDTINRLGETNNNINSINSSLEEIKLSEEKVSNGSFIVAESAQNISLSINELIETSNTSSKAINGINGQVKELKVFAENFKKQTNDLVIKANNIEEIITAINNITEQTNLLALNAAIEAARAGEAGKGFAVVANEIRTLAENSKKATNSIDDILKNIKAQISEVNKNGNQIGMSVTKSEENIEKVVAGSYNIDKKIEDISEEINNLTAISEEQSSFNTEIVNVLKDTTTKIFNTNDNIKQIFTEFKSIKNYINTTIDNTIDESNELNVSFSKLLNNFNLYSIKDIKNFLKEMKKAHITYVEKLGVQVKKHLIEEYLEENEYQCSFGITYYSTKPPIEIKELWEKILVPHKNIHNNTKSIYEQLKKNNFEKAMELYQDTLANKEIVLNLIDEIMKILD;locus_tag=LOCUS_18830;note=WP_004080235.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:28.8%25%2C q_cov:34.4%25%2C s_cov:50.8%25%2C Eval:2.3e-25%2C partial hit],MGA_1885
sequence1	MetaGeneAnnotator	CDS	2195655	2196857	.	-	0	ID=MGA_1886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIFYVIMFFTIYSFLGWILEVVYRSYRQKRFVNAGFLMGPFTPIYGIGALTVVWINNSLNNGKFDNIALKSLIFFIILTIIEYIVGELLEMIYKVKLWDYSKDRFNIGGKVCLKFSLAWMVLAIIFNYEIHPFFKKILYKQNPEILEGISVMMILYFITDLIISSNALSRFKRKILFFKENHENLNNLEIEKIFLSTIRLTKAFPNLSGFIYKNISDSLSQRVGKIISLINSKKIEYEKGKTPSEEEYYNIVKDIIENKEFLKLKNFYHHNSSIYKHVLEVSYLSYKISKYIGADYKSTARGGLLHDFFLYDWRNHSEPDLAKNKLHGFAHPKIALKNSEKNFKLNKIEKDIIIKHMWPLTIIPPRYKESFIVTFVDKYLATKEFATSFTGKLKNILD;locus_tag=LOCUS_18840;note=WP_002262552.1 HD domain-containing protein (Streptococcus mutans) [pid:52.7%25%2C q_cov:36.8%25%2C s_cov:85.6%25%2C Eval:2.8e-36%2C partial hit],MGA_1886
sequence1	MetaGeneAnnotator	CDS	2197141	2199933	.	-	0	ID=MGA_1887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRIIILLGTLVLMLNLGGCFSSTTPETEEKNIEKSIVITSDKLEIEANGVEKTTLKAIEKDGNGVEKEITTDIAYYVNGESITGNVFTTTKEGEYSIKAKYKDLESNILKIKAVKTPVKISDKAVVLDEDTKNKIDEVDIDNNKIIFSVGEEIPYKKDDIIVSGVSDKFPKGLLVKVDSIIEKNGKKEIIFKPAKITDVVEQAKVNKKIKLTKNDIKRVSTNYRGIKISRVDEARDMVCQINTVVYDEDNDENTTDDQIKLEGELSIDPGIDFDIDISGFTIKEFGFGVDSNISGNLKITGNLHKTWDKEVKLISYSFMPFNIFIGNVPIVITPSMYLVVGSNGEINGKFKYSLSEQATAEVKISYSNGEWGGKRELNNNFDFSQPEIEANAKFKMYTGAKFEVALYTNAVLAGTGKVLLYFRGEADIDKNPWWNVYGGIEAIIGFNGLGLDGYEYTMPIYEKKIVSAEYFNDGDGEYKPEEVPELEKGWIKKYKFYGNIPTMDEILSGAEMPENPIMLMGYYDYKDIVTNGENGFMALASAPFQFSMLTNYDKDGNIIFNKFAKVKVEGEKLTLFLNKIKKISDGYIVAGITGEGVIIAKLNENGESVWGKVLNVDVGGLTLETHLAKITQDKFIVSFGGSFMIVNSNGVIEKKEKMTYNVFPDQEGEEGVFVDIIGAAPVKDGYVVIGNVNRGVFIPQGVMIKYDENWNKVWDKYIIIDNLDDDQEALATRFDSIVTSEDEGFYISGWAEKGGFIAKFSQNGDLKWNRVMNEIDYPFTDLEVVADVGVIGMAKVLIDEGYATDFIKFSSDGVYGWSKRVTGEGESVEFNGVFKRDDNKMLYAAGAIGEVDSNGYKSKNPALLSVTPTGEIELKTTTLKAENFINSVLTNVGIISDVGTYEISDLNVEEKDAELIMQDCKEEFIDRY;locus_tag=LOCUS_18850;note=MGA_1887
sequence1	MetaGeneAnnotator	CDS	2200185	2201504	.	+	0	ID=MGA_1888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDGRYYTPYMFFAILILTFSSILLTLSTVFFYIRRKKKLINNSLIIILILNYIFVISLFLDKVIFSLKISFYLKNIIYYTYFCILNYFDFYILIFLKERIKKDNKYLSAIFFFITIFTFTLTTLNFILNIKYKILFYPIYFNKIVFSNLFYIIFYLNIFTLFISSMYKIIKYKPNIYFIKANLLIIFTIFIEIFLLFFINIHIFNIELFYYYIPISIFTLIYVGLKFMPDYYIPELFSNTIYKLNELIIITDIDGKILFKNHNFFIIDIKSIDFIYNNNIISIFNNFNVTTLTKESNSQENIFKIFLNNKEYYLSYVKDKIKKNSNYFFIYKIKDISSFYSTLMELDKKNTSLKYINFQLTKYSDKNKEYNYENRKKELLNNIQNSLGHNIIELVKLLESYNIIKGNSNKKYSILTKSINKSRKILTDIRNTVNNFKK;locus_tag=LOCUS_18860;note=MGA_1888
sequence1	MetaGeneAnnotator	CDS	2201523	2202167	.	+	0	ID=MGA_1889;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966222.1;translation=MINIIIADDQILLAESLKLILETDKELKVNAIVENGILAIKKVEASKPDVILLDINMPKLNGIETAKKIKKISPNTKILMLTTFENRENIIDSFVSGADGYIVKDISPEELIAAVKFTYKGLHITHSSVHKILIDEFLKLKSRKNILDSNSSQLTETDLDIIKLIAQGKSNKEISKSLYFAEGTIKNKISSILNKLDLRDRTQIAIFAIENNLI;locus_tag=LOCUS_18870;note=WP_010966222.1 response regulator transcription factor (Clostridium) [pid:42.3%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:4.9e-42],MGA_1889
sequence1	MetaGeneAnnotator	CDS	2202278	2203990	.	+	0	ID=MGA_1890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYNLKLEIFYIEFWHILFITLSLGAIFYLYLKSKKSKLLYSFIYLQLLIIVWMIAKILKTVSYNVNLRWFFIVMQYFAVSFIGVAFLEFAYIYLHKKIIKKKLRLFIYIFPILQIITVITNPWHHLFYKTFTFYSDSFGILFYLYLFIEYLMIFIGIFWCAKKLKNSFYTKTKKELYLISTAILFPFLFNFIYISGLLKNFFYKLNIRFVFDITPLSFTISLLIFVYIIFNYEFLDVIPILKENIIKYVDSAIILTDKNFQIIEINNSAKELFDIYNVKIDNFRELYFKMFDKNPKLDEVNVQFTELNINNKKIYFEVKSLSILDNSKNSIGTIFNITDTTDLNNLKSDLELKNKTILASNKQLKQRILLSQKISEIKVSNLVARELHDILGHSLTLVINLLESSKIYFNKNRELSNNLINESIKILNLGYNDLKKSLNNKVTKEKNSDDLKEELLLLINRFKQAGLNIKFSISGENTLFCNKKYTFIKKICQEALTNSLKYSDTKAVFLSVKFKNKKSQINIIDSGKGCDNIIKGTGLNSMEYRVKEFNGTFNYTSEKNQGFIIYAEL;locus_tag=LOCUS_18880;note=WP_010964763.1 sensor histidine kinase (Clostridium acetobutylicum) [pid:24.4%25%2C q_cov:58.9%25%2C s_cov:75.5%25%2C Eval:1.4e-21%2C partial hit],MGA_1890
sequence1	MetaGeneAnnotator	CDS	2204036	2205259	.	-	0	ID=MGA_1891;product=bifunctional 3%2C4-dihydroxy-2-butanone-4-phosphate synthase/GTP cyclohydrolase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546813.1;translation=MLNKIEEALEDIKNGKMVIVVDDENRENEGDLIAAGEKVTPEMINFMAKFGRGLICAPITEDRAKELRLNLMTSENTDMFGTAFTISVDAKEGATTGISAGDRAKVVFDLADESKKAEDFRRPGHIFPLIAKKGGVLNRAGHTETAVDLAKMAGLKPVGVICEILKEDGTMARLPELREFAKKHDLKIISIEKLIEYRNKTEKLVRRVSEAKMPTDYGIFKIYAYENDIDGKEHVALIKGDVEGKENVLVRVHSECLTGDVFGSRRCDCGDQLHTAMKMVEEKGEGVILYLRQEGRGIGLTNKIHAYHLQDKGYDTVEANEKLGFKDDLRDYGVGAQILADIGMKSIRLLTNNPRKIVGLEGYGLKITERVPIKMEPKVENRFYLETKEEKLGHILNLKDENKKSEK;locus_tag=LOCUS_18890;EC_number=3.5.4.25%3B 4.1.99.12;note=WP_012546813.1 bifunctional 3%2C4-dihydroxy-2-butanone-4-phosphate synthase/GTP cyclohydrolase II (Thermodesulfovibrio sp. Kuro-1) [pid:65.5%25%2C q_cov:96.8%25%2C s_cov:96.8%25%2C Eval:5.4e-152],MGA_1891
sequence1	MetaGeneAnnotator	CDS	2205921	2206256	.	+	0	ID=MGA_1892;product=zinc ribbon domain-containing protein YjdM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989439.1;translation=MNNLPNCPECNSEYTYSDGNLFICPECGYEWTPESENESNEKVFRDANGNILNDGDTVALIKDLKIKGSSTVIKIGTKVRNIRLVDGDHNIDCKVNGVGAMKLKSEFVKKI;locus_tag=LOCUS_18900;note=WP_010989439.1 zinc ribbon domain-containing protein YjdM (Listeria monocytogenes) [pid:70.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-44],MGA_1892
sequence1	MetaGeneAnnotator	CDS	2206520	2207737	.	-	0	ID=MGA_1893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLLISLGLLFTQGVFANQLETTGYLQNYTGVLLQNGDYSILQNSFNLNLDYSGDKGKLHINPILYNYNSESNIDLKLKEGYIDLYFENFDLRIGKQQIIFGKADGVFITDVISPKDLTEFILPDFDEIRIGVNAAKLDYYFGDTTVETVFIPDFQGDILPASNSIWAIKKPQEFENATMDLSKMSMKNNLKNSSFAIKISSINDFLDYELISGYLWNSTPVNNISKGSSGLVVQPEYYRNKIIGGSFSKSVAGLILRGEGALYIDKALQTKNILNEGVVKKNDLNYMIGIDYNILGVNLSNQIIQEYILDYKDEDEVMQDKLKTTLTLNINDKFLRDTLFCQLFAYYNVETKDALIKTKVDYSLFDGFNIIGGGDIFVGDSGPFGQFDNNDMIYTKVKYSF;locus_tag=LOCUS_18910;note=MGA_1893
sequence1	MetaGeneAnnotator	CDS	2207737	2208522	.	-	0	ID=MGA_1894;product=outer membrane lipoprotein-sorting protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679769.1;translation=MKKLIKTVIIMGMMVILGSYSFAFDMTGLEVMEKVYNRDTGNSQTSKMTMTLENRYGDKRIRKISQFSKDFGKVTKKIMFFTAPSDIKNTSFMNWSYDDENKNDEQWIYLPAIKRIKAISSDSKSDYFMGSDFTYDDLGDRKPKEDNHKIIKMEKLNGENCYVIESITKDEDYMYSKVISWVIKDKWIGLKREFYDEDGELLKTLEIKKIDEIDGILTVMKSVMTNIQNNHKTTISLKDVKHNTNISDRQFTERMMKRGVR;locus_tag=LOCUS_18920;note=WP_002679769.1 outer membrane lipoprotein-sorting protein (Treponema denticola) [pid:39.8%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:2.0e-57],MGA_1894
sequence1	MetaGeneAnnotator	CDS	2208564	2210876	.	-	0	ID=MGA_1895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKLLKKIYKHPIIIFIVMILLTVGSLKAIKSNGRLETNLDEYMPKDNPAFVYSDKAEEWFNIKDGVIIAIENKNGVINSETLQKVKDITKALQKYPKIKKADVVSLYTAENIVGDEYGMEVNSFFKRVPKTESKLEKLKENVKNNNMIFGKLVSKNYNSTLIIAELDKDIFSQKMYKDLKDMASKYNTGSDKIYIAGRPVIEGSLALLAPKDMKKMIPIVILVIIIVLYLTLRTIKGTIITLLIVLFSAIWAFGLMTYLKIPIYSISTMIPVMLIAIGVADGIHIFSHIKHYTKESNEKDNKLKKEIVIEKVLSELYKPVIMTSITTAVGFLSLLTSQVYPVKYFGIFTAFGVLFAMVLSLMFLPASVFLFGLPHLTKKEKSGKAEIAENSFMDNITEKILKSKLYIVGLTVIIVVISIYGMSKIWVDSSFLSKFEKNSNIVKADTFINNNFGGTTKLNIIFEGKENDFKNPEILKKIDDLQAKIEKIDGVGATFSLTDYLKRMNLVMNGDKEGYYTIPSSRDLIAQYLLLYSMSGDPENLNKVIDYNYKKLNMQLQLKSDNSKLIRKVIDVVKNNKNEFKGIKINYAGSAYKSLVFTDLILEGQIQSLGLSLILIGVLIAFMFKSVVAGFIGIIPIALTALTTFGVMGFLKIPLSSTTALLSSISIGIGVDYAIHFIDRYKMRAAGDGNEIEIAKHTMEEAGKAIFFNAVVVILGFSVLMFSVFPPNRELGALISFNMFVAFVSTLTIMLIAINTIKPKFIFKDKKEK;locus_tag=LOCUS_18930;note=WP_014208107.1 outer membrane lipoprotein-sorting protein (Acinetobacter pittii) [pid:27.0%25%2C q_cov:96.9%25%2C s_cov:60.8%25%2C Eval:5.6e-77%2C partial hit],frameshifted%2C insertion/deletion at around 2210850,MGA_1895
sequence1	MetaGeneAnnotator	CDS	2211096	2211749	.	-	0	ID=MGA_1896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAENFSLENFFDNKNLEDKKIYFKKKRLVKGEIIYNQGEKCTVLTIMVKGKLDIVKYFSSGKEQKIGTVNEGEMFGGVLLFNEDLYPANIIAEENCEIYELSKEQLLISFENKQFLVNFLKEMSKKMVNLSNLIEILSYSKMVERVAKYILMIYEKSNGGKIIKIKTKTEIARALGSSREVVSRAFKKLKDEKIIKEENSVIEILSLEKLEEVIL;locus_tag=LOCUS_18940;note=MGA_1896
sequence1	MetaGeneAnnotator	CDS	2211761	2212225	.	-	0	ID=MGA_1897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVILLMLLIFSFVIFAEDSDNINIIKGVVLEQNNNILKVSIKGKESETVKEIAFVIGPRWFVDYNEIEFKKGENIEIEYSVYNKINHIRKVKIILGKDKIKRYSFINDKDEFLWMRHGFNDFGSGRNRAMRTQNRNHGNGKNGNWNGRGKRR;locus_tag=LOCUS_18950;note=MGA_1897
sequence1	MetaGeneAnnotator	CDS	2212265	2213590	.	-	0	ID=MGA_1898;product=sigma-54 dependent transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002675346.1;translation=MWKILIVDDEEVQLDILKDILELEGYEVYTANRVKAGIDLSKKERVDLIISDYKMPDLTGEDFLDEINRLKLDISFILLTAYGTVETAVRCMKKGAYGFLTKPVNIEELKETIKKALETKKVKIENRNLKDIIKENSAKTNLIYQSKKMENVENIIKKVADLDVPVLIEGETGTGKEVVAKAVHNSGNRENEPFIAVNVATLPDNLVESELFGHKKGSFTGAINDKKGKFELAGEGTIFLDEIGEMNIELQAKLLRVLQEKEIEKVGGGNPIKINCRVIAATNRNLEDEIKKGNFREDLYYRLNLVKIILPPLRERDGDIELLIKYFIDKYSKKYKVTEEEARNYEGKLIEKYKKYQFPGNVRELENLVERFLIMPDMEIEIKKSENKKDVEDCYVGKTLNEIEKEAILKTLEHCNGNKTQAAKILGISSRGIRYKLKDWE;locus_tag=LOCUS_18960;note=WP_002675346.1 sigma-54 dependent transcriptional regulator (Treponema) [pid:44.3%25%2C q_cov:99.8%25%2C s_cov:93.9%25%2C Eval:3.9e-103],MGA_1898
sequence1	MetaGeneAnnotator	CDS	2213593	2215050	.	-	0	ID=MGA_1899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYINKLRKNTIFLIIIGISIIYGVYNINAYAEKKVYLEYKIKIKTKKLSNTVKILLDESIEKYFYIEEIFYEKIFLDFKYTKFSKNNSVKLDKNFKIIFGDNKIPIFKDRLKEILDNGILVVEYYNDSSSIYLAGEKGDYIIIKRYPKPQELIKNISLNKILSNIIKGGETKKIEILDNSNKIFIKIGNVDKNLKIIKTISNLKIDDKLNNLIYNYKMVLYMNFTNDYKEINRGLINLIFNLFVIIVVVIFMVIYNIHQKRLLEAQNYIKEKEKDILLGGMASMVAHEIRNPINTINYSIEYLKKIAENEKIKKYIEIMSKEVFRINRIIEEFLALRKNLNLNKKELNLNELIKEIYEFMKPQFEEKEVNVIFENRENLIVIGDKDKLKEVLINLIRNSLEALDKRDFKEVKIKVDKKGILIKDNGIGMDKEELENLFKLYYTTKSMGNGIGMFVVKKIIDAHNWGIDVKSEKNIGTEIFIEVK;locus_tag=LOCUS_18970;note=WP_012544939.1 PAS domain S-box protein (Thermodesulfovibrio yellowstonii) [pid:35.5%25%2C q_cov:44.9%25%2C s_cov:26.4%25%2C Eval:5.2e-27%2C partial hit],MGA_1899
sequence1	MetaGeneAnnotator	CDS	2215564	2216061	.	-	0	ID=MGA_1900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKEVYLKWNWTLMILFLLLAIINPLFGLAALLCMIPAVYMSIKDKKKTFCAFYCPRGNFLTKILQKISLNKKAPKFFQSRKFKALFFTLMFGFFIYSLTKTGGDLLKIGFVFFRFILTSTIVGTILGVFFKPRTWCQVCPFGYMTELTAQPKRTFKKIFFYI;locus_tag=LOCUS_18980;note=WP_193589510.1 4Fe-4S binding protein (Methanosarcina acetivorans) [pid:32.8%25%2C q_cov:79.4%25%2C s_cov:66.3%25%2C Eval:3.6e-13%2C partial hit],MGA_1900
sequence1	MetaGeneAnnotator	CDS	2216184	2216696	.	-	0	ID=MGA_1901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGLVLGLGAMMIIGSLVMADEGTTTTTAKATTVWQRGTGKQNPNGQGRNFVDKNGDGINDNFVDANGDGINDNRPAYGRGYGRNRVNTTNSAVTVWQRGTGRANPNGQGRNFVDKNGDGINDNFVDANGDGINDNRPAYGKGNSGRKNMRRNNRNKGNRGQRQGRGRR;locus_tag=LOCUS_18990;note=MGA_1901
sequence1	MetaGeneAnnotator	CDS	2217108	2218454	.	-	0	ID=MGA_1902;product=alpha-amylase family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965974.1;translation=MNLANEKMFYHIYPLGFCGAPERNDFQSNPTERLYKIIDWIPHMKFLGVNALYLGPIFESFEHGYDTVDYYKVDRRLGNNEMFKGVVRALHDNGIEVVLDGVFNHVGREHFTFKDLQWNGQNSKYKDWFSGVDFSRRSPYNDNFTYNTWDGNYNLVKLNLKNPEVVEYLLNAAKYWIDEFDIDGIRLDAADTLDFDFMRKLSETVKNRKQNFWLMGEVVHGDYSRWIKEGKLDSTTNYECYKGLYSSHNDKNYFEIAHSLKRQFSKGGIYQDIAMYNFADNHDVERVATTIKKKEDLYTLYTMLYIMPGIPSIYYGSEWEIEGKKWNGSDRELRPDLDINYMNSNKSANMVNHISKLSQIRKSSQAIKYGNYEEIFVKQEQFGFKREYNGEMVIAIFNSSENEVNLKEHNIPAGRYIDVLNDNNEVDLYNNREIKLYSNWGRILKRIG;locus_tag=LOCUS_19000;note=WP_010965974.1 alpha-amylase family glycosyl hydrolase (Clostridium) [pid:52.2%25%2C q_cov:96.4%25%2C s_cov:94.2%25%2C Eval:3.5e-131],MGA_1902
sequence1	MetaGeneAnnotator	CDS	2218538	2219110	.	-	0	ID=MGA_1903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKEELMKFALELFAKEGYDNVGVQKIVDSAGVKKPTLYHYFRSKEGLINAILTEKFLPFLDELAKISDYKGDIVLTLEKIMFCYFKFAKENSDFYRLILNHAYSPEKSQTYKSTMEYHTKQHMLIEKMFLEAEKQHGNMRGRSRMYTFSFMGMINSGISYYFYTKDEKDISEESARQLCRQFMYGIFS;locus_tag=LOCUS_19010;note=WP_030868049.1 TetR/AcrR family transcriptional regulator (Streptomyces) [pid:32.8%25%2C q_cov:65.8%25%2C s_cov:65.0%25%2C Eval:1.1e-09%2C partial hit],MGA_1903
sequence1	MetaGeneAnnotator	CDS	2219368	2220633	.	-	0	ID=MGA_1904;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000157713.1;translation=MQFINLSGNKNKILLLLGKIISLFGTNIFNFALSYYILKITGSPLSFGLSLIVTYLPRIFFSSIIGTLVDRINKRWMLAISDFLSFFILSFFYFTVNLFGVKIEFIYITMFLLSTTSIFFNILFDSSLKELISNNEIKELYSLNETINSLTYILSPLIGGVIYYIVDIKIFIFINGISFLLSGISELFLRYNKIVSNLEKKKDKFFSELILGFADIKNDKKILTLFLSFVLFNFFFNFGYLIPVPYIIINLKGYSSVEFGILRTFFSIGALFGSIIVNKKKLKVEYPYKSTILMAFFLLVIGVITIVNIKAKILVFSLFLIDMFFFGLFMIISNIKLMILFQDIIPDNKKGKILGVITMGGSILSPLAVYLSSSIIEKYAINFLPLISGMVLIVSVVIFMIKWEKIENRKISELENENAMN;locus_tag=LOCUS_19020;note=WP_000157713.1 MFS transporter (Bacillus cereus group) [pid:30.0%25%2C q_cov:90.5%25%2C s_cov:89.9%25%2C Eval:3.8e-55],MGA_1904
sequence1	MetaGeneAnnotator	CDS	2220906	2221568	.	-	0	ID=MGA_1905;product=dTMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978438.1;translation=MKKPYVISFSGIDGSGKTTQMNNLYEYLSNKGFKVKTTKVQFSALEVIYEYCDRYFGDPCAYHELPPFIVRIGLAYDVTHHYLKIMKEVSEYDFLLCDRHKIDFIAYGMGYGCTKEEMEWVEKILSLVEEPNLIFYFDTELSLSQERILTRKEKEHRIDENIDILTKVRNMFEKIITNKENIQRINANNSKNEVFNEIKERFNSLFTIANNVDKIHFKEY;locus_tag=LOCUS_19030;gene=tmk;EC_number=2.7.4.9;note=WP_010978438.1 dTMP kinase (Sulfurisphaera tokodaii) [pid:29.6%25%2C q_cov:76.8%25%2C s_cov:80.5%25%2C Eval:1.8e-10],MGA_1905
sequence1	MetaGeneAnnotator	CDS	2222388	2223740	.	+	0	ID=MGA_1906;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259421.1;translation=MSVNKVVAIIGGGAGGMTTAAQLKKYDSSIDVVVFEKSSYVAWAGCPTPYFIANELPFGSVAHYTPEHFRNIKGIQIYDNHEVEKINFDSNSLIVKGEQFNGEFKYDELVISTGGTPFTPPIKGYSKDIKGIFRLSHAVDAINIKKYIENDKPKKGVIIGSGFIGIEMAESLSLNSIETVVVEKIDRIFPMFSKKLLAPVYKKFEEKNIKLILNNSVDEIFSENGKVTGVKLNDGSTIDADIIMMTIGTRPNTELIEKSGFQLNENSRVYVDEHLKTYIPNVYALGDMIFTDNIITGKKVYAPFGDVADKQGIVVASNITGTPMKWKGVMGTFATSFFDVRLSKTGLTLEEAKENGFNAGSVSLKAFTKVPGFADSRANSIEVVYDKDSETILGAFMVGYEAVAQFIDQFAIAIKFKLNLEDLFDVDYAYSPTNSTVWNPFLAAFRKILR;locus_tag=LOCUS_19040;note=WP_012259421.1 FAD-dependent oxidoreductase (Chloroflexus aurantiacus) [pid:32.6%25%2C q_cov:96.0%25%2C s_cov:96.4%25%2C Eval:5.0e-69],MGA_1906
sequence1	MetaGeneAnnotator	CDS	2223966	2224652	.	-	0	ID=MGA_1907;product=DUF2161 domain-containing phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966295.1;translation=MKKIKETDLYKPIYDYMAKNGYNVKSEVKDCDVVAIKDDNLIIIELKKSINLTLLVQAVERQRRADSVYIAVPRPENLPKNWKDIVRLLKKLELGLIFVVFLKKDTRVDIIFHPNEYVERKSKKQRFAIIEEIKGRTGNRNIGGSRRTAIMTAYKEQNIFIACCLEKNGPLSAKELKKIGTGEKTSSILIKNFYGWFDRVERGVYKLNDKGKEEMGKYPDIVEYYKNN;locus_tag=LOCUS_19050;note=WP_010966295.1 DUF2161 domain-containing phosphodiesterase (Clostridium) [pid:51.5%25%2C q_cov:96.5%25%2C s_cov:93.8%25%2C Eval:8.0e-57],MGA_1907
sequence1	MetaGeneAnnotator	CDS	2224674	2225516	.	-	0	ID=MGA_1908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNFKRLAKFKKIERKRLYEILEKAKEGDKESKIFDIFMMILISLNVLAVILETVNSLVTKYGKVFLYFEFISVIIFSVEYILRIWVCVEDDKYKKEKNKFKARIKFILSPLSIIDLLAILPFYLPVLIPFDLRIMRAVRLFRLIRLLKVGRYSKAVTTFYKIIKKKREELLISLFIVIVLLIITSSLMYYIENGAQPEAFSSIPAAMWWGIATLTTVGYGDIYPITALGKFLGAIISILGIGLFALPTGILASAFTEEIAIEKEKKMKCPYCGKDIDLD;locus_tag=LOCUS_19060;note=WP_014207107.1 ion transporter (Acinetobacter pittii) [pid:44.6%25%2C q_cov:85.7%25%2C s_cov:71.6%25%2C Eval:7.7e-50%2C partial hit],MGA_1908
sequence1	MetaGeneAnnotator	CDS	2226006	2228387	.	-	0	ID=MGA_1909;product=phenylalanine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016058.1;translation=MLISLEWLSQYIDINENIMELENALTMIGQEVEAIEEQGKFLDNVVVGKIVELTKHPDSEKLTYCKVDVGDKILPIICGAKNHKNGDKVAVAKVGAILPGEFKIKKAKIRGVESEGMLCSEKELGLSESHEGIMILEENAKVGENLKEHLKENDIVFELEITPNRPDCLSHIGIARELGAYYGRKVKYPEIKIEENSEKASDYIDVDIVDSEKCKRYAACVIKDVKIGESPNWLKKRLNAIGIRSINNVVDVSNYILMEYGHPIHAFDYDKIEGKKIVVRAANENEKIVTLDNVERELDSSMLVIADTKKAVAIAGVMGGLNSEITNETKDLLIEIAYFKPENIRKTSKKLGLASDASYRYERGIDIEDTETVAKRAAQLIQSVAGGEIVQGIVDKYIEKPETKEIMLNINKLSKFLGKDIEKSRIVEILKNLELEVEDLGDDLKVIPTSFRGDLERAADLYEEVLRIYGFENIQSIMPTENIKPGKIDSNIALAMKYKKYLSEIGLQEVINYSFIPEAGLNKIYNEAETVKIKNPINEDMAILRPTLAYSFLTNIKDNLNRNISDLKIFEVSKLFFKSEEKLPIETLKFGVALSGKNNKNLWDAKPNNYDFYDLKGYVESFFEILNFKNYTLKRSESKMFHPGRSVDLYVGRDLIGSYGEIHINVLENMGIKERVYIAEFDIEKIEKYSKKKTGYKKIVKYPAIQRDLAIVAPEDVLVGDLLKVIEKGGKIVEKVELFDVYKGEQVEKGFKSIAISVTFRSETDTLKDEEVDKVLKKILGNIEKRFNGKLRS;locus_tag=LOCUS_19070;gene=pheT;EC_number=6.1.1.20;note=WP_011016058.1 phenylalanine--tRNA ligase subunit beta (Fusobacterium nucleatum) [pid:52.4%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:1.3e-246],MGA_1909
sequence1	MetaGeneAnnotator	CDS	2228542	2229558	.	-	0	ID=MGA_1910;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895121.1;translation=MKEKIIELKEKAKDNIEKIANLKEFEDIKIKLMGKKGEFTQILKGMKEVSKEDRPIIGQIVNETRNFLNGKLEEKFNILKEKEKEEKLKKEVIDITLPGKKVAAGRLHPITETTEFLKEIFIEMGFDISDGPEVELDYYNFTALNIPETHPSRDLQDTFYIEDDVVLRTQTSPVQIRYMKEHKPPLRMICPGKVYRSDYDISHTPMFHQMEGLMVGENISFANLKAILEEFVIRAFGERKTRFRPHFFPFTEPSAEMDVECVVCGGKGCRVCKGSGWLEIMGCGMVDPKVLEEVGYDSTKYSGFAFGVGIERVAMLRKGIDDLRAFFENDMRFLRQFK;locus_tag=LOCUS_19080;gene=pheS;EC_number=6.1.1.20;note=WP_005895121.1 phenylalanine--tRNA ligase subunit alpha (Fusobacterium) [pid:62.1%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:1.1e-120],MGA_1910
sequence1	MetaGeneAnnotator	CDS	2229594	2230604	.	-	0	ID=MGA_1911;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005812827.1;translation=MGKLVNPHDKYVKEILTKKDNAKSFLENYLGKDIYELINLEELEIEKDSYVTEELQEYFTDLLYKVKISGEESYIYFLFEHKSYPDKLIMLQLLEYMLKIWKSKMKQKEKLPIILPLVIYHGKKVWNIEEKFSDMLKLKDDKLKKYIPDFQYMLYDLSKYKDSEIVGVSELKAMMKLLKYIYSSDLLIELPTILKLLSNSNIDAIKSITIYLLNTTEIDDKKLIELIKENVSEEGGKIAMTTAERLVEKRIEKSKNIWLYKGREEGKKEGRTEGKKEGMIEGIELALDIKFGKSGLKLMKNITQIENIEKLEKVKNAIRKEDKLENIEKLIKNIEK;locus_tag=LOCUS_19090;note=WP_005812827.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:35.9%25%2C q_cov:98.5%25%2C s_cov:99.7%25%2C Eval:9.2e-51],MGA_1911
sequence1	MetaGeneAnnotator	CDS	2230631	2231356	.	-	0	ID=MGA_1912;product=SIMPL domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011124783.1;translation=MNKIYLIISATVLSLALIVSSYIFGKFLYESRQPLRTLRAVGIASTQYEADTIKWSITLEERSDINGVKKLYSKLNAGYKKLEKALKSNGLNEKITVTPMNMYPNYNRDGVISGYVASQKFYIISKDIDKVESLALFPDKLTETGILIKNSNLGYYYSKIDDMKKEILAKATINARERGDEIISNTDYKVGDIINARTGVFQITEPYSTAIASYGLYNTSSRKQEIKVTVHVTFELDKMKK;locus_tag=LOCUS_19100;note=WP_011124783.1 SIMPL domain-containing protein (Prochlorococcus) [pid:25.5%25%2C q_cov:95.0%25%2C s_cov:90.1%25%2C Eval:3.6e-18],MGA_1912
sequence1	MetaGeneAnnotator	CDS	2231349	2232713	.	-	0	ID=MGA_1913;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545418.1;translation=MEKTVRFAPSPTGYLHIGGLRTALINFIYAEKNHGNFILRIEDTDRERSKKEYEKAITDALEWVGIKWDKFYRQSDDFSKYNKYFDKLIEENKAYRCFCNDKEDKCNCFNLSEQEVKKKIENSEKFTIKLKIPDKNFVIDDKIKGKVYFKKENFKDFIIRKSDGVPIYHFAVVIDDYEEGVSFVIRGEDHLSNTPKQVMIYEALELEIPEYGHLPLMLGEDKTRLSKRHGDVSIDSFQKDGILKESIINYLMVLGYSTDVEIFSFEDGIDDFDLSKMTKKATVFDYKKLYWFNKYYISSKNLEEMEKLFKDYLIKYGYLNIDEIEKMGENFKNIVGISKDKVSSLKELYELNKFFFEEIESYDEKGKTKFLEKEGIKENLKNLYKILENENWDIENLLLVFRNFAKENGMSLNKVVQPVRVLITGKTVSPGLFESMYYLGKEESLKRMERWINE;locus_tag=LOCUS_19110;gene=gltX;EC_number=6.1.1.17;note=WP_012545418.1 glutamate--tRNA ligase (Thermodesulfovibrio yellowstonii) [pid:41.8%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:9.4e-100],MGA_1913
sequence1	MetaGeneAnnotator	CDS	2232727	2234460	.	-	0	ID=MGA_1914;product=molecular chaperone DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816476.1;translation=MSKILGIDLGTTNSCMAYLREGGEVEIIPNSQGNRTTPSIVSFNENGELLVGEVAKNQAVLNFDRTVRSIKRYIGTDEKINVNNKDYTPQQISAMILQKLKRDAEEHFGEIIEEVVVTVPAYFSDAQRQATKDAGKIAGLKVRRIINEPTAAALAYGLDKEEEQTVLVYDLGGGTFDVSILEISSIDGEKTIEVKSTNGINKLGGDDFDQKLIDYIIEEFKKETKIDLSKDNMALQSIKDAAEKCKIQLSELKSAKISLPFISANEKGPLHLDLEITRAKFESLIEELVEETIDPIKNALTDAEITEKEIDKIILVGGSTRIPMVQEMLKDIFSVEIYKGVNPDEVVARGAAIQGGVLSEDIKGIVLVDVTPLTFGLETEGGLITAIIPRNTVIPTTETKIFTTVSDNQKSVEINVVQGERKFAKDSISLGKFELANIRKAPKGEPRIEVTFDIDVNGILNVSAVDVDNGNEQKIVISNTYSLSDMEIEKMINEAKEFEEEDNKKRELIDLKNEMDSIASKVKRLLRRKKEKISEDVTSKTEKLLEEIEFLAEDNNINLLRGKLEKLREKLKILSEI;locus_tag=LOCUS_19120;gene=dnaK;note=WP_005816476.1 molecular chaperone DnaK (Desulfitobacterium) [pid:57.6%25%2C q_cov:96.5%25%2C s_cov:89.9%25%2C Eval:5.4e-183],MGA_1914
sequence1	MetaGeneAnnotator	CDS	2234675	2235682	.	-	0	ID=MGA_1915;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041078769.1;translation=MRNKVKRDDMFKKIFSDKKLFLMLLKDFIKESWVSEIDESKLELIPSLFTDGLETNRESDIIYKVKCNGEEIFVFVLLEQQSNINYLMSFRILEYMVKLWRKYIDDNKKVSRNKCFLLPPIYPIIFYDGIKNWTSVKAFKEKVKNEEKFKRFVPNFEYELIELNKISFEKLETYEDLLSTLLLIDKIKKPEELSKLSNIEKSYWKNVKKDIGSKRELEKVVEAMNLLLIRINVPKEEREEVIEQIYEGRLENMFEMAVHYDVQAEREKYITQGIEQGIEQGIEEGIEKGLEEGKKESLEAVIKKSIKLGLDMEMIMKLTDLTRGEIEEIISKINF;locus_tag=LOCUS_19130;note=WP_041078769.1 Rpn family recombination-promoting nuclease/putative transposase (Rickettsia asembonensis) [pid:23.9%25%2C q_cov:81.8%25%2C s_cov:79.2%25%2C Eval:7.6e-13],MGA_1915
sequence1	MetaGeneAnnotator	CDS	2235709	2236173	.	-	0	ID=MGA_1916;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016060.1;translation=MAKILVISDSHGKFDKIHKMVEKEKPDYIIFTGDHSKDGIELSYLYNDKIKFYIVKGNTDYMDRDSKEELEIQIDGFKFLLTHGHLYGVKRGYDNLKLVAEKKKVDVVIFGHTHNKYYEKYKNIEIFNPGAAQDGNYGIIEIEGDKIKFMHKGL;locus_tag=LOCUS_19140;note=WP_011016060.1 metallophosphoesterase (Fusobacterium nucleatum) [pid:53.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-41],MGA_1916
sequence1	MetaGeneAnnotator	CDS	2236177	2236941	.	-	0	ID=MGA_1917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKIVLFFRNEEGSESLINYGKKLQEKYKLRVEGLYVKDVNKYDIIPAGVEGMIMDTSSNYIIKEWEEIEVKTSQAIKEKFLKEFGPAKFSIVEGLTVESAIKKLNSADILITTKKEIIDSEIKALLRVHEKPIILIPEKGDFGLDNVVFADDLEEKSNKSIFSFLNIFSDVVRLDILYIKEEDDDLELKEYFNISKKGYKEVRLGVKDSIEFINEKDMLIMGNLKHFFSFEKIVGDLGAKLLENSKIPVFIG;locus_tag=LOCUS_19150;note=MGA_1917
sequence1	MetaGeneAnnotator	CDS	2237379	2238629	.	-	0	ID=MGA_1918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIVLIYLILNFVNSYSGIYNFSDGAKDNFIPFVYYINEAGVMVGDLYYNKNFLKRDGIWTNVVLYSPQTNIFTFWNKFNDFKLNKKWSVTLDTQFIKFNDIKSGDIGNDSLNQKIPEDFLGILDGYQNLSQEDKYYMGNKEYTKLSNNGKLVLQKLGLIPEDEKWKFNGYRLYKGNLLGNNLEFKYKINEKNNFKIGYSYQSLDTQVRDLKTDTLNLYFEHYKNKDYKMIVGVKKSLNLLGHNSENDWDYYKLSFDARKYFKIYNNWDLGFRFLAINMGGKKILDKERTALKKLSGQDEKIYIYAPFMDMALLGDLDTLKGYYYYRFFDNNAVLFQGELKIPIEKYIKNLKIALLVEMGRVNDKFNLDLFTKDFHYDFGLGFRYYFGEKIVIRSDISNSDEGTQIRMTQGEAF;locus_tag=LOCUS_19160;note=MGA_1918
sequence1	MetaGeneAnnotator	CDS	2238661	2239914	.	-	0	ID=MGA_1919;product=glutamate-5-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_071542453.1;translation=MELREELYEYGKKAKEASLKLTVASTKEKNLALRKIAENLRKNIKDIEKENEKDIVAGKERGLSKAMLDRLLLTSDRIESMASGVEKIATLTDPVGEILTGWTTEDGIKIRKVRVPIGVIAMIYESRPNVTADASALALKSGNAIILRGGKEAINSNKIIAKIIKESLDEVGLPSDSINLVQTIDREAVKILTQMVDYIDVIIPRGGSGLIKAVTENAKVPVIYHDKGLCHTYVDEMADIEMAKKICFNAKVQRPGVCNAMETMLVNKNIAEEFLPQMAEEFKKAGVELRGCKQTKQILKDIKLAEEKDWDTEYLDLILSIKMVDSVDEAITHINKHGSKHSEAIVTKDYESANKFLNGIDASTVYVNASTRFTDGAMFGFGAEIGISTNKLHARGPVALAELTTYKYIVEGNGQIR;locus_tag=LOCUS_19170;EC_number=1.2.1.41;note=WP_071542453.1 glutamate-5-semialdehyde dehydrogenase (Moorella thermoacetica) [pid:54.1%25%2C q_cov:98.8%25%2C s_cov:99.5%25%2C Eval:1.1e-126],MGA_1919
sequence1	MetaGeneAnnotator	CDS	2240042	2241331	.	-	0	ID=MGA_1920;product=phosphopyruvate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011105084.1;translation=MSTLIKEVSAMEILDSRGNPTVEVEVVLEDGTVGLAGVPSGASTGVHEAVELRDGDKKRYQGKGVLKAVKNVNENIAKLVIGMEALNQSEIDNAMIKLDGTSNKGKLGANAILGVSLAVARAASNSLKVPLFEYIGGFTANSLPCPMFNVLNGGVHANWQGPDLQEFMICPVGAPNFREALRWASETYHNLRTVLKERGHSVGVGDEGGFAPTLKTNSEAMDSIVEAIKKAGYKPGEDISIAIDPASSEFYNAEEKLYNLRTEGRKLTAEEMVEMYAEWVEKYPLILIEDGLAEDDWDGWKLLNEKLGDKIELVGDDLFVTNVERLKKGIEKDVANGVLIKLNQIGTLTETIATIKMAKKAGWGAMVSHRSGETTDSFIADFTVGMNTGHLKTGAPCRGERLAKYNQLMRIEKKLGKDAIYAGRDGFVR;locus_tag=LOCUS_19180;gene=eno;EC_number=4.2.1.11;note=WP_011105084.1 phosphopyruvate hydratase (Pseudomonas syringae group genomosp. 3) [pid:68.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-170],MGA_1920
sequence1	MetaGeneAnnotator	CDS	2241556	2241972	.	-	0	ID=MGA_1921;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009966973.1;translation=MNFIIKEANIEEVIKVRHIVMWPKKSIEFVKIPCDSNGKHYGVYIGNKIVSVISIFIKNEELQFRKFATLNEYQGQGIGTKLLKYIFEIALENNIKRIWCNARKDKSKFYTKFGMKNTDETFKKAGINYVIMEKIIRD;locus_tag=LOCUS_19190;note=WP_009966973.1 GNAT family N-acetyltransferase (Bacillus) [pid:30.1%25%2C q_cov:96.4%25%2C s_cov:96.0%25%2C Eval:1.0e-13],MGA_1921
sequence1	MetaGeneAnnotator	CDS	2242005	2242451	.	-	0	ID=MGA_1922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIIDMHELTVENAIDKFIQVYNENIGKSIKIIHGYGSSGKGGKIKKKLRQFLDENLKYLEYTIGEKIDGNRGYTIVNAKKRVPLKIDYIKIEILEFCNAAKTKEKIAGKFRKYEPEKILKALRQLEKSGELKVINKGKHKCYLKNYY;locus_tag=LOCUS_19200;note=MGA_1922
sequence1	MetaGeneAnnotator	CDS	2242480	2242971	.	-	0	ID=MGA_1923;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966865.1;translation=MIAEILKDMIEYFENDVRRINHAIKVYTIAKNIGENEKVSDENLFIIEIAAILHDIGIKISEEKYNSSSGKYQEIEGPGVAKEILKKYNLKHKILERVLFLIGNHHSYSKIDNIDFQILIEADFIINIYEDKLLKDSIVSIKEKYFKTKIGNSYIETMYLNNI;locus_tag=LOCUS_19210;note=WP_010966865.1 HD domain-containing protein (Clostridium) [pid:57.2%25%2C q_cov:97.5%25%2C s_cov:97.5%25%2C Eval:3.0e-52],MGA_1923
sequence1	MetaGeneAnnotator	CDS	2242989	2243462	.	-	0	ID=MGA_1924;product=N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015995.1;translation=MEKKCGKVEKEIKFVEIFPEQREKIVQIKEIEEKSFGKGAIDEWVLMPIVRYGKIFGLESCGKVIGVLELMQKWGNNEAYIFSLAILDEFKGKGYGNYLLKNTIEELKKYKINKLSLTVSEKNIIAINLYKKFGFKEIKMLKDEYGIGIDRIYMRKD;locus_tag=LOCUS_19220;note=WP_011015995.1 N-acetyltransferase (Fusobacterium nucleatum) [pid:40.6%25%2C q_cov:84.1%25%2C s_cov:89.3%25%2C Eval:3.3e-26],MGA_1924
sequence1	MetaGeneAnnotator	CDS	2243682	2244419	.	-	0	ID=MGA_1925;product=tRNA pseudouridine(38-40) synthase TruA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627073.1;translation=MKNIMVELEYDGSVYFGSQRQPDAVTVQGEIEKALYKILGEKVNMVFSGRTDRGVHAIKQVANFFTETKIPIERLAKIINGKLSGNILIKQAKLMPADFHSRFSAKKRSYIYKIKKRSEFTVFEHNHITFIGDKDIDIEKLQNILNPLVGRYNFNRFRKSDCGANSPIREIFEIKVNKNGNVVEVYIEANSFLKSMVRIIMGVALNIYFEKLDKDYIVESLENPNGEKKKYIAPPNGLYLYDVRY;locus_tag=LOCUS_19230;gene=truA;EC_number=5.4.99.12;note=WP_201627073.1 tRNA pseudouridine(38-40) synthase TruA (Fusobacterium canifelinum) [pid:41.6%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:5.0e-47],MGA_1925
sequence1	MetaGeneAnnotator	CDS	2244416	2244712	.	-	0	ID=MGA_1926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRMKISGQTQGKLVFSYDIREGHIEYKKLIPALNKKLIEMGIEAVGEEKELENVVGEVLYRINEFTFDNFYNILEGKEDKIDIKNILEDVIKEICKK;locus_tag=LOCUS_19240;note=MGA_1926
sequence1	MetaGeneAnnotator	CDS	2244727	2245449	.	-	0	ID=MGA_1927;product=amino acid ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010937416.1;translation=MIKIENVNKWFGELHVLKDIDNLIEEQEVVVVIGPSGSGKSTLLRSINRLEEIQEGNIIIDGVDINSPKTNINQIREEVGMVFQSFNLFPHLTVLENITLGPIKLKKMKKIDAVKLGESLLEKVGLAEKADVYPNKLSGGQKQRVAIARALAMNPRVMLFDEPTSALDPEMVGEVLQVMKNLAKEGMTMVVVTHEMGFAREVGDRVIFMADGKIVEEGSPNKIFDNPREKRTQDFLSKIL;locus_tag=LOCUS_19250;note=WP_010937416.1 amino acid ABC transporter ATP-binding protein (Desulfovibrio vulgaris) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:3.9e-89],MGA_1927
sequence1	MetaGeneAnnotator	CDS	2245446	2246156	.	-	0	ID=MGA_1928;product=amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949008.1;translation=MVYNFHFEVVAKNLPFLLKGAENTLLLSAITIVTSIILGIIVGVFRTFGKSKIENKNIRGRLIFGVKFLVYYIATIYVEIIRGTPLLVQIFMVYFGLPSLGIEINAWPAGLIALTLNSGAYIAEIVRSGIESVDGGQVEASRSLGFNYFETLLYIILPQAIKMIIPPLTSQFAALIKDTSLVSIIAISDLTFTGQQVITRTFRSFEVWIAVAVIYLIMTLAVSLVSKHFERRGDMK;locus_tag=LOCUS_19260;note=WP_011949008.1 amino acid ABC transporter permease (Clostridium botulinum) [pid:43.2%25%2C q_cov:97.0%25%2C s_cov:97.3%25%2C Eval:5.8e-50],MGA_1928
sequence1	MetaGeneAnnotator	CDS	2246279	2247103	.	-	0	ID=MGA_1929;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_016351298.1;translation=MKKVLLSLFSLVLVLSFAGCGESKEANNFDSRAKLAKDSVLEKVLKSGTLKVGLEAGYLPFEFMSKDGKLIGFDVDLAKEMGKELGVKVEFVNTAWDGIIPSLQLGKYDIITSGMTRTLQRALSVNFTEPYYETGQVIMVRKGETRFNSYKDLNNPAIKVAVKLGTTSDIVSGKMLKKAKRIPFKTEADAAMALRTKKVDAMVYDKPFISDYVEKFNDVKMMPELFSKEFFGFAIKKGDPDFLNWLNLFIAEIKANGTYEELYNKWFVEKEYKK;locus_tag=LOCUS_19270;note=WP_016351298.1 transporter substrate-binding domain-containing protein (Aeromonas) [pid:48.5%25%2C q_cov:85.8%25%2C s_cov:90.5%25%2C Eval:5.7e-58],MGA_1929
sequence1	MetaGeneAnnotator	CDS	2247250	2249142	.	-	0	ID=MGA_1930;product=ABC-F family ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903085.1;translation=MALIQFKDIYKAYSGEYVLEDINFTIDNKDRIGVVGVNGCGKTTLVKMILGLEGDEISPETKSKGNMVYKSNIEIGYLSQNFDLDERNTVFEEIVNVYEDIHDKYKEIETLNSEIAIYTGEKQKEKMDMLAKLSFEYEQAEGYSIEYRIKEILNGIDMPEELWNLEISKLSGGQKSRVALAKILLKEPELLILDEPTNHLDLNAIEWLEKFLKGYKNAFLLISHDRYFLDNVTTSIFEIEDKTLHTYKGNFTDFIIQKDMRIKGELREYEKQQEKIKKTEEFIIRYKAGIKAKQARGREKILNRLKRAKRPITEIDKMKLRFEIERNSGEKVLEAFNISKKYGNKKLFENLNFTIYRGEKIGIIGKNGVGKSTLLKMITELEDENGEFKIGVNVKIGFYDQQHKNLNLNDTILEEIMSDLTITEEKARMIASQFLFEDEDINKKIKDLSGGEKARVSFIKIMREKPNFLILDEPTNHLDIYSKEVLIESLKNYEGTLIVVSHDRYFLESLIEVIYLLDKNGLEKFSGNYEAYKNRGKIKKKVEKKDNSYAEQKKIKSEIKIKENRLKKVERLIEELEGKKDELEKEYEKAGRENSYDKLIELQTQIEELDENILENMEEWEELEEFFKNI;locus_tag=LOCUS_19280;note=WP_005903085.1 ABC-F family ATP-binding cassette domain-containing protein (Fusobacterium nucleatum) [pid:51.1%25%2C q_cov:96.8%25%2C s_cov:96.8%25%2C Eval:2.3e-182],MGA_1930
sequence1	MetaGeneAnnotator	CDS	2249213	2249686	.	-	0	ID=MGA_1931;product=2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003425513.1;translation=MYRIGNGYDVHRLVEDRDFILGGVKIDYPKGLLGHSDADVLIHAIMDGLLGALALGDIGKYFPDTDEKYKGISSLKLLEKVYDLILDKGYKIANIDSIIVLQKPKIKDYIEDMRKNIAEILKTDIDKIGIKATTEEKLGFTGNGEGVKSYSVVLLER;locus_tag=LOCUS_19290;gene=ispF;EC_number=4.6.1.12;note=WP_003425513.1 2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase (Clostridioides difficile) [pid:67.3%25%2C q_cov:97.5%25%2C s_cov:95.0%25%2C Eval:8.3e-54],MGA_1931
sequence1	MetaGeneAnnotator	CDS	2249716	2252220	.	-	0	ID=MGA_1932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTILLLLLLLSTASFAEYKEFKTKYFDFIYQENIKEQVIDLIKKSDNIADKEFKFYGFEPTKKYIIRILDNVDYENSFTGLSSIVLYLNVPRSNEIEKNYSNWLEYVFTHELTHLILNNKVNGLFKYVWGFGNVLQNLLIPTWMQEGLAVYSETKFTDGGRGISDRFNMVIKSKYNDEKFKGLSLAGNYNYKGENSYVYGYSFISFFAETYGEKKLTAAVDYFTHHQLKPAYLLFAKIAGVSGKELNKEWKLYLKKKYSLKKDLVEGNKILKIADNKSNLKVDNGKLYFQGYYKDTILNEKYVGGVFSLNVKTKKLKQEIKDGISGSFGVKDGEIYYSKLKTNVLEDKIENVSYEEKGWKHRYLLLDRGINFLKLPNDLVYVQREKGYESLKVLGGEKLISENKRFQFGKLFYSNGKIYFDASKKGEKGNFIYSLDMKNMKLEKITEGIAPFYDNKNKKLYFAKDINGIYEIVSLDIKTGDEKQITNVNYGAFEPVIYNENLYYLNFYSKGYYIYKLNKKDFVNKNLSEKELKTVANLVKKEDIKLKGKLKLKEKLELKDKNFKNGLSLANGIILPGMINLSFVDKLDREYYNISAYYFKNENEEVKTGVALNYNYKLAGFPVFGLDLQVGDFNYYGVRISLPLYLRRLKQDSYLNFRYSSEDMAYGLGFGRFNLNQTISEGIPLNNLTYKDEHLELSYYWSKFIQEIDEPIFNNNIYRINEEDSVQPEVKINSNKLLKFNLNFQKDILIEKGDLTGGISLDKIYLRVENMYLKEYLWGTQSDILKCETGIDFYMTYYAESRIGGGVYYYINDLDNVNFDNKTPYFYFKFMF;locus_tag=LOCUS_19300;note=MGA_1932
sequence1	MetaGeneAnnotator	CDS	2252220	2252840	.	-	0	ID=MGA_1933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENYTETSTGRIQKVSIVPEQVRLNDFIVADDVWYSIVAIYKYMEPEDEDDYWFDFTGESETGEKIYIGVDKNEEDMWEYAVWEIVPKKEVRSDEKLSKIGSNGHSNKIEYNGIEYKISYEGDKLYEASVESFVKGRTKNPVKYPVLISDLEDNSGENFLCIEIDEDEVVELSIGKYITDVELVKNREEKPKFMDKIKNIFGGRRL;locus_tag=LOCUS_19310;note=MGA_1933
sequence1	MetaGeneAnnotator	CDS	2252910	2253899	.	-	0	ID=MGA_1934;product=D-glycero-beta-D-manno-heptose-7-phosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627445.1;translation=MVDKKKLLKTLENFENKKIAVVGDFMLDEYIFGNVDRISPEAPVPVVNVTNETFVLGGAANVVNNLCSLGAKVVAFGVIGEDKNGEKMEMELEKRGVDTSGIFRDKDRPTIVKKRIIAHNQQLLRLDWEDKNEIIFYLEDELLNSFKSKISNIDAIILSDYDKGVLTPKVVKTIIEIANKNNKIVIVDPKPKNKLNYIGATSMTPNTKEALNCLDNMKIRTEDDFKMLGYKLKDELNLKNLLITRSEKGMSIFEDNIVEDIPTMAKEVYDVTGAGDTVIAVFTLSASAGASFYEAAKIANTAAGVVVGRIGTSTVTREEIVEFYDSFEK;locus_tag=LOCUS_19320;gene=rfaE1;note=WP_201627445.1 D-glycero-beta-D-manno-heptose-7-phosphate kinase (Fusobacterium canifelinum) [pid:55.0%25%2C q_cov:96.7%25%2C s_cov:96.0%25%2C Eval:2.7e-92],MGA_1934
sequence1	MetaGeneAnnotator	CDS	2254469	2255128	.	-	0	ID=MGA_1935;product=riboflavin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015638.1;translation=MFTGLVEEIGKVMDIKKGRESLKIKIACKKVTSNAKIGDSIATNGVCLTAVEVGNGYFVADAMPETVNRTNLKSLKRGDSVNLEKSITLSTPLGGHLVTGDVDCVGEIISVEKNDIAILYKIKMSSKYMKYIVEKGRVSIDGASLTVVECDENSFVVSLIPHTQGNIILGSKKGGDEVNIETDLIGKYVEKLLNGYIGEKEVVDKSKIGIKFLMENGFA;locus_tag=LOCUS_19330;gene=ribE;EC_number=2.5.1.9;note=WP_011015638.1 riboflavin synthase (Fusobacterium nucleatum) [pid:63.3%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:1.1e-71],MGA_1935
sequence1	MetaGeneAnnotator	CDS	2255129	2256205	.	-	0	ID=MGA_1936;product=bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902112.1;translation=MNDEKYMSIAIELAKKGEGGVNPNPLVGAVVVKNGEIIGRGYHQYFGGPHAEVYALEEAGENAKDATIYVTLEPCSHYGKTPPCADRIVKAGIKRCVIAVSDPNPLVAGRGISKMEQAGIEVKVGVLEKESLKVNEVFMKYITKREAFLFLKSAITLDGKIATKTFDSKWITNEIARNEVHKLRNRYMAVMVGVNTVIQDNPRLTSRIENGRNPYRVIIDPNLRTPLDSNIIKNNKDNKTIIITSKDNEKIEDYYDLVRIVEIEGEKFIIKDILIELAKIGIDSVLVEGGSKVISACFKEKAMDKGVIFIAPKIVGDEKALSFVNGFDITNMSDSLKLKDIKFRTYDDNIGVWFEGVE;locus_tag=LOCUS_19340;gene=ribD;EC_number=1.1.1.193%3B 3.5.4.26;note=WP_005902112.1 bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD (Fusobacterium nucleatum) [pid:60.4%25%2C q_cov:99.4%25%2C s_cov:98.9%25%2C Eval:2.9e-122],MGA_1936
sequence1	MetaGeneAnnotator	CDS	2256582	2257436	.	-	0	ID=MGA_1937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDWRDSLNLGIEEIDNQHKELVERFNSFLDIVFDKRVPQKERIKKLEDTLNFLGEYVVFHFNSEEAFQKKINYINYEEHKKIHENFTNDVIKFKEKFEKNKEDENLIKTFSGRVAAWLINHIAGEDQKIKNYIDKKEIEKLDVTKTYKEIIGNNLKNIFNMMFQVDIEFAKDKNIDVSNDLIIKVGVIGNLKGDIIYIFEDENAKKLTQTLTGLKVDEVDEFVKSALSEIANIVSGNTITNLSELVSGVDITPPKFVDKIDERIYSKLNVESDLGVMKVLTNIK;locus_tag=LOCUS_19350;note=WP_005814433.1 hemerythrin family protein (Desulfitobacterium hafniense) [pid:38.7%25%2C q_cov:48.2%25%2C s_cov:97.8%25%2C Eval:2.3e-25%2C partial hit],MGA_1937
sequence1	MetaGeneAnnotator	CDS	2257519	2258610	.	-	0	ID=MGA_1938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIVIMILIINTATIFSMNYDENLKKAQELSWEKNYKQSEVIFKKLMKNYTTEELYIAYANLLAWQKKYDKAIELLKKYPKTTTNMRLEIAKFYVWKGDKQKAYELYIKLKNNGENIGKKGELFLKEYKKVGIKEKSYEIKYVYSNDLNIEFKEEKPALYFTYKRNKNLVFVLSHTFEMKEKNVYEYRDDATYETKKSKIKKHRTESEIYFNNHHIVLGTTVTPIYNGDEKVNGYDFESYYLGDDVTFGWVTLGLHYTDYLKAGYRITGLGQIDYYFKNGFIISNKISSNYIDKKIANSFMAELKYKELCYYRYYYDLKELSYEEIKVKFDITKTFFGEIGGYRDFNKGINGYSFGIGARF;locus_tag=LOCUS_19360;note=MGA_1938
sequence1	MetaGeneAnnotator	CDS	2258786	2259643	.	+	0	ID=MGA_1939;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016843.1;translation=MKFIIEKEFENTRLDKFIRKKYEGVSLNEIFKLITKGKIKVNEKKQKQNYRLQNGDIINIISNQDILIKEKSFISLNETDISMIKSDIIYEDNNILIFNKQPGLVMHKGSGYKYGLSEMLKSYLQNMNFTFVNRIDKSTSGLIIGAKNLSTVRDISALIKDRKIEKYYYILVNGIPKEKEFAVKSFLKKTKTKVIELDKYEDGAKESISYFKIVKTFDKKTILEAKLGTGRTHQLRVQLSEMGLPIVGDSKYGQDDNSIMCLFSHRVIISKYIIDVNLNIPDFFH;locus_tag=LOCUS_19370;note=WP_011016843.1 RluA family pseudouridine synthase (Fusobacterium nucleatum) [pid:46.5%25%2C q_cov:99.6%25%2C s_cov:99.0%25%2C Eval:1.6e-66],MGA_1939
sequence1	MetaGeneAnnotator	CDS	2259696	2260229	.	-	0	ID=MGA_1940;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001103131.1;translation=MNNLKKDIIKIEKYTNINKKQYFEYIREWEKSEEKIIPWASRCDDLNFEELQTRWSKYEEDSMYAKGLVPSTLYFMIDENERIIGAIDVRHKLNENLKKSGGHIGYGIRLSERKKGYATLMLKLILDILKDKKYNKILITCNDENIASAKTIEKNGGIMENKIQNNEEIVRRYWVTL;locus_tag=LOCUS_19380;EC_number=2.3.1.-;note=WP_001103131.1 GNAT family N-acetyltransferase (Bacillus) [pid:36.9%25%2C q_cov:89.8%25%2C s_cov:93.0%25%2C Eval:2.1e-28],MGA_1940
sequence1	MetaGeneAnnotator	CDS	2260672	2262267	.	-	0	ID=MGA_1941;product=SIR2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000607108.1;translation=MNELEKKLYEQLKKFDSLPFLFVGSGLSRRYLKIEDWENLLRKFAKLSIENAFAYEIYKEKAKNFENKNGINPKIAELIERDFNLKWFKSPEFKKSRKEYAEDITKGISPLKIEIAKYFKNVTENLGNGSEIEKKEIEWLKEISKKSISGVITTNYDTLIDEVFTGYKIYIGQEELIFSTLQGTAEIYKIHGCCSKPESIVITENDYKGFNDKNAYLSAKLLTIFLEHPIVFLGYSINDKNVEDILKSITNCLSEENLEKLRDRLIFIEWNNTGKEDEISTFSKVFSNGKRIEMTRVFVKDFNKIYKVLSMIKSKYNPRILRKLKEEIYELVLTNDPKEKMRVVGFDDETKIENIEVVMGVGIINDFSRRGYERITAVELYEDIVFNKEKFDNFEIVTKTLPELLKHNSGSVPIFKYLQGYQGELPERVKEELEKRKDLDSFLSRTFKDKKLKNINRYKSINEIKEDHDDLSSMIQVLYLGEKYLNEIELDGFLKELFEKYPDILFDSKMNTKTNIKRLIKIYDWLKYSKK;locus_tag=LOCUS_19390;note=WP_000607108.1 SIR2 family protein (Bacillus cereus) [pid:37.5%25%2C q_cov:99.8%25%2C s_cov:98.7%25%2C Eval:6.9e-97],MGA_1941
sequence1	MetaGeneAnnotator	CDS	2262629	2262844	.	+	0	ID=MGA_1942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNSFFDIININRIIEVILSSTFFVRLIMCNYSINSSKKLINGKFKMKNHNRTAVCLGSLEAINYSISML;locus_tag=LOCUS_19400;note=MGA_1942
sequence1	MetaGeneAnnotator	CDS	2262969	2264138	.	+	0	ID=MGA_1943;product=betaine/proline/choline family ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966134.1;translation=MIEFKKISKNFDGRTNVIDNLNLKINKGELVVLIGESGCGKTTTMKMINLLTKPSEGKILIDGKNILEMDKIELRRNIGYVIQKVGLLPHMTVGENIEIIPKLKKWDKEKREQRTKELLELVDLDYELYYNRYPNELSGGQQQRIGIARALAVNPDIILMDEPFSALDPITRKKLQDEIIKIQDELHKTIIFVTHDMDEAIAIADKIAVMDKGKIIQYDIPEEILKHPKNDFVEYFIGKERLWKQPEMFLAKDLMKKDVHKISLEGNIAKAVDKLKDSNASVLIVVDKIRDKAQKALGVITPNRLKASELKKKGINKDTKKIKDYMRTEFVAVDENTNMLNVLDIMSKRDFKSVPVTNSENEVVGIITSTSLLNLITEISPEAEEKEEK;locus_tag=LOCUS_19410;note=WP_010966134.1 betaine/proline/choline family ABC transporter ATP-binding protein (Clostridium) [pid:51.2%25%2C q_cov:96.9%25%2C s_cov:96.8%25%2C Eval:4.8e-102],MGA_1943
sequence1	MetaGeneAnnotator	CDS	2264138	2264773	.	+	0	ID=MGA_1944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFFQFFYYRMDEVFEALLRHIQITGLAVGLAIVIGVPIGIMITRKRKLAGTVINIANVFQTLPSLALFGLIIPFLGIGLVPSVFVLFLYALLPIIKNTYIGITNVEPASVEAGVGMGMTNFQILTIIEIPLALSVIMGGIRVATVINIGTATIAALIGAGGLGTFIFKGISMNSDNMILLGAIPAALLAVVVDFLFGKIEKQLTPKGITY;locus_tag=LOCUS_19420;note=WP_011986277.1 glycine betaine ABC transporter substrate-binding protein (Clostridium botulinum) [pid:47.6%25%2C q_cov:98.6%25%2C s_cov:39.5%25%2C Eval:3.8e-55%2C partial hit],internal stop codon at [2264771:2264773](+)%2C[2264780:2264782](+),MGA_1944
sequence1	MetaGeneAnnotator	CDS	2264792	2265688	.	+	0	ID=MGA_1945;product=glycine betaine ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393187.1;translation=MKRVLGIFILTAIISTSAFAGFFTGFFNKKEVIRIGHKNFTEQRLLGRMLSVLIEKNTKYKTKVSEFGGTMLINQALKSSQIDISAEYTGTGYMFLLKAHGLKDPKKIYQYVRDESAKQGITWLLPLGFNNTYAFGLTQELAKKYNLEKLSDLNGVAEKLKIGALGDFFSREDGMPGITKTYGFSFKKEVVLDTGLKYIAVKNGQIDVAVVYSTDGMLKKYDLKVLKDDKNFFPPYDAVPRMKTEFANSHPKIVEELKKLGGAFTDEDFQKYNYQIDVLELPEKKVAEDALREKGLIK;locus_tag=LOCUS_19430;note=WP_011393187.1 glycine betaine ABC transporter substrate-binding protein (Moorella thermoacetica) [pid:40.1%25%2C q_cov:99.7%25%2C s_cov:98.4%25%2C Eval:3.8e-58],MGA_1945
sequence1	MetaGeneAnnotator	CDS	2265749	2266231	.	-	0	ID=MGA_1946;product=DUF1456 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016620.1;translation=MTNNDILRRVRYALDIPDKVLIGCFKEFGEHMEVADVRNLLKKENEEGYVKCSNKQLGMVLDGYIIYKRGRQEPKPGEEPKPRIELTGNNFNNLIMKKLKIALNLRSDDIIDIFNLAGVNVSVSELRSLFRKPGHKNYKECLDSYLRNFLKGLTIHYRGE;locus_tag=LOCUS_19440;note=WP_011016620.1 DUF1456 family protein (Fusobacterium nucleatum) [pid:50.0%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:4.4e-37],MGA_1946
sequence1	MetaGeneAnnotator	CDS	2266601	2268433	.	-	0	ID=MGA_1947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626840.1;translation=MESRKEELLKLEIMKNYEFKELKTLYELYFKKCINKGYIKSDLKDKMIYMRDREKLVDIMFQFYTKKDVFNNCLKDMPKQVRMIFKLICFNIAVDISVLKETYKIDVIDKKKKERYSYLSDPKTLLKKGVEFFKIVLYRKFYYGEISGMLTLPQVIRIAITENLEEKPLHYDLVPLEKVESKYIKNFEIELLKNYLLYVNIQKSGLIKKSVSGKILKKSIVDFKNRTNMEELYEGNKKLEYYKSKLILEFIDFANFNKEEYGLDAKEGIKKLVTDIFEDKLNYNGLSKKINLLDFILTHIKGMRYYFDENNLYKQFMEKLFKILRKFKKEFWIDVTNIYDTLIYKNENVDLIDVRLSANLYMMVEEGQPYARYKDKHYIENGILYMNYITIPFIKGVLVLLASFGVFEIAYDEFENKKGFEDESRDFLGNTEFDNIKYVKLTKLGEYVFGLRDDYEIQTKEDVKIELDTKRLVINFKGEDNLKKVFIESIADKIGENMYKVDFDSIFRNVLNAEDMKNNIQNFKNYIEKDLPENWKIFFENLEKRLNPIVETTEYKVFEIDKNKELIKLLTKDSYLKKYILKAEDYKILVKNKDINRVKKKLKEYGFYMD;locus_tag=LOCUS_19450;note=WP_201626840.1 hypothetical protein (Fusobacterium canifelinum) [pid:29.2%25%2C q_cov:97.9%25%2C s_cov:98.5%25%2C Eval:1.6e-63],MGA_1947
sequence1	MetaGeneAnnotator	CDS	2268436	2271183	.	-	0	ID=MGA_1948;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898759.1;translation=MFESLKRKHFSFDDYRVKDKIYFILKFENERSYIELRDSKGKKVDTDAVIATNEYDNSILQKINEIKEKDEFNINWDDEIENKSERLYLDNNSFLVDYLLKSESFINENKMKIELAEEEINLELIIEKVEEKFKAKINFNNNLDYKIISQTHLYSNGKIYLIKNIGDNYQQLKEFEVEIKDGYLNKFLSIFYSYFTNIKCQVEGFSIKKINSISLKPVIVFEKIDVDKYLHLKIGLNLDNYDFEFFKEFNIKKVVDINEKSKDIYIREVDYNKSVQAFDDLFKMLKKSKDKSEFFIDNDYIIMSNNFAKEFLQKKLHYLINHFELYGSEKLNEYKIKISKPKLTFGLSSSIDYFEGDMEINIEDETFSVVNFLKMYNKDKYIKLTDNSNVIIEKKFVDKLNRIFDEKKGEFNVSFYDLPVIEEMIETQQLKTVFSKEIEVYEGFNEIEKVDLNLKEVDAELRNYQEYGTKWLKYLYENRLGGCLADDMGLGKTLQAIALIKNIYTDKKKIVIVVPTSLIYNWENELKKFTPDLEYAIYYGNNRDFKVFEENKIFITTYGVLRNDIGRIKDIEFDTAILDESQNIKNINSQISKAVLLIKAENRFALSGTPIENHLGELFSLFRFLNPKMFGTVNNFNKKYIVPIQKEGNEDVSKELKKKIYPFILRRKKRDVLKELPEKVEQTLYVDMNTKQKKLYNERRIFFKEVLDKQIEREGVKKSQFFIFQALNELRRITSNPESFSENRITSSKRDLLMENLQDIVSNGRKALVFTNFLNVIEKIEEDLTKEGIKYLVITGATKKRQEIVNLFQNEEEYKVLIMTLKTGGVGLNLTAADSVFIFDPWWNVSAEQQAIDRAHRIGQDKTVFSYKIITKDSIEEKIELLQKKKRELIENIIEEDTMMSKSISESDLEYILGE;locus_tag=LOCUS_19460;note=WP_005898759.1 DEAD/DEAH box helicase (Fusobacterium nucleatum) [pid:42.2%25%2C q_cov:97.8%25%2C s_cov:99.7%25%2C Eval:3.0e-210],MGA_1948
sequence1	MetaGeneAnnotator	CDS	2271342	2271509	.	-	0	ID=MGA_1949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLKSSKPKVKKKDKFESDNNTTNHNTNSFIPNKNSRSNQINPATLNHKGSKRG;locus_tag=LOCUS_19470;note=MGA_1949
sequence1	MetaGeneAnnotator	CDS	2272133	2273227	.	+	0	ID=MGA_1950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKELKEKLPRIIIFIILILLIPVLKPMIFGHGVKEIRTKMEQELKKDYGEDFIVENIGTRSANGEKFYQAEIYPKSIIGTNKEYDSYYHARASVDILPFGRLGGVGDNYGVIKMNDEAENYLLLKSKKIFGNKIRIKSRVKYSEKKGDGYLQYLECGFQEKMKAVKEDPKNKRLELTLYIYIFDRIDTEKEKEERRKEIYKYIQYLKKEGLFKYLEMGVIFIDERVLAPDYYDYTYEIKHGKKVALTVDGEKVYMPPMKLRKEMSVKLEDEVKKMSDDELIKRMNRISKSELSYKGIRKYNSQYQAWIYSVDMLKANYGTSYEKYKIKKTLKRFYFNLLSNVKLSRSLRYVYINNIKGDDSNE;locus_tag=LOCUS_19480;note=MGA_1950
sequence1	MetaGeneAnnotator	CDS	2273220	2278070	.	+	0	ID=MGA_1951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKITDKELLVFSNLANLDWQFVNINKKQKENEEDNNKQSKLLKDLLIPESFVREYDDKKTGKKIGKYIYGYQNGKLDKTQALIEMRKSAGIGMEYLSKLDSVGKFLGEWEVIYGGDKYKIVSEYLTKNMSDYVDIYATSLNEILEKSKSDKDNLDNLEKLKTKIKNQSDANFNKLLKALEENNVEDEKNIKKQLVKDLLNLPSREKVEQLKKSIQILEMTMFIVSNVPGNIMPAFFFSKVGGTEAKFFGSGIKTLLKESLEGASDFSKYFKKFTGELSELMRVRFNNSNKLEKLMILSDILFDKGSYFTFKGIDAGLNALGDYEKNNGKVSDEKNLGEITLTEELDMFDDGFRVFVLKKGEDILIISKNIEDNKSVQSKKALPKNLDYLRIVYNKIKDDNPSSNILLSGLDNGADISFVTGILTERQSKLYYSNPPKNLIDFINFTTEDIKRDYSSTNKIVITGLESYIASELYATLCYSVLEGGTPYLIVLGLDFVLSVISGAIEIFEDIKIRKLYSELLSKEIIDDENSGIKGYITNRLEKSISDGTYNFAPIDYLELYSKTAFDKLEEKKGNTLEYKDNKNLRGHNSNELLKFEMKHLIVDRYYLYKYIKDNKGEYKLKECKYIYEGLIKGERDLKNKKYLKIEIPLKEANSEGYKLYSLLKLIKDLQRRFLHENNLGEVVYIENEKSKIGKLKEIMFVEKNEEQIGKIKGNEYLFLPWLDKQGNIGQELQKGYMASILKSVLLLQIVRTDPAYRGYGEVALIERYGEKDYKIELNFKKLTVEEYLKKMFFRYIIKATSNIRTVIRDMREIYKYNYASKIKDILSKEGLSFLDNYCTIEHINAKKSVIKFEEKKYELNYAYNPLDKIIGGTLEIDATDLEINKEYLQSYLKGLLKYLGINSNKDISELTFFNIYSGKYCTTFISSLSEVDTENKIEEFISKDNFFSSLKELKSNLKKYPLKELIGLKVKKGEATIILGNEKDEKKVKVYNKELGIDNKEKEITLKITTPSKYLLNIERGKPNNDYELYSSLGYKDKYYDIRNMGKNSKVTADGKDISGTYKGKDKEESLVKDKINRDTGCKYYGDNLILIDRNLRYYYGNNLDDYLTISNYMEGYLGIDLIEKPKEKKEDLGKGFMDYQVKIKGIKYVNLLNLEIIKEVNEHTVAEIEGIIAGEDTDEVTRFLNVETQGIEILYGDDNKPIFRGLIYEHSMEIEQNSCKVKIKSYSLSKELEKEKRNRVYHNLGTKYKDVISKLNETYQNKYSFGFNSHIDKQELITELNPVEVQYKESDWDFLKRIVRRENDLIIVDDSKGKNPKTVAGIAIGEFGSSQKTIDNKNLLLSRKLKKGATENSYKLKGYPQIKGEELFSIGNPYNINIDVNTGKQDSLLLIKNRIYKESGVLKSDLVFVRRDEFNIGVVKREESITGLTLKGTIKKVSKQHKAQIEYTEMENEYDESKSYYYPIERMYTGTYFTPEEDTLVEVHFGAEAGEVSIRNVSSKTEDIDNDPDVKVIRTSFGKEVRFDSKSIKITGKDDESYVEITEESVGLTKGEKEIILKDGKIGINNKDSTITMDDKKVNITTGGSAITMKDDKLTLDNGGVGIEIGNGKINLG;locus_tag=LOCUS_19490;note=MGA_1951
sequence1	MetaGeneAnnotator	CDS	2278356	2280227	.	-	0	ID=MGA_1952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKWVYALMLSLLVFGGCINENATKDKVSNPKVSPSAGTYTSTQTVTLLTDTDGATIYYTLDGTKPGTIKYTAPISISTTTTLMAVAKKDGMDDSDVITAKYVIQNSVEKVAAPVITPAAGTYTTTQAITITTATTGASIYYTTDGTTPSVASTKYTAAFNITKTTTVKAIAIKDGMDNSDVVTADYIITAEVAKTADLFFSEYVECAGGNNKALEVYNPTDSDIVLRTGDTNNYFMMKLGNTTAGDTWASSNAKPFLFADGNSIKSGEVFVVYNAGADDLNITSTGDLASTITYYNGNDDLALVKDVNHNGTYEADTDKVIDVIGKMDGTDWGKDTTLERKATVTTGNTTFNLDEWNVLPTNTFDHIGAFTGRTVVLPVINPEFSLASGTYTTTQAITITTATTGASIYYTIDGTTPSAISTKYTAALNISTTTTVKAIGIKDGLVSSSVVTAVYVIDTNATPTYEESFAVDKFEDRGWAITAEAGTKKWYYSSGVAKMGAYKSGEDSNISWMVSPKLSIGDSSVMTFESAQGYSKDGTELKVLVSEDYSGDTATATWTELTFVLADESASGYGDFKSSGDVSLADYKDKNIVVAFKYIGSGNNNQTTTYEIKNLKIVNATK;locus_tag=LOCUS_19500;note=WP_048065524.1 DUF2341 domain-containing protein (Methanosarcina acetivorans) [pid:31.3%25%2C q_cov:23.8%25%2C s_cov:8.0%25%2C Eval:1.1e-11%2C partial hit],MGA_1952
sequence1	MetaGeneAnnotator	CDS	2280531	2282483	.	-	0	ID=MGA_1953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRWMYALLLSVLIFGGCINNEDKKFTGNELNSAAKISNETQRASSSNSDLFFSGYVECAGGNNKALGIYNPTGNKISLVNNYFMMKLSNPTIGDTWTSNNATVYKFEVGKVISPKDVFVVYNAGADDANILGTGDMTSAITSYNGNDDLALVKDENNDGVYEVGIDTILDVIGKMDGTNWGKDITLERKATVTSGNAIFDLNEWNSLPTNTFDHIGLFAGSEVNSASDLFFSGYVECAGGNNKALGIYNPTGSDISLVNNYFMMKLSNPTIGDTWTSSNATVYKFEVGKVISPKDVFVVYNAGADDANILGAGDMVSPITGFNGNDDLALVKDENNNGTYEAGIDIILDVIGKMDGTNWGKDITLERKATVTSGNVTFDLNEWNSLPTNTFDHIGLFAGSEVISPDNGSGNVVIPTDTGCGNYYDSIGTETGSALKSKLNDLIDNQTELSYSQAYNALIVTDRDPNNSNNVIEIYTGRSVNGPKKYDGGKGWNREHVWAKTHGDFGTKMGPGTDLHHIRVADVSVNSDRGSKEFDNGGTPNSEATECNSDSDSWEPRDEVKGDIARMLFYMAVRYEGEHGEPDLKMSEDINDYSKAPTIGKLSVLLEWNREDPVSETEIRRNNIIDKDYQHNRNPFIDHPEYAERIWGN;locus_tag=LOCUS_19510;note=WP_009968119.1 endonuclease I family protein (Bacillus) [pid:59.0%25%2C q_cov:35.7%25%2C s_cov:78.8%25%2C Eval:2.3e-73%2C partial hit],MGA_1953
sequence1	MetaGeneAnnotator	CDS	2282866	2285520	.	-	0	ID=MGA_1954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKISRKKTIKKKYILTALIAIFLFTACEKDITNRKIDESYNTINVSLDNQKKLERSTEAANLITTAVKEELDVDVVLYPTENLNLSDKNLKINLLKTDITDKINMTVDQLKSVYSTDANKDNILLMYIKGSDLKKFILQRATENYGIDVQTAGLDYNIIFKGGRVEEATMSINGKEVEDSKEYKIAFMLYAYGNNPDSGLMINFPGYYYKNSFNYKDVISTDYKATDLLIKYITDLKGYKDFSVVRDSVKNLSKPELDYIIPIYTIQGDKFVSDYTGKVVKTRGVITATVNDDYNRMHGFYLQDETGDGNDYTSDAIYVNTTAEIMSSPKIAVGEKIEIEGTVYEEFSNNNISRTTLRDIKIENVKSLGKGVMPKSVLLGGTGNRKIPNNQITTIKGDINNNVKINLEEGLGFWESLEGMKVKVLSPIVTGSSGGFEDKYVHKSYINLFVRPKGVSGTEQVTPVGGLIIDVDKNDYNPEIIRIVDNEFKSPDGTFYGKYDSKNGFKGGEKIFNVGDRLADLEGIASFALNDFGSGEYVFYPMSKVDNLESNRSDITPISDRYTTSLVGDADHITVGTYNVENLGGEVRSGKAGYSSKWDDIGEVIAKNMKAPDILVINEVQDNDGNQNSSVTDATVTLEKIISGIEKAGGPTDYKIININPIAYADGGEPGGNIRPATIYRSTRVEFDRRGNAGAKDHVGLDENGDLKYNPGRVYPNTPIFEGTRKSVAMEFKFKGKKIIVIGNHLNSKGGDTSMWGGTQPVKFYTEIKRVKLAKIVNGFSKEILGKNPNANLLLIGDFNEFYASAPMRVLEGKEFINLIDTKIPYNKRYTYNYSGNSQAIDHVFISKELQKESPEVDIIYVNTDYMGKISDHNPVVSRYKF;locus_tag=LOCUS_19520;note=WP_164928531.1 endonuclease/exonuclease/phosphatase family protein (Gloeobacter violaceus) [pid:31.1%25%2C q_cov:70.1%25%2C s_cov:59.1%25%2C Eval:1.8e-71%2C partial hit],MGA_1954
sequence1	MetaGeneAnnotator	CDS	2285625	2287511	.	-	0	ID=MGA_1955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLKKRYNLLLSITFIIIMFLSVSCAKTSTLDISNRSNNKEAIIVLEKAQQNIEEYLVELDSGALGKHLTLNDREKLRGSLQNISTEYKKMIISGILDGEKIKEINAILNEEALEIPRDTKEQLFVKEMAKESITCYEKVTGEVWGSWDYSESFVEDGYTDRGWNLVAEAGTVNWQYDSHGAKMSAYKSGESSNIAWMISPELVIGELSVMNFESAQAYPKEGTELKVLISENYSGNVGTATWTELTIPHLATKADGKWSYVDSEDVSLSAYEGKKVHIGFKYIGSNTLSTAFEIKNLKIKNSSVVSGTVSKKVSDPIFTPAAGTYTTKQAITLSSDTDGATIYYTLDGTTPSSASTKYTGAFNITVTTTVKSIAIKDSVESAVITANYIIKTDSGSSDYYASIGADITGSALKAELNDIIDNQTELTYSEVYDALVVTDRDPNNANNVIEIYTGKSIDGPKEYDGGKGWNREHVWAKSHGDFGTTKGPGTDLHHIRVADVSVNSARGNKEFDIGGTPNSEATECKSDSDSWEPRDEVKGDIARMLFYMAVRYEGEHGEPDLKLSEDINDDPKAPTHGKLSVLLEWNKNDPVSETEIRRNNIIDKDYQHNRNPFIDHPEYANRIWGN;locus_tag=LOCUS_19530;note=WP_009968119.1 endonuclease I family protein (Bacillus) [pid:61.3%25%2C q_cov:36.3%25%2C s_cov:78.8%25%2C Eval:1.2e-74%2C partial hit],MGA_1955
sequence1	MetaGeneAnnotator	CDS	2287521	2288324	.	-	0	ID=MGA_1956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISLLMAILGIGFIMNVAEIEAAPNKANIGQQSSLALLWMQDGAEYKSLVHQAFNIAEKRVREDKMIKKVFVRVDEVLLDNTPYFAWLLKSNEKDTIENRNRWYSSLDAEAVDGAVEFINYLNKNNVEVKLITSRDRNVYDVTIRNMNKAGFKALTLNNLISESDFDSYVKNGGKYTAIVTNDLNDFSSKIDGKNYRERKAFADNQKNDFGKKWVIIPNVLYGDFETSLSKGYDNLDNNKKANVKIETLNEWNGTREFDRNIFNF;locus_tag=LOCUS_19540;note=WP_209553735.1 5'-nucleotidase%2C lipoprotein e(P4) family (Helicobacter pylori) [pid:25.9%25%2C q_cov:73.0%25%2C s_cov:84.9%25%2C Eval:1.7e-11%2C partial hit],MGA_1956
sequence1	MetaGeneAnnotator	CDS	2288335	2289156	.	-	0	ID=MGA_1957;product=lipoprotein e(P4);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_061724415.1;translation=MNKKLISILFIAFTVFINAEDFTEKNFENESVVAVNWVQTSGEYKALAYQAFNVAKESFLEIKKSYKGGKKLAVVVDLDETMIDNSAYAAWRILKGKGFSSSTWDEWVNSKDAKATSGAVEFSKFVNSHGGEMFYISNRSENELKDTMKNLKKLHFSKVNKDHILLKEKSSDKTKRRTEVIDNGYDIVMYVGDQLTDFSNEIYGRSNDYRNSFVDKNEYKFGKNWISIPNPTYGDFEGKGISFEYYTKMIGTATSEKEKSEMRLSRLKIWDGE;locus_tag=LOCUS_19550;gene=hel;note=WP_061724415.1 lipoprotein e(P4) (Haemophilus influenzae) [pid:42.2%25%2C q_cov:94.1%25%2C s_cov:90.9%25%2C Eval:1.1e-56],MGA_1957
sequence1	MetaGeneAnnotator	CDS	2289172	2290476	.	-	0	ID=MGA_1958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYYLVLMFMLSFGAVFAFDISGSSLDYSAKVSSNDNYSEKDGEGVLKLNFDNLSLKYSADILNNSSKTDTTMEVIYEKALNNRVKFGVDATLDTANGFEFKLDDDSEKTYLEFGMNKSMLLAIYPFNFGSTVGSEFKTEDITKVYYISGRPTYINGNANGIELGSKTIPGVVLNYRMNKMMNLYIGAGAVEYDTPGDEGFDLTEATKAYSWGKRVAVAYKAGFKYDNEVSVLSVDVVGQDDSEKDGALLKYAAAANLSLEPGNLIINSELVYTQAGEKPYYAQKNKISSEYGYEPYYKQNWVDKGDFAAMLKVGYEVTRGLVPYVSGQYLGENFIYDGENSANRLRAANRLRTVEEFDAGFNDSKSHGGLTVVKAGVKYNYLNATITPFYEYKMAKNAVFSPENDLTAKKDRRVQDLKKTCSTFGLNIKYKF;locus_tag=LOCUS_19560;note=MGA_1958
sequence1	MetaGeneAnnotator	CDS	2291152	2291817	.	+	0	ID=MGA_1959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKTVFLLLFFLSFSYISNAENFTKGDIIEISINNNNINIVKNLIKNSSDANLTNKSGQNMTTIAFLSRRTEIFKYLIEKGGKLNYRDKQGRDILELALYSDYEEILNYLLLFQKDIDSPDKNGETPLIIAAKKGYFKVVQTLIKRGASIKKIDNKGNSAIYYAVYNSNIKISKFLLSKINFVDDKEMKKIIKAAIFNGDNDFAEELTRINNRNSKYAFMK;locus_tag=LOCUS_19570;note=WP_011016207.1 ankyrin repeat domain-containing protein (Fusobacterium nucleatum) [pid:30.5%25%2C q_cov:76.0%25%2C s_cov:62.3%25%2C Eval:3.0e-13%2C partial hit],MGA_1959
sequence1	MetaGeneAnnotator	CDS	2292175	2292441	.	+	0	ID=MGA_1960;product=type II toxin-antitoxin system Phd/YefM family antitoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000584499.1;translation=MEAINYSDFRANMKSYMDNAYENHETMIITRKKMKNIVIMSIEDYNSLMTTNYLLANPNNSKHLLESIEQAKEGRTVSKTVEELELCE;locus_tag=LOCUS_19580;note=WP_000584499.1 type II toxin-antitoxin system Phd/YefM family antitoxin (Staphylococcus) [pid:42.3%25%2C q_cov:88.6%25%2C s_cov:94.0%25%2C Eval:5.0e-13],MGA_1960
sequence1	MetaGeneAnnotator	CDS	2292432	2292686	.	+	0	ID=MGA_1961;product=Txe/YoeB family addiction module toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005464459.1;translation=MRISFTENAWKDYTLWQKEDKKTLKRINDLIKDTIRNPFSGIGKPEPLKSNLSGYWSRRIDKKNRLVYEMLEYEIIIISCKYHY;locus_tag=LOCUS_19590;note=WP_005464459.1 Txe/YoeB family addiction module toxin (Gammaproteobacteria) [pid:67.1%25%2C q_cov:97.6%25%2C s_cov:92.1%25%2C Eval:4.2e-28],MGA_1961
sequence1	MetaGeneAnnotator	CDS	2292999	2293367	.	-	0	ID=MGA_1962;product=DUF1667 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016210.1;translation=MKRELICITCPMGCRLTIESDKTAEKGYKVTGNSCKRGEDYAIKEVTNPTRVITSTVKIKGGILERIPVKTDGGIPKDFNYKCMDIINEIELEAPVKVGDVVYADVLGTGVNIVATRSMERV;locus_tag=LOCUS_19600;note=WP_011016210.1 DUF1667 domain-containing protein (Fusobacterium nucleatum) [pid:50.4%25%2C q_cov:97.5%25%2C s_cov:100.0%25%2C Eval:2.2e-29],MGA_1962
sequence1	MetaGeneAnnotator	CDS	2293467	2294720	.	-	0	ID=MGA_1963;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016211.1;translation=MKEYDIVVVGGGPAGLAAAIEAKKNGAENILVIERDKELGGILQQCIHNGFGLHIFKTELTGPEYAERFTEELKSMKIEYKLDSMVLDISQDKIVSFINSEDGFSRAKSKAIILAMGCRERTRGAIAIPGFRPAGVFTAGAAQRFINMEGYMVGKKVVILGSGDIGLIMARRMSLEGAKVELVAELMPFSGGLTRNIVQCLDDYDIPLMLSHTILEIKGKDRVEGVVVAKVDENMKPIKGTEKLYECDTLLLSVGLIPENELSRNAGLEIDIKTSGPVVNESMETSLEGVFACGNVVHVHDLVDFVTEESRRAGKNAAKYIQNRLKKDVNQIKTKSGEGIGYIVPHKIRVENVEDKLELFMRVRKVYKDKELVIRYGNEEIKRIKKRHLAPGEMEKISLPIGYLTKEKFRELSVSVE;locus_tag=LOCUS_19610;note=WP_011016211.1 FAD-dependent oxidoreductase (Fusobacterium nucleatum) [pid:67.6%25%2C q_cov:99.3%25%2C s_cov:98.1%25%2C Eval:5.7e-157],MGA_1963
sequence1	MetaGeneAnnotator	CDS	2294721	2296157	.	-	0	ID=MGA_1964;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895612.1;translation=MYDVVIIGAGIIGTSIGRELSKYKLKTLIIEKESDVANGTTKANSAIIHAGYDARPNSLMAKFNTLGNPMFDKLCEELDVPFKRVGSFVLAFSKDEMPAIGELYERGIKNNIPKMQILTGKEIRKMEPNISKDVVGGLYAETAGIVGPWELAIALSENAIKNGVELKLNNEVKSIIKIENGYEITTDKGRYKTKYIINASGVYADKINNMVASPAFSINPRRGQYFIMDKNFGNKVNKVLFQCPNNMGKGVLVAPTVHGNVIVGPNAEDYMERDDVETTRDGLNYVWETAKKTIPELPFREVITNFSGLRAESSTKDFVIEESKDAKGFINVAGIKSPGLSSAPAIAEYVVELLKDINGGLEENKNFIANRKQIIFMDLSDEEKAVLIKKDNKYGKIICRCENITEGEIVAAIKAGADTVDGVKKRCRPGMGRCQGGFCGPRVQEILAREKKKDMKDIVKDNPKSYVLIGRTKGKEAE;locus_tag=LOCUS_19620;note=WP_005895612.1 NAD(P)/FAD-dependent oxidoreductase (Fusobacterium nucleatum) [pid:56.3%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:3.8e-155],MGA_1964
sequence1	MetaGeneAnnotator	CDS	2296767	2298266	.	-	0	ID=MGA_1965;product=glycerol kinase GlpK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015864.1;translation=MGKKYVVSLDAGTTSSRAIVFNKAGEIVSVAQREFEQIYPNAGWVEHNPMEIWATQKSVMVEAIEKAGISAEEIASIGITNQRETTVVWDKNTGKPIYNAIVWQCRRTASIVEELKERDGVEEYIRENTGLVLDAYFSGTKIKWILDNVEGARAKAENGELLFGTIDTWLIWNLTNGKVHVTDYSNASRTLIYNIKELKWDEKMLKELNIPKSMLPEVKQSSEIYGYANLGGSGGVRIPIAGIAGDQQAALFGQACYEKGMVKNTYGTGCFVLMNTGEKMINSKNGLLTTIAWGVDGKVEYALEGSVFMGGATIQWLRDEMQMINDAADSEYFAKKVKDSNGVYLVPAFVGLGAPYWDMYARGTIVGLTRGANKNHIIRAALESIAYQSRDVIEAMEEDSGIELKGMRVDGGAVANNLLMQFQSDILGTSIEKPEITETTALGAAYLAGLAVGFWTSKEEIAKKWKMDKKFVNEITEERKEELYETWKKAVKRSEGWEA;locus_tag=LOCUS_19630;gene=glpK;EC_number=2.7.1.30;note=WP_011015864.1 glycerol kinase GlpK (Fusobacterium nucleatum) [pid:70.3%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:3.3e-218],MGA_1965
sequence1	MetaGeneAnnotator	CDS	2298486	2299052	.	-	0	ID=MGA_1966;product=glycerol-3-phosphate responsive antiterminator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964630.1;translation=MSNKFYEVIQDNPIIAAIKNQNMLEDVLKSPVEIIFLLNGELFTLKETVKKIKDAKKLVYVHIDLIDGLSKSVAALKYIKDEINPDGIITTKSSLIKAAKDLGFFTIQRFFIVDSLSLKKSYEIIKNVKPNAIEMLPGIIPSVVKQVAKNTNTPLITGGLVNTKEDIVENLKSGADGVSTTNKELWYM;locus_tag=LOCUS_19640;note=WP_010964630.1 glycerol-3-phosphate responsive antiterminator (Clostridium) [pid:44.6%25%2C q_cov:96.8%25%2C s_cov:97.8%25%2C Eval:7.2e-41],MGA_1966
sequence1	MetaGeneAnnotator	CDS	2299619	2301325	.	-	0	ID=MGA_1967;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MRKRIPYGISNFEKLVKEDYYFVDKTKYIELLENMNEPYLIFLRPRRFGKSLLISILENYYDINNKDKEDLFRDLYIGENPTRLKNSYYILKFSFSGIDTRDEKSTEIGFVENVKDGIIKFCNKYKVKHKIEGGKSAEILKRFLTDMEDILDKKIYLLIDEYDHFANEILGFNYNFFSEAVSKNGFVRKFYEEIKDRTASGIVDRIFITGVTPITLDSLTSGFNIATNITVESEFNNMLGFTKSEVKKLFEDILPEYDIEQNMEKLKNYYDGYKFNRKAKEYIYNSTMIMYYVSNYQRKGEEEELVDSNVVSDYKKMANLFRIGGELTEDRRKVLEKLINGEEQSLNLTRVYNLSGKFNIEDFKSLLFYMGFLSISKVDILGRIYVKVPNYVIKELYFEYFQELINESLGYEIEYNDIEDAIVEIGLDGKIDKLTKLTEEVLLKLSNRDFIKFDEKYIKIIMLMFLYRSNIYYVKTEEEVEKGYIDIILKKGVMGKPRYYGIIELKYIKKSDYEKYGDKLIEEKLGEGKEQLKKYEESEEVKQLEELGKVKKWIVVFVGWECKRIEDI;locus_tag=LOCUS_19650;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:42.8%25%2C q_cov:98.1%25%2C s_cov:98.2%25%2C Eval:3.7e-112],MGA_1967
sequence1	MetaGeneAnnotator	CDS	2301550	2301801	.	-	0	ID=MGA_1968;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNSDNFRASAIQGIMKRIKAKGIEVVVYEPALKKNEFFYSKVIKELEEFKKISDVIVVNRMNEELKDVEGKVYTRDLYFRD;locus_tag=LOCUS_19660;note=WP_011074277.1 nucleotide sugar dehydrogenase (Shewanella oneidensis) [pid:73.5%25%2C q_cov:100.0%25%2C s_cov:21.4%25%2C Eval:2.5e-28%2C partial hit],MGA_1968
sequence1	MetaGeneAnnotator	CDS	2301877	2302185	.	-	0	ID=MGA_1969;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258722.1;translation=MKYGLREKIIEELFEIFQENDKIKEVILFGSRAKGNFKNGSDIDLAIKGKNLNLVDLNKLLLKIDELDLPYEIDIIIYDKIKNIDLLEHIDRVGIALYKYKK;locus_tag=LOCUS_19670;note=WP_012258722.1 nucleotidyltransferase domain-containing protein (Chloroflexus aurantiacus) [pid:41.8%25%2C q_cov:95.1%25%2C s_cov:79.0%25%2C Eval:1.7e-16],MGA_1969
sequence1	MetaGeneAnnotator	CDS	2302194	2302340	.	-	0	ID=MGA_1970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQMIKSRNLSSHTYDETRADDIVEVIKSSYFNEFNLFLNKMTELEREE;locus_tag=LOCUS_19680;note=MGA_1970
sequence1	MetaGeneAnnotator	CDS	2302446	2302715	.	-	0	ID=MGA_1971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKDIRWIQRFSNFKRAFEQLKDAVELTKKRELSNLEKQGLIQAFEYTHELSWKVLKDFLESKGNQNIYGSRDAVKEAFKFNLGTFKK;locus_tag=LOCUS_19690;note=WP_012258723.1 nucleotidyltransferase substrate binding protein (Chloroflexus aurantiacus) [pid:64.3%25%2C q_cov:94.4%25%2C s_cov:59.6%25%2C Eval:1.9e-25%2C partial hit],MGA_1971
sequence1	MetaGeneAnnotator	CDS	2302845	2303423	.	-	0	ID=MGA_1972;product=dTDP-4-dehydrorhamnose 3%2C5-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965628.1;translation=MNKFKKIETGIDGLVIIESTIFGDSRGFFMESYSKRDFEEIGLTMEFVQDNHSKSKKGVLRGLHFQTKHTQGKLVRVIAGSVLDVAVDLRRDSETFGKWDSVLLTAGNKRMFYVPEGFAHGFITLEDNTEFQYKCTDYYAPEYDSGIVWNDKEVGIDWELEKYGIKEEELSLSEKDMKLQTFREFVESGVEF;locus_tag=LOCUS_19700;gene=rfbC;EC_number=5.1.3.13;note=WP_010965628.1 dTDP-4-dehydrorhamnose 3%2C5-epimerase (Clostridium) [pid:57.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.4e-60],MGA_1972
sequence1	MetaGeneAnnotator	CDS	2303599	2304930	.	-	0	ID=MGA_1973;product=group II intron reverse transcriptase/maturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000561483.1;translation=MENNLEKQPISSSVLQRDEKRIRDFQKKIYQKAKQEKEYRFYILYDKIMSKRFLYEAYIRVKQKKGSPGIDGETFEIIESKGINEFIDELHNDLKRKSYIPSPVLRVNIPKWNGKTRPLGIPTIRDRVVQMSCKIVIEPIFEADFEGSSYGVRPKRGASGAIKEIRKNIKEGKQEILDADLSSYFDTIPHTKLMKLVGRRISDKHVLRLIKKFLKAPVKDEDNNLSGGKKNKVGTPQGGVISPLLANIYLDMLDKMVKVLEQFKNYGIKIVRYADDFVLMGKKIPEDVTKELKEILEKMELKLNTDKTHKVNIRDESFDFLGFTFRRDKSLYNSQEKYLNIVPSKKSEKKIREKIDEYLKNNGHLPPEIVSIDINMKVRGWINYHTIEGISYPNKAKRNLRWYLFQKLSRYYKRKSQRASKLYSKGAYKILVNKYGLIEPTAY;locus_tag=LOCUS_19710;gene=ltrA;EC_number=2.7.7.49;note=WP_000561483.1 group II intron reverse transcriptase/maturase (Streptococcus) [pid:42.1%25%2C q_cov:94.6%25%2C s_cov:93.6%25%2C Eval:1.6e-83],MGA_1973
sequence1	MetaGeneAnnotator	CDS	2306476	2307339	.	-	0	ID=MGA_1974;product=glucose-1-phosphate thymidylyltransferase RfbA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877393.1;translation=MKGIILAGGSGTRLYPVTKAISKQITPIYDKPMIYYPLSVLMLAGIKDILIISTPRDLPVFEELLGSGEDFGVHFEYKVQEHPNGLAEAFLIGEKFIGNDACALVLGDNIFYGHGLTGMVREAAKREKGATIFGYPVKNPKSFGVVEFDENGKAISLEEKPENPKSNFAIPGLYFYDNTVVEKAKQVKPSVRGELEITTLNEMYLKEETLNVISFGRGMAWLDTGTHDGLLDAANFVSTVQKRQGVMVACPEEIAYNNGWISKEKVEELAESLMKTHYGKYLMELVK;locus_tag=LOCUS_19720;gene=rfbA;EC_number=2.7.7.24;note=WP_010877393.1 glucose-1-phosphate thymidylyltransferase RfbA (Methanothermobacter thermautotrophicus) [pid:66.6%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:1.0e-113],MGA_1974
sequence1	MetaGeneAnnotator	CDS	2307434	2307970	.	-	0	ID=MGA_1975;product=D-glycero-alpha-D-manno-heptose-1%2C7-bisphosphate 7-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004194255.1;translation=MKKALFLDRDGVINNEVNYLYKIEEFKFIEGIKEGIKKFRDKGYIIIIITNQAGVGRGYYTAEEFFLLNDWMLKELEKDEIEITKVYYEFSHPDKGIGKYKSDSIRRKPNPGMILEAIEEFDIDIKNSILVGDKESDIIAGERAGILNNYLITTGHSINERLKKKYILINNLLEIFDK;locus_tag=LOCUS_19730;gene=gmhB;EC_number=3.1.3.83;note=WP_004194255.1 D-glycero-alpha-D-manno-heptose-1%2C7-bisphosphate 7-phosphatase (Burkholderia) [pid:49.3%25%2C q_cov:84.3%25%2C s_cov:79.4%25%2C Eval:5.2e-35],MGA_1975
sequence1	MetaGeneAnnotator	CDS	2307967	2308659	.	-	0	ID=MGA_1976;product=D-glycero-D-manno-heptose 1-phosphate guanosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002857908.1;translation=MEAIVLAGGLGTRLRSVVNNVPKPMAPIGNKPFLDYIFFYLKKNNIKKVILAVGYKNEIIKHRYGNKYLGIDIEYSIEEEQLGTGGAINQAFKFIDEKESFIINGDTFFYVDLNEMYQFHIKNNADLTIAVKPMKNFERYGKVIDNNNKIEKFTEKEKSKKGNINGGIYILNKEYINSLDLPKVFSFEKDIMEKNVNKDNFIAYKSDTYFIDIGIPEDYNKAQKELEQKI;locus_tag=LOCUS_19740;gene=hddC;note=WP_002857908.1 D-glycero-D-manno-heptose 1-phosphate guanosyltransferase (Campylobacter) [pid:50.5%25%2C q_cov:95.2%25%2C s_cov:96.8%25%2C Eval:1.4e-56],MGA_1976
sequence1	MetaGeneAnnotator	CDS	2308659	2309246	.	-	0	ID=MGA_1977;product=D-sedoheptulose 7-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002857991.1;translation=MYNYIEKQIYNSIEVKKYILENKEILNKIIEVSNLTVEAYRKGKKTIIAGNGGSAADAQHMAGEFVSRFYFDRPGLASLALTTDTSILTAIGNDYGYERVFARQLEANGNKGDIFFAISTSGNSKNIIEALKVCKEKGIISIGLTGSKECKMDDLCEYMIKIPSIETPRIQESHLMIEHIICAIVEKEIFKKEKG;locus_tag=LOCUS_19750;gene=gmhA2;EC_number=5.3.1.28;note=WP_002857991.1 D-sedoheptulose 7-phosphate isomerase (Campylobacter) [pid:63.7%25%2C q_cov:97.4%25%2C s_cov:94.5%25%2C Eval:3.1e-66],MGA_1977
sequence1	MetaGeneAnnotator	CDS	2309258	2310283	.	-	0	ID=MGA_1978;product=dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004194045.1;translation=MKIRSKAPLRLGLAGGGTDVSPFSDTYGGYVLNATIDMYAYCILEPLQNGKIEFIAKDRNEIFTINEVNIIALNGTLDLHKGVYNRIIKDFNNGKSLSCRLITFSDAPAGSGLGSSSTMVVAIIKAFVEWLNLPLGEYDIAHLAYEIEREDIGLSGGKQDQYAATFGGFNFMEFYKEKVIVNPLRIKRWIKNELQASMVLYYTGQSRDSANIIDEQIKNTNKKKSISLDAMFKLKEKALEMKESILKGDISWFAQILRDSWLEKKKMAKVISNNNLDEIYEYAMQNGAISGKISGAGGGGFFMFIVNPEDKLQLIEAFEKKEGKVFDPNFVEEGTMAWTIK;locus_tag=LOCUS_19760;note=WP_004194045.1 dehydrogenase (Burkholderia) [pid:53.6%25%2C q_cov:99.1%25%2C s_cov:98.0%25%2C Eval:3.8e-100],MGA_1978
sequence1	MetaGeneAnnotator	CDS	2310298	2311485	.	-	0	ID=MGA_1979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRILVLSMRIPFPANGGEKITMYNYLKTMNKLGYEIDLICFDDELLGNYKEKIKDIKKQFMNIKNIEIIKVDKIHRIIGSLITLLQLKPMQLGYFSNIFIKRTLNKSIRFENYDKIFVHTIRLTGLLPKEYLKKSIVLYADSIARNYEKSKDYVGNLKKILFTIEFPLIKKYEKELSKNIYKGIFHNTIDVEYLSINNCITIPILKPKLEKFISIDENTKKRFILIGKYSYFPNVRAIEYILENKKGIEESNFSIDIIGGSLDKKYIDEIEKLKNINYLGFVDNCNKEMIDSYGVLCPVNVGAGMQNKILDAFVNGRPAISSEFSAYPYKVFIKEKYNKEMINEIITYKNSSEFIKILNKIISNFELANSYAKKSYELSNLFDLKLLEKEIEAIF;locus_tag=LOCUS_19770;note=MGA_1979
sequence1	MetaGeneAnnotator	CDS	2311498	2312337	.	-	0	ID=MGA_1980;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965618.1;translation=MKIGVVLLNYNSSEDILKLVEELYNIEEIFIVILDNSEKMDGNLLKLEEKNRDKIKYIFNNMNLGYYKGNLVGVKYLFNNHNINNILILNPDVGSNAWNKIIEKLLCYFKTEKDFIVGPKIKIPGYKDVSSPKPKFSFYKEIIYNFLFPISYIFLRKKQTKLAKKSGKVFTVEGSAYMVDAKKYISLENYFNNIFLYGEELIFGLIAEKNKWDIYFDNSINVLHYHPPRKESKTYDKYYIESLKEICNLFKISKMLENILIFSVYYKNYIKKLILKIKR;locus_tag=LOCUS_19780;note=WP_010965618.1 glycosyltransferase family 2 protein (Clostridium) [pid:28.2%25%2C q_cov:79.9%25%2C s_cov:76.5%25%2C Eval:2.0e-10],MGA_1980
sequence1	MetaGeneAnnotator	CDS	2312342	2313583	.	-	0	ID=MGA_1981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVFIGFLLLLLYRVSKDKKRTIIYTLIFSFIINCIFLIFFTINSKAGNVYGVLGSDDLFYFENAIDLVKNPQDFFHQLNSFAGGYIVFCFLILYTSFIKIPLIISIVNISIYLNILYIIYWLLKEFKFKNSRINLIMFMLSINGFLIYTNIRILKDVLLFYLVLEIYYQFLNKKRGNFLVIFLLLIFMNYIRPYSTYLMFFLLLLQNQIKKIDPNKIIKKEKYFIILGIIFIGVFYFIFKEQVDTTIRVANLTALNDAEKFGSTIVLQYINAPLYKKIIVGIIRFILLPIPIGILFSKDAIVYKILAISGSCIWWLIMYNIFYNIVMSFNRKRYQEIYLLILFSFSFVLVYVIIYLGNAEPRLRYPMYITGTIIALGRKIEEKKIRRINVLFLIMINLSMFLVVNYLQFKRG;locus_tag=LOCUS_19790;note=MGA_1981
sequence1	MetaGeneAnnotator	CDS	2313595	2314104	.	-	0	ID=MGA_1982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELVLILKKKLKAIVTSRIHFWGNNIRVNTFDDRVWTPELQFRIIKNIKKIRFKSSDINGLHNYLSYKGFKVLGGFNGNNLKRISSKIFNFLIRFNYKIVDDIKIYHLHYYDLKKAIKKNDLRKNDFENGEIIILNSFEDWKKYDRRKKHVICCINGEKELEKIKKYI;locus_tag=LOCUS_19800;note=MGA_1982
sequence1	MetaGeneAnnotator	CDS	2314052	2314399	.	-	0	ID=MGA_1983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVTISSNTLVLNEIKHIDGLIKNLLDAKVDEIIFLDGGSTDGTYEKLQEYEEEYEHIRAIRWKQPRNSEYKLGFRERDRRNLMMDLSTSDCILYIDADERISIDFKEKIKSNSY;locus_tag=LOCUS_19810;note=MGA_1983
sequence1	MetaGeneAnnotator	CDS	2314410	2315654	.	-	0	ID=MGA_1984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLLIITYDMIPYSNAWGNCQRMYYLGEYLNKKSDMEVHMIASKKNYIDNFNKEINFKIEYFPSENNEKNKKSKKSITARDLIKNIFKKFDKIYFNDPFPGMGLLGFLWYIKNKKNIIQYIKKEKINKIIISGPPFSLYYLVNDIKKINSNIKIILDFRDPWNTWNENKGIALYIEKKHLKKVDKIVVATDNAKKEKIKKFGIGIDKIDAIYNGYSEEDWEKINSFEENKIKTDKIVISYLGNIDFKQGGFRDTTNFFKAYEKLEKEKEKYKIRFIGVNKTSLVLELIKKYSEIDFIGKIPPRDAMLEMKKSDILLNIHTLEDKSSELLIAGKFFDYLRSGKKIFSISSDKSIVSKLIREKNLGIAVPNDEIDIYNAFKKILDFKNKENNINEIELFSREFQNRDYLKIIKKL;locus_tag=LOCUS_19820;note=WP_011963904.1 glycosyltransferase family 4 protein (Flavobacterium psychrophilum) [pid:24.7%25%2C q_cov:62.3%25%2C s_cov:60.5%25%2C Eval:4.5e-13%2C partial hit],MGA_1984
sequence1	MetaGeneAnnotator	CDS	2315675	2316904	.	-	0	ID=MGA_1985;product=UDP-N-acetyl-D-mannosamine dehydrogenase VpsB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000482531.1;translation=MKNIKGLKITIIGMGYIGLPTGITFARAGFKVVGFDINKNVIETLKLGKIHIVEPDLQEAYEEALQSGNLKVTAKLEKSDVYIIAVPTPFKKNENKKIADLSYVESASKMVAEVLEPGNLVILESTVPPKTTKIMTDILEENSGLSRDKFLTCHCPERVLPGKILYELEHNDRIIGAEKKEAGNLAKEIYKEIVKKGEIYITDDITAEMAKLVENTYRDVNIAFANELSVICDKLGINVFELIKLSNKHPRVNILTPGAGVGGHCLAVDPWFIVEQFQQEANVIREARLINDYKPQWIVDKVEKELDFNKNKKIGILGLAYKPDIDDLRESPSMEIALTLKEKDYDIYACEPNIISNEINGIKNLSLENLLNKVDYIVITLAHKEFIENIDKIKRKSYIFDCIGLTKKF;locus_tag=LOCUS_19830;gene=vpsB;EC_number=1.1.1.336;note=WP_000482531.1 UDP-N-acetyl-D-mannosamine dehydrogenase VpsB (Vibrio cholerae) [pid:49.9%25%2C q_cov:92.7%25%2C s_cov:94.2%25%2C Eval:1.4e-99],MGA_1985
sequence1	MetaGeneAnnotator	CDS	2316929	2318050	.	-	0	ID=MGA_1986;product=UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011203393.1;translation=MKVLIIFGTRPEAIKMAPLVKGFQKNKDKFDMKVCVTAQHREMLDQVLNIFDIKPDYDLDIMKQGQDLYDITSRVLLEIKPVLDEFKPDLVLVHGDTTTGFASALAAYYKQIPVGHVEAGLRTGNIYSPFPEEMNRKLIGSIAEYHFSPTETSANNLKKEGINEKSIFVTGNTVIDALYLVLDKIEKNRELKEKLNNIIKNSGYIISNRKMILVTGHRRENFGEGFLNICKALKEIADKNKDIDIVYPVHLNPNVRKPVNEILKEIDNVYLIEPLEYESFIYLMNKSYLILTDSGGIQEEAPSLGKPVLVMRNTTERPEAIEVGTVKLVGTNFNKIIEEVEELLTNKEEYDKMSKAHNPYGDGNACKRIIEFI;locus_tag=LOCUS_19840;gene=wecB;EC_number=5.1.3.14;note=WP_011203393.1 UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing) (Bacteroides fragilis) [pid:65.3%25%2C q_cov:99.7%25%2C s_cov:98.4%25%2C Eval:4.1e-143],MGA_1986
sequence1	MetaGeneAnnotator	CDS	2318056	2319180	.	-	0	ID=MGA_1987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAIFDISNYHYTYLYSQCKIFENDRVDFYVSKFLKKSMEKEGVLNNSNFNWIVLNDFDNKYKYYKKVIKTLNNKKYDYVFFNTLQENWLLNFYFFITVNKNIKINLTLHNINIFIKCSRKLKIKRLLRTIIRRIAFYRANSYNVYGENLKIYLEKYLMKKNINKPITGIPFSIYENIKCLNDMNNKIKIIIPGTFDLKRRNYYDIYNLLKNIKNFKFELILLGRVKKDFEEEILLEKFKKFKEVILFEEYVSEEVFDEYMRKADILLAPIIKQIEMDGVLEEYGITKETGVSFAAIRYSLPVILPKEIKVMKEIEKIALVYENFEDLIRIVTKLFDDKALIQKYTEKAKKISYTYTPLKQREKLFNELKLGR;locus_tag=LOCUS_19850;note=MGA_1987
sequence1	MetaGeneAnnotator	CDS	2319186	2320052	.	-	0	ID=MGA_1988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFFTTYGDEKFLKQKKFALIMAKMNGNFDKIMGYTPNDIDYEFYNKNKNILSQKRGGGYWLWKPYFILKTLNKINNGDYLFYSDAGAFFLKKVDILIEELKNSNQDIMGFELPLIESQWTKKELFINMDCDNDKYYNSNQILASFMLIKKTDFSVKFFEKFLEYSCNEINLTDKFDKRIEQREDFIEHRHDQSIFSLLYKKNNLKSFKDPSQFGKYPSGYSANRMKKIEYEKLYILENGRKFRVNCFSEKYKEAIYLNKKELPIRSYLKYKIKEIMYFLKLYKGLVR;locus_tag=LOCUS_19860;note=WP_004599389.1 hypothetical protein (Rickettsia prowazekii) [pid:32.8%25%2C q_cov:62.2%25%2C s_cov:55.5%25%2C Eval:3.9e-20%2C partial hit],MGA_1988
sequence1	MetaGeneAnnotator	CDS	2320049	2320939	.	-	0	ID=MGA_1989;product=alpha-1%2C2-fucosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202928.1;translation=MKVVEIIGGLGNQMFQYAFYLSLREKYGSENVALYLDRFKEVKDNNGYELERIFKIKESMISNEKVKKYIDREQNIFSKIRRKIFGVKKSYINEGEDFLYKENVYRAEKKEEILFYSGLWQSSKYFEGIEDIVRNKFEFPKIDGRDIKNNEVLIKIKNSNSVSIHIRRGDYYSNPKYKRILGNICDKNYYENAIKIISKKIENPIFFIFSDEINWVKENINFNNKEIYFIEWNKGFESYKDMYLMSQCKNNIIANSTFSWWVAWLNKNPDKIVIAPNKWFNDYKKIDIVSEGWVKL;locus_tag=LOCUS_19870;note=WP_011202928.1 alpha-1%2C2-fucosyltransferase (Bacteroides fragilis) [pid:41.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-55],MGA_1989
sequence1	MetaGeneAnnotator	CDS	2321224	2322603	.	-	0	ID=MGA_1990;product=O-unit flippase-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002208593.1;translation=MDIKISKKDIIWGYLARITQIGTGLFLLPVILKKLTNEEIGIWYIFLTVTALVNLLDFGFQTSILRNVSYVYSGAKELKKNGINILFSEEIDYYLLKKLIFVSKKIYFFISIIAFFLLITLGNVYIYSIVKGLDKANYYIYVWNIYIFSATINFYYYYYTPLLLGRGLIKESNKSLVYSKLIYIFFSFLLLNLGYGLFGIAISNLIGALFNRILSNKYFFDNETKIKLRKNKFISKKELIDLFLIIFYNSKKMGLASLGAFLTLKANYLIGAKYLSLKEFGEFALTMQIFNIAVTTAMTLFNVYVPKLNNLRLKKTMQNFLIISSKLFIISMVLYSIEGIFIILFGNKIIMFISNKELLKESYLIIIFIMYFLEVQHSIFAGLIMTNNTVPIVKSSILTGIFIIFLSFIFLKYFSIGILGLILSQFIGQLVYNNWKWPFMFFLDFRITFFNFIKLALKK;locus_tag=LOCUS_19880;gene=wzx;note=WP_002208593.1 O-unit flippase-like protein (Yersinia pestis) [pid:30.8%25%2C q_cov:96.5%25%2C s_cov:98.2%25%2C Eval:1.4e-58],MGA_1990
sequence1	MetaGeneAnnotator	CDS	2322656	2323387	.	-	0	ID=MGA_1991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLATLLLTGTIRPNLNTPYLNLVDSDKRRKQYIENLEKILKLKEVKNIIFCENTNYNFELDEGFKRLRLIAKENNKLIELISFLGNEDMIIKKGKGYGEGEILKYAILNSEILKKIENEEDDSFFKLTGRLYIENLNFLLKVKSKNTFFKQYPRTKSVDTRFFKVSIKFYKAELIDIYENVDDRTFYFLEHCFYAQLKNKKTTYFKQYPIFKGESGSTGEIYRKDFKVFLLKIYNKLGLLKVK;locus_tag=LOCUS_19890;note=MGA_1991
sequence1	MetaGeneAnnotator	CDS	2323414	2324340	.	-	0	ID=MGA_1992;product=GDP-L-fucose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941290.1;translation=MDKNAKIYIAGHRGMVGSAIIRRLNELGYSNIIHRTSKELDLRRQLDVEKFFGEEKPDYVFLAAAKVGGIHANNTYPAEFIYDNLMIETNIIHSAYTYGVKKLLFLGSSCIYPKFAKQPMVEEELLSGYLEPTNEAYAIAKISGIELCKFYRRQYGVDFISAMPTNLYGINDNFDLETSHVMPALIRKFHDAKVNGDKEVVMWGTGKPRREFMYVDDLADALIHLMNNYSDEIHVNMGTGEDIEIRELAEIIKKVVGYKGKIVNDISKPDGTPRKLLNVDRLHKTGWKHKVKLEDGIRKVYEWYLERD;locus_tag=LOCUS_19900;note=WP_010941290.1 GDP-L-fucose synthase (Geobacter sulfurreducens) [pid:66.9%25%2C q_cov:99.0%25%2C s_cov:97.1%25%2C Eval:5.3e-119],MGA_1992
sequence1	MetaGeneAnnotator	CDS	2324572	2325915	.	-	0	ID=MGA_1993;product=IS3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_094396572.1;translation=MSNKIFTKKEIEILSKNKYVKTISSKAITYTSEFRRIFIAESQDKILPRAIFEKYGFDVQVLGMKRIRSAAARWRRAYKEQGVLGLDDRRKENSGRPLERELSLEEKYERLQVKNDYLQAEIDLLKKLDVREREVNGKLIELSPSEKFVIIKDVIETSGVKNIIKYLCEVAEISRTSYYNYLSETSKTNKSNQELEDEKARDLIIKAYEFKGRQKGARQIKMTLENEFATIFNLKKIRRIMKKYSIVCTIRKANPYKRIAKATKEHTTIPNKLNREFKQEIPGKILLTDITYLSYGNGQRAYLSTIKDSSTGEIPAYVLSKNIKLEIATETIRTLMENKSFKIHKDALIHSDQGVHYTSPTFQKLVKNSGLDQSMSRRGNCWDNAPQESFFGHFKDEANIKECNTFEELINEIDDYMDYYNNYRCQWGLKKMTPIKYRNHLLENKSA;locus_tag=LOCUS_19910;note=WP_094396572.1 IS3 family transposase (Bacillus cytotoxicus) [pid:59.7%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.4e-155],MGA_1993
sequence1	MetaGeneAnnotator	CDS	2326117	2326431	.	-	0	ID=MGA_1994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGIVYKDSSYKIIGIAMEVHNELGNGFLEKVYENAMMVLFHEKRIYAEQQKNIKVIFHGKEIGSYIADILVGNKIILELKTVEKIKDIHRAQLFNLLGKYKFV;locus_tag=LOCUS_19920;note=WP_011963175.1 GxxExxY protein (Flavobacterium psychrophilum) [pid:40.8%25%2C q_cov:94.2%25%2C s_cov:74.2%25%2C Eval:9.8e-17%2C partial hit],MGA_1994
sequence1	MetaGeneAnnotator	CDS	2326524	2327606	.	-	0	ID=MGA_1995;product=GDP-mannose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107662.1;translation=MSKVALITGITGQDGSYLAELLLEKGYEVHGIIRRSSSFNTGRIEHLYIDELIQDMHKERKVKLHYGDMTDSTNLIRLIREIEPTEIYNLAAQSHVQVSFEVPEYTADTDGIGTLRLLEAVRFLGFEKKTKIYQASTSELYGKVQEVPQSETTPFYPRSPYAVAKMYGFWITKNYREAYDMFAVNGILFNHESERRGETFVTRKITLAVARIKSGKQKKLYLGNMDAKRDWGYAKDYVECMWLILQYDKPEDFVIATGEMHTVREFTTLAFKEAGIELEWQGTGIDEKGVDKSTGKVLVEVDPKYFRPTEVEQLLGDPTKAKEKLGWNPTNTSFKELVKIMVKSDMKMVAKEERIRKSFD;locus_tag=LOCUS_19930;gene=gmd;EC_number=4.2.1.47;note=WP_011107662.1 GDP-mannose 4%2C6-dehydratase (Bacteroides thetaiotaomicron) [pid:79.7%25%2C q_cov:96.9%25%2C s_cov:98.0%25%2C Eval:3.3e-166],MGA_1995
sequence1	MetaGeneAnnotator	CDS	2328003	2328503	.	-	0	ID=MGA_1996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKITKEIEILEVLEDNPTMTQREIAKRTSFSLGMVNSLIKKCVKTGLLKTEQMTPKTMKYILTPQGIKEKTKKTLRYIKKSYNEIIKLSNKINIIIENSLDKNIYLLGEKDEIFEIAKMTLDSKKVVYEHILNKEDIKKGDVLVLLWDIELENELENEFVNLISK;locus_tag=LOCUS_19940;note=MGA_1996
sequence1	MetaGeneAnnotator	CDS	2328748	2329893	.	-	0	ID=MGA_1997;product=major facilitator superfamily domain-containing protein 6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003242781.1;translation=MDKKEYLNYRILNFSIFFGGGAFFAYVGKYLDSIHFTGTEIGIIISLGALISIFVQPIWGYMSDKTGEYKKILMFLIVMLSFLEISLSVFKDFKMAMLMFFIFYLFNCGMGPIFDTVLSTAKYDYGKMRLWGSVGFAVGVFFTGIMIDLTNIYAIFVVFPMFYVISFYILRKIDVKGAKPQDNIDYHDILLLLKNKKYILFLLSSFFIMGTMYANNTYFSIFYEKIGGEVAGTGFAFLLFALSEVPFMSKSNEIIKRIGSEGALVLAASSFFIRWIVYSLMPSPIIIIATFFLQGLSIGLYIVVAINYIKENTAKERRTMALALYSVSTGGFSAMFFQFIAGFIYEKYGIGKSYLLMGISVLIGIFILIYMHFVEKKRVAG;locus_tag=LOCUS_19950;note=WP_003242781.1 major facilitator superfamily domain-containing protein 6 (Bacillus) [pid:30.6%25%2C q_cov:94.5%25%2C s_cov:91.5%25%2C Eval:2.5e-47],MGA_1997
sequence1	MetaGeneAnnotator	CDS	2330495	2333176	.	-	0	ID=MGA_1998;product=alpha-amylase family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011106540.1;translation=MKRVLLALVVLVLAIYGCEKKDKVVVTKTATAKKSSTKKAIKTVKKDEVSKYLQVSSPSWKDQIIYFVMTDRFNDGDPTNNDQGAGEYDPTKNSHYSGGDIKGVTDKLDYIKDLGVTAVWITPPVANQWWDPWVNYSGYHGYWGENFKEVDKHLGTLDDYKELSATLHKNGMYLIQDIVPNHTGNFFRYKGKYNPNDLSENYEANLESKPTVKPTQFPFNLNDPRKEEDRKAGIYHFTPDITNFKDQKQIKSYQMSGLDDLNTENPVVRDALKDSYNYWIENVGVDAFRIDTVVYVEHDFWNDFIHSKSPEHLGVQEFAKKFKKDDFFTFGETWVNVDPYSPSGDEAASSYQGTDKKPEISSVLDFPLHITLQKVFGEGKATDTLTYRLGNSDKYYKRPYRLLNFIDNHDMNRLLTSAPYIAVKQSLMFIMTTPGIPVVYYGTEQQFTETRGSMFAEGFGSGGKDHFDENNDAYKFLQSIIKIRKENAVFRRGKLSVIKDTNTGAGIFSYKMEYKGKTGLVIFNTSENPMLLDNLKTGLAEGTKLKLLKGLSRADKDIVVGKDGKISKILAPRAGLLYMATDEKVEIGDNSESVSLIGVKNGMKLSNNYAISGKVNGAKKLLLVFDGAVKNGVKITANEDGSYTGEMPVESMSNGKHTVVAYAKTADRKKYILSETYKFIVDIPFVKAAEYNDKVGDDHGPTGNYKYPTAETFTNQMDIKKATIYTAGKNLKVSLEMAGDISTMWNPKYKFDHVSINIFISVPGQEGIEDLPFQNAKMPNGLKWNYMTLEGGWTNFIYSSRNASAKSWGSPVSPSPVINVIPEKKEMNFTISGSSIGNPKTLKGIKVYIATWDYDGLENSYRGITPEGKAYIFGGGDENSPKIMDDIPVLEIK;locus_tag=LOCUS_19960;note=WP_011106540.1 alpha-amylase family glycosyl hydrolase (Vibrio parahaemolyticus) [pid:38.3%25%2C q_cov:93.8%25%2C s_cov:96.2%25%2C Eval:4.1e-180],MGA_1998
sequence1	MetaGeneAnnotator	CDS	2334000	2335427	.	+	0	ID=MGA_1999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVSLLVVMMFLVLFTGCSLTPPKTPQNLVAKPIEKGIELYWDGVNGAKEYKVYSSKSESGEYTEIGNTNSNNYKITDLDAETIYFFKVNAKNNLGSSDDSEVVSASPKLEKPKNLKYEFKGYSLKLTWDSVENVTTYQILKSEGDNKNYSLLNTTEKNYFTITNIVNGKNYSFVVKSKNTLGVSDASNKIFITVKLPPTPPQNFTVSSGNSTALLTWDNVEKADFYNIYQKDAEGAETLVAGNIEKNEYTVEGLQNKTKYYFAVSSSNSNGEGDKTEYKLITPYNPDEKPDATTISVSKSNDSIKISWNKVIGATSYKIYYSTTQGGTYHKLKETTNLYYYDSYFDYDTTYYYVVKSINKAGESEYSNEDYITIHKLQPPLVPTNFTAYIDHPSGDVILTWDASYTAKYYKLYKIKYYDTPYQEITVVNSSIYTTSYNLGYLDSGEYIYALSAVNDAGTSEQYSIYGFTVTRR;locus_tag=LOCUS_19970;note=WP_126140198.1 pectinesterase family protein (Paenibacillus whitsoniae) [pid:24.7%25%2C q_cov:65.7%25%2C s_cov:14.4%25%2C Eval:1.0e-19%2C partial hit],MGA_1999
sequence1	MetaGeneAnnotator	CDS	2335640	2336032	.	-	0	ID=MGA_2000;product=DUF2721 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008762404.1;translation=MTLTTPALLFPALSLLLLGYTNRFLTLAQLVRGLHDHPESCVNRIIVKQIENLRIRIRLIRDMQFLGVLSLFFCVLSMTFLFISQEFLGDVIFGISLLLMLGSLALSVKEIGISVDALTLEMSDCEIGNR;locus_tag=LOCUS_19980;note=WP_008762404.1 DUF2721 domain-containing protein (Bacteroides) [pid:43.7%25%2C q_cov:91.5%25%2C s_cov:88.1%25%2C Eval:6.1e-19],MGA_2000
sequence1	MetaGeneAnnotator	CDS	2336182	2337003	.	-	0	ID=MGA_2001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNYQIAIITMSLFFMLGCSSTSKKIRQETLSSALKKTEKVKKEDRKVKKAVYKTKDEFYITEPERETIDNRVYVSKTNYYVSNKGFKEISGFKFDYSTVFYSNEIKDIDYYKIFYTYKALKKDGIKSQIELELYLGMGKVEFRNDFSYVNEIKTPISLTFGGNIKAVIAKINKNMFLKFKVGLNRGEVGWFYKNELWDDEGEIITGDGIGMTEIKTGVEMEYLSHSGLKTMVGVSPGIIFFKDYTSEGFKNDVINFGFGLTYNIGIGYEFF;locus_tag=LOCUS_19990;note=MGA_2001
sequence1	MetaGeneAnnotator	CDS	2337739	2339292	.	-	0	ID=MGA_2002;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKEFNITGTCIPEEHYMVDTSLKLNEMMKFVEKRKYFTINRPRQYGKTTMMYLLEKKLKNNKDYFLIRMSFEGMGNESFENEEIFSKTFIEMMADKIENKNKEICQYLYLELKNIGKLKDLSKLITKLIKKIDKKVVLIIDEVDKSSNNQLFLTFIGMLRDKYLSRNEGLDNTFHTVILAGVHDVKNLKLKLRPDENRTLNSPWNIAVDFDIDMSFNPREIATMLIDYEADAKTGMNIKEMSEKIYMYTNGYPFLVSKLCKVIDEKLNRDFTKKGIEEAIKITLENPNTLFDDIIKNIENNREFYDFIEKVILGNDKVDYVHTNKMVSIGKMYGIIKEKNKKVEIDNKIFEILIYNHMIANREIKKGVVLTYEFRTKFIEDDGNLDMELVLTKFQELMKAEYRKIDEKFVEREGRLLFLAFLKPIINGTGFYFVESETRESNRMDIVVTYNMKKFVIELKIWRGGQYEQEGREQLCKYLEAQNLDKGYMVFYNFNKGKEYVKDSIMVEGKEIFEIIV;locus_tag=LOCUS_20000;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:43.6%25%2C q_cov:96.7%25%2C s_cov:95.6%25%2C Eval:6.4e-124],MGA_2002
sequence1	MetaGeneAnnotator	CDS	2339471	2341663	.	-	0	ID=MGA_2003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIMAIFTVGLIMLGGCGAPQVKKETKNVVKKVEKKVIADITLSNVPSKLPEYSNINKGNIWKNLLIVYPDKNRGGYIIGRGIQADISRKNKMKKRIKMVKDTEVTKEMLASHNLILIGNTKTNRVLQQMDKYLTIKANGDKVIIGKKEYVGKNYGVTYYYPNLYNLNNSMILVMGNSGTALKEYDFKKYDLIAFEGIKQMIPVYSKEKGYGRFNQDWKLDFLEVDPSALDTGENVKLKVGDIKKYPFPKWAEGKVIYEIFLRSYYDSNGDGIGDIQGLIKKLDYIKSLGADIIWLTPIFDSPSYHGYDIKNYFKINKDYGTVEDFRELAEEMHKRGMKLVLDLVLNHCSNQEPHFRDAHNNPNSKYDKWFYFSNIQNTIYHDWFFRDDDNRRDTINSHMPAWNTNNIDVVNFQVSIAKFWMDPNKDGNMNDGADGYRLDYAKGPSHNYWKLFRQKVKAINSKTLLLGEIWTDLDKLPPYFDNEFDAAFDFSLQGAMTSGVFKDVDDTLKSEEKVLPKNAVMARFLSNHDLDRFPTYIPKNQLKVYAALLMTLNGMPTLYYGDEIGQKGEGSDGDEGRRAPMEWYKNNKGAGMTSWTSVYNKNVDGISVEEENGVKGSLLNEYKKLIKVREKYIDIFGTGKAEFITAYEMKNGKEKKARRVLSYFVENGGKKAFVVLNFGKAGEYSLKFDKNYNEEYKEVLNGGENLVLNGNKLKVNLDAFSAKVYIVE;locus_tag=LOCUS_20010;note=WP_012256420.1 alpha-amylase family glycosyl hydrolase (Chloroflexus aurantiacus) [pid:33.1%25%2C q_cov:59.6%25%2C s_cov:77.9%25%2C Eval:1.5e-55%2C partial hit],MGA_2003
sequence1	MetaGeneAnnotator	CDS	2341660	2343396	.	-	0	ID=MGA_2004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTIILLMCIISAMIYANYDKDMYVVTKINGKEVIFPQKTATYIETMLNSDSVDSYLKLFEVYNKLGYKELSLKFLKEYTKKGKPTLELAEKLFQAGEYKDEIEILNNLMKDMPLWKQLKLKSYIYNLIENEGLDIDKTSYKVSNIDYLFSLLDYEKDFYDYYKENRWSDNEKIIIKNRLKIVDMKGKKQLQEIFFELSNKFEKLSFYYNNIEAVSDKEGFFQYFSKAKELGIEISFHNIIEKIYYLKYTGKTDEYQKEIDKTLNYYIKTKNYEGMYELYTITKQFKIIYNLALENDFYFYKLIFENINSDDFDKLTKEFEEKYPDSKFMTNILKMKLMKADTNKKRLELINKILEKEFTRNLFEKKIDILKKLDVEKAKQELENFIINKSEEEEFIYEYEKISNDNKEVYDFLDKLDNKKYIIEYCEEKNIETAKEYSDDAIKYFMDKKEYGKLLKYKGNLTYEEYYKLINLGKEEFKESAAKKYPFELKFSDINNFKYIYFNDNFINYNIDDIEKIENKENKTDAEYFYLAEYYDYIGDTKRAFKNINHIYKKYKSYTKIIGLYNKIKSEEGNVE;locus_tag=LOCUS_20020;note=MGA_2004
sequence1	MetaGeneAnnotator	CDS	2343393	2344982	.	-	0	ID=MGA_2005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKRYPILIIMLLLLTYLSFGATYRGELIAKDRKITIDFKDVDLLDVIRIISRKFNLNLIAGNDVTGKVTVSFNNVPVDDAFEEILKINGYTYVKVGDIIRVISYQEAEKLYPKKVEKAKIVKKTKIYQVYKIYKGNINDIISKLKEILEKDDKIIGEENESKILAWVDEDEIKTLEMVINELDVGKEKVKEDKITEIFNAKYLKAEDLIGIIRDLDIKINGKITMNKTLNSVIIKGTKQDVKDIKNVFEKFDVPPLQVTIEAKIVEVAEGKDGTAGLNWTYVLPKDKVSGNNFELGVGDTTTANRASDGLALKIGMLDIDNFQMLYKNLLTNTNTNLLSSPNITTISGKKATLNIGDKVPYKETSGTGDTAVSSYKFEDVGIKLNVTPVITEDGKINMSITPEVSSVSSYTPDNVPMISTRSADTNVIINNGQTLVIGGLIKNRVTTTITSIPILGDIPILGELFKSKIKNNNKTNLIIFITPKIIKTRNFMNNINLNEVNAENRKKVKDKLIKKIEIKKSEVRDEK;locus_tag=LOCUS_20030;note=WP_012583398.1 AMIN domain-containing protein (Dictyoglomus turgidum) [pid:25.5%25%2C q_cov:87.3%25%2C s_cov:37.6%25%2C Eval:5.9e-40%2C partial hit],MGA_2005
sequence1	MetaGeneAnnotator	CDS	2344982	2345509	.	-	0	ID=MGA_2006;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNKINNKKNFYIILILVSLLLAGIIYFFPTKKNKSVQNKNITKKILNKKDNKAMNIKEEKQVDLKNKATKKDAINKKELIKTRIIVRDIFNSKYLYTKEKVNNQKEKIKEELNFKVMGIAISDRGNKSIILNNGMILKEGDKVGNFKIVRINKAEVIVKNSLGKIIKLNVWEGE;locus_tag=LOCUS_20040;note=MGA_2006
sequence1	MetaGeneAnnotator	CDS	2345499	2346074	.	-	0	ID=MGA_2007;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKIKNKFSKLSKDDKEKGALIIVGYMILISFSYNFIFKNDIENIAINKKKLLNYKFEYAKSVGKMSKLKDKKAEIENKTKEYNNLKKVYINSSEKQFLRNEIIQKGKDWKIQFKTVDFMEENGKFYKKFVIKLNISSSYSNLLNYLNSLNNLSKKLIIDNIIVKKNSKLVNSTITIHTIIMQKGDKNGE;locus_tag=LOCUS_20050;note=MGA_2007
sequence1	MetaGeneAnnotator	CDS	2346052	2347653	.	-	0	ID=MGA_2008;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKSLIISIEINRIKFILIDKSKRMKILYNEIIEIDDNVEDKKSYIINIIKNKIKDKKLGKNSIYLEYNFPNIPCRGLKIPIMPEDELKQVVKREVGKIFPDRDLSNLVYQNLGEIEVEGKRFYSIFYILLSKDDIDFFKRLNVKLSGIDFEVFSLDRIFKKRTKEEENSVLIDVSKSNTIIMIYKEKILEVYREIPIGWDSIVKSIMNNFQISREEALKKMKIYGYIDKDIAEELINKNENSNEDEIRQINFIYETLGNNLLRKIENSIIYFKNNNRGHDINTIYLTGEIFEVSRMEDFFMRDFSMYNHEAYSGVAELDIEDSEDFLAKSMIFSDMLGTILMTKPPMEFVREEDKKKIENIKKYKKISFFAIIFILPVLVIYLTIMWENIVSKKELVKFQKMTKELQPLVKEYDKLDGKTLKLDEDIKNIKNLNKDNSIIDFFYRLNEIAVERIYFTSIKYNKGTVVLNGKCISEDGFPEIYINDFFRRLEEEYKNVVLNWMKKATIEKKNGAEFSIKLDLEVENVKKNKK;locus_tag=LOCUS_20060;note=MGA_2008
sequence1	MetaGeneAnnotator	CDS	2347664	2348251	.	-	0	ID=MGA_2009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSGSSVIIVIFFMIVLIIIGIGISSIADKGLESGISTEQINIDDANADGISNVVMEEQISTGDDNWSQDLTDNPGHKMSKVKTYIFVNNKIKEFTFKMKEIPGETITNISKIYITVIERNINANWELDYIKKEESSLTVIDDTKAGETLTKSYISQENGELNKEYKIKLKSGFNGELTNRDKVYKVIIRIFYE;locus_tag=LOCUS_20070;note=MGA_2009
sequence1	MetaGeneAnnotator	CDS	2348269	2348886	.	-	0	ID=MGA_2010;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRGFTLIELMISIAVMGFIMAGIGKIIIFATKAYTMNVEITDSITKIKPVLKRIENKLIESNLTVTPELNDIVKDNSGNVVGVRIKDKENNYYWYWWDENGNGTRDTTEDNSDLGKGKNFYRDNIPIFRSKGTDWAESSVKLTSVKFVFYKTNNSDVTTVIENPNTGDLVNADYMKIIIKEQGAISDNKIAPELKFSTGFKFK;locus_tag=LOCUS_20080;note=MGA_2010
sequence1	MetaGeneAnnotator	CDS	2349141	2349776	.	-	0	ID=MGA_2011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKLGKKLEDKLGNRKDNGFTLVEILIAIVILTLAVFPFLQVIANNTNVTIEGKRKFVASHYAKELLEEIKLKRFDEKKKKRDTPNAGQWSRVETGTAIIVREDDEDKSSINRAENDWDDIDDYNGYNESGIGILDFNGLDSNKEPEDKNYYRKVSVIYVNDSDLTPAPIDTTTDTKKVKVECYYKDSYNINNNYNTKNRVVLIWYLKKK;locus_tag=LOCUS_20090;note=MGA_2011
sequence1	MetaGeneAnnotator	CDS	2349742	2350896	.	-	0	ID=MGA_2012;product=aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108945.1;translation=MAEIKSFKVMDILEKANEMEDIIHLEIGEPDFDTPIEIKNEGIRAIKEEKIGYTHSMGKKELREAIAMYYNKKYGTNLKYKNVVVSAGTSPALLLAVYTAMEFSGKNEILVSNPGYACYPNFIKFLNGKVSYYELSSEDGFSINIEKIKEKITDRTAAILINSPGNPTGVVLKKKDYMELAELGITIISDEIYQGLVYEGKQYDTILNYTVNAIALNGFSKLFAMTGWRLGYLIIPDRYIMLTQKLEQNLFISANTISQYAAIEALTNENVDKQINNMVKEYNKRRLFALAEIKKWGLKVAANPLGAYYIIIDVREYTNNSLIFAYKTLEKARVAVTPGIDFGTNLEGFIRISYAVSIENLEEGIKRLGEYLQNEKKIGKETRR;locus_tag=LOCUS_20100;note=WP_011108945.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Bacteroides thetaiotaomicron) [pid:45.7%25%2C q_cov:96.4%25%2C s_cov:96.3%25%2C Eval:5.4e-90],MGA_2012
sequence1	MetaGeneAnnotator	CDS	2351057	2352061	.	-	0	ID=MGA_2013;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016472.1;translation=MRILGIETSCDETSIAVVEDGKKIFSNIISSQIDIHKEYGGVVPEIASRHHIKNIMAVLKEALDESNFELKDMDYLAVTYAPGLIGALLVGVSVAKGLSYGSGIPLIPVHHIKGHIYSNFIEQDIELPAIVLVVSGGHTNIVYMDEEYKFESLGGTIDDAVGEAYDKVARVLGLQYPGGPKIDKLYYEGNSKFLKITKPKVPGEYDFSFSGVKTFVINYLNKMKMQKKEVIIEDIAASFQETVVDILVEKTIKAAKEKNVKNILLAGGVAANSLLRKEMKEAGEKNGMEVYYPSLKLCTDNGAMIAAAAYYEVKYRGIEMAKLNLNGIANRELD;locus_tag=LOCUS_20110;gene=tsaD;EC_number=2.3.1.234;note=WP_011016472.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Fusobacterium nucleatum) [pid:68.2%25%2C q_cov:98.8%25%2C s_cov:97.4%25%2C Eval:5.6e-125],MGA_2013
sequence1	MetaGeneAnnotator	CDS	2352058	2352939	.	-	0	ID=MGA_2014;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583014.1;translation=MGYLAIFFTILFFSTIEVVSKIIGNDIDPIYLAFLRFFLSGIVLISFDFKKIKKIKKNDFIKLTLLGILGVTISLGAFHLSLKYIDAARGAVIFSLNPIFSTIFAWLILKEKMNTKIGIGIFIGFIGAYIVCFGFDLINFKSLTGPLLMLISATSFGAYIVLAKKYIKLYGPFFTTGFVFFTGSLWYLPFIKSYNILNFSKNIGYIAYLIILGTGVAYVFYFYGLRKIPVSAGSSMFYLKPVLASIFAYYILKENFKVSFFTGIILIIIGMSIILIPERKFLFKKNINKGESK;locus_tag=LOCUS_20120;note=WP_012583014.1 DMT family transporter (Dictyoglomus turgidum) [pid:27.2%25%2C q_cov:93.2%25%2C s_cov:96.9%25%2C Eval:1.6e-21],MGA_2014
sequence1	MetaGeneAnnotator	CDS	2353173	2353988	.	+	0	ID=MGA_2015;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765762.1;translation=MNKTIFVTGSSSGIGKETVKYFQKKGWNVAATMRSPEKEKELNKLENVKLYKLDVTDNDSILSSITSAINDFGKIDVLLNNAGFGTNGIFEAATDEQIYRQFNVNVFGVMRVIKGILPHFKNNKSGTIVNISSMGGLVTIPLYSLYHSTKFAIEGFIESLQFELATFNIKLKLIEPGAIKTDFYSRSKEVLMNDNLSEYKNYFDKVTKNIDNAGNNGLPPIAVAKKIYKAVTDNSNRLRYSIGKEAPYLIALKRFIPNWIVFKLTKFVMEK;locus_tag=LOCUS_20130;note=WP_008765762.1 SDR family oxidoreductase (Bacteroides) [pid:32.1%25%2C q_cov:97.8%25%2C s_cov:95.5%25%2C Eval:1.1e-37],MGA_2015
sequence1	MetaGeneAnnotator	CDS	2354086	2355012	.	-	0	ID=MGA_2016;product=pseudouridine-5'-phosphate glycosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948816.1;translation=MLNIKKYLDVNEEVKKAIEEGKPVVALESTIISHGMPYPQNVETALKVEAVVRANGAIPATIAILNGRLKAGLTKDEIEYLGKAGENVTKASRRDIPFIIAKKMDGATTVASTMIISALAGIKVFATGGVGGVHRGAETTMDISADLEELANTDVAVICAGVKSILDIGLTLEYLETKGVPVVGVRTDELPAFYTRKSGFNVDYKIEEEKEVALAMKAKWDLGLKGGFIIANPIPEEYQMEYYTINEAIDKAVKEAKEKGIKGKESTPFLLSKIKDLTGGDSLASNIKLVYNNAKVAAKIAKEYSELG;locus_tag=LOCUS_20140;note=WP_011948816.1 pseudouridine-5'-phosphate glycosidase (Clostridium botulinum) [pid:73.0%25%2C q_cov:98.7%25%2C s_cov:99.0%25%2C Eval:5.3e-127],MGA_2016
sequence1	MetaGeneAnnotator	CDS	2355436	2356530	.	-	0	ID=MGA_2017;product=PfkB family carbohydrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948815.1;translation=MTNRENQILEEIRKNPLISQKELAEKLGITRSGAAVHISNLIKKGYITGKGYIVRENPYVCVVGGANIDIYGFPFKKLIKNDSNPGAIKLALGGVGRNISENLVKLGIDTNLITVLGDDIYADNITEHSREVGIKIENSLIMKNSNSSTYLSILDENGNMDVAIAAMDIFENMNVEFIKTKDKIIKNSNLCVIDTNIPKETIEYIVKEFSGDTEFLLDTVSTSKAMKIKDIIGYFQIIKPNKIEAEILTGIKIKTDSDLKKAGDIFINKGVKTVIITLGEDGVYYQNEEKSGIFKTKKVKMVNASGAGDAFAAGLAYSHINSLDIYESVKFSAMASIVAISSEETINPKLSVEEIHKIERELER;locus_tag=LOCUS_20150;note=WP_011948815.1 PfkB family carbohydrate kinase (Clostridium botulinum) [pid:57.3%25%2C q_cov:99.5%25%2C s_cov:99.2%25%2C Eval:1.8e-116],MGA_2017
sequence1	MetaGeneAnnotator	CDS	2356753	2357598	.	-	0	ID=MGA_2018;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000830855.1;translation=MKKIMKNIFIGFVLIINTVSCVDMERSVLFAGNSKNSDYNFSELKIPKDSWELVKMNYGNCDNYGLYVKGKNDVYKDKIVLFFHGNGGRIDKGTQIEMANFFYENGINFFAMEYRGYGQSSGFTTTEASTYEDAQYAYNYLLTIDSGKFKDGNIIIMGHSLGSAVAIDLATKENEKSLITMSAFTDFTNELKGFTSFDIPGSWISDAKYDNINKIDKINSNVLFIHGSNDKMVSPSNSKDLFNKARGTKKLMIVEGAGHDDIGEKLDDKTKAEIIKMVSDN;locus_tag=LOCUS_20160;note=WP_000830855.1 alpha/beta hydrolase (Leptospira) [pid:29.0%25%2C q_cov:93.2%25%2C s_cov:93.8%25%2C Eval:7.6e-21],MGA_2018
sequence1	MetaGeneAnnotator	CDS	2357611	2358210	.	-	0	ID=MGA_2019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIIVVASLCLLITGCTGLSVGKNMVKKDDVVYEIAVGMNSSPNISGGVKYGVNDKLNLDMNITSPVFASKNIIMFEPALVKNIIKQNGKRPTLNGYLSFPTLYSLKTSDIKIYPVIGFVPKYEGEKWGGYMVFEELTEFRSDEKKVSLKTNIKLGVEYKIREKWALDLEIGVNNIGYKNMMADFGYPVIMFGTTIKQ;locus_tag=LOCUS_20170;note=MGA_2019
sequence1	MetaGeneAnnotator	CDS	2358376	2359131	.	-	0	ID=MGA_2020;product=hydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941404.1;translation=MFIDIIKNRAEQGNRTSKYPKGKISLPKNYRGVPVINPECSKEVVEECAKICPQDAINVENKSIDLRKCTFCGECERVANGEFVKFSQNFEMGVTNENDLIIDKENKKMEIESKEYFKKIFGGALQLRVVSAGGCNSCEADINVLNTPVYDLSRFGIQFAASPRHADGLLIVGPVTKNMEYALKKAYEAVPNPKVVIASGACALSGGVFRDNKEQLNGVSNLFKVDLFVPGCPPHPMTLLYALVKFFKKDK;locus_tag=LOCUS_20180;note=WP_010941404.1 hydrogenase (Geobacter sulfurreducens) [pid:46.4%25%2C q_cov:94.4%25%2C s_cov:94.0%25%2C Eval:3.2e-57],MGA_2020
sequence1	MetaGeneAnnotator	CDS	2359517	2361043	.	-	0	ID=MGA_2021;product=NADH-quinone oxidoreductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941403.1;translation=MNNKFINIKNGEKINLENITIMEFKDFYNEMLELSEKNAKIVQYFGFKDENKKIKLVAILRTEKLWLGITEAPNKYESLTNKIPQLNMFERELAEQFGIEIINHPWMKSLRYHKNYTGKKDAFKNDYKEVIPGNYPFYEVEGEEIHQVAVGPIHAGVIEPGHFRFNCIGEKVLHLEIQHGYQHRGVEKQLLKASMKKLPLIIESVAGDTTIGNSIAFSEAIESLADIKLDKNQLLIRGIALELERIANHVGDLGALSGDVAFLPPAAYYGRMRGDFLNILLDICGNRFGKGLIRAKKARFEISESQKNDYLKRLEQLKKETIHVGDMIFAQAGVVGRFEDTGKVNKETAEQLGMVGFTARASGIKYDVRDSFPTGIWEKVKVEKIREKSGDVLARALMRYREVKESFELVERFLKELEFYGEKESENEEKKEIELGVNSLVVTMQEGWRGELSHCVITDSKSEILRYKIKDPSFHNWDGLAFALRNEAIADFPVCNKSFNLSYCGFDL;locus_tag=LOCUS_20190;EC_number=1.6.5.9;note=WP_010941403.1 NADH-quinone oxidoreductase subunit C (Geobacter sulfurreducens) [pid:41.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-119],MGA_2021
sequence1	MetaGeneAnnotator	CDS	2361036	2362463	.	-	0	ID=MGA_2022;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941402.1;translation=MAELVILIPIIAGILSLLVKNKYGRWLLPITGLIHIIFTILIWRGISVPLFNEYVGIKPEGILVLAVTSYLFFMISIYTVSYLKEEKMENEKLFTSSMLFFLASMSSVAISNSLILFWISVEATSLTSAPLIYVHKTKTALEATWKYVLVCSVGIALALLGTFLIAIARDKAGLSINLNFTELEKNAMLLNKDWLKIGFLFILIGYGTKMGLAPMHTWLPDAHSEAPSPASALLSGALLNTAFLGIFKMSRILHLAELGKFADVSLIILGLLSTVVAAVFILKQYDYKRMLAYSSIENMGIIAFGTGIGGIAAYGAMFHLVHHALIKSSLFLSAGNVLMSYKTKLIDKVGNIFKFLPKTAIIMFAGFIGIAGFPPFGLFFSEFFIVLGALRRGAYISAGIFVLSLILIFAGLSKYVVKMSFGESEVEPKVKENRWRVYPQYILLFTSLVLCYMQINQISDIMTSAVAVIGGMIHE;locus_tag=LOCUS_20200;note=WP_010941402.1 proton-conducting transporter membrane subunit (Geobacter sulfurreducens) [pid:35.1%25%2C q_cov:94.7%25%2C s_cov:95.2%25%2C Eval:7.4e-71],MGA_2022
sequence1	MetaGeneAnnotator	CDS	2362468	2363103	.	-	0	ID=MGA_2023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004542749.1;translation=MITISHIMLSVILLSLIFALNSSRLRILIMVMFLQGALVSIMPMFLEEKISTITAIFILITLTVKGFLIPWLLMSVFNKIKIKKEIEPIIGYNFSMFIALFIIVLSTYLGNKVHFPIGGNLLGITAMATIISGMFLLTSRRKTITQIIGYLMMENGIYLIGITLSNKSRYIVEFGVLLDILVGVMIMVIVLQQINITFHDINSSKLKNLKE;locus_tag=LOCUS_20210;note=WP_004542749.1 hypothetical protein (Burkholderia) [pid:27.4%25%2C q_cov:96.2%25%2C s_cov:94.5%25%2C Eval:1.2e-13],MGA_2023
sequence1	MetaGeneAnnotator	CDS	2363100	2364020	.	-	0	ID=MGA_2024;product=NADH-quinone oxidoreductase subunit H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941400.1;translation=MKSIILFVLTVLISPLFAAIILKVKAFFAGRKGPSIFINYYTLIKLFKYKSSVYSETTTFIFRMSVIISFSVITVVLMFFPFGGVNSIFSFKGDMIFIIYLMALGRFFTILAALDTGSAFEGMGASREAYFSIIAELTLFMTFIFIQKITGTISFSKSLSIANGMNLWGMYGASLMLIIISLFMILLTENSRIPVDDHATHLELTMIHEVMVLDHSGPELGLIHLGANMKLMFYSVFIARLIVPFSFRNFWVDIIVFYIVVALIYLFIGIVESIMARFRFTKVPKYILTSFALVFFANIIILGRLK;locus_tag=LOCUS_20220;EC_number=1.6.5.9;note=WP_010941400.1 NADH-quinone oxidoreductase subunit H (Geobacter sulfurreducens) [pid:43.1%25%2C q_cov:97.7%25%2C s_cov:98.3%25%2C Eval:2.4e-63],MGA_2024
sequence1	MetaGeneAnnotator	CDS	2364017	2365990	.	-	0	ID=MGA_2025;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941395.1;translation=MGTIWVVIFFILLGGSLPLVLYKNFTFMRVTAVFFIGLGSILGVITAIKELLTGNYPDIVKYSGLMHFPMEFKVTPLSAFFITIICFVGMLGALYGYSYMENRKKALRVAGNYFFYSILVVSMILVVIANNLLTFAFAWEVMSLSAFFLVIYDYNKEKVRKAGYVYFVFTHIGGMAIFASFGLIYAYTKSFGFDTIGNIPDNIKLIAFILAFIGFGSKAGLFPVHVWLPYAHPVAPSQVSAIMSGVMIKIGIYGIIKMYLILHTNMISISYMVVIIGAISGVLGVVYALGQHNLKKLLAYHSIENIGIITTGLGIGMVGVSIGNSTMAIFGFAGGILHILNHALFKSLLFMGAGSVLHQTKLEVIEQMGGLMKNMKITGITFLVGALAISGVPPFNGFVSEFLIYFAGFSGINSGSGVSFAFATFVILSLAIIGGLAAACFTKVIGVVFLGNARNEKAAKAVESKWEMTLPMEILALVCISIGILPALPINVVSNIVKTFWFVSKDAVMPTLTIPSEITFGAMIFLGVLIVVYILWKIFYINSKNKKSVTWGCGYKYGTSKMQYTGSSYAMEIVNFFKPFIKIEEKTIEVEGLFPKKSKYHSKTIDIAEYFIMKYIVRPVLAVMDKLRWIQSGDLHAYILYIVGGIVLLLIVEVVIK;locus_tag=LOCUS_20230;note=WP_010941395.1 proton-conducting transporter membrane subunit (Geobacter sulfurreducens) [pid:38.2%25%2C q_cov:91.2%25%2C s_cov:90.3%25%2C Eval:2.4e-110],MGA_2025
sequence1	MetaGeneAnnotator	CDS	2366016	2366696	.	-	0	ID=MGA_2026;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941396.1;translation=MNLKIADITEILNVSEKTIYRWIKSGKIPAYKINGQYRFSEEEINRWISENKMVNRKKEIEDEEPINLPDLLGKGGFYEVEGDDVKEVIENMVGIIKLPVNLKKDKLIEELIKREEMISTGIGNGIAVPHPQEKVIEEIEDERVFVCFLKKPIDYNALDGKKIHTLFLILSARKERHIELLAKISFLSRNKEFLDMLELQSKEKIIEFIRLKKVEWDEIMERRKKI;locus_tag=LOCUS_20240;note=WP_010941396.1 PTS sugar transporter subunit IIA (Geobacter sulfurreducens) [pid:29.9%25%2C q_cov:87.6%25%2C s_cov:90.7%25%2C Eval:5.1e-24],MGA_2026
sequence1	MetaGeneAnnotator	CDS	2366939	2367283	.	+	0	ID=MGA_2027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIILELINKNFSDYLCIYEIKDSFFFNGLEIEDSEIEKILFKYTKNNNEIFEITNYTDFQFSNITLNELSEDLQDYIQNKRKQYSINNNLDNLSNNNYLDTDFHIKKKQLKLI;locus_tag=LOCUS_20250;note=MGA_2027
sequence1	Aragorn:1.2.38	tRNA	2367429	2367504	.	-	.	ID=Aragorn_39;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00380;note=Aragorn_39
sequence1	Barrnap:0.8	rRNA	2367532	2367639	.	-	.	ID=Barrnap_11;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00110;note=Barrnap_11
sequence1	Barrnap:0.8	rRNA	2367784	2370719	.	-	.	ID=Barrnap_12;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00120;note=Barrnap_12
sequence1	Aragorn:1.2.38	tRNA	2370827	2370902	.	-	.	ID=Aragorn_40;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00390;note=Aragorn_40
sequence1	Aragorn:1.2.38	tRNA	2370929	2371007	.	-	.	ID=Aragorn_41;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00400;note=Aragorn_41
sequence1	Barrnap:0.8	rRNA	2371051	2372566	.	-	.	ID=Barrnap_13;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00130;note=Barrnap_13
sequence1	MetaGeneAnnotator	CDS	2372828	2373166	.	-	0	ID=MGA_2028;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFMFLKIIDIDYKDDIFLALESVEIDKASYVEGNNLDSILRDEMPIFKGFFKTEEDKSKKVILITALVKEKKQIDDFINILKEADIDIENDDIIRVVAWKVDYIFDKIEKS;locus_tag=LOCUS_20260;note=MGA_2028
sequence1	MetaGeneAnnotator	CDS	2373178	2374386	.	-	0	ID=MGA_2029;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987056.1;translation=MKEINVLFYLGMLFFAAFLTKKFTQKFKIPEVTGYVIVGVLLGESILKILTNDVVDKLGYLSTIALGIIAFTIGAELKLSTIKKLGKSITAIVFFESFGAFIIVFFTLAFVFKGEMYKALLLGSVAAATAPAATVAVIRQYKAKGSLTSTIIAVVGIDDAVALIIYVFASSFAKGMILGEHISSVTILINALISIGLSAVIGIVAAYVYIFIMKNIRNEDTIELMITAFILMLLGVTEQFHISELLTIMIFSAFITNLSPIIEKRSGKIVDFFVPIFLAAFFILGGAHLDIRVVKQIGGIGMLYFFARSIGKIGGASLGAVIGGATDKVKKYIGFALLPQVGVALALALSIKKNFSIPLYGDKGKDIALVVINILLFTTMITEVIGPFLTKLVLKKSGEIKE;locus_tag=LOCUS_20270;note=WP_011987056.1 cation:proton antiporter (Clostridium botulinum) [pid:41.1%25%2C q_cov:98.5%25%2C s_cov:99.2%25%2C Eval:1.2e-76],MGA_2029
sequence1	MetaGeneAnnotator	CDS	2374395	2376161	.	-	0	ID=MGA_2030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLSVLKWAFLATIIGVVVGGLTTIFLMILDKSIEYRGVLPVKYYYFLPFAIVISILLVKYFAPDAKGHGTEKVIEAVHKNNGKINFSVIPVKLVATVLTIMSGGSVGKEGPGAQIGGGTASWIADLFKFSENDRKKFVICGISGGFAAVFGTPIAGAIFGVEVLFIGTILYDVLLPSFISGVMAYQVARSLGIKYSYFKIDFSSITNFSETMYLKVILAGIFFGVISFLFIEILKFLEKNIEKIKLDESIKGFLGGILIIGLVFVSSESYLGLGIDTIKRSLTGEILPWYTSFFKMIFTALSLGFGGSGGIVTPIFYIGTTSGNLFAQLINEPIALFSAIGFVAVLAGTTNAPIAASIMAIELFGVEISPYAAVACVISFLISGHRSVYPSQILAMKKSGALDIEIGKEIENTEVNFQNDGIDDIMEKLKSVNFGGGVKVKLHELINEDDVTFLETTGVKDTLEVMIAKAKEKGHIKDIEEFKNAIFEREDIVSTGIGLGIAMPHAKLDDIDEFFIIVGVAKQGLDWDSIDRKPVGVVFLIGGPEGKQKKYLKIISKLMLLVKNESRREKLFNSKKAEDIVDIFKEF;locus_tag=LOCUS_20280;note=WP_010963764.1 chloride channel protein (Clostridium acetobutylicum) [pid:40.7%25%2C q_cov:71.4%25%2C s_cov:94.1%25%2C Eval:2.4e-85%2C partial hit],MGA_2030
sequence1	MetaGeneAnnotator	CDS	2376411	2377460	.	-	0	ID=MGA_2031;product=potassium channel protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546063.1;translation=MDRELKKILIFIELLVLIFILGVLGYVVIEGYSLFDALYMTVITISTVGFEEVHKLSNTGKIFTMFLILSGVTLVLYGLSSITSFFIEGELKNYLKGVKMKKKISKLKNHYIICGYGKTGRKIVEEFLKLGKEFVVIENEDEGILELETKYKDKVLFIKDDSTKDEVLIEAGIEKAKTLIAVLSTDAENVFLSLTAKSLNKKLKVIVRAVEQNNERKLKKAGADFIISPVEIAAQRIISTALKPGVVNFLDVVTSIGGEDLRLELIKISKDSDLDNILLKDARIPQKTDLIVIGMKKEKKMILNPLSMTILEYGDELLVMGNEKQIEQLKKIASGDIKDRGVENIKIQL;locus_tag=LOCUS_20290;note=WP_012546063.1 potassium channel protein (Thermodesulfovibrio yellowstonii) [pid:39.7%25%2C q_cov:90.5%25%2C s_cov:91.8%25%2C Eval:1.8e-60],MGA_2031
sequence1	MetaGeneAnnotator	CDS	2377589	2380618	.	-	0	ID=MGA_2032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRILRVFTSEKKLYKEINLEKINNGIYIGKWHNVETDGAYSFEIIKKESNEKCNITFSHTAPFSKIFEAYTSKLEQKKPVGGIKSGDDILIIFDIKNSKVSLKKMRFTKFVIDTKRYGYENPKKVEMPSNFNGWNIHTTVLTKISNSIFETYLALDEGVYEYKLVIDGDWVPFDNNLKLIVGEIGSLFPKGEIGNGKFVYDAIDKNNKIKAIVHIPHKLDYLNKVEDDIEFSIRTQENDVEKIFLHLLEEDGIEEVYELERINSKGYQFDYFKRIIKFRINSEKFKYYFELKDGNKIAYYTPKGLVYDTIDFFEVDYATGEFPIFDVPKWAKEAIWYNIFPERFYNGNKENDPLYNEFGPENFIAPNKRSDDIEKYKWGIYTDKFGEFKLNNWTSDFETKLEWEEKREKDVGYSVKYSRMYGGDLQGIKEKIPYLKELGVNAIWLNPIFFADSNHKYGTSDFRHVSPDFGTIKMTGKDYNIKVSKENRYGNKTYLDILTNGYEKESELKLLRVKIQGENKGKNGYFETENPETWVWTESDLIAVDLIKELHKNGIRVIFDGVFNHTGKNHWSFELAMAEGVNSKYAKWYKFHDFSKFKEIKDDMSEEEAYKTLLHNKNSVHYSGWAGFNDLPEFNTYNKEYMEYIFNITKKWLLGPDGKNSENWMEDDGIDGFRLDVPNCVENQYFWQLWRKVVKDTKKDAYITAELWGDARSDINDGVKYDTVMNYEWLKSTIGYFINQGKEFNASYKLTAEQFFNELKEKRYWYPIQSLQVSQNLNGSHDTDRLLSRIVNDKLGRDLEEGKQLDKGYNTKRPDLTDNSHKNTTINWKKSEIKPKDILKLISIFQMTYIGAPMLYYGDEVGMWGATDPYCRKPMLWEEFDYENETDGTLGVKSKENYKVKPDKEFFSWYKKIIKIRKENSTLIYGEFKEIYWDNEKDIISYSRFDDENHFLIILNNSFENQENIVIPTDFQDEKFIDLLNSEKLATGPQGNIIVNLDKKTGKILKKI;locus_tag=LOCUS_20300;note=WP_011403141.1 glycoside hydrolase family 13 protein (Salinibacter ruber) [pid:30.9%25%2C q_cov:63.0%25%2C s_cov:88.7%25%2C Eval:1.3e-81%2C partial hit],MGA_2032
sequence1	MetaGeneAnnotator	CDS	2380626	2381093	.	-	0	ID=MGA_2033;product=6%2C7-dimethyl-8-ribityllumazine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005811752.1;translation=MRIIEGNLFETGGNIKIGIVVARFNEFITSKLLSGALDTLKRHGVSEETIDIVWVPGAFEIPLVAQKMAESTKYHAVITLGAVIRGATPHFDFVSSEVSKGVASVGLKTGVPIIFGVLTTDTIEQAIERAGTKAGNKGVDAAMTAIELVNLLKEI;locus_tag=LOCUS_20310;gene=ribE;EC_number=2.5.1.78;note=WP_005811752.1 6%2C7-dimethyl-8-ribityllumazine synthase (Desulfitobacterium) [pid:74.8%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:8.2e-59],MGA_2033
sequence1	MetaGeneAnnotator	CDS	2381171	2382202	.	-	0	ID=MGA_2034;product=N-acetyl-gamma-glutamyl-phosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943503.1;translation=MKVSIVGGSGYTGIELIRILLNHPKVEIDKIVSESNKGKKVSELFQNLKNIFEKEFIGVSNLEVELKDSEYIFLAVPHKAAMEYVPMLLKMGKKVIDLSADFRIDDFEVYEQWYKENHVAKEYLEEAVYGLPELNREKIKKARLVANPGCYPTTVILGLAPLLSEKLIDINTIISDSKSGVSGAGKKCTATTHFSETNENFKAYGIASHRHTPEIEQELSKLAKKDIIISFTPHLIPMTRGMLSTIYSNLISEQTEEEIVELYKTFYKNEKFVRIVEVVQTKNVRGSNFIDIAVKLDKRTNRIIVTSAIDNITKGASGQAIQNFNIMAGFNEMEGLNLIGYLP;locus_tag=LOCUS_20320;gene=argC;EC_number=1.2.1.38;note=WP_010943503.1 N-acetyl-gamma-glutamyl-phosphate reductase (Geobacter sulfurreducens) [pid:55.3%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:7.1e-99],MGA_2034
sequence1	MetaGeneAnnotator	CDS	2382226	2383509	.	-	0	ID=MGA_2035;product=GGDEF domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880121.1;translation=MKKENSIIIINFVVILIMLFVKIIYNIPIVYLMSLFLIPITIISYFEFDLSIFTTLFLNFTITYFFLENLKKYGFNHEVILIGIFQIFFSIYTLLMGFIFSKLKKEILVSRLYKNIMEISYERDNLDKFLDEIVKYTKDKFESKNCSIILIKKDKVIQKIISTENNINKELLEKNLKNESSLLNYILNGNNIYSNIASRDKRFNNYIDSLNRFISVPIKSGDEVIGIISIEDNIKNYTKRDVENLGNYGTVLGLAISNLNYYNKSLYDDLLDIPSKNYVDKKIKKVLADSKEKQILYTIIQLDLDNFKKINELYGSLNGDIVLVKAVKFIKSKLEKKDFIGRYGGNNFIIILENRGKYISKEILENIKDEFSNIEFNVKNDKVKLTFSAGVIAIPIDSVKTIREMKILLEQRMYKAKILGKNTIVEF;locus_tag=LOCUS_20330;note=WP_010880121.1 GGDEF domain-containing protein (Aquifex aeolicus) [pid:26.6%25%2C q_cov:78.2%25%2C s_cov:98.2%25%2C Eval:3.1e-20],MGA_2035
sequence1	MetaGeneAnnotator	CDS	2383518	2384141	.	-	0	ID=MGA_2036;product=bifunctional phosphoribosyl-AMP cyclohydrolase/phosphoribosyl-ATP diphosphatase HisIE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861249.1;translation=MINWEELKFDEKGLIPTIVQDYKDNEVLMMAYMNKESLKLTLETGKATYFSRSRQKLWVKGETSGHIQNVKEMFYDCDGDTLLIKVEQVGNVACHTGNRSCFYRKLKEFEKVEKESVVNALYSLLINRKSNPVEGSYTTYLFEQGLDKILKKVGEESAEVIIGAKNEDKAEVIYEMSDLVYHSLVLLAYFDIKPSEVEEELRKREKK;locus_tag=LOCUS_20340;gene=hisIE;EC_number=3.5.4.19%3B 3.6.1.31;note=WP_011861249.1 bifunctional phosphoribosyl-AMP cyclohydrolase/phosphoribosyl-ATP diphosphatase HisIE (Clostridioides difficile) [pid:62.7%25%2C q_cov:87.4%25%2C s_cov:82.9%25%2C Eval:2.2e-60],MGA_2036
sequence1	MetaGeneAnnotator	CDS	2384187	2384942	.	-	0	ID=MGA_2037;product=imidazole glycerol phosphate synthase subunit HisF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880065.1;translation=MLAKRIIPCLDVKDGRVVKGINFLGLKDAGDPVEIAKIYNSEGADELVFLDITASSDRRKTVVEMVKKVAEAVFIPFTVGGGIKTVDDIRAIISAGADKIAINTAAVNTPDLISEGAKIFGSQCIVVAMDAKNNGEFWEIFLHGGRTPTGINVLEWAKTVEKLGAGEILLTSMDKDGTKDGYDLELTKMISESVNIPVIASGGVGNLEHIYEGFTLGKADAALAASIFHFKEYTIKEAKQYLKEKGIEVRL;locus_tag=LOCUS_20350;gene=hisF;EC_number=4.3.2.10;note=WP_010880065.1 imidazole glycerol phosphate synthase subunit HisF (Aquifex aeolicus) [pid:69.6%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:5.8e-99],MGA_2037
sequence1	MetaGeneAnnotator	CDS	2384962	2385840	.	-	0	ID=MGA_2038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIESLILKKNNKLLYLKSFFNKENFMILFFAFVIVGIEGLIRFFFKDNIYLKNSFIDVFVFGGYYLIYAFYSKKEKRLQISFSILVVLLMMLILENIFNGFIYNRELQYFNSYGNVNLLILLFYIIPIIIVNLEKLKNINLKILTMFSQQIFRGILAGGFFIINYIAYQNLIGFKIYITGNIKVIIGIVIMSVFYSVGEELFFRKLLLEDLIKNGINYRLAYFLTSILFTLKVFLVPELTTDMIYRLIPASLLLFGLSIAFSHIYIKYNKSIVINVLIRSSIFSVYLLTYF;locus_tag=LOCUS_20360;note=MGA_2038
sequence1	MetaGeneAnnotator	CDS	2386002	2387000	.	-	0	ID=MGA_2039;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287604.1;translation=MKVLLYSEGKSLFNKSGVGRALTHQKEALTQAGVEFTTDENEKYDVVHINTIGPGSDKILKKSKKSGIPVIYHTHTTFEDFRNSFVLSNMISPFIKKRLIKLYSQADSLISPSEYTKNLIKSYGIDKNIDVVSNGVDTNKFIKNRELADKFKEEYPLNKPLIICVGLPFRRKGIFDFCEVAKKLPDYQFIWFGAKMASLLPRDVQKLMKNPPENVKFPGYVSNEIILGAYSEAKAFFFPTYEENEGIVVLEALSMKTPVIVRDIPVYEKWLNNNKNAFKGKNIDEFIKIISEIDEDKIKNIVENGRKTAEERDLKIIGEKLKSIYKKVLKNV;locus_tag=LOCUS_20370;note=WP_002287604.1 glycosyltransferase family 4 protein (Enterococcus) [pid:50.0%25%2C q_cov:99.1%25%2C s_cov:92.5%25%2C Eval:2.8e-92],MGA_2039
sequence1	MetaGeneAnnotator	CDS	2387530	2389938	.	-	0	ID=MGA_2040;product=MMPL family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679762.1;translation=MGINISKINKGFKKFGEKLIKKRFIFLGIITLLTMIAFFGLGKMSMDVSPDSWFDKKDPFLQQKEKFEERFGNNEYVAFLIESKDVFNYETLKVIRNLGDVLVEKVPYVSSQNPVISLTEFEYIQGSNDKMEIIDIVPSVIPKKSEKLEMIRKKVLSKKNLVNKIVSDDSKQTWLILKLKPFPDDFDIRNPPSAMVAKEIKNILKMPEFNKKGIKIRATGAPILELEETEFLGKEMGQRIILALIASIILLMITLRSFRGVIIPSATMILSILIPFGFMGLLGIKIQMMSVTLPLYLGIGVSVGYSIHIFNTFKRGLAITRDRKKAAIYAIEHTGWPLLFTALTTIVAFLSMIFTNVMTIRWIGYTCGAVISTVYIYTLILLPIFLSFGKVKKNKNIKEFSKLDIFFMNVGEWGQKNITKILFVMTIFLGIIGFGITKLNVDVDMMKTMGLKVPYVKEAYETGNSKIGTIYSYDITLPFKDFDSLKNPKNMKNMEKIIKYINKQPLTKRTTSFIDILKELNQVVNDGNKEYYKIPDSKETISQLMFLYDTSGGDEARSWINYAEEVDDLGFDIFEKGVKTLEKSDDKSSYFRIQVEMSDFKSKEFMNEYDLITKKVREYFPDMKPEFTGGATQFAKMSQYLVKGQLISLFVAIGVIAVLLMIVFGSIKVGLIGMIPNVLPLVVIGGVMGYFDFPLDFMTVTIMPMIIGISVDDTIHFINQMKFNYEKTGEYDIAIKNTFLDIGKAITLTTVILIFTYGMFISSPVKMYVNLGITVICGLSFALFTDYFLTPFMIKKFKAFDK;locus_tag=LOCUS_20380;note=WP_002679762.1 MMPL family transporter (Treponema denticola) [pid:35.2%25%2C q_cov:98.6%25%2C s_cov:98.5%25%2C Eval:1.7e-148],MGA_2040
sequence1	MetaGeneAnnotator	CDS	2389949	2391127	.	-	0	ID=MGA_2041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLIVAILFFSFALISFGEENFDFIGLDINSSQSGYNEEKSNWEISGSLRNTNIVEIEKSGKINLSELKLYSELKKKDLFISLETLFDNRKNPSLDLKELYYDYVNDVFSIRIGRQIIEWGVVDGAQIVDIINPVNLVSGYSFEYNDLKVPVNAIKVDILKNSSELNFIIIPVSPVSNLEIDNQKYNVITPSVNLKNIEVGVKYKKYLGTTEISLMAFKGINDFPIYDKINKKVTFGKEKMLGMDFSKKIGSMVLRGETGYFFEKSFEKVGLNGSNGAIEKDYIGYALVCEFNFGNSLGGSLAFGGDRIFNYNDSISRKKEEPFLISSFSKTIFNDLLTMSMSGYINLSSEVWEITPMVKYSINDNINFETGISIKQENTKLSLKTTYNF;locus_tag=LOCUS_20390;note=MGA_2041
sequence1	MetaGeneAnnotator	CDS	2391139	2391960	.	-	0	ID=MGA_2042;product=outer membrane lipoprotein-sorting protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679769.1;translation=MRKVLFYLTLLGILGTTVFGMSAYEVMEKAKGKEAAEFQYSRQKMILVDKKNRKRVREFIGYSKKIDGENKSESCFKFIAPAEVKGTSMLMWDYDVNNKEDITWLSLPGIKKGAPRQISSSRNDKNASFMGSDFTLDDLGELELQKDNFNFVNSKESIIDGKECYIIESIPKQLNKYEIYSKRIFWIRKDNMVIAKVEYYDRDNKLFKVLTTKNLRSKEGGSSINKSGKYWYIKDMAMKNVQTGHSTYIFLLEINYPKQMDKKLFLPSTFYRK;locus_tag=LOCUS_20400;note=WP_002679769.1 outer membrane lipoprotein-sorting protein (Treponema denticola) [pid:35.5%25%2C q_cov:89.7%25%2C s_cov:86.2%25%2C Eval:2.8e-33],MGA_2042
sequence1	MetaGeneAnnotator	CDS	2392117	2392371	.	-	0	ID=MGA_2043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQMPLLFFSNVLYATEKLPLIFGIIVKINPMTYLVAGLRTMFTQQGSFVFTRDLTIQILILFIFAIFGMSIATKAYKEIISRD;locus_tag=LOCUS_20410;note=MGA_2043
sequence1	MetaGeneAnnotator	CDS	2392497	2393246	.	-	0	ID=MGA_2044;product=EFR1 family ferrodoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965945.1;translation=MKGLGIYFSGTGNTKFLMEKFKEKFDAKGVSVDLQAIDSSENFEDKYDFYIFSAPIYAEFFPKIYVDWVEKNVNISKGKKAILTSTLGSKGTPPALKIMAKILEKKGFEIIIQQEITMPNNWTGEVPSEEKIKESKEITEIKVEKIIEKFFNNEKMIKNPWKLRYWLTLPLVNLMENYLKKWATKNMSVDSNVCIGCKKCEENCPVDNLKVDGNSVNIGKNCVACMRCVNSCPVNAFRIKGKEKEQYKF;locus_tag=LOCUS_20420;note=WP_010965945.1 EFR1 family ferrodoxin (Clostridium) [pid:32.3%25%2C q_cov:98.8%25%2C s_cov:99.6%25%2C Eval:2.3e-36],MGA_2044
sequence1	MetaGeneAnnotator	CDS	2393502	2394062	.	-	0	ID=MGA_2045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSIIKKVLTTWKGIILSLIMFSLYSAYFFTQPGSLMGRMIDDQIGAPKDKIIELLGSYSPSEIKLYISKLIPLDFGFVLFYSIFFICVLVYFGYNILKWRGRKLWLLGLGLPMLIAMLDMGEDVFIRSLLLNGIDSSDLIFKVQFWITLIKGIFQMPVLIFACLFTIFLPIKTLFLKLRKKTNK;locus_tag=LOCUS_20430;note=MGA_2045
sequence1	MetaGeneAnnotator	CDS	2394073	2394807	.	-	0	ID=MGA_2046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLLKTGELAKMAGVTVRTLRYYDQIGLLKPSKILDNGHRAYMLEDIKQLQIIQGMKMIGFSLKEISRYLIKPDVNLVNILKAQKEGLLEKIRDFKSVVKKIDFAIEHTDEVQSGELDIFGIYEKLKMASHKEIMKKYFPEDILQEVLHLEDQNKEIHDRLFSALKVVSLTEIDNVKQEDRDEIVNALKEFIKVLWGKVDQESIKKNFDLLNEMIKTQDMPEIKGINMDKLEMFISKKLIEKK;locus_tag=LOCUS_20440;note=WP_011948530.1 MerR family transcriptional regulator (Clostridium botulinum) [pid:45.5%25%2C q_cov:49.2%25%2C s_cov:27.1%25%2C Eval:7.4e-19%2C partial hit],MGA_2046
sequence1	MetaGeneAnnotator	CDS	2394918	2396231	.	-	0	ID=MGA_2047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKEQELVKYLKSKKDLRKILIIIKNKYESFGKFLGKIKKEKLSRAEKSALSEITGENYEIGKKTILIENIIKSFNNMNFSNDNFKLALEIYFNENIIYKKDKMENYEKQREKFFVDLYEWYAETVGGEFLKFLIEGNKGNNILIKEYNKFEKENNLNEFEIIIERIIKGLNNLPIIKKEYKLLAIFASDISKDPHFFDNKNFAGKLLLYGISYYLNKKYPTNAEERIEMYIEAGIITDDISNSVAISGLEAEIAKGRHTGWREFYNNGEYFIMPMTGITKLKKIISNYNYLIIVENPAVFIEIFNYFKVEYNIIIPMICGYGNIKSSALFLMDLAVKSDIKLIYSGDLDPEGLIIADKLKKRYNKNIKLIGYNRENYIKNLSDEKIKDTSMKKLNKIEDLELKKISEILKEVGGKSFQEKFINVIIKDVMNILKID;locus_tag=LOCUS_20450;note=WP_011948374.1 DUF2399 domain-containing protein (Clostridium botulinum) [pid:37.9%25%2C q_cov:23.6%25%2C s_cov:98.1%25%2C Eval:1.7e-13%2C partial hit],MGA_2047
sequence1	MetaGeneAnnotator	CDS	2396270	2400394	.	-	0	ID=MGA_2048;product=TIGR02680 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459216.1;translation=MNRWQIKRFGLINFWYYDDEEFTLEDGKLLLRGSNGSGKSVTMQSFIPLLLDGSVRPERLDPFGSRARRIDSYILPEGTEYDENTGYLYMELKKKTGEYISFGMGIRAKRGTATRTWYFCIDDGRRIGRDFYLYKEKVNKVPLSKMELKNAIGNGGTVVDKQSDYVAMVNRYIFGFETVKEYEDLVNLLINLRSPKLSKNFKPSATYEILKGSLEPISDDELRPLTEAVENMDELQDNLKSLKNAKRESEKIKRAYDKYNSYILLKKLNKYIQAKENLDKNISELKRTEKYILNINNQKNESITKRDKLEAEKESINHLIETYEKSEFYQLQKEILDIKSYVKEKKEDFETENRRLERREEDRNIKYSEINSLKNDKEVLYSQLNSLIDENRERANEINFSEDINFRKEFFSKLDKDYNFELLKKETDIFKDFFRNGKIIIENYKKSCEEYDKIVKIVDDLKDELRKIEEEIVNEEKKSDNSKEIYLEKLEKYASETKELNFQEKDLEDIIIAVNSCDEKKYILDIKYKYKNIFNRCSNNIEKEVIENRFHIENLNEKIQEKSDEIDEWKSKKDPIYEIEEKEKKYCKKLDSLKIKYDMFWKTVDFRENISEETKGIIEEILIDTNIISSIILFDNEMPKLDIEEGIKLLKTYNKNRDDKNISEENRENKNLFNYLKVEAKYNEEEKEYIEKILKSIPVNQKSGEFFIGIEGKYSYGPIEGKTTKINKAKFIGISARENYKKELIKLLEEKIESLNLEKAKIEEKLSNLKNRKEMLKKEFENIPDFIQIEEIMENINILKREKQMKFYQIEEKEKEELIARQRKNSLNEKVNELRVRTKINLDLESFTEALDLIEKYRYNILEIENKYKRFLDFGQRIDRLIENIENVEDEIEDIKLNLNKIKKALDTQKQILEELEKRAEQEGIENLVEQLAQLKEKRKENEKNFNETIMRISSIESEIKNLKENLIKIEQESENLKELESSWKKGLYEEVNLAYVVNELDISNKSELKALSQRLSGNIDIDKGIEYSNDLNNKFLISKNYLSDYRLNMEYRFNEPINGVINEVLGELKRVDVIGKIRGEKTNLIHILSDIEENILRDEKLLADKERELFEEILIKTISKRITEKIEKSEIWVFNMNKLMESMNTNTIRLGLSWAGRKPDNEEQMNSSELVKLLRKDEFTRRTEDITKIVSHFKSKIAEAKKEMEKEDNIKSFHTIMKELLDYREWYEFKLSVKRGEGLKKQLTQNEFYKFSGGEKAMTMYVPLFAAVSARYDNASKDAPKIISLDEAFAGVDERNISVMFEFMVNMKFDFIVNSQVLWGDYGTIPNLAIAELYRPNNSDVVTVFRYKWNGNKRTAVVGKELYDNKSGNMKMF;locus_tag=LOCUS_20460;note=WP_011459216.1 TIGR02680 family protein (Desulfitobacterium hafniense) [pid:28.6%25%2C q_cov:98.8%25%2C s_cov:99.9%25%2C Eval:4.4e-160],MGA_2048
sequence1	MetaGeneAnnotator	CDS	2400387	2401535	.	-	0	ID=MGA_2049;product=TIGR02678 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_068556302.1;translation=MKEIEILLEKFWILKEDDKDRYFEIKEKIATFKPFLEEKCGLSVIRNKHLIKLEKIPERAEDWMGIPDFNQTEQYIMFSLVLAFLEDKDRGDQFILSDISEFVELNYPIEFYIDWNSYSLRKSFVKVLKFLVEMKLVKINFGEEDSFKNDLNAQVLYESTGISRYFIRNFNRDISEYKDISDFENEIWQDESRDRGTARAQRVYKNLLINAVVTRDNENESDFDYMKKQTHNIASEFEKYLEAGFNLTKNYAMIEIENSYNYKDVFPGAKAISDIVLLVSREIINKVNVGEISYNERDRIIISYDKFLEIVKLCKEKYSSGWSSEYRNMSVEGITKDLIKYMKGFNLLNNNNENKGEIELLPAISKYIGNYPKDFYKEKENE;locus_tag=LOCUS_20470;note=WP_068556302.1 TIGR02678 family protein (Thermotalea metallivorans) [pid:41.3%25%2C q_cov:99.5%25%2C s_cov:99.2%25%2C Eval:6.8e-85],MGA_2049
sequence1	MetaGeneAnnotator	CDS	2401535	2403064	.	-	0	ID=MGA_2050;product=TIGR02677 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459214.1;translation=MEFFNKHLKPITEVKYLNAENVRRYRAIIRIFYEKYNQLNRTLYKDEIVKIMRESEQFKDYSSDMCEQDINKLMEWGNIIGIQDTAKATTPEEFKNKKYIYQITEKAITIEKLVSEDLEKIVFQEAELDPSLMERLRDSLEELDKKEINKVTDINSLWSNIISDFERLNNNYKSYIMKLNSFKFEELLNTTQFIIYKDNLIDYLRNFIKGLQKYGLSIVKILKDIDKEKIEEIFRKISLEKKKIMILTPDITEENIFEDLTGKWEAVLLWFLGNENRKSEMEMLYDRTNEIIRKIVRIALHISESSRQISSRKEECLKIASLFSNCNSINEAHKLSAMIFGAFNTKHFKGEIRGEVTDKNIGAFETEPIELEIKPRTRKYREKRQSIAIIDKTHRKAEIIREKQRELEKEKQEILELVKSEMIKISDLDNISENVRKTLLRWIVRGIESPGNKEFEIVENIKYRVFPIRKNEDNSSYKILMNDKNQIRLNCIDGIFYMPDIIIKIVGES;locus_tag=LOCUS_20480;note=WP_011459214.1 TIGR02677 family protein (Desulfitobacterium hafniense) [pid:29.8%25%2C q_cov:94.7%25%2C s_cov:93.3%25%2C Eval:7.8e-66],MGA_2050
sequence1	MetaGeneAnnotator	CDS	2403134	2404684	.	-	0	ID=MGA_2051;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKEFNITGTCIPEEHYMVDTTSKLNEIIKLIEKRKYFTINRPRQYGKTTTMYLLERKLRDNKEYLLISISFEGIGEVPFENEKNLSKVFIKLLRKELKLKKETKLIKFIDENNRVTNFEELDEFITDFILEANKKVILMIDEVDKSSNNQLFLNFIGMFRDKYLRRNMGKDYTFNTVILAGVHDVKNLKLKLRPDETRTLNSPWNIALDFDIDMSFNSEEISTMLIEYEVDAKTGMDIKNISEKIYMYTNGYPFLVSKLCKVIDEKLDRDFSEKGLEEAIKIILNSNNTLFDDVIKNINRYKELYNLIERIVLDGEEIQYNLQAHNLGIMYGIFRENEKHKLIINNKIFEILLYNYMIAMREMKKGPVLDYKYMGKFINDNGDLDMELVLSKFQELMKAEYRKIDEKFVEREGRLLFLAFLKPIINGTGFYFVESETRESNRMDIVVTYNMKKYVIELKIWRGGQYEQEGREQLCGYLEAQNLDKGYMVFYNFNKGKKYIKDRVIVEGKEIFEIVV;locus_tag=LOCUS_20490;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:47.3%25%2C q_cov:96.7%25%2C s_cov:95.6%25%2C Eval:2.2e-132],MGA_2051
sequence1	MetaGeneAnnotator	CDS	2404882	2406435	.	-	0	ID=MGA_2052;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKEFNITGTCIPEEHYMVDTTSKLNEIIKLIEKRKYFTINRPRQYGKTTTMYLLEEKLKNNKEYLLISISFEGIGEVPFENEKNLSKVFIKLLRKELKLKKETKLIKFIDENNRVTNFEELDEFITEFILEANKKVILMIDEVDKSSNNQLFLNFIGMFRDKYLRRNMGKDYTFNTVILAGVHDVKNLKLKLRPDENRTLNSPWNIAVDFDIDMSFSPEEISTMLIDYEKNAKTGMDIKNISEKIYMYTNGYPFLVSKLCKVIDEKLDRDFTEKGLEEAIKIILETPNTLFDDIIKNIENNREFYKFIEKVILGNEKVDYVHTDIMASLGKMYGIIRGKNKKVEIDNKIFEILLYNHMIAKREREKGVVLTYEFRTKFIDDNGNLDMELVLSKFQELMKAEYRKIDEKFIEREGRLLFLAFLKPIINGTGFYFVESETRESNRMDIVVTYNMKKYVIELKIWRGGQYEQEGREQLCGYLEAQNLDKGYMVFYNFNKGKKYIKDRVIVEGKEIFEIVV;locus_tag=LOCUS_20500;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:46.4%25%2C q_cov:96.7%25%2C s_cov:95.6%25%2C Eval:2.2e-132],MGA_2052
sequence1	MetaGeneAnnotator	CDS	2406626	2408176	.	-	0	ID=MGA_2053;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKEFNITGTCIPEEHYMVDTTSKLNEIIKLIEKRKYFTINRPRQYGKTTTMYLLERKLRDNKEYLLISISFEGIGEVPFENEKKLSKVFIKLLRKELKLKKETKLIKFIDENNNATNFEELDEFITELMLEANKKVILMIDEVDKSSNNQLFLNFIGMFRDKYLRRNMGKDYTFNTVILAGVHDVKNLKLKLRPDENRTLNSPWNIAVDFDIDMSFNSEEISTMLIEYEADAKTGMDIKNISEKIYMYTNGYPFLVSKLCKVIDEKLDRDFTEKGLEEAIKIILNSNNTLFDDVIKNINRYKELYNLIERIVLDGEEIQYNSDAHSLGIIYGIFRENKKHKLIIHNKIFEIRLYNYMIAMRDMKKGSVLDYKYMGKFIDDNGNLDMELVLSKFQELMKAEYRKIDEKFVEREGRLLFLAFLKPIINGTGFYFVESETRESNRMDIVVTYNMKKYVIELKIWRGGQYEQEGREQLCGYLEAQNLNKGYMVFYNFNKGKMYIKDRVIVEGKEIFEIVV;locus_tag=LOCUS_20510;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:46.8%25%2C q_cov:95.7%25%2C s_cov:94.7%25%2C Eval:3.9e-129],MGA_2053
sequence1	MetaGeneAnnotator	CDS	2408509	2409897	.	-	0	ID=MGA_2054;product=aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002657823.1;translation=MRLKKENGWKNMAEEKKKEIFEFSNGYKKFLNDSKTEREFVRNGIKVAEENGFVNAENVEKLKAGDKIYYVNREKNLVLVIVGEEEVEKGVNFVVSHIDSPRLDLKQNPLFEDTEFALLRTHYYGGVKKYQWVSIPLALHGTVILEDGKKVDLAIGEDDNDPIFTIPDILPHLSKNAQDDRKAREVIKGEELQLVVGSIPTSIEDKEVKDKVKQAILEKLNSDYGMKEEDFISAEFEVVPAFKAKDLGFDRSMIAGYGHDDRICGYTSLKAILEIEKTPKHTAVCYLADKEEIGSTGSTGLESRYLEFFMSDIMYKLKDNYNDYFLRKCLWNSYALSSDVNGGINPIFKSVHEEQNASKLGYGIVMTKYTGHGGKGASNDADAEYVGMLRKMLNDAGIKWQTGMLGKIDEGGGGTVAKYLAHFGIHTIDAGPALLAMHSPYEVASKFDLFETYRTYKVFYER;locus_tag=LOCUS_20520;EC_number=3.4.11.-;note=WP_002657823.1 aminopeptidase (Borreliella burgdorferi) [pid:53.4%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:1.6e-150],MGA_2054
sequence1	MetaGeneAnnotator	CDS	2409996	2411339	.	-	0	ID=MGA_2055;product=glucose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435635.1;translation=MKKISLDYSNALEFVRENEIEFMGSQVNAAEELLNSKKGPGSDFLGWVDLPKTYNKEEFDRIKKAAEKIKSNSDVLLVIGIGGSYLGARAAIEALTDSFYNNMKKEDRKTPEIYFVGNNISSTYIKHLYNLIKNKDFAINIISKSGTTTEPAIAFRIFKELLEEKYGKENAKDRIFATTDAKKGALKELATAEGYETFVVPDDVGGRFSVLTAVGLLPIAAAGIDIEQLMAGAADAMEDYKAPFKENDCYKYAALRNILHRKGKLIEIMVDYEPSLHYIAEWWKQLNGESEGKDGKGIFPAAVDFTTDLHSMGQYIQDGNRILFETVLNIGKPVEELTIKETKDNLDGLNYLAGKSIDYVNKKAFQGTMLAHVDGGVPNLVINIPEINEYNLGYLFYFFEKACAISGYLLGVNPFDQPGVEAYKKNMFALLGKPGYEEEKEKLEKRL;locus_tag=LOCUS_20530;EC_number=5.3.1.9;note=WP_003435635.1 glucose-6-phosphate isomerase (Clostridioides difficile) [pid:70.0%25%2C q_cov:96.0%25%2C s_cov:95.8%25%2C Eval:3.4e-179],MGA_2055
sequence1	MetaGeneAnnotator	CDS	2411362	2412099	.	-	0	ID=MGA_2056;product=1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436675.1;translation=MKIFPAIDIRNGKCVRLTQGDYKKETIFFDNPVEVAKRFEEEGAGFIHLVDLDGALEGELKNRELIRDIVNNINIPVELGGGIRDLFRIEELLKLGVSRVILGTIAIKKPEIVKEAVEKFGAEKIVIGIDAKDGKVAITGWTEITKKDSIEFIKDMEKLGVKTVIYTDISKDGMLEGINLDIMKKILEETKINLVASGGVGTINDIIELNKLENEKLEGVIVGKAIYENRLNLKEVIKYLEMAQK;locus_tag=LOCUS_20540;gene=hisA;EC_number=5.3.1.16;note=WP_003436675.1 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase (Clostridioides difficile) [pid:50.6%25%2C q_cov:95.9%25%2C s_cov:96.2%25%2C Eval:1.8e-65],MGA_2056
sequence1	MetaGeneAnnotator	CDS	2412135	2412809	.	-	0	ID=MGA_2057;product=flagellar brake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015945045.1;translation=MNIEDVIKIGNRIEIELPETKKGPYLTKIEDIDEKNDVHIGLPIEKGHVIPLRVGEMVRISEVKKDGVYGFSGKVVRRYLKPFSNFVLHYPEKIERLQRRNYVRIRMNVIATLKRKKENPENEEDKFEIIKGVSKNISGGGIYILVLNNLKMNDKFEIEFKLPNGVECKKIFGAIKRKDILEDDRGKRYGYGLEFVKINEKLRDRIISYLFKVQRDRRSKGIEL;locus_tag=LOCUS_20550;note=WP_015945045.1 flagellar brake protein (Desulfitobacterium) [pid:30.5%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:1.3e-19],MGA_2057
sequence1	MetaGeneAnnotator	CDS	2412819	2414495	.	-	0	ID=MGA_2058;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKIFMILFVIINLLSYAKDDALYKDVSKEHWAYKAIENLVYKGVLTVDSDFFNGEQKITKYELAYYLSKVLNKLDDEKASKDDLLIIENLVYDFSKNLSDFGFNINKYTNKIKDLEKKLNLKTENETKNSKEIENLNLKIKKIESMIKTNNLKNTTSVSSNSTEKQFLSNSNYKLSLDYYISTGDINAKNYNSKYDSELKLYGNNYEFVMGKNSIDNNLVTKLKMDYDIIEKLKLQFYTKGYENKLYSSLGNIEYDNYDITNNEFNSYGLILKNDINIFNLEKNNSVLKIMDKVSTKYADIFLEYIPNEKENNLKYELLGKLSLIKILDDNLKLKLGYTKTNTTETNNMKIYNIIAEYSNFKIGYERKDGKAQFYNKISAETSYEVIKNGFIHYRMNYYDTILDTFINHYIIIENKIYGTNIYIGVNKKSIDEESFNIDTIQSNTTFVLDDFKKNQESTEIYGKIKYDFLKNLNFDIGYKNKKSNIENYNVLYLKLLYELNQNFKTYILYIKSDKDYIDNEKDFFNKDYNLNFDNEDKFIKNNKNGEIRIGMKIEF;locus_tag=LOCUS_20560;note=MGA_2058
sequence1	Aragorn:1.2.38	tRNA	2414776	2414850	.	-	.	ID=Aragorn_42;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00410;note=Aragorn_42
sequence1	MetaGeneAnnotator	CDS	2414927	2415211	.	-	0	ID=MGA_2059;product=septation regulator SpoVG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005814955.1;translation=MNITDVRVRISRAEEEVKLKAYADVTFEDAFVIHGLKVIEGKNGLFVAMPSRRMPNGEFKDIAHPIKTDVRTSINEIVVKKYQDLVNVDVIAEA;locus_tag=LOCUS_20570;gene=spoVG;note=WP_005814955.1 septation regulator SpoVG (Desulfitobacterium) [pid:58.3%25%2C q_cov:89.4%25%2C s_cov:97.6%25%2C Eval:2.3e-21],MGA_2059
sequence1	MetaGeneAnnotator	CDS	2415358	2416221	.	-	0	ID=MGA_2060;product=4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016081.1;translation=MGTVSVESNAKINIGLNVLEKLENGYHRLEMIMVPINLYDRLEIKFSGELGELIISSNKKDIPTGKENIIYKIYNEFYKKIGIKKEKIEVNLIKNIPSQAGLGGGSSDGAFFLKELNCYYKNILKEEELLEIGLKIGADIPFFIINKPALVKGIGEKIEVINIIKNFDIILIKPDFGVSTKLAYENVLEQDNMKISNIKKIIKGLKNDNLKLIVDNIENNLQQNMYKKSKDIRDFEKKLKDILDVRFNMSGSGSCYYILARKDKSKNIELKLKKEFPSYFININEII;locus_tag=LOCUS_20580;gene=ispE;EC_number=2.7.1.148;note=WP_011016081.1 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase (Fusobacterium nucleatum) [pid:43.3%25%2C q_cov:92.7%25%2C s_cov:91.2%25%2C Eval:1.0e-52],MGA_2060
sequence1	MetaGeneAnnotator	CDS	2416303	2416563	.	-	0	ID=MGA_2061;product=RNA-binding S4 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048379.1;translation=MRLDKFLKISRIIKRRTVAKNVAENEKIMINGKVKKPSTKVKVGDIIEVSYYDKIIKFKILEVPTRNVGKKDADKLIEIIIDPRKG;locus_tag=LOCUS_20590;note=WP_012048379.1 RNA-binding S4 domain-containing protein (Clostridium botulinum) [pid:55.0%25%2C q_cov:93.0%25%2C s_cov:100.0%25%2C Eval:3.6e-19],MGA_2061
sequence1	MetaGeneAnnotator	CDS	2416550	2417350	.	-	0	ID=MGA_2062;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLQRVHKLKQKNNKSFETLIEIMEILRGPGVCPWDQEQTIESLKPYLIEETYEVLEAMSEEDHKLKDELGDLLLQIVFQSQIKKEINSFDVYDVIEAINEKLIRRHPHIFGNVKVKDSEEVLVNWDRIKKEEKSHKNRKSALDGIPKNLPSILKAYKIQHKAAKVGFDWENLEGALEKMDEEIEELKVEHKNQDKEKFENELGDVMFSLINVARLAKIDPDEALRKTIKKFTKRFRYIEDNTDIEKADLEAMEKLWEEAKSEIG;locus_tag=LOCUS_20600;note=WP_012099544.1 nucleoside triphosphate pyrophosphohydrolase (Clostridium botulinum) [pid:48.2%25%2C q_cov:94.4%25%2C s_cov:53.4%25%2C Eval:6.4e-67%2C partial hit],MGA_2062
sequence1	MetaGeneAnnotator	CDS	2417307	2418254	.	-	0	ID=MGA_2063;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940694.1;translation=MKKVVVSMLILAALVGGCNNPTANATKSKKAGNAVNVKKDNSKVLKKIGNDVITENDLKAEMDSIPAQYKAYYDNEKGRQQILDRLVEEKILKDVAIKQGLENDPEFVADLEKQKGRLLASYAVKRNVLDKVKATDAELKKEYEKNKEKYKQEGQVKARHILIKTTSKMTKDELAKAKAKAEKILKEALAGKTDFAELAKKYSEGPSGKTGGELGWFTKKKMVKSFADAAFKGEKGKVYPELVKSQFGYHIIQVEDKKAEGYKPFEEVKKSLEDKVSNDMRRTEYTKWIDNLKKEYLGVKKDEKTAKSSQTKTKK;locus_tag=LOCUS_20610;EC_number=5.2.1.8;note=WP_010940694.1 peptidylprolyl isomerase (Geobacter sulfurreducens) [pid:31.1%25%2C q_cov:94.6%25%2C s_cov:88.8%25%2C Eval:5.8e-36],MGA_2063
sequence1	MetaGeneAnnotator	CDS	2418273	2421242	.	-	0	ID=MGA_2064;product=transcription-repair coupling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016080.1;translation=MNFEINLTDEEIYRGAVPFYLKNEKRAIYISSTIKNRDDFYFVLKDIFKGKVLKLDMKYNNKKEKEINNQQLLKLINSKKKFIVFLDINQALDSFYKNYRSLKLEIEKEYSLKKILNLLEENGYVKNYLIEKHGEYSLRGDILDIFLFKEDNPIRIEFFGDNIESIRYFDINTQKSIKNIKKIEIFFDLDRENEYGLLDLIDKKNVKLYLENADLINYRVEEKILLERENEDKIREKLEELYNNSDKINLKSFKNSEINQYKDYDKVMEISKDKKVTILTEEDKRLKEIFKKHKSIKIIEYPYFEGFELEKEIILTDRELKGIKVRRVEKRKEGVRFTDINQLKKDDYLIHSMYGVGIYLGIESINNKDYVKIKYADEDKLYVPVEHIERIEKFITEPGKVPEIYKLGKKGFNKKREKLKKEIIEFAKDLITIQAKREASIGYSFSKDTIWQEEFEEAFPYVETEGQLKAIEDIKADMESSKSMDRVVCGDVGYGKTEVAMRAIFKCVMDGKQVAMLAPTTVLVHQHYERFKERYKNFPVEIEMLSRLEKTKEQKEILKKLKDGKIDIIIGTHRLIQNDVKFSDLGVLVIDEEQKFGVRVKEKLKKYKSNIDVLTLTATPIPRTLNLSLMGIKDISVIETPPENRIPIDTIFIDKKRDLIRDSVLKEIARDGQVFYVYNRVKDMKEKVTELEKILPKYVKIDYINGQMEPKDIRDKIEKFENEEFNILVTTTIIENGIDIENANTIIIENYDRLGLSQIYQLRGRVGRGSRKAFCYLLKDENRKSTKKGEKKILSLNELEDFGSGLKLSMEDMKIRGSGEIIGEKQHGIMEFLGYDMYLKMLEYEMKRIKNEDIIPIEKVTLEIKENGYIPENYIKEEEKYRVYKRMIRVNSIKELKELKNEIIDRFGKMPIEVENLFDYFEIKILCALKNIISIKELKNGFYLEVDKNKIDLDKLDVLLLDNKVKYLQKEEKLFLSKENNLKEVLHQL;locus_tag=LOCUS_20620;note=WP_011016080.1 transcription-repair coupling factor (Fusobacterium nucleatum) [pid:48.2%25%2C q_cov:94.0%25%2C s_cov:94.5%25%2C Eval:1.6e-265],MGA_2064
sequence1	MetaGeneAnnotator	CDS	2421621	2423468	.	-	0	ID=MGA_2065;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016068.1;translation=MINSYDIIVIGAGHAGVEAALAAARLGKKTAIFTIYLDSISMMSCNPAIGGPGKSHLISEVDILGGEIGKHTDKYNIQLKYLNSTKGVAARVTRAQADKYWYRVKMKEVLENTENLEVIQEVIDEILVKNGKIVGVKSSLGIEYKSKAVVLATGTFLKGRVVIGDIKYNSGRQGEQSSEKLSDSLIKNGIKIERFQTATPPRIDKRTIDFEKVTELKGEDNPVYFSIFTKKEHNLNIPTWLTYTTKETIKVTNELLKFSPIVTGMIDTKGPRHCPSIDRKVLNFPEKENHQVFLEQESVETNEIYVNGMTTSMPPFAQEKMLKTLPGLENVKIMRYGYGIEYDYIPPFQLYPNYENKIVKNLFLAGQINGTSGYEEAAAQGFMAGVNAVRKIENKEPIIIRRDEGYIGVLTDDLINKELLEPYRVLPSRAEYRLILRQDNSFIRMLEKSKEIGILKKEQIEHFEELKEAINVEINRLKNLKVYPGLENNLVLEGMGEKPIKKAITAAELLKRNRFSYNDLKYFVDIREYPKKVIEQVEIEIKYEDFIEREEKQIKRFKKLENVKIPKNFNYSNVNGLSNIAVDALNKTKPFSVGQASRISGVSPGDIAIILSHIK;locus_tag=LOCUS_20630;gene=mnmG;note=WP_011016068.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Fusobacterium nucleatum) [pid:59.2%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:1.6e-217],MGA_2065
sequence1	MetaGeneAnnotator	CDS	2423856	2425232	.	-	0	ID=MGA_2066;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016067.1;translation=MIKMFETIAAISTPIGEGGIGIVRISGDESFDILEKIFKPKSKKNVKDLKHNSVNYGHIYDENEIVDEVLVMVMKAPKSYTKEDVIEINCHGGYLITEKILEIVLKNGAKLADAGEFTRRAFLNGRIDLTQAEAVIDLIKSKSEKNLTLSVEQLRGDLKEKVGELKKKLLDVAAHVNVVIDYPEEGIDEPLPKELWGNLEEVHSECDILIKSYDKGKKIKEGIKTSIIGRPNVGKSSILNSLLKEERAIVTHIPGTTRDSIEEIININGISLILVDTAGIRKTEDIVENIGVEKSKTKIKESDLVLFVLDNSEELTKEDYDIYKYIDDKKCLGIINKIDKSKKIDISKLDKINNWIEISAINGLNIDKLEESIYKFILEDDIKNSSEKLILTNIRHKSSLEKVKDSIDNIFNTLNMEMPMDLIAIDLREALDSLSEITGEISSEDLLDHVFKNFCVGK;locus_tag=LOCUS_20640;gene=mnmE;note=WP_011016067.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Fusobacterium nucleatum) [pid:64.0%25%2C q_cov:99.3%25%2C s_cov:99.8%25%2C Eval:2.5e-169],MGA_2066
sequence1	MetaGeneAnnotator	CDS	2425225	2425833	.	-	0	ID=MGA_2067;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIFEKIKANSKEEAIKIFKEEKKDSDIVKIEELEAPKSFLGLFPKKGEFKIFYKVLKNEIEAKTKKLLELMGLDLEVKTERVDARKYNIFLSGKDNGIIIGKKGKTLNSFEKLLNNLFFGNRIYVDVEEFKKKREETLITLSHKLAKKVIATQKAVKLNPMPPLERKIIHKIANEYEELETHSEGRDPKRYVIIKLKKTDD;locus_tag=LOCUS_20650;note=WP_147367405.1 KH domain-containing protein (Fusobacterium canifelinum) [pid:49.7%25%2C q_cov:70.8%25%2C s_cov:56.3%25%2C Eval:9.8e-34%2C partial hit],MGA_2067
sequence1	MetaGeneAnnotator	CDS	2425841	2426461	.	-	0	ID=MGA_2068;product=YidC/Oxa1 family membrane protein insertase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903598.1;translation=MNFIQSIVATVIKYLYGILGNWGLAIIGVTLLIKIILFPLTLKQDKSMKGMKKIQPEVDKIREKYKDNPQELNVKVMELYKEHKVNPLGGCLPVVLQLPILWGLFGVLRKTGADALIPANTHFLIWNLTANDPTYILPILNGIVAFLQQKVMGQGGTGNKQMQMMTYTMPIFMVFISMSMPSGLQIYWVTSSLISFLQQYYIMKKE;locus_tag=LOCUS_20660;note=WP_005903598.1 YidC/Oxa1 family membrane protein insertase (Fusobacterium nucleatum) [pid:58.3%25%2C q_cov:99.0%25%2C s_cov:96.6%25%2C Eval:1.0e-62],MGA_2068
sequence1	MetaGeneAnnotator	CDS	2426458	2426688	.	-	0	ID=MGA_2069;product=membrane protein insertion efficiency factor YidD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582538.1;translation=MIKKILLFFIFIYQKLISPLKPKTCRFYPTCSSYAKEAITIHGSLKGSLLSVKRISKCHPFNPGGYDPVPKKEEVK;locus_tag=LOCUS_20670;gene=yidD;note=WP_012582538.1 membrane protein insertion efficiency factor YidD (Dictyoglomus turgidum) [pid:59.5%25%2C q_cov:97.4%25%2C s_cov:87.1%25%2C Eval:7.7e-22],MGA_2069
sequence1	MetaGeneAnnotator	CDS	2426685	2427020	.	-	0	ID=MGA_2070;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016064.1;translation=MIHLINIKQFTKVYNDGVKFFSKNFLIYFYRNDYNENRLGFVTSKKVGNAVKRNRIRRLFRETYRLNENIFPKGYDIVFIAKRNFGRDIKTVNYNILSKEVIKLLKRVDIK;locus_tag=LOCUS_20680;gene=rnpA;EC_number=3.1.26.5;note=WP_011016064.1 ribonuclease P protein component (Fusobacterium nucleatum) [pid:43.1%25%2C q_cov:91.9%25%2C s_cov:91.9%25%2C Eval:1.4e-18],MGA_2070
sequence1	MetaGeneAnnotator	CDS	2427102	2427236	.	-	0	ID=MGA_2071;product=50S ribosomal protein L34;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010888783.1;translation=MKRTFQPNVRKRKKDHGFRLRMKTKSGRDVLKRRRAKGRHKLSA;locus_tag=LOCUS_20690;gene=rpmH;note=WP_010888783.1 50S ribosomal protein L34 (Deinococcus) [pid:76.7%25%2C q_cov:97.7%25%2C s_cov:91.5%25%2C Eval:4.9e-13],MGA_2071
sequence2	MetaGeneAnnotator	CDS	1	1653	.	+	0	ID=MGA_2072;product=replication initiator protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016063.1;translation=MGDKETKKEVFELNDFGEFKNDLFGGVLTKETKPNKLKTEKIQIENTGNFLEVKDGIVNIPLELIVFPFFTTRKSDREVNFEYQFKDMGLTMYSNLIGAKIEGKNILQPGSFEKKVFDFILTKFEDDFANGEYKDFIQFDIRYFIVDFLGNKMNDRYYSKIEEALRNMKYTTYSFGVKNRKKAGNFSFESKSFNLLNYEKVRNGKKIFYKVYLDRNITNKISEKRYVKFKMEELSLLEKKDAVALRLYQYISMKRFSANEGEYRIELLAAVVPLKTFITQKKINKKGEEKIYRVSKIKQVLKRISKSFDILVKFGYLEKYKVIEIKEEKSYKIFFTFGNSGFHVSDYIQKSSKTLIKDRNKLYVAIEKAKKNIFFSKKYNKRVENKMVKVADIYGEKVAIEVLSNIYKGLKSDIRTSLLRYIDKVLKELVEDKNFLNENKGMKTVSNKKVFSNESIDVIRESNGEYNKKRKKEKKIDKKDEVSEEIYYIFYNKLPEDEKLKIDKAAEKLWLEEEGMNEKVLELFRKNKIVYTDMIKKYTVAAIKVVYSFN;locus_tag=LOCUS_20700;note=WP_011016063.1 replication initiator protein A (Fusobacterium nucleatum) [pid:32.0%25%2C q_cov:98.0%25%2C s_cov:95.0%25%2C Eval:3.1e-79],MGA_2072
sequence2	MetaGeneAnnotator	CDS	1883	2656	.	+	0	ID=MGA_2073;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722150.1;translation=MKVIAVVNQKGGVAKTTSTQNIGVGLAKLGKKVLLIDFDPQGNLTSGFGIDKRDLNYTVYDILKTRAFPGPEISVEKVLLEKDNISILPTNIKMSKINIELGGVPGKDNILKEILKEIYGFDYILIDCPPSLDTLTFNALTAADAVYIPVQAEYYALEGISELMDTIDMVKQRLNENLKIAGVFATMLDKRVKLHLEVIKELKKFFGEVMFKTLIRRNVKVSEASSYGKSIFDYDEKSHGAQDYLNLCKEIVEREVN;locus_tag=LOCUS_20710;note=WP_003722150.1 AAA family ATPase (Listeria) [pid:50.0%25%2C q_cov:97.7%25%2C s_cov:98.0%25%2C Eval:7.4e-65],MGA_2073
sequence2	MetaGeneAnnotator	CDS	2656	3537	.	+	0	ID=MGA_2074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIGRLGNNPLERRNKTSTVVLENRDVNEIKKEEIVKEFGELAHLSKMLIQNIDFLDNSFINRLHNDEKELEIEELKNSIQEIGLLNIIYLQEKEDRKFRIISGLRRLIACKDLYNDSIDIKGKSRVIILRKDTPEEYLDRISIDENTKRKDLTILEQSYKFNKEAAKKNKKIDEILESYNISRKKFYRIKNAMNYPEELKIFVEEIGVEKAEIINKIIKLKPGADTKNLISQLVVKKRDDLRMILKELLSGKKKKNVIFEKSRNAIKIRINKKISNDLEMELKKLLEKIENY;locus_tag=LOCUS_20720;note=MGA_2074
sequence2	MetaGeneAnnotator	CDS	4830	6284	.	+	0	ID=MGA_2075;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRAFKEMLQRNSKKIILILIGILILFILGIISSVRQPVKKALKESKVKKKILYIPKQFIWQKYPKDFKKEYKFKETIKKNIARKEVIKKKDYEKKHMLQINYYDKEDRLIYRIEDTRGIQQSSWSSGRGGASEKVRPYPKEEGYIYDEKGRIIKKVLTSPFYYKGSIIRKAKDIESEERETYLFDGIRTGDVYYTEYSYNEKGELTREYKLKPMDYYEKEVIDYNIGKKKREKKMIDYEVLSEEWNKIYVEIDKEYDDKGKLIKKFVLRKNKFNAIRSETNFDIKKGEIITRYYDGDKMFATVTETMVGKDKAIVKRERVGDESKIIIVDYIEYISKDKFDYKKYKNYYSLYDQRYVLNTNDEIKFKVSFLRGSYEYNDTRIEGGVDKNSYKYESYFSGDGSDTYSKVSSEINNIFEIKRLNNLESEIYEYEINKEKYLEVLKNIMVGKLEDNIKKYLILKKQTKLKNESLKNEFKNITGGIKK;locus_tag=LOCUS_20730;note=MGA_2075
sequence2	MetaGeneAnnotator	CDS	6281	31981	.	+	0	ID=MGA_2076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLNVNMKKVKLIKGKDNWIYISRDGVEETIKLFYDDGHFNNTKIDELQEKIRKRNAWNFADMLDDYIGTEDYALTFLGALKGTGKMSSSETFDEVGKSLFSESVRLTLGTNFEKNAKSEDEFKSMIASLFVDTHEIVDKLAAGNPTELKSKIFGDMFAVYAPAFTAVVKKCGVQLADSSISGVMDIFKNGVEYTLSELGVKNETIMGKNNGKLGEEGISLENSVLRSRYEVLKKGEVNIEFPEEYKKAIEDYNNEIKKYNEKVRSYNKQNGNSGNKLEELKLIGSKKYTSEAVKEILYKEVILNRLSADVMSAMMSSGVSGIKSGELPAQIIGVGMFAESKPFSAGLKIYLSEHWEEVKAGNFDVSELMTEVKKANIDFFNVVDNFFGASSNFIEWTYKGEKLATELDVDAPGMVDGTAKGLLEHWKEVKDKIAGDTTIKGVKKIIGSVEGVTKLLNDLGKTGEFPEYDIVGYYDNKVMGNINESHIYFDGNTDIIMYESESKQINIVRKTGNYSRSEMASMVLKNMSESILYDSKNMALKFGNEEKNYFHFYDGGNEYLIYDGENIVEKVSSEESGCNLEERGFDYKEVLDSEINLWLKEDKRIGDYLDGNKKFIILNPSEIIPLKENYTSKLDIFSKHLRFPLIGNEKDNIIIGYGDDELIKGNSGNDKIYGGKGKDSIYGGADNDKLYGGSGHLIELGEYQYTTSEDKDKSSDYLNGGKGNDMLVGGLGNDIYEFKTGDGSDSIFERGEWGLSLFDIGEKRVLQRGSYRGKIVIDGQEIKGKAKKVNDNKYELEVSGEKYELDYTSGDLIINYGNGDKIKVKAYQNYDMGIELEGLPVLLSSEMYDKIISILGIENNTIKGMVERTIATNMAIAKVNPVSKKLVAAVNEIERSYVEEGSKMPLCGFFSGFYNMGWGVGAMAMRADANLSKYAKYVNLDPLILDLNGDGVKTTKLEDGSYFDLDNSQFAEKTGWVTPEDGMLALDKNSDNKITSGDELFGDQTYLKNGKKADSGFEALSEYDSNADGKIDKNDEVYSDLRVWQDINQDGVSQANELKTMEELGIKSLNLSSTKLSEEKDNGNILSSLGSYTKTNGISYEMSEYLLKRNPIDRRERITELKEDIKGLVNVEATGNMDSLLQAITEDKTGELEYWTKVFEREKDPIVRRDLVESEFIYQWAGVSKVEEDSRGKYIDARQLMVLEKFLGEEWTDNKGKKNPDKYSAELLKDAYRVLKERIYSEMLSKTHLVKYIDMATLEITGDKVTINTDELKSAIDKELKDDTTYGRELLKDMLSYFIYNGYDKYMDYKGFTSYFANQNEDLEWLVNSVEMNPIEGDKAFGNFLKNQKKEDGNSVGYSSEIVDYLIGKMKKEDFFDLSYNERLRLIELNKEIYSKDEYEVLYRLIKRGISCNDNLSGTAVADAIKGGRGNDTIAGNGGDDYIYGNEGSDNLSGGEGKDYIKGGTGNDTLYGNNDDDRLYGGAGNDHIEGGQGNDILEGGLGDDYLEGGANNDTYVYSKNSGNDTINDYDNIEKFITTDEAGNEITIANEKHDIVEMKDILSTEVKLELDKENLLIKVLDEEGKVSSTLKIEKYFKDGEYRKIELHFADEKVWDFDMVKNIMNITEITQASDMENIDSNSNIILSRLDSNTVDVSNSSADKLIVGGLGDDTLTGGSGDDYLDGKDGNDILDGGAGDDILEGFYGDDTYIFGKNYGTDTIIEDFGNDTIKLKDALPEDVEFIRKSVSDKNLYIKIKNHSGDLIIKDYFDNSKIKIEKIEFKDESSWDRLAIMDRDVIYEGEVGQGNKFVIGDYNYGAIDLTFDGLVDTTNEHHKYIINGKEKDDTLSGGVKEDTIYGNRGDDYIYGGDKDDKIYGGEGNDKLYGDTRSEVEEYNYRDSVEKVEKPIFEDLEYLMEPTRSSGSDYIEGGTGDDYIEGGRNNDILKGDEGNDTIWGDGYVNVVREMSVLKRYHEGDDTLYGGSGDDYIEGQKGNDKLYGGSGDDTLIADGNDEEYGMMGDTTYIPHGGRDILEGGTGNDRLEGGIWGDSYVFSKGDNQDEIFDLQGRDQIVFKDVLSNEIKVTRNFDDLLIIYNEDRDKIRVKDYFLSKEELTKRYKDSNIVGWEKFEHKIEEIIFANGEKWNEEDILKSFAIVGTDAADELNGTEREEVIFGRAGDDTIDGKLGNDLIYGEEGADKIYGGSGNDHIYGDSGDDYIDGGYGNDIIKGDIGNDKLKGNEGDDTIYGGDGNDKIYGGYGNDTLDGGEGNDFIYTEKGNNILTGGSGDDILLSGDGNDSLDGGDGNDKLTSNEGNDELTGGSGDDILDSGTGNDKLTGGTGNDTLKAGSGNDKLYGNSGDDILDGGAGNDILISDDKNDSGNDILIGGSGDDVLKSNAGNDILDGGSGEDLLDGDSGDDIYKFGKDYGNDTIYEYTGTDLIVMGEGVTKKDLLIKFKAYDLKIYIKNTDDSLTIKDYFRADKYAVEKMIFANGEELNLKELTDAWIIKGTEGDDTLYGTNGDDLIFGLGGNDTIYGLAGDDTLNGGTGDDYLNGGLGNDYLDGETGNDILDGGIGDDELHGGAGDDTYVFGKDYEKDILIDRTDKLNSERKYDKTIIKLQDITPEEIKFIKDGGNLNITVKGSNSKLEIANFFDKHKSEIDEIRFSYGLEFENGLVWDLNEIQNHPIYVYGSDKKDKFNPYSMDKKSLRIGRSYSDYKYYIDGYGEKDYLSGGIKGDTILGGEDADRLEGQAGDDYIDGGSGDDLLSGGAGDDTLVGYTGDDNLYGGSGNDLLKGDVGEDFLFGGNGEDELHGGDENDTVIGGRGNDKLYGDSGDDLLKGGSGNDILEGSKGNDILMGNFGDDIIDGGAGDDIIYGNEGDDKFIFGRGYGKDTVYEEGWGFDKIILSDDITKDDIKLSKSGYDVILSIKNGEDEIKDSLTIKDYFKSNYNKIEKIIFATGEEWDTYDITEQLKIVGTENADEITGTEVEDLILSLDGDDKVSGGKGNDAIKGGTGNDILHGDEGDDQLLGESGSDELYGDSGNDQIEAGTGNDILKGGTGNDSLSGGAGNDRIYGEEGNDYIQGGLGNDYIEGGAGNDTIKDTLGTDKIYGNAGNDTIFAGEDNDEVHGGTGNDSIRGDGGSDKIYGESGYDNISGGLGNDYIDGGSENDTIMGESGSDELHGNTGNDSIIGGTGNDKLYGESGYDNISGGAGDDEIYGGTGNDSISGGFGSDKLYGDEGNDRIYGGLGDDELHGGIGNDYLVSIGMTTTKDGEPMEIAAADKLYGDEGNDTLITNKGDDKLYGGSGNDILKSGEGHDILDGGAGDDYLEGGIGDDQYIFGKGYGKDVINNYDSRVDGLDKIIFKEEILPSDLRARRDVYDLVISIVDTADTITIKNYFKDKLYEVEKFVFANGVEWERKDIDERLGLILGTENDDTLIGTESDEFITGYAGNDMVKAGAGKDIVESGAGDDTIYGGSGDDILKGGADNDTIYGEDGVDTIYGGSGSDILKGDSGNDIIYGENEDDKIYGGIGDDTLKGGAGNDIIYGNEGVDIIYGESGNDIIEGNEGNDKLYGNEGNDVLKGGIGDDYLEAGSGKDELYGNEGNDVLRGNWNNDRLYGGTGNDNLSGGYQLFGEEGDDYLASGNVLDGGIGNDTLKNGNEMYGRAGNDKLYGNYGANIMEGGTGDDYLDGNYGDDLLNGGTGNDILKGNYGDDRYVFRRNFGEDTIYEVSGTDKIVFEDGILSEEIELTNEEFNLIIKLKNSENKIKVVNYFKNEGSGIENIVFEEDGTIWKKDKINSNVIFTPLEGDNGINNLNGIGNIKGYGGEDNIYGSVIDDIIDGGEGNDHLDGQLGNDTYIFGKGYGIDEIALNGKDKIKFLDNVSEDEVKIIKKGNDFVIKITSSPDRIIIKNSNLNSLLNSLSLEFSNGTVWDREKLNFILNKPEIMQIEEDKIIGTNSKDKLESTVNNESLIGKDGSDTYIFKKNFGEDIIYESNNSRDINVVRFLDGIEKEDIEVNIDENDLIIREKNSDNSIRVKDYFNGTKKISKLVFSDMKEKNLEDYISYIRGNSIEKNLVGSSLDEVITGGERNDILDGKDGNDLLKGGYGSDTYVFGRGYGHDTIYDTPSYYWRPNNNNVIKMTGVMSDDIRFAKNGNDLRIEIISTREVLTVKNVISNNYINRIEFGDSVLEGNNILAKLNESYNIIGTNKSETIYGSNGKNIIDGQGGNDKLVGNSGNDVYIFGENSGHDTIISPKKNDIVLLKETLKPENMSYTRKGNDLKINIKDNLDDSLIIKNYFANDNYQSAIKFADDTIITLKELEKLDYAVIGTDKDETLIGVGNDTLIGKNGDDILLGQIGNDVLEGDKGNDVLYGEAGDDTYIYRKGDNLDIIKENNGADILRLEDINSEELNYKRANNNLEITIKNSLDKIIIENYFANDKYKVEKVVCLDKEFNLEERLKEGIEVIGSNGIDNLYGYLGDDKFVLDKGNDVAYGYAGDDTYVYSKGDGVDTIIDNAGELDKIVLKDLNKDEVELKRVKAQKRINYWNTIYTDDLEIRIKGSNEKIVIKDYFKNNNNKIENLEFSDVSIKTEEFLLEGINIIGDEGNNAWLYGSIGTDKIEGKAGNDNLYGETGDDELLGNEGNDILSGGTGDDKLYGNEGDDRLLGQIGDDVLEGGAGNDVLDGNEGNDTLVGGIGNDNLLGAAGSDILEGSIGDDNLDGGAGNDTYVYSKGDGVDTIIDNAGELDKIVLKDLNKDEVELKRVKAQKRINYWNTVYTDDLEIRIKGSNEKIVIKDYFKNNNNKIENLEFSDVSIKTEEFLLEGINIIGDEGNNAWLYGSIGTDKIEGKAGNDNLYGETGDDELLGNEGNDILSGGAGDDKLYGNEGDDRLLGQIGDDVLEGGAGNDYLEGNEGNDTLVGGIGNDNLLGGAGSDILEGSIGDDNLDGGAGNDTYVYSKGDGNDTIYDIEGTDKLKLTDINPEEIELKRPLNNSNDLNIVIKETKEIITIKNYFNSNKIETIEFKNNDIWNAETIESQTTKVDGTEADDVIYGISGNDQITGKAGNDYINGETGDDVLIGGMGDDILVGDKGNDNLSGELGDDNLSGGTGDDILTGGAGNDELSGGAGSNKYIYNIGDGADKIKVNGSNIDFNLSGLANENWNWKATQDWNGQRWGDGGRDAFDGFGNTSITINGKTISNINLGSKDGVPVNHEVGGVEFSSKVQYISDNILEIKLNSIGDYTGEIAVTTGGNLGSDGNEEYNTGVINLGGTEYTYAHSKDRSRNDPNIFFLMLPETLGEENKVNYTRSGDNIYGYLKDGHFPLRILIIPSLYEANEIVDLLEKNIFFESKKEIGDILELGEGISKENLKIYRKEKDLILDMPTEGDKITVEGWYSGRKLDKIQFSDGSELSSEELHKQGLIVNGTENEDVLEGLFAESDKLNGLGGNDKLYGMSGDDILTGGVGNDALEGGAGNDTYVYAKGDGNDTISDTEGIDKLKLTDINSEEIELKRPLNNSNDLKIIIKETEDIITIKNYFNTNNKIESIEFGNDEIWNIETIESQTTKISGTAGNDTLYGISGNDDLSGNDGNDTLYGESGDDTLYGNAGDDILKGDIGNDELIGGIGNDKLYGNTGDDILTGGTGNDTLEGGVGNDTYVYAKGDGNDTISDTEGTDKLKLTDINPEEIELKRPLNNSLDLNIVMKETEDIITIKNYFNTNNKIESIEFGNDEIWNVETIESQTTKISGTEGNDTLYGISGNDDLSGNDGNDTLYGESGDDKLYGNAGDDILKGNIGNDELIGGTGNDKLYGMSGDDILTGGIGNDTLEGGAGNDTYTYAKGDGNDTISDTEGTDKVKLTDINPEEIELKRPLNNSLDLNIVMKETEDIITIKNYFNTNNKIESIEFGNDEIWNVETIESQTTKISGTEGNDTLYGISGNDDLSGNDGNDTLYGESGDDTLYGNVGDDILKGNIGNDELIGGTGNDKLYGNAGDDILTGGTENDNLEGGAGNDTYTYAKGDGNDTIYDTEGTDKLKLTDINPEEIELKRPLNNSTDLNILIKETEDIITIKNYFNTNNKIESIEFGNNEIWNVETIESQTTKISGTEENDTLYGISGNDDLSGNDGNDTLYGNAGDDKLYGNAGDDILKGDIGNDELVGGAGNDELSGGVGSNKYIYNMGDGSDKIKVNGSNIDFNLIGLANENWNWKAIQDWNGQHWSDGGRDAFDGFGNTSITINGKTISNINLGSKDGVPVNHEVGGVEFSSKVQYISDNILEIKLNSIGDYTGEIAVTTGGNLGSDGNEEYNTGVINLGGTEYTYAHSKDRSRNDPNIFLLMLPETLGEENKVNYTRSGDNIYGYLKDGHFPLRMLIIPSLYEANEIVDLLEENIYIESKKEIGDILELGEGISKENLKIYRKEKDLILDMPTEGDKITVEGWYSGRKLDKIQFSDGSELSAEELHKQGLIVNGTENEDVLEGLFAESDKLNGLGGNDKLYGMSGNDILTGGIGNDNLLGGAGEDTYVYAKGDGNDTISDTEGTDKLKLTDINPEEIELKRPLNNSLDLNIVIKETEDIITIKNYFNINNKIESIEFGNNEVWNVETIESQAIKVDGTEADDTLYGISGNDELVGGAGNDKLYGNIGDDILSGGIGNDTLEGGAGSDTYVYAKGDGNDAISDTEGTDKIKLTDINPEEIELKRPLNNSNDLKIIIKETEDIITIKNYFNTNNKIESIEFGNDKIWNASDIESQATKVDGTETADTLYGISGNDELSGNDGNDTLYGESGDDKLYGNTGDDILKGDIGNDELVGEAGSDKLYGNIGDDILSGGIGNDTLEGGAGNDTYVYAKGDGNDAISDTEGTDKIKLTDINPEEIELKRPLNNSNDLKIIIKETEDIITIKNYFNTNNKIESIEFGNNEIWNVSDIESQSTKGDGTETADTLYGISGNDELSGNDGNDTLYGESGDDKLYGNTGDDILKGDIGNDELVGGAGSDKLYGNIGDDILSGGIGNDTLEGGDGNDTYVYAKGDGNDTISDTEGTDKIKLTDINPEEIELKRPLNNSLDLNIVMKETEDIITIKNYFNTNNKIESIEFGNDEIWNVSDIESQATKVEGTESNDTLYGISGNDNLSGNDGNDTLYGESGDDKLYGNAGDDILKGNIGNDELVGGAGSDKLYGNIGDDILTGGTGNDTLEGGSGNDTYVYAKGDGNDTISDTEGIDKLKLTDINSEEIELKRTLNNSNDLKIIIKETKDIITIKNYFNTNNKIENIEFGNDEIWNVSDIESQTTKVEGTEGNDTLYGISGNDELSGNDGNDTLYGNAGDDKLYGNKGDDSLTGGLGNDILEGGTGNDNLHGNEGDDSLTGGLGKDTLEGGSGNDNLYGDIGDDILSGGLGKDTLEGGSGNDNLYGDIGDDILSGNEGIDIIYGGLGNDILKGNAGNDTLYGNAGDDTLTGNTGIDKLFGGVGNDTYVYSKGDGVDTIYDEGGELDKILLKDILPEEIELFSTNENLEIRIKNSDNKIVIKNYFRGNGYLESKDYDMDKYKIENIEFSNGVIWENLDIGKNLVNIFDGTKEEDYTIGHNLGKNIINGYEGDDGLYGRGVDGNIITGGLGDDELHGSSAKDTYIFNKGDGSDTIFETGGDSDTIKFGENIKPEDIEIVRVQNDVMLKIKGTEESIKIWDFFNYMVTAINVENGKIENIEFSDGTLWNKAIIKEKYENIYGTDSNDEVRGFDDQNDILHGFAGDDKLYSFGGDDTLLGNEGNDLLISGTGNDLLDGGIGNDQLQGGVGNDTYIFGKGYGEDVIFEESGVDSIKFIDNIKAEDIIARKNGDSLIVSILGTEDRIIVNNYFKDSNNKIEQIEFSDGTKWNQSTIEEKSREIIGTSKAETLFGSDQDDTLDGKAGNDHLQGSSGNDTYIFGKGYGEDVIFEESGVDSIKFTDNIKAGDIIVRKNGDSLIVSIVGTEDRIIVNNYFKDSNNKIEQIEFSDGTKWNQSTIEEKSREIIGTSKAETLFGSDQDDILDGKAGNDQLQGSTGNDTYIFGKGYGEDVIFDIDSTEGNKDIISLLDGISESNLQLSKNGDYLIGTIDGTSDRFIVGDYFKDDSHKIEEIKFSNGTIWDKLKIDELTGNSSTNTNDTTNNDNSTENTDNSSTNDSSNDAETVKNDKFELNYNSDNVELKFSRYNLDITVKVFEKDGSITANMGYSGTQENYNSFINNGDQNKLSNHVNSLLQDIVNMSSQNNMDYLKAIIQFKDEFEKTVVKDFEFKIAGESSSSDLPLTDDKSNSDENIVISETAINEAKGKDNYKIVLNSDSFEIDFKRQELNIKVSILPSGNSITAKIGYSGTQESYNNFVSSNGQNKLSAQINTLFQKIINNSSEKNMPWFEALKTDIDNMRKINIESFGFGDGSTNNDDMMVGTVSKSNILYGGIGNDVIYGKELNDTLDGGTGNDTLKGGLGDDTYIFGQSYGQDTIKDDGGNDTLKLDINPLDLIIENSNNDLLIKKYNGNEQLIIQDWNLGSDNQIENIETDTEVLTNQNLEKLIQAMSTLETDEGMSWTKLKEEESQKVETILTQYWQHKN;locus_tag=LOCUS_20740;note=WP_010980934.1 iron-regulated protein FrpC (Neisseria meningitidis) [pid:35.5%25%2C q_cov:9.9%25%2C s_cov:50.0%25%2C Eval:2.3e-137%2C partial hit],MGA_2076
sequence2	MetaGeneAnnotator	CDS	32195	34315	.	+	0	ID=MGA_2077;product=type I secretion system permease/ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011836919.1;translation=MNEEKEKKDTGLLSLMMMAKYHNLNTNPEQLKHAFAISKDGMQVLDILKAAKGIGLKAKLYKMSYKQIRDIKLPAILHLKDGKFVIAGKFEKDNILILNPEEGTPKMLSKEELENIWNGEIILLKPKGFKIKEEVFNIKWFIPTVWKYRKSLSEVLTASLSIQIIGLATPIVMQVIIDKVLNHKLLSALDVFIIGLFIVTIFETILKIAKNYVFTHTTNKIDVILGARLYSHLLKLPLRYFEVRRIGNTVARVREVENIRQFLTGAPLSSILDVMFIFVYFIVMFFYSSTLSWVILGSFPFFIVLSIVVTPIFKSRLDEKFKTGAEVQSYLVESVSGVNTIKSFALEPEFQKRWENVSAEYTKSGFKVSLLSGVAGALGQFIQKSTDLLVLWLGAKLVIENKITIGQLIAFRMLSSRVSGPVLRLVQMWQEFQQIGISINKLGDIFNTKPEPSIDPSKMMLPKLKGDIKFEGVRFRYRADAPEVIRDVKFEIPAGKTIGIVGRSGSGKSTLAKLVQRLYIPEAGKITVDGIDISLADPAWLRRQIGVVLQESFLFNGTIRENIAINKPTASMEEIINVARIAGAHEFIVDLPEAYDTQVGEKGSALSGGQKQRIAIARSLITNPKILIFDEATSALDYESESAIQKNLSKICDGRTVLIIAHRLSTLKDADLIMVMDRGELIEYGSPKELLSKQGLYYYLYSQQLK;locus_tag=LOCUS_20750;note=WP_011836919.1 type I secretion system permease/ATPase (Streptococcus sanguinis) [pid:53.3%25%2C q_cov:97.2%25%2C s_cov:96.9%25%2C Eval:3.5e-211],MGA_2077
sequence2	MetaGeneAnnotator	CDS	34332	35663	.	+	0	ID=MGA_2078;product=HlyD family type I secretion periplasmic adaptor subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011268198.1;translation=MLRNKKEKNAKYEFLSSALEIVESPPSPLGSLIIWIILLLLISVITWSYVSKTDEVATAMGKIVPGGKLKVIQSLEEGKIVDILVEEGAEVKEGQLLVKLNLKTKAANLEALNKSLLMVKLEMDILRKKQVRDIFKNNKDIEKVLSKSEINSQRNYYEAKEKEYLSKRDGLKTLIKQKDGEILVTKANLEKLLEKYRALKEKEENLKYLYEVGSIPRIDWINKKDEVLITEKDLKKEHATIDVIKSQLTETKDNLVNLDKSWDKGVKEKILELDKKKIELEANYIRAKESYKNRNLYSPVDGIINEIGVTTIGEVVTSAKPIITIVPKNTPLLAEVKILNKDIGFIKKGQGVDIKLDTFPFQKYGSIKGNIIYISSDIIEDKKLGAIYKAKIKLQKTTINVNGKAIKLLPGMNLSADIKIGKRRVIEFFLSPLMKVPESLKLR;locus_tag=LOCUS_20760;note=WP_011268198.1 HlyD family type I secretion periplasmic adaptor subunit (Pseudomonas syringae) [pid:30.0%25%2C q_cov:97.7%25%2C s_cov:93.7%25%2C Eval:2.1e-56],MGA_2078
sequence2	MetaGeneAnnotator	CDS	35781	37130	.	+	0	ID=MGA_2079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINIIFSIFFVMFNLSYSVEYSLNDIIEEFLSKGDITNIEKLNLDTLERKKKSIEKEKNSKIKLSLKNGNELLYNKELNIWRKDKRFLHGNLSLESSYRDFYIKFDDQYSNGNIDISGDTIYTNRYKNEISEISIGYNKNINDIFYSEYKYNKNNIKYEKIDIKLKKTKEKFEKIKELIQLYVEIKSKEEEKSLYFKMFRENKEMLKIVKGEYEVGKKREVDVEIINLELENIKNRIDILGEKVNVSKEKLLSYINKNGNKIRLLPLEKIDIGEIEVEHIEKEDIINRKNMLKEELKLLNRKNQVDINIYSEYDLKKNNYKLGINFTGEAFGYNYKIDENRNKNLEFEKLLKIKEKELIIKKTEEEKNYINLKKALRLSQKDVGIKFKINNLNKKLFIKGYAGASDYIKSKTNYIKAEVENKKNEYKLSKFMYEQYWIKKVNIMNEK;locus_tag=LOCUS_20770;note=MGA_2079
sequence2	MetaGeneAnnotator	CDS	37165	40161	.	+	0	ID=MGA_2080;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLSWIVYLILILTTGCFREESINITPKGILSGYVVDSTGKGIEKANVYISDKLAETDKQGKFYIEDIDIGGNPEFVVRVEKGNYLSKYITVKYDNSTTNIQINGTNDINGYPLKNVVKSVKVELTSLIKVEGKLKEKLLDENLKVHISIKAKKEYQEYFDNLEYNKNLENGDKFEIDNIPKFGLDEKGEYIIEEIRVGIYLEGSNTEKYFIKLTGEDLTSKEKMENLSLNKLYTLQGKLYKNIDKKEIMEGAKIDLLKSDGSEYKSIYSSEIGSYEFNEVEEGEYKLKVQNMDMDKDGSEEYKFEKERLVKIGGDNNTEIKKDLWYDKMVNYNLSGKVMIDEIGISNIKVKLYNGTYLIKETTTNETGEYSFSDIEYKDIKIVAEPIDLDDNGVYNFIGKDEIFEELTIANEIGEDLKDKNLYFKANELEPNYGLEISKANFLENDKVKANLNPGDKITIEFNNELSEDAIAKIKTAGENIVYLYENADEILTTCVIKDSKILEIEPLVNLQAGVNYKIKLNEKLTSKEGNKYNIYLGVKEYEGELIKIQEATLESIKPQIDFYYGISKEISKDENFILDNDLIGGVYTDIEKQNSPLKLENGSEGTTDYSLNKLKIKFKIAEKYIDLDKNELRGISKFIVYGKLNSDYSYWKNLKEISKNEVSKSSIINREIKDIEIDLTQLKGYSNEDRLGYGKKIDLVVIPVSLNNQKANFDNSKIMILEDKYKPEIKSILGISGDYVLEPGENIIKFNEDIDTTKGLNIAISNVNDNIKYELKDNGYLNKGTYYFNISMKNLSLKLSKDFLKSGKTELEQILEVENIKGIYPTMELEIKDKGIIEIVDIIDTNKIKVKFKDSLFDIKKEDLFIATENNKDIFCRESAIGEVKNIGTDYIKLKLKEKAKYMIGDILAIYEDNNKIGELVVTNIKKDTNSDEYIYNISGADITNIKSEFDKGKTLNSKLKNNMVIKITAYDTSGNLINEWKDEYFNENGVWGVR;locus_tag=LOCUS_20780;note=MGA_2080
sequence2	MetaGeneAnnotator	CDS	40574	41596	.	+	0	ID=MGA_2081;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437479.1;translation=MITIKDIAKVAGVSHSTVSRSLNDSNQISEKTKNKIKKIAEEMGFEFNLNARSLNTQKTNTLGIIVPEFFGDIRIEVFFGKMLGYLLREIEKEGYTSRIEYAKNSLDKKSNIQKMIQSRRIDGLIIIHENILEDEFEFLSEKDFPVIFLHHKPELFFDKNINYIGTDNYKGGYMATEYLINKGHEKIATLTWDCLGIEQAERTNGYIAALNSNGIKVNEKIIFKTDLSFEENYNIIEKNIDIFKEVTAVFAQTDLSALAVIEALKNNGISVPKDVSVIGYDDIEFGKFFKPYLTTIHQPIEEIVKESVKTLIDIIMTKKNKSIKKVFEPYLVERDTVIEI;locus_tag=LOCUS_20790;note=WP_003437479.1 LacI family DNA-binding transcriptional regulator (Clostridioides difficile) [pid:37.7%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.5e-64],MGA_2081
sequence2	MetaGeneAnnotator	CDS	41765	43435	.	+	0	ID=MGA_2082;product=oligo-1%2C6-glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000415176.1;translation=MKEKWWKEGVVYQIYPRSFKDSNGDGIGDLRGIIEKIDYIENLGVDIIWLNPVYKSPNDDNGYDISDYYNIMDEFGTMADWEELLDKLHKRGIKLIMDLVVNHTSDEHKWFVESRKSKDNPYRDYYIWRKGKENKEDGKEIEPNNWLSFFSGSAWKYDKTTDEYFMHLFTKKQPDLNWENENVRKEVYKMMTWWLDKGIDGFRMDVINLISKVDGLPDVPKVKGEKYSWGGDYFMNGPKVEEWFKEMNKEVLSKYDIMTVGECPGTTPQEGINFTAEENRELNMIFQFELMGIDSEIVKWNTKQFELKDIKRIIKKWQLVIEKGGWNSNYLMNHDQPRALSRFGDDKNYRKESAKMLATFTLTLPGTPYIYQGEEIGMVNVAFEKIDDYKDVETINYYNEMVFDKKENKEKIMKQIHQMSRDNSRTPMQWDDTENAGFTTGNSWIKLNPSYKEINVENDLKDENSIYNYYKKLIKIRKENKELIYGKYIEINVENEKVMSYILEKENSKILVVINFFGDNETLDLKGYEKELLISNYENSLEVELKPYEARIYKIK;locus_tag=LOCUS_20800;gene=malL;EC_number=3.2.1.10;note=WP_000415176.1 oligo-1%2C6-glucosidase (Bacillus cereus) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-199],MGA_2082
sequence2	MetaGeneAnnotator	CDS	43448	43711	.	+	0	ID=MGA_2083;product=SemiSWEET transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011089200.1;translation=MTIVTVLGFTAATLTSLSFFPQAIKVIKTRDTKSISLIMYSMFTLGVFLWLLYGFFSNSMPVLIANIVTLIPATVVLILKIKEGNKN;locus_tag=LOCUS_20810;note=WP_011089200.1 SemiSWEET transporter (Bradyrhizobium) [pid:41.5%25%2C q_cov:94.3%25%2C s_cov:95.3%25%2C Eval:6.9e-15],MGA_2083
sequence2	MetaGeneAnnotator	CDS	43742	44614	.	+	0	ID=MGA_2084;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000877935.1;translation=MLYKKLGKSDMNVSVLGYGAWALGEDGWGGINLDEAYKTINLAIKSGINFFDTAPIYGMGKSEERIGELLKEIRKDIYIATKCGLLWNENKEVRIDNSRDAIMYDIEKSLKRLKTDYIDLYQIHWPDNKTPLKESFTALNELKEQNIIRNIGVCNFSLEQLKEGLEYSEIVSLQNQYNLLQNSIEEKIMPFCEKNKISIIPYSPLAQGMLSGKIDENYQLKPGDIREHNPLFNNKDNFEKAIKKIKELPKPLSHTAIQYLIDKSSVGTVIFSVTKRNHLEENLKALKKYM;locus_tag=LOCUS_20820;note=WP_000877935.1 aldo/keto reductase (Bacillus cereus group) [pid:39.7%25%2C q_cov:99.0%25%2C s_cov:94.5%25%2C Eval:1.8e-52],MGA_2084
sequence2	MetaGeneAnnotator	CDS	44770	45414	.	-	0	ID=MGA_2085;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080736.1;translation=MKIFDEKTLIQLKEAFDNKLKNEVKILFFKSSETDKYIEETEAFLNELKSTTDKIKLEIYENEENNEKIEKFSIKLYPAIVLTNEDESITGIKYYGIPAGHEINSFVLDLISISGNEKALSAQILDRINKINKKVNIKIFISLSCPHCPGAVVNAHRLALENRNIDAEMIESSRFNELANKFGVSAVPHILFNETEKLLGDQPLDKFLDIIENL;locus_tag=LOCUS_20830;note=WP_004080736.1 thioredoxin family protein (Thermotoga) [pid:35.3%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:2.8e-37],MGA_2085
sequence2	MetaGeneAnnotator	CDS	45456	46442	.	-	0	ID=MGA_2086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNLNLDGFDIENNGNTKNLDENKIYELLIIGGGPSAMTAAVYAMRKGIDTGIITYKFGGQILETEAIENYMGFMYIKGEDLVNKFKNQIDQFPIGYKSGFEVTKTKLKKDIKEIYVSDGTKYKAKTVIIAAGSKWRKLNIPGESEFSGKGIAYCTTCDAPFYKNKKVAVIGGGNAGIEAAIDLASIAKEVTLIEYLPKLNGDKILIDKLNNFSNVKIMTNHQILEAIGNKKLEKAKFKNRETNKIFDIELDGIFVEIGLIPNSQIFKDEIKLNSKNEISIDCSCKTSLPGVFASGDITSVPYNQVIIAAGEGAKAALSVYSYLINK;locus_tag=LOCUS_20840;note=WP_011202340.1 alkyl hydroperoxide reductase subunit F (Bacteroides fragilis) [pid:42.2%25%2C q_cov:94.5%25%2C s_cov:60.7%25%2C Eval:1.3e-73%2C partial hit],MGA_2086
sequence2	MetaGeneAnnotator	CDS	46759	47673	.	+	0	ID=MGA_2087;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948969.1;translation=MKKILLLLSLFIITISAYSITIITPKAPPAIPILRAKENDSTINIQYYTNANTEVIPKIIKEKGNLYIIPSNVAAKLYNKGKDLKILGITSLGLVYLLSSDENINSIKDLNSKEIYIGAQGSSPDVIAQFAFAKNKVTPMIKYGSSQEITKMLLTNRIKTAVVPEPLASLVLSKNKKVKRVVKFTKEWKKIDSNLKGIPQVALVVPTKYYNKNKAKIDEILLNLKKSSDWVNSHKEEAAKLGKEKLQLSKLFSAKIIFDSIDYMNLVFISKGESKYLIPYFNHLKNINPKMIGGKLPNEKIYIK;locus_tag=LOCUS_20850;note=WP_011948969.1 ABC transporter substrate-binding protein (Clostridium botulinum) [pid:32.5%25%2C q_cov:92.4%25%2C s_cov:84.8%25%2C Eval:2.7e-35],MGA_2087
sequence2	MetaGeneAnnotator	CDS	47651	48379	.	+	0	ID=MGA_2088;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948970.1;translation=MKKYTLNKFIVMLIVLFIWQLASFFYNEIVLPSPLNVIYSLRDILIKENFITIIGYSFMRTLIGLLFAISFGTVIGLFSGLNEKFNSYISPIVIFIQSMPIISWIILALIWFDNNFIPIFILIIATIPIFILNISTAILNTDKNLIEMANIYKVSKKKIMKNIYLPTIKSNFFSSLKIGSGQGFKISIMAEIIARSQNGIGEKMNWAWINIETSDIIAWSLIIVFISFFFEFIINLFLEKKL;locus_tag=LOCUS_20860;note=WP_011948970.1 ABC transporter permease subunit (Clostridium botulinum) [pid:31.8%25%2C q_cov:97.1%25%2C s_cov:93.3%25%2C Eval:9.5e-35],MGA_2088
sequence2	MetaGeneAnnotator	CDS	48376	49077	.	+	0	ID=MGA_2089;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948971.1;translation=MIKIKNLYKNFNDFQLFDNFNLIIPKGKVTVILGPSGSGKTTLMRMLSNLDKDFKGEIINNSNIFSYVFQEDRLLPNKTVLDNIEFVLNDSENYLEKIDMTLSILEILDKKNENINNLSGGQKQRVSIARAFISPSDFIIMDEPFKSLDFELKINIIYDFIKLLVQEKKTILLVTHDVLEAILLGDIIHIFSKPPTIIKKTLNVDINKSEREIYSNKIIELEKEIYKYLCSTK;locus_tag=LOCUS_20870;note=WP_011948971.1 ATP-binding cassette domain-containing protein (Clostridium botulinum) [pid:41.9%25%2C q_cov:80.7%25%2C s_cov:96.0%25%2C Eval:3.4e-34],MGA_2089
sequence2	MetaGeneAnnotator	CDS	49338	50714	.	+	0	ID=MGA_2090;product=asparagine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011462263.1;translation=MRKNEVKDLYRNHQNYLDKPVTVGGWIRTIRTSKNFGFIELNDGTFFNSIQIVFENDLENFEEISKLTTGSSILVHGTLVKSPGSKQPFEVKSNEVIIKGVSELEYPLQKKRHTFEFLRTIAHLRPRTNTFSAVFRVRSLLAHAIHTFFQEKGFVYVHAPIITTSDAEGAGEMFKVTTLSNENLAKKDYSKDFFGKEAGLTVSGQLNVETYCMAFGKVYTFGPTFRAENSNTGRHAAEFWMIEPEIAFADLNDDMELAEEMTKFIINYVLEKAPEEMEFFNKFIDKGLIERLKHVSSSDFAKVTYTEAIEILEKSNKKFDFPVKWGNDLQTEHERYLTEEHFKKPVFVTDYPKGIKAFYMKLNPDEKTVAAMDLLVPGIGEIIGGSQREENLETLKSKMDELGLSQEDYWWYLDTRKYGTVEHAGFGLGFERMVMYVTGMQNIRDVVSFPRTPKNADF;locus_tag=LOCUS_20880;gene=asnS;EC_number=6.1.1.22;note=WP_011462263.1 asparagine--tRNA ligase (Desulfitobacterium hafniense) [pid:69.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.1e-196],MGA_2090
sequence2	MetaGeneAnnotator	CDS	50860	52065	.	-	0	ID=MGA_2091;product=ammonium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941878.1;translation=MSLDVLAKSTNVLFLLLGAIMIFAMHAGFAFLEVGSVRQKNQVNALVKILTDWAVSTVVYFLIGYPIARGISFLKPADQLISGNMGYDLVKFFFLLTFAACIPAIISGGIAERAKFWPQVLAGAIFVGLLYPFFESIIWGQNAEAFQNFIKNIGGANFSDYAGSVVVHSFGGWLALPAILILGNRNGRYSKDKTKSYPLPISNVPFLALGSWVLSVGWFGFNVMSALNIGEISGLVALNSLFAMVGGILAALLFSKRDAIFVHNGALAGLVAVCAGSNIYHPLGAFIVGAIAAIIFVIGFNLETEKFKIDDVLGVWILHGVIGSWGGIAAGIFGLKIFGGLGGVTFISQLIGTLSAIVIALVGGFVVYYTIDKTIGFRLNAAEEEKGSDLVIHSLEAYPEK;locus_tag=LOCUS_20890;note=WP_010941878.1 ammonium transporter (Geobacter sulfurreducens) [pid:64.8%25%2C q_cov:98.5%25%2C s_cov:96.8%25%2C Eval:4.5e-151],MGA_2091
sequence2	MetaGeneAnnotator	CDS	52305	52643	.	+	0	ID=MGA_2092;product=P-II family nitrogen regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003508042.1;translation=MKKIEAIIRPTKLHDVKEALSDIGVKGITLTEVRGFGRQKGQTEIFRGAEYKVDFLPKIKIEVVTRAERVDEIVKIIMKATKTGEIGDGKIFISAIEEVVRIRTGETGKDAI;locus_tag=LOCUS_20900;note=WP_003508042.1 P-II family nitrogen regulator (Rhizobiaceae) [pid:66.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-38],MGA_2092
sequence2	MetaGeneAnnotator	CDS	52920	54311	.	+	0	ID=MGA_2093;product=NADPH-dependent glutamate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986285.1;translation=MFNMKKEKTKSKEQFPKERAKNFLEVEYTYTPEEAVEEAKRCIQCKNPGCVSGCPVSVPIPQFIKKVSEKEFIEAYKIITTQNRMPAICGRVCPQEKQCEQRCVRGKNGEPVAIGRLERFVADYYMKNAEDEKVEIKSNKIKVAVIGSGPAGLTCAGELAKYGYDVTIFEALHTFGGVLIYGIPEFRLPKEIVKKEIKKILDLGVKVEKNVIVGKSITIEELEEEGYKAIFIGSGAGLPRFMNIEGENLNGVYSANEFLTRVNLMKAYDKEKSHTPLKMGKNVVVVGAGNVAMDSARTALRLGAESVTIVYRRGEAEIPARAEEVKHAKEEGIIFKLLTNPTRIIEDDGWVKEIECVEMELGEPDNSGRRRPIVKVGSEFKIKADTVIIAIGQQPNPLIKQTTSELEINKRGGIIVEEETMATSIDGVYAGGDIVTGAATVILAMGAGKKAAKAIHEKLQKNN;locus_tag=LOCUS_20910;gene=gltA;EC_number=1.4.1.13;note=WP_011986285.1 NADPH-dependent glutamate synthase (Clostridium botulinum) [pid:62.8%25%2C q_cov:98.7%25%2C s_cov:99.6%25%2C Eval:8.0e-155],MGA_2093
sequence2	MetaGeneAnnotator	CDS	54479	56602	.	+	0	ID=MGA_2094;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002484415.1;translation=MGKNIEVMVDELKKYSKKPIGIFGARASGKTMFLTVLYGLTGFANENDKLSIICNTAESRNYLKKNYMNLLEGKLPSRTEVNEFTKINMNLFHNGNSYNVKTFDFAGELLKDVDEKEVDPSFLELQNKMYDFFKMCSGLLIFLEPSTDKKVGFERQIEVDKLFSFLKNENIDLNIPMGIAITKWDKISTELEKRNYEEEEEKVKKYISDNKIYHNIYHLISGISDYTKMFPISAFGEARENDLPPEELKPFNVFSPLIWASNKRDQEWVKKIKFILNKNINPKDAKEVVNEFVLNIENKELKVEVEKAYTKYLNKRRNKKIVAGLLIIGTIGGASGYFLKNNYDKQSSYNKIMNETNRKLQKNMINEFITKYGSNNKYSGDLLKLKKDIYIRIIKIESDLNTKLNLINNYIVEYKDDSNIEELKKLKRKTEKDISSEKNYKNLENSLSKEKDNYKKYLLSKDYSEKYPEYKKDVIQNKIKIFLKLADKEKYDEIEKLYENKKFNQLYNEIETYLNTKEYQDYKKEVLELKSSLRDNELFIKLKNSIKAYNSNKNEKNLNGILRNSESYLSNSNLLLHEKEAKNIISQINKIKKGINSEFEIDLTLKKVKHKYIKTYVIINIDGKKYEKSAKLNKKNVYVGSFINKFRIGKKIDIDIYLDDKKGVEIQTKHLKLSFGDINKNILVKTEKGDELILRLQTNQIKYEIGG;locus_tag=LOCUS_20920;note=WP_002484415.1 hypothetical protein (Staphylococcus) [pid:22.0%25%2C q_cov:83.6%25%2C s_cov:83.4%25%2C Eval:1.9e-07],MGA_2094
sequence2	MetaGeneAnnotator	CDS	56604	57905	.	+	0	ID=MGA_2095;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKLLIIKNRINFGSTIYFSENVSPYEKKVLESINYKDYIKEIEKIKILKKDDNYIYFLSYTGGKDEFGRDYINTISAIFPIKLDQNEMKILKKILESIEDEIEKGKDIIGDYDIILNSGKDGEVFSNIKIKNRKKTFRDTLIGINLLLFIVVIIGFGANYSLNRTSYRKMLNKVKKESDYYKKYILYSNFLDSEYKRSIEFKEKAAIKDYNEIIKIYNSNNYKNREILNKIENYINDKKFEYHKKEILGIRTVILKSESKKEFNKMINLVKEYNKTKNYETLKKIENLLYKYKKSNFKLYKKNILLLENEIERLKKGITSEIEIYINNKSYIYNNKKLIFVIKLNNKVYKKIKKVNNNKEDYIGSFYGDVVPKSEINVKVYLNNLSKDNLINSVNMKVSDINNNISIKNNDVAVFKVRLSIRDDFFIIHLK;locus_tag=LOCUS_20930;note=MGA_2095
sequence2	MetaGeneAnnotator	CDS	57959	58540	.	+	0	ID=MGA_2096;product=D-sedoheptulose 7-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016435.1;translation=MIEEIRNSYLTAQKLLNEFINEEKNIEKTVLVSKLIANAFKNKNKVLIAGNGGSTTDAMHFAEEFTGRFRKDRKALPAISISDPSHLSCVGNDYGFDYVFSRGIEAYGIERDVFIGISTSGNSKNIINAVNKAKELGMKTVGLLGKDGGALKGICDFEFIIPGVTSDRIQEIHMMILHIIIEGVERELFPELY;locus_tag=LOCUS_20940;gene=gmhA;EC_number=5.3.1.28;note=WP_011016435.1 D-sedoheptulose 7-phosphate isomerase (Fusobacterium nucleatum) [pid:65.2%25%2C q_cov:96.9%25%2C s_cov:96.4%25%2C Eval:1.2e-65],MGA_2096
sequence2	MetaGeneAnnotator	CDS	58573	59319	.	-	0	ID=MGA_2097;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNDFLSFFYIDKSYSEFFSDEKIQYVLEVLKKLESNSEKFAPKKENIFKALEKDIKFCKVLILGKDPYFQENAATGLAFEVNGLESWSSPFPQRSLQNIVKNIYKSYENQLINFSEIRLKIKSNDFQIMPPNKLFKSWHNQGVILLNSLLTVKVDNNKNYSGSHMKYWKSFVEELIQYISKKNPNLSYFLWGNDAGKYEKFITNGTIFKSNHPALAFGKSPKDFLFFNGFFETKNIINWINYNTKK;locus_tag=LOCUS_20950;note=WP_010887334.1 uracil-DNA glycosylase (Deinococcus radiodurans) [pid:31.2%25%2C q_cov:69.8%25%2C s_cov:61.1%25%2C Eval:7.9e-16%2C partial hit],MGA_2097
sequence2	MetaGeneAnnotator	CDS	59323	60147	.	-	0	ID=MGA_2098;product=metal ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005784764.1;translation=MIDLLKYSFFSNAIIAGILTAISCGIIGTYIVAKRKVFISGGITHSSFGGIGIGYFLGINPIITAAIFAVLSAIGIEYIAEKGEIREDSAIGILWSFGMALGIILIYITPGYAPNLMAYLFGNILAVSTFDINAMLLLNLIIIFFFMFFYKEILYISFDEEYMKTKGLPVTLFKYTIATLIALTIVINIRVVGIILVLSLLTIPQAISALFSNSFRNIMILSIFFAFIGTMSGLIFSYLLNIPSGASIIFSLVILFGIIKLFKILFSLKSKSEV;locus_tag=LOCUS_20960;note=WP_005784764.1 metal ABC transporter permease (Bacteroides) [pid:47.0%25%2C q_cov:97.8%25%2C s_cov:99.6%25%2C Eval:2.5e-69],MGA_2098
sequence2	MetaGeneAnnotator	CDS	60140	60907	.	-	0	ID=MGA_2099;product=metal ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_062696006.1;translation=MNKSKVIDINNITAGYDNHKIALKNINLSIYENDFIGIIGPNGGGKTTLLKVILGLLKPFSGEIKYYSDEKEHFIGYLPQFKLIDEKFPIIVKDVILSGLSSKKSIFKAISKEDNNKLEKIMEEIKITDLKNRAIGSLSGGQLQRVFLARAIISNPKILILDEPNTFVDKKFSSTLYDLLRELNKNMTIILVSHDLGTIPQYVKSIACVNQTLHYHPTSEITEDMIDAYACPLEVLAHGPVPHRIILKHGGNKDD;locus_tag=LOCUS_20970;note=WP_062696006.1 metal ABC transporter ATP-binding protein (Bacteroides thetaiotaomicron) [pid:51.0%25%2C q_cov:95.7%25%2C s_cov:97.3%25%2C Eval:5.2e-71],MGA_2099
sequence2	MetaGeneAnnotator	CDS	60900	61769	.	-	0	ID=MGA_2100;product=zinc ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002864655.1;translation=MKKIISFIIVLSFLFAIYYLSNKKTKQPITKNSTVTVSILPQKYFVEKIAGSTLKVNVMIPPGKSPATYDPTPSQMKLLNNSKIYFRIGYIPFEFAWIDKIKSANKNMKIIDTSVGINLIKNGKSTDPHIWITPREVKIEIKNIYNSLIENFPENKELYTQNYKSFIIKLDNLDKLFTDSLKNITNKKFIVYHPVWSYFARDYNLKQIPIEIDGKSPSAKNMQNIINISKKNRIKVVFVQLQFPIEDAKTIADAINGKVIQIDPLSEDWLENSKKTIKVFEEVLGGKNE;locus_tag=LOCUS_20980;note=WP_002864655.1 zinc ABC transporter substrate-binding protein (Campylobacter) [pid:38.0%25%2C q_cov:96.2%25%2C s_cov:98.0%25%2C Eval:3.0e-52],MGA_2100
sequence2	MetaGeneAnnotator	CDS	61766	62161	.	-	0	ID=MGA_2101;product=Fur family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831103.1;translation=MIKLTENRKEIFNIIKSSKKPISAKVIQSKIKDKLDCSTVYRTLEFLTKKQIINSVSFKGKSFYYYGTGGHFLFCKECGEIIAFDQCIIGDLESKIEDKFNYKITNHVLYFQGYCSKCYAAYQKKHGGQEL;locus_tag=LOCUS_20990;note=WP_001831103.1 Fur family transcriptional regulator (Staphylococcus) [pid:32.8%25%2C q_cov:90.1%25%2C s_cov:85.9%25%2C Eval:1.0e-13],MGA_2101
sequence2	MetaGeneAnnotator	CDS	62462	63436	.	+	0	ID=MGA_2102;product=putative sulfate exporter family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435004.1;translation=MIYGILLSIFLGILAKVLSFFIPGIGTVAIAIFLGILVRNLFLKNQIFNKGINLTEKKLLPIAIMLLGTELNFAVLLKLGFKSIIFIGLMITITISSGYFISKFFGFDKKFGLLLGTGNAVCGSSAIAATAPVLESDDESIGLSVAAVNLMGTLGIFFIPVIASIAGFGNLQEGTLIGGTLQAVGQVVASGFSVNDSVGAIATVVKMGRVLSLGVVIIVLDLIMSKDKIKIEEKKSKFKIIRVPYFIVGFFILSVISSINIFPSYAISFVNLIGKWLLIFSMAAVGLKINFTTLIEKGKKLILLELLIELVQVSSAVLLIKILF;locus_tag=LOCUS_21000;note=WP_003435004.1 putative sulfate exporter family transporter (Clostridioides difficile) [pid:37.5%25%2C q_cov:98.5%25%2C s_cov:94.2%25%2C Eval:1.2e-52],MGA_2102
sequence2	MetaGeneAnnotator	CDS	63648	65303	.	-	0	ID=MGA_2103;product=hydroxylamine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272545.1;translation=MSMFCYQCQEAAKGTGCTIKGVCGKDDSLANLQDLLIYTLKGISFFSTKAEAIGKRDPEVDDFIFVGLFNTITNANFDKEVFYNQIRKGLELRDKMKKVCEDAGVKLENLPDAATFTANTKEEMEAKSTAKEVGVLATENEDVRSLRELITYGLKGMAAYVEHASVLGERKEEIFNFMQTALAKTLDDSLSVEDLVALTLETGKYGVEGMALLDGANTTAYGNPEITEVNIGVGTNPGILISGHDLKDLEQLLEQTEGTGVDVYTHSEMLPGHYYPAFKKYKHFVGNYGNAWWKQKEEFESFNGPVLFTTNCIVPPKTGAKYDGRVFTTGASGFPGWKHIEADENGKKDFSEIIELAKKCEAPTEIETGKIIGGFAHAQVFALADKVVDAVKTGAIKRFFVMAGCDGRMKSREYYTEFAEKLPGDTVILTAGCAKYRYNKLKLGDIGGIPRVLDAGQCNDSYSLAVIALKLKEVFELNDINELPITYNIAWYEQKAVIVLLALLYLGVKDIHLGPTLPAFLSANVAKVLVENFGIAGIGEVDEDIKLFLGE;locus_tag=LOCUS_21010;gene=hcp;EC_number=1.7.99.1;note=WP_041272545.1 hydroxylamine reductase (Desulfitobacterium hafniense) [pid:71.9%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:9.8e-227],MGA_2103
sequence2	MetaGeneAnnotator	CDS	65625	66488	.	+	0	ID=MGA_2104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKQKMLKFLKIFVYLGIGIALQIIFLFIISGGVGMLFEITHSKLLSTDIIKFKSSVENIIKISMPLIIISSAILSNISLIFLGRKQLQCTVLNIREFLNINKLFIDKKLIFIVTLFAMGLSLVLSEIMGIVINIFKIDISSLDKINNILGSFSGLIYVILLAPILEEIIFRGIILRSLKKSFKFSTSIYISSFFFALYHMNFIKFIPIFILGYFLGYIYKKTNSLGVVIYFHMIYNLIPVAITVFRKYYNISRSYDYTLNDIAVLLFGVLLITWGVGLKKLNYIK;locus_tag=LOCUS_21020;note=WP_002666383.1 type II CAAX endopeptidase family protein (Treponema denticola) [pid:40.0%25%2C q_cov:33.1%25%2C s_cov:43.0%25%2C Eval:2.3e-12%2C partial hit],MGA_2104
sequence2	MetaGeneAnnotator	CDS	66606	67133	.	+	0	ID=MGA_2105;product=cob(I)yrinic acid a%2Cc-diamide adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005812021.1;translation=MRSGIVELYIGNGKGKTSAAVGTAIRAAGHGYNVIIFQFLKGRESGEQTLLKNIENIEFIKCNNSKKFIMEMDNIEKEILKKEVNYYVRQIKKETIINNYDVIIADEILGCLENKLIGEDKLLDIIDGKSENIELIFTGRNATEKIIEKSDLITEMKKIKHPYDKGIIAREGIEY;locus_tag=LOCUS_21030;gene=cobO;EC_number=2.5.1.17;note=WP_005812021.1 cob(I)yrinic acid a%2Cc-diamide adenosyltransferase (Desulfitobacterium) [pid:39.2%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:3.0e-32],MGA_2105
sequence2	MetaGeneAnnotator	CDS	67213	68043	.	-	0	ID=MGA_2106;product=glucosaminidase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627595.1;translation=MVSSKLGEIGKINFRLAFFIFVMLFFTNCNSSLSSDNTVVTKKIIVKNISDIYKITDNEVQPIIYEIENFSLKNYSSKEKKEQFINLLLPNILIVESEFENIKIDIFNLKIKPNKNLTTKEKEKINNYLMKFGASNLDELYKKFVVPNISIVLAQAALESGWGSSRFFSKANNIFGIWSFSKKDNRIEALQTRNGKKIYLKKYSNLKESIEDYYTKIIKLKYYDNFRKSLKNGDRSTSSVNYLNSYSEIGSEYIVLLKNIIKYNNLDKFNNFKLKS;locus_tag=LOCUS_21040;note=WP_201627595.1 glucosaminidase domain-containing protein (Fusobacterium canifelinum) [pid:31.6%25%2C q_cov:76.8%25%2C s_cov:88.1%25%2C Eval:1.6e-20],MGA_2106
sequence2	MetaGeneAnnotator	CDS	68645	69484	.	+	0	ID=MGA_2107;product=S1-like domain-containing RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_035214046.1;translation=MVKIGKIQKMKVNNIEKMGAYLDSGTGYREDNILLPKSQLTKDVKEGDEIEVFIYRDSEDRLIATTKKPYGQVEELAYLKAVDETTIGAFMDIGLERDLFLPFREQKYTIEIGKKYLVNIYLDKSERLCASTNIYQYLKDNSPYVQDDRVIGIVYDIKPGVGIFVAVDKIYRGLIPEKENFKKLKCGEEIETRVIRVREDGKLDLSMREKSYIQMDTDSEMIFNELKKNRGFLELNDKSSPEDIKRKLNMSKKSFKRAVGRLLKENKIIFSNGGIKLVK;locus_tag=LOCUS_21050;note=WP_035214046.1 S1-like domain-containing RNA-binding protein (Desulfitobacterium hafniense) [pid:55.2%25%2C q_cov:96.1%25%2C s_cov:96.4%25%2C Eval:3.4e-82],MGA_2107
sequence2	MetaGeneAnnotator	CDS	69838	70575	.	+	0	ID=MGA_2108;product=plasmid pRiA4b ORF-3 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021922.1;translation=MKKKILQLRIEIKGIKPPIWRRILVEDNITFLDLHKIIQIAFDWKGYHLYHFSPDNYDEVRILSMEDEFYEPLDLLDFLDLDESKDYEESKTKLNKFLKKEKDKMVYCYDYGDNWEHLIKVEKILDFDKKVKYPVCIKGKRAAPLEDIGGVYGYYDFMDALQDENHEMHDDYIEMGYKFYMKEFDAEEFDLDKINEKLKDYKKFGVYEEDDDYNDEDESISDNMENNKKIIDFSDVKKFQKNKKK;locus_tag=LOCUS_21060;note=WP_011021922.1 plasmid pRiA4b ORF-3 family protein (Methanosarcina acetivorans) [pid:39.9%25%2C q_cov:76.7%25%2C s_cov:93.2%25%2C Eval:5.3e-33],MGA_2108
sequence2	MetaGeneAnnotator	CDS	70577	71248	.	+	0	ID=MGA_2109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYQLEEVKKFIKNHLNVRGEIKGLQRTDTYEIPLDAIREVLVNAIVHRDYTNIGRDIKVGIYDDILNVVSPGGFPNSVSEKDILEGRSEIRNRVVARVFKELGYIEQWGSGIKRIKSSCIKHGLKEPSIRETGDFVDVEIFRIDEKVENDGLATENDGLILDYKKIVLNYIEKNKKINTKELKQLLNIKDTKAKSIFKELMNKNLIERKGKGRSTYYVIRKK;locus_tag=LOCUS_21070;note=WP_011022343.1 helix-turn-helix domain-containing protein (Methanosarcina acetivorans) [pid:35.7%25%2C q_cov:98.7%25%2C s_cov:47.2%25%2C Eval:3.7e-27%2C partial hit],MGA_2109
sequence2	MetaGeneAnnotator	CDS	71302	71850	.	+	0	ID=MGA_2110;product=DJ-1/PfpI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005791124.1;translation=MEKVCVHFAEGFEEIEAITIVDILRRAEIDVKMVSITKSKIVTGAHKIKITTDLLFEEVNYDEVSMIILPGGMPGSKNLKEHVGLNEKIKEFYKKGKKLGAICAAPMVYGGLGILKGEKATSYPGFEVYLDGATIVNEEVVTSNKIITSQGPGTAIKFALKIVSDLKGEKLANSIKEGMIVK;locus_tag=LOCUS_21080;note=WP_005791124.1 DJ-1/PfpI family protein (Bacteroides) [pid:49.5%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:9.1e-46],MGA_2110
sequence2	MetaGeneAnnotator	CDS	71861	72550	.	+	0	ID=MGA_2111;product=NUDIX domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016761.1;translation=MDDNFINKIIGFEKYKLFAVLISIVEFEGIDYFLFQKRAKNIRQGGEISFPGGEFDENMDNDLKETAFRETFEEMGVSKDKIEIIKDVGYLISPSSIIIKGILGKIKIKSLDEINYNNEVEEIFIIPISKFNEKNLKHYFVNVEFNPHEIEKNGDKKILFNAKELKLPNRYHKSWRGNKVPIKSYEIDDRIIWGITADLIYEVVSKEWLKKNTKKKIETTGLTQIKADE;locus_tag=LOCUS_21090;note=WP_011016761.1 NUDIX domain-containing protein (Fusobacterium nucleatum) [pid:37.2%25%2C q_cov:86.5%25%2C s_cov:91.2%25%2C Eval:3.5e-28],MGA_2111
sequence2	MetaGeneAnnotator	CDS	72664	74649	.	+	0	ID=MGA_2112;product=glycoside hydrolase family 15 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966095.1;translation=MKKKIIILILNLLLISNLFASVKTSYRYLPFGNGLGNGVYRVFGRTKLISFYDHIYKQYSPNEITQNYVKDGIEWGLNDKWLSYVKVKKANYINGTGILDIKKQYKDIEITENYFMPFETDKRILIGVLRLKNIGKDTELSPYLKVDVSMGNNLSTLKETVNRSGNIFIESNSEKKGYEYFTYLSDLNKFSYKSKKKYPKNLRRQTVALDNTIEKIANNEIGVFQFNKIVLKKGKSKTIFVIMGLGKKDKHKDYLEEISKISKEDGKTILNNEIKFWEKWHSVEKYPKKMKEDEKNLYRQSTTILKMGQSREKGKAYGQILASMPPGQWNISWPRDGAYSIVALLKSGHIKEAKAFLEFMLNAPGGKFTNKKYIGVPYKISACRYYGNGEEWSDYNNHGPNVEFDDFGLFLWAFTKYVETTGDMKFKDRYYNIVKEQIADVIVSLMEKEGYLKADSSIWERHWEKGDVDGKKHFAYSTINGYNGLISFSKIGDLYDNIFYKKEAERIKRGFLNNFILNNVIVSSLEEKKDGNNYADAATVEAINFNMVDEKIALTTLDFYEKNLKMKNSVGFKRSDDGTKYDRQEWLMIDYRIANAYMKYDKKHSYEIIRWSVDNAKANYNLIPELLTEGKSKYYGAIPMCGFGAGAYIITVGNYYLENKR;locus_tag=LOCUS_21100;note=WP_010966095.1 glycoside hydrolase family 15 protein (Clostridium acetobutylicum) [pid:37.3%25%2C q_cov:96.2%25%2C s_cov:94.2%25%2C Eval:3.1e-113],MGA_2112
sequence2	MetaGeneAnnotator	CDS	74760	74924	.	+	0	ID=MGA_2113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYNIKKRENIEELCKLTGKEDITKNDWSLTYSTYVGITSKIADEDFNFEELRI;locus_tag=LOCUS_21110;note=MGA_2113
sequence2	MetaGeneAnnotator	CDS	74921	75955	.	+	0	ID=MGA_2114;product=PDDEXK nuclease domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011143046.1;translation=MSIEKNLYKEFVTELKLKIRNSQQRAILSANKELIILYWEIGKSILISQEKQGWGAKIIKQLSEDLKKEFPEIKGFSERNLKYMRKFSDTYRDFQFVQEVIAQIPWYHNITLMEKIKDDNKRKWYIEKTIENGWSRNVLLHQIEYQLYERSDSKKVTNFENTLPKVQSELAMQTLKDPYIFDFLSIEKDALEREIEKELVKHISSFLLELGAGFAFVGNQYHLEIANRDFYLDLLFYHIKLKCYVVIELKTGEFKPEYAGKMNFYLSAVDDSLKSEDDNPTIGIILCKEKNNIFAEYTLRDMNKPMGIAEYKYNDIIPENLQTKLPSIEDLEKKLRDEFEVVEK;locus_tag=LOCUS_21120;note=WP_011143046.1 PDDEXK nuclease domain-containing protein (Gloeobacter violaceus) [pid:56.4%25%2C q_cov:95.3%25%2C s_cov:95.0%25%2C Eval:1.4e-110],MGA_2114
sequence2	MetaGeneAnnotator	CDS	76038	78221	.	+	0	ID=MGA_2115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVILIFILLSINIFSQETINNNKLKLKFKNGINISFYETTKGKLRVTALSKDMKLKKNRFFINKEKSNVKIKKDGNRYILGKYIIEEIKNGYKVNLESNNKLLYSSVFSITKKGFLEIKNSYDKELFHGMGEANDKSSIIAKQFMIYQKAEYGNQAKLYIPFYFTTGGDAYYYNSNSKDIFKFGRRGSAVSKVYSKYGYLDYYYFYENSPKKIVSEFYKFSKSNSLIPKWAFGYLQSKYGYKNSEEVYNLIKKFKKYNIPVSGVILDLYWFKHMGDLDWDKDNWKDVAKLDRYLEENGVKLITISEPFFTVDSKSYKDFNKNGVFAKDKYGKTLKLSGWWCFGSEYGGIMNPIAKNSFDTIGNRYVQMRKTGIDGFWTDLGEPEGDPTEAYFNGYSEFEFHNYYNREWSKLIYKKMVKVFPNERPLILSRSGFTGSAKYNVSVWSGDSSSSYINFRKQIGIGINAGISGFSYWGSDVGGFLSDRKKPKKELFIRWMQFGTFVPVFRAHGSFSPREPWMYDDETTKLLKSYIDLRYQMLPYIYSTAYETYLNGVPMMRPLYLEYPKDNFAQKSSLQYFFGDFLMAAPVVRRIREKKEKEVYLPKGNWYDFYDLKKIVGGNKIKVKRDINKIPVYIKEGAILPFKDLILLFPAEKKSEFTLYNDDGISNNYLKGDYSKIKIILKKDSVEFEGIKKEMTFNLKIVKNGGVIKKVVELKKGDNKILFE;locus_tag=LOCUS_21130;note=WP_011108625.1 glycoside hydrolase family 31 protein (Bacteroides thetaiotaomicron) [pid:29.2%25%2C q_cov:79.6%25%2C s_cov:73.7%25%2C Eval:3.2e-66%2C partial hit],MGA_2115
sequence2	MetaGeneAnnotator	CDS	78365	79165	.	+	0	ID=MGA_2116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDRDLAAFYRTETRALKQAVRRNLERFPEDFMFELEEVDIEYLVSQSVIPSKSYFGGAKPFAFTEQGVSMLSAVLRSPTAIEISVKIIRTFVNMKNFLSENAQIFKRLDSLENYQKTSDEKFEMIFNAIKNKGLKQKQGIFFNGEIFDAYVFISDIIKKSKSSIILIDNYIDESVLTILSKNTENIKIEIYTKNISDKLRLDVKKYNEQYKNLKLKKFNDSHDRFMIIDKKEVYHFGASLKDLGKKWFAFSKFDTEIISIMGKLK;locus_tag=LOCUS_21140;note=WP_011201977.1 RhuM family protein (Bacteroides fragilis) [pid:47.0%25%2C q_cov:60.5%25%2C s_cov:57.5%25%2C Eval:8.2e-38%2C partial hit],MGA_2116
sequence2	MetaGeneAnnotator	CDS	79186	81177	.	+	0	ID=MGA_2117;product=serine protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679447.1;translation=MKKIAVALILLFTVIGCSSTKIKENSNQKTLILDKKIISKINKSVYEVLVKKVEVKGFKYEKELPVKKLSYSNRNDKYYSIGTAFAIGENKFMTAGHVLALDKKTFFKDFFIRDKNKKVYKIDKVYKYSSNKDFAVFSVKGDVKNEDFLTIKEKFNINQPVFTVGNALGDGIVIRNGVLTSTTPETENGKWNWIRFSAPASPGNSGGPLVDKDGNIIGIILMKSKNENLNYALPILETMKFFDNSLVIHKKIGYGFYNYDKTVNKYYDFKEKLPKSINEIRRDITEDYHKEYIENLDAIYKKNKKDFFPNGENSLKIIYDEYTNRFPYVLAKADNGEWKAFTPKKIEKNELPNESLIQYGQLYDFNMIYFKKPNNIKEKDILDNPTKMLNLALKGLPLYRNFAGEDIRITSVDKQPVSSNYIDAYGRKWIFNTWDLVYNDLQLTTMILPTPSGFVGLSMMGTVDDTYNLKYDFKMISNFVLVSYDGTLKDWKEFLTLKDILQKNLVGLKLDYSKKDNLNLSTGNVSIKYQNKIPIKIDEDSYLLVISNFIKNKENVKLGIKGIYVSENENSNNAFYLLENLRPDDRLDKDYKNSWGKIVDNKYPFDNEVYMNDGQTRIVTTIKNNKNKIYSLSFYLEGKQDENEIKNMMNEFKSNLQIKKEMK;locus_tag=LOCUS_21150;note=WP_002679447.1 serine protease (Treponema denticola) [pid:33.5%25%2C q_cov:94.4%25%2C s_cov:95.8%25%2C Eval:1.8e-105],MGA_2117
sequence2	MetaGeneAnnotator	CDS	81177	81590	.	+	0	ID=MGA_2118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIISIIIIILGIFLIMKNRPKKRVENDFGDSKFEQKCINCHYLMKSIRQGGGPVRMPLTPIERQELLDNRFEFIEKSNLPWELGCYKNIWSREATPDNYKELYKNIVEKKRKNKCDFVKYEQGKNFEDIGKEDSVK;locus_tag=LOCUS_21160;note=MGA_2118
sequence2	MetaGeneAnnotator	CDS	81934	82728	.	+	0	ID=MGA_2119;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_223294658.1;translation=MNKKIIFLKSFIIIFLFINVTIFSKTISLATINFEPYYGQKLKNGGAVAELIKKVFNEEGYNVKIKYVPWARAVGYLDMGVVDGIYAMWKTESRDKKYLLSEPFFPNEIVFVSMKKNSIKFDGDYKKLKKYRIGGVRGYSYLETMKKYKYNFDLTSTDILNVKKLLYGRVDLIIGDKLETQYIIKKYFKEFYGKEEYLKPIVTMENQYLAFSKKVKDAKLKLEAFNRGLKKLKENGEYEKIKEEILQLSKFINEKREEKIEVKK;locus_tag=LOCUS_21170;note=WP_223294658.1 transporter substrate-binding domain-containing protein (Desulfovibrio) [pid:29.7%25%2C q_cov:78.8%25%2C s_cov:79.1%25%2C Eval:1.2e-20],MGA_2119
sequence2	MetaGeneAnnotator	CDS	82755	83858	.	+	0	ID=MGA_2120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKYGVLFVDDDENILSSIKTKLTSQEYEKYFANSVEKALEILTITSDIYVVVLDLNMPEVNGQKLLEYINKYYPDIEKIVLSGYSDSATIMSVLNSYHISAYIKKPWTYNTEFIPIIKSCVQRYIERKEIKNKIKKYNYEKKFFTSKEKVVNTKIEKLDELLKKIEKEKEDNKKLIGFIINYAQPYIEKSQELFKLDQEELIKKLDVEKEELNKEAKFVIKNLDKIKEYIQIKTKAQSKNKKVLIVDDSKENRQLLANIIQTYTKHKVIVAKSGYDIMKIIGKLDSEDIGIILLDIMMPGIDGYQIAEALKNNKKTKEIPIVFISAMTDIKDMAKAFEKGAYDYIKKPINKNEVLKKVEEHIRAGR;locus_tag=LOCUS_21180;note=WP_011057502.1 response regulator (Thermosynechococcus vestitus) [pid:43.0%25%2C q_cov:33.0%25%2C s_cov:40.6%25%2C Eval:2.9e-21%2C partial hit],MGA_2120
sequence2	MetaGeneAnnotator	CDS	83865	86948	.	+	0	ID=MGA_2121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSKNLTEEIINNSNVGIIVSDDSGNITFANDRICNILKINKKDVINKNYNELIKLNVENITIFGKNIQYFIINFIGEIIPVKIMYLKTENEKKITLFEEVKIKNNRLKDISLKNRLKNLFINFSIEAISIDINELKNYLENFLREIISEIGFDGAGIYNYKNLNKMKKYFFIGDKNCTFPEEYNIGTRKWLKKQMENMEIIYLKTENLNNVNNFEEKKFLEKMGIKSFVMIPIGIKKEPLGFIFLISKENMVSQFLIDFFNIIQKVVTNIFYRKSIEESLIEGSTRLMEFMSKIKEISYVDLKTFESIEGKMKEYLALCNKTLESDCSMIIKLQLKDVVLKEKFEINNYFQIIKDEKLKIKADNKLLLKIIEEDVFNKGIIMLEEENKNIFENEDIKISFWAPIYFNESFALGVLIIGFKEQEKIKFYSENYTLLESIARSIGKSFELDIKRNQLLKSKEEAEKANRAKSTFLATMSHEIRTPMNSIIGFSDLLYEDEDDLAKKELLKIIKYSSKNLLELINDILDISKIESKKLELNKENVIIRKVFNEIYLIFLDIKNKKKLNFIYEVSENVPDIILTDELRVKQIIINLLSNAFKFTEKGSVKFFADYDYSEGNLIFEVEDSGIGISKENIKKIFNPFAQEDSSTSRKYGGTGLGLSISKNLAVMLGGDIYLESKKGEGSKFQVKINAPEEKDENLLGEALINRWKKDPELEEMFYSFLSTLNEKIEDLKQNIKDRNKENIAFISHKTAGTCGNLGIENLYIIMKKINKEALKDNPNYNLIIKNMNEIENIISIIPKKYLEKKEKYKVNISENFIANGEYKILLADDSEYNQLLIKKLLAKLGLNCVSVENGLEAIEELKKSDYDILLLDRQMPIMDGEETLKELNKYDKYIKIKKIILTADAQEKVKENFFKLGCYDFISKPIEKEKFYNVIKRAIISVKKNKIINIYSKREKEKLKKFISDLEENLYIFDPDNLEFIMENMDKNLIYYNEIKPKLKKIIDTFDDEGLEELINNLKSIIKVV;locus_tag=LOCUS_21190;note=WP_005477868.1 response regulator (Vibrio parahaemolyticus) [pid:30.9%25%2C q_cov:51.1%25%2C s_cov:53.5%25%2C Eval:1.6e-61%2C partial hit],MGA_2121
sequence2	MetaGeneAnnotator	CDS	86949	88514	.	+	0	ID=MGA_2122;product=FapA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080991.1;translation=MDKIKLNKMDEGVFVIVTEKISMDELISFIAENDVENPDVEKISYAFEHIGEEVKIAEYYGEISLKSHFEITVSTNKMEAYLIVGYSQGGKIPDYSDIIDELQNMGIIKGIKEKAIKDLIEIENFNSKIKIAEGKFPIDGKNSYTKYLKGLKKNKTKRPTIDIDGKADFKNINFLETVLKGEVLAKKISATKGVDGYDIFGNVLKAKDGKDIKLKKGKNTIITEDGMQIIANVDGMPIIRDNKIEVENVLMVEEVGVETGNIDFNGSVVVRGDVKSEYIIKATGEIQVLGNVENAILQSNGEIVIKGNCFGKEDSLISAEGDIFLNFAENIEIKTKKDLIINEGLINCKVYAEGKVVAITKSGSIIGGETRGEAGIEVLNAGSKTGAQTELKILGKSKVVERIKEKLKDIDWEIKVIEKNIISLQYIKKNVPQLYGDEKEELFMKLIKNKMGLLNDKKVLEIRYNVYKEKMEREEFPKIIVRNRCYFGVKITLKERNFEVNEDIERIKFFLKDDRVEHEFV;locus_tag=LOCUS_21200;note=WP_004080991.1 FapA family protein (Thermotoga maritima) [pid:28.2%25%2C q_cov:85.8%25%2C s_cov:97.8%25%2C Eval:1.3e-39],MGA_2122
sequence2	MetaGeneAnnotator	CDS	89011	89211	.	+	0	ID=MGA_2123;product=sulfur carrier protein ThiS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546191.1;translation=MEIVINGEKRLLLEEISVENLIFLLKLNKNSILVELNLEIIKKYEWENTIISEGDSVEIITFMGGG;locus_tag=LOCUS_21210;gene=thiS;note=WP_012546191.1 sulfur carrier protein ThiS (Thermodesulfovibrio) [pid:39.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-07],MGA_2123
sequence2	MetaGeneAnnotator	CDS	89213	90001	.	+	0	ID=MGA_2124;product=thiazole synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966205.1;translation=MKDILKIGNKEFSNRLFTGTGKFRDKNLIKGMLEKSGSEMITIALRRVNLSNPDDNILSYIPKNITVLPNTSGARNYKEAVRIAKIAREAGCGNFIKIEIIHDSKYLMPDNEETIKATKILADDGFIVLPYIMADLISCKKLEDVGASAVMPLGSPIGSNKGLQTKSLIKIIIENSNVPVIVDAGIGAPSQAAEAMEMGADAVLVNTAIATAENPLLMGEAFSMAIKAGRMAFLAKLAKENRYAAASSPLTGFLHMNGNGKI;locus_tag=LOCUS_21220;note=WP_010966205.1 thiazole synthase (Clostridium) [pid:63.6%25%2C q_cov:96.2%25%2C s_cov:99.2%25%2C Eval:4.5e-89],MGA_2124
sequence2	MetaGeneAnnotator	CDS	90307	91407	.	+	0	ID=MGA_2125;product=2-iminoacetate synthase ThiH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393166.1;translation=MSFFNVLKNFNEFNFNEYFEQVTEKMVLDSLVKKELDYYDFLNLLSPKAENNLEMIAKKAHDITVQNFGYTINLYLPMYLSNYCSSDCLYCGFSKNNHITRKKLTLDEVEKEAIEISKTGIKHILILTGESKEITPINYTIKVVEILKRYFSFVGIEMFPMDEDDYAKLFEAGVDGLTVYQEVYNKEIYEKVHISGEKRDYNYRLETPERGAKAGFRNINIGNLFGLGDIKSEAFFSGIHAKYLTDKYLDTEFGLSLPRINRAEGGFKPFSHLNDISFVQIMSAYRLFLPKVEINISTREKPEFRDNLLNICATKFSAGSKTEVGGYTLAKTEPQFEISDNRNTEEIIKKIKDMGYQPILKNWEMI;locus_tag=LOCUS_21230;gene=thiH;note=WP_011393166.1 2-iminoacetate synthase ThiH (Moorella thermoacetica) [pid:49.3%25%2C q_cov:96.2%25%2C s_cov:93.6%25%2C Eval:1.6e-96],MGA_2125
sequence2	MetaGeneAnnotator	CDS	91404	91949	.	+	0	ID=MGA_2126;product=sulfur carrier protein ThiS adenylyltransferase ThiF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897548.1;translation=MIGIAGVGGIGSNVAVNLVRSGITKLKIVDFDKIDISNLNRQFYFENQIGKNKVEALKENLLKINNRLEIITINKKIVNENIEEIFNDCNIIVEGFDSKYYKAMLVEKFIDNKDLIVSASGIADNDVENIKVKKIQNSCYIVGDLEKDVENYKTFSTKVNIVAAIMANIILEKGDFYEKNL;locus_tag=LOCUS_21240;gene=thiF;note=WP_005897548.1 sulfur carrier protein ThiS adenylyltransferase ThiF (Fusobacterium nucleatum) [pid:42.8%25%2C q_cov:95.0%25%2C s_cov:87.4%25%2C Eval:4.5e-29],MGA_2126
sequence2	MetaGeneAnnotator	CDS	91933	92964	.	+	0	ID=MGA_2127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYRILDANVNRASEGIRVVEDICRFYFENETLTEKLRNIRHNIRKSLKDIDIYMIEERDSEHDIGKNITLNSVIDKKDSVSQIITANFKRALEAVRVIEEILKTLDNMYLIGKKFETIRYELYYLEKDVTQLINKKIIPEGIYGITMEESSNGKNNIEIVKEMIENGIKIIQYREKRKSFRDMYKEGLELRQLTKENGVTLIINDYIELAMMLDADGVHIGQDDWPIEEVRKLIGSDKIIGVSTHSKEDAIEAVKNGADYLGVGPIFKTNTKDYKTVGFEYLEFVSENIKIPFVAIGGIKENNLEEIVKRGATRIALVTEITGAENMNEKIGKLNEIIKK;locus_tag=LOCUS_21250;note=WP_012584007.1 thiamine phosphate synthase (Dictyoglomus turgidum) [pid:48.0%25%2C q_cov:57.7%25%2C s_cov:89.7%25%2C Eval:2.5e-51%2C partial hit],MGA_2127
sequence2	MetaGeneAnnotator	CDS	92980	94254	.	+	0	ID=MGA_2128;product=phosphomethylpyrimidine synthase ThiC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047970.1;translation=MKYTTQMDAAKKGIITKQMKEVAFEENLDVEIIREKLSKGTVVIPANKNHISLIGKGVGDGLKTKINVNLGVSEDTCNIDTEVEKAKYAINLKADAIMDLSTFGNTGEFRKKLVNVSPVMLGTVPVYDAVAQFGKTIKDISVDDFFSIVETHAKDGIDFLTIHAGLNRTSIERVQKNERLTHIVSRGGSVLYQWMLENDKENPFYENYDRLLEICKKHDVTLSLGDGLRPGSLKDATDAPQIQELIILGELTKEAWKENVQVMIEGPGHVPLNEIAANMQIQKKLCHGAPFYVLGPIVTDIAPGYDHITSAIGGAIAATHGADFLCYVTPAEHLRLPTVEDVKDGIIATRIAAHAADIAKGIKGAINWDNRMSKARGDLNWNKMFELAINPEKAIKYRESDKPKDKEVCTMCGELCAIKRSKKA;locus_tag=LOCUS_21260;gene=thiC;EC_number=4.1.99.17;note=WP_012047970.1 phosphomethylpyrimidine synthase ThiC (Clostridium botulinum) [pid:62.4%25%2C q_cov:99.8%25%2C s_cov:96.8%25%2C Eval:5.7e-160],MGA_2128
sequence2	MetaGeneAnnotator	CDS	94430	95224	.	-	0	ID=MGA_2129;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011707729.1;translation=MKYSLKKIIIITALCFSIFQLSFARDFIIAGIPEAPLRFHDSTGKPTGIDVDIISYIMDKMGIKYKILLVNSSTRLLALSKAGKYDIVFTYSYNKDRNKYLYYPKESHVTITWNFFILRKNEGKIKYNSFEDLRGYYIGATKGFSYTPEFWEAASKGILTLDTVVKNKLQMRKLLGGRIDLLPYNTNAALYEAHVGGFSDKITYLKKPLKKRDYFNTFPRKSDYPNMENIKKKYDEILRKMKEDGTLVKIYAKYGIKYSPKIKK;locus_tag=LOCUS_21270;note=WP_011707729.1 transporter substrate-binding domain-containing protein (Aeromonas) [pid:38.7%25%2C q_cov:89.0%25%2C s_cov:92.5%25%2C Eval:5.8e-44],MGA_2129
sequence2	MetaGeneAnnotator	CDS	95459	97411	.	+	0	ID=MGA_2130;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680924.1;translation=MKLKWKIMLPIVLILTVQYSVLIFKDISINREKNKSIIKKIGDIKSEAFFSYLNKSLAKGEMFIDFVLSNKETKKAFAERDRDKLEEINYKLYNKFKKNADIAQFQFHLPSSVSFLRLHNLNKYGDDLSSFRKTVVEANKKKQLEKGIEVGVAGIGIRYVKPVFYNGNSIGTVEYGGKLGDKLLKEFIEETDKKIKEYGLNVSIIAKNLKGEYSVIASNFEDEIAINPNEILSKFTNSSDGYYFSNGRDAFFYEKLKDFSGAVVGYVKFKYDISNILKKGRADTRFSIVIIIVTLISIIVFLLLFIKIVIEKRLNLLVEFIKQVEKGDFRDKNRIKGKDEIGKMSDSINIFIKKLQKIIIDVKSYSGRVSNGIEEFNDTMRQISNSTEEVSESSTTTAASIEELSSTTIEIHQNIERLLKNTENTLQLAKNGGDAVDLTIDEINKIKKLVEVGTEDVKELGNKTNEIGEIVVVIKEIAAQTNLLALNAAIEAARAGEAGKGFEVVAEEVRKLAEKTTEYTKEINNSIKEIQDETNGVITKMEEVNIEVETGVETSNNTGKALEEIVIHTVEVRDMVNSIVNSTREQSIASEDIAKQTEAVAQNSELNGQAIENSSESIGEIAEIAEELNQMVRKFKVNNDENEMGIKKIE;locus_tag=LOCUS_21280;note=WP_002680924.1 methyl-accepting chemotaxis protein (Treponema denticola) [pid:28.3%25%2C q_cov:98.3%25%2C s_cov:91.4%25%2C Eval:4.4e-72],MGA_2130
sequence2	MetaGeneAnnotator	CDS	97480	100029	.	+	0	ID=MGA_2131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFKYINYGQDEFENIINEKNRVYITDSNINKTFLKNYEKKEILKKSNLFFTLNELKENIFLDDKITLKEEKEFLLFYEILNSEEKKALNISTYYDSIDIAGEFINFFTELNEYNVDKIDNLNIWQTKRYSMFSIIKKRYEEELNKRGYTLPMFKYNIKNIDLNILKDYDEICFVNVLNFTPLEKEIITLLEKNRKKVIIYNQIYKEDYNEKELKIKDITFPKKIDTDIKIYENKEEFLEILNSIKIAESGKYDIYDLNFENSKYKNIFLNEHINFQKVIEYSSTKIFKYLDGLHTLLNNLKREEGKYLFRLKDILEAVEFKEIKYNFQIEDDDIMLLRNMAVKGYKFIDKNVNIPNKIKLMLLEIEEISKFKTLKEFCDYIEKVDVERTSEENKLLFEALSEIAVIEKLDIVSSWDNYFEDIAEGLFRLVLKYLRFKKVSENIKLDEDAILIKNYQDIKFINENMILLNCNDNLLPTKYNKSFLLTEKQRKNLGLKNYEDNRLIEKHKFLSRISNSNETIIFAINNENKNVDASSFVEELIINYNIKKADSNIDENNYEEVISSIFKNGDGFELINNNFKLKLEKNDFEDNKFIISPTDLYDLNMCNYKFYLKKIANLTDINIDIEYKLDSRTLGIILHKLMEEIGFKVWGKKIKVEKKIIRENLNKILKEYELFMPKEFERYYTEVLFENIIESVFRFFDKLNKILEKESNIKYKREENTGMIKLFDEKDIEVSAKGRIDLLVETENSRYLIDYKTGNGKFQQLDFYSILFYGDAGKAEKYLYNVMESRFILEKERKKDDKPLTKLDLEETIKGMIREKEYIRKKNLFVCNDCEYGNICRMRWEENE;locus_tag=LOCUS_21290;note=WP_011962332.1 PD-(D/E)XK nuclease family protein (Flavobacterium psychrophilum) [pid:21.7%25%2C q_cov:56.5%25%2C s_cov:51.5%25%2C Eval:4.1e-12%2C partial hit],MGA_2131
sequence2	MetaGeneAnnotator	CDS	100022	103051	.	+	0	ID=MGA_2132;product=exodeoxyribonuclease V subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016941.1;translation=MNKIIKASAGTGKTYRLSLEYLIRLIKGEPFNNIFVMTFTRKATFEIRQRILLHLETIISNSKEGKDIIDNLKKIDDNINIDIENLKQIYNEMLKNKDKINIYTIDGFLNMVFKKVISPYINLYNYEIVNTEENKEFTERVLKKIVNNKVYFKEFNDFFMENIERDIDEYIKTIDTIILNRWKFLLVNHEPKVKLGNINPIIIYEEAVKKLDEIFQIKGKGEFFEYFKKDFRFYNEIENLEKKAEYILRDNKKFLKANFWNGNKIKGKNVVGLKGDLEDIYEEFKKNLAIEIYNREVIPYEKHIFNIADIIFKLYDEIKIKEKKFTHSDIGNYTYKYLTDENLGVVKNGKFTNYFYELIGNEIDTIFIDEFQDTSILQWNILKLIIESSKSSIVVGDEKQSIYSWRGGEKRLFETMENIIDGNVEVLDKSYRSDSKIINYINNFFGKINENFRYKPISYYEKNIGGYIETFAGSKIDVKNELVEKIKEKLNGNYKNVAILARGNRELNEIALILGNNKIPYVTESNLSIIEHRTVKPIYFILNYFLKNSYIDLLNFLRSDIINIDENYLKLFIKNQNIVEDFINGVDDLENINIKKLDFIDENIIKLLEEIKKLKNMEFKDINKELIEKFGILNKYTSISDLKNIYYFFELMKNFDSLKEFMEFLKKKSENEELKQIGIEETNAIKLMTIHKSKGLEFSTLFFYWKISSREKPEKGLKFFTEFDSKFHNVEKYMFVNSKYKNIIETCGFEFFSNAKNVSDIEEINNLYVALTRASKNLFIFADFGNSKLGKNFNTIFSEEDTNIYKGEGKFVATPIEIKDVEDKIVLDNKEKSKSNNKDNNKTTIKEEYNFNKYFKNLKEERLELENSMTLEKEFNRKLGLAIHYYLENIIYGKEDERKRAKKITYSKYGNMLGYDKVETAIERANNFINKNKEYYDEKYNVFNEYEIEYNNQKHRIDRLLIDEKNREIYILDYKSGHVMDKAQLERYKDILMELTENRYAIETKFLSL;locus_tag=LOCUS_21300;note=WP_011016941.1 exodeoxyribonuclease V subunit beta (Fusobacterium nucleatum) [pid:34.9%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:3.8e-153],MGA_2132
sequence2	MetaGeneAnnotator	CDS	103243	104586	.	+	0	ID=MGA_2133;product=IS3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_094396572.1;translation=MSNKIFTKKEIEILSKNKYVKTISSKAITYTSEFRRIFIAESQDKILPRAIFEKYGFDVQVLGMKRIRSAAARWRRAYKEQGVLGLDDRRKENSGRPLERELSLEEKYERLQVKNDYLQAEIDLLKKLDVREREVNGKLIELSPSEKFVIIKDVIETSGVKNIIKYLCEVAEISRTSYYNYLSETSKTNKSNQELEDEKARDLIIKAYEFKGRQKGARQIKMTLENEFATIFNLKKIRRIMKKYSIVCTIRKANPYKRIAKATKEHTTIPNKLNREFKQEIPGKILLTDITYLSYGNGQRAYLSTIKDSSTGEIPAYVLSKNIKLEIATETIRTLMENKSFKIHKDALIHSDQGVHYTSPTFQKLVKNSGLDQSMSRRGNCWDNAPQESFFGHFKDEANIKECNTFEELINEIDDYMDYYNNYRCQWGLKKMTPIKYRNHLLENKSA;locus_tag=LOCUS_21310;note=WP_094396572.1 IS3 family transposase (Bacillus cytotoxicus) [pid:59.7%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.4e-155],MGA_2133
sequence2	MetaGeneAnnotator	CDS	104889	105242	.	+	0	ID=MGA_2134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVIEFNKEIRVNPYFGINITNNIARIFKNYKRDESIEIIKILLNISKKRVVEIKEAESTDGNKVIILLLYGSKYISKNIVKEIPENPDGTFAFPVFELDFNNVVDIEEELRVLGYD;locus_tag=LOCUS_21320;note=MGA_2134
sequence2	MetaGeneAnnotator	CDS	105470	106378	.	+	0	ID=MGA_2135;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765521.1;translation=MKNKSRYKNKPKKSKQIEITVKEPMELMDFIMKMYEGKNRNKVKSLLKHGQVVVDDLIQMKYNYKLNPGQKIIINGKGISKEKMNGVKIMFEDNYVIVIEKESGLLTIATNKEKLNTANSILREHVKEADPTNKLFIVHRLDRDTSGVMIFARNKMVKETFQNEWNERILERAYVAILEGNIPNDEGTIESYLKENRAFLMYSTKDTKDGKKAITRYKVLKRVNNYTLVEIHLDTGRKNQIRVHMQNMGHSIIGDKKYEAKTNPIGRLGLHAKIIEFKHPITNKIMRYESPLPKEFKKLMKM;locus_tag=LOCUS_21330;note=WP_008765521.1 RluA family pseudouridine synthase (Bacteroides) [pid:45.9%25%2C q_cov:95.0%25%2C s_cov:94.4%25%2C Eval:1.7e-69],MGA_2135
sequence2	MetaGeneAnnotator	CDS	106937	112072	.	+	0	ID=MGA_2136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKILWKSLFMFLGLMLLAVGCFEKPVEEAVTLSPPTNLQVVQKDETFIQFSWRGVSGAEGYKIYKSSTSYGTFVQIGNSPVVVYRDEELNPGTTYYYRVKAYKGTVESQFSQVLQATTSEKPKIINITPAKDSTGVSINTKVVITFDKDMDSGTLTSNNVYLMKSVGLETITSAITYNNKILTLTPSSPLNYNTEYTILISYKVKDINGNGVESTLSSFTTEQETVVNTAPTAPTNPTPANNAIDITTNSAITWQASTDSDGDAITYDIYLDETTSPAIKVASDLSVVTYSPTLGVGKTYYWKVVAKDGKGGETSSEIWKFTTISQTVTYNVGDKVWEFNSGTAMYSSPATGNNGVIYIGSNDDNLYAINQDGTEKWECKLDYDAGTPAVGSDGTIYGGSKKETLYAIDPTDGTKKWSFTEGGGFINSAPAIGKDGTIYFGTSGNILYAINPNGTKKWSFTVDNNIQISPVIAYDGTIYVGSSSGTIYAVDSDGTKKWEFTENGSSVNGLAIGTDGIVYVIAIKNIYAINPDGTKKWEYEISSSTTTPTQLVIGSDDTLYFGAQILESDWVNKIFAVDKNGSKLWEKTIDEDIQNGPALGDNGNIYYITYGKLEVFDTNGTKKWEFDAEDGMYGNDSSPLILNNRVYFGTSKGKLCAIYDNVGGVADSPWPMVGHDTYHTGVTHLETITPSNTPPTAPTNPTPINNAVDVSTAIVLEWDRSSDSDGDTVTYDVYLDETTNPITKVAKDLSTYYLGISLDNGKTYYWKVVAKDGKGGETSSEIWKFTTINSTISKVETPTASQTGGEVAVGTKVSLSCSTTGTAIYYTLDGTDPTKSDTEYIGEITIDSDITIKAFATKDGMTDSDILTVSYTVTAATSDGDSFADAIPLNVEETIANYLGAESDGVTDSKDWYKVTLSSPGALTITVTGTTRIDVYDSNNTYQGGVSEAENPTYTNNFTAGTYYFQLSSSQVGAYEISATFVAGGTFANEEDPTGDYDSSSNTSRNDTFETAYGLGLGTENSKKGYLKYRNDKWKEDTSDWYKVTLSSPGALTITVTGTTRIDIYDSNDTYQGGVSEAANPTYTNNFTAGTYYFQLSSSQVGAYEIGATFVAGGTFVNEEDPTGDYDSSSNTSRNDTFETAYGLGLGTENSKKGYLEYRNDKWKEDTSDWYKVTLSSPGALTITVTGTTRIDIYDSNDTYQGGVSEAANPTYTNNFTTGTYYFQLSSSQVGVYEIGATFVAGGTFANEEDPTGDYDSSSNTSRNDTFETAYGLGLGIENSKKGYLEYRNDKWKEDTSDWYKVTLSSPGELTITVTGTTRIDVYDSNDTYQGGVSEAANPTYTENLTAGTYYFQLSSSQVGAYEISAELPIFKAVNDPTTLNSNMESIGLSSDGLDTYMFFRNSDLEYNVPNVYVTKKSGDSDWTLLGTNPVGTAYTGTYSSLEMTVYNNIPYIAYSDDEYGQKCSVKKYDNGSWSYVGTAGFAEAADSAYRGMVIDSNDKIYVTVDLSSGLTVYEYDGSSWTKGDYLSTEATSSTKLKLVNNIPYIIYEDNAAYGSTTQKIVIKKRGTAGWENVMEITGTGDIRNNYLDFVVLNDDIYISYYSKDDDKLYIKKYSSGNLSDITGNLTAYQYAQGIGMAIYENTVFLALSESATSGKSLAFYKYVNDTWTKVGDSFNENSTIYNIKLKSNENSMECSLVTSDKNIKVYKY;locus_tag=LOCUS_21340;note=WP_011021765.1 DUF2341 domain-containing protein (Methanosarcina acetivorans) [pid:28.8%25%2C q_cov:46.6%25%2C s_cov:19.1%25%2C Eval:4.0e-65%2C partial hit],MGA_2136
sequence2	MetaGeneAnnotator	CDS	112242	114812	.	+	0	ID=MGA_2137;product=ATP-dependent chaperone ClpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627102.1;translation=MEQDKFTQKSLEALSEAQNFAIRYKHQQIDVEHLLLALLGQVNGLISNILRKMGIDVSGLISKVESELDKRSKVEGGNTEIYGSTRLNRILVNAETYMKKYNDSYISVEHLFLAVIDDLNWIKEFGVNKKNFENVLKSVRGYQNVDSKNPEGTYDVLNKFGKDLVSLAREGKLDPVIGRDEEIRRAIRILSRRTKNNPVLVGEPGVGKTAIVEGLAQRILKGDVPEGLKNKTVFSLDMGALVAGAKYRGEFEERLKAVLKEIEESNGDIILFIDEIHTIVGAGKTEGAMDAGNLLKPMLARGEIKVIGATTIDEYRKYIEKDSALERRFQPVMVNEPTVEDTISILRGLKERFEVHHGIRISDNALVLAAVLSHRYISDRHLPDKAIDLIDEAGAMLRVEIDSMPYELDEISRRIMQLEIEKEALKKEKDKVSKERLLKLKKELSELKVRRDELKSKWDLEKQGIVKVKEIKEEIEKVNYQIEEAERQYDLNKVAELKYGTLTELENRLKDEEARLEKEKENQENKLLKEEVTGEEIAQIISKWTGIPLSKLMEGEKEKILSLEKRLNTQVIGQSEAIKYVADAIVRARAGLKDPKRPIGSFIFLGPTGVGKTHLAKSLAYDLFDSEDNIIRIDMSEYMDKFSVTRLIGAPPGYVGYEEGGQLTEAVRRKPYSVILFDEIEKAHHDIFNILLQLLDDGRLTDGKGKVVDFKNTIIIMTSNLGSGYIAESAEITENIKEKVFDTLRGYFKPEFLNRIDEIALFKMLDRESIKEIVKLLLVEINNRLEERYIKLEYTEKALDLIAENGYDPIYGARPLKRYLQKGIETNLGKMILRGEIKENSVVKLDVEDGELVYRK;locus_tag=LOCUS_21350;gene=clpB;note=WP_201627102.1 ATP-dependent chaperone ClpB (Fusobacterium canifelinum) [pid:60.7%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:4.8e-303],MGA_2137
sequence2	MetaGeneAnnotator	CDS	114998	116260	.	+	0	ID=MGA_2138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVFLFLIFSNLIFAEELVLKEMQIIPPKLQVRENISNVEHIFIIKNRKGKYYIEVFYKKGKSIYKKTIPVEKKIVSEIFLNKEYSDNLSYETEKDKNIIVYGTTLYSASTAFLLIIDTNREKVAFATSAVAGWGSYIYLNKLADRGTFYKRDFINMSLAGLSTTIELYDILRGTYGELNKERVKFMIGTGYAAYLYTKKISDKYKINRTAFSIGTEWMFISRFQNSFLVNEKQLSERNYYRINAVVNPIVFYSGLQYGMKYRLSMGAYGILDNYSLSLRNILLEIPVDARVKAGISSIGAVTPYILGKNIEEKIKFRKNDWFLAKASQGLGWLTGLAITGLFEDKMEEGQARTFLNVSTSLGVIGATYYTTKLFENRNEKIGSEKLDLSDYIDINPIGILSAMNKLEGNWPIFTIHF;locus_tag=LOCUS_21360;note=MGA_2138
sequence2	MetaGeneAnnotator	CDS	116580	118121	.	+	0	ID=MGA_2139;product=SulP family inorganic anion transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005482406.1;translation=MFFDVLKKKLNAKDEILSGLTVALALIPEAIAFSFVAGVSPLVGLYAAFIMGLITAVFGGRPGMISGATGSMAVVFVALVSTYGTQYLFATVILVGIIQILIGVFKLGKFARIIPHPVMLGFVNGLAIVIFRAQLGQFKVDVNGKSMWMTGSTLYIMLGLVILTMLIIYFLPKLTKAVPSSLAAIITVTLISLWLSKSGFNIPNVKDFAKGGISGAFPQFSLPKVPFNLKTLEIIFPFALTAALVGLIESLLTLTLIDELTDTRGRSNKECIGQGAGNMLCGVFGGMGGCAMIGQSIINVTSGGRKRLSGIVAAISLLLFVMFGSSLIEIIPLAALVGVMFMVVIGTFEWESLKLGNKIPLKDVIVIIIVMIITVVHDLALAVIVGVILSALIFAWEKGKQISATIFMRDDGIKVYRLDGPLFFASATCFKNIFDIKNDPKEIMIDFKNSHIMDHSAIEAINSITKKYKENNKKLHLKHLSPDCLQLLNNAEEIIDVNILEDPKYYIADDTLA;locus_tag=LOCUS_21370;note=WP_005482406.1 SulP family inorganic anion transporter (Vibrio) [pid:57.8%25%2C q_cov:98.4%25%2C s_cov:98.3%25%2C Eval:6.5e-169],MGA_2139
sequence2	MetaGeneAnnotator	CDS	118325	121561	.	+	0	ID=MGA_2140;product=type I restriction-modification system endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011122926.1;translation=MKSNFEFLIADWPTLANLGEFAEKNLFIDSNTTLIKLRVLAENIAKLIIKEENLIDPESNNQIDRLKLLKREDLLEREIEEIFHSLRIIGNKATHEGYSSFDDADTYLSMAVKLSAWFKEVYGSDLTFDSETTIYKTPEKFELTSDYEKLKKENEKLSKEFNELKAVNRSIRNKEEKKIISIKAVQKIKFDEKETRKIIDEQLKSVGWEADSGNLRFSKGTRPEKGRNIAIAEWPTSKMRVDYALFIGLEFVGVIEAKKKSTDVISVLNESKIYSEKARIIDNEKFVKGAPFNKYNIPFMFAANGREYNKTIEEKSGIWFLNGRKPTNHPKALKNWYSPRDIEELLSKNIDDGNKKLEEEPFNYLKSKEGLGLRYYQVEAIQEVEKAIVEGKDKILLTMATGTGKTRTAIALIYRLLKSGRFKRILFLVDRASLGNQAGDSFKEAKMEDLQTFAQIYDVKEIKDKELEDTTKVHIATIQGLVRRIIYSNDNELKPSVGQYDCIIIDEAHRGYILDKEMEEEEVNFKNQNDYVSKYRTAIEYFEAVKIGLTATPALHTVDIFGHSVYEYSYRQAVIDGNLVDHEPPVIIETELNTNGMVWQVGEEVSVYNRKEGKVEKERLDDELKIEIEGFNRRVITKNFNRTVIKELVKYLNPESEEKTLIFAATDEHADMIVKILKEEFEELGWEIYDNSIQKITGYLGKGQEEAIKRFKNEKLPNIVVTVDLLTTGINVPEICNLVFIRRVKSRILYEQMIGRATRLCDKIGKTHFKIFDTVGVYDSLKDYTDMKPIVQNPNQNFEKMIGEIELIEKKEHLNKKREEIIAKIQRKKKLIEKQELEEYFKLKSGNKTPEEYIEEIKKMPVEDATKKLMDDIELFRYLDTVKYLPQKQYISNHKDAIIEVKRGYGKKNKKPDDYLESFKKFIIENSDKIEALKLLKTAPTKITRQQLRGLKLILTEKDFSETYLNSAYKDLKNEEILADIISFIKNAIDNEPLINHEDRIKLAVNKIRQKKQWNALQKKWLDIIEKQLLVENIMQKEDFDKSAFKNQGGFKKIDKIFNGELESIIDELNKYLFNISA;locus_tag=LOCUS_21380;gene=hsdR;EC_number=3.1.21.3;note=WP_011122926.1 type I restriction-modification system endonuclease (Rhodopirellula baltica) [pid:45.7%25%2C q_cov:84.0%25%2C s_cov:78.9%25%2C Eval:2.9e-228],MGA_2140
sequence2	MetaGeneAnnotator	CDS	121571	123004	.	+	0	ID=MGA_2141;product=N-6 DNA methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011122925.1;translation=MGTVEIVQKLWNLCNVLRDDGITYHQYVTELTYILFLKMMKETGQEEIERKNGDIEVKIPEGYRWENITKESGIELMKKYKSILSYLGEHGEGKIKYIYNKANTNIEEPRNLEKIIREIDKLDWYNAKEEGLGNLYEGLLQKNAEEKKSGAGQYFTPRVLIDVMVEITKPEIGDKCNDPAAGTFGFMIAADKFLKEKTSDYLELDEKKQEFQIKEAFSGCELVSDTHRLALMNAMLHDIDGNLLFGDTLSSLGKSMKGYDVVLTNPPFGTKKGGERPRRDDLPFITSNKQLNFLQHIYRSLNTNGKARAAVVLPDNVLFQDGDGMEIRKNLLNKCNLHTILRLPTGIFYAQGVKTNVLFLTRGVNDKDNTKEVWYYDLRTNMPNFGKTNPLKREHFKDFEETFINHKSDKWTKYTIDEIKNKNYNLDLGLQKDENQIDHEDLPNPIESAEEAIVKLEQAADLLQSVIKELRLSGVEL;locus_tag=LOCUS_21390;note=WP_011122925.1 N-6 DNA methylase (Rhodopirellula baltica) [pid:48.6%25%2C q_cov:97.3%25%2C s_cov:96.4%25%2C Eval:9.6e-135],MGA_2141
sequence2	MetaGeneAnnotator	CDS	123004	124071	.	+	0	ID=MGA_2142;product=PDDEXK nuclease domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014498593.1;translation=MGTIIDNIDYKNWISNLKLKFRNSQIKASISVNRELLNFYWELGEDITNMQLKYKWGSNFLKNLSSDLKREFPEIKGFSERNLKYIRQWYLFWNKDEIGQQVVAQLKTIPWGSNIVIISKCNNIEEATFYLNNILENGWSRSVLLHHIKSNLYKREGKAITNFKETLPEIYSDLANETLKDPYKFDFLNISKKYSERELENALVKNIMKFLLELGKGFAFIGNQYHLELSGKDYYLDLLFYHIKLRCYVVIELKVGEFKPEYAGKVNFYLTLVDEKLKNETDNPSIGIILCTSKDKITAEYSLREMIKPIGVSEYEVIEKLPNEFKDILPTIEEFEEEFKKIELAEKETEYGEEE;locus_tag=LOCUS_21400;note=WP_014498593.1 PDDEXK nuclease domain-containing protein (Bradyrhizobium) [pid:47.4%25%2C q_cov:97.5%25%2C s_cov:76.7%25%2C Eval:1.3e-95],MGA_2142
sequence2	MetaGeneAnnotator	CDS	124055	125593	.	+	0	ID=MGA_2143;product=restriction endonuclease subunit S;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022106.1;translation=MAKKNKEKKSIDELLKEALIPEEEQPYELPGNWAWVRLGNIINLISGQDVSKKLCNENKIGIPYIMGASNMENDNLLIERWIEKPKIIANKGDIILSVKGTVGKLLILKEEKANLSRQVMGIKLKNDIDNIFIYRFFQSYIEELKTRAKGLIPGINRDDILEIKFQLPPLAEQKRIVAKLEDMLSKIKQAKELITEAKETFELRRASILHKAFTGELTKKWREENETESVDKLLKKINEEKLKKWEEKYKIAEKEGKRKPKKPEIKSVEEMKVYGSDQPYELPDGWCWVMLGDITEFKNGYAFKSKFFTQEGLQVIRMGNLYQNSLNLDRNPVFMPLSLDEKIVNKTKLKENDILLTLTGTKYKKDYGYAIKINNLGERMLLLNQRILGITTIDEINTFIFRYLYSNIFRDKFFSFETGGVNQGNVSSTATATIGVPFPSLKEQTEIIRQLEQFFRTEEEAKDLLEMEEQIDLLEKSILSKAFRGELGTNNPDDEPAIELLKRVLQEMSCEN;locus_tag=LOCUS_21410;EC_number=3.1.21.-;note=WP_011022106.1 restriction endonuclease subunit S (Methanosarcina acetivorans) [pid:25.7%25%2C q_cov:93.8%25%2C s_cov:95.9%25%2C Eval:3.7e-31],MGA_2143
sequence2	MetaGeneAnnotator	CDS	125961	126896	.	+	0	ID=MGA_2144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFEALSQGNGQISETNITSFLSFLLNETNDFGNAFLILFLENLKDIEKYVDISGDTFRKKIQKFNKYYTFSAIPEVKIQSNKKLRIVDIVLSISNKADEEDIIYILIENKIKKSAIKKEQCLEQIEVFKNCEDFQKNVPIFSVLITPPEKAYEKIYNNTSKEHHNSFWLSWTDNSINLISIETMIRQLIVLENNLEIAPINNISKYILKSFVEYIANELSEKNKKFNFSILGANVVEYAYFILNSKTYILKRFNNKMIRIYDEDNNLLDEQVKPILRKIIKSYNLNISLDNKVTQRLGREVIRGLNKIN;locus_tag=LOCUS_21420;note=MGA_2144
sequence2	MetaGeneAnnotator	CDS	126947	127285	.	+	0	ID=MGA_2145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVAINDIIILFAFTPIVAVLLGISNIKVPYATLFLSVILFVIVPFSAGFITRTTVIKNRGLEYFEKSFLPKFNNITITGLLLTLVIIFSFQGDIIIKNPTHILLIAIPLTI;locus_tag=LOCUS_21430;note=WP_011948469.1 ACR3 family arsenite efflux transporter (Clostridium botulinum) [pid:64.3%25%2C q_cov:100.0%25%2C s_cov:31.5%25%2C Eval:1.1e-36%2C partial hit],internal stop codon at [127283:127285](+),MGA_2145
sequence2	MetaGeneAnnotator	CDS	127364	127564	.	+	0	ID=MGA_2146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGTSNFFKLAVAVAISLFGLNSGATLATVVGVLVEVPVMLTLVKVANKTIGWFYEDVLEGYGFEK;locus_tag=LOCUS_21440;note=WP_011948469.1 ACR3 family arsenite efflux transporter (Clostridium botulinum) [pid:63.3%25%2C q_cov:90.9%25%2C s_cov:16.9%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [127283:127285](+),MGA_2146
sequence2	MetaGeneAnnotator	CDS	127548	127703	.	+	0	ID=MGA_2147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKNKGYTKYKKIGLTFISGIIEYKIRKSTLFLKASFMKKRIIWIYKCLY;locus_tag=LOCUS_21450;note=MGA_2147
sequence2	MetaGeneAnnotator	CDS	127679	127855	.	+	0	ID=MGA_2148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIQMPVLNGIEATKIIRENKKYNKIIIIGVSAFALEKEINEAIQFGMDDYIVKPFKK;locus_tag=LOCUS_21460;note=WP_011267381.1 ATP-binding protein (Pseudomonas) [pid:45.6%25%2C q_cov:98.3%25%2C s_cov:8.8%25%2C Eval:1.4e-07%2C partial hit],MGA_2148
sequence2	MetaGeneAnnotator	CDS	128495	129751	.	-	0	ID=MGA_2149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKIDLENKFEIIKPFLEKKKKLKEISEQNGIPYSTLKRWVNNYKKNGKDGLKKANRSDKNKHRSLNDEGINYIKKLYFQNPNQNILNIYENAVEFLTSKNQKNISYDTVYRIVNNLDPFVKKYADLSSVTHSNDRFEFFSVSLDIMVLDELTDEYLTPYINIIFDSFSHAIVTFSISFKKADLELIKLIFRKAILKKNFTNKNIYGIPKTFLINNIKITPKIELYDLEKNLPIKIKIVTNEESSFQSFFTKLENHIKKISKKYDFFDYNSLKESVEKYITDLNNNKFYDKWEKNIKNFRESESEKELNFLLVKSPSTRKVIDSRVRFNNLIYFSPVLSEYNNQNISIEYNPLSVSQINIYFEDKLLGVAVCNELIDKEISLYELKVIQRTIMINHLNKKINQSVFFRETIKLINDN;locus_tag=LOCUS_21470;note=MGA_2149
sequence2	MetaGeneAnnotator	CDS	130004	130267	.	+	0	ID=MGA_2150;product=HPr family phosphocarrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005888910.1;translation=MKKRTVEITNETGLHTRPGNKFVKLAKSFESEILVSNESGKEVKGTSLLKLLSLGMKKGSLITIVANGKDEDKAVEELTDLLGNLTD;locus_tag=LOCUS_21480;note=WP_005888910.1 HPr family phosphocarrier protein (Fusobacterium) [pid:62.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-24],MGA_2150
sequence2	MetaGeneAnnotator	CDS	130282	132012	.	+	0	ID=MGA_2151;product=phosphoenolpyruvate--protein phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494171.1;translation=METKIVEGIGASPGIAIGEVFINDNLEPIINLSKIEEDDIEREIENLKKAQLETKKQLLEIKEKTKINFGEEKAEIFEGHITLLEDEEFFDEVVEKITDDRITASNSLEQTMKEYIEIIGNLDDEYLRERVADLYDISKRWLLNINGGESLETKIEDENIIIVSKDLTPSDTAQLDLSKVNGFITEIGGQTSHSSIMARSLGLPAVVGVTGIIEEIKTGDLVILDAINGKIFINPNDERLEEYKEKEKIFLEEKEKILQLKDKSATTKDGYKVDLWANIGNPSDVKAAGENGAEGVGLYRTEFLFMNSKELPTEEEQFKAYKIVAEEMKGKPVTIRTMDIGGDKELPYLELPKEMNPFLGWRAIRISLEKRDVFKTQLRAILRASAFGNIKIMYPMIISIGEVRKANTILEECKNELVAENIEFDKNIKTGIMVETPAVVLKAYEIAKEVDFFSIGTNDLTQYLLAVDRGNEKISYLYSTFNPAVLKAISIIINDAHRAGITVSMCGEFAGDERASAILIGLGLDAFSMSAGSILKVKRNIMSLKKESCEKIANEVLLLDTDDEVVEYVEKNLKLI;locus_tag=LOCUS_21490;gene=ptsP;EC_number=2.7.3.9;note=WP_029494171.1 phosphoenolpyruvate--protein phosphotransferase (Fusobacterium hwasookii) [pid:55.2%25%2C q_cov:99.8%25%2C s_cov:99.7%25%2C Eval:2.4e-175],MGA_2151
sequence2	MetaGeneAnnotator	CDS	132028	132522	.	+	0	ID=MGA_2152;product=PTS glucose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005654343.1;translation=MGFFNRMLGKTKEIEIYSPVDGEIINLSNVPDEAFASGAIGDGIAINPSGKVICAPCNAEEVSIFETNHAVSFETKGGLELIVHFGVDTVKLKGKGFERVGTDGESVKKGDELVKYDIDFLRENAESVLTPVIISNMELVDSIEKSTGKVKIGDLIMKIKLKNS;locus_tag=LOCUS_21500;gene=crr;EC_number=2.7.1.199;note=WP_005654343.1 PTS glucose transporter subunit IIA (Haemophilus) [pid:47.2%25%2C q_cov:95.7%25%2C s_cov:97.0%25%2C Eval:2.4e-41],MGA_2152
sequence2	MetaGeneAnnotator	CDS	132597	133973	.	+	0	ID=MGA_2153;product=N-acetylglucosamine-specific PTS transporter subunit IIBC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004195339.1;translation=MNSFSKVQQLGKALMLPVAVLPIAAILLRFGVLWHMSFMQAGGDAIFSNLALIFGIGVAVGLAKDNAGAAGLAGAVGHLVLVAGTKAINPDINMGVLSGIIGGIVGAAMYNKYHKIQLPEWLGFFGGRRFVPIATSLVTLAIAYVFGYVWPIIQSGIDFVGNWMMTSGPVGLFTFGFLNRLLIPLGLHHILNSIAWFVFGSFDYIKEGAKLVAHGDLNRFFAGDPHAGIFMAGFYPIMMFGLPAAAAAMYTAAKKENKKAVAGMLFSVAFTAFLTGITEPIEFMFMFLAPVLYFIHAVLTGVSMAIVGSMGILHGFGFSAGLIDFLVNMGLATKGWLLIPIGLVFAVVYYFLFLGFILKFNIPTPGREGDEDMIDNGVADTSELAAKVLEALGGGHNLTSVDSCITRLRLEVKNRDIIDEKALKDLGAKGVLKPGQTSVQVIFGAKAEIIAQEIRSLI;locus_tag=LOCUS_21510;gene=nagE;EC_number=2.7.1.193;note=WP_004195339.1 N-acetylglucosamine-specific PTS transporter subunit IIBC (pseudomallei group) [pid:51.9%25%2C q_cov:99.8%25%2C s_cov:79.4%25%2C Eval:2.0e-129],MGA_2153
sequence2	MetaGeneAnnotator	CDS	134564	135880	.	+	0	ID=MGA_2154;product=6-phospho-beta-glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005461090.1;translation=MKGLKFVVIGGGSSYTPELVEGIIKKRDTLPVSELILVDIEEGREKVEINYNLVKRMFKKEKMQTKISFTLDRKEALKGADFVLSQFRVGRLEARARDERIPLERGFVGQETTGAGGFAKALRTIPVILDICKDIEEVAKDAWLINFTNPAGIITEAVNKYSNVKVIGLCNVPINMKYDAAEELGVSAEKIRTEIMGLNHLSFVTKVMLNGENKINEILKGSKLDGKDTMKNIEKIDDFEEYNKKIGLISSPYLQYFFFPDKMIEKELKNIKDGKGTRAVQVMKIEKTLFEKYKDVKLDIKPKELEERGGARYSEIAINLIDSIYNNLNNEYVVNVVNNGSIVDLPENVVVEVNCIVNNEGARPLHMGHLPKSVKGLIQQVKSYEEYTIEAAVEGNREKALIALINNPLVRNVDKAEELLEEILNQNKKYLSNFFKED;locus_tag=LOCUS_21520;note=WP_005461090.1 6-phospho-beta-glucosidase (Vibrio parahaemolyticus) [pid:51.7%25%2C q_cov:98.9%25%2C s_cov:98.2%25%2C Eval:6.4e-122],MGA_2154
sequence2	MetaGeneAnnotator	CDS	135882	136742	.	+	0	ID=MGA_2155;product=carbohydrate deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010706778.1;translation=MSKRYLIINNDDFGMFHAVNRTTKELLVNKLISSATVMMPCPWVMEVVHFLKENKNIDVGVHLTLTSEWEDYRWGPTLPKDKVPSLVDEEGYFYKTVEEVVEYADYDEIKMELNNQILLAMKNGINFTHIDNHMFTLFGKNFHKIAFELSQKYKVPFRFAKVIDENLCGEFSEDELNLYYYYANLSEENGIKVPDRLATSGYFMEEGETYEMFKQEFIDFLKSVDYGVTEYFFHPIKDDEEAKAANPYWEKRYWEYQIIKEDEVWEVIKEREIELISWRPLKEKLI;locus_tag=LOCUS_21530;note=WP_010706778.1 carbohydrate deacetylase (Enterococcus) [pid:31.0%25%2C q_cov:98.3%25%2C s_cov:99.2%25%2C Eval:1.0e-20],MGA_2155
sequence2	MetaGeneAnnotator	CDS	136754	137689	.	+	0	ID=MGA_2156;product=BadF/BadG/BcrA/BcrD ATPase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584023.1;translation=MYIAGFDGGGTKTHCIIGDENGNILATGNGGPANYQTAGVKRAKKSIEEALEEALLEIGISKNDIDLYMFGLAGADQEQDFEIIHKFIKEIVGDKKYKIYHDSWIGLRSGSEDYSGIVAICGTGSGFSGRRKDGKEIILRNLDYQLGNSGGGNELAEKAIHFAFRSEEGTFDKTELENVIPKLFSVKDMEEVAEIIRNEDISEKVLKKIPIEVFKLANRGDRISQELLISMGETLGRYSASIIKKLEQENEEINIILIGSIYKGESPLLIDSMKQSVRRFVPKAKLIRPDKDPVYGAYFLGVDIINKKIKL;locus_tag=LOCUS_21540;note=WP_012584023.1 BadF/BadG/BcrA/BcrD ATPase family protein (Dictyoglomus turgidum) [pid:29.6%25%2C q_cov:97.1%25%2C s_cov:91.7%25%2C Eval:1.2e-33],MGA_2156
sequence2	MetaGeneAnnotator	CDS	137916	139352	.	+	0	ID=MGA_2157;product=sugar ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011229209.1;translation=MKLRKHLVLVIMGLFLVGLVSNAGVFDFIFKKGNKKESKQVETAKKAVELTMWVTPDAEHEADLKNIIKKFEDKTGMKVKITVLGWDIVWDKLTTAATSGIGPDVVEIGGTWVSSIAAMGVLEDLSKYYKDDMEKDYLPATLKYSSTVGVPGKMISLPWVTDGYLWYYRKDLYEKAGLDPKKVFDTWDSFSAAMKKLDAMNFKTDKGEKIPAFAHGGKNDWNIIHMMGGFIWQNGGNYISADGKKSLIADPKSVEAIKYFTNFARTGIVPKKYLEKDPSEIEAIYGEGGIATILTGPWFAAQMDKTLSGLYDTETDDKTSLAKSKFVYKNTDVAEPLAGSAGRYTFSGTNNLAVFNFSKHKKEAAGLVKYLTDDEGAQIAYAKATGLFPVSVAAVNSPFVTENHYRSAVKYAFDHDYVKVYPSVPAWGPIETVLTKNLGLIWDLVSGVDGKYTDEKLMKVIDETKREMNLVISQTGTE;locus_tag=LOCUS_21550;note=WP_011229209.1 sugar ABC transporter substrate-binding protein (Thermus thermophilus) [pid:35.9%25%2C q_cov:87.9%25%2C s_cov:94.2%25%2C Eval:9.2e-69],MGA_2157
sequence2	MetaGeneAnnotator	CDS	139428	140354	.	+	0	ID=MGA_2158;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001080790.1;translation=MKVNNIFKKYRFAYLLILPSIISLVAIQVIPSIQGLYISMLRLNQFTFKDFLRAPFVGLKNYYTILFDPNSMIRVGLLGALRNSAIFTVVVISGTIVVGMGLAMVLNQKFKGRGVARTLLLLPWIVPTYIVGLLASFMYGYDGIINRILFNTLHLLPHPIYWKVGPMTLLSIILITIWRFFPMTMLMYLAALQGISKDYYEAAEIDGASGFQKFRYITLPFLKPVTAMMVLYGMIQHIYSFNIAAMMFGMGSGYPGKWGDLLMTNLMRNSFSLWQYGPGGAASVVLMVMVLALVGMWLKIFKDAITAE;locus_tag=LOCUS_21560;note=WP_001080790.1 sugar ABC transporter permease (Enterobacteriaceae) [pid:31.8%25%2C q_cov:91.9%25%2C s_cov:91.5%25%2C Eval:1.2e-33],MGA_2158
sequence2	MetaGeneAnnotator	CDS	140364	141224	.	+	0	ID=MGA_2159;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011174518.1;translation=MNYRLKKKLKRYASLAVLWLVVGIVVFPIIYMVVLAGSYSNSIRTGTEFSTVSLSRYIKNFIDMQKNVDFMNYFKNSVIVISSTTIISLVLSILSGYSLARFKFPGSNGFGLTMLATQLIPPTLILIPMYLVFITIQRTFGVQVIDTYMGLIIPYVAIFTPMSIWVIRGFFANLPVELEEAARIDGCSRFQAFRLIMLPLAVPGIIATGIFIFLTAWDELMLASILTTSPRVQTIPVGIRLFIGRIQNRFDLTMMAALVTTIPVAILFFALQKYFVQGMTAGAVKG;locus_tag=LOCUS_21570;note=WP_011174518.1 carbohydrate ABC transporter permease (Thermus thermophilus) [pid:45.2%25%2C q_cov:99.0%25%2C s_cov:99.6%25%2C Eval:3.3e-64],MGA_2159
sequence2	MetaGeneAnnotator	CDS	141324	143369	.	+	0	ID=MGA_2160;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949079.1;translation=MGGKEYRSKNKSFKNIFMIRLISMVLFITLTMSFIVVNIVNKYIEESVYNTNNSIVNGVSSTFDTFIKNTEILVKLLANNPNISKFNLIGSSELLVQYTNKNPLISNIVIYKMDGKKKLKEKMRINGSLKNDFTEKTINKLYNEKKDNIEILKSKDTNKLMLLMISPIYKMNFLGKITKKEGGALVAVISVEKLKEMLLKREILKNKDFYIVNEYGKLIMSNKRAAKEFEDLTKWNKRFKVTSKNGGIIKYSLENIKKIAFSKYNKEYKIGFIIEEAEKVAFRERDRVITIFIIIIILSLLLVIILSDRLAKDVINPLTELTHQIEVVKTGDFDISISDKNLKREDEFGILSNGFKDMIENLKKVLGDINISSKTFNENSDKLNVTIEKNQASIKEINKIAKTLLESSEINNKEIIKGVKSIKKMSSSSEEIAISSMELKDKISETTKFAKNGYAMMGKTVELLDTTYNSFELAAGKMDSLKDSIENIGGIIDSIKNISDQTNLLALNAAIEAARAGEAGKGFAVVANEVKKLANQSNNSAEEITNIISKIKNIVMDTINIFEKNYKELDEVKENSEKTKLQIEKINNFSELSFESVQKSAELTEIGVSLSKDMLELLSTLKLSIEESSKFSKVIDKNIGYQEKDNLEIKAIAVNMKNISLFLNKTLLKFEEEKKEVIEKE;locus_tag=LOCUS_21580;note=WP_011949079.1 methyl-accepting chemotaxis protein (Clostridium botulinum) [pid:23.6%25%2C q_cov:95.7%25%2C s_cov:97.5%25%2C Eval:3.5e-35],MGA_2160
sequence2	MetaGeneAnnotator	CDS	143379	144485	.	+	0	ID=MGA_2161;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228038.1;translation=MAKVILKDMEKTYPNGFKAVHGHNLEIKDGEFMVFVGPSGCAKSTTLRMIAGLEEITGGTVAIGDTIVNELPPKDRGIAMVFQNYALYPHMNVYDNMAFGLKLAKTPKEEIDKRVKNAAEILGITDLLDRKPKEMSGGQRQRVAVGRAIVRDPKVFLFDEPLSNLDAQLRVHMRVEITKLHKKLGTTMIYVTHDQVEAMTMGDRICVMELGVIKQVDTPLNLYNKPENKFVAGFIGSPSMNIVEAKLEKEGETTYVVTEHMKLRLPKEKADKVQKYVGKEVWFGIRPEHIGSHETHPNEKDNYVNSEIYVVEQMGNEVFVYFTPGKNQYIARLGSEGVTVKSGEKYEIWFDTTKCHIFDKETEENISL;locus_tag=LOCUS_21590;gene=ugpC;note=WP_011228038.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Thermus thermophilus) [pid:59.0%25%2C q_cov:99.5%25%2C s_cov:97.1%25%2C Eval:1.2e-115],MGA_2161
sequence2	MetaGeneAnnotator	CDS	144816	145025	.	+	0	ID=MGA_2162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAKINVEKIKKFIKIKKNSIWEEKDLITLCLLTMKKDNMTKEKLNYKDIKNQVKLLLKIMNELEKEIS;locus_tag=LOCUS_21600;note=MGA_2162
sequence2	MetaGeneAnnotator	CDS	145022	145825	.	+	0	ID=MGA_2163;product=glucosamine-6-phosphate deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005775719.1;translation=MRLIINESVGEWAAIYVAKKINLHKSEKLFVLGLPTGSTPIKMYNKLIELNKKGKVSFKNVVTFNMDEYVNLPENHPESYHTFMKENFFNHIDIKEENINILNGNAKDLDEECAEYEKKIESYGGIDLFIGGVGEDGHIAFNEPGSSLSSKTRTKELTEDTRIVNSRFFGRKIENVPKVALTVGVGTILGAREVLIMATGYKKSLAVYNGVEGSVNHMWTISALQLHRYGILVCDEKATMELKVKTVNYFKDIEKEFLDVDNLEKEL;locus_tag=LOCUS_21610;gene=nagB;EC_number=3.5.99.6;note=WP_005775719.1 glucosamine-6-phosphate deaminase (Bacteroides) [pid:66.3%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:4.6e-97],MGA_2163
sequence2	MetaGeneAnnotator	CDS	146003	147196	.	+	0	ID=MGA_2164;product=ROK family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583058.1;translation=MRVVGNQNYVKERNKKLIIELLRTNGPLSRADIKKFINLSAPSISTNVERLVDENLLIKAGKSSSMGGRKVTFYDVNYNYGYIVVIDLSLDEIYIGISNLKSEMIDKLKIRVTSKKYENVLGELIQSIENMLLNNKISEDDIVNVSISTPGVLKENNELEYVDKKEWFYKKPLFKDLEEKFNKKIIIENDVNLDVIAEYEKGLGNSFSYLTYIKIDKGLGAGIILNNNLLKGKSGEVGEIGFSIIRNGNGELISLEDELNIEKIYSDIKKDLENGENTIIRELVSGNSDKINLDILGKAASLGDEYSNKKIKYLAEELGIFISNIVSILGIEVIIIGGLIKVLGKIFLDEIRLFIKNYIPFDTLVTYSGFDDEIGLIGASENGIKLFFEDFFRSKVS;locus_tag=LOCUS_21620;note=WP_012583058.1 ROK family transcriptional regulator (Dictyoglomus turgidum) [pid:24.0%25%2C q_cov:96.7%25%2C s_cov:97.7%25%2C Eval:4.4e-26],MGA_2164
sequence2	MetaGeneAnnotator	CDS	147280	148695	.	+	0	ID=MGA_2165;product=glycosyl hydrolase family 8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_191316782.1;translation=MKKRVLIIISLINLILMVGCNNININSEKSNLKKIDLANIKIIKPNLKSDENLNKDVINFYKEWESKYIKKVRGVFPEQTYLDYGVEAREDSDALQDWFKPFNVVATSESQGYAMIITASMANIDKDNKDNFQKKFNALYRFFRAHPSKYNRDLMCLQELGIGLEKNGSIVEGEVLDIENTTDGPYSSIEGDMDIAYSLLIANEIWGSDGEIDYRSEGLKVIKAIMNSEINRKEHIPLMGDWVLKYASGRNPVDKKEGIKHLTIVKSSNLILNYFDTFSKVDLENREEWLNVLNKSENIINYNTTNWGSKTGLVADYLQKNISGYYIPVKGAVVEGDENEGDYNWNACRDPWRFSVDTIYSNNRTVLLGLVKLNRWIREKTGNIPEEIRPGYYIRDGKAGEIIGDRYGWGEDISFTAPFLISACIGQENQKWLNDLWSHLLEIPIDDEVYFGNVLKMQALIIASGNWINIQ;locus_tag=LOCUS_21630;note=WP_191316782.1 glycosyl hydrolase family 8 (Amycolatopsis bullii) [pid:30.5%25%2C q_cov:76.6%25%2C s_cov:78.8%25%2C Eval:1.0e-40],MGA_2165
sequence2	MetaGeneAnnotator	CDS	148730	150130	.	+	0	ID=MGA_2166;product=glycosyl hydrolase family 8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_191316782.1;translation=MRRIMIKKLLFLVILISVIGCANTKIKTIQNTSSKDVKIIKPNLKSDKALKRDIVTFYKSWKEQYLKIVPNKNPEQIYLDYGVEARKDPDALSDWFDPANAVTTSESQGYAMIITASMANIDKNNINNYKEQFNALYRFFRAHPSRFSNDLMCWQEVGIGLEKKGDTVTGEVTDVKNIEEGADSAIDGDMDIAYSLLIADKIWGSNGEINYKEEALKVIKAIMKNEVNKKEHILLLGDWVLNSIKNGEIKENKKYLTITRSSDFILDHLRAFSNIDKENSKEWTNILEKTEAIINYNVNKWSKNTGLVADFLQKDENGNYTPAIGNVLEGDNDGDYNWNACRDPWRFSVDVIYNKSQKITSSIKILNNWVKKNSMEDPEKIYPGYYIRNGEVGKVIDDRNTWGEDLSFTAPFLVSGCVGENNQEWINKLWENIIDTKIGDSEYFGNAIKMQALIIASGNLVNVIGE;locus_tag=LOCUS_21640;note=WP_191316782.1 glycosyl hydrolase family 8 (Amycolatopsis bullii) [pid:34.4%25%2C q_cov:77.9%25%2C s_cov:80.3%25%2C Eval:7.3e-55],MGA_2166
sequence2	MetaGeneAnnotator	CDS	150256	150867	.	-	0	ID=MGA_2167;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164930819.1;translation=MEKELSAKEKLLQVSIKLFAKKGFSATGVRELVKEAGINISMVNYYYNSKVGILKEIITIFYDKLYTEISAAIDKNDNFETRIRKAGRATIKLIKGNEDMFKISIFEFPYEHDDIKEIKKEKVMKIMKLLYGTLFENLSTIKNEKLNLEIAIPAFTGIYFSHFMFKPMLEVVTNTDFNDEFYENYSDYITDIYLYGIMNKLKK;locus_tag=LOCUS_21650;note=WP_164930819.1 TetR/AcrR family transcriptional regulator (Aquifex aeolicus) [pid:25.9%25%2C q_cov:81.3%25%2C s_cov:84.9%25%2C Eval:8.5e-09],MGA_2167
sequence2	MetaGeneAnnotator	CDS	151056	152294	.	+	0	ID=MGA_2168;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015943657.1;translation=MKEKKIYIGTDSVMNSMLSSIQEGIIKHQSNFFKVQKFTEDLVHNRTYVNCMFPSFPGRAWDRFFEGTYRVSKGENVPLWMDIVVTGRCHCNCWHCFRSSYKDNGDLEIEVIKRTIDEAYEAGTTVIGITGGEPMLRDDILDILKLIPDGMEGLFYTTGYKIDNSFAKKLSKTNVTRCLISLDHYDEKIVNTMRGYPKAYEMTMTAIKALKEANIYTGVTLCVTDDLCDREVFYKYINFVRELGADEIRVILPIPQGNLEGKNYKRLYINAMKWTREIHEKSLKNPNYPNILLFSQLESHNFIGCGAGYTYVTINNDGALTPCVCVPLTFGNVKEDGFISAYSKINSLFKGTGKTCYGKRVSKAMKEEIKDGMLAPYNEEVSKKIANKCIVNDGIAKFYDNLKNYEVKENDA;locus_tag=LOCUS_21660;note=WP_015943657.1 radical SAM protein (Desulfitobacterium hafniense) [pid:26.3%25%2C q_cov:81.3%25%2C s_cov:82.7%25%2C Eval:4.5e-29],MGA_2168
sequence2	MetaGeneAnnotator	CDS	152324	153358	.	+	0	ID=MGA_2169;product=ketoacyl-ACP synthase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011117506.1;translation=MNGTKISGIGTYIHSVVSNNDYINIFGKKARFIDKKIPHKTRYSAINILDGSVEIRNSEMAYHASIEAMEMAKVKNDEIDMIIYSTSTPDYILPPNYVILQEKLGIKKCMGIDIRSGCSGFGNAIITAKQYIATGMAKKILVVGADLTSSRLSFLFKNLKEFPLKALYNLMLFGDAAGAVVVEKSEIDNFFGTIMGSSRPNSPFGSLIEVGGSVNPYPNGNFKNEDIPIHQNALATEQLIPGVMIEAVEEFLGKSNSKIEDFNYYILPIDSPRMASKVIEYFNLDSDKIISVGAEGGSLVNAAVPLALKKAYDLGKLKKGNKIMIYAAENTRWQYAVMGYNCNF;locus_tag=LOCUS_21670;note=WP_011117506.1 ketoacyl-ACP synthase III (Staphylococcus) [pid:28.4%25%2C q_cov:95.6%25%2C s_cov:97.9%25%2C Eval:8.1e-26],MGA_2169
sequence2	MetaGeneAnnotator	CDS	153524	153736	.	+	0	ID=MGA_2170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLYGNSFGKEETYYYLATMYEEEIIINDIRIRIKPMKIYSVDISSKKEIEINILNNKSQLFMFEINKK;locus_tag=LOCUS_21680;note=MGA_2170
sequence2	MetaGeneAnnotator	CDS	153753	154649	.	+	0	ID=MGA_2171;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003234873.1;translation=MKNNIILGHLMTLMTIFIWGVTFVSTKVLLVHLTPIEILFYRFLVAYILLLVIYPKIKKVNSAKEEILFFFLGFFGIFMYFLLENIALKYTLASNVGLFMSTIPIITSLIVVFGTKDEKFRKELIYGFLIAIIGVFLIIFNGKFILKLNPIGDILALIAALSFSIYSNLLKKINNKYNYLFITRKIFFYGIICMIPIIFLKHEQFSPNKLLIPEVFWNIVFLGVAASTLCFVMWNKAVSIIGAIKASNYIYLVPIITIGTSVLIINETITIFIILGGILTLSGVYISEKGFKIIKIKK;locus_tag=LOCUS_21690;note=WP_003234873.1 DMT family transporter (Bacillus) [pid:46.5%25%2C q_cov:94.3%25%2C s_cov:92.2%25%2C Eval:2.3e-71],MGA_2171
sequence2	MetaGeneAnnotator	CDS	154964	156202	.	+	0	ID=MGA_2172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014208108.1;translation=MLKKIMFCFLFCITLSNYIFAEDSLFDSAMEMSDNSGGKKLSYTINGNLKSAIYSNDSLDDFSNSYSQLSLKFNMKKGEFGDGYANIIIDNKSIILREAYLNYYFKNLDFRIGKQIISWGRSDGINPTDNITPKDLNILSSESDDQKLANFMLKSKISLNNIRIIGLFIPKYSSSPNLKTGEDILEGDYKNYETKALKVNFEFPVVDTSISYVNGYSLNRGIAVDSSKTTPTPILIPYKEEVYGADFSTTIKSYRISGECAYKNYLENEKYYIPYSELEYTLSVDKTFLKSISTIFQYYEKYIDEYKDLKITPYYDVEMRNRLISKQTAKIQNSLLYKIDWSLMYEQLHIENVGSYNLTTKESIFKTKISYNITDDFIAILGNDSYFGDKGTLIDLIKDDLNRNYLELKISF;locus_tag=LOCUS_21700;note=WP_014208108.1 hypothetical protein (Acinetobacter pittii) [pid:24.8%25%2C q_cov:76.9%25%2C s_cov:77.1%25%2C Eval:2.3e-17],MGA_2172
sequence2	MetaGeneAnnotator	CDS	156224	158545	.	+	0	ID=MGA_2173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKLAQIALKFRVIVILVFVGITIFFAIQIPKAKIDTDLKSELPSNMPSRIRMDQIEKMFKGTEFVMITFTAKDSIFNKNTLKRVIKISKNLEKVVQVEKVTSLYTYKDLKAEDGSLIVEPLLKKVPRGNNGMLKLKDRIKNNDMIYKNIVSSDFKSTAIIAILKPNSDDEKILSSIDKILKKYPGNEKIEIGGVPVSRAVTSEYMKTDMRKFLPAGLLIMLIFLFFCFRSISGVLLPFIIVVMSIIVSVGIIPILGWKIQFVTIILPVILIAVANDYGIHVIAKYQENLIEYPKKDQNSLIKNIVESLGGPVIATGITTIAGLMSLMTHIIIPAKQLGILASVGVGFSLLASITFLPAVLSFLPKPELKTKDRKKHFLDKILENLSKFIKNNFVSILIGAIAITLIIGVGIAKLVVDTNPVNYFSKDTPIVKAYKLINKEFGGSTNLSIVAEGDIKDPVIMKKIDDLENMLSKRKSIGQVMSISKVIKQMNKVLHNGDENFYKIPNSRDTIAQYFLLYSMSGDSEDLEKLVDFDYKHALINARISTTSVNTFKKELKYIKAYIAKDPNTPFKIMGGYADIISELMDAIVSGQVISILLSLLLVAVIVGVLFKSFYAALFSVLPLSFAITILFGLMGYFNIELNIITAMLTSIMIGVGIDYTIHFLWRYRNERFNGKNSEDALYKTITTTGRGIVFNALSVIVGFVVLMLSKFLPVQFFGFLVVVSISTCLLVAMVLLPAICILFKPKFLEPSIDEEKLDITIPSKEAFENI;locus_tag=LOCUS_21710;note=WP_014208107.1 outer membrane lipoprotein-sorting protein (Acinetobacter pittii) [pid:25.5%25%2C q_cov:97.2%25%2C s_cov:61.9%25%2C Eval:4.0e-75%2C partial hit],MGA_2173
sequence2	MetaGeneAnnotator	CDS	158748	158915	.	+	0	ID=MGA_2174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIQLKSNKIKGCRVLQLTIKTKYKRSDKNDENKEKHTNFIFYSYKFNNVSRNTN;locus_tag=LOCUS_21720;note=MGA_2174
sequence2	MetaGeneAnnotator	CDS	158839	159624	.	+	0	ID=MGA_2175;product=outer membrane lipoprotein-sorting protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679769.1;translation=MKIKKSILILFFIVINLTMLAETPIEIINKSRDVIKLNGVEMIISLITKDRNNNVRKQKIASISKLYSDNTEKKIMRFLYPTDVKGTGFLSYDYEKKDDLMWLYLPSLRKSRKIAASERSKSFMGSEFSYSDITSFKIEDFKYSILGEENINGEKCWKLEQKSKNDDIADDYGFFKKIVYISKRNYMVMKTESYDEDDELCKVMEALGIKKIDVKRNRYRATHLIIKNLDNGRSSEMIIEKIKLRENIKDSYFTTRFLERN;locus_tag=LOCUS_21730;note=WP_002679769.1 outer membrane lipoprotein-sorting protein (Treponema denticola) [pid:34.0%25%2C q_cov:89.7%25%2C s_cov:87.0%25%2C Eval:6.5e-32],MGA_2175
sequence2	MetaGeneAnnotator	CDS	159848	161434	.	+	0	ID=MGA_2176;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000633861.1;translation=MLNVINVSLRFGARKLFEDVNIKFMPGNCYGVIGANGAGKSTFLKILSGEIESDTGQIITDPGERIAVLKQDHFEFDEEKVLQTVIIGHTELCEISAKKDAIYSKPDFSEEDGMIAAELEERFDELNGWDAESNAATILTGLGIPRELHDKKMKELTGSEKVKVLLAQAIFGNPDILLLDEPTNHLDIKSISWLENFLLDFKNTLIVVSHDRHFLNKICTHMADIDYGKIKLYVGNYDFWYKSSQLALQLAKNQNKKKEEKAKELREFIARFSSNASKAKQATSRKKQLEKLTLEDIQPSSRKFPYVGFTQDREAGNNLLKVENLSKTIDGVKVLNNVSFTIETNDKVIFLSENEIAKTTLFKILAGELEPDEGSYTWGVTTSRSYFPKDNSKYFEDKDLNLLDWLRQFSGNEQTETFLRSFLGRMLFTGDEVKKKVNVLSGGEKVRCMLAKMMIKNANVLLLDEPNNHLDLESITALNNGLIAFPGTILLIGHDHQFIETICNRVIEIKKEGVTNQEIEFDEYLNKK;locus_tag=LOCUS_21740;note=WP_000633861.1 ATP-binding cassette domain-containing protein (Bacillus cereus group) [pid:70.5%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:1.8e-222],MGA_2176
sequence2	MetaGeneAnnotator	CDS	161677	162105	.	-	0	ID=MGA_2177;product=DUF3783 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861899.1;translation=MSFERINDEITERPEGKNCILVYGYNDNEFEKISSYTKKIGIDKILKIESQEVTLTLEDLVNEIKNNNDVDKGIEEKAIIFNAVSDSELHNFVQEFKTLNLNRPLFAAVTETSKKWKFSDLIKELMAEKKAFEERRKNKTKK;locus_tag=LOCUS_21750;note=WP_011861899.1 DUF3783 domain-containing protein (Clostridioides difficile) [pid:30.4%25%2C q_cov:92.3%25%2C s_cov:92.9%25%2C Eval:1.1e-13],MGA_2177
sequence2	MetaGeneAnnotator	CDS	162187	162825	.	-	0	ID=MGA_2178;product=hemolysin III family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964265.1;translation=MKIAEKFTLGEEIASSVLHGIGAIISILALVLLIIKSIHIGDSWHIVSYTIFGTSLIILYTMSTLYHAFPRGTTKRVFQRFDHLSIYILIAGTYTPFCLTILRGKIGWTILIVQWGLAILGIIFKSIWIDKFVAFATLIYILMGWAIVLSIKPLAASLDPIGIYLLVAGGISYTVGTIFFIFSLFKFHHAVWHIFVMLGSLFHFLVIYIYLK;locus_tag=LOCUS_21760;note=WP_010964265.1 hemolysin III family protein (Clostridium) [pid:47.8%25%2C q_cov:96.7%25%2C s_cov:96.7%25%2C Eval:1.4e-52],MGA_2178
sequence2	MetaGeneAnnotator	CDS	162987	163730	.	-	0	ID=MGA_2179;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003106330.1;translation=MKFSMKKSYIFLILFFTLTIISSSESNLNFIAEENYPPISFLKNGKPAGLAVEIVREMLKRKNIPDNIKVWPWVRGYRMTLHHPNYVLFSVARIKERENLFKWVGPIYKMEVSFYGKKNSKIIINSINDAKKLKRIGVFRDSFEEQLLKKRGFNNLDSAVNNILNTKKLMGGRYDVMIFTNTTIKSIVEKAGYSLNDVKKLYTFTTVSAYIAFSKDTPDETISSWQKTLDEMKKEGVLEKIEKKWLE;locus_tag=LOCUS_21770;note=WP_003106330.1 ABC transporter substrate-binding protein (Pseudomonas) [pid:34.4%25%2C q_cov:86.2%25%2C s_cov:86.8%25%2C Eval:1.2e-27],MGA_2179
sequence2	MetaGeneAnnotator	CDS	163794	164822	.	-	0	ID=MGA_2180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNIITLIFFMSLIIINAADFTTELNLHNSYTEKAGNQSEVKGKVLFNFEGEKNYTLDGEYSFGDNINKIDMAKIKFDFDKFVLEIGRNRIGWGVGYNFNPIDIFNSKPIGAAFDTNYLKDGRDSIIMTYYNNENSNLQAIYAIKKDNSMENDEVGIKYKTFIKDFSVEGVIIKKSKDISEKKDLILGGTIAGSIPKLDYGIWSESAYYTDQSKMKMVVGMDNYFDKLYVNIEYYYNGFGENKKEMYTYILAAYGKNLAHHYFVPSLKYDLNEQTSLSGFDFLNLDDYSNILGGVLNYLYDDNIGISISPYLLIGEDDTEYGMAKSEVGSYGIDFNMKITF;locus_tag=LOCUS_21780;note=MGA_2180
sequence2	MetaGeneAnnotator	CDS	164874	165650	.	-	0	ID=MGA_2181;product=EFR1 family ferrodoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947915.1;translation=MLKKDIDIYWFSGTGNTYLITNELKEELEKFNIKVNLFKIEKSNPKNIDTDKIIGLAFPVAVQATYPLVWNFIDRLPNLESKNTKIFMIDTLAGFSGGVVGPLKNILSKKGYECIGAKEFIMPSNYSKPKEEEVNRKKVEKSLKKAKDFAKDLVEEKSNWGRVPGVSDVVKYINNRQFIWNSIQKTVSINNDKCIKCGLCAKLCPTNSIRFNKGEYPIKVDGCESCMRCIAFCPQNAILLNKKETTQYKAVNLELFLK;locus_tag=LOCUS_21790;note=WP_011947915.1 EFR1 family ferrodoxin (Clostridium botulinum) [pid:27.0%25%2C q_cov:93.0%25%2C s_cov:93.9%25%2C Eval:1.4e-18],MGA_2181
sequence2	MetaGeneAnnotator	CDS	165941	166666	.	-	0	ID=MGA_2182;product=outer membrane lipoprotein-sorting protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005462638.1;translation=MKKTVIVLLTIFIFNLGIAQNAKDILQKVKNNTEYSTSQMDATMIIKKGNKKLSEMKFKSYLKKGDKDRQLMRFTYPSRLKGTAILSSGDNIWYYNKRTNRVRLLSKSAKKGSMMGSSFSYEDMTIDFVNDFKSELQKTTNKYYVIKMVPIKDKKFKYLIAYILKDKYIDEKIEYYNDNEIKYKELISSDIKKIDKIMIPLHIEMRDILTGKSTEMITDESSIKLGIKIKDSIFSERNLKR;locus_tag=LOCUS_21800;note=WP_005462638.1 outer membrane lipoprotein-sorting protein (Vibrio) [pid:26.4%25%2C q_cov:94.6%25%2C s_cov:91.3%25%2C Eval:1.7e-12],MGA_2182
sequence2	MetaGeneAnnotator	CDS	166663	169251	.	-	0	ID=MGA_2183;product=MMPL family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000808805.1;translation=MFNKIFKFIEKRSKLVIFIFILATVISLYLTSKLEVRMQMMDLLPKNEKLVQIYNKALKNFTSTDNIAVGVEGNEKDIENYIRDIAPNLKKIKNIKKVEYELNSDFLKSNSLLLVKQNDLENMQDMLTASNLQDFIAGINNNFEESYINSGDSQKMSKDKTQMLSFLNTIQDFAAAMKNGDVKTNFAKQFLIGKKYTISPDRKMGIFLIKSAVNSTDIMGMVNLVNSAEKYLKDNAKKYNVKVSLTGTQVISRDEMVVSNRDMTISTTVSIILMIIIFLAAFRYIRYSLLVIVPLSIGIILAMGFTYIVFGHLNIMTAMMGAILIGLGIDYSIHIISIFLEEKDDGKSTKEAVKAIFKKGMKGIIAGSITTAFGFYVFSISSFPGFREFGVVLGSGIVFTLITAVFLLPTLLLKMGDKKVKLIKTDLRVFDRLEKIVIHRPKRVLAVVLVILVILGMNIPKVSFEKNMMNIEAKGLESIALNKKIIDKFGFTSDNSIAISKNLKEARIIKEKADNMSTVGQIDSIAFYIPDKKLQLKRMKKIAEIKKILMGKKIDKLNIVTLKDELYRLNDNLIEISDLAYMGGETKLVNKCDEITKSNILIDFADNLAKYKGNLQKFQNKFIAEWKNIIENMNDKNIITIKNLPEDIRENYIGKNGEIMTTLYPKGDIWNSDFQKGHIAELKTLGKNVSGTALVYLKVIDISGSEGKRILLLSVFVIYFIILIDFRSIKYATMAILPMILTIFSMMGIMGMVGVKFNVVNIIALPLIIGIGVDDGIHIINRYRIENNLYIALKSTGKAILLTTITTAAAFGTLMLAKYRGFITFGLLLTLGVVLAYFFTIFFLVSVLAIFDQKTIKGGEQK;locus_tag=LOCUS_21810;note=WP_000808805.1 MMPL family transporter (Leptospira) [pid:22.4%25%2C q_cov:97.3%25%2C s_cov:90.9%25%2C Eval:1.7e-50],MGA_2183
sequence2	MetaGeneAnnotator	CDS	169657	170232	.	-	0	ID=MGA_2184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYSKTYLKIINTAYKLIAENGYDKTSINNIVKEAGISKGGLYHYFKSKEELFIKVVEYIFQSFDFINIFNSSTITIDNYMDKLKNIGKMFSLIDAQDENYFKFQNEFMIQALRDENIKGILTEIYNEFMPMIENLFLHLKNIGVSLREKNIKTLSEKVFVFLDGLMIYKGFGISLDCEKLWNSFLEDLII;locus_tag=LOCUS_21820;note=WP_011861420.1 TetR/AcrR family transcriptional regulator (Clostridioides difficile) [pid:54.7%25%2C q_cov:27.7%25%2C s_cov:24.3%25%2C Eval:6.8e-10%2C partial hit],MGA_2184
sequence2	MetaGeneAnnotator	CDS	170319	170768	.	-	0	ID=MGA_2185;product=heavy metal-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014207496.1;translation=MTNLLIFLGLLILGYFAGKSAEKNHYNRIKEKEKNLLNLPVVTVKKVLKEDKILKSELVTGSVVISIDYFKRIVAILINLFGGEVTSYESLIDRGRREAIIRMKEQAKGANIIINMRIQTSTISKSANNKNSVGSVEVLAYGTALWVSK;locus_tag=LOCUS_21830;note=WP_014207496.1 heavy metal-binding domain-containing protein (Acinetobacter pittii) [pid:38.7%25%2C q_cov:94.0%25%2C s_cov:92.4%25%2C Eval:1.4e-20],MGA_2185
sequence2	MetaGeneAnnotator	CDS	170779	171096	.	-	0	ID=MGA_2186;product=YbjQ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014207495.1;translation=MYLSNIETIPGKEIVEFYGMVSGSTVRAKNVGRDIMATFKNIVGGELKGYTELLQESRNEATNRMIQEAKNYGANAIVNVRYATSSVAQGASELYVYGTAVKVEE;locus_tag=LOCUS_21840;note=WP_014207495.1 YbjQ family protein (Acinetobacter pittii) [pid:64.4%25%2C q_cov:99.0%25%2C s_cov:89.7%25%2C Eval:1.7e-32],MGA_2186
sequence2	MetaGeneAnnotator	CDS	171274	171612	.	-	0	ID=MGA_2187;product=DUF86 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869620.1;translation=MSKRNQIDLLMDIKEAIQRIIIYTKNIDIDEFYKDIKTQDAVTRNIEIIGEAAKMIDKKIMEMDNSIEWSMMAKTRDRLIHHYFGVNYDVVWAICKENLPEVLEKISKLIEK;locus_tag=LOCUS_21850;note=WP_010869620.1 DUF86 domain-containing protein (Methanocaldococcus jannaschii) [pid:40.5%25%2C q_cov:99.1%25%2C s_cov:91.7%25%2C Eval:1.1e-20],MGA_2187
sequence2	MetaGeneAnnotator	CDS	171605	171904	.	-	0	ID=MGA_2188;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259346.1;translation=MTKEDILSKLREDYNVLGNKYGISKIGIFGSYATGNYNENSDIDILIKLKKPIGFKYFELIDFLEKELEKKVDIITEIGLNGIRVKDVEQTIKRSIIYV;locus_tag=LOCUS_21860;note=WP_012259346.1 nucleotidyltransferase (Chloroflexus aurantiacus) [pid:42.4%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:3.3e-17],MGA_2188
sequence2	MetaGeneAnnotator	CDS	171919	172728	.	-	0	ID=MGA_2189;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000221373.1;translation=MKYKMLVMDMDDTLLRKDHTISERTKKAIKETQEKGVKVVLASGRPDFAMKDYAKELELDKYKSYILSFNGARIIDCHKDEIIFEQSLKKEVAHELYEISKKENMFIHTYLSDDIITEQNNEYTEIEANITGMKIKTITDFKKSIKGNVIKVLMLEDPTYLKKVSEKLHPKLSDKLNMTISKPYFLEFMDKGIDKGETLKKLANKLNINIDEIIAVGDSFNDSTMIKTAGLGVAMGNAHEEIKEIADYITDTSMNDGVAKLIEKFILKK;locus_tag=LOCUS_21870;note=WP_000221373.1 Cof-type HAD-IIB family hydrolase (Bacillus cereus) [pid:59.0%25%2C q_cov:99.6%25%2C s_cov:98.2%25%2C Eval:1.4e-88],MGA_2189
sequence2	MetaGeneAnnotator	CDS	172840	173562	.	-	0	ID=MGA_2190;product=M48 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948163.1;translation=MHKVRYENEIINFKLIKKKKKNLSISIKRDGKIIVSAPLNAKYEDIEKIILSKGKWILKKLEIINDNIHLQKEKKYVNGELFLYLGKNYKLEILKCEDLKNTKIELLEDKLKIKINNKLESDKEYIKKELYKWYMQKAMEKLEERMKIHSSKNNLYYRSITIKNSKTYWGSCSTNGDINFNWKIIMTPLEIIDYVVIHELSHLIHHNHSKKFWDLVSKSIPDYKIKRKWLRINGINLGIY;locus_tag=LOCUS_21880;note=WP_011948163.1 M48 family metallopeptidase (Clostridium botulinum) [pid:41.3%25%2C q_cov:92.1%25%2C s_cov:92.2%25%2C Eval:3.5e-42],MGA_2190
sequence2	MetaGeneAnnotator	CDS	173625	174383	.	-	0	ID=MGA_2191;product=tRNA 2-thiocytidine(32) synthetase TtcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903362.1;translation=MEKREILKEIEIKGFNKTLWNKAGKAMHRYNMINPGDKIVVGISGGKDSLVMLNTLIRVKLIAGFDFEIIPIFISKTEKISLEVEKIKKYISEIGLKLIVKSTTIDKIVFEDKKVKNPCFLCSRIRRGVLYTMMKELGANKLALGHHLDDIIETFFMNMFYQGNMNQMKPIYRSEQYGYEIIRPLSFVEEDTIIKYARKAKLPIINIDCKFSSVKLDSKRVETKELIKNLEKKNPNIRRNMYSAIFNISKEE;locus_tag=LOCUS_21890;note=WP_005903362.1 tRNA 2-thiocytidine(32) synthetase TtcA (Fusobacterium nucleatum) [pid:39.3%25%2C q_cov:97.6%25%2C s_cov:88.1%25%2C Eval:3.7e-45],MGA_2191
sequence2	MetaGeneAnnotator	CDS	174397	175140	.	-	0	ID=MGA_2192;product=tRNA 2-thiocytidine(32) synthetase TtcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903362.1;translation=MRKTNKKIWKNFIKAIKEFNMIEPGDKIAVGISGGKDSLILINLFKELKKDRSLDFDFVGITLDPGYKEEDLLNVKNYIKTLDIDYKQYETNIWKVIFDERKEKNPCSLCGKMRRGILYKKAEELGCNKLALGHHFDDIIETALINMFYAGSIKTMLPKVESTSGNFEIIRPLAYVKEEEIINFINKNEIKVMASSCKLYTVREDSKRLEIKTLLKGLEKTNPNIKKSIFNSLRNVNLKYVMGYTSE;locus_tag=LOCUS_21900;note=WP_005903362.1 tRNA 2-thiocytidine(32) synthetase TtcA (Fusobacterium nucleatum) [pid:59.3%25%2C q_cov:97.6%25%2C s_cov:86.6%25%2C Eval:3.1e-81],MGA_2192
sequence2	MetaGeneAnnotator	CDS	175274	176254	.	-	0	ID=MGA_2193;product=MnmA/TRMU family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016484.1;translation=MKALALFSGGLDSTLAVKLVTNQGIEVIALNFVSHFFGGKNPKADAMAKQLGVQLEYIDFKDIHKEIVKNPPSGYGKNMNPCIDCHALMLKTASELLDKYGANFIITGEVLGQRPMSQNRSALNRVENLSGMAGYVVRPLCAKAIDETIPEKNGWIDRNKLMDIQGRGRKRQLELADELGIVEYEMPGGGCLLTEPNYGRRIRILKDDEQFDNDFLFYLCKIGRFFRLDKGKYIFVGRKEEENLKIEEYKDEASLYILDNGIPGPVILGFGEFSDDEKLFAESLFSRYSKVKGKTPISMKCNGEIVEIEALDLVKIEEMMKEYLVI;locus_tag=LOCUS_21910;note=WP_011016484.1 MnmA/TRMU family protein (Fusobacterium nucleatum) [pid:56.6%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:7.6e-103],MGA_2193
sequence2	MetaGeneAnnotator	CDS	176339	176533	.	-	0	ID=MGA_2194;product=YwbE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001014309.1;translation=MDGTKRVTIKKGIMVKIVLKKDQRSGILTDGKVQDILTKSATHPHGIKVRLTSGDVGRVKEIVE;locus_tag=LOCUS_21920;note=WP_001014309.1 YwbE family protein (Bacillus cereus group) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-15],MGA_2194
sequence2	MetaGeneAnnotator	CDS	176784	178118	.	-	0	ID=MGA_2195;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986543.1;translation=MNKFKELGVSDTLVDILISNGIKKPTPIQEETITLIHDGMDIIAEAETGTGKTLAFLLPIFDKMNENSQNIQTLIVTPTRELAIQITQEAEKLNVNNKFNILAAYGGRDINVQMNKLNKSVDLIIATPGRLIDHLKRKTVNLSKINTLIIDEADLILHMGFKNEIEFIVNASAKERQTLCFSATISSQVKKLAYKITKEPQIVMIEKREVLLKNIDQYLIETTDRRKQDALCQMLNKENPFLAIIFCRTKLRVDKLEDELYKRGYNCQKLHSDIPQSKREKIMKSFKNAEIQYLVATDVASRGIDITGVTHVYNYDIPENGEGYIHRIGRTGRAGKNGKTYLFVTPKDKELLKIIERDIKMEIPKMELEHIPDVKAENSLPKLKYNKRINVNTKNFFEDRNGKNVKENKNSRDKTNKKKKIINKNRKNSNKSKKSIIDSKKRKK;locus_tag=LOCUS_21930;note=WP_011986543.1 DEAD/DEAH box helicase (Clostridium botulinum) [pid:63.6%25%2C q_cov:82.9%25%2C s_cov:97.9%25%2C Eval:2.7e-136],MGA_2195
sequence2	MetaGeneAnnotator	CDS	178471	179814	.	-	0	ID=MGA_2196;product=IS3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_094396572.1;translation=MSNKIFTKKEIEILSKNKYVKTISSKAITYTSEFRRIFIAESQDKILPRAIFEKYGFDVQVLGMKRIRSAAARWRRAYKEQGVLGLDDRRKENSGRPLERELSLEEKYERLQVKNDYLQAEIDLLKKLDVREREVNGKLIELSPSEKFVIIKDVIETSGVKNIIKYLCEVAEISRTSYYNYLSETSKTNKSNQELEDEKARDLIIKAYEFKGRQKGARQIKMTLENEFATIFNLKKIRRIMKKYSIVCTIRKANPYKRIAKATKEHTTIPNKLNREFKQEIPGKILLTDITYLSYGNGQRAYLSTIKDSSTGEIPAYVLSKNIKLEIATETIRTLMENKSFKIHKDALIHSDQGVHYTSPTFQKLVKNSGLDQSMSRRGNCWDNAPQESFFGHFKDEANIKECNTFEELINEIDDYMDYYNNYRCQWGLKKMTPIKYRNHLLENKSA;locus_tag=LOCUS_21940;note=WP_094396572.1 IS3 family transposase (Bacillus cytotoxicus) [pid:59.7%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.4e-155],MGA_2196
sequence2	MetaGeneAnnotator	CDS	180086	181972	.	-	0	ID=MGA_2197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLMIVAVIPLLFIGCQKSIVVKKGNVSKINVKVVEKKQDKLKIDDIENLTAKTDVPQVIKLNWKLQNKKNVEKIEILKNSLDGSRYKKVAEISPKLNRASIKQKENSYVMYKVRLILKSGKKSRGKMIKVIPLMPNYRKFKLEHYSQNKPVEKTYEVITEDGIDYIEMGALKDMLSEFFGDLNYKAEKDFIKISKKDGNFKLEFDINENKATLFDKNGLTIKNFYNKRDEITVAEGISSGEVLKQYKKDVKAEFKVVRASEKIFEKESLNLNDFDAGYIKKNSKIYFPIYMISYFLFNGNLQITNYDGEYFIKSWAENYKINKLSREKMDKEMKRKVFLYFINLCKKRYTVSKDKNIDFDKMRNDNMSKLINTKSNAEFYDIFNTILTNMDDGHTRFINFGKSNFVINGTNRTENSAKAYEEIMNFYKTKPDKKFDEFILKEIDNKTAYIYIPNWIDPPIKIDKELNKLNGKKYVILDMRWNGGGLLSNVFHIINYFAGDKYELYNMGKPIDIKNNSKKRYKVKLILLTNRLSFSASNYMVNIVKNNNLGIVIGEKTGGGGSPSEIYSLPDSSLVGLSSGTLITDKAGNSNDNGIEPDIKIIDKYNNGKDSIFDRAMKYIDGQESR;locus_tag=LOCUS_21950;note=WP_027479857.1 S41 family peptidase (Deinococcus radiodurans) [pid:34.0%25%2C q_cov:22.1%25%2C s_cov:32.6%25%2C Eval:8.4e-12%2C partial hit],MGA_2197
sequence2	MetaGeneAnnotator	CDS	182057	183835	.	-	0	ID=MGA_2198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKKVFSIIIIVALMAGCTANNVKKVKLSKNQNVSNKEYNKQISSFDEFYRGLLKEKIEYRKDFIKFYFKDIVQKTKFPIIEGNKITFVYYGNVHKVTLVGDINDWGEPGYNFKRVKGTNLFLAQIKLDIKARVEYKFIINDSGWIMDPLNTEKQSNGMGGSNSIFKMDNRAPKIERKYNKKIAHGKTEEVKSKEIKRAMVVYLPPEYSKNKKYKVAYFQDGSGYLEYGDVKNILDYMIENKEIEPIVGVFIDAVERAKEYSSKDNIKYVDEFVNIIVPYVEQNYSVGRSKEDRILVGASAGANISAYIAYKHADMFGYFLSQSGAYNECGYFKGDHGDFENISGEAFALDIDKKKFPLKVFLSTGIMEIFSESNKWIYNELKKNKTVKGVKFVQHNYAHNWSQWGDTLREGFIWLIGNEKDQKEFELKKSKRDYIKTSVNIVWEDKGLSRKMNAKNGMIAISELKKPIYEYKDSKELFNDLRNIIYYKNIIPNETTVATIKTSKKDMNYAVIYFYDTNSNKKMDINEYAEMMKTINYKLDELHQYEVVNDVVSADLPSIYFENKGVMYKFNILTTIKDDNINYMKIVAEF;locus_tag=LOCUS_21960;note=MGA_2198
sequence2	MetaGeneAnnotator	CDS	183873	186224	.	-	0	ID=MGA_2199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKALLSLLVLISLIGCTNTTKKKVSRYFKLNVENLSTKITGKEINLSWKIANFKRVKEVEIYLKLDSERRYRKIDTLKKTVHSYKYKNGIPLVEYNFKIVLVNRDDKKSKGKKISVYIRKKNVLVEKIRDYKVYIYLPDGYDVSDEKYPVAYFYDGDSIFDDKGWNGDKIINKLEADNKIKKIIAVGISGGSERFPDIEFVIKKIIPFIDSKYRTISNKYNRAIIGSSAGAGMSIRTAFAYPDKFYYVGSMSYHGVIDNLNFLRQNSKKDLKIWLDEGLKENNADYFYCGGRYALNILLNKGYKYEKDIVFYEDIEGKHDPISWGRRLKKQLIYFFGNEDKKIKKLKLEIGVLSGIGEYFKIVPMIQYNNGLEYSAIKNIQYSIVDGKKAEISKDGYFLFNGEKAITIKGKYKDVSSELTINYDSDIKTKEKGENLIIISKLLIREVKNGYKVIKNLNIRRMNSIDYISLKDLYKILKLKFVNLEYNINNGIIYFENNGIVEFEIDTKKSIIKNREKKVLNLGDYNLKIVSGEGKKYIPMIFIGDYFFNKKMKIYNTKVSNLLENDKLFRIINNEQFSDNYRAQTDKLKEFDFIYLKKLISEKIAEREKNKIKLKNINKEYLEKVKKANSSYELYDILNKYLKQVLPNSFFITYGNPYNVEKELSTKFRFKDGKVIFLVGDVVVNKIDKLKIYEIPEYKRIKDKNDLENINKYMKRINQIFKEKAKDWELDSSYSALEIDYEKKGKKGKFRLDYEMKDLKTSIDPKSDFFVMPDNSIVVIKD;locus_tag=LOCUS_21970;note=WP_001288675.1 esterase family protein (Staphylococcus) [pid:28.6%25%2C q_cov:28.9%25%2C s_cov:94.0%25%2C Eval:1.6e-10%2C partial hit],MGA_2199
sequence2	MetaGeneAnnotator	CDS	186808	187662	.	-	0	ID=MGA_2200;product=YjjW family glycine radical enzyme activase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012099548.1;translation=MNMKMEVKMSEALVNKIIPFSNVDGPGNRTAVFLQGCNLNCLYCHNPETINICNNCGKCVTGCPADALEISNGRVIWDSDKCINCDTCIKVCPNSSTPKVKKYSVKEVMKIILEYKNFISGITFSGGECTLNHQFIVEVFKEVHKYGLTCFVDTNGFLDFENLPELVKNTDKFMLDIKAWDSSEHIKLTGKDNNIIKKNLEYLIKLDKIYEIRTVVVPEILDNENSVVNVSEILSGTEIQYKLIKFRKNGVRLNLINVDMATDSYMEKLKNRAIEIGVKKVVIT;locus_tag=LOCUS_21980;note=WP_012099548.1 YjjW family glycine radical enzyme activase (Clostridium botulinum) [pid:52.3%25%2C q_cov:96.8%25%2C s_cov:99.6%25%2C Eval:1.6e-82],MGA_2200
sequence2	MetaGeneAnnotator	CDS	187631	189160	.	-	0	ID=MGA_2201;product=YjjI family glycine radical enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012099547.1;translation=MEKILDIIKDEHLTFEQRVYSLARAAENMVDVLHLDDKIKKWMDKDIICDLAEGNAPYKPRYVVPDYQKFMEQGSQFLELSKPKDIWEAVNNLLILYKHVPSVTMVPVYLGNIDTLLEPFVKDEKEDVAKEAIKLFLNHIDKTITDSFCHADIGPLETKAGKLILEVSKELQNPIPNITIKYDKDKTSEKFAIQSIKTALAVAKPSFANDEIFRKDFNGDYAIASCYNGLYIGGGSYTLVRGKLSKLALEAKSKEDFFDNLLPEFVDRITRFMDKKTNFIVEESAFFKSNFLVKEGLVSRDKFTGMFGIVGLAECVNELLSLENSNDRFGHSKKADKLGEEIIKKLSELVNEHTNRYCEISNGHYLLHAQVGIDSDSGDSPGCRIPIGEEPDIYEHIVQSAPFHKYFPSGIGDIFKFDEMAKRNPKAILDIINGGFKTGLRYFSLYEDCADVIRITGYLVKKSEMNKLDKGVAVLRDTTVLGQGGRDNSGVLNRKLRGKDEYENGSKNV;locus_tag=LOCUS_21990;note=WP_012099547.1 YjjI family glycine radical enzyme (Clostridium botulinum) [pid:63.1%25%2C q_cov:97.6%25%2C s_cov:99.4%25%2C Eval:6.0e-183],MGA_2201
sequence2	MetaGeneAnnotator	CDS	189263	189934	.	+	0	ID=MGA_2202;product=Crp/Fnr family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000431597.1;translation=MKILSNPKSLKKYIDKHLLNTHFTDFNINYFELHKFEKNEYICVAGQKLNYLYFLIEGSANVFLTLKDGRQILISYLIPFHVIGDVELKRFGISRLDVVASQECLAIALPFEIINSKLGKDFKFWQYAVETISEKLESTTETLIISSLYPFKIKFAHHLLNSTTKDDIVNFDSLTSLAVFLGVSYRQLLRVVHEFENDGIIKKHKSSFQIENFDKLEILLVDF;locus_tag=LOCUS_22000;note=WP_000431597.1 Crp/Fnr family transcriptional regulator (Bacillus) [pid:30.2%25%2C q_cov:87.4%25%2C s_cov:87.0%25%2C Eval:4.1e-26],MGA_2202
sequence2	MetaGeneAnnotator	CDS	190552	191262	.	-	0	ID=MGA_2203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEHLELSQIFIRILAAVLTGGIIGLEREINNKPAGFITHTLLCVGAAVISIIQVKLSYETINLLINHPALAQGVKLDVGRLIAQVISGVGFLGAGTIIQKKGSIKGITTAATLWLTACLGIAVGLGYFYLALGTAVLMTILVFILKRIELYYIEKRVRHRIVVVYLINENVEKQIKDFLNIRKVKIRGKKPLSEIYNGEETERKTIFNLMVPKFIDFEKMIVEMEKLDSILKIIKM;locus_tag=LOCUS_22010;note=WP_002355354.1 MgtC/SapB family protein (Bacteria) [pid:41.6%25%2C q_cov:73.7%25%2C s_cov:76.4%25%2C Eval:2.2e-33%2C partial hit],MGA_2203
sequence2	MetaGeneAnnotator	CDS	191271	192338	.	-	0	ID=MGA_2204;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249527.1;translation=MKNSKRVAIKNLTKTFITGENKKVHAVKNINLDINPGEFVCLLGPSGCGKTTTLRMLAGFESPTTGQIEIGDEDVARLTPDKRDTAMVFQNYALFPHMNVYENIAYGLKLQKLPPNEVKERVEKTLKLMQMDDFSKRVPSQMSGGQQQRVALARGIVMEPGVLLFDEPLSNLDAKLRIHMRDEIRKIQQKVGITSIYVTHDQSEAMGLSDKIVIMNEGNIEQVGTPLEIYQRPKNEFVANFIGKANIISGKVKNRDGKYLIIDIYGVEYAIESDKNYSENEIVNLVIRPEAIDISGKDFSGIVKKTIFMGAHHEYEIEFFDKRIEISYNNPINQKIYEKEETISFSFESRSIHVL;locus_tag=LOCUS_22020;note=WP_011249527.1 ABC transporter ATP-binding protein (Thermococcus kodakarensis) [pid:50.6%25%2C q_cov:89.6%25%2C s_cov:89.2%25%2C Eval:8.1e-85],MGA_2204
sequence2	MetaGeneAnnotator	CDS	192350	194068	.	-	0	ID=MGA_2205;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005168575.1;translation=MVEKTINLKKKRENNFSLKIKNEIINIRKIYDDPVLMITIIFSLLVVGFFILLPLFNILKSSLLQNGKLTLYHYKDVLNQANSLQVIWNTVKLGMVTGTLATGIGFLFAYVITYIDVPGKKIFDSIAILPIISPPFVIALSAILLFGRIGLITHGIFGIENEIYGFTGLVLVQTLTFFPVAYLMLVGLLEKIDPSVEEAARDLGASRWQVFKTITLPLMVPGLANAFLIVFIQAIADFGNPMVIGGNYTTAAVQIYLQGIGSFDMGAATALSIILLSLSVGIFAFQKYYISKRSYVTVTGKVSKAREKITGKKITYSMTAILFIITLIVGMMYALIPIVAFVKLWGVNYSLSLSHFKYVFALGLKPILDTTYLALIATPITGIIAMIIGFLIVRKKFIGKNFIEFMTMVALAIPGTIIGLGYVITYNKKPLVLTGTAMIILIAFIIRNMPVGIRSAIAALQQIDPSIEEAASVLGANSHKVFTSITLPMIKPAFFSGLIYAFVRSMTLISTIIFLISARYNLLTPAIMSQIDLGRLGVASAYCTILVIIVSVFIMIMKLLFKKIGIDEISEV;locus_tag=LOCUS_22030;note=WP_005168575.1 iron ABC transporter permease (Yersinia) [pid:38.1%25%2C q_cov:92.3%25%2C s_cov:78.0%25%2C Eval:3.4e-105],MGA_2205
sequence2	MetaGeneAnnotator	CDS	194297	195340	.	-	0	ID=MGA_2206;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011969388.1;translation=MKKNLVMGMILMFVAGIVAQGGVFDFLFKNKKQETLTVYAGMMEDYALKATKQFEKETGIKTNMVRMSGGEILARIRAEKENPIADVWFGGGALTFIEADQENLLTHYLSPMRKEIISNFKDKNGAWTGIYSGYLGIEGNKKWLAEKGLELPQTWDDLLKPEFKNNIVIAHPGSSSTAYNFVATIIQLKGEEKGMEYLKKFNQQVRQYTKSGSAPGRMVGLGEAPIAIGFLHDGIRYQKEGYKDLIFTTPKEGTGYEIGAVGIVKNSPNQAAAKKFVDWALSKQAQEIGQTVGSYQFLTNKNATPPKEALQLKRAKLIDYDIQWAGANRKRLIDKFSRETRTTIPTK;locus_tag=LOCUS_22040;note=WP_011969388.1 ABC transporter substrate-binding protein (Sinorhizobium medicae) [pid:39.8%25%2C q_cov:96.0%25%2C s_cov:98.2%25%2C Eval:9.3e-62],MGA_2206
sequence2	MetaGeneAnnotator	CDS	195709	196140	.	-	0	ID=MGA_2207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDMKIFHGLKQETLDFIESSSKKRKYKKGDIICVEGNPADELFFIEKGKVRISSKGERLAFLAQGDGFGEMSIIDMMSRATDVIAEEDTEVFVLEKKYMYKLYKENLKEYVIILMNLARELSRRLRKMDKLVSRMERKFKKL;locus_tag=LOCUS_22050;note=MGA_2207
sequence2	MetaGeneAnnotator	CDS	196210	197016	.	-	0	ID=MGA_2208;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002455962.1;translation=MSMIKIVVVEDEDIIRKGLIYTVDWLSMGCIVIGEAENGEEGVSKIKELKPDIIITDIKMPKKNGLEMIKELNEIYDFESIIISSYAEFKYAKEAIKLNVFDYLLKPIDEEKLEEIIEKVKLHIQDKKIYQEIKGQIKDIDQIQIIDIDYYIHSGNVQSKYTKETIEYIFKNYNSKITIDEMSDKLYISPSYLSRKFKEETGHTLNNFLNKYRIQKALELLFSGDYKVYEIAELVGFSNYKYFSSVFKKYIKCSPLEFVKNDHRVIDL;locus_tag=LOCUS_22060;note=WP_002455962.1 response regulator (Staphylococcus) [pid:34.1%25%2C q_cov:96.3%25%2C s_cov:98.8%25%2C Eval:1.9e-37],MGA_2208
sequence2	MetaGeneAnnotator	CDS	197003	198721	.	-	0	ID=MGA_2209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKKRKFFKDELRKTFILYALIPSLLFSIFFYNILIFYNKKMIKERNRKNNNHVSQIIEKELNDYKKEINFLTNNIDIKEIINGNKNKAKIYEGLYKFVNERKIKSIFYIFDKNGNIIITNAWQKIKENNKNYDLLEEIKINSDKIMLMRNQYQINRDNKKVYSLGKTIKNKSNKIIGYILFELLEKDLNNIIYNDKVDLFAVTDNFKNVIATTNNFMINEIGKLIISKINNEYIRIDRDDYYVYKTDILKGKLSIYTLTPMGLINKFYIIGLMFLIVSFVFLTLLFWLISKKISVNKSKSVDELLYAIKKVQSGNLDTFVNIKTNDEFELLGDYYNEMIIRLDEVIKTNKEQVKRNKMVEIKQLESQFNPHFLFNTLEILKYMIKIEPKKAIKIVVSMANLLRYSINYERENICLIEDIKYIKDYMVIQKIRFDKKLDYEISIEDRVEKCIIPKLILQPLVENSIKYGFDKNNYLKIKLMCFIENDYLILKIIDSGNCISDEKLKEIKNLLKKVDNNTNHIGMYNAQRRIKLIYGVEYGIVINNIKNEGVEVMIKLPIIIEKVGNQNEYD;locus_tag=LOCUS_22070;note=WP_003731998.1 sensor histidine kinase (Listeria monocytogenes) [pid:29.1%25%2C q_cov:62.2%25%2C s_cov:62.2%25%2C Eval:8.0e-38%2C partial hit],MGA_2209
sequence2	MetaGeneAnnotator	CDS	198731	199738	.	-	0	ID=MGA_2210;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902589.1;translation=MKKFIIIILSFLSMVLFIVINFEKPEKEIDVINSLIVYSPHPLSFIEPLINKFESEQGVRVKIISKGSGELLNRIEDEKFYGDIIWGGSLSTLLPEVDYFEKYISVNEKYISEKYKNKSGRITRFTAVPSVLMVNENLVGDVKIDGFKDLLNPKLKGKIASAYPFKSSSSFEHLINQLYVMGGDNKKGWSYIKKLIKNIDGKELKRSSEVYKGVVNGKYTVGCTFEEAAANYVKNGAPIKIVYPVEGTIIRPDGVAIIKGSKNLENAKKFIDFLTSKEVQTFIAKDLNRRSVRKDVKISKGLKLISEIKVVDDDLIWVVENKNRILDKYKGYLKE;locus_tag=LOCUS_22080;note=WP_005902589.1 ABC transporter substrate-binding protein (Fusobacterium nucleatum) [pid:37.3%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:6.3e-52],MGA_2210
sequence2	MetaGeneAnnotator	CDS	199966	202416	.	-	0	ID=MGA_2211;product=glycogen debranching protein GlgX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004118272.1;translation=MRRSGRLLLVLVALTMSFAGCLQKEVVKENNSKENIATNYTTRATSGLTAYSAVDESTWGTQSWGLGSNFVNGIGSDATFAVYSKDATKMVLEIYTSSYGVDASYTYDMKKNSDNIWRAKVATLPNGVYYAFRAWGPNWPYSSSWSRGNSEAGFISDVDSNGNRFNPNKVLYDPYTKELSHDKSNPTALNGNTAEIFASGSTLYGNLPRRDIDTGKYAPKSILLEDNTSFGVKPGIAQKDAIIYETHLRGFTEHSSSVNLSSILSGISGFSDVKSVPNAYRGTYKGAGYMANYLKDLGYTTIELLPVQETDNDGNSASQAGGNYWGYMTYGYFAPDRRYSYDKNPGGPTKEFKNMVKAFHDAGLEVYLDVVYNHTGEGGVWSDKDTAELTSFRGLDNSSYYALTTDNQYYWQSTGCGNNFDSSKNVVRNLIEDSLTYWTTKMGVDGFRFDLAPVLGRDAAPNYYFNSNATLLTDIALMTDAYNVEMIAEAWDTGTYQVGNFPNKWGEWNGRYRDAIRKFLKGDGNTSDFTSMINGDWNDFNDQGGPQKSVNFIDAHDGFTLMDLVSYNTKNNLNVSWPFGPTDGGNDTTNSWDSNGDQSLRRTRVRNFFVTQMFSRGIPMTVWGDEFGRTQNGNNNPYNVDSVATWNNYNMINTDSPDAVALTTGSYHNNYGTDYQDGKNDLFEFVSKLTKIRKYHSALRQDKYADFYLDSGNDVTYSFTKADGSYLGSDDRCVSTRIDGSAIGDDDFLVLTNMWSGWVNFNVPSASYGKKWVRVIDTASWAEQYNNIWDSWNSVTISNSYGVNPWSIVVLEEVNQ;locus_tag=LOCUS_22090;gene=glgX;note=WP_004118272.1 glycogen debranching protein GlgX (Gardnerella vaginalis) [pid:33.7%25%2C q_cov:89.1%25%2C s_cov:95.8%25%2C Eval:6.5e-100],MGA_2211
sequence2	MetaGeneAnnotator	CDS	202879	203259	.	-	0	ID=MGA_2212;product=NusG domain II-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583966.1;translation=MKYFRKGDILIYMIVCVIFIFMGMTILKFDKNSKPDKIEIYVNNKLEYIYKLKNKQKIFKVPTPIGGVTVEIKDMKVRVLTSYSPKKLCVKQGWISKSGETIIGVPDKLIIKIKGKQETELDYVLQ;locus_tag=LOCUS_22100;note=WP_012583966.1 NusG domain II-containing protein (Dictyoglomus turgidum) [pid:31.4%25%2C q_cov:90.5%25%2C s_cov:99.1%25%2C Eval:3.3e-09],MGA_2212
sequence2	MetaGeneAnnotator	CDS	203469	204272	.	-	0	ID=MGA_2213;product=glucosamine-6-phosphate deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761009.1;translation=MRLIISESVGEWAAIYVAKKINLHKSEKPFVLGLPTGSTPIKMYNKLIELNKKGKVSFKNVVTFNMDEYVNLSENHPESYHTFMKENFFNHIDIKEENINILNGNAKDLDEECAEYEKKIESYGGIDLFIGGVGEDGHIAFNEPGSSLSSKTRTKELTEDTRIVNSRFFGGKIENVPKVALTVGVGTILGSKEVLIMATGYKKSLAVYNGVEGSVNHMWTISALQLHRYGILVCDEKATMELKVKTVNYFKDIEKEFLDVDKLEKEL;locus_tag=LOCUS_22110;gene=nagB;EC_number=3.5.99.6;note=WP_008761009.1 glucosamine-6-phosphate deaminase (Bacteroides) [pid:66.3%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:4.6e-97],MGA_2213
sequence2	MetaGeneAnnotator	CDS	204269	204478	.	-	0	ID=MGA_2214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTKINTERIKKFIKIKKNSIWEEKDLITLCLLTMKKDNITKKELNYKDIKNQVKLLVKIMSELEKEIS;locus_tag=LOCUS_22120;note=MGA_2214
sequence2	MetaGeneAnnotator	CDS	204811	205917	.	-	0	ID=MGA_2215;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228038.1;translation=MAKVILKDMEKTYPNGFKAVHGHNLEIKDGEFMVFVGPSGCAKSTTLRMIAGLEEITGGTVAIGDTIVNELPPKDRGIAMVFQNYALYPHMNVYDNMAFGLKLAKTPKEEIDKRVKNAAEILGITDLLDRKPKEMSGGQRQRVAVGRAIVRDPKVFLFDEPLSNLDAQLRVHMRVEITKLHKRLKTTMIYVTHDQVEAMTMGDRICVMELGVIKQVDTPLNLYNKPENKFVAGFIGSPSMNIVEAKLEKDGDTTYVVTEHMKLRLPKEKADKVQKYVGKEVWFGIRPEHIGSHETHPNEKDNYVKSEIYVVEQMGNEVFVYFTPGKNQYIARLGSEGVTVKSGQKYELWFDTTKCHIFDKETEENISL;locus_tag=LOCUS_22130;gene=ugpC;note=WP_011228038.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Thermus thermophilus) [pid:59.0%25%2C q_cov:99.5%25%2C s_cov:97.1%25%2C Eval:1.0e-114],MGA_2215
sequence2	MetaGeneAnnotator	CDS	205983	207128	.	-	0	ID=MGA_2216;product=N-acetylglucosamine-6-phosphate deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987105.1;translation=MQAIINGKIILNNRILSNKALVFKDKIVQIVDADKLDIIFNNIDKIDAKGMYVSPGFIDVHIHGTAGKDVMDGDFDSLNVISKELVKNGVTGFLATTMTMDAKSIYKALDNIKENKDLVEGAKILGTHLEGPFISPKKAGAQAPEYIIKPSYKFIKNYVDIIKIITYAPEEDNNLEFTKEIKEKSNIVLSIGHTNANYDETMNAINSGASHITHTFNAMPPLHHREPGVLGAAFQTDVTCEIIADTIHVNKNLFNFVLKEKGSDKIVLITDAMRAACLKSGIYDLGGQEVIVDETSARLKDGTLAGSILTLNKAVRNIKKYSDADIVTSVKLATINPAKVIGLEKSKGSLDINKDADIVIFDDNINVYCTIVGGEIKYCKK;locus_tag=LOCUS_22140;gene=nagA;EC_number=3.5.1.25;note=WP_011987105.1 N-acetylglucosamine-6-phosphate deacetylase (Clostridium botulinum) [pid:57.1%25%2C q_cov:98.7%25%2C s_cov:99.5%25%2C Eval:3.8e-120],MGA_2216
sequence2	MetaGeneAnnotator	CDS	207128	208015	.	-	0	ID=MGA_2217;product=N-acetylmuramic acid 6-phosphate etherase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963499.1;translation=MSEDINRETINIDSMNSLEIVEKMNNEDKKIAFAVEYEKHNIAKSIDLITEKLSSGGKLFYVGSGTSGKLGVIDASECPPTFGVDDKMVQGIISGGKDAISGWLEQTEDNEELAISDLKKYGVTKKDVIVGISASGNTPYVISALKYAKSNGISTVGICCKKTGKIRNIVDVDISVEVGAEVIMGSTRLKSGTAQKMILNMISTGVMIRLGKVYGNLMINVQPINKKLQNRLISIVALATEINKKEAERILLKAENNPKLAIIMIENRCDLQSAKTFLEKHNNIITRKTFMNKEE;locus_tag=LOCUS_22150;gene=murQ;EC_number=4.2.1.126;note=WP_010963499.1 N-acetylmuramic acid 6-phosphate etherase (Clostridium) [pid:49.3%25%2C q_cov:96.9%25%2C s_cov:94.7%25%2C Eval:5.6e-78],MGA_2217
sequence2	MetaGeneAnnotator	CDS	208068	208799	.	-	0	ID=MGA_2218;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987106.1;translation=MKKIIKSSIIPLYYQVKEIIKNMIENEELKVGDMIPSERELCDQLEVSRMTINKAVLSLVDEGLLYREQGKGTFVSKPKEFRQLLQMRGFTEEMKLKGLSIETKILDFKTEQLEEKFKKSMGMVPELKEAIVLKRVRIVEGVPYAIETAWIPKEYCPNLTKEELEGNSLYKIFKEKYDYIPEYAKQSIKPIKIEGENAEILEVEEGELGLLFNRKTYLEDGRIIEYTKTINRSDKYNYEVILK;locus_tag=LOCUS_22160;note=WP_011987106.1 GntR family transcriptional regulator (Clostridium botulinum) [pid:48.1%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:2.7e-61],MGA_2218
sequence2	MetaGeneAnnotator	CDS	208905	210455	.	-	0	ID=MGA_2219;product=beta-N-acetylhexosaminidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963506.1;translation=MNNMSLDEKIGQLILGQLKGNELNKEMKEFIMKYRLGGYRFSGENIENLPQVTKFISDVKRFCEENSIKEPIFGADQEGGTLSVFENLLSQFPSTMALGATTDVKLAYDEGNVIGYELSNLGIDMAFAPVADLNLQKNNPVIGVRSFGDNPEKVSKFCIKFAKGLNDGGVLNSAKHFPGHGNTTADSHIGLAENSFSEKEIRDIEIKPFIKLIENGIDTIMVSHVIYKNIEKNKIPASMSKIIITDILRNELKYNGVIISDDMEMGAILKKYPIEEAVVKFLLAGGDMALVNGTKEAQIKAVEGIKEAVKLGIISEERINQSVERILKLKSKAKKLKINKKSPRKKTEEVIKDISEKALTLYSDNKKLLPIKKNLKLLLLLPESINMTEADTSGNKINKFGVYLKEKIKNVDIITYKLNENLLGDSDILKKIEKSDILIQGILNGMRFKNQIEFINNISSKIDTIAITLRDPYELKLFSKDITAIAAYSQDDITMKSLAKAITEKFEFNFILPVKI;locus_tag=LOCUS_22170;gene=nagZ;EC_number=3.2.1.52;note=WP_010963506.1 beta-N-acetylhexosaminidase (Clostridium) [pid:32.6%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:9.4e-75],MGA_2219
sequence2	MetaGeneAnnotator	CDS	210481	211347	.	-	0	ID=MGA_2220;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004112888.1;translation=MVNNTVFERIQKQITNFKLSKLIIYIVLSVWASTTILPLLWIFNNSFKASNEIINKPFAIAGKFNPVNYLNALTKVDMGRSYMNSFIMSGSVVVLVMLFGGMAAYAISRFEFRGRTIIQGALAIGLLIPGFVTVVPVYEILIKLHLVDTYFALIFPQTAGNLVFATLVLSAYMASLPKELEEAAILDGCNRWQIFSKIIVPMSKPAFATVGIFSFLWSYNDLFSSLVFVSSKKVRPICVLLNEVSSQYGTDYGLQATAVVLTVVPVLIVYLILQRQIVSGLTAGAVKG;locus_tag=LOCUS_22180;note=WP_004112888.1 carbohydrate ABC transporter permease (Gardnerella vaginalis) [pid:35.8%25%2C q_cov:93.1%25%2C s_cov:97.4%25%2C Eval:2.5e-43],MGA_2220
sequence2	MetaGeneAnnotator	CDS	211392	212153	.	-	0	ID=MGA_2221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYSLNNISPRFIGFGNYIKMFKDPAISKSIINTLIFMLASVFVQVGIGVLLAMLVDMIRAGQNFFKTVYLFPVVVSAAALGLMFNLFYGYDGGLLNSFLAIFGIGKVVWLTEKTSLLMVIIPTVWQYVGFYFVIILTAITKIPTTFYEAAHLEGANAYHRITKITLPLIFGDIKVSIMLAITGTLKVFDFVWIITQGGPFDSSQVLGTYMYDITFQRRLFGYGSSIAVLIVVLGFALTFFTNKFLKSEDITY;locus_tag=LOCUS_22190;note=WP_010973684.1 sugar ABC transporter permease (Agrobacterium tumefaciens complex) [pid:33.8%25%2C q_cov:90.9%25%2C s_cov:74.7%25%2C Eval:1.9e-33%2C partial hit],MGA_2221
sequence2	MetaGeneAnnotator	CDS	212416	213708	.	-	0	ID=MGA_2222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAIKKNVVMVMVLMFVAGVVAQGGVFDFLFKKKAEKKVPEIRIATMFGGTDPAAKVYQAALKDFEAANNVKILDESATGDDAFKTKIENDFAAGNEADLTFYFTGGMGAPLIKSGRVVPLNDLLSADTKWGNGILDSVKEQVKEPNGNIYAIPVTGFYEGLMVNTQLFEKYNLELPTDWDKFIKAVKVLKENGEVPLAIGLGKTPHYAIEYFILKAAGAKGHDSGLVNGINNFWVQGLDEIKTLYAMGAFPKDSLTTGWEAAQNLYKQGKAGMTIEGSWFVGGLPDQDHTKVLPVPAIPGTKGVNSDIIAGFTSGYYLSKRAYNDPNKKDIVLKLLKYLTTPAMIKKMATANGGVPAANVKIEGLSPAKASGNAMVAKAEHMSLPIDAQISRPAFMEIVRGVPYISVGRKDSRAVLETARNVELEAKGK;locus_tag=LOCUS_22200;note=WP_011730345.1 extracellular solute-binding protein (Mycolicibacterium smegmatis) [pid:24.0%25%2C q_cov:67.4%25%2C s_cov:65.7%25%2C Eval:1.2e-11%2C partial hit],MGA_2222
sequence2	MetaGeneAnnotator	CDS	213804	215816	.	-	0	ID=MGA_2223;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964227.1;translation=MGKSEKSIKLKKKLKRKEKNQIGFFGNLSIRKKLLIFFILVGVLPVILIGVTSYKSAKESINAKVGFFTLQMTKQLGENINFKIKKIEDLTTSVMLDKKLQKVLSKDKYIDQLDELESQNIVGQSLQDIMYSNKELNGVSILKDESHEYNLSNEKGQFNKFKDELVKAKSSEVWYAEDNNKSLYYLKALVNPSLNKFMGILVLRFDLEYFSDIFKKMDLGDGAIFKILDKNNKIIMTNNKKIKLKNILKNDFGIEDSKDYLTVYSKLSNNWKVVVEIPKKNLIKDIYKVRNMNIILGVMFILLALIILNAISKSFTVPLKKILNLMEKVKNGNMQIKSEIKSKNELGELSDGFNKMIENVRDLIENTNIVVDNVVEDSGLLRKLSEQSASSTEQISVSIKNIAEGTKSQTKLSKQGTESINILSRQIDDVNKNIAKATGNTIKAKNVGNQSIKIMEDLSSKSDESLKITGEIEKSILELSKNTKEILNMTKLIDKISEQTNLLSLNAAIEAARAGEAGKGFAVVAKEIRDLSNETKNANSLISNTANKISSEMEGMINLIKIALVNYEAQTNSVKESDVALKNIIKTTNEIIDEIDEINSLIVTVYERKEDVVSKIKEISDVSENISVSINEVSAATNEESESAVQIKDFAIDLSELMGELNSEVKKFKI;locus_tag=LOCUS_22210;note=WP_010964227.1 methyl-accepting chemotaxis protein (Clostridium) [pid:26.1%25%2C q_cov:95.8%25%2C s_cov:98.5%25%2C Eval:2.2e-58],MGA_2223
sequence2	MetaGeneAnnotator	CDS	216337	216819	.	-	0	ID=MGA_2224;product=dihydrofolate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003043263.1;translation=MSLILVAAMSKNKIIGKNGKMPWDIKEDLKKFKEITLNKTVVMGRITYESIGRKLPQRENIILTRDKNYKKYGCIIIHSFNEILEMSKTKDIYIIGGGNLYSYFIKFAEKIYLTYINKEYSGDTFFPEIKKDEWEEIENLKRYSEEEEVDYYFKVLVRKI;locus_tag=LOCUS_22220;note=WP_003043263.1 dihydrofolate reductase (Francisella tularensis) [pid:44.2%25%2C q_cov:94.4%25%2C s_cov:86.7%25%2C Eval:7.2e-32],MGA_2224
sequence2	MetaGeneAnnotator	CDS	216830	219151	.	-	0	ID=MGA_2225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRFKRTLSLDLLLKGWKDTGKDFIKEHPEYSKMANQEIEMIPDELKGEIIGREILEKYKDIIEMIMKTVFQLYKDENGIFAASYPLDFKFFYMNRLCDEIFKKTETEEEEENFKFREIHTYILILNKFYNFDFKIDDFHINKKKDIKTGKMKYFQMKLDLKYMEIRKRGELKELNKQERNRIMENLRNLEVLQEIIPPENFELYGFTIMTGRDITNQMLLGEIKKELLNTSKMFSIEYIKEIEKLLGQFLDVSDLKIGVGAIRDEKILILNPERYSKTSCIYESSSHYKKETMMKNKIAQSVFSGEELLINDINESKEKGEIIDQLKEMGLRNIYITPLFYNKKILGFLELGSSQVGKLNWINVKRLEELIYIFEIAVKDALEKFENNVTTLIKTKYTSIHPSIEWKFKESAINYLESNNEEEKEIKNIFFENVYPLFGECDIRGSSYNRNKSIKDDLTYQLNLCKEILNEIYLEKKIPIADEKTYEIDNFEKSMEEKLSSGDELKIEKFIKKEVEPFFNNNLEISEKIKNKIKNYNKLLEKGDLSKNRRNFDVSISKLNKLLSGYLEKSQNDAQRMFPHYFDKQITDGIDHSIYIGKSLAEKGEFSKIYLKNLRLWQLIVIINSAKMVDNIKNKLPIPMDITNLIIVQDMPITIYFDIDEKRFKVEGSYNIRYEIIKKRLDKAVIKGTNERLTQIGKIAIVYSQDSEKKEYLEYIDYLSAKKYLNKGDVEVLELDDLQGISGLKAIRVTINIDKKEINENLEKEIKNYFE;locus_tag=LOCUS_22230;note=MGA_2225
sequence2	MetaGeneAnnotator	CDS	219227	219433	.	+	0	ID=MGA_2226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYYFCKEKEFNIKVSTDTFKNCESGYKLIENNIENILRLEVNAKQIDKILNNLQQIVEQNLQKIFLN;locus_tag=LOCUS_22240;note=MGA_2226
sequence2	MetaGeneAnnotator	CDS	219742	220614	.	-	0	ID=MGA_2227;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015945412.1;translation=MCRINPRVDFVFKKLFGSEENKDLLQDFINSVVSEEDRVTSLELQNPYNEKNFKHDKLSVLDIKAKDQRGNWYNIEMCYPKDISTLHRKYQQGQVIDQEYYDKRALYYWSRVYSGQLHSGINYDNLKKTISINILNFRCLDEENYHNIYKIINLESKKEFIDHLEIHFIELEKYNEKYSTMLDRWVNFLKKAEKYAKNKLPKELEEVLTIKKAVELLDEMSLNDEERESYEARLKWLRDEDAAIKKAEKKGIEKGKIEIAKSLLDILDVKTISEKTGLSEEVILKLKNEN;locus_tag=LOCUS_22250;note=WP_015945412.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:34.0%25%2C q_cov:98.6%25%2C s_cov:97.6%25%2C Eval:1.0e-36],MGA_2227
sequence2	MetaGeneAnnotator	CDS	220811	221695	.	-	0	ID=MGA_2228;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015945412.1;translation=MCRINPRVDFVFKKLFGSEENKDLLQDFINSVVSEEDRVTSLELQNPYNEKNFKHDKLSVLDIKAKDQRGNWYNIEMQVIDQEYYDKRALYYWSRVYSGQLHSGINYDNLKKTISINILNFRCLDEENYHNIYKIINLESKKEFIDHLEIHFIELEKYNEKYSTMLDRWVNFLKKAEKYAKNKLPKELEEVLTIKKAVELLDEMSLNDEERESYEARLKWLRDEDAAIKKAEKKGREEGREEGREEGIKEGVKKGIEKGKIEIAKSLLDILDVKTISEKTGLSEEIILKLKNED;locus_tag=LOCUS_22260;note=WP_015945412.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:34.2%25%2C q_cov:98.6%25%2C s_cov:97.6%25%2C Eval:1.6e-37],MGA_2228
sequence2	MetaGeneAnnotator	CDS	222142	222507	.	-	0	ID=MGA_2229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITKIDLTYISIIITILIYTYFKPFDSTTHVMELIYGFVGFSYPIMKVLFKNDILFGNGLVKIILITVIPDVIAMFLISYGKEIRLETIAWYLLVTIYLIFVIFIAYVVGYFFTKSIFKQL;locus_tag=LOCUS_22270;note=MGA_2229
sequence2	MetaGeneAnnotator	CDS	222531	223118	.	-	0	ID=MGA_2230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYVDPSGHDVVLLNDSQSVNIKLLGGPQGHNAVLVGNDKTGWVYYCKNGFGPSKITGEKNDRIEYKKLSDFKSSEIGQRYDRGYRVKTSQKQDDVMKTYGDKNYNKPYDLISDPWFGGNLAENCADLAGEVAGAGGLEVSYPKLLGGTIPNKQYDNFRKSNSGTDWRDTFDYKYDSNGRQDENSYNEYYAKLGK;locus_tag=LOCUS_22280;note=MGA_2230
sequence2	MetaGeneAnnotator	CDS	223320	224033	.	-	0	ID=MGA_2231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSEEKLRYIFEQLKKGVGREELSEKMGYKNYNSFKNFVRSKGYYWEKEGKRYVKGKKREVSKIKVDDSFRAKRVLMYFQDENADPKEVAKKLDFDNYKDMSNFMKMKGYLWSSKESNFVKKEEYLNRNLEELKNLDKYIELLELLSKNYGNLEEALNLNSGKVIKKYRIPGINTIKSIQIISSLNEMAREYSRAFNITQKNIFEVALIEFFQKYGFEREIKYLLGEKTEKANNIGQ;locus_tag=LOCUS_22290;note=MGA_2231
sequence2	MetaGeneAnnotator	CDS	224045	224545	.	-	0	ID=MGA_2232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGCIEKPLLKTYFKTLYYTGLRLNECLFLEKRDINFKKELIYIRNGKGGGSRYIPMSKKLKKILLEYKENNIPEVETTRFFSTKYTGKLSNYYVVITLRKAVKKAGFFGRKITSHTFRHSFASSLVSKNVNIKIIQKLLGHSNINTTMIYLNASNEDMRKAVNEL;locus_tag=LOCUS_22300;note=WP_010867504.1 tyrosine recombinase XerA (Pyrococcus abyssi) [pid:37.7%25%2C q_cov:89.8%25%2C s_cov:51.4%25%2C Eval:5.3e-20%2C partial hit],MGA_2232
sequence2	MetaGeneAnnotator	CDS	224672	226015	.	+	0	ID=MGA_2233;product=IS3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_094396572.1;translation=MSNKIFTKKEIEILSKNKYVKTISSKAITYTSEFRRIFIAESQDKILPRAIFEKYGFDVQVLGMKRIRSAAARWRRAYKEQGVLGLDDRRKENSGRPLERELSLEEKYERLQVKNDYLQAEIDLLKKLDVREREVNGKLIELSPSEKFVIIKDVIETSGVKNIIKYLCEVAEISRTSYYNYLSETSKTNKSNQELEDEKARDLIIKAYEFKGRQKGARQIKMTLENEFATIFNLKKIRRIMKKYSIVCTIRKANPYKRIAKATKEHTTIPNKLNREFKQEIPGKILLTDITYLSYGNGQRAYLSTIKDSSTGEIPAYVLSKNIKLEIATETIRTLMENKSFKIHKDALIHSDQGVHYTSPTFQKLVKNSGLDQSMSRRGNCWDNAPQESFFGHFKDEANIKECNTFEELINEIDDYMDYYNNYRCQWGLKKMTPIKYRNHLLENKSA;locus_tag=LOCUS_22310;note=WP_094396572.1 IS3 family transposase (Bacillus cytotoxicus) [pid:59.7%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.4e-155],MGA_2233
sequence2	MetaGeneAnnotator	CDS	225972	226397	.	-	0	ID=MGA_2234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFVEAIEKWKYVLTAGMRSKATIKGHYVILRYFKNYLEEEKNSKIYVEDIKKSDVESFFKKSVEKKLESSTLSTYQIRLNSFFKYLYSNELIKEDLSKAVPKIKRINKQREYFNLYPLSSTFKKKVVKLIYFLKDDFYIL;locus_tag=LOCUS_22320;note=MGA_2234
sequence2	MetaGeneAnnotator	CDS	226547	227833	.	-	0	ID=MGA_2235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILKKSRILIQSSSKMGLNQKKAFNALLYIAKQQMDEDFDRKIFKSTYKEVKSLMTDKRINNNELLKNLESLVEIGITINILENEKFMSRRAVAVLAEVETDKDFNIEFIFPDTVRKNLYHPKMFSPLNLDFQKGMSRKHSLPIYEFCKDYIKVQIPKMELETFKFMLGITGAYNKIHDLRRKVIEPAIKEINETTDINITKYELIRNGKKMGHIKFWGEAKEGFSVSEGNGIFPGNEVEIFEEEPKGKIKIQKTLEFEELIKKIPAKEKLTLKQEKELKKLIKEYGLEHVESNLNYTNSHKYKEYYNYLRKAIKEDYAEPMRVKAAAEKERLEKEKLELDKQKAAAELKAKLREETLKFYNNMPEKERLDIEKTALEELEQLKGIKFLKNRPTIFASMKEEKIIEILSSIHQNGYNKKGLKSEATD;locus_tag=LOCUS_22330;note=MGA_2235
sequence2	MetaGeneAnnotator	CDS	228282	228416	.	-	0	ID=MGA_2236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIKSCKYFDICDDGALGCILIQDNCKYFCSPEDCPDYEPEED;locus_tag=LOCUS_22340;note=MGA_2236
sequence2	MetaGeneAnnotator	CDS	229121	229468	.	-	0	ID=MGA_2237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITKIDLMYIGIIISFIVYTDIKPLASTLLLAIYFAIIGFSYSVIRILMKNIISFEMGLIKLIIIVISPILISMLISKIPDAETAAISFFLLIFISGILAISYTLGYFIIKLFLK;locus_tag=LOCUS_22350;note=MGA_2237
sequence2	MetaGeneAnnotator	CDS	229492	230079	.	-	0	ID=MGA_2238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYVDPSGHDVVLLNDSQSVNIKLLGGPQGHNAVLVGNDKTGWVYYCKNGFGPSKITGEKNDRIEYKKLSDFKSSEIGQRYDRGYRVKTSQKQDDVMKTYGDKNYNKPYDLISDPWFGGNLAENCADLAGEVAGAGGLEVSYPKLLGGTIPNKQYDNFRKSNPGTDWRDTFDYKYDSNGRQDENSYNEYYAKLGK;locus_tag=LOCUS_22360;note=MGA_2238
sequence2	MetaGeneAnnotator	CDS	230281	230994	.	-	0	ID=MGA_2239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSEEKLRYIFEQLKKGIEREELSEKMGYKNYNSFKNFVRSKGYYWEKEGKRYVKGKKREAPKIKVDDSFRAKRVLMYFQDENADPKEVAKKLDFDNYKDMSNFMKMKGYLWSSKESNFVKKEEYLNRNLEELKNLDKYIELLELLSKNYGNLEEALNLNSGKVIKKYRIPGINTIKSIQIISSLNEMAREYSRAFNITQKNIFEVALIEFFQKYGFEREIKYLLGEKTEKANNIGV;locus_tag=LOCUS_22370;note=MGA_2239
sequence2	MetaGeneAnnotator	CDS	231006	231869	.	-	0	ID=MGA_2240;product=tyrosine recombinase XerA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867504.1;translation=MLFVEAIEKWKYVLTAGMRSKATIKGNCVILRYFKNYLEEEKNSKIYVEDIKKSDMESFFKKLVEKKLESSTLSTYQIRLNSFFKYLYSNELIKEDLSKAVPKIKRINKQREYLTQEEVEKLIGCIEKPLLKTYFKTLYYTGLRLNECLFLEKRDINFKKELIYIRNGKGGGSRYIPMSKKLKKILLEYKENNIPEVETTRFFSTKYTGKLSNYYVAITLRKAVKKAGFFGRKITSHTFRHSFASSLVSKNVNIKIIQKLLGHSNINTTMIYLNASNEDMRKAVNEL;locus_tag=LOCUS_22380;gene=xerA;note=WP_010867504.1 tyrosine recombinase XerA (Pyrococcus abyssi) [pid:31.6%25%2C q_cov:88.2%25%2C s_cov:90.9%25%2C Eval:3.4e-24],MGA_2240
sequence2	MetaGeneAnnotator	CDS	232019	233305	.	-	0	ID=MGA_2241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILKKSRILIQSSSKMGLNQKKAFNALLYIAKQQMDEDFDRKIFKSTYKEVKSLMTDKRINNNELLKNLESLVEIGITINILENEKFMSRRAVAVLAEVETDKDFNIEFIFPDTVRKNLYHPKMFSPLNLDFQKGMSRKHSLPIYEFCKDYIKVQIPKMELETFKFMLGITGAYNKIHDLRRKVIEPAIKEINETTDINITKYELIRNGKKMGHIKFWGEAKEGFSVSEGNGIFPGNEVEIFEEEPKGKIKIQKTLEFEELIKKMPAKEKLTLKQEKELKKLIKEYGLEHVESNLNYTNSHKYKEYYNYLRKAIKEDYAEPMRVKAAAEKERLEKEKLELDKQKAAAELKAKLREETLKFYNNMPEKERLDIEKTALEELEQLKGIKFLKNRPTIFASMKEEKIIEILSSIHQNGYNKKGLKSEATD;locus_tag=LOCUS_22390;note=MGA_2241
sequence2	MetaGeneAnnotator	CDS	233759	233893	.	-	0	ID=MGA_2242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIRPCKYFDICDDGALGCILIQDNCKYFISPEDCPDYEPEED;locus_tag=LOCUS_22400;note=MGA_2242
sequence2	MetaGeneAnnotator	CDS	234249	234509	.	+	0	ID=MGA_2243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRKSIVMDKELWEHLKIFKELHKKSISFIIREAVKKYLEEKTKNDLAYKMRVLTPYVDDKEQEEIKNILSNLTKEDLETGEIIEI;locus_tag=LOCUS_22410;note=MGA_2243
sequence2	MetaGeneAnnotator	CDS	234499	234777	.	+	0	ID=MGA_2244;product=type II toxin-antitoxin system RelE/ParE family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_129080272.1;translation=MKYKLKLSKKAVKFLNKHSNEKEKIINIFKEIMPNYEKALKKYDIKQLKGTLEETYRLRIGKYRVIYKIYNDILVVYVLAIGSRGDIYKNLK;locus_tag=LOCUS_22420;note=WP_129080272.1 type II toxin-antitoxin system RelE/ParE family toxin (Anaerobacillus alkaliphilus) [pid:47.6%25%2C q_cov:88.0%25%2C s_cov:88.5%25%2C Eval:1.7e-08],MGA_2244
sequence2	MetaGeneAnnotator	CDS	235296	235547	.	-	0	ID=MGA_2245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIEVEKIRNKKDFIEFVRQLRMDFKENKEEWENDTLENYLEAFQAAIEAMDNYYINNKLEIPKNVPWNIFAEILETAKYYE;locus_tag=LOCUS_22430;note=MGA_2245
sequence2	MetaGeneAnnotator	CDS	235551	236078	.	-	0	ID=MGA_2246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMGQHYLNTVTAGFKMLVENLPWVESYNDSKTASTGKDMWGEPTDRAFGVAGLALPLAGSTLKKVGNIIKKLDPSLIRFSQNSIKNTFKNGGKIEDLIAGLKNGSINPDDIPAIRVFEKDGKIYSLDNRRLKAFKDAGLDINVKRVNTNDLKIEREIKRKFKPINDGLDIKVRGE;locus_tag=LOCUS_22440;note=WP_083755909.1 RHS repeat-associated core domain-containing protein (Methanosarcina acetivorans) [pid:44.7%25%2C q_cov:58.3%25%2C s_cov:32.1%25%2C Eval:1.7e-19%2C partial hit],MGA_2246
sequence2	MetaGeneAnnotator	CDS	236325	237038	.	-	0	ID=MGA_2247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSEEKLRYIFEQLKKGIEREELSEKMGYKNYNSFKNFVRSKGYYWEKEGKRYVKGKKREAPKIKVDDSFRVKRVLMYFQDENADPKEVAKKLDFDNYKDMSNFMKMKGYLWSSKESNFVKKEEYLNRNLEELKNLDKYIELLELLSKNYGNLEEALNLNSGKVIKKYRIPGINTIKSVQIISSLNEMAREYSRAFNITQKNIFEVALIEFFQKYGFEREIKYLLGEKTEKANNIGQ;locus_tag=LOCUS_22450;note=MGA_2247
sequence2	MetaGeneAnnotator	CDS	237050	237913	.	-	0	ID=MGA_2248;product=tyrosine recombinase XerA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867504.1;translation=MLFVEAIEKWKYVLTAGMRSKATIKGNCVILRYFKNYLEEEKNSKIYVEDIKKSDMESFFKKLVEKKLESSTLSTYQIRLNSFFKYLYSNELIKEDLSKAVPKIKRINKQREYLTQEEVEKLIGCIEKPLLKTYFKTLYYTGLRLNECLFLEKRDINFKKELIYIRNGKGGGSRYIPMSKKLKKILLEYKENNIPEVETTRFFSTKYTGKLSNYYVAITLRKAVKKAGFFGRKITSHTFRHSFASSLVSKNVNIKIIQKLLGHSNINTTMIYLNASNEDMRKAVNEL;locus_tag=LOCUS_22460;gene=xerA;note=WP_010867504.1 tyrosine recombinase XerA (Pyrococcus abyssi) [pid:31.6%25%2C q_cov:88.2%25%2C s_cov:90.9%25%2C Eval:3.4e-24],MGA_2248
sequence2	MetaGeneAnnotator	CDS	238063	239349	.	-	0	ID=MGA_2249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILKKSRILIQSSSKMGLNQKKAFNALLYIAKQQMDEDFDRKIFKSTYKEVKSLMTDKRINNNELLKNLESLVEIGITINILENEKFMSRRAVAVLAEVETDKDFNIEFIFPDTVRKNLYHPKMFSPLNLDFQKGMSRKHSLPIYEFCKDYIKVQIPKMELETFKFMLGITGAYNKIHDLRRKVIEPAIKEINETTDINITKYELIRNGKKMGHIKFWGEAKEGFSVSEGNGIFPGNEVEIFEEDPKGKIKIQKTLEFEELIKKMPAKEKLTLKQEKELKKLIKEYGLEHVESNLNYTNSHKYKEYYNYLRKAIKEDYAEPMRVKAAAEKERLEKEKLELDKQKAAAELKAKLREETLKFYNNMPEKERLDIEKTALEELEQLKGIKFLKNRPTIFASMKEEKIIEILRGEHQNGYNKKGLKPAETD;locus_tag=LOCUS_22470;note=MGA_2249
sequence2	MetaGeneAnnotator	CDS	239805	239939	.	-	0	ID=MGA_2250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIRPCKYFDICDDGALGCILIQDNCKYFCSPEDCPDYEPEED;locus_tag=LOCUS_22480;note=MGA_2250
sequence2	MetaGeneAnnotator	CDS	240295	240555	.	+	0	ID=MGA_2251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRKSIVMDKELWEHLKIFKELHKKSISFIIREAVKKYLEEKTKNDLAYKMRVLTPYVDDKEQEEIKNILSNLTKEDLETGEIIEI;locus_tag=LOCUS_22490;note=MGA_2251
sequence2	MetaGeneAnnotator	CDS	240545	240823	.	+	0	ID=MGA_2252;product=type II toxin-antitoxin system RelE/ParE family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_129080272.1;translation=MKYKLKLSKKAVKFLNKHSNEKKKIINIFKEIMPNYEKALKKYDIKQLKGTLEETYRLRIGKYRVIYKIYNDILVVYVLAIGSRGDIYKNLK;locus_tag=LOCUS_22500;note=WP_129080272.1 type II toxin-antitoxin system RelE/ParE family toxin (Anaerobacillus alkaliphilus) [pid:46.3%25%2C q_cov:88.0%25%2C s_cov:88.5%25%2C Eval:4.9e-08],MGA_2252
sequence2	MetaGeneAnnotator	CDS	241327	241518	.	-	0	ID=MGA_2253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNKNDINLTKAILKEELKIDIDDNKLLEKTKKILKITYSIGGDFGEGTIRKVVKTCIEESII;locus_tag=LOCUS_22510;note=MGA_2253
sequence2	MetaGeneAnnotator	CDS	241538	244141	.	-	0	ID=MGA_2254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRPPNDNLQFQCTFSGKKISFKELLTKVNNAEDIIKKLSSNEHISNKEKIDWITGFRKIKTIINARDVKTIYYYDSLERLIKVEIPTEKIYIKYYYDLLGNIIKILTPRGSIVKQYNKRGELIKEIGKLNSEVLKGINKAEQGKIDEGDLYNIEIKGKTNIYKYDYLGNIIYKKDKKLQEFYYTYDSYNRLQYVYKNKIEEDNKIKEYKYYDDGSIKEVINSLEKESLNYKYYNDGSLKELVYPDGKSVKYEYNKNGNIKKVTDITNKYYKYIYDTRNRLWKIYDNNETDEKIEYQYYMNNKLEKLEEKKDKKTIYSEEYTYDIGNLMTLQGTLNEKKSLDYTYDYDKVGNLTTEINNISNQKNIYMYDGVNRLIRNLKINNGNDSIDRGYTYTTSGNISMEKYKVKVNNNWNETGGLWYNYNEDDELINITKWKGVKSNNNIWECKKEKNSFEYDDNGNLLNKSINGEKTEAYKYNIENRLTKYNDIKRGITGIYKYYPTNQRKSKAVNGLETKFYYSNNKIINDISNGEIKRNLFGLRGIIGREINGKNYGYLKNSHGDTLKLFDSSGTIKNNYEYDKYGKELKIEEDIKNPFRYSGEYTDEESGLQYLRARYYSPEIRRFISRDTYKGDIKEPLSLNLYGYSKGNPIRYVDPSGHDAADIIYTFADFSAGMGDTLSFGLTYHIRELMGTNSSVNFNSGAYNFGEFSAFALGMGMENAGAFDRAKSYNAELKNITKPKADFYVKSNGDVIPSTGYRYVSKDATYLEEMQNSMKIPSNTNGTYFSFEKYDIPSPGKLQVPHDASIRASFDTLQLLDDIRIPYGKWNTTNYLEPLTKDFPKFGEGGATQAITNMSIHLDDIEILK;locus_tag=LOCUS_22520;note=WP_006037763.1 RHS repeat-associated core domain-containing protein (Paenibacillus curdlanolyticus) [pid:27.3%25%2C q_cov:70.4%25%2C s_cov:33.7%25%2C Eval:6.6e-50%2C partial hit],MGA_2254
sequence2	MetaGeneAnnotator	CDS	244314	244631	.	-	0	ID=MGA_2255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGTKTKFNNAVEKKKMKVINMIDELEIRINKEILKIKREDNSSELIPSQNELERILAELEKMKTKMSPKLFLPSYTRNIVDSWDIYSELGSALLKLARKYNELI;locus_tag=LOCUS_22530;note=MGA_2255
sequence2	MetaGeneAnnotator	CDS	244595	251767	.	-	0	ID=MGA_2256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIIVLGILVLSLISFGKTDNCIKIHYKANQKQLFIQERGTNGWLPKKEMIKSYLYGGYDYTIVKGNKSQFKITDGVGKNEEYYINNSGEYIIENGIVSQMTSSLIQIHYKSNKNNVYIKYSLDGKKWIEKLILMHSSLIYEGYKEITIPANYMEFKIGYETASYKINSAGVYKLENKNLEFVTKVVSSKEKFIALYFQTEKYNVINYNSDNRGWEKKKIVDSKLKQGYKYTIFPYTTSINFYFENTNNIENNKSSNYYIDLPGVYKLDKNFNIEKIDISKNKYENFYSIKSKVKKSIQLEEINKFKNTILLEKISDNIFKVKILNKDLYYINLGKEIFNKAQLLDKDYNLLKEISIKKDEVNGNYRSRNILLMPGEYYIKTINIKNISKIFSEIFNLLTFTQKTYAEEFSVNDNVKLEKVDGWKEVIDYKVEPGEDKNYIHKKIGYNLELGFLTDAKKDISIKFINSTGPSYEKEFKAYKAKNEMYIVKILGVTYREITENNGNIKEINGKNPLEFEVYINGKLQKTYKLDIIGLLSKQKPIIKYPYNNEYNGSLNYLGIGQDNNYIFENRYKYDIDNDNIIDNLKEKNLLLDMGNEVGKYLVKSSEIKKENIVKRIEMSKNVALESSPTVELSKKATIYYLSDWENVYMKVDSDKVPPIKLEKSILYGKIYNKIEIKFEEPLILKFTNNKGDYDKNYEITESGKYIIENGNIKKEIITRGSAENVSNDDNFLNSVANTLTKYKNKADINLVTGDFNYKITDLNLPGKNNLNLKIETIYSTSFYDIEGKFKIGSGWRICFPEIILGYSKFGNNKNKKDILMLSNGSRIEIDNNKLKDHKLNNIKLKKEGNKYYLMNMITGITYVFDNTGKLNFIENRFKDKIIFIYKTNKIIIEDTYKNKIIITNKNNKVTIELPTNKNIEYIKRKGEILTRVDQKNRKTSFDYLKYSIKDEIKREQYQKLLGLLKGNETNVPDDKKEISFSYLNKITENSGKIIKLEYEQFEEKYGRRHDVIYSLCPPPFFYVEDHFELHARKIYYRLKNKIIYKSDDKFKKNEFEFKLIYNYDSQFKNGGYLLAGMKEENYNYDNYDKEKYWFTTTETNSKTNLKTTYLYNWKRLKTNEIKWIDKDKNGQGSDIEKIQCIWYEDYFKDVYPTKVTKSNFYLGKQNNSEIQYYRYYDNGNKKKSVHMDELDYYDRVDKFEYYSTSEGNHFWELPKSIKVGYSGSYDIEKADDSKDLVINKQMDFELTENKKNIGLKIIHNFDADNNPNNIYEKYNYYDDGRLKEISKWDFDRYVAGKESNYKERYEYNDNVNIVTPWNQTYNGYSITKNIYEKDYTGKENIIKSVSNYRKETGNLILLEQLSNNSGDNSKIYKQYDELDRLRYIYNSGDKIFDKEIKYDDTQREIIMEKKAEYANDGIYKVKLKYDIYDNIKEILEYKNNEWNKIKGYEYDEIGRLNSESDAEDNKIIYKYDELNRNTKIIYPKTNNGIIPEKRIKYLDSQYKFNRVKVNIDEEGNHNWNVYDNNDNLQFQCTFSGKKISFEELLTKVNNAEDIIKKLSSNEHISNKEKIDWIAGFRKIKTIINARDVKTIYYYDSLERLIKVEIPTEKIYIKYYYDLLGNIIKILTPKGSIVKQYNKRGELIKEIGKLNSEVLKGINKAEQGKIDEGDLYNIEIKGKTNIYKYDYLGNIIYKKDKKLQEFYYTYDSYNRLQYVYKNKIEEDNKIKEYKYYDDGSIKEVINSLEKESLNYKYYNDGSLKELVYPDGKSVKYEYNKNGNIKKVTDITNKYYKYIYDTRNRLWKIYDNNETDEKIEYQYYMNNKLEKLEEKKDKKTIYSEEYTYDIGNLMTLQGTLNEKKSLDYTYDYDKVGNLTTEINNISNQKNIYMYDGVNRLIRNLKINNGNDSIDRGYTYTTSGNISMEKYKVKVNNNWNETGGLWYNYNEDDELINITKWKGVKSNNNIWECKKEKNSFEYDDNGNLRNKSINGEKTEAYEYNIENRLTKYNDIKRGITGIYKYYPTNQRKSKAVNGLETKFYYSNNKIINDISNGEIKRNLFGLRGIIGREINGKNYSYLKNSHGDTLKLFDSSGTIKNNYEYDKYGKELKIEEDITNPFRYSGEYTDEESGLQYLRARYYSPEIRRFISRDTYNGDIKEPLSLNLYGYSKGNPISYVDPTGNSAEYGFLGTKAGEYASEYWANKYIDTDNSLYLMPLFLSSMWTRDTYDKTALTLLGGYAAQMFLLPTVAAESGELITKDSYAGVKQASKYLQNIGVGREQRINILQSFKEGTINMKTADTATYGLRFHDFGEKAYKSGSYLFPTFTNLTNRYGLALPPNWNLMTGLQQWQVQAGTQIITGKAASQLNYGLQYTGGEMQWWVQRQNLIMP;locus_tag=LOCUS_22540;note=WP_006037763.1 RHS repeat-associated core domain-containing protein (Paenibacillus curdlanolyticus) [pid:25.3%25%2C q_cov:32.4%25%2C s_cov:42.2%25%2C Eval:5.1e-50%2C partial hit],MGA_2256
sequence2	MetaGeneAnnotator	CDS	251783	253183	.	-	0	ID=MGA_2257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKGKYFRLIIFISMSWTVFSQVNFEILTPLPLSERLTLLKRKLLLVNLLDDTRKYYKADETITINSGKISKPNGEVLLKAGETVRIKGEFKVEKGAYLKVITGNQIAPIHHIKLSDKADGKVKADGLEVEYISFDVYSWEKEQVAPGVPVYVDKTIPYEEIKSRVKIYDILPSGKTINIELPQLYYRTVYPGTHKLYVMIDGVKSNEITIEATALNGLNSLVVKDKTYPTIEIEWNKLNEADEYKITIENNGKIIKQTTNKGVTGYGFYMSEIRDNKEYKVKVQAYNKNKELLKEKEVTFNLELEKPINFKDDGVDGNSIYLSWKKSIYPEGTKYEIEWRESNSTEYKNKKTVKKENILIDNLKLNTNYNVRIRAVYGNISSEYIEKSVKTLSKKLNFRISQMDNVNFEKSNIKLEWENIDESTGYYIYMSTNGIDYKILGSTTDNYYIDNDVSENRWYKIIVRK;locus_tag=LOCUS_22550;note=MGA_2257
sequence2	MetaGeneAnnotator	CDS	253212	254930	.	-	0	ID=MGA_2258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNMEKINNIKNKLIILFLILFLSGCFLNEKLKIDKVELIINKKLIKANGVDKVILTGIVKNKYGDILTNYHINYYVNGQKIENNFFSTDKSGKYILECEVEEIRSKSIEVEFDKPPVLNMLGKRENNIINLLGNILDIDGKIKKFQIDWENDGEIDEEIDENFLMLNLNHSYNLGDKTIELKIIAFDDKGLSTVKTYIFFYNKHFENVIKAKLDIPENRNIYYEDLKQIKNLLIYKFDLIEELKYFTNLKTLYIESVENKTLIKFIIPKLDYLNDLTIENCRISDFSFLKNIKNLERLNLEKDDIENFNVDKYIKNLKELDIMHNKINNIEKAGNLKKLEKLYLPYLENKDFEFIKKLNNLKELYLIGDDIEDISFLGNLKHLEKLDLSENSIKNILPLADMVNLKELNLEGNLLEDISSIENLTKLEKLYLSGNQLKDISKLDKLTALKILDLKFNEIIKLDGLDDLKNLEELIISNNKIDNLFPIVNLMNLRNLKCSYNKIKEISYLHNMTNLENLYADNNLITDLRVMLELNSLKYLNIKNNPIYGNAQINNYKIILELEKRLDTFEY;locus_tag=LOCUS_22560;note=WP_010989462.1 class 1 internalin InlA (Listeria monocytogenes) [pid:32.5%25%2C q_cov:50.5%25%2C s_cov:36.4%25%2C Eval:1.0e-32%2C partial hit],MGA_2258
sequence2	MetaGeneAnnotator	CDS	254908	255915	.	-	0	ID=MGA_2259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIGFMLLITVLVLNGCIKQYSYNKVEERNKIKSKVIKTGKISEREREILIYGKIIFTRNIDSKKKIKRNIDSKPDIVYDENYFPDFTKNGEYIPPIMDYKNSEKGLCYAIAASRYTTEYNKIIPWADEKIRKQIYRENLENMGYEIKITRNISKTKKTVFKTNLKNSLSDGIKWVHRGFPNLNNDGSEIVPDGYLVYKGVILLNEEKWPKRYMAAPYYTLVENIDVRKQSKNQYINYCEETTKIIYTKNLNDSISKLERKGVFTEDSLVVYYVIPYKKGENWWENIPLEDYNNNWIQSEMFVAWIGSESKDLDMLNKYYTKNIGYYVKYGED;locus_tag=LOCUS_22570;note=MGA_2259
sequence2	MetaGeneAnnotator	CDS	255929	257116	.	-	0	ID=MGA_2260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIVLVILIVISSIISFGADLTGTTLTTPEIRVFNVGGDFDKFYPVLWRNTNWTNGATELEITRADTHVNSSWRGTIIAKFRFHTTNWGHGSAFIDADIRNSGNRFVAGWKDVTGNNSSSCILIWLRGGGTTYRYRSNNDMINVPKVYLDENGYPQEEGHHKDWITYHKPKTSVDSYVNSNGMSYSGNASFNGNVGIGTANPKAALHLYKDRYTLYGPNSSWGEYLQVGGNGRVTSYASVAATNGNLHLDAKNGNFSTYINWYSKNRTIINGRGGNVLIGKSNDTGQKLQVEGSASINGTLHTSELVVTQNVWADYVFENNYKLRPLEEVAKFVKSNKHLPDIPSEKEVKSKGVSVGDMQAKLLQKVEELTLYMIELKKENEDMKNEIAKLKNK;locus_tag=LOCUS_22580;note=WP_090662474.1 hypothetical protein (Parafilimonas terrae) [pid:30.0%25%2C q_cov:62.8%25%2C s_cov:70.7%25%2C Eval:4.6e-23%2C partial hit],MGA_2260
sequence2	MetaGeneAnnotator	CDS	257135	258547	.	-	0	ID=MGA_2261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIMYIIILLNFANIIMANETVPYNLINNGFMNELNSDGKTPKGYSTTGMTIEAVHPYTKAFEGPYVATSPANATKDVESATKTTPYWFRRYYKGPRISRGGLGDGWNGRGDGHILKVTGNVSKDARGYQIVRLPYVGPVVNGGKIHFSVWIKIVKGDYVCFGTDAGYDNGSGSIRRGTTIYKTTTDKGAQGWYKWEFNTTISETTRLGGNQCSLGFEAVGNDGPIEIYLALPYARLINNGKSWMPSAEDIVNNRLKGNVGIGTSNPRAKLDIQGKVLINTDKVNVDIFNVKGENGGQYFRVLNGDSGIGITDKDWTNTLILSNKKTYNEIYSNAGKPISIQSQKGGNVLIGTTSNKNNYKLAVEGTIGAREIVVTQDKWYDNVFEKSYKLKPLEEVSNYVKENKHLPDIPSEKEVKSKGVSVGDMQAKLLQKVEELTLYVIELKKENEDLRKNQNKMKEKINKLEKK;locus_tag=LOCUS_22590;note=WP_090662474.1 hypothetical protein (Parafilimonas terrae) [pid:33.0%25%2C q_cov:42.3%25%2C s_cov:55.4%25%2C Eval:1.8e-21%2C partial hit],MGA_2261
sequence2	MetaGeneAnnotator	CDS	258560	259555	.	-	0	ID=MGA_2262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKILVIILLLINTLFIFGDTINGTLQVKGYKNYYVNYKIANNSHSFGDPSNFYILLHKAYDGKLMNNYYVMGKISAIRGDKHSWNRKVLIEVNTATAYNTNRGFVKSRFEDWKLVTVRYKGDKYIALRANIRSTLYAIEFTGWAYVSDGELLKPVLGGNATWPNGKKISVKPGEQITEEKEFFTETENIYGNEIIKGSASINGNVLIGKANDTGQKLQVEGSVSINGTLHTSELVVIQNVWADYVFENNYKLRPLEEVAKFVKVNKHLPDVPSEKEVKSKGVSVGDMQAKLLQKVEELTLYMIEQDKKINLLNEKNEILEKKLEKLEVKK;locus_tag=LOCUS_22600;note=WP_011964396.1 hypothetical protein (Flavobacterium psychrophilum) [pid:44.5%25%2C q_cov:31.7%25%2C s_cov:33.0%25%2C Eval:1.5e-18%2C partial hit],MGA_2262
sequence2	MetaGeneAnnotator	CDS	259570	260451	.	-	0	ID=MGA_2263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVIFISFILSVVCFATEPVKVGTTFIGYGTSNTNSKFVGNLPYSSSSDYQKLMIKVFGGSWINTTLGETTYYISSREGLKVNREIHGGGGYRYFNLEIYDNGNSYDVVVTNNNEPYPFFTIEAFYADSTGLKTVEIKDYNKSNKKKMNFSINTIYATDNVGNVGIGTTTPSAKLDVNGNAKIKGTLTTNEIIVTQTIAATDLRLSETPWADYVFEDNYKLRTLNEVAKFVKVNKRLPDIPSEKEVKSKGVSVGDMQAKLLQKVEELTLYMIELKKENEYLKERINKLEKK;locus_tag=LOCUS_22610;note=WP_011964396.1 hypothetical protein (Flavobacterium psychrophilum) [pid:45.0%25%2C q_cov:44.0%25%2C s_cov:37.2%25%2C Eval:3.5e-24%2C partial hit],MGA_2263
sequence2	MetaGeneAnnotator	CDS	260460	261605	.	-	0	ID=MGA_2264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964396.1;translation=MRKVLIGIIMVMVGIVSFGGEVMENLVINNELDLTRSKITPLDFTPRGDTHTWRLTTYGNEYGKRFDFIFSESVTMKSLNVLTLRENGNVGIGTSNPSEKLEVNGNIKLNGEYKKLIFKDNSNLAGDSYITGDDGYSKKLFLYHSRFIRLSNVRDQESGLTLMDSKVGIGVERPKRILHIKKKGSVDVLLEADGAGAFARHMFKTKDNGYGWNVGMRSDAGMDGGYSIEGNYNGWRSRLFIKRSGEVGIGTTTPSAKLDVNGNAKIKGTLTTNEIIVTQTIAATDLRLSETPWADFVFEDNYKLRTLNEVAKFVKVNKHLPDIPSEKEVKSKGVSVGDMQAKLLQKIEELTLYMIEQDKKNIEQTKEINMLKNKIKNLERR;locus_tag=LOCUS_22620;note=WP_011964396.1 hypothetical protein (Flavobacterium psychrophilum) [pid:31.9%25%2C q_cov:76.4%25%2C s_cov:82.9%25%2C Eval:9.6e-31],MGA_2264
sequence2	MetaGeneAnnotator	CDS	261646	263406	.	-	0	ID=MGA_2265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLMFIIFMIIMYTNIVFAQEKLINISVLGAEAKDVFVLLTKQSGMNIISSPEIHGKISLNLENVTLKNTLSILEKVYNYEIIKITDNTFYVKRKVIPKNMAEISINGNKLSYSIYDVDIREVAKELTEKAGLNIVVDNNVKGNISGRVRDVDIDSGLVVLFETNGYSIMKDRGIYKITSGISRARIPSKLKISYNKGKVSIDAENENVIKILKKISTIAGLNMMILTSGVESISLKLENANLNEVINILLEGANYTYKIENKIYIITRKNSMGVGNDIFNSTELIKLKFIQAEKVPSLLPNDFSVANIKVISNQNALLFSGTDKDMSKLKSYIKKLDEKVPQIKIEALIVEISKNKNNTQKLGLQLEGVTTRGKKLNVFDTNSGEFTYENATKLNDVFYTKLQLLIQQGLAKIKAKPSITTINGEKAVINVGTVQYYKVVTLDNEGKEKIDYKSVNAGVTLDVTPWINSTGDISLKLNPTISNIGGAAPAEGPPTVSKREAKTTVRVKDGETIVIGGLEQNVITEKESGIPILKDIPLLGELFKTKSRDSNQTELLIYITPRIVEDGETIKMARDMSELIKKAQ;locus_tag=LOCUS_22630;note=WP_012583398.1 AMIN domain-containing protein (Dictyoglomus turgidum) [pid:26.0%25%2C q_cov:92.7%25%2C s_cov:36.7%25%2C Eval:8.5e-43%2C partial hit],MGA_2265
sequence2	MetaGeneAnnotator	CDS	263403	263948	.	-	0	ID=MGA_2266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLQKREKIMMLITIIIIISVSYVKWYLLPLIDENRRLGMKIEKTLAESKLVRNDIGNYISYKKQKENIENDEVDISKKIFNDNIKNVQFNIMDKINKESIKDNLKIKNKSINIEEIKKVGITKISFHILLEGEYENTITFLETFSYEKKMYIEALEIKKKTDILMTNIILIAYIKGGKR;locus_tag=LOCUS_22640;note=MGA_2266
sequence2	MetaGeneAnnotator	CDS	263941	265035	.	-	0	ID=MGA_2267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENCYVISFRDIHICFFSNNEKKTFEGIEELNRYLSENYKKVNIQWFITPDYVIYKQITILKKLKSRINNMIEMNVLNNLLFPREDVNYKYTISKKDNNLNLKIFIVEKRKFKMKFDKRVNIGGIYPLTEILFTNEKRLIYRLENKYVYKEKDIELYKTEDKRELFESDGDVYNLDSYEKIDKLRKKAGKKLNKLNFLISVKDINKSRIIFKYASIFMVTIIFIMYNTKLIYMNQNYKNSLLKLKSINEKLKKPEGNIMEMKKYLKSKTKEVEKLKELVSVFESKSYIKWLAVIADVSDSTTEIDRITFQKNKLQGISGKSKNASEFLKKLEQSKKFLKLKFRGSIITEKQKERFRIEGELVE;locus_tag=LOCUS_22650;note=MGA_2267
sequence2	MetaGeneAnnotator	CDS	265062	265568	.	-	0	ID=MGA_2268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEKGFTLIELLIAISISSLVIYSAIAFLSIINKSLNMKTEKLIGTEDKIVEILKYNLRNINSTMDFKGKYNEMEFDRILKNEEKHIKIFFNGYKLIIKENKKEFDLTEEEEYARVEFIYIGLNGEWKSEWDFLKEKKMPKVITIRFFKKSNKIITKNISIYLMRDL;locus_tag=LOCUS_22660;note=MGA_2268
sequence2	MetaGeneAnnotator	CDS	265558	265929	.	-	0	ID=MGA_2269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNRGFTLIEVLVAAAILAMSVPSFISLTIKLSNNNINYIVKSKVHKLGANKLEEINDKISYGLNGVDDINRIEINWNITEERIENNLIKRTFRANYKIKGIEKHDILSAIFNQEEAKKNEN;locus_tag=LOCUS_22670;note=MGA_2269
sequence2	MetaGeneAnnotator	CDS	265919	266347	.	-	0	ID=MGA_2270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILQTGKKEKGFTFIEMIIVVVILSLILTITINNMQRYDKSMNRKLILKGVEEKFQYFKDKAIIEKKDIEIKDIRELISEKKIISVKWDENNMNFNNESDNGSNKIIFNKYGKVLGENVEIKTSYGTLNIEIQEETGEVNVE;locus_tag=LOCUS_22680;note=MGA_2270
sequence2	MetaGeneAnnotator	CDS	266328	266756	.	-	0	ID=MGA_2271;product=type II secretion system major pseudopilin GspG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880232.1;translation=MNKKKENGFTLIEIIIVVVIIGFLAATIGPNLFNRVSQAEKVTTKNQIKIIQMALDNYWLDNKNYPTTEQGLRALTEKPITYPIAGNWNGPYLEKKEIPKDAWGNKFEYRSPGYNNPEKYDIWSNGEDGIEGGKDSDDITNW;locus_tag=LOCUS_22690;gene=gspG;note=WP_010880232.1 type II secretion system major pseudopilin GspG (Aquifex aeolicus) [pid:51.9%25%2C q_cov:95.1%25%2C s_cov:96.2%25%2C Eval:1.6e-28],MGA_2271
sequence2	MetaGeneAnnotator	CDS	266909	268102	.	-	0	ID=MGA_2272;product=type II secretion system F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546785.1;translation=MSLYKYKGYNKKGEKVEGTVESTNEQQALNDLNRKEITIYEIKEEIATIFSKRASLKDIYIFTKNMNTLLKSGMNLGESLETATNLTKNKYARKVYDAIYEKVRKGESFSIALSSYPGYFDQRYISMIKAGEEGGFIKAVFEELKKTIYEKMNFRKFIISTLTYPVILIFVGIISVAVMFGYVLPRFKQIYDNYGQKLPKITSVIIDLVNLFEKNIISIFAVSMIFIVLSYIFFNSEFLKRKVYKYLLIIPFVNKSYRKFFLYNFSSMMSGLLNSKVSLIKSLEISKTLTKNQYLKNEVEKIITKVVNGNKLSESLNGNFLYDNLFFQLLKVGENSGDLGLSFADLSDTLNDELKSNIAIFSKVFEPLVIIIIGIIFGVLIYAMLIPIINLAGIEKL;locus_tag=LOCUS_22700;note=WP_012546785.1 type II secretion system F family protein (Thermodesulfovibrio) [pid:26.7%25%2C q_cov:97.5%25%2C s_cov:96.8%25%2C Eval:5.4e-40],MGA_2272
sequence2	MetaGeneAnnotator	CDS	268111	269517	.	-	0	ID=MGA_2273;product=GspE/PulE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880955.1;translation=MRNIEKIIKKYNLIIKEKDKNSIIFFSKLNHNAQVIHEIEVFLGKKVKIEKLENEEFIKLDYEKEEWKSDILGEVDITGFKSFLENENIKNVEDIEEMANEAPIINLVNMIIANAVKRDSSDIHIEPFEQGVVVRYRVDGVLINIGILPLYIAPALVTRIKIMASLDIAERRIPQDGRIRIKIFSREVDIRVAIAPIINGENITLRILDKKKSLLKLENIGFDTYNLKKYYEILKNTTGIILVTGPTGSGKTTTLYATLNYLNASEKKIITIEDPIEYQISGVNQMQVKPEINFTFANGLRSILRQDPDIIMIGEIRDTETAKIAVQAALTGHLVLATLHTNDAPSSIMRLKDLGVEDYLLAASLKGIIAQRLVRKICPDCKEEKKLKDESHKRCITCNDIGYVGRLGLFEVMNITDDIKRMISEKRELQDIIKESKKNGMRTIFEDGEKKIEDGITTIEEVIRVTSG;locus_tag=LOCUS_22710;note=WP_010880955.1 GspE/PulE family protein (Aquifex aeolicus) [pid:44.2%25%2C q_cov:98.7%25%2C s_cov:99.6%25%2C Eval:1.1e-111],MGA_2273
sequence2	MetaGeneAnnotator	CDS	269517	270044	.	-	0	ID=MGA_2274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFKVLLYALILCGVYVSYDMWSETKNSGIDIIKGEELENRISLMKYEKDKRKQKTIENKNKNKYMDKKQEDIGKYIVKLHSKKLFSLSKKKDEKGLKEKSFIRAPELNGVKLVGIINEKENNKVLIIIHDENKIFKEGDIVYGKWKLSQINLDSIIVKNENFFKTIKFKKRVGN;locus_tag=LOCUS_22720;note=MGA_2274
sequence2	MetaGeneAnnotator	CDS	270193	271149	.	+	0	ID=MGA_2275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTKNRGFILIFILWIISIISLITSYLITNYSFNRKNSFNYINHTDSDMAIISGFNKAISILKNDETKYDFKSDNWNNLFSDKLNNFVYHVKISDVGSLLNINFYSRSDINKNSSKYIPNMILNSNGSDSKYFDVYSKFNFYLYSIKTLEKKLTYDKFNFEEINNIITTFDENFKIKSFNINVTNVINSLNLTAEKKELFTNYFMTVGSLNINILTKEQLNFIFNICKSKEFRNYKSDIIEYMNNNSIDKISSIFDNNIVPKNLEHVFRNIFNTSSNIFSIKISNNNNKILARIVVKRNFKEKKESTFSVLSWNEYFD;locus_tag=LOCUS_22730;note=MGA_2275
sequence2	MetaGeneAnnotator	CDS	271559	271684	.	-	0	ID=MGA_2276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALVGEKIIGLFILDTIKNVNGRIVDLSCFSNFIALGTFKK;locus_tag=LOCUS_22740;note=MGA_2276
sequence2	MetaGeneAnnotator	CDS	272526	273428	.	-	0	ID=MGA_2277;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000442797.1;translation=MKRVKISEDLSISRIIHGYWRLNDWDLSKEEVLSLIKKDIDSGITTFDHADIYGGYSVERKFGDIISMDPRIRDKIEIITKCGIQLKADNRPNNWINHYDTSKKHIIESVKKSLRNFRTNYIDILLIHRPDPFMNPEEVAEAFLELKKAGKVREFGVSNFLPSQVNMLQSYLDFPITVNQVEISALQVEQFYNGTIENCFEKRITPLAWSPLAGGEIFKGNSEKVVRVRKTLEKIAKEHNISGIDVVMYSWLLMHPAKIVPIVGSSKWDRIRAAMYALEIKLSRQEWFEILEAANGNQIP;locus_tag=LOCUS_22750;note=WP_000442797.1 aldo/keto reductase (Bacillus thuringiensis) [pid:58.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-105],MGA_2277
sequence2	MetaGeneAnnotator	CDS	273686	276013	.	-	0	ID=MGA_2278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVVILLISVLMFVGCANTPKKINNRNMNKVNKKKVKKVDYFAKNITNLKAISENRKVKLVWDLKDTKDIKNIKVSYKQDVAKIWKTILLPADSKEIEISIHPLFMLSFKVQLISKDGKISRGRKVNKAANLKNVILDDMSFLSDWRLQIYLPDNYNSSNKRYPVIYMGDGQNMFYNKTASNLVKGEWKVDEALDKLKKEKKIKDLIVVALVSNGAPGRFPDDNVFVKNIVPYVDKHYKTLANRENRGVMGSSGGATFSLRMGYRYENMFSMIGLLSLPPFKWNADLIKNSSKKDLKIWLSVGTAEMGSDFYTKGDRNMLDEFLDKGYKLGKDIIYYESKDSNHDEIEWSKIIEYPFVLFFGEKQNKIKQMKTQFEFLEGGSHWCLINPMVDIDNGLKYSLYNLAKYEIVGDGGGAKIDSKGNFSFGNKDRVKIRITYNEKINDIEVDYNKIKDRAGKGIKTKIFHNGVHVENLDIRKFEGVDYISFESASVLFNELLFSEIKYKKDGVNLIGKVRDKIVFKTDIEQNRLKIKNRDINFNNYGISYEKTTDKTFIPLFIVQNELLKHNILFIIDRLPYILNYKLIKETNVEITRDILNNYGNITQNNLTEKSKLSIYRTIINLLKSQNSGIDSEFIKKYEREVINSKSSNDFFEIINKIIDIKDGNFSITKYKEPFSKGQEYMFGLVKGKMVIRALGRTVLKLGNTDIYEMKVYKDYLKDHNKEKFLKKMRKMLITDRVSRLITDKKGKIGENNDILFLADGSIIFKSNKVRVE;locus_tag=LOCUS_22760;note=WP_011249477.1 alpha/beta hydrolase-fold protein (Thermococcus kodakarensis) [pid:32.5%25%2C q_cov:26.5%25%2C s_cov:48.8%25%2C Eval:2.0e-21%2C partial hit],MGA_2278
sequence2	MetaGeneAnnotator	CDS	276112	277854	.	-	0	ID=MGA_2279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVILLIGILMFLGCANNSKKVKSHKIKKYDLKRTNLKKDVRFFKEEVFNLKAISEDGKVKLSWNLKNLKNLKNIKISYKEENKKHWQHQQNIGLKNMIEIKVPSLTMMKFRVQLISKQNRISKGKIIKKAANAKNVILDNISTIHNWRAQIYLPDNYNNSKKRYPVVYLGDGNNIFSTVTSLSPIKAEWKVDEMLERLKVEKKIEDLIVVAIVPYNTRERFPDENLFVDEILPYIDNNYRTIANRENRAIMGSSGGASYSLEIGYKYNNLFSMIGLLSLPCFESNIDLIKNSPKKNLKIWLSVGTDEMESDSYLKFDRRALDMFLKKGYKLGKDIVYYELKDGRHNEKAWGDIIEYPFIFFKGKKAKKIKKMGIQLELINSKSHWLLLNPQITLDNGLKYSLYNSAKYKIIENGKGGEVNSKGNFIFGNRDKTNVEITYKDKISKIEIDYNEFKEKLEKGIYTTIKFKNKNGKFTIKGLYLDIRRVDNMDYINFKSALKLVKEVTYPNIKYIEKDNSIEGITNNKKIFIIDIQNNILSIRDKNNNFKNYNTSYKKIRDSSFMKLNLFKSIFLASRKI;locus_tag=LOCUS_22770;note=WP_026138735.1 alpha/beta hydrolase (Deinococcus wulumuqiensis) [pid:27.3%25%2C q_cov:34.3%25%2C s_cov:72.4%25%2C Eval:2.7e-09%2C partial hit],MGA_2279
sequence2	MetaGeneAnnotator	CDS	278146	278334	.	-	0	ID=MGA_2280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLLISFIISTIGLGYFMYGKKSYNSMFLVIGIILMAYPYFIQNIMWMLIVGVILAIIPFKI;locus_tag=LOCUS_22780;note=MGA_2280
sequence2	MetaGeneAnnotator	CDS	278394	282743	.	-	0	ID=MGA_2281;product=acyl-CoA dehydratase activase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965697.1;translation=MNNYWLGIDVGSTTVKTVVLDPITKKIVYSKYLRHNAKQSETILELLKEIDKKYKNSNFEIAVCGSGGSFIADYTGLFFVQEVVANAIAIGNYYPNARTAIELGGQDAKVIFFHHDEKTDKLIASDMRMNGSCAGGTGAFIDQIAEILNVGVEEFNDLAKKSTTLYDISGRCGVFAKTDIQPLLNQGVPKSDIALSSFHAIAKQTIGGLAQGAEIVKPVIFEGGPLTFNTELISVFKERLGLNENEIIIPENPEIIVAAGAALSIGTIFEDKKEIHNLSEIIKKLSEYKKNYKYKVEKNENFFESTKEEEEFFKRHKVEKFEPKQYNKGENINIYIGIDAGSTTSKFVLIDEDENIINKFYSNNAGEPIDVVKNGLLEIKDYYDKMGVNLTVKGVGTTGYGELLFAKAFKADYHIVETVAHAEAAFKYAPDVSFILDIGGQDMKAINIKNKIVTGIVLNEACSAGCGSFIETYSKALKIPVEEISKLAFKSKNPSKLGSRCTVFMNSSIITEQKNGRSVEDIMAGLCRSVIENVFTKVVRVSNFNSLGNTILAQGGTFKNDAVLRAMEQYTGIKVVRPPHSGEMGAIGVALLTKKNMKNKKTTSFIGFENLETFNYKKISGSICKLCTNNCSRTIVEFNDKTTFVTGNRCERGEVIGDLKDESTLKELKNIMRKKESVPDLLKYRNKILFENYAPKELSPKKNIKIGIPRVLEFWNSLPFWKSFYTSLGFEVIVSDKSSYKIFEDGLKNIPSDTVCFPAKIVHGHIKNLIDKKVDRIFMPMMMDIPPENEKHKEAVNMCAVIQGYPLVIKENDEPEKSGVIFDTPMFRWTTINLRDKQLIKFINESFGLKKDVVENAILEGDIAQNIFKNKMLEEGKKVLEQLEKENRFGVVIASRPYHSDELINHNISSFFVNLNIPVLTLDSLPGLNDVDLSKVRPDTVNPFHTRLFTGAIYTAKNKNLEFVEVVSFGCGHEAINSDEVIRLMNDISQKQPLIMKLDESEVKGPMTIRINSFIETIKSRREKQEKITLRKLKEPFGNSIFSKKDKGKRTIYVPILSETFAKVVSAVLSEKGYNVQPLPIAGDRAKALGKKYVHNDICYPAQINIGEMLAVMEDKNPKEVTFGIAKNCNDCRAGQYLTLARKALDEAGYKDVSIITTGEDNKGIQPGIKLGLWFQLGMLYGLVTTDALEYMKRRIRPYEKNRGETNQIFEKYVDKIVEVMKKNYKNSPKIVEEAIEAFNNIELIEQKPKPKVFVIGEILMNYHPSANENIEGYLEANGMETIFPSFIDFFRRDMIKIKEGIKNSQIEKPVRNFLLADVTDKIYQRVVNKVEKRLKKFKFYEYKKNVHELAENIDGIIDKTYTTGEGWLIPAEIIEHARNGVKTFIIVQPFGCIPNHITGRGMTKSLKKMFPDIQILSLDYDPDTSFANIENRLQMVIMTAKEMNKLSL;locus_tag=LOCUS_22790;note=WP_010965697.1 acyl-CoA dehydratase activase-related protein (Clostridium) [pid:37.9%25%2C q_cov:99.3%25%2C s_cov:97.8%25%2C Eval:4.4e-267],MGA_2281
sequence2	MetaGeneAnnotator	CDS	282758	283198	.	-	0	ID=MGA_2282;product=YaiI/YqxD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048230.1;translation=MRIIIDADATPKNAKLICEQLAKKYELELIMVIDNAHELTGDFKVIKVDKGKDSVDLEIVKISKNEDIIITQDYGLATILIEKVYAVIHPKGMRYTKFNIESLMFQRHMGQKMRNAGKRTKGPKKRERKDDQLFEENLMKILKEYF;locus_tag=LOCUS_22800;note=WP_012048230.1 YaiI/YqxD family protein (Clostridium botulinum) [pid:42.5%25%2C q_cov:98.6%25%2C s_cov:100.0%25%2C Eval:2.1e-26],MGA_2282
sequence2	MetaGeneAnnotator	CDS	283571	284539	.	+	0	ID=MGA_2283;product=mannose-6-phosphate isomerase%2C class I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454782.1;translation=MYPLKFEKVFKEKVWGGRNFESILNIKLKSNKKIGESWEVSTHKNGISIVSSGIYKGKTLQELINQYGESIVGKKVYTKFKNKFPLLIKYLDINDKLSVQVHPNDKYALENEGEFGKSECWYVIDASKDAKLILGIKENISKEIFHKKVQKNDFSELFNEIPVKKGDFINISPGLVHASTEGSILICEIQQNSDTTYRIYDFDRVVDGKLRPLHIDKALEVINFGLKPEITEEKYRENIKINETNIQNLIRNEYFNVDKLDIKNKYSYNLKDSFSILSIIDGAGQLIYNSEIYNIKKGETYFIPANLNIEINGNLTILKSFL;locus_tag=LOCUS_22810;gene=manA;EC_number=5.3.1.8;note=WP_004454782.1 mannose-6-phosphate isomerase%2C class I (Clostridioides difficile) [pid:41.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-64],MGA_2283
sequence2	MetaGeneAnnotator	CDS	284603	285985	.	-	0	ID=MGA_2284;product=serine protease HtrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009872209.1;translation=MKKVMSFMLVFTILSISSFANVFDDQKAFTEVSKKVMPAVVNISTEKVIKQRYYDPFEDLFNDQFFGRNNQRREPREIKRKQTALGSGFIISEDGYIVTNNHVVDGADKIKVTLNDKSTYSAKLIGTDKDTDIAILKIKSNKKFKYLTLGNSSKLEVGQWAIAIGNPFGLNNTMTVGIISAKGRSGMGIENYENFIQTDASINPGNSGGPLVDINGNVIGINTAILSKSGGNMGIGFAIPIDMVKPIKNSLIKNGKVERGWLGVSIQPLNDKMAEKFGLKDTKGALIGEVLKGTPAEKAGLKRGDIVLQINGEKVKDYNDLRNKIGAAAPGTKVDLRILRNRKKINIRVKLGKKANNGNGLASEEQELMGMKIKNIDNNVIKQFNLDKNTKGVIVLEVSYDSQAYSYGVRPGDIIVEVNNNTITNVNQIMGKYKKTKKGDGILFYIEGKNASRYIMLEKD;locus_tag=LOCUS_22820;gene=htrA;note=WP_009872209.1 serine protease HtrA (Chlamydia trachomatis) [pid:42.0%25%2C q_cov:94.3%25%2C s_cov:88.9%25%2C Eval:7.6e-97],MGA_2284
sequence2	MetaGeneAnnotator	CDS	286550	288397	.	-	0	ID=MGA_2285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLRNKIFLGLFLTFLVVIIIQAIGTNYFLKPKLLKIESNYVKEQFNRAEKNINEELSNIQKLVLDWSIWDDTYQFIQNQNIEYIKSNINDTTFTNTGVEFITILNKNKKEIYSAKYDYKTNKIIPFKNNFIKEIDDNKNKKFLGINNNKVVMVSYSKVFDTNEEKPFNGYLMMGFSLDSKHYKNISERAGVEVKFLISNKKLKNLILNPNNKYILAEKTVGSFGKNKINLRIKSKRWIGVIILKILKISILFSVVIYIIFFIIVGMNVYHSAIKEIESLKKQLENLPLDKFKEKIRIKGSGEFKVLADSINKMILEIQNMNMEILLGNEKYRALFEESTVIHIMVDENYCIREVNKAAEKIIGYNREEIVGESILSSFDEENNIKIKNIIDNIFLGTGSKETEVMLKAKNGDIKYLIIKPSNFLLIEEGDKYRVLLVGTDITEKKLIENEIKRYATFDELTGLYNRRIGIEMLEKNLQMAKRNNNNLIVIFIDVNGLKKINDSLGHKNGDKLIKITADILKESSRESDIVCRLGGDEFLVILVNCDLVDSEKFWNRVLENKERKNRSGKFDFKVSLSYGIASLDENREMSAYKIIEIADNRMYEDKKLKKAERN;locus_tag=LOCUS_22830;note=WP_061293285.1 EAL domain-containing protein (Clostridium botulinum) [pid:24.9%25%2C q_cov:98.9%25%2C s_cov:69.6%25%2C Eval:5.7e-37%2C partial hit],MGA_2285
sequence2	MetaGeneAnnotator	CDS	288611	288814	.	-	0	ID=MGA_2286;product=copper ion binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461873.1;translation=MKKTILIDGMSCGHCVTHVKEALSELDGVKIDNVEIGKAVIDINIDIADKIIIDAIDEAGYDVKEIK;locus_tag=LOCUS_22840;note=WP_011461873.1 copper ion binding protein (Desulfitobacterium hafniense) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:97.2%25%2C Eval:2.5e-09],MGA_2286
sequence2	MetaGeneAnnotator	CDS	288834	291299	.	-	0	ID=MGA_2287;product=heavy metal translocating P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461874.1;translation=METKKKEFEVIGMTCTACAKTIERRLLKTVGVEAAGVNFANEKLVVKFDENLIETERIKEIVKKAGYDLEEKKEEKEIIIPIEGMTCTACSKTIEKKVSKIDGVVNISVNFANEKAFIKYDASKTRVSEIKNIIKKAGYIPLKIEKENDVDFEKKRHEKERKIFLIKFIVSSVFSIPLLYIAMGHMFGFYLPEIITPGSHPLNFAFAQLFLVIPVLIAGYKFYTAGFRNLFTLSPNMDSLVALGTGAAFLYGVYAIIQIYFGKLSFTKDLYFETAGIIISFILLGKYLEIVSKGKTSDAIKKLVGLQPKTALVFQDGKEIDIPIEEVEEGDIVIVKPGEKIPVDGMIIEGDTYIDESMLTGESIPVEKKIGDKVIGGSINKNGSVKFKVTKVGKDTVLSQIIKLVEEAQGSKAPIAKLADIVAGYFVPIVISIAIISGLIWYLTGATFVFSLTITIAVLVIACPCALGLATPTAIMVGTGKGAEYGILIKNGEALETALKIDTIVFDKTGTLTEGKPKVTDVIKLGEISEEEILNLAASSEKKSEHPLGEAIVNLAEERKIILKKVDKFLAEPGHGIKTIIDEKEILIGNKKLLEDNKIDLKNDNISLKLSNEGKTPMYISVNNRLEGIIAVADTIKESSYSAIKRLKELNLDIAMITGDNKRTATAIAKKLGINIVLSEVLPNDKSNEIKKLQSENKIVAMVGDGINDAPALAQANIGIAIGNGTDVAIESADIILMRSNINDVATAIELSKATIRNIKQNLFWAFGYNTFGIPIAAGVLYAFGGPKLNPMIAGAAMAFSSVSVVINALRLRGFKPSNKK;locus_tag=LOCUS_22850;note=WP_011461874.1 heavy metal translocating P-type ATPase (Desulfitobacterium hafniense) [pid:62.6%25%2C q_cov:98.9%25%2C s_cov:99.4%25%2C Eval:9.2e-288],MGA_2287
sequence2	MetaGeneAnnotator	CDS	291302	291466	.	-	0	ID=MGA_2288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKEIINRKVLNLLKYLGSENNKNLGTEKLDCCNMNKEEGNENGSKGKKRGCR;locus_tag=LOCUS_22860;note=MGA_2288
sequence2	MetaGeneAnnotator	CDS	291580	293328	.	+	0	ID=MGA_2289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKSKFFILNTIFLLIFIFLIYFFYCYQKNKIYNKTLNTLKKDNNVINELIQGSLDVSIKSYLRGIAEKNRDITVKLYNNFKNNIITEQEAKKRLFELFFSQKIADSGYIYIVNSKGDLVYHPSKFFNHKNLKNYDFIKRQINHKNGFIKYKFASYDYQRPENKVLYMAYFKPWDWIISVSAKRNELKSLININDFRNQILALKFGKTGYSYVIDSKGNLIIHPYLQGTNILNAKDEKNHYFIKEVVKNKNGIIKYPWKNKKNKKTSYKLVVYSYIPSMDWIIASGGYFNEFNDELNSFQLLILLIITIYILNIIIINLLLNRIMFRPLKEFLNKIKNINISKKYLPLKIHSKSEIGLLSVEFNRMIIRIKNHTKNLESLVLEKTKDLHRANSNLKKINQQLNEKNNVLFKTATTDKLTGIYNRSYLINAFEKEFAKCKRHNINLSCIMIDIDFFKNVNDTYGHLTGDFVLENTAKNIHDSLRKEDIFGRYGGEEFLVILPNTSIEQAENVAEKIRKNIERTKYSNNNNSLNVTLSLGVSNIFIDNPKNIDNMILNSDIALYESKNSGRNKTTVYTKKEEV;locus_tag=LOCUS_22870;note=WP_011791723.1 cache domain-containing protein (Desulfovibrio) [pid:27.1%25%2C q_cov:59.6%25%2C s_cov:64.1%25%2C Eval:7.4e-47%2C partial hit],MGA_2289
sequence2	MetaGeneAnnotator	CDS	293422	294252	.	-	0	ID=MGA_2290;product=sulfide/dihydroorotate dehydrogenase-like FAD/NAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009896496.1;translation=MHKIIEKEILNSVVEKIVVEAPFVARKCEPGQFVIIRVEEDGERIPLTIADYNREDKTVTLIYQVVGYTTKLLSEKNKGDFISDVAGPLGKATKLEKKNRVLGIAGGVGAAPLYPQIRKLNELGVKTDIIIGGRSKENIILEDEFRKISENIYFATNDGSEGTKGFVTDVLNELIKNGEKYDEIITIGPVIMMKAVVEITKKLNIPTSVSLNPIMIDGTGMCGGCRVKIGEETKFACVDGPDFDGFLVDFDGLMRKQTMFKEEEQEKDHKCKIGLD;locus_tag=LOCUS_22880;note=WP_009896496.1 sulfide/dihydroorotate dehydrogenase-like FAD/NAD-binding protein (Clostridioides difficile) [pid:53.9%25%2C q_cov:95.3%25%2C s_cov:91.2%25%2C Eval:1.6e-79],MGA_2290
sequence2	MetaGeneAnnotator	CDS	294502	295152	.	-	0	ID=MGA_2291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRMKFLTVLVLATTILGCKNLPALKSNELSEVKNFNINDEFDNNKYKWYEEKNKEIEVKVANGYYNIDHKDEDSSFQIYKKFDFKDDKTYLGETSIRYEKGNTDEGFGIYFGLSNKRQAYFEIDNLGEVTIFEDEGDKTSTILDWTKTEAVNINDWNIFEFIMGKGEIQVYLNNYKIGTINLKLNKTKLTEVGYDVNGKLKVNIDYMRGKSIKN;locus_tag=LOCUS_22890;note=MGA_2291
sequence2	MetaGeneAnnotator	CDS	295484	296227	.	-	0	ID=MGA_2292;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903463.1;translation=MKKNGEEVLIDFLDIPNMKIFQKNDHFNFSIDSVLLANFLTINRKLKNITELGFGNGAVSLLLSKRTSAKITGIEILKDSYELAKKNININNLENRIEIIHDDMKNWKKHLKEQSQDAVISNPPFFKNSDINNLDQLSIARHEIAITLEEIIFISGKLLRNMGYFAIVHRAERFYEILNIMKKNKIEPKRIKFCYTTKNKNSKIVLIEGKKNSKEGIIIEQPLYINKENGEYTEIVKKMFAGEIDKI;locus_tag=LOCUS_22900;note=WP_005903463.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Fusobacterium nucleatum) [pid:56.1%25%2C q_cov:90.7%25%2C s_cov:93.8%25%2C Eval:4.1e-65],MGA_2292
##FASTA
>sequence1
AGTATGTTGAAAAGTGGAAAAGTAATTAAATCTGTTGAAAATATTTATTTTATGTGATATAGTATTGTGGATAAATTGACTATTGGAGGGACTTTTGCGAATGGAGGAAATGAATGCTGTAGAAGTGTGGAAAAGAATACTTAAAATTTTAAAATGGAATATTAATGAAACAGATTATAATTCTTGGATGTTAAATGTAAAGCCAATTGATTTAACAGAAGATAAATTAATTCTTGAAGTTGATAATAAATTTATAAAAGATAGAATTGAATCTAAATTTAAAGAGAAAATTATTGAAATATTAAATGAAATTTTAATTTTAAAAGGGTATAAAGATTTAGAGTTTAGAATTAAAGAAAATGAAGATAATAAGCTTTTTTTTCAAAAAGAAGAAGAACCAATAAAGCAAGAAAAAAAAGAATCAAAACAATCTAAACAATATAAAATTCAACAAAATTTATTTAGTAAAGGTTATTATAATCTTAATGATAAATATTTATTTAATAATTTTATTGTTGGAAAAAGTAATGAATTTGCACATGCTGCCTCAGAAGCAGTAGCAAATGCACCAGGAAAAGTATATAATCCTCTTTTTATATATGGAGGAGTTGGGTTAGGAAAAACTCATCTTATGCATGCTATTGGAAACAGTGTACTAAAAAATAATAGTAATAAAAAAGTTTATTATTGTTCTTCTGAACAATTTACTAATGATTTAATAAATTCATTAAAAAATGATAAAATGATGGAATTTAGGAGTAAATACAGAAAATTAGATCTTTTATTAATAGATGATATTCAATTTATCGCAGGTAAAGATAGTACACAAGAAGAATTTTTTCATACTTTTAATGAGTTACACCAAGCAGGAAAACAGATAGTTCTTTCTAGTGATAGACCTCCAAAAGAGATTGATAATGTGGAAAAAAGGCTTGTTTCGCGATTTGAGTGGGGACTTATTGCAGATATACAACAGCCGGATTATGAAACTAGAGTTGCTATTTTAAGTAAAAAAGCTGAAATGGAAAATATTAAAATATCAAAAGAGGTATTAGAATTTATAGCAGAAACAATAAATTCTAATATTAGAGAATTAGAAGGAAATTTAAATAGAATAGTAGCAAAAGCTTCAATTTTAAAAAAAGAGATAAATATAGATTTAGTAAAAGATGTCTTTTATGATGTTGTAAAAAGAAATAATAAAGTAGTTAATAAAGATAAAATAATAAAAGTTGTTTCTGAATATTATGAAATTTCTATTGAGGATATGATATCTTCAAAAAGAAAAAAAGATATTGCTAAATCTAGGCAGGTTGCTATGTATTTGTTAAGAGATATATTAAGTGAATCATTTTCAGCTATTGGTGGTATTTTTGGTGGTAAAGATCATACAACAGTAATGCATAGTGTTAGTAAAATTGAAAAAGATATGAAAGAAAATAAGTATTTTGAAAAAGATATAATGAGTTTAAAAGAGAAAATTTTAAATAACTCAAATTAATTTAAGAGGAGAAAAAAATGGAAATTATTGAAATTTCAACTGAATATATAAAATTAGACCAATTTTTAAAATGGGTAAATATTGTAGGTTCTGGAGTAGAAGCTAAATTTTTAATAAAAGAAGGTCAAGTAAAAGTAAATAAAGAAGTTGAATTAAGAAGAGGAAAAAAATTAAGAGATGAAGATATTATAGAGATAGATAAAAATATTTATAAAATAAAAAGGGTTTAAGAACGTTTAAAAAATAATGTTCTCATTATTTTTTAGCTATTTCTAAGGAGGAACAATTGCAGCTTTTAGATGTTTACTTGTTAAATTTTAGAAATTTAGAAGAAATTAATTTATCTTTTGATAAGGGAATAAATCTTTTTTATGGAGAAAATGGACAAGGAAAAACGAGTTTTATAGAAGCACTTTATTTTAATATTACAGGGAAAAGTTTTAGAACAAAAAACATATCTGAAATAGTAAAATACAGTAAATTAGATTGTGGAATTTTTTTGAATTTTTTGGATATTTATGGAGAAAAAAGTTTAGCTTTAAAATATGAAAAAAAACATAAAAAATACTTTTATAATAAGAAAAAAGTAAATTATGATGAATATATTGGAAAAGTAAATGTAATTTCATTTATACCAGAAGATATTGAACTAATAAATAGTTCTCCCTCAACTAGAAGAACTTATTTTGATTATGAAATATCTCAATCAAATTATAACTACTATTTAGAATTAAAAGAATTAAACAAAATTTTAAAAGTTAGAAATAAATTTTTAAAAGAAAAAAATATAAAAAATGAGATGTATAATATTTATAATGAAAAATTTATAGACATTTCAGCAAAATTATTAATAAAAAGAGAAGATTATATAAAAAAATTATCAATATTACTTAATTTAAATTATAGGAAGCTTTTTAAATCGAGTTCGGAATTAAAGTTGATTTATAAGCCATTTATAGATAATATTGAAAAAAAGAGTTTAGAAGAGATTAAAGAAAAAATAAAAGATAAATCTCTAAAAGTGCAAAAAAAAGAGTTGATTTATGGATATTCTCTTGTGGGACCTCAAAGAGATGAATATGTATTTAATTTAAATGAAAAAGATGCAAAAAAATATTCATCACAGGGAGAAAAAAAATCTATTATATTTTCTCTTAAAATATCTGAAATAGATTTAATTGTGAAAGATAAAAAAGAGTATCCTATATTTTTATTAGATGATGTATCTTCATATTTTGATTTAATGCATAAAGATAGTATTTTAAACTACTTTTTTAATAAAAATATACAAGTATTTATAACCTCAACTGAAAAATTAGATATAAAAGGGAAAAAATTTTTAGTAAAAGAGGGGAAAATTTATGAATAAGCCTGTAAAATTAAAAGAGGTTATTGAGTCAAAAATAAAAAATAATGTTTTTTATAAATTAGAGTTTTTAAAAATTAATTGGGTAGATATTGTAGGAAAAAACTTAGCTAAAAAAAGTTTTCCTCTATTTGTAAAAGAAGATGTTTTAATAATAGGAGTTACAAGTAGTATATGGTCTCAACAAATGTTATTTTTGAAAAATCAGATAATAAAAAATAGTAATTTAAAACTAAATGGAGAATATATAAAAAACATTAGATTTAAAGTTTCTAAATATGAAAAAACTATTAATTATATAGAGAAAAAACAAAAAGTAAAAAGAGAAAAAATTGATTTTAACAATATATCTATACAGCCATTTGAAATCAAACAATTGAAAAAAGCTATAGAATTTATAAAAGATGATGATATAAAAAGACACATATATAAAGTATCTGTTTTAAATAAAAAAAGAGAAAAATATTTATTAGAAAATGGATATAAAAAATGCGAAAAGTGTGGAGAATTATTTGTTGGAGAAGGAAAAATTTGTATTTTGTGTAAAAATGATATTCAAAAAGAAAACAGGAGAAGAATTTATAATAAAATAAAAAACAATTTATTAATAACATATACAGAAATGAAATATGAAGAAAAATATTTAACTAAAATAGAATTTGAAGATATTAAAAATAGAGTTAAAGATGGAATATATAGAGAAATATTAATAAATATAAAAGAATTAAAATATAAAAAAGCTAGAGATTTATTAGAAAAATATTTTATATTAGATAGTGGAACAGATAATAAAAGAGTTATTTTTGAAAAAATAGATATGTTTTTTCAGAGTTTCACGTGAAACATCATCAGGAGGTAAAGTGTATATATACTTGGAAAATAATTTTTTTATTCCATTAAATGAAATTATCGCAATTGTAGATTATGAAAAATTTACAGAGTCAGAAAATGGAAAAGATTTTTTTGAAATAAACAAAAAAAATATAATAAATATTTCAAAAAATAAAAAAAGTATGGTTATAACAGATACTTATTCTTATGTTAGTTCATATAGATTAAGAGCTTTATATTCAAGAGGTAAAGAGTTTGAAAGATTAAAAACAGGAAAAGTAAAATAAGTTAGGAATGTTATTTTTAAGCAGTTTATTAGAAAAAAGTATTTTGGAGGGAAATTATGACAAATTATACAGCAAAAGATATAACTGTACTTGAAGGATTAGAAGCTGTAAGAAAAAGACCAGGAATGTATATTGGATCTACGTCAATAAGAGGATTACATCATTTGGTTTATGAAATTGCAGATAATAGTGTGGATGAAGCATTAGCAGGATATTGTAATAAAATATCAATAAAAATATTAGAAGGTAATGTAATAGAGGTAGAGGATAATGGAAGAGGAATTCCAGTAGATATGCATCCAAAACATAAAAAATCAGCTCTTGAAATTGTAATGACAATATTACATGCTGGAGGAAAATTTGAACATAAAGGCTATAAAGTATCAGGAGGACTTCATGGAGTTGGAGTTTCTGTTGTTAACGCATTATCATCAACCTTGGAAATAGAAGTAAAAAGAGACGGGAAAATATGGTATCAAAAATATCATGAAGGAAAGCCAGAAGAACCTGTAAAAACTATAGGCGACACTAATAGAACAGGAACAAAAGTTAAATTTAAAGCAGATGACACAATTTTTGAAAGTTTGGAATATGAATTTGATGTGTTATCAAATAGATTAAAAGAATTAGCATATTTAAATAGAGGATTAAAAATATCTATAGAAGATCTTAGAGAAGGAAAAAAGAAAAAAGAAGTTTATGAATTTGAAGGTGGAGCTGTAGATTTTGTAAAAGAGGTAGTAAGTGGAGAAAAAACGATAATAACAAATCCTGTAAGTATGATAGGAGAAGAATCGGGAGTATATGTTGAAATAGTTTTAACATATATAGAAAATCAAAAAGAAACGCTTTATTCATTTGTTAATAATATAAACACTCATGAAGGCGGAACGCATGTAAGTGGATTTAAAACAGCTTTAACTAGAGTAATAAATGATATTGCAAGAACAACAGGATTATTAAAAGAAAAAGATAGTAATTTTGTAGGGAATGATGTAAGAGAAGGAATAGTTGCTATAATTAACACAAGAGTTCCGGAACCTCAATTTGAGGGACAAACAAAAACTAAATTAGGAAATTCAGAAGTTACAGGAATAGTATCTTCTATTATTACAAATAAATTAAAAGAGTATTTAGAAGATAATCCAACTGATGCAAAAGTGATTGTAGAAAAAATATTAATATCAAAACGAGCAAGAGAAGCAGCTAAAAAAGCAAGAGAATTAGTAATTAGAAAAAGTGCTTTAGAAGTGGGATCTCTTCCAGGAAAATTGTCTGATTGTTCTTCAAAAGTACCAGAAGAATGTGAAGTATTTATAGTGGAAGGAGATAGTGCGGGAGGTTCTGCAAAACAAGGAAGAGATAGAAGATTTCAAGCAATATTACCTCTTAGAGGAAAAATTTTAAATGTAGAAAAAGCAGGAATAAATAGAGCTTTGGAAAATACAGAAATTAGAGCAATGATTACTGCCTTTGGAACAAATATAGGTGATGAGATTGATTTAGAAAAATTGAGATATTATAAAATAATTATAATGACCGATGCCGATGTAGATGGAGCTCATATAAGAACTTTAATGCTTACTTTTTTCTATAGACATTTAAGAGAATTAATAGATGAGGGACATATTTATATTGCACAACCACCATTATATAAAGTTACTCAAGGGAAGAATTTTTCATATGCATATTCTGATGAAGAGTTGGAAGAGATAACTTCAGAACTTGGAGATAAAAAATATACTCTACAAAGATACAAAGGACTTGGAGAGATGAATCCTGAACAATTATGGAGTACAACAATGGATCCAGAAAGCAGAAGTTTATTAAAAGTAACATTAGAAGATGCAACTTATGCAGATAAATTGTTTAATGTATTAATGGGAGATAAAGTTGAACCAAGAAGAAAATTTATAGAAGAGCATGCAACATATGTTAAAAATTTGGATATTTAGGAACGGCTTAAAAATAACCTACTTATTTTGTTTTAAAATATGCAACGTATCAAGCATTTTTAAAACAAAATATTAGGAAATTAATTTTTTAAACGTTCTTTAGGAACGGCTTAAAAAGAAGCTACCTATTTTGTTTTAAAATACGCAATGTATCAAGCTAAGAACTGGGCTTGCCAACGGCAAGCCCCTACAGTATTAATTTGTTTTATAATGTAGAGGTTTTACCGTTGGCAAATCCGATATAAAATTATAAATTATCGTTAATTTGATGACATTGGGATTTAGATGAGGTCTGAAAGAAGATAGAATGAATATAAATAAAAAGCATAAGTTTTTTTATGAATTAATTTATGTTTTTTATTTAAGAGGAAAGTATAAATTTATTCAGAAAATAGGCTACACAGTTTTTTGAAACATGTGATTTTTCAAAGTAAATAAGAAAAATTAAATAATATTGAATTAATAAAAAATAGTAATGGTGAACAGCCGTTTACCATTACAGATGATATATTTTAGAGAGGGGATTTACAAATGGCAAAAGAGACTCAAATTTATATAGAGGACGAAATAAAAAATTCATACTTGGATTATTCAATGAGCGTAATAGTAAGTAGAGCTCTTCCAGATGTAAGAGATGGATTAAAGCCGGTACATAGAAGAATACTTTTTGCAATGAATGAAATGGGAATGTTTCACGAGAAACCTCACAAAAAAAGTGCAAGAATAGTCGGAGAAGTTTTAGGTAAGTATCACCCACATGGAGATACTGCTGTATATCTTACAATGGTAAGAATGGCACAAGATTTTAACTATAGATATATGTTAATTGATGGGCATGGAAATTTTGGTTCTGTTGATGGTGATAGTGCGGCAGCAATGAGATATACAGAAGCACGTATGTCAAAAATAACAAGAGAACTGTTATTAGATATAGATAAAAATACTATTGATTATAGAAAAAACTTTGATGACAGTTTAGATGAACCTATTGTTTTACCAGGAAAACTTCCAAATTTATTATTAAATGGAGCGGCAGGGATAGCTGTTGGAATGGCAACTAATATACCACCACATAATCTAGTTGAATTATCAGATGGAATTATTGCTACAATAGATAACAGAGATATAGAAGATGATGAATTAATCAAGATAGTAAAAGGGCCAGATTTTCCAACAGGTGGAATAATAAATGGAGTTTCTGGAATAATTAGTGCTTATAAAACTGGTCGTGGAAAAGTTAAAGTTCGTGGAAAAGTTAAAATAGAGGAGATAAGATCAGGAAAAGAAGCTATAATTATAAATGAACTACCTTACCAAGTAAATAAAGCTAGATTAATAGAAAAAATAGCTAATTTGGTAAAAGAGAAAAAAATATCTGGAATTACAGATTTAAGAGATGAATCTGATAGAGATGGAATAAGAATAGTAATAGAATTAAAAAAAGGTGAAATTTCAGAACTAATTTTAAATAAATTATATAAATATACAGAACTACAAAATACCTTTGGAATAATAATGTTAGCACTTGTAAATAATGTTCCTAAAGTATTAACTTTAAAACAAATATTAAATCATTATTTAGATCATAGATATGAAGTAGTAGTTAGAAGAACAAAATATGAACTTGAAAAAGCTGAAAAAAGAGCTCATATATTAGAAGGGTTTAGAAAGGCATTAGATAACATAAGTGAAATTATAAAAATTATAAGAGGTTCAAAAGATGCAGCAACTGCAAAAGAAAGTTTAATAAAAATTTTCGAATTTACTGAAATACAAGCAAAATCAATTTTGGATATGAGATTACAAAGATTAACAGGATTAGAAAGAGATAAAATAGAAACAGAATATAAAGAATTGTTAAAGGTTATAGATGAATTAAAATTCATACTAGGAAATGATTCAAAAGTATTTGAAATTATAAAAGATGAAGTTATAGAATTAAGAGATAAATATGGAGATAAAAGAAGAACAGAAATAAGAGCAGCAGCAGAAGATATACTTTTAGAAGATTTAATAAAAGATGAAGAAGTAATAGTTATGATGACAAATAAAGGATATATAAAAAGAATAGGATTAGATAAATATAAAGCTCAAAATAGAGGTGGAAAAGGTGTATCATCTCACAATGCGGCATCAGAAGATTTTGTGGAAAATATGTATTTGACTAAAAATTTAGATAGTTTATTAATTTTTACAAATAAAGGAAGAGCTTTAAGTTTAAAAGTATATGAAATACCAGAAAGTTCTAAAAAAGCAAGAGGAAAACTAATAAATAATTTAATAAACTTAACAACTAATGAAAAAGTAAAAGCAGTGTTAAAAGTAAGAGAATTTGAAGAAAATAAAAATATATTTTTTGCAACAAAATCTGGAGTAGTAAAAAAAGTTAGTTTAAATAAATTTAAAAAAATAAGTAAGGCAGGACTAATTGCAATAAATTTAAAAGAAAATGATAATTTGATATATGTTGGAGTGGCTAATGGAGATAATGACATATTTTTAGCAACTAAACAAGGGTATTCAATAAGATTTAATGAATCAGAAATAAGAAGTATGGGAAGAACAGCTACAGGAGTAAAAGGAATAAATTTAAGAAAAAATGATGAGGTAGTTTCTGGACTAGTAATAGAAAATCCAGAAGCAACAGTATTAACAGTAACTGAAAATGGAGCTGGAAAAAGAACGAAATTAAAAGGATATAGACTACAATCTAGAGGTGGAAAAGGATTAATAAATATGAAAATAAATCCAAAAACTGGAGATGTTGTAGAGGTAAAAGGTGTTACAGATAGTGATGAAATAATGTTGATTAGTTCTAATGGTATAGTAATAAGAACAGCAGCAGATACAATATCTACAACTGGTCGTTCAACACAAGGTGTAAGAGTTATGAAAGTTGATGAGAATGAAAAAGTTGTATCAGTAATAAAAAGACATAAAGACAAAGAGATAGAATCAGATATAGAAAGTGGAGAAGAAGAGTAATCTTCTTCTTTTTCTTTGTGGAAAACAAATTTTATAGTCGTGTTTTCCACAATTGTTAATAAAAAAGCCTATTTTTTCAAAAAGTTTTCCACTTTTCCTCATAGTTTCCCACAATTATATAATAATTTGAATTTTTTTAAGAAATAGAGTTATACACATAGGAGATAAATTAAAAAATTTTATTTTAAGTAAGGAACGTTTAAAAAATAATTTTTATATATTTTGTTATAAAAACGCTTGAAACGTTGCATACGTTGGGCGTAGTTTTTTATGTGGTTTTCATAAAAGAACCTTGAGCCTTTTAAAACAAAACAGGTAAGTTATTTTTAAGCCGTTCCTAAGTAGAAAAGTATAAATTTATTTTGAAAAATATGTAGTATTGTTGAAATATCCTAGATTGAGAAAATTTTCTTTTTATTAAAAACGGTATTTAGGTTACTTATAGAACATTATTTACGGTTTGCGTAGCATAAATTTGAAAAAAGTTATAAAATCCGAAAATAACCTTTGAATTTTTTTTGATTTTGTAGTATAATAATTGAAATTGGAAAATACTAAACTAAATGAGAGGTGAAAACATGGCAAAAGTAGTTTTAACAGATATGGAAAAAACATATCCAAATGGATTCAAAGCAGTACATGGGCACAATTTAGAAATAAAAGATGGAGAATTTATGGTATTTGTAGGGCCATCAGGTTGTGCAAAATCAACAACATTAAGAATGATAGCAGGATTAGAAGAGATAACAGGAGGAACAGTAGCAATAGGAGATATAATAGTAAATGAGTTGCCACCAAAAGATAGAGGGATAGCAATGGTGTTTCAAAATTATGCCTTGTATCCACATATGAACGTATATGATAATATGGCATTTGGGCTAAAATTAGCAAAAACACCAAAAGAAGAGATAGACAAAAGAGTAAAAGATGCAGCAGAAATATTAGGAATAACAGATCTATTAGATAGAAAACCAAAAGAGATGTCAGGAGGACAAAGACAAAGAGTAGCAGTAGGAAGAGCAATAGTAAGAGATCCAGAGGTATTTTTATTTGATGAACCATTATCAAACTTAGATGCTCAATTAAGAGTACATATGAGAGTAGAGATAACAAAATTACATAAGAGATTAGGAACAACAATGATATATGTAACTCATGATCAAGTAGAAGCAATGACAATGGGAGATAGAATATGTGTAATGGAGTTAGGAGTAATAAAACAAGTAGATACTCCATTAAATTTATATAATAAACCAGAAAATAAATTTGTAGCAGGATTTATAGGAAGTCCATCAATGAATATAGTAGAAGCAAAACTAGAAAAAGATGGAGATACAACATATGCGGTAACAGAACATATGAAATTAAGATTACCAAAAGAAAAAGCAGACAAAGTCCAAAGTCATATAGGAAAAGAAATATGGTTTGGGATAAGACCAGAACATATAGGAAGTCATGAAACACATCCAAACGAAAAAGATAATTATGTAAATTCAGAAATATATGTAGTAGAACAGATGGGAAATGAAGTATTTGTATATTTCACACCAGGAAAGAATCAATATATAGCAAGATTAGGAAGTGAAGGAGTAACAGTAAAATCAGGAGAAAAATATGAAATATGGTTTGATACAAGTAAATGTCATATATTTGACAAAGAGACAGAAGAAAATATAAGTTTATAAGAAAGGTGGTGGAATTTTTGTCTTCAAAATTTACTGAATTAATAGAAAGCATAAATATTTTTAATAAAATAGAAAGAAGTTCAGGTTATATGTGGTTAACAGGAGCTATTTTAAGTTTTATTGTTTTTATATATGGACTTGTTTTGTTAATAAAAGGAGTTATGTATGGAAATGGAGCAGGAACATATAAAATAGCGGGATTAAAATTAACAGCACCAGCAATGGGTTTTATCTTGATATTTATAGGATTAATAGTTTTATTTATAACAATAACACAAACAATTCATAATTCAAAAGAGGAATTTAAACGAAAATATAATAATTTAGGAACTGCATATGTATATACATCTCCAGCTATAATAGGAATGGTTGTATTAGTATTTTTTCCTTTAGTATTTGGAGTATGGGTAGCATTTACAAATTATAGAATAGATATACCATTGGCAAAGGCTAATTTTCCAACATTATCAAGATTTTTGGATGTTTTTACAAGTAAAAATAGTGATTTTAGAGATATATTTTTTACAAATATATGGTGGACAGTTATAAATATAGTTTTAGCAGTATCTTTAGGAGTTATGTTAGCATTAATATTGAATAGAGAAGATATGAAATTAAAAAAAGTGTATAGAACATTATTAGTTTTGCCTTGGGCAGTACCTAATTATGTAACAGCACTTATGTGGAAAGCGATGTTTCAAAAAGAATTTGGAGCAGTAAATCAAATATTATCGCCAATATATGCAATGCTGCATATGGACAATTTACAGTGGCTTTCGAAATCATTTATAAGTTTGAAATTTTTAGATCATATACCATATTTAGGGTCACTTCTAATAGATGCAATTGGATTAAAAGGATACCTTGTTTCTTTACCATTTATTGCAGTAGTAATAGTAAATGTATGGCTAGGATTTCCATTTATGATGATAGTGGCTTTAGGAGGGTTACAATCAATATCTAAAACTTTTTATGAAGCAGCAGAGATTGATGGAGCTACAAAATTTCAAATGTTTAAATTTATAACAGTACCACTACTAAAACCAACAATGATACCAGCTATAATATTAAGTATAATATGGACTTTTAATCAATTTAATGTAATTTATTTGATTACTACAAATGATAAAATGTCATTATTGGTTGTAAGTGCATATAGAGAAGCTTTTGAAAAAGGAAGATATTCTTACGCAGCAGCATATTCTGTAATTATATTTATAATTTTAGCAGCATATAGTATATTTACAATGAAAGTGTCAAAAGCTACTGAGGAGGTGTATTAATGGCAAACAAAAAATATACTAAAAAACAGTTTATTAGAAGTTTAATAGTAGTACTAACATCTCTTTTAATAGCTGTATTATTTACAGGATGGTATAGTAATTACGCAAAAAAAACAGTAATAACAAGTGTAACAAAATCATCAGAATTTTTTAGTAAAAAAATAGTGGAAGATATAAATAAAAAATTTGCTAAATCAAAAAGAATAATATTTATAAGAGCGAAAAAAATAATAGATCCTAAAAGTTTATTTAAGTATATTCCAGAAGGTAGAAGCGATATAAGTAAATTAAGTGTTGCTTCAATTGCAATATGGAGCAAAAAAGATGGAAAAATTGTAAATGAGATACATACAATTAGTAGTTTAAATAGAAAAAATTTATATGGATTAAGAAAAGGAGAAACATTAAATAAAAATAATGTAAAAAACTATTTTGAATCAAAAATAGAAAATAGCTGGATTGAAAATAATTTTGATAAGATACAAGAAAATCAATTTGTAGTTGAAAACATAAATGGATTTCTTAAAAATAAAAAAAGAAATAATCTTCATACAGTTAGAAAATTTAATTTAAAAGGAAAAGATTATTTATTAGATATACAATATTCAAAGAGATCAATTGTTTCAAATAGAATAACAAAGAAAATTCAAACAGAAGTAATAGTTATAATATTTATATATCTTTTATTTTTATTGGTATATTCTTTAATAATGGATAGGAATTTATTAATGCATGTACTGGTTCTTTATGTATTGGTTTTTACAACGTATCCATTAACATGGGTAATATCTCTTACGTTTAAAAGCAGCAATTCAATGGGAGGTACAAATCTAAACCCTATACCTAAAAATGCTACATTAGATAATTATAAAGCAGCATTATTAAATCTAAAAAAAGTAAAAGAGGAAGGAATCGTATTAGATAAAAATAATAAATTGTTTATAGGACAAGAAGTAATTGTAGATGGAAAAGGAGCAATGATAGAAGCTAAAAATATAAAATCTGTGTACAATGTATTTGATCCTAATTCAACTAATTTATTAAAAGATGTAAAATTTGAAGTAAAAGAAAAAGATACAAAAGTTACTTATAATGGAAAAGAAAAAATTATAAAACAAGATGCTTATTATTTAAGGTTAAATAAAGTATCTGAGTTACCACAAGATATGCAAATATATAATGTAGAATATTATACACATATTAATTTTTTATTTTTATCAGGAATATTCAATAGTTTGTTTATAGCTATATTAACGGCATTAATAGGAATGATATTGTCATCAGCGGCAGCATATGCTTTTTCTAGATTTAGATTTCCAGGAAGAGATGGTTTTATGATGTCATTTCTAGTAACTCAAATGTTTCCTGGAACAATGATGTTGATTCCTTTGTATATAATATTTTCCAATTTAGGATTTATAAATACATTTAAAGGATTAATATTTGCATATTCAATAACGGCATTGCCATTTAATATATGGAATTTAAAAGGATTCTTTGATACAGTACCAAAAGAATTAGAAGAAGCAGCATTAATAGATGGATGTTCAGCTTCACAAACATTTTATAAAATAGTGTTGCCATTATCACTGCCTGCATTAGCAATTTCGGCTCTATTCTCATTTATGGGAGCTTGGAATGAATATATAATGGCAGCAACATTTATGAATACAGAATCAAAATATACAATACCAGTAGTAATAAAAATGTTAGTAGGTTCAAATAGTGTAAATTGGCCAATGTTTGCCACAATGGCAGTATTAGTATCAATACCAGTAGTAATAGTATTTTTAATGAGTCAAAAATATCTTGTAGGAGGATTAACTGCTGGAGGAGTAAAAGGATAATTTTAGAATAGAGATATATACAGAAATAAAAAAATTGATTTTTAAAATTTTATAAGGTAGACTTATAAATAAGAACACAAATAAAAAGGAGGAAAAAAATGAAAAAAAGAGTATTAGTTATTTTAGCACTATTTACATTAGTATTTTCTAGTGTAGTATCTGCAAAAACAGTAAAGTTATGGTATGGATGGACAGGACAAGAAAAAGAAGCAATGTTAGGAATACTTGCAAAATATGAACAAGTATCAGGAAACAAAGTAGATGCATTAATGGTACCATTTGATGCATTGCAAGGAAAATTTCAAACAATGGCTCCACAAGGTCAAGGACCAGATGTAATAGTTGGACCTGCTGATTGGATAGGAACATTTAAAATTCAAAATTTATTAGCACCTATTGATGGATTTGCATCAGAAAGTACTTTAAAAGGATTTATACCAACAGTATTAGGGGCATGTAAATATGAAAATAAATTATATGGATTACCAGAATCATATAAAGTAGTAGCTTTAATTTATAATAAAGATTTAATACCAAATCCTCCAAAAACAACAGAGGAAATGATAAAAATAGGAAAAGAATTAACTAACGAAGATGAATCACAATATGGACTAGTTTATGATAAAGGAAATTACTATTATCATATGGGATGGATTGGTGGATTTGGAGGAAAAATATTGGATAAAAATAATAATCCAACATTTGATTCTAAAGCTCAAATAGAAGCAGCTAAATTTGTAGCTTCTTTATCAGAAGATCCTCAGAAGATAATGCCAGAAGAAGTAGATTATAATGTAATGATGACACTATTTAATGATGGGCTTGCAGGAATGATAATAAATGGACCTTGGGCAATAGGAGATTTAGTAGAATCAGGAGTAAATTTTGGAGTAACAAGAATACCAATGGTTAATCAAACAGGGCTTTGGCCAGCACCAGCATTGGGACCAGAAGTAATGATGATGTCAGCTTATTCTAAAGACAAAAAAAATGGATATGATTTAATAAAATTTTTAACATCAGCAGATTCACAAGCTGAAATGTCTAAAGTTGGACATTTACCGTCAAGATCAGAAGTTTATGAGTATAGAACTGTAAAAAATAGCAGTGTATATCAATACATAAAAGGATTTAAATCTCAAGCAGAAGTAGGAACTCCAATGCCGACAGCACCAGAAATGAATGCTGCAGTTTGGGCAAATGGAGCTACAATGTTATCACAAGTATTATCAGGAGATGCAACAGCAGAAGAAGCAGCAAAAGATGTACAAGAAAAAGCTATGGAATCAGTTAAAGAATTAAGACAAAAATAATTTGTTTACTTTTAAATATTCTTTAGAGTAAAGGTAGCTTTATGCTGCCTTTACCTATTATTTATATAAAATAAGGGGAAAGTATATTTTGTATAAATAATAGTGTGATTATAATTCAGAGGGAAAAATACTAAACAATTGGAGGGGATTAATATGAAAAAAAGAACAAATAAAAAAGGGACATTAAGTTTAAAAGCTAAACTGATTTTAATTAATAGTGTAATAGTGTTTGCAATATTAGTAGCATCAACAATAACAGCAATAAATATAAGTGGATCTAAATTAGGAGAGGTATCTGATAATATAAAAGATAATTTGGGAAAAGCTTTAAATGAAAAATTGAAAAAAGCAGGAGAGATATCTATAAATATATTAAAAGATAAAGAAAATGTCATTTTAAGAGAAGCAAATATAATGGGGAGCAACTCTGATTTAATAACTTTAGTAGAATATAATATGAAGAGAAAAACAAGTAAATTATCAAAAAATAGTTTTATTCCTGATGAAAAAAATAAAAAGAAATTTTTTGTAGAATATAAAAAAACAAAATCAATTTTAAACTATATTAGAATAGTTGGAGATTTACAAAAAAGTATGTATGGAGATGGAGCAGAAAAACAGATAGAAATTGTAGATGCAACAGGAAAAGTAAAAGCGAAAACTAAAGGAATAAAAAGAGCATTTAGAGAAAAATCTAATTCAGATAAAATAAAACAAATTTTGGGAACGGCTGGAGGGCTAACGCTTACAGATGTAATACCTTCATCTAATGGACTGATAATAAAAGCTTATGGAAAAATTGATAAAGATTCAACAGATAATCAACAAAAAGGTATATTAATTGTGACATTGCCCTTAAATGTTGCATTTGCAAATCAATTAAAAAATATGACAGATACTGAAATTGGACTTTATAATGGAACTAAATTTTTTACAGGAACATTATTTGGGGATAATGGAAAGCCTTTAGATTTAGGTGATGGCTCTAAAATATTAAAAAAATTAGAAACTGGTGAAAAAATAGTAATAGAAAACAAAGAGCTTGATTTTGGAAATGTACAAGGAAAAAACGTAAAAAAGAGTTATAGATTTGCATATATACCAATAACAAATTATTTAGGTAAAATAGTAGGAATGATGGCTGTTGGAGTAAAGACAGAGAACTTGAATAAAGCTATTTCAGTTTCTGAAAAAAATAAAAAAGAGGTAAAAAGTGAAATTGTAAAATCTTTAGTAATAGTTGCAATTTTTGGAATATTAATAGGTATGATATTTATATATATATATTCTGGAACAATAACAAAAGAGATTAAAAAAATATTAGATGCAGTAAATAAAGTATCAGAGGGAAATTTAACATTGGAAGTAAAAACAAAACGTAAAGATGAAATAGGAGATTTAGCTGATGGAATAAATAATATGACGAAAAATTTAAAATTAATGGTTTATCAAATAACAGATATGTCAGAAAGAATAGCTTCTTCTACTGAGCAAATATCAGCTACTTCAGAAGCAAACAGAAGTTCTATGGAGGGGATAGTAAATATATCTGGTGAAATAAAAGATAAATCAAATGAAGAGATGTTGAGAATACAAGAAGCTGTGGAATTTATTAGTCAAATTAACGCAGGAATAAAAGATATATCTAAATATTCAGAAAAAGTTACAGAAAAATCTAATGATTCATCAGAATTAGCTATAGAGGGAGGAAAGGCAGTAAAAGATGCAGTTGATTCTATAAATGAAATAAAAAGCACAGTTGAGGAAACGTCTGAAATAGTAAAAAGTTTGAGAACAAAAACGGAAGTTGTAGATAAAGTGGTAACTGTAATAACAGGAATAGCAGATCAAACTAATCTTTTAGCGTTAAATGCAGCAATAGAAGCAGCGAGAGCAGGAGAAGTAGGAAAAGGGTTTGCAGTAGTTGCCAATGAAGTAAAAAAATTAGCTAGTCAATCAGCAGAAGCAGCAGAAGAAATTAGAACTATAATATTAGGGATACAAAGTGAAGCAAATAATGTAAGTAAAAGTATGAAAAAGGGATTAGAAGAGGTAGAAAAAGGTGTTAATATTAGTAATAAAGCAGGAGAAGCATTAAAAAGTATAATAGATTCAGTATATGATACAACAGAAATGGTAACTGAAATAACAGCATCAACGCAGGAACAGTCAGCTAGCTCAGAAGAAGCATTAAAAACTATGGAGGATATAGCGGCAGCTTCAGAACAAACAAATGCAATTTCTGAGAGTATTGCAAAAGAAGCAGAGGAGAGATTAAAAGGTGTAGAAGAAATAGTAGAAGGAGTTAACAGTATTTTAGATGGAGCAGAAACACTTAATAATTTAACCGATACATTTGATATAGGAAAAGATTTTGATATGAGTGAAAATGTAAAAAAAGAGTTAAAGGAATTAGACGATTAGAGAATAGAAAAATAAATAAAAATAGAGCTTGCAAATGGTTGATTTGTGAGCTCTATTTTTATTTACTAGGAAAGTAACTTATTCAGAAAATAAGCTACGCCGTTTTTTTGAAATATGCAATTTTTCAAAGCGAAATTTTTCAGAAACCAAAAATTTTGAAAAACATTTATACTTTACATTATGAAGCGTAGCTTATTTTTTTATTATTGTAAAAGAACAATAATCCTTATATAGAACTTGTGTCCTTAAAGAGGATGAGCGTAAGTTGAAGTTATATTATGACAAAATAAACTGACGGATCTCAACTAATATGTTTTGTGTAAAATCAAAAGTAGGACGTACAAACAGAGAACAAACACATAGATATCGTTCTGATATAGCACTTGGTGTAGATTAAAACGAAAAATAATGCAAAAAACGGTTAAAAATTCACAAAAAATGTATAAAAATATTGACATAATAAAAAAAGTGTGCTAAAATTATAAAAAAGAATTGTAAATGAAATAAAGTGAGGAAAAAAGGAGGTACTAAAAAAGTTAGAAGTGGAGAATGAAAGAAAAAAAGTAATATGTTATAATACACAAATAATAAGGGAGGTAAAAAAATGAAAAAAATTAAGTTGGCATTAGCTTTTTTTACTATTTTAAGTAGTTTAGCTTTTGCAAGTTTTAACGATGTACCAGATAATCATTGGGCATCAAACGCAGTAAGGAATCTTTATAATAAAGGTCTTTTAGCACCGAGTCTTGACAATGCAACGAAGTTTAAGGGTGAGGGGGTTTTTTCTAGGTATGAAATAGCATCTATGCTTTATTCTAATTTGAGTTATGTAAATGAAAAACTTGAGAAAAAAGCTTCAGCACAAGATTTAGAAGCAATAAAGGTGCTGGTAACTAATTTTGCTCCAGAATTGGTGAAATTGGGGGCGAAAAGTGAAGAGTTAGATAAGAAAATAGCAAAAATGGAAAAAGAGATAGGCGATAAACTAGGAAAGAAGATAGATAAATTAAAAGATGATGTAAATAAAGTGAAAATATCTGGAGATTTTTCTGCAGAACAAATAGTAGGGATGAAAGATAATAATCCAGGAATGAGAGATTTAGACTATACAGGAAATTTAACTCTTTCTGGTAAAGTAAATAAAAATGTATCTGCTAAAGTTAAATTAGGTATTGATCAAGGGAAAGATGCTTCTGTAGATGCAATAGAATTAAAAGCGAAATCTAAGAAATTGACAGTAGCTGTTTTTAAAGATAGCGATAAAGAAGTTGCAAGTTTTGAAGATACATTTAACCTGTTTGCGGGAGATGTAGTTGATCCGGACAATGGAGTAATAGCTAATGGAAATTTAAGTTTATTAGGGAACTCTAATAAATATGTAGCTATGATGTATAAAACTGGTTCTGGAGATTTTTATGGGATGCAAGTAAAACAAAACTTTGATGTGTTGAAAAAAATGGGGATAAATGCTTTTGTAAGAGGTAGTTATGCAGAAAAAGTTATTAATTATAAATGGGATGATGCGAAAGATTCTGATAATGCAAGAGGGTTATATGCTGTAGATGGAGAATTGGTAATGAAACCACTTCCTATTTGGAGTTTAACTGTTTCTGGAGAATATGGAACAAGAAGAAGTCCAGGGATAGAAAACGTAGAAAGTGATGCAATTAACGCATATGTACCTAGTAGAGATGCTATATATTTATATACAAAGAATTTATTTAAATTAGGATGGCTTGGAAAGATAGATGTAAGAGCAGGGCTGTATAATTCTGGTGAATATTTTGATGTGGCTGGAATGGGAAAAAATACAAAAACTGTTTTTGCGGAAACAGATATTGTGAAATTAGAAGCAGATAAAAAAGCATATTTGGCATATGCGAGTTATGATCTTTTCAGTAAAGGTTGGTTAACAACAAATGTAATGTATTCTAGTTATGGAGCTAATATAAAAGATAGTTTTCCTAAAGAAAAAATAAATTCATTAACAACATTGAATTTGTGGCCTGGAAAAATAAAATTAGAATTAGAAGGAACTCTTGAAAAAGATGAAAAACTTCCAGCAGATGCAAAAGCTGGAAAGCTTGAAGCTGCAAAAGGAAAAATAACAATAGAACAAAGAAATAAATTTACATTAATACCTAAATGGACAGAAAATGTAAATTTCCATTATGAAATGGATAGAGATAAAGATGAAAAAGTAAAAGATGATGCTAGAATAGCGGAAGTTTACGTAGATCACGGAATGGACATTACTAAAAATAGTTATTTTAAAGTAGCTGGAAAAATCAATATAAAAGGTTTAGGATTAGGAAAAGAAGAAGATGCAGAAAAGAAAACATATGATGAAGATGGTAAATGGGTAATAGACCATTCATATGATAAAAAGGTAACTGTTGAAACTGGTTCTGATTATGAAATTAGGAATGTTAAATTGGCAGGATTTAATAATAAATTTATTGTTGGTGGAAGATTCTCCATAGAGGATAAACAAGGTAAAAGAGTAAATGCCAAAGATAAAGATGGTAATGATATAAAAGTAAAAAATGGAGATAAAGATGTAAACGTTACAACAACAAAAAACACAGAAAAATTAGATGATAATTACAAATATAGAGCGTTTGTATATCATAAATTGGAAAAAGGAAACTTTACTTTATATTGTGGAGCAAAATATGAAAAAGAGTTAACTTATCAAGCTGATAGCAAAAATTTTAAAGATACAGATGATAGTGATGATGTAAAATATGCAGTTGGAATGGAATATAATTTTGGGAACGATACAACAGCAACATTAAAATATGGAGATCCTACAGTAACAGAAGATAGTGGAGATTTTATAAGCGACAAAACATCTTTTGCAGATGGAGAACAAGATCAACTTGCGTTTAATATTTCAGCGAAATTTTAATAAAAAAAGGAGGAGATAGTACAATGAAATTAAAATATAGTTTACTTGCTGTATTAACAACTTTCTTATTGTTATTCAGTGGATGTATATATGAAAATAATAATATGAAAAAACCAGATACAGCGTCATTGAAATTAACAGTTCAAGTTAAAAAAAGTGCAGGAGAAAATGCTGTAACAGCTTTAACAAAAGAGGATTATGTAAAATTTTGGTATTTTGTCCCAAGTACATCAGGGTCAAAATCTATCATAGCTACAAAATTAGCGGATGATTCTACTGATTTAGACGATATAAAAAATGACTTTAATGAAGGGAATACAGGTGAGAAAATAACAAATAAAATAGATGCAGACTTAGCAGATGATGCTATGGATGATTATGTAATATCAGAGGTGCCATTAAATGCTAAATGGTTGGCAGTTGGGATACCTGGAAAAGGGTATGATGTTCAACTAATAGATTTAAGTAAAAAAGGAACTATGAAAAAAGATACAGAATTAGATCTTGGAACAATAATATTACAACCAAGACCAGATAAAACATTTACAGTAAAAGCTGTACCAGAAATGTTTGGAAAAGCAGAATTATCTAAACCTATATATATATCTGGACCATTTAATGGATGGCATGGAAATGAAAATTCTTCTCCAGTTATGGTAAAAGGTGCAGATGGAATTTATACATATACATTTACAGGGATAGCGCCAGGAGAATTTGAATATAAATTTAATCCATCTGAATTTTCGTCACCTTGGTCAGCAGATCCAACAGGAGATAAACTTGTTGATGATGGAAATGGAGGATCAAATCCAAAAGCTATAGTTAATGGTAAAGCTAAATCTAAATATATGCCAGTAATAGCTTTGGATACAAAAAGTTTTAGCAAAAATACAACAGCGGATGCAATTGAAGTTACTGTAGATATATCTAAATATATAAAAGATCCAGTTTCTGATAAAACTATAAAATCTGTTAAAATAAATTATGCTGGAAAAATGGTTTCTGGGAAGATAATAAAAGGAACAGAATTCTCAACTTTATCTAATAAGGCGATGACTTTAGAAGATGGAAAATATAAAGTTAAAAATATAAAAATACCAGAGGTTGGAGAATATTTGTTTACAATAACGGCAGTAGATGAATACGGAATTACAGCAATGTCTTCTGTATATATAACTGTAATGGATAGCGCGCCAGTAGTAAAATCAGTAACAGTAAAACATAAAAATTTAGAAACAGTATTAAAACAAAAAGATGATTGGAGTTACGAAACAACAGTAACTACACCAGGGGCATATGAACTTGGATTTATGGTAGATGGGAATTGGCAAAATGCTACTGCAAGTGATGCGGTACAAGTAGAGACTAAAAAAGATTGGAGTTATACAACTACAATATCTGCACCAGGTACGTATGAACTTGGATTTATGGTAGATGGGAATTGGCAAAATGCTGTTGCTACAAATAGTGTTTCTGGAACAGGAGTTACTTTTGAACCAGCAAGTGGTGGAAATGCTAAATTTACAACAACAACAACAGATACAGCAATAACTATTAATTATGCAGGACCGGCAAAAGTAGTGACAGTTAAGGGAGGCTTTAATGGTTGGGCAGAAGTTGCATTGTCAAGTTCAACTTTTGTTGATTTTACATACGAAAAATCAACAAGTGGAAATGCTAAATTTACAACAACAGTAACAAATACAGCAATAAAAATAGTGTTTAATAATTCTGATTATAATTTGATTCCGTATGGAGTTAAAGTAAAAGGTAGCTTTAATTCTTGGGCAGAAGTGGCGTTGACAGGTGGGAAGACAGTATCTGTTGCACCTGGATCAAATAAAAGAATGGTTGTATTACTTGCAGCAAAAGTTGAAGATAACGATGGAATGAAAGATATAGAATCTGTAAAAGCTGATTTAACTCAATTTGATAAAGGTATGTTAACTTTATTAAATGATGGACAAGCAACAGTGTCTGGTGATGAAAGTTCAACAGATAAAGTATATACAAACTCTATAGAAATGAATTTATTAATAGGGACATATATGATACCTGTTATAGTTAAAGATAAATCAGGGCAAGAAACAACTTATAATGCAGAATTAAAAGTAGAAGAAGATAATGATTATAGTGATGATGAAAATAGTTCAACTATAATAAAAGATATGGGAAGTTTATCAAATTCAGTAAAAATAGTATTTGATGCTACTAAAATGTCAGAGATGAGTGGAGTAGACTTATCTAAAATAAATAAAGTGATAATAAAAGGGTCTATAATAGATGGTAGTTGGGCTAAACACATAGAATTGACAAAGGATGACACAGGAGATACATGGTCTGGATTTATTCCAATAGATAGTAAAACAGGAGAATTTGGATTTGCATATTGGACATCAGATGGAACAGCAAATGATAAATGGGCAGGAAAAAATCCTGATACTGGTAATAATTATACTTACTCAGAAGGGGTAGCAAAAGGATTGATTGTAGAAGGTAAAAAAACAGTAAAAGTAGTGTTTGATGCTACAAAATTATCTGAAATGGATGGAGTAGATTTAACAAAAATAGATAAGATGATAATAAAGGGCTCTATAATAGATAGTGGTTGGGCTAGACAAATAAGATTAACTAAATCAAATGATGATAATACTTGGTATTGTTATACAGAAATAGCTAGCAAAACAGGAGAATTTGGATTTACATATTGGACATCAGATGGAACAGCAAATGATAAATGGGCAGGAAAAAATCCTGATACTGGTAATAATTATACTTACTCAGAAGGAATGGAAAAAGGATTAATTGTAGAGTTTTAATTAATTAAGAAAGGGCTTGTTAAGCCCTTTCTTTTTAAATTGGTTAGTAAAGTATAAATTTATTTAGAAAATAAGCCACGCTATTTTGCTTAAGTATGTGATTTTTCAAGGCGAAATTTTTCAGAAGCCAAAAATTTTGAAAAACATTTATACTCTATGAGTTGAAGCGTAGCTTATTTCTTTATTTGTTAGTAAAGTATAAATTTGTTCAGAAAATAAGCTACGCTATTTTTTAAAATATGCAATTTTTCAAATCAAAATTTTTCAGAAGCCAAAAATTTAGAAAAATATTTATACTTTACGAGATGAAGCGTAGCTTATTTCTTTATTAGTTAAAAAATAGGAGGTAATTGTGAAAAAAAATATATTATTGTTATTTATAGTGGTGTTTTCTTTGTTTGGGTGCATAGAAAAATCAAATAACGTTGAGAAAGAAACAAAAACAGATACAACAAATTTAACAGGAAATACAATAAGGGTTCATTATAGTGGGGACAATAGTTGGGGCTTACATTTGTGGGGTGCTTCTATAAAAACGGAAAAAGATGGTGTGTTCTATATAGGGAATACAAAACATGATTGGACAACTCCACTGAATTTTGATAAAAGTGATTCATTTGGAGTGTATGTGGATTTCAAAATTTTAGATAGTTCGCAAGATTTGAATTTTATTATACATAAAGGAGATGTTAAAGATTCTGCTGATCGGGATGATAAAAATCCTAGAAAGCTAGATGTTTCAAATGGCAATAGAGAATTTTGGGTGATAAAAAATGAATCAACAATTTATACTAAATTGCCTACTATAACTCAAAAAATAGAGAGAGCAGAAATAGTAAATGATAAAACTTTAAAATGTTATATTACTTTAAATGAAGATATTAAATTATCAGAAATAAAAGCATATAAAAGAGATGGGAAAGAGGAGATTATAACTAATGTTTTAAGAGATGGAAAAATATTAACTTTAACTTTAAATAATGCTTCAAAAATAGTTAAGCTAGAGTATAAGGAAAATTATTTTTATACAACAATATCGTCAGAAGCATTAAGAGGAGATATATTTTATTATAGCGGAGATGACTTGGGAGCTAAATTAAATTCTGATGGAACGGTTGATTTGAAAGTGTGGTCTCCTTTGGCAATGGAGATAAGTGTAAATATATATGATAAAACAGACCAAAATAAAAAAGTGGCTGGGGCTATAAAATTAAATTTAGGAGATGCTGGAGTTTGGAGTGTTAAGTTAAATAAGGCAAATACCACTCTAGATAATATGGATGGATATTTTTATCAATATGAGGTTAAAGCATATTATCCTCAAGAAAAGGCAGTGAAAACAAAACAAGCTCTTGATCCTTATGCAAAATCGATGGCTTCTTTTGACAGCAATAGCAATGATAAGATAGGGAAAGGTGCATTTGTAGATATAAATTCTATAAACGCAGGAGAAAAATCTTCTAGTATAGGGAATACAAACTTAGAAAATTCAGTTGAAGAGATAGCATATGAAACCCATGTAAGAGATTTTACAATATCTGCAGAAGATGTGCCTGAAAATGAAAGAGGGACTTTTAAAGGTTTTTCTGATTTTACAAAAGGATTAACACATTTGAAAAATTTGGGGATAACAGATGTACAATTTCTTCCAGTGCAAAATTATTATACGGTTAATGAGAAAGAAAAAAGTTATATGCCTGTTGGAAATGGCGATAAAACGAATTATAATTGGGGCTATGATCCGCATAACTATTTTACCGTGGAAGGATGGCTTTCATCTGATTCAGAAGACCCATATAATAGAATAAAAGAATATAGAGAACTGGTTGGGAAATTGCATGAAAATGGAATTGGAGTAATAATGGATGTAGTTTATAATCACACTTATGGTTGGGATGTATTTGAAAATATTGCACCTGGTTGTTATTATAGGACTATTGAAGGAACAATATCGACAAAATCTGGAGCAGGTCCAACTGTAGAGAGTAGAAATAAAATGGTTAGAAAATTAATTATAGATTCTTTAAAACATTTTGTTAACGAATATGGTGTTGATGGATTTAGATTTGATTTAATGGGATTTATTGATACAGATACGATGAAAGAGATAAGAAAAGAGGTTGGAGACAAGATTATTTTACAAGGAGAGGCTTGGAATTTTACAGATTTGGATAAAGGAGAGTCTCCTATAAAAGGAGAAACGGCTTCATATCCGCACAATATAGATTTGGCTGTATTTAATGATACAAGTAGAGATAGTTATTCTGGAAGTACATCTGCGGAAGGTGATAATGGATTTGTTCAAGGGAATATTAAACTTACAGGAAAAGTAAAGGCTGGAATAATTGGAGGAATAACAGGATTTGATAATGGAGGAACTCCTCTAAATATAACAGAAAATGGATATGATTTGTTTGCGGATTCACCTAAAGAAACTTTAAATTATCAATCTATACATGATGGATTTACTTTGTGGGATAAAATAAATCTTAATATAAAAGGAACGAAAGAAATAAGAGCTAAATATGTAAAACAAGCAATGGCTATGTTGTTTACATCTGAGGGGAAAATAATAATTCAAGGTGGAGATGAGATAGGTAGAACGAAACCGCTTGCACTTGATGATGCAAATGGTTCGAATAGGGCTCATACTAATTCAAATTATGATTCTGATGGCGAGCCAGATTCTAGTGGCGGAAAGCTACATGAAAATAGTTATAAATCACCAGATTATACAAATATGTTTAGATGGGATAGAATGGATAAGGAACCATATGCTTCTTTGGATGAATATGTGCAAGGTCTTGTAAAAATGAGGAAATCAATACCTGCATTTAGATATGAAAATTCTGAAAGTATAAAAAATGGATTAAAATTTATAGGAGAAGAAGGGTTTAATAGTGGAGAAACTACAGGGCCTTTTAGTAATTTTTCGGAACTACAAGATTTAACTTTGAAATTTATAAATGGAGTACCAGACAGTGTATATTATGTAGTTGGAGAAGTTTTTTCTACTGCTGGAGATGGTGGAGTTAATGGGAATCCAGCAACAAATGCATTTAAAATAGTTTTTGATAGTGAAGGAAAAGGAGAAATAACATTTACAAAAGGACAAATATCAGAATTTAATTTAAGCGGATGGAGTGATCCTAATAATTTACAGGTTAAGCTTGTAAAGACTCCTGGAAAGTGGGATTTTGTACCGGGAGGATATTCTGGTAGTGGAAATAACAGTATAAAAATAGGAACGATATCGAATAGCCGAGAGGTTCAAATAGACTTAGGGGTAGAGGATGATATTCCTGGACAAGTTCCGTTTGAAAATAATAATTATATTGCGTATGAACTTGACAATAGTCTAGAAAGTGGAGGAGATACAAATTATACAAAAATAATTGTAGTGCATAATGTTGGTAGCGTAACGGAAAAAATATCTGTTCCTGAAATAGTAAATAATAGTAATTGGAAAGTTATAGTTGATGAAGATGATGCGGGGATATTACCTTTAGATTATAATGAAAACGGAGGAAGAGGAAAAACTAATGTTAAAATTTTAAATGGAGAAATAGATGTACCGGCAAATTCAACATCTGTAATAGCAAAATAAAGAGTAATCTAGAAAAGAAGGTTGGTGTGGATTACACCAATCTTTTTTCTAAAATAAAGAATAAAAGTTCAAAAGTTTTGAGAAAACTTGATAAATTTTGGAGGTGAACGTAAAGTGCAAGATTGTTCTGAGGAATATTTTTGGATATTTAAAGAAATTAAATTGTCAAAACTTAAATTAGTTATATACGTAGAAGAGGTTGAAATTGAATTAACAAAATTAGAGTATCTTTTAATGGAGTTTTTTATAAAAAATCCTGGAAGAGTTTTCTATAGAGGTCAGATTATAGAAAGGGTTTGGGGTGATAATTATATAGGTGAAGACAGAGTGGTTGATTCTTGTTTAAAACGATTGAAGAAAAAAGAAGAAAAATTGAAAGAGCATTTTAAAAGCGTTAGAGGAATAGGTTATATTTTTGAGTGATGTATAGCAGAACATAAAAATGTAAAATAAAACAAAAATGACATCATTTTGACAATAATATATGGTATTATAAATTAAGGATGATAAATTAAGGAGAAAAAATGAAGATAGCTATTATAGATAGTGGGGAACCAGAAAAAAGCAAATTAAATATAATAAAATCAATAAACGTGACTGAAAGTGTTCAAAAGGATGAAAATGGACATAGTACAGCAATTTATAAAATATTAGAAAGATACTTAAATGAAGAAGATGAGATTATTAATATAAAAATCTTAAATAAAGATTTAAAAGGAAGTAGTTTTGAATTGTTAAAGGCTTTAAATTTATTGAAAAATGAAAAAGTAGACATTATAGGGCTAAGCTTAGGAACGACTACTTATAAACATGTATATGGGATGCATAAAGCTATAAATTATTTAATAAAACAAAATATTGTAGTCGTTGCAGCCAAAAATAATTCGGGAAAAATATCTTTTCCAGCAGAATTTGACAAAGTTATAGGAGTCGGGAATTCTATGGTAGATGTAAATGAAAAAAAATGTTTTATAGATTATTTTAATACAAATATATATTTAAATATAAATGAAGAATTAGATATAGAAAATAAAAAAATAGAGTTAATAGGGAATAGTTATTTGGTGCCTCATATAGTAGGGTTGACATCTAAAATATTAAAAGAAAACAGTATAAAAGATTTAGAAGAACTATTGTATATTTTAGAAACGGAAAAAATAGAGGAATTATCTATAGAAAATGAAATTTTATAAAAAAATAAAGGAGGAAAAGATGAAATTATCGTTATATCCATTAAATAACATTGCCAAACAGATAATTAATACTAAAGAATATTTAGATTATGAACTGAAATATTTAATTTTAGATGAAAATGAAGAATTTGTAGGAGAAGTAGAAACAGGTAAAGAGATAAAGAATGTAATAATGAAAAGCGATATAATTTTATTTACAGATGTAGATAATAAAGAAAGAGAAGATAATATAATTAAAATAATGTTAGAAGCAAATAAGCAAAATAAAGATATAATTTTATTAGAACTTCCAACTAGCGAAAAAATAAAAACTTTAATAAAGGATAATAATATAGATGTTTTAACTTGTTTTGAAGGTAAAAAAGATATAGTAAAGTATATTGGAGAATATTTGAATTTTGAAGAAAATTTTCGAAAAAGAGGATATGTAGGAAAAGGAGAAAAAATTAAAAAAATAGGTTTTTTTGAAATATCAGAAAAGCAAGAAAGTTTAAAAATTTTACTAGAATTAAATGAAAAATTAAAAGAACATTATAATATAGGTAATATAGTTAATGAAAAAATAGGCTTTTTATATGATTTTAAACAATTAAAAAATATATATGAAAATTATAATCTTAATTGGCAGTATGTAGAAGCAATGTTTAGAGAATTTGAGAAAGAAAAAAAAGAGTTAATATTTATAGAAGAAAAATTAAGTTTTCCTATTTATGACAATGATATTCATGATTTTATGAAAAAAAATTCTAAATTATTAGGGTATAGATTAGATGAAGCTGTATTAATAATAGATGAATTAAATGAGAAATTTATAAATAAATTATCAAATATGTTTAGGATATATTATGGTTTAGAAGAAATTTTAGCGTGTATAATAGAAAAAAGTTTTTATTATGAAAATAAAAAGAGCATAGACAATATTACTGCAAAATATAATATAAAAAATGTAATTTTTAAAGATGAATTAGAAAAATTTGAAAAAATATTGTTATTAGAAAAATTAGAAGAAAGATTGGAAAATAAATATAAAAAAATGAGTGATAGATATTATGAATTTAAAAATGCTTAAAAAATAATATTCTAAATAGATAGGGGGTAAAAATGAAGCAAGCTGTACTATATCCATTTGATAAAATAACAATGGGGATTATAAGATTTCGAGAGCTATTGGATTTTAAAATTAATTGTGTTGTAGATTTTACAAAGTATGATGAGTGTGATGCTGTAAAATTAGCAATAGGGGAAAAATCAGATATAAAAATAACTAAAGACATAAAAAAAGGATTAAAAGATTCCGAAATATTAATATTAAATGATGCAGGAGCTCCTGTTCAGGTTCCAGCAGCTATTAAATTTTATGAAGAAAATAGATTGCAGGAAAAATGGAAAGATTTAGTAAAAACAGCACATGAAAAAGGGATGAAAATCTTATCAACTCATACTATTTTAGATGTAGGGTTAAAAAAATGGTTAGAAGAAGAGGAAATAAATGTTGAAATTGGAAAACAAATAACAAATGAAGAAGCAAAAAATAGAGTAGAGAAAAATGAAAATTATACATTTAAGAATAAATTAAAAAAAATAGGGATTTATGGTACAAATAGTTGTGTTGGTAAATTTACAACTCAAATGGAATTATTAAGAAGTTTAAGTAAAAAAAGTAAAACAAAAGCAATTATAACAGAGCCTACGGCATTTTTATTTAATCAACCACAATTTGTAAATATACAATCGGATGAACTTTTGGCAGGAGAATATATGGGGGCAATGTTAAAAGAAATGGAACAAGATGATGTAGAATATGTTATAAATTCTGGGCAATCGGGGCTTAGTTTCATACTAAATAGATCAGCTGGTTGGATTAATTATAATATTATGAGATTGACTAGCTTTAATCCAGATAAGGTTATTATTGTTTGTGGATTAGATGATGATAAAGATGTAAGAGATGTTATTGATTTTTTAGAGATTACATTAGGAATTTCCAAACCAATAGCAATTATGATAGCAGATAAAAAAGAAAATAAGGGAGTCTTTGAAAGAATAGAGAAAGAAAAATTGGAACAAAGGAAAAAGGAACTAAGAGAAAAATTTGGAGTTAAAAATGTAGAAATAATAAAAGATATAGAAAAAATAATTCCGGAAATATTAAATTAATAGGAGGTAAAATTGAAAGATATAATATTATATCCAAATAATGATAAAAGTAAATTTTTATTAAAACATAAAGAAATTTTCAATTATAAAATAGCAGGTATGTTTTCTTCAAAACAAGAGTTAGAAGAAAATTTGAATAAAGGAGATAGTATATTTATAACTGGTGAAGATAAAAATTTTAATGAGTTTAAAGAGATTATAAAATTAGGAAATGAAGCAAATAAAAATATTATATTTAATTATAATATTTTTGACAAACAAACAAAAGAATATATATTAGATAATAAATATGAAGTTTTTGCAAATTATGAAACAGAATCAGAAATAATGAAAATGTTATCCAAACAAACAAAAAAACCTTTAAAAAAAACAATAAAAAAAACAATGTTATTGTGTATAGATGATGTTGAAGACAAATTAGATGTAGAGCTAAGATATTTAAAAAAAATAGGTTTTAAATCAGAAGAGTATGAAGTTGTTACAGATGATAAAAGGGGAAGATTGTTTGGATTTAAAGAAATTTATAGCGGTTTGAGCGAATATACTGTTTATGATTATACCAAAAATATTATAGAAGAAGCAGAAAAAAGTAAATCTAAAAACTTATTTCTTGCATATACAAATGATTTTTTAGATTTTGAAGATTATTATAAAATGTTGAAAAATATGTCGCTTTTATACTCTTTTATGCCAGAAGAATTAATAATAGCAACTAAAACAAAAAATGAAAAAATAGATATGTTAGTTAAGTTTATAAATATATATACTAATTTAAACTCAGTGAAAATATTTTTTTATGATAAAGGAGAAGAAAAAATAGAGATATTAAATTAAAAAAATGTAAATAAATTAGGAAGGGGACAAAAATGGAAAAAGTATCTATATATCCAAATAATAAAGTAACGCAAGGCTTAATAAGATTTAGAGAATTACTTAATATAGAAATAAAAAGTGTTATAGATTTTGTTTTTGATGTAGGAAAAGATGCTCAAGAGATATTGGATGGAGAAAAATCGGGAATAATGATAATGAATGAAGTAGATGAAGCGTTAGAAGGAGTAGATACATTATTATTAAATGAAGAGGGAACTCCTTTAGCTCATTTTCAGGATTTTTATTTTGAAAATGAATTGGACAAAAAGTGGAGGTTAGTAGTAGAAACTGCTTTTAATAAAGGGAAAAAAATAATAAGTAGTCATAATATATATAGTAAAAAAACATTAGATTGGTTAAGTGAAAAAAAAATAAAAATTGATTTTCCAGAGCCTATAGAAAAAGAAAATATAGAAAAAAAATATTTTGAAAATTTGAAAAATGATTATAAAACTAAAAATATGACAAGAATTGGAATTTATGGAACTAGAAGTTGTATTGGAAAATTTACAACTCAGCAAATGTTATTTAAGGAATTGAGAAAAAAAAGAAAAGTTAAAACTATCATAACAGAGCCTACAGCTTTTTTATTTAAAGATACATATCCTTTATATAGCACAATACCATTGAGTCAATATGAAAATACAGCATATTTAAGAAAATTAGTAGAAGAAGAAGACAAAAATGAGACAGAATATTTTATATTTTCGGATCAAGGAAGTGTGGTATTAGATTTTGGATTAGGGTGGTATATGACAAAGTTATCATATTTAAAAGGGTTTCATCCAGATAAAGTTATTATAATAGCAGATTATAGAGATGATGAGGTATTGGAAAAAATGATAACTTTTTTCAAAGTTTTTTCCAATATAGATAAACCAATGGCAGTTTTGATTCCAGATAGAGTAGAAAAAGAATATGGAATTTATGAAAAGAAAACTGAAGAAGAGATGAAACAAAGAAAAAAAGAGATAAAAGAAAAATTCAATATTTCAACGGTAGAGATTATTAGAGACATAGATAAAGTTGCTCAGACTATTTTAAATTAAATTTTGGTCCAGATAGATAAAAATAAAATATGGAGGTAATTATTAATGAAATTGAAAAAAGTAACAGAAGAAATGTTTTTAGAAGAAGAATTTGATTTAGAAGGATATAATTATGGAGTAGATGGGGACGATGGAATAGACGGAGATGGAGAAACAGATTCAGGATCAACTTCAACAGGAATAGATGGAGATGGAGAAACAGATTCAGGAATAATTTCAATAGGAATAGATGGAGACGATGGAATTGATGGAGATCAATAATAGAGTTTTATAGAGAAAATGGTTTTAATAAGAAAGTAATTTTTTAAAAGTTCAATCTATCTGGACCTTAAATTAAATAAATTGTTTAAAAAGAAGTCGAATTTTTTGACTTCTTTTTGAACTGTTTTAGAATAAAAAATCTGTTAGTTTATAAAAAAATTAAGAAAAGAATGATGAGGTGCGGTCTGATATGAATTATATAACGACAGTGAAAGAAATATTTAAATTTATGAGGTATTTAAAGCCATTTTATAAATTTCAATTTTCAATAATGTTTGTTTTGCTAATTTCGACAATATTGGGGTTGATAAATCCATTAGTATATAAAATGGTGGTAGATGATTTTTTTATAGGTAAAAATATAGAAATACTTTATTTTGCTATTGCAATACAGATAATAGTATTTATATTTACTAAAATACTGTCAATTTCAAAAGAATATTTATCGGCATATATGGGAAATTTTATATCAATGACAATGAGAAAAAATGCATTTGATAAAATAATGAAAGCAGAAGCAAGTGAAATGAATAAAATAAATATAGGAGAGATTTTTGTTACTTTTGATAATGATATTTTAGCGATAGAAAATGCAATAACAGGAACAATTATTAATTTAATCCTTACATTATTTAATTTCATAACCAATACACTTGTTATGTTTTTATTGAGTTGGAAATATGGGATAGTTGTATTTTTAGTAATACCATTCCAATTAATTAATAATAATATATGGATAAAACATGTAATGGAAAAAAATAAAGCAATAAGAAAAAGTGTATCTGAAATGTTTGAATTTGTAAATGAGGCATTTTCGAATATGAAATATTTAAAGTTACTTACAAAAGAAAATTTTGCTAGAAGGGTTTTTTTTAAGAGAAATAGTAATATGGTGATTAAGATATTTGATTCGCTAAAAATAAGCTGGATAACAGGGACGATTAGTGAAGTGATAGGACTTGGGGACTCTATATTCTTGTTGATTGTCGGTGGCGGTTTGATATATAAAGGTGAGATAACGTTAGGAACATATATGGCATTAATGTCATATTCGGGAACTGCAAAAGGAAGCTTTATGAGCTTATTAAATTTCAACATAAATATGGCTCCCGTGATGATTTCGATTGAGAGATTGGAAAAGTTATTACAATTATCTCAGGATAATCTTAAGGGAGAAAAGCCGAAAGAATTTAGCGGAGATATAGAATTAAAGAATTTGGATTTTTATTATGAAGAAAATAATTATATACTAAAAGAATTTGAGTTAAAGATAAAAAGAGGAGAAAAATTAGCATTAATAGGTGAGAGTGGGAGTGGAAAATCTACAATAATAAATTTGATAATGGGTTTATATAATCCAATTAATGGAGAAATTAGAGTTAATGGATATGAGTTGCGAGAATTAGATAAAAGATATTTTAGAAAAAAAATAGGAATTGTAAGTCAGGATAGTTTCTTTTTTAGTGATAATATACGAAATAATTTATTATTAGGTGATAAAGCTAAAGATGAAGAGATAATGAGAGTGTGCAAAATTTGTCAGATAGATAAATTTATAAATGATTCTCCAAACGGGTTGGAAACTTTATTGGAATTTGGAGGGACAAATCTTTCTGGTGGGCAAAGGCAAAGATTGTCTATTGCGAGAATGCTTTTAAGGCAGCCTGAAATAATAATATTGGATGAAGCTACATCAGCGCTTGATAATATAACGGAAGCTTGTATTTTGAAATCTTTGGAGGAAGAATTAAAAACAAAAACAGTTATAACAATAGCTCATAGATTGTCGACGATAGAGAGTTCTGATAGAATAATCGTATTAAAAGATGGAGTTATAGTGGAAGAGGGAACGCATGAAATATTATTAGAAAAAAGAGGGGATTATTATAATTTGCAAAAACTAAGATCGGAGGATAAAGCTAATGATGAAAACTCCGCATAAGATTATGAAGTTAATAAAAAGTACAGTTGTGTTGTTTTTGGTGGTAATAATAGCTACTTTATTTTTATTTCAAAAAACTGAATATGTAGAAGGGAATGGAATTGTTATTGCGGATAGATATAATGTTTATTCTCCTGCTTCTGGTGAGATAAAAAGGATAGAAAAGGATTTTGGAGATATAGTAAAAAAGGGAGAAACGGTTATTGAAATTGATCCGAAAGAGACAGAAAATAAATATATAGAAAATAAAATCGCTATGGATAATTTATTTACAGAATTAAAAATAAAGGAAATGGATGAAAATCAATTAGATTTAGAACAAAAAAGTTATGAAAATAATTTAGAATTATTAGAAATGGATTATATAAATTTGGAAGATGAGTATAAAAATTCTGAATTTTTATATAAAAAAGGAGAAAAATCAGAATATGAACTAAAGAAAAGTAGATATTTACTTAAAAAAAAGAAATTAGAAATTAGTGATTATAAAATTAAAAATAATATAAAAATTAAAAAAAATTTAATAAAAAAAGAAAAAAGAGATCTAAAAAATCAAATTAATTATTATGAAAATAAGGGAAAAGATTTAAAGGAAGAAATAAAAAAATGTATAGTGAAATCAGAATATGAAGGTGTGACTATAATAACAAAAGATTTAAAAGAATTAATGGGCTCAACAGTAAATAAAGGAGAATTACTTTTTACATTAGCTGATTTAAAAAATCTTAAAATGATAGTTACTTTGCAAGAAAATGCAATTGGAAAAGTAAAAGATGGACAAAAAGTAATTATAATGTTAGATGCGATACCTTATGAAAAATTTACAACGATTGAAGGCGAGGTAATAAAGTTATATCCGCAGGCAAAAGATGGAATGACTTATAATAAAGTGGAAATTATAATAAAAGGATTTACGAATAAATTAAAAAAAGACAAACTAAAAGAAATAAATTTAAAAAATGGATTAAAAGGAAAAGCGAAAATAATTGTAAAAGAGAAAAAAATAATTGCAAAATATTTGTGGGATAAATTGTTTGAATAGGAGCTGGAATGAAAAAAATAGTAATAATTTTAGTGATTATAATACAGAGTACAATATATTCAGGAACGTTAGAAATTCTAAAAAAAGAGTATAATGTTATAAATAAAGAGATAAAAGGATATTTGGAAAATAAGGAATTGGGGTATTCTGAAATAGAATTATCAAAATTATATAATAGTTTGTTTTTAAAAGAAATTGATATTGAGGAAGAAAAGAAAAATATAAAAAAAGAATACTTAGATTACAATAATCAAATTAAAATAATAACGAAGAGCTTAAAGTTTTATAGTAGAAAAATAAGAGAATATATAACCAATTTAAAATTGATGAAGGATAATTTAGAAAACACTAAAAAATCAGATATAGAGGAGTTAGAATATACAATAGCGTATAGTAATGGCGAAATAAAAAAACTTGAAAAAAGAAAAGAATATATTGAATATATGTTGAAAGAATCTGAGTATAATAGTGGAATAAAATCTATTAAAAGAGAAGATTATATAAATAAAAAATATGAGTTGTTTGATAAAATATTAAAAAAGGAATTGTTTTTAATAAAATTAGAAGAAAGCGGTAAACAAAAACAAGATTTAAAGGAAGAAGAAATAGAGATTAATAAAATGAAATATAAAGAGGAATTAGAAAAATTAAAAAAAGAAAAACTTGGAAAAAAGAAAGATTTATATATCTTAAAAATTGATGTTGAGATTTTAAAACGAAATTTAATATTAAAAAATAAAGAGGTGGCAGTATTAAAAGATAAAGTGGAAAAAGGGGTTTCTGGATATAAAAAATATTTAGATAAAGAACAAGAGGTGACTGAATTGGAGATAAAGAAGATAGAAATGGAAGGAAATATAAAATATCTTGAAATGGAGCTTGAAGAATGAAACAAAATTTTATAAAGGTAATAATATTAATGATTTTGTTTCAAACAAATTTATTTGCCGTAGAAAAAATAAATCTTGAAGGCGTAATAAAAAGTTTTATTGAAAAAAGTAGTTATAGAGAAAAAGAAAAGATAGAAATAAAGAAGTTAGATATAGAAAAACAGGGAAACGTTGCAGAAGAATGGCGAAAAATAAGTTTTAATATAAATCCGATTTATAATAGTTATAAAAATAAAGATACGAATAAATATTTTGGAAATACAACTTTAAATTTTGGATATAAAATGTTTTATTTGAACTTTAATTATGATAATTCTACGGATAAGCTGAAAAGAACAATCTATAAAATAGGATTAAGTGAAAGTTTGGATGATGTTATATATAGCGAGCAAAAATATAAAAAAAAATTATTAAAGTTAAAAGAAAAGGTTACAATGAATAGGTTGAGTTCTGAAAAAATAACAGAAATAAAAAGTATTATAGAACTTTATGCAGATATAAAAAATATTGAATCAGAAATAGATATAAAGAGAAAAACTTTAAAAAATAGGAATAAAGAATTTGAAAATTTAAAGGAAAAATATAAGCAAAATGAAGCAGTGAAAATAGATGTAGATTATATGAGTATAAAAATAAAAGAGATAAAAAATAATATAGTTTATTTAGAAGAGTCATTTGAAAATAATAGTAAAAAACTTCTTGAAAAAGTAGGTATTAAAAGTCGAAAAAAGATAGTATTTGAGGATATATCTGATGTAAATATAGATAAAATAGGTGTAAATGAATTAGAAATAACAAGTAAAGGGTTAGAAATAAATTCAAAAGAGGAAGAGATTAAATATAGTGTAATAAGAAGTTGTCCAGAAGTAAAGTTAGATGTAAATTATGATATAGAAAATAAAATATGGATGGCGGGAGTGGTATTTACAGGCAATGTATTAGAATCGAAGACAGATATTAAAACTGAAAAAGAAGAATTAAAAAAGCTAAAAATAGAAAAGAAAGAAATAGAAGCTAAAAGAAATAGAACGGAACAACAATTGGAGATAGAATATCAAAATTTATTAAATAAAAAAAAGATATTGAAGGATAAAAGAGATAACTTTGGAAAGAGATATCTAATTTCAAAGAGTGTATACAAAAAAGGGTATATGAGTCTTATTAATTACATAAAATCTCAAGAAGACTATGAAAAAGCAGAAATGGAGTATAAAAAAGCAAAGAATGAGTTGAATGCTTTTAAATATAAAATAAAATTTGGTAAAAAAACATTTTATATTTAAAAGCTATGGGATTTTTAGATTTTGTGAATTAAAATAGAAAAGAGTTGAAAAATAAGTGCAAATGTGTTATTATAAGATAAATTATCTACAAGGAGGACAAAATGAAGAAAATAATTTCACTGTTTGGGATTTTAACATTGCTTTTAGGTTGTGCTAATAATAATGTTAAAATGAAAAAAGAGGTTAATAAAAAAATTGAGAAAAAAGTTACAAAACAAAAAAAGAAAAAAGAGGGATTACTAGTAAATTTAAATAAACCAATTGCAGAAGGAACTTTGAGAATACATTATTATAGAACAGATGGAGATTATATGAAATGGGGCCTTCATTTATGGGGAAATGCAATAGATTTTCCAGTTGCTTGGGATAGTCCATTAAAATTTGAAGCACAAGATGATTTCGGGGCATTTAAGGATATTGCAATTGCAGATAGTGGTAAAAAATTAAATTTTATTATTCATTCAGGAGGAACAAAAGATGTAGCCAAAGATAGAACTTTTCCATCGTTAAAAGGGGTAAAAGAGGTATGGTTATTAGAGGGGATTGAAGATGCTTTCTTAAAAAAACCTGATGTAAATATAAAATTATTGCAAAGTGCATTATTAAAAAAATCAAATAAATTAGAATTAATACTTACGAATAATAAAAATCTAAAAAAAGATGATTTTATTATTTTAAATAGCGATAATAAAAAAATAGATATATCAGATTTGAAATTAATTGGAAATAAAAAAGTAGAATTAACTGCGAATTTTGATTTGTCAAAGATATATTCTATAAAATATGGAGATAAAAAAATAGGAATTAGAGTTGCTCCAGAATTAATTGATGAAAATTATTTTTATAATGGAGATGATTTAGGTTTTACTTATAAAGATAATAAAGCTACTTTTAAATTATGGGCACCATTGGCAGAAAATGTAAAATTATATTTATATGATAAAAATGATCAATATAAATTAATTTCAACAGATAATATGATAAAAAAAGATAAAGGGGTATGGGAATATCAACAAAATATAGATTTTGGAAATATTGTAGGATATTTTTATCAATATGGAGTAACTATTAATGGAAAAGAGAAAAAAGTATTAGATCCATATGCAAAATCAATGGCAGCTTTTGAAGATAAAGAAAAGGATTTAGTAGGAAAAGCTGCAATAGTAAATCCTTCAGATTATTCAGTTGAAAGTTATGCAAAAATACCAGGATATACAAAACGAGAAGATGCAATAATATATGAAGTGCATGTAAGAGATTTTACATCAGATCCAAATTTAAAAACAAAAGCAAACTTTGGGACATATAGAGCATTTATAGAGAAATTAGGCTATTTGAAAAAACTTGGTGTGACACATATTCAACTTATGCCAGTATTAAATTATTATTATAGCAATGAACTAGATCAAAAAAGAGAGTTGAAATATTCCGCAAGAGGAAATAATTATAATTGGGGATATGATCCTCATAACTATTTTTCGCCTGAAGGGATGTATTCAGAAAATCCGAGAGATCCTAATGTTAGGGTAGAAGAGTTGAAAGAGTTAATTAATGCAATACATAATGCAGGAATGGGAGTAATATTGGACGTGGTATATAATCATACTGCTAAAACAGATATTTTTGAAAATATTGTACCAGGATATTATTATAGAATGACTAATGATGGGAATTTTAAAAGCAAGTCAGGATGTGGAAATGATGTAGCCACAACACATAAAATGGTTAGAAAATTAATAGTAGATTCTTTGAGATATTGGACAAAAGAGTATAAAGTTGATGGGTTTAGATTTGATTTAATGGGTCTTATAGATACAAAAACTATAGAAGACGGATATAAAGCGGCTAAAAAATTAGATTCTAAAACTCTATTTGTAGGTGAGGGGTGGAAAATGTATGATGGTCCAGATTCTACAAAAGGAGCTGATCAAGATTGGATGAATAAAACAGATGATGTAGCAGTTTTTTCCGATTCATATAGAGATGTATTAAAAGCTGGCGGATTTCACGAAGGAGAAAAGGCGTTTTTAACAAAAGGAAGACAAAGAGTTAAAGATGTATTTGAAAATATAGTTGGAAGAGCTACTAATTTTACAGCAGATGATCCAGGAGATTCTGTACAATATATATCTGCTCATGATGGATTAACTTGGCATGATACTGTGGCGTATACAGTAAGATTAGATAGCGAAAAAGATAAAGCTGAAATATATAAAAGGTTAAAATTGGGGAATTTAATAGTTTTAACATCTCAAGGAGTAGCATTCCTACATGCAGGAGAAGAGATGGGAAGAACTAAAGAGTGGAAAGGTAAGGGAAAACCTGAAGGAGAAAATGTTGGGAAATTTATTAGAAATTCATATGATTCTTCAGATATAATCAATAGAATTGATTGGAATTTAGCAGAAAAAGATCCATTTGGTAAAAATTTAGTAGATTATACAAAAGGTTTAATTGCAATAAGAAGATCAACAGATGCTTTTAGACTTGGTACAGAAGAATTGATAAAATCAAATACAAAATTAATAATGTCAAAACCTAAGAAAAGAAAGGATTTTGCTTTGGGGTATTTGTATAAATCAACTAAAGGAGAAGAATATTATATATTTATAAATTCTGATAAAAATGAAAGAGATTTTACAATAGATGCAGATTTAACAAATGCTAAAATATTAGTAGATGACGATGAAGCTTCTGTAAATGGGGTAAAAAAATTAACTGGAGTAAAAATAGAAAATAACAAAATTATATTGTCGCCATTAACGGCAACAATTATAAAAAAATAGCTATCACACACTTAAACAGTTTGCTTTCGGGCAGGCTGTTTTTTGTTTTATAAATTTTATTTTATAAACGTTCTTAAAATAATTTTAGGGTATTTTTTTATACTTTAAAAAAAGAATAAAGTGTGTTAGAATAAAGATACAAAAAAGAAAAAATTATAATTTGGGAGGGAAAAATGGCAAAACTATGGGGCGGAAGATTTAAAAATAATACAAGTGAAATAATGGATAAATTTAATGCATCAATTACATTTGATAAAAGAATGTATGAAGAAGATATAAGAGGAAGTGTGGCACATTCTAAAATGTTGGCAAAGCAAGGTATAATAAAAGAAGAAGAACAAAAGAAAATAGAAGAAGGGTTATTTAGAATTTTAGAAGAGATAAAAAAAGATGAATTTGAATTCCTTATTTCAGATGAAGATATACATATGAGTATAGAAAAAAGATTAATAGAAATAACTGGAACTGTTGGGGGTAAATTACATACAGCAAGAAGTAGAAATGATCAAGTGGCGGTTGATATAAGGCTATATTTGAGAAAAGAGATAAAAGAAATAGAAGATTTATTAAAAGAATTACAATATGTAATAGTTAAAAAAGCAGAAGAGAATAAAAAGGTTATATTGCCGGGATATACTCATTTACAAAGAGCTCAACCAATAGTATTTGGGCACCATTTAATGGCTTATTATGAAATGATAAAAAGAGATTTAGATAGATTAAAAGATTGTTATAAAAGAGTAAATCAATCTCCTTTAGGAGCTGGAGCATTAGCAGGAACTACATTTCCAATAGATAGAGAATATGTAGCTAAAGAGTTAGGCTTTGAAAAAGCAACAGAAAATAGTTTGGATAGCGTAAGTGATAGAGATTTTATTATAGAACTAAATTTTGTGATCTCTATGATAATGATGCATCTATCTCGTTTTTCAGAAGAGATTGTACTTTGGTCTACAACTGAATTTGGATTTGTAACTTTGGATGATAGATATTCTACTGGCTCAAGTATAATGCCGCAAAAGAAAAATCCTGATGCAGCAGAACTTGTAAGAGGGAAAACAGGAAGAGTTTATGGAAATTTAATGGGGATATTAACTGTTATGAAGGGGTTGCCTTTAGCATATAATAAAGATACACAAGAGGATAAAGAGGGAGTATTTGATTCAATAGATACTGTGAAATTATCGTTAAATGTATTTGTAGGAATGTTAGAGACTTTAAAAATAAATGAAGAAAATATGAAAAATGCAATTTATGCTGGATTTACAAATGCAACAGATGTAGCAGATTATTTAGCTAAAAAAGGGATGCCATTTAGAGATGCTCATAAGGTTGTGGGAGAAATAGTTTTATATTGCGAACAAAATAAAAAGTTAATTTCCGATATGAAATTGGAAGAATATAATAAGTTTTCAGAACTATTTGAAGAGGATATAACAGAAAAAGCATCTATTGAAGGATGTGTGAGAGAGAGAAAATCATATGGTGGAACTGCATATGTTGAAGTAGAAAGACAAATAGAGAATGCGAAGAAAGAATTGAAGATAGGAGGTTGGAATGGAAATAATTAAGAATCATGAAGAAAAAATTAATAAATTATTGGAATTTTCAAAAGGGATGATAAGTGGAGAAGATGGTAAATTTTTAGTTGATAAATATCAAAAAGTTATAGATGAAATAACGCCGTTTGATGTTATTGAATTAGAAGATAGGCAAATTAAAATGGGAATAACTCCTGCAATTATAAAAAATAGTATAGAAAAAATTATGAATATTTTTTATACTCCTTTAGAAAATTATAATTGGGAAAAACCAGAAGAAGGAAATCCATTATATTATTATATGAAAGAAAATGATAAATTAAAAGAGATATTGGAAGAAATTAAAAAAGAAGCAATCATGAAACAAGATATAACAAAATTAAAAGAGTATATGGTAAAAATAAAAGAGATAAATAACCATTATATAAGGAAAGAAAATGTATTATTTCCATATTTAGAAAAATTATGGACAAATTATACCCCTTTAAAAGTTATGTGGTCTTTACATGATGATATTAGAAAAATGCTGAAAAATATAGATAAATTAATAGAACAAAATAGTTCATTTAATGTAGAAATAAATAAAACTGTTGGAGAATTTTTCTTTTTGATTTATGGAATGATTTTTAAAGAAGAATTAGTGGTATTTCCAGTAGCTATGCAGACTGTTCCAGAAAAATCATGGCAAGAGATGATGAAAGAGGAGTTGGGATTTGAATTTTCATTTATAGAAAAACCTATTATAAAATTTGATGATGAGGTTAAAAAAGATAATATGGGGAATTTAAAAGAACTATTTTTTAAAGTAGAAACAGGAGAATTAAATAAGAATCAATTAGAATTAATATTAAATAGTTTGCCAATTGACATAACTTTTATAGATGAAAATGATGAAGTGAAATATTTTTCTAAACCAAAAGATAGGTTTTTTCCAAGGACACCTGCAATTATTGGGCGAAAAGTGCAAAATTGTCATCCGCCAGAAAGCGTAAATATAGTAGAAAGAATATTAGATTCATTTAAAAGCGGAGAAAAAGATAGTGAGAAATTTTGGTTAAAAATGAGAAATAAATATATATATATTCAATATTTTGCTGTGAGAGATGATAAAAATAGATACATAGGAACATTAGAAGTAGGGCAGGATATAACGGAAATATCAAAATTAGAAGGAGAAAAAAGATTAGTAGATGATACGAAATAAGTTGAATTTTTATGTGATAAAGGATAAAAAACTGTATTGAAAAATTTGACAAAAGTACTAAAAAATCGTATAATATGTAAACTAATTGTACTAATAAAATAGACAAAACTAAAAGGAGGAATGAGTAATGAAAAAGTTAGTAGCGTTATTGATGGTTTTATTTACATCATTTGTATGGGCGGGAGAAATAAAAATAGGGGTAATTGCACCGTTATCAGGACCAATAGCAGTATATGGGCAAGCAACAGTAAATGGATTTAAACTAGCAGCAGAAAAAATTAATGAAAAAGGTGGTATTTTAGGAAATAAAATAAAATTAATAATTGAAGATAATAAAGGTGATGCAGCAGAAGCAGTTAATGCAGCGAAAAAACTTATTAATTTGGATAAGGTAGTAGCAGTATTAGGACCAGTAATAAGTACAAATTCATTAGCTGTAGCACCTATAATGCAAGAATCAAAAATACCAATGCTTACACCTACTGGAACAAATGTAAAAATAACAGAAGCTGGAGATTATGTTTCAAGAGTTTGTTTTATTGATCCTTTCCAAGGAGATGTAATGGCAAACTTTGCAATAGATAATTTAAAAGTAAACAGTGCAGTTATAATGAAAGATGTTAATAGTGATTATAGTGATGGATTAGGGCAGGCTTTTAAAAAAAGATTTGAAGCAAGAGGTGGAAAAGTAATATCAGAAATTTCATATGCAGCAGGAGATGTAGATTTTACTTCTCAATTAACAAAAATAAAAATAAAAAAACCAGATGTAATATTTGTGCCTGGATATTATAGTGAAGTGGCTTTAATAGTAAAACAAGCAAGAGATTTAAAAATAAATTCAACTTTCCTTGGTGGAGATGGATGGGATAATGGAAAATTATTTGAGATAGCTGGAAGCGCAATAAATGGAAGTTATATTAGTACACATTTTTCACCAGAAAGTGCAGATCCAATGGTTCAAAATTTCTTAAAAGATTATAATAGTAGATTTGGGGAAGCTCCAAGTGTACTTGCTGCATTAGGTTATGATGGAGCAGATGTTATGTTTGCTGCAATGAACAGAGCTGGAGAAATAAATTCAGAAAAAATAAAAGATGAAATAAACAAAACAACTAAATTTAAAGGTGTAACAGGGGTAATTACTCTTGATAAAAATAGAAATGCAGTAAAAAGTGCATTTGTAATTGAAGCAAAAGATGGAAAATTTGTATATAAAACAACAGTTGAACCAGTAGTAGAAAGTACAGCAAAAGAGGTAAAACAAGCCGCAACAAAAGAACCGGTTAAAGCACCTAAAAAAAGTAATTCTAATAATACTGTAATAATTGCAATAATAGCAGTTGTAGCATTATTCATAGGAGTTTCATTAGTGAAAAAAAAATAAACTAGTATTTATAAAAAAATAAATTTATTTTTATAAATAAAAATTAAAAATAATAAAAAGATTATTATGGAATGTTTAAAAAATAATTTTATCATATTTTGTTGTAAAAATGCTTGAAACGTTGCATATTTTAAAACAAAAAGGGTAAGTTATTTTTAAGCCATTCCTATATTAAAAAAGGCGGCACAATTGTGCCGCCATATTTACCTTACTGGAAAAGAAAAAAGTATACTACGGAGGGAAAAAGATGACAGAATTTATACAACAATTGTTGAATGGTTTATCTCTTGGATCTATATACGCCCTGATAGCTTTGGGATATACAATGGTTTATGGAATTTTACAACTGATAAACTTTGCACATGGAGAAATATATATGTTAGGAGCTTTTACAGCTTATTATTTGGTATTTTATTTTAAGCTGAATTTTATATTAGCTTTGGTTTTATCTATGATTATAACTGCAGGAATAGGTGTTGTTATAGAAAAATTAGCATATAAACCACTTAGAAATTCATCTAGAGTTTCTGCACTGCTAACTGCACTTGGAGTTTCTATGTTATTACAAAATTTAGGATTAAAAATATTTGGGGGAGATCCAAAAGCATTTCCACAATTAATACCAAATAAACCTATATTTATAGGGGATTTGATAATATTTAATCAACAAATAGTTATTGTTGTTGTGGCTATAATATTAATGGTTATTTTAGAAATCATTGTACACTATACAAAAATAGGAAAAGCAATGAGAGCTGTAGCGTTTGATAAAGATGCAGCTAAATTAATGGGGATAGATTCAAATATGGTAATATCTTTTACATTTGCAATAGGATCAGCATTAGCAGCAGCAGCAGGTGTATTAATTGGAATGAGATTTAATAGAATAGATCCTCTTATGGGGATGATGCCAGGGATAAAAGCTTTTGTGGCAGCGGTATTAGGAGGAATTGGAAGTATACCTGGAGCAGTTCTTGGGGGACTTATAATGGGAATTTCAGAATCTCTTGTTGTAGGATATTTATCATCTACTTATAGAGATGCAATTGCATTTGCTCTTTTGATAATTATATTGATTATTAAACCAGCAGGATTACTTGGTAAAAATATAAAAGAGAAAGTTTAACAAAGGAGGAGATCAATGGAAGTATACATTACTCAGATATTAATAATTATTGCTATAAATATTATATTAGCTGTAAGTCTTAATTTAATAAATGGAATGACTGGACAATTTTCATTAGGGCATGCAGGATTTATGGCAGTTGGAGCATATACATCAGCAGTTTTAGCCAAAACATATGGCGTGAATATTTTACTTGCAATATTAGTAGGAGCAGCAGTGGCAGGTGTAGTTGGATTTATAATTGGATTTCCGGTACTTAGATTAAAAGGTGATTATTTGGCTATAGTGACTCTTGGATTTGGAGAAATCATTAGAGTAATTATATTAAATATGAAAATAACAGGTGGAGCAAAAGGATTACCTGGAATACCAGGTGGGATAAATTTGTTAATATCTTACACTTTTGCAATTGCAACTGTAATTATAATAAGAAATATTATGCTTTCTTCTGAAGGAAGAGCATTTTTATCAATAAGAGAAGATGAGATAGCAGCAGAAGCAATGGGAGTTAATATAACTAGATATAAAGTATTGGCATTTATAATAGGAGCTTTTTTTGCAGGAATTGCAGGAGGAGTTTATGCTCATTTTTATCAATTTTTAAAACCTGATAGTTTTAATATATTTAAAACAGTTGATATATTATTAATGGTTGTGTTAGGTGGAATGGGAAGTATAACTGGTTCTATAATTGCAGCAATAATATTAACAATAGTTCCAGAGCTTTTAAGAGGGTTTTCAGAGTATAGAATGGTAGTATATTCATTAACATTAATAATATTAATGATAGCAAGACCAGATGGAATATTAGGTAAAAAAGAGATAACAGACATAATATCATTCAAGAAAAGAGGTGCATAAAATTGCTGTTAGAAGTAAAAGAACTTAGTAAAATGTTTGGGGGATTAAAGGCAGTAGATAATTTTTCTATTGAAATAAAACAAAATGAAATTATGGGATTGATTGGGCCTAATGGAGCAGGAAAAACAACAGTTTTTAATCTGCTTACAGGAGTCTATGAGCCAACTATGGGATACGTAAAACTTTTGGGAGAAGATGTTACGGCACAAAAACCATATATTATAACTGAAAAAGGGATTGCCAGAACATTTCAAAACATAAGATTGTTTAAAGATTTAACTGTTTTGCAAAATGTATTAGTTTCAAAACATTTTACTGTAGAATATGGATTGTTTGGGGCTATTTTTAGGACAAAAATATATAATAAAGAAGAGATAAGAGTTAGAAAAGAAGCAGAAGAGCTGTTAGATAGATTTGGACTTTTGGAGAAAATGAATTTACCTGCAAATAGCTTGCCGTATGGAGAACAAAGAAGGCTGGAAATAGTTAGAGCACTTGCTACAAATCCAAAATTGTTATTATTAGATGAACCAGCAGCAGGTATGAATCCTCAAGAAACTGCAGAATTAATGGATTTGATAAAAGGGATAAAAGATGACTTTGATATATCTGTGTTACTTATAGAGCATGATATGAAATTTGTAATGGGATTATGCGAAAGGCTTGTTGTTTTAGATTATGGAAAAATAATCGCAAAAGGAAAACCAGAAGAAGTAAAGAATAATCCGAGAGTAGTAGAAGCGTATTTAGGAGAAGCAGAATAAAAAATTATGAAATAATGATTAGCCACAAAAGATAAATATGTTTTTGCAGGTTAACTATATTCTTTGAAATTAAAATGAGGTGATACTGTGTTAAAAATAAAAGATTTACATGTGCATTATGGGAATATTCACGCTATAAAAGGAATTAATTTAGATGTGAATGAAGGTGAAATAGTAACCTTAATTGGAGCTAATGGAGCAGGGAAAACTACTACATTAAGAGCAATATCGAAATTACAATCTCCATCAGCAGGAGAAATTAATTTTTTAGATGAAGATATAACAAAAATGAGTGCGACAAATATAGTAAAAAGAGGGCTTATACAAGTTCCAGAAGGAAGAAGAGTTTTTTCTCCAATGAGTGTAATGGAAAATTTAGAGCTTGGGGCATATCTTCGAAAAGATAAAGCTGAAATAAAAAAAGATTTGGAACATATATTTAATATATTTCCAAGATTATATGAAAGAAAAACACAATTAGCAGGAACATTAAGTGGTGGAGAACAGCAAATGCTTGCAATAGGAAGAGCATTAATGAGTAAGCCTAAGTTGTTGCTTTTGGATGAGCCTTCAATGGGATTGGCACCATTATTGGTAAAAGAGATATTTGAAATAGTAAAGGATATTAACAAGAATCAGGGGATTGCAGTTTTATTAGTAGAACAAAATGCGAATATGGCTTTGAAAATAGCAGATAGAGCATATGTAATTGAAACAGGAAAAGTTGTAATGAAAGGGAATGCTAAGGATATATTGGAAAATGCAGATGTTAAAGAAGCTTATCTTGGATAAGCTTCTTTTTTATAGAGTAAAAGAGAAAGAGCTTTTTATAGTTGTTTCTAAGGAACGTTTAAAAAATAAGTTTCTCATTTTTGTTATAAAAACGGTTAAACCATTGCGTATTTTAAAACAAAATCAGAAGATTATTTTTAAGCCGTTCCTAAATAAAAATACCCTTTCAGTAACGAGAGCGACTGAAAGGGTATTTTATTATTTCAAATATTTATCTAGCATTTTTTGTAATTCACCTGATTTTTCTAATTTTTTTATATTTTTATTGAAAATATTTCTTAAATTTAATCCTAAATCAGTTTTAGGAAATAAAAAGTAAAATTTTCTTGGAGCCATATCTTGTATTTTCACAAATTTTATATCACTGTCTAAATATTTTTGTCCTACATATTCAAATCCCTTCATAATTTCATATTCTGCTAGAAAGATATCAAATCTATTTTTCTTTAATTTTTTAACTAATTGGGTATAATTTTTTGCTCCTGTATCAATTTCTGTATTGTTAAATCCATAAGTTTTATAATTATATCCAAGTAAACCTCCAACTTTATATTTCTTTAAATCGGATTTATTTTTAATGTCTAATCCGTTTGGAAATTTTTTAATATTGTAAAAATAGTAAGAATTAATTGTGTAAATTGGTTCAGAGTAATAATATATTTTTTTTCTTTCCTCATTGATAGAAGCATCCATTAATACTTGATATTTACCAGTTTCTACATATTTTTTAGATCTTTTCCATGGTAACAATCTTACGTTTATTGTAAAATTTTCATTTTTAGCAATTGTTTTCAATAAGTCGTAAGTGAACCCTGATATTTTATCTGTTTTTTTACTATTTTTTCTTATGAAAAATTCATAAGGCGGCCATTCTCCGACATCTCCTGCTGCTTTGAATGTTTTTCCTGAAAATTCACCACCTAAAGCCATTAGACTTAACATAGAAAAAATACTACATACCAATAAACCCCATTTTAACTTTTTCATTCCAATCTCCTCCAAATATTATATTTTTAGTATAATTTTATGTAGCTCTAATAGTAATATACTTTGTTTTTTCTGTTTTCCTTTAATTTTTTTAAATTTTTTTAAATTTTTTAAGGTTATCTTATTGACATTTAGTTTCAAAAAAGGTAATATATTACTTAGGCAGAACAAAATAAATAGTACAAGTGGAAAACAAATTATTTATGGGGCTGATTTTTAAATTTCGGGAGGGGAAAATTATGAAAATGAAAAGGTTTGCAGTGAAAATGATGGTTTTAGGGGTTATGCTATTTTCGGTTTTAGGGTGTTTTAATAATGCTTTAGAAGATGGAGTTCAAAAAGGTGAATTAGTTGAAAATTTAGCATTGCCTCCAGAAGAGCAAGGTGAAATGGATAGAATTCAAGAGGAGATTTCGAGAAGTTTTCCATTAGAAGTTAGAAACATAGATATCACGAGAGCTAGTAATCCTAGTAAAAGAACTATAAAGGCGACTATGAAAGAAGTTGGGAGAAAATATAATATACCATATGAAATTTTATACGGTTTAGCGTTGGAAGAATCACATTTGAGACAATTTAAAAGTAATGGGAAACCTTTAATAAGCCGAGATAAGGGGTATGGTCTTATGCAGGTGACACCATGGGCGGTAAGAACAAAATTCAATACTAATTCTTTAGCGTATGACTATAGGTATAATATTGAGGCTGGAGCACAAGTTATTTTGGGGAAATGGAGATATATTACTAGAAGAAATCCTGTTGGCAATAATAATCCTAAAATATTAGAAAACTGGTATTTTGCTATATGGGCATATAATGGTTTTTGTAAAGTGAATAATCCAAATTATTATAAAAATGGACCTCATCGATGGAGAAATAGACATATGAGTTGGGTGAGGTATTCTGCTTATCAAAGTGAAGTTTTAAGAGGAATTAGAAGACATTTAAATATAAATATAACTCCAATTCCAATGAATAAAATACCAAGATATGGAATCCCTAAAAGAGGAGTGAGATTTAGTACACCAACATCAACACATTATACAGGGAATGGAAGTGATGAAAATTATCCTCCAAAAGAAAAAGGCTGGATAAAATTTGATAAGGAGTATAAAGAAGCTTATAAAGGGGCGACAATGTTTAATGTGTCGACATCTATTAATGTGAAAAGAGTAGAAGTATCATTAGATGATAAATATAAAAGAATAAAAGATGTCAAAAATGGTAAATTTGATTTCACTTATAGATTTGGGGTATTAGGGAAAAGGGATTTAAAAGTTATAGGATATGATAAATATGGGAGAGAGATAGCTAGATTAGTTCATCCCATAATAATAGAGGAAAAACCTGTGGAAAATATTTCGTATGTTAAAGTAAATGCTAAAGAAATTTATTATACGGGTATAGAACAGGAGTTTATATTCGAAGGGTCAAAAGATATAGTAAAAATAGGGTTGAAAATAAATGGGGAAAATTCAGGCGAAATTTTATTAAAAGATGGAAAAGGCGAGATGAAAGGACCTTTTACACAAGTTGGAACTTTTAAAGTTGAATTAGTAGGATATGATAAAGATGGTAAAGTAGAAGCTACAAATAGTTATAATATAATAGTAAGAGAAAAATCATATATAAAAATGGAAAGCAAATCGGAAATATATAAAGAGAATACAACATTTAATGTAGAGGCCTCAAACGATATAAAAGAGATAGAGGTATCCTTAGATGGAAAATATAATAAGAGAAAAGCGGTAATAAATGGAAAATATGAATTTAGTTATAGATTTGGAATATTAGGAGAAAGAACAATAAAATTAGTAGGATATAATGCAAATGGAGAAGTAGTATTAACAAAAGAGGAAAAAATAGTAGTAAGAGAAAAATCATATATAAAAATGGAAAGTAAATCGGAAATATATAAAGAGAATACAACATTTAATGTAGAGGCCTCAAATGATATAAAAGAGATAGAGGTATCCTTAGATGGAAAATATAATAAGAGAAAAGCAGTAATAAATGGGAAATATTCATTTAGTTATAGATTTGGAGTATTAGGAGAAAGAACAATAAAATTAGTAGGATATAATGCAAATGGAAAAGTACTATTAACTAAAGAGGAAAAAATAGTAGTAAGAGAAAAATCATATATAAAAATGGAAAGTAAAACGGAAATATATAAAGAGAATACAACATTTAATGTAGAGGCCTCAAATGATATAAAAGAGATAGAGGTATCCTTAGATGGAAAATATAATAAGAGAAAAGCAGTAATAAATGGAAAATATGAATTTAGTTATAGATTTGGAGTATTAGGAGAAAGAACAATAAAATTAGTAGGGTATAATGCAAATGGAAAAGTGTTATTGACTAAAGAGGAAAAAATAGTAGTAAGAGAAAAATCATATATAAAAATATTGAACAATCAATATTACTATAGTAGAGGAAGAAGATATTATTTCAATGGAACTACATCATCTGATATTGTAAAGGTTAGAGTAACTTTAGATGGAAAATATCCTGGGGTAAGATATGTTAGAAGTGGAAAATATTCATTTAGTTATAAATTTGGAGTTAGAGGATATAGAACAATAAAGGTAGTGGGATATGACAGAAAGAATAAAGCTGTTGTGTCGATGATAAAAAGAATAAGAGTTAGATAAAAAAGCAGAAATATAGATTTTTATTAAATGGTTAAAAAATGTAAAATTTGAGATGGTATTAAAAATAGTTGAGAATATTGAAGTAGAGGATATAAAAGGAGATTAGGGACGCCAGCTTGAAATTTACGCTGGCGTTTTTTAATAATTAGAAAAATATAAATTTTAGATTTGGAGAAATTTCATAGATGTTTGTTGATTGGTTGAATAAAATAGGGGAAATTTATTTTTTAGCACGTATAGCGTTGGAAAAGACTCGTTTTTGGTCAAAAGTTAATCTTTTTTTTAAAAAAACTTGATTTTTATAATGATATATAGTAATATATATACTGAATGAGACAAAAAAATGCTACAAAAGGAGAGAGTGTTATGAAAAAGAACACGAGAGCGAATGCGGTGTTGGTTTTAAGTATGGTTTTGAATATTGGATTAATAATTTATATTTTCAATATTCAGCAAAAAGCCTCCCAATATAAAATAAAAGCTAAGTCTAACGAGCTGATTTTAGCAAAATATAAAGGAAAAGTGTTTACCCAGAAAATGATGGATTTTGAAATGAAAAGGTTATCAAAAGACTATAACAATAAAGATTATAAAAAATTTATATTGGAATCCTGGATAAAAAACAATATTTATGCAGATAAAGCTTTGAAAGAGGGGCTTATAAAAGATGATTATTTGAAATACTGGTTGGATAAGCAGAAAATAGAGATGTTGGCATCAGAATATTTGAATAATAGACTAAAAAAAGAGGTTAAGATTACAGAAATAGAGATAAAAAATGAATATACAAATAATCCATTTTATAAAAAGAGACCTGAAAGAAGAAAAGTAAGGCATATTTTAATAAGAGTGCCATATAACTCTACAAAAGAGGAGATTGAAAAATATAGAAAAAAAGCTAAATTAATAAGAGATAGAATTTTAAAAGGGGCAGAATTTTCTATTATGGCAGAGAGTTATTCTGATGATAAATTTAGTAGGAAAAAAGGTGGAGATTTAGGATTTATCTCAAAAGGGATGTTTTCTGAAGAATTTGATAAGGCTGCTTTTTCTTTGAAAGAGAATGAATTAAGTCCGATTATAGCAACGCCTGTTGGATTTGAAATAATGAGGATTGAAAAGATTGAGCTTTCTAAAAGGCAGAGTTTTGAGAGTGTGAAAGAGGATATTAAGAAAAATTTGGAGAAGAAAAAGAGAGAGAAGATATATAAAGAGATAGAGAAGGATGTAATGGGGAAGAATAAGAAAGATTATAAGATTTATGATGAGAAATTGTGAGTTGAGGAGAAGAGAAGATAAAAAGATAAGAGATTCAGCACTAAGAAAGGAGAGCGCAAAGGGTCACGAAGAGGGGCTTGTGTATAGGAGTAATGGAAAAGAATAAAAAAGATTATAAAATATTTACGATAAGGGATTATGAGTGGAGGAGAAGAGAAGATAAAAGAGAAGATAAAAGAATCAACGCAGAGACGCTGAGAGAGCAGAGGGCCGCAGAGGAGGAATTTTGTAGGAGTGGAACTTGTGTGTTCTTGTGGGGGAATTTTACTATAATAAGGGGGCTAAATAATGAAAAAGAAGATGTTTATAGCAGCACTTATTTTAAGTGCTAATTTATACTCAGCAGAAATGAGTAACTATTCATTTGATGGAAATAAGTTAAACATAGGTAATAAACAAATAATAACTCAAACTGTAAAAAAAGATGGAGATAGTTATATTTTAAATGGAGAATTTTCATTTCAAGGGTTGGTAATTGGATTTGAAAATGGAGTTTTGACAGATAAAGGGTTGGATATATCGCTAAATAAAGAGGTTGTGTATAAAAATTATAAATTAAATATAAAAAATATTTTAATAAGTGATAAAACTATTGTAAATATGTCTGTGAATGTTGGAGATAGAGAAATTTTAGTTGAAACAGATGAGAAATTTTCATATTTTAAATTTGAAAATAGTGTGATAAATTTAGATGGATTTGAGATAGCATTAGAAAATATGAAGCTTTCAAAAGAGGGATTAATATTAAAAGGAGAGATTTTTCTGCCTCAATTAGGAGAGGGAGCAAAAACTAATATCTCGTTAAATGTAAATAGTGATGAAACATATAATGGGGAGATTGGGAATTTCAAATTTAGTTATAATGGGGAAAATTATGAAATTTTAAATTCTGATTTTAGTTCAAATGGATTAAGTTTAAATTCCATATCTAAAGATAAAGTTGTAAATTTTTTAATAGCAACATCAGGAGTTAAAATAGTAGATATAAATAGTTATAATGGGGTTTTTAATTATAATAATTTTAAAATTGCATATAAAAAAGATAATGGCAAGATGTATGGAATTTTAAAAGTTGGAGAAAATTATATAAAATTATTGAATATTGAAACATCAGGAGATAAAATTACAAAAATTGGTGGATTTGATATATCTAAATTTAAAATTGGAGATGTTGTTTTAAATATAAAAAGCCTTGAAATAACAGAAGCTGGATTAAAATTAGATGGCGAAGTTAATGGAATAGAAACAGAGATTATTGTAGATAATAGTGGAAATTTAGTAAGTTATACATTTTCTAAAAAGAGTTATGATATAGAGTATAATGGAGTGAAATTAAATTTAACTAATTTGAAATTCAGAAATAGTGGAATAGATTCAAATTTTAATGTTAAATTGGGAGATAATAGTTTAAATGGTGAAATTAATATAACGGAGTCTGATATTAATATAACAAAATTAAATAGTAGTAAAATAGAGTTAAATGGAGTAGATTTCAGAATAAAAAATATGGATATATCCAAAAATGGAGTTGTATTAAATTTAGATGGAAATTTAGCTTCTAAATTAGGTGGAGGAAAAATTGTTGTAGATAATTTAGTTATAGGTAATAATGGTGAGATTACAGCAAATGATATTAAAGTTGAAAATTTATCAATTAATGGAAAAGAGATAAATTTAATTTCAGCTAAAATTGATAAAGAGGCTATATATTTAAAAGGATACAGTTTTAACAGTGTGATTAATCTGAAAATCAGTAGAGAAAGTGTTGGAGTAGATGAAGTTGGAATTGATACAAAATATGAGGTTGGAGGATATATATTAAAAGCAACCTCTAAATATGTGAAAGATGATAAAGTTATTGTAAATGGACTGTTGTATTTGCCAGATAATCTTGGAGTAGTTGAACTAAAAAATGTAGAATTTGACCTTAATGGGAAACTATTATCTAATGTGGATTTATCTTTGAATGAGATAGAGTTAGATGGATATAGAGTAAATATAGCTGGTTCATATTTAGATAAAGACGGAGTTCATCTATCAGGGTTATTGAAATTAAAAGATGGAGGAATGTTAAATTTAAGTGAGCTTTCTATAAATAGCGACGGCGATTATATTGGAAAAGTTTCAGCACAAAATATATCTATAAATGGATTTGAAATAACTGGAAATGGAATAATTGAAAATGGAAATATTTCATTAGCTGGAATTGGTAAATATGGAGAATTGACATTTAATTTAAATAGATTAGATTATAAAAATGGAAAATTGGAAAATTTAGATATTCAAGTTAGGAATTATAGTTTTGCTGGACAAAATTTGGATATATTATCAGCAAATTTTAATAAAAATGGATTAGAGATAAAAGGTGTTGTTAGACTTTCAGATGAATTTAGCGGAAATAAAATAGATGTAAGCGGTATTTTTGATAAAAATGGAAATTTGAAAATAGATTATCAAAGATTAGAGGATAAAACTTTAACTTATAATGGTAAAAGTTATGAAAATGTAGAAGTTGTTGTTAAAGATAACAGTATAATTTTAACAGGTGAAGTTCAAGGATTAGGATTTAAAAATTTAATAATTACAAAAAATGGAGTATCTGTTGAAACTGTTAGTTATAAAGGAAAAATGAATATAAAAGGATATTCTATATATGTGAATTCGCTTTATAATAATTTTGATGGAAGCAAAAGTTTAGATGGATATTTAATATTGCCAAATGGAGTAAGAGCAGAAATAAATAGTTTGAAATTAGATAATGAAAATAATATTATTGGAGAAGCTAGAGTTGAGTTGTCTAAAATTAATCTAAATGGATATACAGTTGAAGTTGAAAATTGTATATTTAGTAATAATGGATTGAAGATAGCTGGAACAATAGATAATAGATTTCATGCTAATTTATCTATAGATTATTCTGGAAAAGTAGAAGGAGATTTGAAATTAGATTCTGTTAGTATAAATGGATGGAGTTTTGAGAATTTATCAGGTAGTTATAATAATGGAGAGATGATTTTAAATGGTTCATTAAATTATTTTGGAACAATTTTAAAAGTTGAAAATGTGATACTGTCGAAAGATTTAGTTTCTGGAAAATTGATATTAAACAAATTAAATCTGTATGGATTAAATATAGATGTGATAAATGCTAAATTAGAAAATGGAGTTGTAGATATTAATGGAAAAGCAAATTATAATGGAGCAGAGATATTATTAAATCTTGAAGCAGATTCTAATGGAGCTGTAAAAGGAAATGGTTCTGTAAAAGATTTAGAGTATAAAGGGTATAAGGTAAATGTATATGATTTATCAGCTACAAATGATAACTTATTAATAAAAGGAGAGATAGAAACAGAAACAGGGAAAACAGGAATTAATATGGAATTTAGTTCAAATGGAGTAAAAATAAAAGAGATAAGCTATGCTACTAAAGGTATAATTGAGTTGTCAAATGGATATTCTATAGAGGTTGAAGAGGCAAAAGTTATTGATGGGAAAAACAGTTCTATAAAAGGAAGAGTTTTGATAGATGGAGTAGGAGAAATTGAAGTAGAAAATTTAATAATAGATTTATCAAATAGAATTGTGAAAGAGGGAATAATAAAAGATACAAATTTGAATATTGGAAATGGAGTATTAAAACTTGCTGGAATAAAATTTGATAACAATGGAGTTGAGATTGGAAGTGCAAATTATATATTAAATGGAGCAAGTTATAGACTATCTGATTTTAAAGTTGATAGAGAAAGCGGAATAAGTGGAACTATATCTGGAGAGAATATATTATTTGGCGGATATACATTAAAAGAGTTTAATGGAAAATTGACAAATGAGAAAATAGTATTAAATGGGACATTTAAAGGAATAACAATAAAAGAGTTGGAATATAATTTTAAATTGAAAAAATTTGCATTTAAATCACTTAATATATTAACAGAAATAGAGTATGAAGGATTTAAATTGCATAGCGTAACATTATCATTTGTAAATAATAAGTTAAATATAAAAGGTGATTTGGAATTGCCAGAAAGTTTAACTGTTGCATCATCAATGTTAAAAAGAGGAGTTACAAGAGGAATAACTACTAATAAAAATAAATTTAGCTTAAATATAGTTGTAGATAATGACAATAGTTATAGAATAGAATTAAAAAATATACCTAACTTAAAATATAAAGGTGGAGTATTTGAAGTTACAGAGAGTTATATAGATAAAGATGGAATAACACTTACAGGAAAATATAATAAAAATGGAAATGAATTAAAAGTTGCTAAATTAAAAATATTTAAAGATGGAACTATAAAATTTGAGAATATCCAATATAGTGGAGAAAAAACTATAAATGGATATACATTAAAAATAAAAGATTCAACTGTTGATTCAAATGGAAATATTTTAATAAATGGAGCAGTTGTAATAGATGGTGTAGGAGAAATAGAGATACAAAATTTAACAATTACACCTTCAAATGAGATTTTAGTTGCAGGGAAAATTGTAGCAGAAAATTTAAAGATAGGCGGATATAATCTTGCTGTAAAATCAGGTGAATTTGGAAAAGATGGATTAACAATAATAAGTGGAGAATTATCAAATGGTAATATGTCAGCCGAGATAGAGAGATTGACAATTAATAGAGATGGAGATTATAGTGGAGTTGTATTAATAGAAAATTTAGTATATAAAGGTTACAAACTGTCTCAATTTAAGGGAGAATTTAAAAATGGAATAATTATAGCAAGTGGAGTAAAAATAGAAGCTGGTAAAGCAGAAATTGCTATAAATAATCTAAAAATAGAAAATGGAACTGTAACTATTGATAAATTTAGAGTTGGATATTATAAGCTGGCTAATTTGGATATGAAAGTTGACAATATAAAATTTGTAAATGGAAAAATTCAATTTAGTGGAGAAGCAGATACAACAAATGGAGTATTACTGTTTAGTAATATATCAATCTCAAAATCAGGAGATTATTCTGGGAAAATTGAGATTAAAGATTTTAGTTATAGAAATATGAAATTAGAATCTATTAAAGCAAGTATAACAAAAGATGGAGTAATCTTAAATGGAATATTAAATAGTGGAAATATACAATATGAAATTGCAAAATTAAAAGTAAGTAAAAGCGGAGTTGAATTATTAGATAGTATAGCAATAAAAGGCGATACTGTAATAGGAGGATTTCCTATAAAAGTTGAGAAAATTGCATATAATAAAGATGGATTAAAAGTTATAAATGGAGAGTTGAAACTTCCTAATGGAATGGGAGCTGTAAAAATAGTAAACTTAAAAGTTAATCCAAAAACAGATAAAATAGTTGATGAATTAGAGATAAATGCTAATTTAATTAATTTAGGTGGATATTCAGTAAATTTAAAAAGTGTAAAATTAACTGATAAGGGAGTAGTAGCAACTGGAGATTTTGCATATAAAGGAAATAAAGTATATGTCAAAAATCTATTAATAACAGGAGATGGAAAAGTAACTGGAGATATTGGTGCATTAGATATATCAGCTGGAGCATTGACAATTAGAAGTGCAAATACAAAAATAACAGAAGATGGATTTAAAATAGATGGAAATGTTGAATTTGCTGGAGTTGTAGATGGTAAAATTTCAGTTAAAAATTTAGTTATAACTAAAAAAGGAGATATATCTGTTGAGAGTATAAATTCAGATAGATTAGAGGTAAAAGGCGTTATAGTAGAAAATGCTAATTTAAGTTTTGATAAAACTGGATTAAATATATCTGGAAATCTAAAAATTGGCGATGGATATGCTAAAATAGAGAGATTAACAATAACAAAAGATGGAGATATAGCAGGAGAATTAGCATTAAACAGTATAAATTATAAAGGTAAAACTTTAGAGGTAGCAAGAGCAATATTTACAAATAGTGGAGTTGAGATTTGGGGAACATATAGAGATGGAGGAAGAGTAGTAGATGTAGAAAAATTAACTGTAAATAAATCTGGAATAACAGATGGAATAGTTGATTATAAAGATATTATAAATATTAATGGATATAGTGTGTTGGTAAAAGATTCTAAATATAATTTTGCTAATAATAGTTTTGAGGTAGCAGGAGATATTATTTTACCTGAAATAGGAAAAGTTGAAATTTCTAACTTAAATATATCATTTGATGGTAGTAAAATAATAGGAGAAGCAGAGATTAATGCTAAAGAGTTGAAATTAGATGGTTATACAGTTGAAATTTCAAAAGCAAAATTAAATAACAGTGGATTTATATTGGAAAAAGGAGAAGTCCTATTTAAAAATGGGGTAATTGGAACAATTAATGATTTAGAGATTTATGAAAATGGAGATTTTAATGGAGATGTGGCTATTTCAAATATTCTTTTAAATGGAGTAGAGATAAAAACAGTTGAAGCGTTTATCTCAAATAGAGAAGGAATAGTTTTAAATGGAGAGGCTAAATTGCCAAAAGAGTTTGGGAATGGGAAAATAGAGGTTGTAAATGTAAAATTAAATAGAGAAGGAATATTAGAAAAAGGAAAAGTTATAGCAAATTCAATAGCATATAAAGGATTTGCATTGGAGAATTTTAATTTAGAATTTGGATATGGAAACTTATATCTATCTGGTGCTGTTAATAGTAAATATGGAAAATTTGCAATAGAAGATTTAGCAATAGGAAAAACAGTAGCAACAGAAGTAAATTTATCCGCCACTAATATAGGAATAGATGGATTAAAAATGGATATTGTAAAAGCTAAATTAACAGATGATGGAATCCAAATAACTGCTAAAAATAGTTTTATAGAGATAAAAGATATGATAATAACAAAAGATGGATTAAAATTAGTTAATGCAAAAGTGACAAATATAGAGGTAGCAGATATATTTAAACTTGAAAATGCAGAAGTGAGTTATGATTCTGTAAAAGGGTTGACTTTATGGAGCAATATATCAATAAATAGTAAATATGGAGCTATAAAAAGTCAAATTGAAAATGTAAAAATAACAGAAAATGGACTTGAAAGCTTTAATTTAGAAACAGAAGCAGATTTAGATATTAATGGAACTAAATTAACAATAGAAAAAATAAAATTAGATAAAAACAGAATTATAGCATATAATTCTACATTAGAGGGTAAAATATTTAATGGTGGAAAAACTACATTAAAAGAGTTGAGAATAGATAAAGATGGAAATATATACAGCAAAATAGCAGATAGTTATTTGAATATAGAGGGTTATAAAGTTTTTGTTGATTCTGTAGAGTTTACAAATAATTATCTAAAAGTGGAAAATGCAGGAGTTGAATTAGCAGACAACGCTGGAACAATTACTCTTAAAAATTTAGATGTGGACTTTAATGGTAAATTGTTGAAAAGGGCTGAATTTACAGTAGCTGAATTAAAATTAAAAGGAATGACTTTAAATAACGTTGATTTAGCATTTTCACAAGATGGATTAGAGATTACAAATGGAAAACTAATATTTGATAAATTAGGTGGAGAGTTCACAATTGATTCATTAAAAGTAGGTAAAGATAAAAGATTATCAGGAAAATTAAATCTAAATAGTATGAATTACAAAGGATTTAATTTAACAAATGCAACAGTAGAGTATGAAAATAACAGATTTGTAATGAGTGATGTAGAATTATCTACAAATACAACTAAGATAAAATTAAAAGAACTTTCATTTAATTTAAATGGAGAGGTTGAATTAACAGATAATATAGTTGAAGTTGCAGGAAATATAATAAAAGTATCGAATTTTGCAATTAATAGTGAAGGAATAGAGGGAACAGGTGAGATTGATTTAGATTCAAAAGTTGTAAATGGAAAAATTAAAATTGAGAATATGAAAATAGGTCACGATGGCAGAGTCTATGGAAAAGTTATAGTTTCAAATATGAAAGTAAATGATATGAATTTGAAATTGGCAAGCTCTGAATTTGTAGGCGATGGAATAGTTTTAAATGGAGAATTAATAAGTGCTGGAATGGCATATAAAGTTGTAAATTTAAAAATCAGTAAAGATGGAGTGCAGTTATTAGGAGCGGTATCTGTTAGTGGAGATAGTGTAATAGCTGGCTATCCTGTACAAGTTGAAAATGTAAGTTATGACAGCACAGGAAAAATCGCTATAATTAATGGAATATTAAAACTTCCTAATAATGTAGGTGTATTTAAGATTAATTCATTAAAATTAAATACAGAAACAGGAGAAATTGTAGAAGAGGCTGAAGTTTCAGGAAAAATAGCTACATTTAACGGATATAAAGTTGAATTAAGCAAATTGAGATTTGATAATAGTGGATTCTATATGAGCGGAGATATTCTATTCCCTTATGGAACTATTGCAAAAGCTGAAAATATAAAAGTTACACCAGAGGGAGAAATAAGCGGAAAAATATCAGCAGAAAATATTAAATTTAATGGATATGAAGTGAAATCAACTGCAATTGAAGTTAAAGATAGAGAGTTTATATTATCGGGAGATATGAAACTTCCTGGAAATGTAGATGGAACAATAAAACTTAAAGGGCTGCATATAGGATTTAATGGAAAAGTAAAAGTTGATAGTTTTGTAGCAACGGGATTAAAAGCATATGGCAGTGAAATTAATGTAACAAACGTATCATTTGATGATACAGGCTTAAAATTAGCAGGAGATATTAAATTGCCAGAAACAGTTGGTGGAGCAAAAGCTGAATTGAAAAATTTGCATATTTTGAGAGATGGAACATTTGTAGGAAATATAAGTGTAGGAAAAGTAAATTATAAAAATAGTTCAATAGAGATAGAAACAGCTAATTTCAGTAATGAGTATTTAATTTTATCAGGAAAATTGGCTAACAATAGTGCTGGAGAGTTGACAGTTAAGAGATTAATGGTCGCAAGAACTGGAAAAGTTTCATTTGATGAAATAAGTTATCAAGGAACAGTTAATGTTAGTGGATACCCTGTGTATATAACAAGCTCTGTATATAATCCATCTGAAGGAGCATATACAATTAATGGAGAATTAAACTTAAATGGTGGAATAGTAAAAATAAACAATTTACAAGTGGATACGTTGGGAGCAGATGCTAAAATAGTAAAAGCTGGAGAAATTGAGATTGGGAATATTAATATAGGACGAACATTAATAAAATCTACAAAAGCTGTATTGGATAAAGATGGTGTAAAATTAGATGCTAAATTTATTGTAGATGGAGTTGGGGAATTTGAAGGAAAAGATATATTAATAAAACCAGATGGAACGTATGAAGGAGAATTAACAGCAAAAGATATAAAAGTAAGAGGATATAAATTAGATGTAGTTTCAGTAAAATTAAACAATAATGGATTTGCAATTAATGGACAATTGACAATTCCAAAAGAGTATGGAGCAGGAGTTATAGCATTAAATAATTTACAATTAGATTATAATGGTGGATTTGAAGAGATTGCAGTAGCGTTAAATAATATAGAGGTTAGTGGATATAATTTAAAAAATGCAACATTCTATTTTAATAGAGATAATGGAATGGTAATAAATGCAACATTAAAAGTACCAAATAATGGATTGGTTTCAATAGAAAATATTGAATTAACATCAGATATGAAATTAAGAGGTGGAAAAGCAGCAGTAAAAGATATAAAAGTTGGTAGTAGTGTAATAAAAGTTGTATCAATAAACTTTGTAAAAGAGGGGATTGAGTTAGCAGGGGATTTTGAGAGAGAAAATAGTGATGGAACTAATTTAAAAATAGGTGTAGAAAAAGTACTTGTAGCTAAATCAGGAATAGATGTATCAGGAGCCTATATTAAAAATGCCAAATTGGGAGATTTCACTGTAAGTATTGATAAATTTGATTTTACAGATAAAGATGGAATGATATTAGATGGAACAATAGTATTACCTAAATCAGCAGGAAATGGAATTGTAATGGTAAAAGGGATAAGAATTGATGGAGCTAAAAACTTCTCTATTGATGAGATATCAGCAGGACACATTACAATAGGAAATTATGTAATAAAAAATGTGAAATTAACATTTATAAATAATGAATTGAATTTAGCAGGAGATGGATATGTAGAAACAGGTAATGGAACAGTTACATATGGAGTAGATAATATATTAATATCTAAATCAGATATTGCAATAGATAAACTTACAATACAAAATGTAGATATAGATGGGTACCATTTTGATGTAAATAATTTTTCATTTAAAGAGAATAAACTTTATTTGAGTATTAAAGGTGGATTGCCATATGGAGTAGTAATTGGAGTTAAAAACCTTATAATAGGAAAAGATAGTTTTGATTTAGATGGAATGAGTGTGGAGAATTTAAAAGTTGGAGATTGGAAAGTTGACGTAAAAGAGATAAGCTATATAAAAGGTAAATTCTTATTGGATTCAAGAATAAAATTACCAAAAACAGTTGGAGGAAACACGGCTAAATTAAAAATTGAGTTATCTAAAGAAAGTATGGCAGTAAATGCAGCAATTAATAAAATTACAGTTGGAGATTACAGTATAGCAATAAGAAATATTGGGTATAAAGATGGAGAATTTATATTAGCTGGAACAGTTAAAATACCTGGAAGTTACGGATATTTAACAGGAAATATAGACAATATGATAATCACAAAAGATGGATTTAGCAATGGAGTAGTAAGTATAGGAGCAGACTTAAATATCAAAGGGTTGAAACTGTACTTAAATCAAGCTAAATTAACAACAGATGGAGTAGTTATAGAGTATGCTAAATTTGCAGTTGCACATATATCTGATATAGAACTTGGAGCAGGAATAGGAGTAAAAAATCTTGTGATAAACTATAATGGAGATATAGATGGAGAATTAGTAGGAGCAAGTGTAAAAATAGGAGGATTTGCAGTAGGATTTGAGAACGCAAAATTAAAATCAACTGGTATATCTATAGTGAAAGCAGGAATAATGTTGCCATCGCCATTTAATACAGGTGTAAGTGTAAAAAACCTTATAATAAATGGAAATGGAATAACAATGCAGGGAGGAAAAGTTAGTTTACCAAATATAACAGTTGGTGGATATAATTTAAGCGGAATTTCAGCAGAGTTCGCATATACTCCAGTAGGATGGAGAGTAGTTGGAGATGGAGTCCTTGGAATACCTGGATATTTTGATGTAGAAGTAGGATTTATAGCAGAAAAAGATGGATTAAAACAATTATCAGCTAAGTCAAGTGCATTAATGATTCCATTAGGAAATACAGGATTTGAGATTTCAAATATGGGATTAGGAGTAGATTTGACAAAATATAGAGCAGTTGGAATAGTAAAAGTTTCAGCATATGGAACATTAGAACCAGTAGTAGATAAAGGGATAATAAAAACATTAGAAGGAGATTTAACACTTGATATTTCTACAAATGGAACAGCAAAAGGAACAAAACTAGAAGGTAGAGGAGATGTTACAATAGTAGGATTCCCAATGGCTGATGCAGGAGTTGCAATAGATTATTATGGAGTGTATGGAGATGGAGAATTAGACCCATTTGGATTAGGAGCATTATCAGTAAAAGGAGATTTTAAAGTATTATATACAGGGCAAGTATATATGAAAAATAGTGGAAATTTAACAATACTTGGTAGAAATTTTGTAAATACATCAATGGAATTAAAATATGATGATAGCTTTTATATGTTTGCAAAAGCAGGAATAGATGTGCCGTTAAAGGGAAAAGTTTTATGGAGTAGATTTGATTTTTCTACTAAATTTGATGGAAAATTTGGGGTATATCCAAGAACGGAGTATAAAGGTGGATATGCTAAAGGTGATGCTCATGGAACTCAATATATGAGATTGGGATTTATACATATGTCGCCTTCTATGAAGATGGATTTTTATGCAAATAGTAATAGGTTGGATTTTAATAGTAGGTTGGTTGATATAAGATGGAGTAGAGGACATTATCCGAGATTAAGTTTCTTTTAGGGAGAGATGGGACAGGACAGTTTAGGCTGTCCTGTTTTTTTGTGTGGGAAAAAAGGGGGGGAGTAATTGGAGATAATATTTTAATAGTGGCAGTATCAACAATTACAGAAGGTGTGTCAGAAGTTAAAGAGGGATATTTAAATATTTTAGTTCAAGACATAAAAGGATCTATTTAAGTCATAAAAGTGACTGTTCAGGTCGGGAAAATATCTATTGGGGACAAAAGTGAGGTTTGACAAAAGATTAATGGAGGAGTACAATAAATGATTAATAGAAATTAATCACACGAAATAGGTGACCCCACCGTCTGTTTTTGATTTTTGGGGGGAGATAGATTGAAAACAGCTCTCCTGTGGGTTGGCTGTAATATAATGATTTGATAGCAGAGAAAGATTACTGCTTAGATAAAAGCTTTGAAATAAATAATAATAATTTTAATTCAATTAGAAATATAAAACATAAAACAGCATTAATGCTCATATATTCATGTGGATTAAGAATTAGTGAAGCAGTAAATATAAAGACAGCGGATATAAACATTGACAGAGGATTAATAAATATAGTAAAATCTAAGGGAAATAAAGACAGAGTGGTAACTTTATCAAAACAATTTTTAATAAAACTAGAAGAGTATAAAAAGATATATAAACCAAAAAAATATTTATTTGAAGGAGGAAATGGGGTTGAAAAATATAGTACAAGGAGTATTCAATCAGTATTTAAAAAAGCATTAAAAGATGCAAATGTAAAAAGAAATTATACTGTACATAGTTTACGGCATAGTTATGCAACACATTTGTTAGAAAAAGGAACAGATTTACGCATTATACAAGAGCTATTAGGACATAAAAGTAGTAAAACTACAGAAATTTATACTCATGTAAGTAATAAATTGTTGGCGAAGGTGGTAGCACCATTTGATGATATTGAATTGTAAAATACGAAGTGATTTGCGTATATACAAACTATATGGATGGATATGCGAAGGTTTTATGCGTGTATAAACGAGTTAGGCGAAACTCAAGTCTAGGCTTAGTTTATGGATAATTATTTGTTAGAAATTAATATTTAAAAAATAAGAGGAGAGTGAATTAAATGAATCAAGATTTAAAAAGTATTATGCTTTCTTATATTGCAGGACTTTTGACTTCTGGAACGGTTGCATTTATATCAAGAAAATGTAATTCTTTTGAAGAGTGCATTATGGCTTTAAAAATATTAGTAAAAGCAAGAAAAGAAGTCAGACTTAGTGTTTCATACTTATTTAGGATAGAAATTGAAAACAAGTATTTATTGATAAAAGGGAATAGAATTGAACAGTTTCAACCTGTTGGAGGGGTGTATAAAGCCTACAGAAGTGCCGAAGGTTTGTTTAAAAAAATTGAAGTAAAAAAAGATAACGGAATAGATATAGATGGAGCTAGTGAAAATGATTTAAGAATAAAAGTAAAGAGTAAAAATGTATTAAGTTTTATAAGGTGGTTTAAAGAAAGAAAAAATAGAGAAATTAATGTAAATAGAGAATTTTATGAGGAACTTGTAGTATCTAATTTTATTGATAAAAGTGTTCTTGAGACTTTTAGCCCTGAATACTTAAAAACAGTATACACTGATTTAAAATATTCGACACATTTTAAATGTTATGAGATTTTAATTTATGATATATTTGAAATTAAATTAGATAGTCAATATGAAGAAATGTTAAAAAACGAAATCAACACAAAAAGAGGAAATCTAATATTAGCTACAGATGATGAAATTGAAAGTGAAAACATAAAAATAGATGGCATATCTAAAAAAATTGGAGAACATAGTAAATATATAATCTGATAAAAGGAGGGAAAAGGTGTTTATAGAATATGAAGATATAAATGATTTCTTTAATGAAATATCAAATGATTTAGATATTCCAGATTCTTACTATGAAAAAGCAGACAAAAGTTATAAATCACTTGGAAGTTTTTTGTTAAGAGATGATTCGTTAATAAAAGAGTATGCTCCAGATGTATTTCTGCAAGGTTCATTTAAGTTAGGCACAATGATAAAACCTATTTCAGAAAATATTCATTATGACATAGACCTTGTTTGTAAGCTATCAAATATAAATAAAAATGAAATTACACAAGAAGATTTGAAGAAAAAAATAGGAAAAGAAGTTAAACAATATGTAAAAACAAAAAATATGATAAACGAAGCTATAGATGGAAAAAGATGTTGGACATTAAACTACCACGATGAAGCACAGTTTCATATGGATATTTTACCTTGTCTAAATAACAGAAGAACATTTGAGGAACTTTTAGAAAAATACAGTATGAATACTGATTACAAGGAAGAAGCTATTGCTATTACAGATAAAAACTCAATATATTATAAAGTTATAAGCGATGAATGGGAAACCAGTAATCCTAAAGGGTATTATAGATGGTTTATGAAAAAAATGAACTTTGAAGATAAAAAAAGGAAATTTGCGGAACAATTAATGGAAAGTGTAGAAAACATTCCAGACTATAAAGTAAAGACACCTCTACAAAAGGCAGCTCAAGTATTAAAAAGACATAGAGATTATAGTTTTAAAGGAAAAAAAGATAAGCCTTCATCAGTTGTAATAACAACGTTATTAGGATTGACATATAATGGTTCGGAAAACATACTTGACATTATAAGTAATATGATTGAAAATATACATTTATTTTTAATAGAAAAAGATGGAAGGTATTATCTAACTAATCCTGTTAATCCATTAGAGAATTTTACAGATAAATGGAATACAAACAAGAAAAGAGCTTTTTTTAGATGGATAAATACGGTTAGTGAAGATTTGCTTTTTTACAATAAAAAAATTAATTATTATGGTGATAATGTTATTGATAAAATGAAAGAAATATATAATATAAAGAAAAGCAAATATATAAAAGGTAGTAGTGAGTTGATAAAAAAAGAAAAGCATATAAAAAGAACAAAGTGGAATATGCTTAACAAAACAGAAGTTGATATAATAGCTTATAAAAAAGAGTCAAAAGATATTATTTCGAAGAGGTTTAAGAGTGGAGAAATTGTAAAAAAAAGTTCAGATTTAAAGTTTAAGGCAAATGCTAAAAATATAAAAGATTATGAAATGTTTTGGCGAGTAACAAATACTGGTTATGATGCAGAAATTGAGAACAACTTAAGAGGGGATTTTTATGAAAGTGAAATTATAGAAGGAGATAAAGTAAGAGAAGAAAAGGCAAAATATTTTGGAAGTCATTTTATAGAATGTTTTTTGATAAAAGATAATGATTGCTATGGAAAAAGTGATGTATTTGTTGTTAATATACTTTAGGTTAAATTTTTAGTGAGCGTTAACCTGTCGACTTGAGATTCGCCTAACCTCGAGGTACACGACATACGAATCGGCAAGCCCTAGCGGGACGTATCTAAGCTCGCTGGCTACGCAAAATGGGGAAAAGATATTGGGTACAGCTCTCTACGATACTCTAATGCCTCTCGCACGTCGTGTTACCTGAATACCGTTAGGCAAGATTGTTGAGCGCGGTCGCGCCCCCCAATCTTGCCTAACGCCGTGGCGGGCTTCCGCCCGTCAGTTAGCCACCGATTGTTCCGCTAACGCTCCACAACCGTCGCCTAACTGACGGGTAAACGAAATCAATTCGCCTAAGAAAACTAAAGTTTTCTAAGACTCATTGACTTTTCGCTTACCCGCCACGGCGTTGTATGTCCAGCAAAGCTGGGCATATCCAGTGGGTGAAAGTCCCACCAGAGTAAAAGTCAAAGCTCTGTAGCATGAATGGCAATGTGGTGGAAAACCTAAACATTGAAGTCCATTGACAAAGGAAGTTTTTTAATCATCATAATTCTATAAATACTTCTGAGGTAATTAAAAAACTTCTTAGGTATCTAAAGGATATCGAGCAAGTATACAGACCGTAACATCAGTGAACGCATATTAGCTTCGAAAGCGGGTTAATTTGGTGGTTGAGCTTTTAGCGCCTAAGCGAAAACAGAATGAATAAATGAAATTGACTGATACATTTATTTACACCAACGGAGTATTAGCGATGGTATGTATACAAGGATATACTTGGAACTGGAGAAGCCTTCCTTCTTCCTGTGAGAAATCACTTGAGCAATTAAATTCTATAACTGCAAACTAGAAAATGAATTGAAAAAGAAGATGGTGGCGGATGGGTTCGTAGTAGCAAAAATTATAAAGACAACATAACTTCATATAGCAAAGGGACTCTACTATTAATAAATTCTCTGACATATAGGAGGTAAGGGTGAAATGATAAAAACATCCATAAATTTACAAGAGTTGAGAAAGAGAATATATTTTAAATCTAAAGAGGAAAAAGCAAAAGAAGTAACCAAGCAAAAAGGTAAATATTATGAGCTAGATTATGCTAGATTTGCAGATGATTTAGTAGTAACAGTATCAAGTCATTCAAGTATGAGAAGGTTGTTAAGTAAGGTAATTGAAAGGTTGAAAGAAGAATTTGAGAAAATAGAGGTAACAATAAATAAAGAGAAGTCAAGAGTAGTAGATTTGAAAAAAGGTGGAGTAATAAACTTTTTAGGATTTACAATGAAAAGGCGAAGGAATAAAAGTGGGAAATGGGGAATACTGACAATACCACAATCAAAGAAGAGGAAAGGATTGTTAGAAAAGATAAAAGAATTAATAAGAAGACATAGAACACTAGGAATATTCCAAATACTGGTAAATGAACTAAATACAACATTAAGAGGTTGGGTAAATTATTTTTCAATAGGGAATTCATCAAAGTGTTTTTCATATGTAAGAAATTATGTGGAGAAGAAATTGAGAAGGTATCTAATGAAGCAACGAGGGAAAAAGGGATATGGCTGGAAAAAATGGAGTAATGATTGGCTGTATAATGAAATAGGGTTATTTGATAACTATAAAGTAAAATATATACCAGAGTGAAAGTTAAACCAGAATAAACTTATATGATTTGAAAAGAAGTTAATAGGAAAGCCGTATGCGGGAGAACCGCACGTACGGTTTGAGGTGGCGGGTTCTGAAAACATAGTTTGGCTGTGCGTCAGAGCTCGACCCTACATATGACATTTTGGACAATTGATTATAAGGAGTAAAAAGATGAATAAAAAATTACTTATTATCAAAATAACCCTTTGGTGGGGCATTGTAGCTGATTTATTTGAAACTATCAGAATGATTTTCCCACAACTCTTTATTAAAACTACAGGTGCGACTTTATCATTAAATGATGGAATTAGATTTACATTATTATATGGTGCTCCTGTAATGTTAGGTTGGATAATTATCTTGTTTTGGGCAAGTCGGAAACCAATTGATAGAAGAGGTGTGTTTTTATGCCTAATGCCTGTAATTATATCCTATTTTATTGTTGAAATAATGAGTGTAAATTTAGGAAGACTAAGTTTAAATCAAACTATTCCAACATTCATACTTCAATCTGTATTATTGAGTTTAACAATAATCAGCTATATTTTTGCTCGAGAGATGTCAAAAAAAAGATAAATAGTACAGTGAAAGTCCAAAACGTCATATAACAAGGAATATGAGATTACGCCTTCGGCTCCATCCAAATTGCCTTTGGTCGCAAGCTCCCGACGGAAACTTCTCATATTCCTGGAACGTTAGCTACAATTTCAAACTGAATATGGAGGAACAATGGAAAGAGATTTATTAATTAAAACGATTATTGAAAAAGCCAACAATTTGAACGATTCAGAAACTATTAAAAAATTCTATAATAATGAATTTAATGATTATTACAAAATTAATTATCAAACACTTAAATCAGAACCGAAAATATATTCTTTAATTACTATTTCTAAACTTAACAGAGGTGGAAGAAGTAGAAAAATAAAAAATATTTCAATTAATTTAGGAGATACTATTACTGCATTAGTCGGATTTATATCTGGTGGAATTGGTTCCACACTAGATAATCAATACGGCATATTTTTTAATATTTTCTCTGGTGTTTCTGTTTTATTAACTGCAATATCCACAATAAATAAAACTATTGATCTTAAAATAGGTGTTAAAGAAGGAATTACTATGTGGGTTTTACATTGCTTAAAATATAAACAATCTCCAGAAATAAAAGGTGATTTGACTGTCGATAATATCTTTTTAAACGTAAATATGTTACTAAAAAAATATGATATGAACGACCTAAAAATGGGTGATTTAGAACTCATTTTAGATAATTTGAAACTAATGAATTGTGTAGAAAAATCAAATAATAACTGGATTCCTTGTGAAATAGTTATACTAGAAACGCCTAAATAATATATAAGTGAGGTCTTAACATGAATTCCCTAGCAAAAAAACACTTTTTTGAAACATTTCCAAATAAGCATTTTCAAGAAGAATTTTCTAATGTTTATGCATATGGAATTAAAGAACAGATTAATTCAGGTAAATTAACAGAGGAAGATATGTATGTAGATACACTAGAAAATTTCTATTTAAGAGTAAAAAATAGAAGTTTAAACTATAGTAATGATTATCTAACGGATATTTTACTTGAGAAAATCTTTCACAACATTCCTCAAGAAATTTCTAAAGAAATCACTAATACTTTTGTTGGAGTTAGTGTATTCGATTCTTCGCTTAACGCATATGCTTATCAACAATTTGACGACAGTAGTTATTTAATTGTGTATACGACTAGCTTGATGAATAAAATTTCAATAGTCTTATGCATTATAACTTGCTATATCTGTGAAAGAAATTATCATTTCAATTTAAACACTTTAAAAGAGTTATTTCTAGAGCAATTAACTTCTGATTATAACGAAATGATTAATATTCAAGAAATTATCGACGACCTACTAAAAACTAGTTTAATTCATGTTAGAGAAGATTTTGACAGAATTTTTGGAAAATTACACGAATATTCAACTTGCTTTGTGTTAGGGCATGAAATAGGACATCATTTCTTTTTACATACTAAAAATATTGACTTAAAAGAGAATCTTAATATTTTATCAGAAAATATTAAAAATAACCACATTAATGAATTATATTGCGATAAATTCAGTGCTTTTATAACATTTGAGACTTTTGCTAAAGACCAAAAAAATTCTGCTTTGGAGATAATCGGAATCGTATCAGCACTCTTAGCATTAACTTTAGAAGAAAATTTTTACGAACATTCTACAACACATCCATCTTTTAAAAATCGATTTGATATGGTTTTTAATTATTTTAATGAGCGTTTTCCAGATTATAAACTAAAAGAACATATAAGTGACTTTTTTCTTTGTTGTGATTTGTTTTATGATAAAGATTTTTTAGATGATAGATGGTGGGAAAATTACTACAGCTAACACAACATCAACTGACATGAAAATCACACGTCAGTTAGGCTGAAATAACGTTATGTGCAAGACAAAGTCAAAATCTAGACATAGAATAATAATAAGGAGAAAAAATATGAAGAAAAAAGTAGATTTAAATATAAAAAGCATTTTTTACAAAGGAGAATTTTTGGTAATTAATGCAGAATTTATAAATAATGATAACATTATTGCCTTTAATTTTAAGGATATTTATATAAAAATAATAGGGAAAAATGGAGATGATGTTGTTACAACTATTATTAATGGAGAAAACTTAAATAAATTATTATTAAAAGCAAATGAGAAAAAAGATTGGATATTTGAAGTTGAAAACCCAAATTATACTGATATTAGTAAATATAAATGGGAAACTAATTTACAATTCCTTTTTAAGGAAAATACGTCAGAAACAGAAGAAATTGAAAATGAAAATAGTCAGACAATAACTAATATAGAGAAAGAAGGGGAAAGTTTAATGGAAGAGGGAAAAAGCACAATAAAAAGTAAATTTGAATATGATGTTGCGTTTTCATTTGCAGGAGAAGATAGAAAATATGTAGAAAAAGTTGCAGAACAACTAAAAGATAAAATAAATATATTTTATGATAAATTTGAAGAAATTGATTTGTGGGGGAAAAATTTATATACGCATCTTAATGAAATATATAGTAAAAAATCAAAATATGTTGTTATGTTTATTTCAGAGCATTACTCAAAAAAATTATGGACAAACCATGAGAGACAAAGTGCTCAAGAAAGAGCATTTAATGAGAATAAAGAATATATTTTACCTGCAAGATTTGATAATACAGAAATTCCTGGTGTCCTAAAAACAGTTGGCTATATAGACTTAAAAAAGATTGATGAAATTGAATTTTCTAATATAATTCTGAAAAAAATTAAAAAATACAAAGAAGAGGAAGTTCCTGAGAAAAATTCAAAAAAAAATGAGAAAAATATATCCTTAAATCAAAAAATATATAAATCAGATATTGAATTGTATAATAAAATTAAAGAAATCATAAAAAATAGTGTGGAATTTTCTAAAGATTGGGATTTCGGGTCACCGCACAGGGATAATAGTTTGAATGGATTGTTCCACATAGAATTACAATTTGAATCGCCAGATTTTGAATTTATTAATGAAAAACTTGAAATTATTAAAAAAGAATTATTTGAGTCTATAAAAAAATTTATCTTAAGTGTTTCTATTAATACTTTTCCAAAAGGAAATGGTTTTCAAGAGATTCCTTATGAATGGAGTTATGAACAACCAGAATTATTTGAGAAAACTAGAAATGAAATAAATTCTTTAGCTGATGAAATGTGGAAGAAATACTGTAATTTTGTAAAAATGGGAAGAATTTGTTTAGAGCTATAAAAAAAGAGTCCAGCACATAACATATGATAGACTATATCTTTTCGGTGGTTCGCAAGCTCACGAATCTCAAAGACATCGCCTAATCATAGAGACGTTATGTGTCATTAAAAAATTATTGGAGGAAATCACAGAATGAATATTTTAGTATTTGTTAAGGAAATATTACCGTATGGAGTTTTTGTATTTTTAGCAATTTGGTTTGGTGATCAAATTAAAATTCTTATTCCAAAAATATCGAAACTGATATTTAAAGATAATCAAGTTGTTTTTGATCAAGCAAAAAAATCCGAACAAGATGTTATAAATAGGTATATTTGTAAAAAGTGTTCAAATCTTGTAAAAATGGGTAGCCTATGTGCTAAATGTGGAGAAAAAATAGGCGAAGAAAATACAATAGATTTATTAGTTTACACAAAAGCAATTCATGCAATTGAAAAATGTGTTTGTCCTGTGTGTGGCAATGGAATTTTAGGAAAAACTACATATGTATGTCCAAATTGTGGGTTTGGATTTGAAGCAAAAGGAAAAAAATCATCTACATTTCAAGTATTAAAAAGAGAAATTGGAGTACTTGCAACAATATATTTACTATTAGGGGCTTTTATATTTCCTGCGATAATTTATATTTTAGTAGAAAAATATTTATATATAGATTTAACTAAAAATACATTTGGAGTTATAATTTATTTTGTTGGAGCAATTATTCCGGTATTATTGATAGCTATAAATTTGAATAAAGATGAAAGAAGAGAAAGAGGACTTTATAGAATTGTTAAAAAATATAAAAAAATTGAAAGTGATGCAAACTGAATAATAGTTTTATTTTAAAGAAAATAAACGACACATAACAGCGTATAAATGCAATCCTTTCGCCGTGTGTGCTATCGCACATATTCTGCACGATCGGCAGTTCGCAAGCTCATGCAAGTAAGCGTAAATATTGGGTATGCCTCTCTTTGCCATATCGGGAAGACGGCTCAAGGACTGCACTTATACGCGAGACGTTATACAACAGTGCGACCAGCCCTTGAAATAAAAGGGATAAGCTACATTTTAGGCTGTCTAAGTCGCTTTAAATAAATATAGACCTTTGGACTACCCTATCCATTTGGGGTAACTCTACCTCAATGTCATCAAGCTAAGGATTTTATAAAAACTCTACTCCTCCCTTGTTGTAGGTTTCTCTTATCTAAGAGAAACCTATAGCGTGGATATTTGGCTTTTTTAATGCTTTTTTCTCAATATTCTGCACTTTAGTTTTCTCTTAGCCAAGAGAAAACGCTAAGAAGGAAGGAGTTGGTCTTTTGATTTGCATTAATTCCCCTTAGCTTGATGACATTGAACTCTACCTACAGGTGCGTGACTGGTAACGGTTGGGTGCTAAGCTGTAGGGACAATATGAATAATCTGTTAGCCTATAGGCGGAGGTTTTGTTAGAGTAAATATATTTCTATGGTTAACATATGTGAACTAATGCAAGCTTCGTTAAACGTGGGCAGTGAAATAAGGCTGATACACTGTGACCAAAAGGTGTAAGATGTGGTTGATAGTCTTTTTCGTACCTATCAACAAATGGACTAATATCTTCGGAGTAAAGTTAGAACCTAAGGAAATATGAATTGGCTAAAATGTAGAACTGGGTAAGCCCTACAGTCTCTCATTTGAGTAGGTTTTCTGTGAAGAGAATACAATGATTGGAGAGTAAAGGAACAGTAGAGAAAGCGAATGACATTTTGTAATGAAATGTATAGAGGTTCGAAATTTGCCTCATTCTGAAAGGAAGCATGGTTATCTAAGGCAGGAAAGGATTGAAACTTTATAAATATAACAAGCCAAATAACTCAAAATCATAAGGAGTGGGCGACTATAGACAGACCAGAAGCAACTTTCAAATGGGAAATAATTGATTGAACAGAAGCCGGAAGAAAAGTTAGTAAACTTCAATCACGGATAGCTAAAGCAATTATTAAAGGTAAAAATGCTCTTGTAAAGAAATTACAATACTTACTTACAAAATCTTACTATGCAAAATTATTAGCAGTAAAGAAAGTAACATCAAATAAGGGAAAAAGAACATCAGGAGTAGATAAAGAAATATGGTCAACTCCAGCCCTTAAGTATATCAACGCCCAAAAATTAACTAACAAGAAATACAGGGCAAAACCTCTTAAAAGGATATTAATACCGAAATCCAACGGAAAAACAAGACCTTTGGGAATACCAACTATGTTTGATAGAGCAATGCAAGCATTATATTCATTAGCATTAGACCCGATATCAGAAAGCACAGCAGATAAAAACTCTTATGGATTTAGAAAATGTAGAAGTACAAACGACGCAGCAGATCACATTTTCAAATGTTTAGCAAAAAAGGACTCTGCTCAATGGATTTTAGAAGGTGACATAAAGGGGTGCTTCGACAATATAAATCATAAATGGATTATTGATAATATACCATTAAATAAGAAAATTTTAAAACAATTTCTTAAAGCAGGATTTATATACAAGAAAGATGTCTTTCCTACCAAAGAAGGAACACCTCAGGGTGGAATAATCTCCCCCATCTTAGCAAATATGACGTTGGATGGTATTGAAAAAATGATTAAACTAAAATATTGGACAAGCCCAAGTGGAAATTCGATTAACAGAAAATATAACAGCAAAAATCGAATAAACTTTATTCGATACGCTGATGACTTTGTTGTAACTTCAAGAAGCAAAGAAATACTTGAAGACATAAAATCAATGATAAAAGAATTTCGTGAAACTAGAGGCTTGGAGCAATCAGAAACGAAAACTTTAATAACTCATATTGATATTGGGTATGACTTTTTAGGTTTTAATTTCAGAAAATACAAAGGGAAATTATTAATTCAACCATCAAAGAAATCAATTAAGAATATTGTTAAGAAGATAAAATCCGTTGTTAAAAAGCATACTACTTCAAATCAAGATGAATTGATAAAATCATTAAATCCAATAATAAGAGGCTGGTGTAACTACCATAATAGTATCTGCTCAAAATTAACCTACCAAAAATTAGATAGACACATTTTCTTTTATCTGTGGAGATGGGCAAAACGAAGACATCAAGATAAGTCTAAGCAATGGATAAAAGATAAGTACTGGAAGACTATTAGTACTAGAGATTGGATATTTTCTGATGGAGAAAACAAGTTAATGTTTGCAACAGAAACAAAAATAATCAGACATTGTTTAATTAAAGGTAACGCAAATCCTTATCTAAGAGAATATGATGATTACTATTAAAAGAATTGCTGCGAAGATAAGAGCATATATTTAATTTATTATTGTTGCCAATTTGAAAGTTGGTTTTAGATAGCTTGAGCTGTATGACGTGAAAGTGTCACGTACAGTTCTGATGGGGGAAGGGCGAAGTAATTCGCCTGACCTACCAGACGAAGTTGTCTAGGTTTAATTTATAATGTAGTTTAAGTCATTCATAGTTTAAAAAAAGAAAAAAATATGTTAAAATGTAATAAGCTTTAAAATATGATTTGGAGGTTTATTTGTGATACCAAAATGTCAAATATTTACACCATTAGAATATGTAACAAAATTACTTGATATTGCTGAATATAAGGAGTTTTTATATGGTAAAAAAATATTAGAAAATTCTTGCGGAAATGGTAATATATTAGTTGAAATAGTAAAAAGGTATATAGCTGATTGTATTGAAAAAGGATTTTTGCTTGATGAAATAAAGAATGGGTTAGAAAATGATATTTATGCTTTTGAAATTGATTTAGCTCATTCAGAAGAGTGCAAGAGAAGGCTTAATGAAATTGTTAATTTTTATAACATATATGAAGTGAAATGGAATATAAATAATAATGATTATTTAAAAAATATAGATAATCAAAAATTTGATTTTATAATTGGAAATCCACCCTATATTATGTACAAAGAGTTAGATAATGAAACTAGAAAATTTTTAAAAGAAAAGTATAAAGTTTGTGAAAATGGAAAATTTGATTATTGTTATGCTTTCATTGAGAAAAGTATAAAAGATTTAAAAACTAATGGAAAAATGTCTTACTTGATACCTGGAAGTATTTTTAAAAATGTTTTTGGTAAGAATTTAAGAAATTTTTTATTACCCCATATTAATGAAATTTATGATTATTCAGAAAAAGCATTATTTACTAATGTTTTAACTTCATCAACGATATTAAATCTTGAAAAGGATAGCAATAATGATGAAATTATTTATCATAATATTATTATGGAGAATTCAAAAAAAATTCAAAAAATAAAATTAGGAGAAAAATGGATATTTCATAATATAAAATTTTCTTCTTCTAAAAAGAAATTTGGAGATTACTTTAAAGTTTCTAATAGTGTAGCAACTTTGTCGAATAAAGTCTTTATAATAGATAAATATGAGGAAGTTGATGAAAACTATATAAAAGTTGAGGAGTTTTTAATAGAAAAAACTTTATTAAAAAAAGCAGCAAGTCCAAAAGGGATGTCTAAAAATAAAAATGAATATATAATTTTTCCGTATTATTATACTAATGAAAATAAAATTAAAAGGTACTCAGAAGTTGATTTTGTAAAAAGATTTCCAGAAGCCAAAAAATATTTAATTAGTAGAATAGAAGAATTGGAAAAAAGAAAGTCTGATAAAAATTCTTCTTGGTTTGAATATGGAAGAAGTCAAGCTTTAAATCATTTAAATCAAGACATGTTAATATTATCATCAATAATAACAGGAAATGCTAAAATATATGATATTGATAAAGAATATATTCCATATTCAGGATTTTATATTACTAAGAAAGATAAATATGGACTTGAAGTTGCAAAAGAAAATCTTATGAGTAAAGAATTTTTAAACTATGTTAAAGGTATTGGTATTAGTGCTAGTGGAAATTCAAAAAGAATTACAGTAAAGGATATAGCAGAATTTCCATTATTTAAAATATAATTTACGGCTTTATTTTGGGGAGGTTATTTGTGAAGAAATTATTATTTACTATAGAAGATAAAGCGATTGCAGAATTATTTGGAAGACAAAACTTTAGTACAAAAGAATCTGCAATATTTGAATTGGTAAAAAATTCATATGATGCTGGTTCAAAAGAATGTATTGTTGAAATAAAACAAACTGAAAACGAAGAGTTTATAAAGATTATTGATTTTGGTTGCGGGATGAATGAAGAAGATATTAAAAAAAATTGGATGCATGTAGGAAAAAGTAATAAAGGTTACATTGATGAAAAAATATCTAAGAGAGTGCTAGCAGGAGCAAAAGGTGTTGGAAGATTTGCTTTAGCTAGATTAGGAGATGAAATAGAAATGACTTCTCAGAAATTAGATAGTTATCCTATTATTTGGAAAACAAATTGGGAGTCATCTTCAATTTTAAACTTACCTAATAAAATTAAGTCTGGAACGGAAATAAAAATTAAAACTTTAAGAGAAAAATGGAAAGAAAAAGATAAGGATAAATTAATTGAATTTTTGAGTAGAGCATATTATGGCAATGAAATGAAAATTTCAGTTATTTATAACGAAACAAAGGAAGAAGTACAAGAATTATTTTCTAAATTAAAAATGGGGATAAATTATACAAGCAAAATTTTATTAGATTATGTATCAGAAGATAATACTTTGAATATTGAAGTAGTATCAGATGAGTTTAAAAAAGAAGTACAAGAAATTTCTAATGATTTCAATATTTTGAATTTTAATATGACTAAAGATATGAGTGAAGAGCTTAGTTCTAATATATTAAAAGAAGAATTTACAAAAGAAACTTTAACAGATGTAGGAAGTTTTAAAATGGAGTTATATTTTGCTATGGATAGAGTTCCAGTAGATGCAACAGAAAAATTTATGTATAAACATGGAACTTTAATTGATCCAATAAAGTCTGGGATAATTTTATATAGAAATGCATTTAGTATTTCGTCACTAGAAGGAAAAAAAGATTGGATTGGATTAGGAGCAAGAGCAAGAAAATCACCTGCAGCAGCAACCCATCCTACTGGAGCATGGAGAGTTCGTGCAAACCAATTATCAGGGTTCGTTCAAATTGATAAAAAGAGGAATAATTTTTTAATAGATTTAGCTAACAGACAAGGGTTAGAAGAAAATGAATATTATGAATCTTTTTTAAAAATAATTGACTCAGGAATAAAAGAATTTGAAAGATATAGACAAAATATTATTCGTGTAATAGATAAAAAAAATAAATCTTTGACTGAACTTGAACCCAAAAAGACAAAAATAATGGATCGTTTTATAAAAAATCCAAAGATAATTGAAAGATTACCTAAAAAAGATATAAAAAAATTAGCTACTGAGATGGAAACTATAAAAAAGACAGTAACTCAGCAAACAAAAGAATCTAAAGAAAAAGAAGCAAGATATAAATATGATGTTAGAATATTAAATTCTTTAGCAACTCAAGGATTAAAAGCTGGAGCAACTGCTCATGAATTTCATGCAGATAGAAATAAATTAGCTAAAGGGACAACTCTTATTATAGATGCATTAAAAAAATATGAGTATTGGGAAGAATTAAAATCCCCAGATAAGACTAAATTTGCTTATGCTAATGTTCCACAATTGCTTTTAAGTCTTGATAAAATTAATAAAAAATTAGGTATTTTTTTAGATACAATATTAAAGAAAATGAAAAAAGATGCTTTTACTTCTCCAATAAAATCATTAGAAAAAGAATTAAAATTTATTATTAATAATTGGAAAAAAGATTATGAGTGGTTAGAAATAAAATTAAATGGAAAAAACATAGAATTAGATAAATATTCTTTTACTGCAGATGTATTAGATGTAATATTTGATAATTTAATTTTAAATAGTATACAAAATAATCAATTAAAAGATAAATTAATTATAGAAATAGATTATTTAATTAAAAATAATGTTATTAATTTTAGCTATAAAGATAATGGAATAGGATTAAATAAAAAGTACTTAAAAAATCCATTTAAAATACTAGAAGTACATGAAACATCTAGAAAAGATGGACATGGACTAGGGATGTGGATTATTAACAATACCCTTCAAATGTATGGAGGTCAAATTGATAAAATATTAAATGATGATGGATTTAAATTAGAATTTCAATTTATTGGAGGTTAAAAGGTGAATAAAAAAGAAATAATAAAAATATGTTATATTGATGATGATTTTGATGTTCAATTATCAAAATATTTAGTAGAAAATTATATAGTTGATAAAAAGGATAATATTGAAATAGATTATAGCGAATATAAATTTAATACAGAGGATAATTATAAAAAATTATTAAAAAAAGATATTGTAAAACAAGCAAATATTATTCTTATTGATTCAAGGTTATTCGAAAATATGTCAAATAAAAAAACTAAATTCACAGGAGAAAAGTTTAAAATAATTTTAAGACAAATTTATCCTTTTATTAAAACAGTTGTAATTAGTCAAAATGAAACAACTGAGGAATCTTCTGTTGTTAGTAAATTTAAACAAGCAGAGAGTAAAGGAATAAGTTTTGTTGAGCATTATGATGACAATTTAAAAAAAATATTAGATGAAAATATAAAGTTTATTTTAGAAGAAAGAAAAACTTTAGAAGAATTAAATGATGATGAATTCATTGATGAATTATTATTAGAAACAATAGATAAAACATTTAATGGATTAGAATCCTATTCTGAATTTGAAAAAAAGGAATTAGATAATTTGATAGAAGTTTTTGAAGAAGTGAGGTCTCATTATGATAATCAAAAATGATTATAGAAATACTTCATATACTTTGGTAGATTTTTCTATTGATGATAAAAAAGAAAAGTTTATGAAAGAATTTAGGAAAAAACATAAAAGGGCAAAAAATGTATATACAATAGTTAAAGAAAAGCAAAATGAATTTAATAGACCATTTAGAGAAATTTATAATAATAGATGTGTTTATTGTGGTGTTACAAATCAAATAATTACAGATTCTAATTTTGAAGTAGACCATATCTTTCCAAAATCAAAAGAAGGAGAAACTTCAATTAATGTAAATGGAATTGATAATATAGCTTCAGCTTGTAAAACTTGTAATCGAGGAAAAAGTGATTATACTTGTAAGGATGAAAATTTTGATAAAATAAACCCTGATAAAAACTTTCTTCCACATATATTTTTTAGAGAAAAGGATTATTCGATTCAAATAAAAACTGATTATATTTTAAATGATGATATAAAGGCTTTATATAATGCTCTTGAATTTGGAACACAACTTAGAAGAATAGATTATTTAGTTATGCAGTTAAAAGACTTTTGTGAAAAATATTCAGAGGAATCTATTATTGAAAAGATGAATAAAATTATTTCAAAATTAGAACAAAATCGTAGAGAAATATATTAATATAGTTAAGATAAAAGCTGGCTTTTCTAGCCAGTTTTTATAGATTAATGAAGACCAGGACAACTTCCTATCCTATAACATCAGGCTACAACGCAACTGCGATCGCCAAGCCCAGTTCTTAGCTTGATGACATTGATCCTTCCGCTAACCTTGAGGTATATAAGATATACAAATCGGCCTTAACGTGATAGGACTAAGCTCACCAAGCTCTTCGCATCATATTACCGTGGAACCATTACACGAAAACTAGGAAGGAAGTTATGGACAGATTAATCAAAGAAAATAATGACCAAAAGTAATTCTTGAAAATATAAACAATGAAATTTATGATGAAAACATAGTACATGAATTAGATGCAATAAGAAATGGTTGTTATACAAATTCAAGTGAATTTTTAGGAGAAAGTTTATTGGTGTTGAGAAAAATAATAAAAAATAAAATGTGTTCAAATAATTATGTAACCGAAAGAATAAAAAAGGTTATTAAAGAAATCGAATATGTTTTTATAATTAGTAAGAGAGGTTGATATGGTATGAATAATATTGAATTATCTAATCAATTAGAAAGAATAAAAATTGATAGTAGTAGATTATTTATAAATAAAGAGGTCGACTGTTCGTATTGTTTAATAAAAAAAGGTAGAAAATGGATTTTTTTCTTTACAGAAAGAGGAGAAAGAAGAGAAGAAAAAACTTTTAAAGATGAAGATAGTGCTTGTAACTATGCTTTGAATTTTATTAAAAATATGTATTTAGAAACAGATACAAAAGAAAGACTAAAAAATAATCCTGTTTTAATAAGGAATTGCATTGAAGCGATTAATTTATTAAGAAACAATGATGTTATAATTGATGATGGATTATTAAAAAAAGAGATAAGTGAAATAGAAAATAAATATAATATTGTTTTTCCGCCAGATTTAAGAGAATTTTACTCATATGGTTTACCAGTTTCTAAAGGTTTTATTAATTGGAGAAATAGTGATCCTGAATATATTAAAACAATAAAAGAAAGGCTAAGTTGGCCATATGAAGGAATTATTTTTGATATAAAAAATAATAAGTTTTGGATAGAAGAATTTGGAGAAGAACCAACAGAAATAGATGAAAAGATTCGCAAGTTTTCAGAATACTTTAAGAAAGTACCAAAACTTATTCCTATATACGGTCATAGATATATTCCGATAGAACCTTATGAAGAGAATAATCCAATCATATCAGTATATCAAACGGATATTATATTTTATGGAGAAAATTTGTTTGATTATTTTAAAATAGAATTTGGTAAAAAAAATTATGAAGTTGATTATAATAAAGTTAAAAAGATTAGATTTTGGAGTGAAGTTGTTGAATGAAATTTGAGGAGCCATCGTGTAACACGGTGTATATTCCATCTTTTCACAGGTGCATAGCGTAAATTAGGAACAAATTAGGTACTGTTCAAAGACGGCATATTACACCGGGAACGTTATTAGAGATTTTTTTATTTCTCTAGAGATTTAGTTGGCTTCCTGTCAACATTTAAAAATTATAATGTAATGAGATGCTATCTAAATAAGAAAAGTAAAAGATTGGAGTGTGATATAATTGAAAAATAAAATTATTATTAAAAAAATTTGGAATGATGATGATGTAATTGAGTTTGAAATTTATTTAATTGATGAAAATTTTAAATTTAGAACAACTGTATATACTGGGAATTTTGAAATATCTGAAACCTATAAAAAATTAATTGAATTTGGCAGTCTGATACCTAATAAGAAAAGCTTAATTGAACTTGGAGGATTTGGGGAGAAATATGCTAATGGAGCAATAAGTTTGGAATTACAATGCAATTCACGAGGTATAATTCATTTGGAGATAGAAATGGAAACTGAGTTTTATGAATTTAATAAAAGAAATATTTCAGATAAATTATTATGCCATAAAAAAACTGATCCAGCACTATATGATAAATTTGTTAAAAATTTCAAAAGAATTGAAAAATTTGAACTTGGAGAAGAAATTGAGTTTGAATTAATCTAAAATTATATTGAAAGAATTATTATTTATTTGTGGAGGAAAAATGTTTGAAATTAAAATTTTAGAAGACTTATCAAAGAGCGGTGAATATTCTGAATATAATTTTGGGAAGACTAATGACTTGCTATGGATTTTGTTTTTAAATTTAGAGACAGGAGAAGAGTGGATAGGAAAATTTGATATTGGGATTAGAAATAAAAGTAAGATAAAAATTTTTCAAAATAATACTGCTATAATTTTAGCAAGGGGAAATATTTATATAGTAAATTGCAAAATAAAAAAAGTGCAATATATTTTTGAATATGATGATTATGAAGATATTGAAATTGATCTTGTTAATAACTATATTATTATAACTGATGGACTTTATATTTCTGTACATGATAAAAATGGAAAATTTATCAAAAAAACAAAGCGAATTAGTTTAGATGGGATAGAATTTATAGAAATAAAAAATGGAAAGGTATATGGTAGGTTAAATGATCTAACTTTTGAATGGTGTGATTTTAAATATAATATTGTTGAAAATGAAGTTATCAGTAAATGGAGTTTTATAGCTAAAATATTGAGAATCGGATAACAATGTGCAGAAGCCATCATTTCGAGAAACGCTACGCTGACTCTCAATGACGGCTTCTGGCACTGAACCGTTATCTACAACTTGGTCTTAAAAAAAATATGTACCTTTGATGGACATGTCAAGAGAATGTGGGCGTTTTTTTTATTTTTCTGGACCTATTTAAAAATATGGGCAAAAATGGTATAATTAGGTACATATTGATTAGGAGGGATTTGAGCATGAAAATAGATTTAGAGAAACCTTTTAACGAATTACCATTATTATCACCAAATATTCAATTAGAAACGATTAATATTTTAAAACAATTAGCAAAATCACATAAAGCTCTTGCTGAATTAAAAGGATATTCAGAACTTATACCTAACAAAGATATTTTAATAAACTCTATTATTTTAAAAGAAGCAAAGGTTAGTTCTGAAATAGAAAATATCGTTACTACTCACGATTCAATATACAAAGCTTTAGTTTCAAAAGAAACTTTTATTGATAGAAATACAAAAGAAGTTTTAAATTATCGTTCTGCTATTTGGAAAGGAGTTTCATTAATTAAAGAAAATGATATTCTAACTACGAATATGATAATTGAAATTCAAAAAGAACTTGAAAAAAATGATGCAGGAATTAGAAAAGTTCCAGGAACATCGTTAAAAAACGATAAAACAGGAGAAGTAATTTATACTCCGCCAAGTGGTGAAGCTATAATTATGAACTTAATGTCTAATTTAGAAAAATACATTAATCAAGATTCTGATGTTGATGATTTAATAAATATGGCAGTAATTCACTATCAATTTGAATCTATTCATCCGTTTTATGATGGAAATGGTAGAACTGGAAGGATAGTAAACGTACTTTTCTTAGTTTTAAAAGATTTACTAGAAAGTCCTATTTTATATTTAAGTAATTATATTATTAAAAATAAGTTTGATTATTATAAGTTATTACAAGAAGTTAAAACAAATGGAAACTGGGAAGAATGGATTATTTTTATGTTAAAAGCAGTTGAAGAAACATCCATAGAAACATTAAGCATGATAAGAGGTATTAAGGATTTACTTGATAAGACAATTGAAGATGTAAAAGAAAAAGCACCTAAAATATATAAAAAAGAATTAGTTGAATTATTATTTTATCATCCGTACACAAAGATTTCTTTTTTGGTTGAAGAAGGCTTTGCTGCTAGAAAAACAGCATCATTGTATTTAAAAGAATTAGAAAGTATAGGAATATTAGAAGGAATAAAAATTGGAAGAGAAACAATATATATTAATAAAAAACTATTTGAATTATTGAGGCAAAGTTAGACGCTATAGATAACACATCGATATATGGCACTCCAATCGGCAAGCCTTAGCCGCGCGGGAGACAGGACTAAGCTCACTAACAGCAGAGCTAGTTTGCTACGTCCTTCTAATGCCTTTTCGCATCATATCATTGTGGGAACGTTATACAAAAGACTCAATTAATTTATTGAAGAAAATTGGAGGTATGTTATGAAAGCAGTAATCTTAGATATGTATGGTGTGATATTAAAAGAACCAGGAGAAGGCTTTATATCACATGTGCATAAGACATTTTCAGAATTAGACGAATCAGTGATTTTTAAGTATATAGATATGGCGGATGTGGGAACAATAACATCATTAGAGATGTTTGAGGCACTTGGATACAAGGGAGACCTAGAAGCCATTGAGAAAGAATATTTAGATACAATTAAGATTGATGAATCATTTTATGATTTTGCAAAGAACATTAAGAAGAAATATAAGCTAGGGTTAATCTCAAATGATTCCAGTAGATGGAGTGAGTATTTAAGATCAAAGTATAAGGTGAATGAGCTCTTTGACTCAATAAGTATAAGTGGTGATTTGAAATACAAGAAACCTGATCCACGGATTTTTAACCATTCACTTAGTAATCTTTCCTGTTTAGCTTCGGACTGTATTTATGCAGATGATAGAAGATACAATATGGAGGCTGCAAATGCAGTAGGAATTGAGAGTATTCTTTTTAATAGTAGGAAAGTTGAATATACAGGTAAGCAAGTAAGTAGCTTTCAAGAACTAACAAAACATATTATGTATGTGTTAAAAATTTTATAATTGTCAATTATCAAAACGGGGTGTTTATATTGAATAAAAAGAGAAGGCTGGAAATGAATTATAATCTGATTGTGCAGGGGCAGGGTTTTTCTTTAGGCGAGAAGACCTCGCCCTTGCAAGCCATAAGTTATATAGTATATATATCGTGTAAGAGTTGTATTGCATTGAAGATAAAACAGGGTGGATTAAACTGTCTTGTTTTGGTTTTTTTTGAAGATAATTAGATTTAAATGATGGAATAAGTGCATTTTAAAGAAAAAGGATGGTAAAAAAATAGACGAAGTGATATAATGCAATTCATTGATGGTACATAAAGTCTGATCATATAGTAGCAATTTCTATTTTTTATACTCGAATACATTCAACCTGAAAATTAAAAAATATTTAATAGAAAAATTAAATCTGTATTCATAAGAAAACATCATAAAAAAATTAATATTTATAAGGAGATGATGAAATTGATAGAAGTTAAAAACATTAAAAAAGAGTTTAAAACTTACAAAAGGAAACCTGGTTTTGTGGGAAGCTTAAAAGGGTTATTTAATAAAGAAGCAGTAATTACAAATGCAGTTGATGATGTAAGTTTTCATATAGCAGAAGGGGAAATTGTAGGATATATTGGGCCTAATGGAGCAGGGAAATCTACAACTATAAAGATTATGACAGGGATATTAACTCCAACTTCTGGAGAGTGTAAAATAAATGGAAAAATTCCATATAAAGAGAGAAAAGAGTATACAAAAGATATTGGAGTGGTATTTGGGTAGAGAACACAGTTATGGTGGGATTTACCTTTGGAAGAATCATTTTTGATATTAAAAGAGATATATGAAGTTGAAGATGATTTGTATAAAGAAAGAATGGAATTTTTAGACAGTGTATTGGAACTAAATAAATTTATATCAAGTCCAGTTAGAACACTTTCATTGGGGCAGAGAATGAGAGCTGACTTAGCTGCAGCATTATTACATAATCCAAAAGTTTTATATTTGGATGAGCCGACAATTGGATTAGATATTATAGCAAAAGCAAACATAAGAGAAGCTATAAAAGGTATAAATGCTAAGTATAAAACAACAGTAATTTTAACTACGCATGATTTAGATGATATAGAAAATTTATGCGAAAGAATGATAATGATAGACAATGGAAAAAAGATTTATGATGGAGAGATAAAAGCTATAAAAGAAAAATATGGAGAGATAAAAAAAATAAAAATAGATGTTAAAAATATAGATGAGTTTGAAAAATTAGATTTTCGAAAAGAGTTTAATTTAGAAAAAGAGGATTTAAAATTAAATATAGAAAAAAATAGCTTAATAATAGAATTTAACAGAAAAAAAAGTTCAGTATCAGATATTATCTCTTATATTCTTAAAAAAATAGATGTTCTTGATATAAATATATTTGAAACAGAGATAGAAGAGATAATAAGAAAAATTTACAAAAATGAGGTGGAGATGAATTGAAAAAAATAAAAATATATTTGCCATTTTTAACAAGTGTGTTTCAGAGAATGTTAAGTTTTAGAATTAATTTTTTTATGTTTACTTTTGGTGGGTTTTTGGAGACTTTTATAATATTTTATCTTTGGAAAGCTATTTTTATTAGCTCTGGAAAAAATATGATAGAGGGATTCAGTTTAAATGATATGCTTATATATGTTTTTATGAGTGGAATGATTGTTAGGTTGGTAAATTCAAGAGTTGTTAGAGATGTTGGAGAAGAGATAAGAGATGGTAGTATAGCTATGAATTTGATAAAACCAATAAGTTATAGAGGAAGACATCTATTTCAAGCAATTGGGCATTCTCTATTTCAATTTATTTTTATTGGAATACCTTTATGGATTGGAGTTGAACTGTATAGAGGGCTGGTTTTGAAAGAAAATATGATTGGCTTAGTAACTATTTTTTACTTTTTAATAAGTGTTATATTAAGTTTTTTATTGATGTTTTTTCTGAATTTCTGTGTTGGAATACTTGCATTTTTTGTAATAAATATTTGGGGATTAAATCATCTGAAAGGTACAGTTATATCTTTTTTGTCAGGGGAACTGATTCCAATAGCCTTTTTTCCATTATGGGCAAAAGGAGTTATGAAATATTTGCCATTTAGCTCAATTAATTATACCCCTGTAATGATATATCTCGAAAAATATCAAGGGAATATAATGCTGGAAAAAATTTTTTTACAACTATTCTGGGTAATAATTATGTTTGTAATATCTAATCTGTTATGGAAAAAATCGATATCAAGACTAACAGTACAGGGAGGATAAAATTTATGAAAAAATATTTTAAATTATATAGAATGTTTTTAGCTCAATATTTAAAAGGGTTAATGGAATATAGAGTAGATTTTTTTATTGGACTATTGGGATTCTTTTTAGTTCAAGCTACAGGAATAATATTTATTTATTTGATTTTTCAAAGGATACCAAATTTAAATGGATGGAGTTTTTACCAAGTTATGTTTATTTATGGATTTGCACAACTTCCAAGAGGGTTAGACCATATGTTTACAGATAATTTATGGGCATTAAGTGGTAGAATTGTAGCCAAAGGAGAATTTGACAAATATTTGTTAAGGCCAATAAATCCTTTATTTCATTTGATTGCAGAAGTTTTTCAGCCAGATGCTTTTGGAGAAATTATTGTTGGAATATTTTTAGTTGCAGTTGCAGCAGGAAAATTAGGAATAAGCTTTTCTATTTTAAATATATTGTTTTTTATTTTAGTAATAGTTTTTTCAACTATTGTATATACATCAATTAAAATTATATTTGCTTCACTAGCGTTTTGGATAAAATATAGTCAGGCAATAGTTTATATGGTTTATTCGTTAAGTGATTTTGCGAAATATCCTATAAAAATATATGCAGGATGGCTTCAGAAAATTTTAACATTTATTATTCCATTTGCTTTTACAGCATATTTTCCAGCAGGTTATTTTATAGGTAAAATTAATTTTGTATATGCAGCAATAGGAACAGTTTTGGCGGGAGTATTATCATTTATGGTTGCATATTTGGTTTGGTTACAAGGAATAAAAGTGTATGAGAGTTCGGGAAGTTAAAATATATAAAAAAATAGGAGAGTTAAGATGTTAAAAAAATGAATAGAATTAAAGGAACAGATCTGTTTATTATTAAAATGGAAATGTGGTGGTTGAGCTTTTCTAAGCGAAAACAGAATGAATAAATGAAATTGACTGATACATTTATTTACACCAACGGAGTATTAGCGATGGTATGTATACAAGGATATGCTTGGAACTGGAGAAGTCTTCCTTCTTCCTGAGAGAAATCACTTGAGCAATTAAATTCTATAACTGCAAGCCAGGAAATGAATTGAAAAAGAAGATGGTGGCGGGCTACAGTAAATTTTAGATAGGAGGATTAGAAATGAAGACAATAGGTTTAATAGGTGGTATGAGTTGGGAATCATCAGCAGAGTATTATAGAATAATAAATGAAATTGTAAAGAATCAATTAGGAGATTTACATTCTTGCAAGTCTATTATGTATTCTGTAGATTTTGCTGAAATCGAGAAGCTGCAACATGATGGAAAGTGGAATGAATTGACTAGCATAATGATTAAAGCAGCTCAAAGTCTTGAAAGTGCTGGAGCAGACAATCTTATTATATGTACAAATACTATGCACAAAATGGCTAATGAAGTTCAAGAAAGTGTTAGAGTGCCTTTGATTCATATAGCTGATGCTACCGGCGAGTGTATAAACAAAAAGGGATATAAAAAAGTAGGGCTTCTAGGAACTAAATTTACTATGGGAGAAGAATTCTACAGGGGGAGACTTGAAGAGAAATTTGGAATTGAAGTTCTTGTGCCATCTGAAGAAGATCAAAAGGTAGTTCATAAAATAATATATGATGAACTTGTTAAAGGTGTGATAAATGAACAATCAAGGAAAGAGTACAAAAATATAATAGATAAGTTTAGGAGTCAAGGAGCCGAAGGAGTTATACTTGGGTGCACAGAGATTCCATTGCTGATTAAGCAGGAAGACAGTAGTATCGAGATATTTGATACAACAATGATTCATGCTAAAGCTGCAGTTGAATCAGTTTTGAGGTGAATCAAGTTTTTGTACGGCGTATAACAGCGAGTTGGCGACATGGACAGGAACAAGAATGTGATACGTCGTCAACACACGGAATGTTATACGAAAGACTCAAGTAATTTATTGAAGAAAATTGGAAGTATGTTATGAAAGCAGTAATCTTAGATATGTATGGTGTGATATTAAAAGAACCAGGAGAAGGCTTTATATCACATGTGCATAAGACATTCCAGAATTAGACGAATCAGTGATTTTTAAGTATATAGATATGGCTGATGTGGGAACAATAACATCATTAGAGATATTTGAGGCGCTTGGATACAAGGGAGACCTATAAAAGATATTATAATATAGATAAAGTAAGCAAAGGGAAAGGTGATATTTATAAATATATATTTTGGAATTAAATATTATGAAAATCATAGCAATAAATTAAAAGTAAAAGAAATTATGACTATATTTGAGAGATACGGACATAAAGGAATAGATTATTATAAAAAAATATGAAGGAGTTATTAAAATGTATCCAATATTAGAATTTGATGAAGAAAGAAAATCGGTAATTAATCCTGAAGATTTTATCGAAAAATTAGAAAATTGTGAATATTGTGTAATTACTTTTTTTAAAGAAGTTTTGGATAAGTTAAATAATGAAGGTGAACTAAAATTGAAAAGTATGCACTATAGTGAAATGGGAGAACATCCTCTTTATGAAATAGAATTTGAGGGCAAGAAAATTGGGGTTTATTTATCTGGAGTTGGCGGCCCACTTGCAATTGGAATGTTTGAAGAAGTAATTGCACATGGGTATACTAAGTTTATTGCTTGTGGTTCTGCAGGAGTATTAGACAAAGAAATAGCAACAAATAAAATTGTAATACCAACTTCTGCAATTAGAGATGAAGGAATTTCTTATCATTATTTACCTGCTTCAAGAGAAGTTATAGGAAATGAAGAAACAATTATAACAATAGAAGAAGTATTAAAGAGTAAAGGAATTAGTTATCTTAAAGGCAAAACTTGGACAACAGATGCATTTTTTAGAGAAACGATAGAAAAAGTAAAAAAAAGAAAAGAAGAAGGAAGCGTTACAGTTGAAATGGAAGCTGCTTCATTTATGGCGGTAGCAGAATTTAGAGGAATAAAATTTGGACAAATTCTTTACGGGGGAGATGATGTAAGTGGAGAATATTGGGATACAAGAGAATGGAAGGATAAATCTGTAAGAGAAAAAATATTTTGGTTAGCTGTTGAAGCGTGTTCTAAAATATAAAAAGTACTTTTCATAACACATGATACATGCGAGATGGATTTAGCAACCTGGGTCGGGCCTAACGTCATCAAGTTAAGGATAATTTATAATTTTATATCGGGTTTGCCAACGGAAAAACCCCTACATTATAAAATAAATTAATACTGTAGGGGCTTGCCGTTGGCAAGCCCAGTTCTTAGCTTGATGACATTGGAGTCGGGCCGCTACTAACAGCAGAGCTGGCTTCTCTATCTCCTGTAAGTCTCATCCACCTCTTGCGGAACGTTATGTAACAGTTGGGACAAACTGTAAAAAAGAGGAGGGAAAACGTTGAAAATATTGGTATTGGGTGGAACTCAATTTGTCAGTTGGTATTTTGTTAAAAGATTTCTTGAAAATGGAAATGACGTAATTACCTTGAATAGAGGCACAAAAAAAGGTGTACATGGACATAAAATCGAAGAAATATATGCAAATAGGCATAATGCTGAAGAATTAAATACAGCACTTGAAAAAATAGAAGCAGATTATATTATAGATGTTTCCGGTTATACTGTTTCAGATGTAAAAAATAGTTATGAAGCAGTTAAAAATAAAAATATCGAAGGTTATATATTTATTAGTTCAAGTGCAGTTTATAAGGAAAGTGAAATATTCCCCATATGTGAGGATTTTTCTGTAGGCGAAAATAAATTTTGGGGAAAGTATGGAACAAATAAATTGGAAGCAGAAACTTTTTTAATTGATAAATTTAAACAAAATGAGTTTCCTGCTGTAATTTTAAGACCACCATATATTTATGGGGAGGGAAATAATATTTACAGAGAAGGATTCATTTTTGATAGACTAAAAGAAGAAAAAACTGTTGTAATTCCAAATAAAGGAAAAACATTGATTCAATTTATACATATTGAAGATCTTTTTCAAACTGTATGTAAAATTATTGAAAGAAAAATCAAAGGGGAAATATTTAACGTTGGGAACTATGAAGGGATAACTTTTAAAGGATGGGTTGAAAGCTGTATGAATGCTTTTGGAAAAGAGACAAAAATAATTGAATTAGACTATGAAAAGTACAAATATAATCCAAGAGATTTTTTTCCTTTTTATGACTATCAGTATTATCTGGATATAAGAAAAATTTCTGATATATATACTCCTCAAATATCAATGAAAGAAGGCTTAGAAAAATCTTTAAAATGGTATTTGGAAAATGAAGATAAAGTTATGAAAAGAAATCATTATTATGAAAATAGTGAAAAAATAATAAAGTAGCTAAAATAAGCCTGTCACATAAAACACTGCATATATGTTGGGTGTCATTCGGAATGATAAAAGTTATGTATTAATTCCTTTTAAAGATATAAATAAAGATGGGAAATATGAATTAAAAGAAATTATAAAATACAGAGATATTATTAAAAAAGCTAGAAAGGCAAAAATTGATTTTGATAAAAGAATTAATTGGAGCAGAAAAAATAAAAAAATAGAAGGAATTATCAATTTTAATAATCCGAGATATCCTGCTATTTTCCAATTTATTGCTGTTGATTCAAATGATGGAATAATAAATGTAAATATGAAAGAGTAAAAAAGGAGAGTGGAAATTTTGAAAAAAAATTTAAATTTAGTAACAGGATTGGTATTAGTATTAATGGCATTTGGATGTTCAAATGTAAAAAAACAGGCAATAACTAAAGAAAAAAAAGCACCTAAGGTAAAGAAGGTAATAACACAAAAGGTAGATTTGAAAAAATATCGTATAGATAATATTGAAGGAATGAAATTTGATGACTTTGTAAAAATTTTAAAAGGAAGTGAAATAAAAAACAGACAAAATATTGTAGATGCAAATTTTGATTTATTATTAAAAAGTAATAGTTTTCCTATAATAAAAGGAGAATTAGTAACTTTTGTGTACAAAGGGAAAACAAATAAAGTTGATGTAACAGGAGATTTTACAAATAATTTTAGTGGAAAGATACCTTTAGAAAAGATAAAAGGAACAAATTTATTTTATAAAACTATAAAAATATATATTAATTCTGCAGTAGAATATAAATTTGTTGTAAACGGTTCTTATGTAAATGATAAATTAAATCCTAATGTTTCGAATAATAGTTATAAAAATTCAAGGCTTCTAATGCCGGAGTATCAATTAGTTTCAGAAAGAAAAAACAGGGATAATATAAAAAAAGGAACAATTGTTAAAGAAATTTTTGAAAATAAAAGTTTGATTAGTGATAAAAATCTAAAAAGAAGAGTACAGATTTATTTGCCATATAATTATACTGAAGGAAAAAAATATAAAGTAATTTATTTTACTGATGGAAAAGAGTATCTAAAAGATGGAAATGCTAAAAATATTTTGGATAATATGATTTTTGATGGAGAGATAGAACCGGTAATTGGAGTTTTTGTGGATTCTATTGAGAGAGAGTCGGAATATATATATAATACGAGAGATGAATACATAAAATATTTTGTTGAAAATATGATGCCTAAGATAGAGAATAAATATTCTGTATCTAAAAATAGAAATGACAGAATTTTAGTTGGAGATTCTTTTGGCGGAGATTTTGTAGTTTATTTGTCATATAAATATTCGGATAAATTTAAAAATGTAATATGTCAATCGGGAAATTTGATGAGTTTATATGCAAAAGGATTTAATAGTGCAACAACTGTAGGAAAATTTGCAACTAAAGAGAGTATATATAATGAAATTTCACAAAATAGTAACTATCCTGTAAAAATGTTTATTACATATGGAGATTATGAAATAATTGGTAAAAACTCAAAAGTTTTATATAATTTATTGAAGAAAAATAAGACGGTGGATTCAGTAAAGCTTGTTTCATATCCACAAGGACACGGATTTTCATTATGGGGTGATACATTAAAAGAGGGGCTTATTTGGATTATTAATAATAAAAATATAAATAAAAAAGTTGTAGAAAAAAAGGAAGAGAAAAAAGTAGATGTTAATATAGAATGGTATACTCAAGAAAAACAAAATAAAATTAGAGATAAAAAGAAATATTATTTTGCAATAGGAAAAAGGTCGAAGGAGTTGTTTAAATACAGTTCTGGAGATGAAATTGTGGCTGATATTTTAAATAGTGATAGATATATTGAATTAAAACCAGAGGTAGATAATAAAATAACAATAGAGTTTCCAAATGAAGATTATTCTAAATATTTTATTTTTCCATTTTATGATATAAATGGTAATGGAAAAGTGGACAGAGAGGATATTTTACAACAATCTTATACTAAGGAGCATATATTAGGTGCAGGTTTTTCTTATTTTACAATAAAAGATTGGTTGTATTATGTTGGACTTACTGTTTTTAAATATGAGGATAAAGTAGTCCCATTTTTTGATTATAATTTTATAGATACAGAAGAAAATTCATGGATATATATATATCCGTTTTTTTAAAATGGTAGTGTCAAAAGTTTATGAAAACTATAGCGTGGATATTGGGTTTGCTGTTTTGCTCCCTTCTCCTAAGATAGGAGAAGGCTGGGGATGAGGTTAATTTCATCAAGTTAAGGATAATTTATAATTTTATATCGGGTTTGCCGTTGGCAAGCCCAGTTCTTAGCTTGATGATATTGGGAGTAAGGGAATGTATCGAAAAATTCTCGTTAATTCCGCCACATAACAGCAAAAACTTATTATTTGTCCTGCAAAATGGAATTTAAATGTTGGTATTTTTAGAAGTGAAAATATACCTGAATATTATTTGAAAATTAGAAGTTCTATTTTTCTTTTTCTTTAAAAATGCTTTTGACAAACAAAGATATTTATCTTATTTTAGGCTAAATTACAAGTTTAGCCTTTTTTATATCCAAACTTTAACCATTGCTATTTTTTAATTTTTTTATTACTTGAAAAAAATTAGTTTTTATAGTACAATTTAATGTATTTATATTCAAAAAAATATTTTTTTAGGAGAGATATAATAATGAAAATAGCAATAATAAATGGTAGTCCAAGAAGTGATGAAAATAGCGGGTTTATAGCAAAAAAAGCAAATGAATACCTAGAAAAATTAGGAGCAGAGAGTTCAATTATAAATGTAAACGAAGTTTTAAAAGATTTAGAATTTCCATTTTGTACCGCATGTACCACTCCTTGTATACAAAAGTGTGAAAATAATAGTCCTAAGTTAAAAGAAGCATTTGATATATTAAGAGAATCGCAAGGGGTAATAATGATATCTCCAGTTTACTTTGGAACAGTTACAGGGCAACTAAAAGCGTTTTGGGATTTAGGAAGACATCTTAGAAATGAAAAAGCTCTATATAAAAAACCTGGAATAGCAGTGGCAGTTGGAGCAAGTAGATTTGGTGGTCAAGAAACAACAGTTAGGACAATGATAGATATGATGTTAATACAAGGGATGAGTGTTACAGGAGATGGTTTTGATGATAATCTAGGGCATCAAGGTGTATGTTTTCAAAAAAAATCATCTGATGATTTAGAAGGAGTAAAAAGTTTAGAAAGAGGAACTAAAAGATTATTAGAAATATTAAGCTAATAAAATAATTAATCATTTTAGGGAGGGGAATAAAAATGGGAAATAAAGTACTGATTGTTGATGATATGTTATTTATGAGAGTAACTTTAAAAAAAATGTTAGAAGAAGTAGGATTTGAAGTTGTAGCTGAAGCTGAAAATGGAGAAGATGGAATTGCAAAATATAAAAAGTTTCTTCCAGATATAGTAACTTTGGACATTACTATGCCTGAAATGAATGGAATAGAAGCATTAGAAGAGATAAAAAAAATAAATCCAGATGTAAAAGTAGTAATGATTTCAGCAATGGGACAACAACCAAATGTTATAAAAGCAGTTAAACTTGGAGCAAAAGGTTTTATTGTAAAACCATTTAAAATAGAAAAAATAAAAGAAGCAATGTTACCTTTAATGGAAAAATAGTAAAAAATAGGAGGAATGGATGGAATTAAAAATATATAGGGATAGTAATTTTACTATACATATTCAGCTAAAAGAACAATTAAAAGGATTGATACTAAACAATATACTTGAAAATGGGATGCAGCTTCCAACAGTGAGACAACTAGGGGAATTTTTAAGAATAAATAAAAATACAGTCTCAAAAGTGTATAAAGAATTAGAAGTTGAAGGGTATGTTTATTCTGTAAAGGGAAGAGGAACTTTTGTAAGTAATACAGACAAACCTCAAAAAACAAGAGAATTTTTGAAGGTTGTGGACAGTATGTTGAATATGGGGATAAAAAATAGTATCTCTTTAGAAGAAATTTGGGGAATTGTATATTCTAGAAGTCAACATTATAAAGTGTTGCAAGGAGATATAAAAAAGAGGAAATTTGCTTTTATAGAATGTAATGATATTTCAACAAAAGATTTTGAAAAAATGTTAAAATTAGAACTTCCAGATGTAGAGATGGATGGAATTTTAATAGAAGATTTACAAAATAATTATGAGAAGGTAAAAAAAGAGGTAGAGGATATTCAATTGATAGTAATTCCTTATATTCATTATGAAGAAGTAAAAAAAGAGTTAAAAAATCTTGGTAAGGAAGTTATAATTATAGGTACAAATCAAACTTTAAAAATATTAACATCTAGCAAAAAAATAAAAAACAAAATAGTTGGGGTTATTGGATTTTCAGCAGATGATGAGATTGCAATATCTAGACAATTTAATAAGATAGATGTAAAGGAATTTAACTATTACGGAGGATTAGATGAAGTTGGCGAAGATAAATTAAGACCTTTTTTAAGGAAAGTTGATTCGTTAATAATTTGTTCAAGTATAATAGAGGATATTGTAAACAAATTAAAACCCAAAAAACCATATGTTCTTTTTGAAGGAAAATATGACAAAAATGATTTTAAGCCGTTAGTAGAGATATTTTCGCATAAAAAATAGAAAAAAAGATAAAATTTCTAGAATAAGGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACGTTTAAAACATTGCGTATTTTATAACAAAATGGGAATGTTATTTTTAAGCCATTCCTAACTTAATACAGGAGGAAACAAAAAATGGCAAAAAAACCAAGTAAAGTTGATAGTAATAAAGAAAAAGCATTAGATGCTGCTATAAAACAGATAAGAAAAGGCTTTGGTGACGGAGCAATTATGAAGTTGGGTGAAAACACAAAGATGAATATAGATGTTATACCAACAGGAAGTATAAATTTAGATTTAGCATTAGGGATTGGTGGAGTGCCAAGAGGAAGAGTTGTAGAAGTGTATGGTCCGGAATCATCTGGAAAAACTACATTGGCATTGCATATAATAGCAGAAGCACAAAAAAAGAATGGAGTAGCTGCATTTATAGATGCAGAACATGCCTTAGATCCTGAATATGCTAAAAATCTTGGAGTAGATATAGAAGAACTTTTAATATCTCAACCTGATACAGGAGAACAAGCTTTGGAGATTGCAGATATGTTAGCTAGAAGTGGAGCAGTGGATATAGTAGTTATAGATTCAGTAGCTGCATTAGTTCCTAAAGCAGAAATTGATGGAGAAATGGGAGATTCTCATATGGGGCTTCAAGCTAGATTAATGTCTCAAGCGTTAAGAAAACTTACAGGAACATTGTCAAAATCACAAACTTTAATGTTGTTTATAAATCAAATTAGAGAAAAAATAGGTGGATTTGGAAGTTTTGGACCAAATGAAACAACTACTGGAGGAAGAGCATTAAAATTTTACGCTTCAGTTAGGTTAGATGTAAGGAGAGTGGGGAGAGTAAAACAGGGTGAAGATATAATTGGGAGTGAAGTAAAAGTAAAAGTTACTAAAAATAAAGTAGCACCTCCATTTAAAGAAGCAAGATTTGAAATTATGTATGGAACAGGAATATCAAGAGCTGGAGAAGTTTTGAATATGGCAATTGATCATGATATTGTATCTAAAAGTGGTTCTTGGTTTAGTTATGGAGATATGAGATTGGGGCAAGGTAGAGAAAATGTAAAAGCTAGATTTATAGAAGAAAAAGAGCTATTTGCAGAGATAGAAAAAAAAGTATATGAAAAGCTTATGCCAATAGAACAGGAAGAAGTGAAAGATGAATTGCTTGAAAATAACGAAGATAATAAAGAATAAAGTTTATTTTACAAATGAAGAGAAAGAAGAGATATTAAATTTAAATAAATATTTATTGTATAAATATAAAATAGTAATAGGAAAAGAGATTAGTATAGAAGATTTTGATAAAATGGTAGAAGAGTTAATTAGAGAAAAGGCAATTTATCTGTTATCTAGAAGAGATTACAGTGAAAAAGAGTTAAAATTAAAATTAAAAGAAAAGTATAATTATAGCGAAAAAATAGATAAAGTAATGTCAGTTTTATTGGAAAGAGGATATATTGATAATTTCAGATATGCAGTTAATTTTATAGAAAACAAGAAATTTGGATATATAAGAATGAAATATGAATTGAATTTAAAAGGAATATCGGAAGATATGATTTCAAAAATATATGAAATTTCTGATTTTGATGAAAAAGAGTTTTTAAAATATCATTTAAAAAAAGTTAAAAATAGAGATAGAGAAAAAAAGATAGCATATTTAATGAGAAGAGGATTTAAATTTGAAGATATAACAAAAATGATAGGTCGTGATGAAGATGAATATTCGGACTCAATATGAAGAACTAGAATTGAAAATATTATCAAAATACGCTTCAAAATCAAAAGATTGTAAAGGGCGAGAAAAAGAGGAAGAACTTTGCGAAATAAGAACGATCTATCAACAGGATAGAGATAGAATAATTCATTCTAAAAGTTTTAGAAGATTAAAACATAAAACACAAGTTTTTATATCAGCTTATGCAGGAGATCATTATAGAACTAGGCTTACGCATACATTAGAAGTGTCTCAAATAGCACGAACAATAGCAAGAGGGTTAAGGTTAAATGAAGATTTGACAGAAGCGATAGCTTTAGGACATGATTTAGGACATACACCATTTGGACATTCAGGAGAGTCAATTTTAAATAAATTGGCTTCTTTTGGATTTAAACATAATGAACAAAGTTTAAGAGTGGTTGAAAAATTAGAAAGAAAAGGAAAAGGGTTAAATTTGAGTTTTGAAGTTAGAAATGGAATATTAAATCATACAGGAGATATTACTCCTCAAACGTTAGAGGGGCAAATTGTAAAAATTGCAGATAGAATGGCATATATAAATCATGATATAGATGATGCAATAAGGGCAAAGCTATTAAAAATAGATGAAATTCCAAAAGAGTATTTAGATATTTTGGGGTATAAACATAGTGATAGGATAAACACATTGGTAAAAGATATGATATTTAGTAGTTATGAAAAAGGGGAAATAGCACAAAGTAAAACTATAAAAACAGCTATGCTGGGGCTTAGAAGTTTTTTATTTTCAAATTTTTATTTAAAAGATGAAATAAGAGGAAAATTTAAAAAAGCAGAAAAAATCGTAGAGTTATTATATGATTATTATATGGAAAATCCAAATAAAATAGAAATAGGTTTTGAAGATGGAGAAATTGAAAGAAAAGTAGTAGATTATATCTCTGGAATGACAGATATTTATGCGATAAATAAATTTAAAGAGATATATTTACCATAAAGGAGTAGAAAGATATGAAAACTTTAAATATAGATAATGTAGAAAAAGGGATGGATATAGGAGAGAGCATTTTTGATGATAAAGGGAAATTACTTATAAAATCAGGGACTACATTAACAGATAGAATAATAAAAAAATTAAAATTAGAAAATAAAAAAACTATTAAAATACTTGAAGAAGGAGAAAAGGGGGCTGAAGAAACTGATTCTGTAGGTATGAGTTTTTTAAATGGATTAAAAAATAGATATGGAAGTATAAAAAATATAAAAGATAATAAGAACTCTAGTAAAGAGAAAAAAAACAGTTTAAAAAATAAAACTTCATTAGTTAGTAATAAAAGAGGGTCAACTGATAAAAATAAAAAAGCTCCAATAGTTTCAATTATAAGAAAAGATACAAAAGTATCAGAAGATGAAGTTAAAATTTTAAATGAATTTTTAAAAGAGTTGAAAAAAGATTTAAAAAAAATAGTTTTAGAGATAAAAGAAGAAGGAACAATAATTAAATTTAATTTAAATGAAAAAATATTAAAAATATTTAATAATATTATTACTAAAAAAACTGTTTTAAAAGCTCTTAAAAATTTAAAAAAATATGATGAATACTTATATTTACATGCCATATATGTATCATTAGTATCAATGGTTACAGGGGAAAAACTAGGGTATGATATTAGAATATTACAATCAATAGGAATAGCAGGATTGTTTTTAGATACAGGGATGTCTTCTGTTCCAAAAGAGATAATTAATAAAAAAGCACTACTAAAGCCAGAGGAAAGAGAAATTGTAAATAAACATCCAGCTAAATCTTATGCAATATTATCTAAAGTTTCAATAGCTACAGAAATTGCAAAAGAAATTGTTCTAAATCATCATGAAAGAGTTGATGGAACAGGGTATCCTAAGAAAAAAAATAAAGAGAAATTGTCTGAATATGTAAAATTGGTAACAATAATAGATGTTTATCACGCTTTGAGATCGGATAGACCATATCATAAAGCTAAAAATAGTAAAGAAGCTTTTTTTACAATATTTATGTATAAAGGAAAACAATTTGATGCAGATATATTAGCAGAATTAGTAAAATTACAAGGAGGAAATTAATGTTAAGAACGATATATGTTTATACAGCGGGAATATTATATTTAATTATGACTTTTTTAATACAACTGCCTATAGTTTTGTTTGTATATTATTTCGTTTCGAAAGAAAAAGGGATAAAGGTTGCAAGGAAATATGCAAAAAAATGGGGAAAAAATTTAATAGGGAGTACAGGTTGTGAAGTAGAAGTTATAATGAAAGATAAAAACTTAAAAGAGAAAATAGAAAATGAGACAATTGTAGTAGTCTCAAATCATCAAAGTAATTTTGATATACCGTTATTATTAGAATATTTCCCTAAAGATATTGGGTTTGTAGCAAAAAAAGAGATGGAGCATTGGCCTATATTAGGAGCTTGGATGAAAATGATACAATGTGTATTTTTAGATAGAAGTAATCCAAGAGAAGGAATAAAATCAATAAAAGAAGCAGTGAAAAAAATAAAAACTGGATATTCTATTGTGATTTTTCCAGAAGGAACAAGATCAAAAACTGGTGAAATTATGGAATTTAAAAAAGGTAGTTTTAAATTAGCTACTGATTCTAAAGTGAAATTAATACCTGTTACAATAAAAGGAACGAATAATATTCAAGTAAAAGGAAGTATGAAAATACAAAAGGCAAAAGTAAAAATTATAATAGATAATCCTATTGATGTAAAAGAGTTAGATAGAACAGAACTAAAAGAATTAAATGTAAAAGTAAAAGACATTATAGAAAAAAATTATAGAGGTAATTGATCAATAAAAAATTAAGGAGTATTAAAAAAATGGGATATTTTTATTCTATTTTTTTTAATACTCCAATTGACTAATCGGTCATAATGTGGTACATTATGACTATAGAGTCATAGGAGGAGAGATGAAAATCACAAAAAAAGAGTTGCTTTTAAATGCATCAGAAAAATTAATGTCAAAGAAAGGTTACGAAAAAACAACGGTGGAAGAGATTACAAATGAAGCTGGAGTAGCAAAAGGTACATTTTATATTTATTTTAAATCAAAAGAAGATGTACTATTTGAATTATTAGAATCAAGATTGGTTTTATACAAAGAACAGTTTGAAAAAGTTAGAGATAAGGGGGTGACGTTATATGAAAAAATATTAAATTTAACTATATTTAATATAGAAATAGCTAAAAAACAAAGTGATTTTTTTATGATTTATGTAAGAGAGATATTTAAAGCGGAAGAAAATGAGTTTAATAATAAATTAAAAAAAGAGTTGTTTAAGTTAGAAAATAGCGGCTCTAAATTAATGATAGGAATATTTGAAGATGCTATAAAAAAAGGGGAAATAAAAATAAAATATGAAGAAAGATTAGAAGATATAGTTTCTATTTTTAATTTTATGAGAAATCATATTATTAGAAAAAGATTTTTTATAGAAAAGAAAAATTTAACTTTAGAAGAGGTGGAAAGTGAAGCTAAATTTTTAATTGATATATATTTTAATGGAATAATTGAGGAGGTGCAGTAAATGAAAAAAATTTTTATGGTATTAGGAATAGTCATAGTTTCATTTAATACGTTTGCAATGGAATTAAGTGTAGAAAAGGCAGTAGGTATGGCTTTGAAAAAAAATATAGAGATAAAAAAAGCAGAAATCGATGTAGAAAACGCAAAATTACAAGTAAAAGAAGCTATAAAAGGGAGTTTGCCAAAAATAGGATATTCGTTTATTTATAATAAACAGCAAGATAAGATTAGTATGAATCAGCTTGTAGGAGGGACAAAATTTGTAGGGAATACATTAACAGGAATTCCAGTATATTCTGATGGTACTGTTAAAAATTTAGAAATAGCAAATTCAGATAATATCTATATGCATACTTTAACATTAACACAGCCTATTTATAATGGGGGGCTAGAAATAGCAGGTATAAAAAATTCTAAATTAGCAGAAAATATGAGTAAATATAATTTGACAAAAAAAGAACAAGATTTAAAAGTTCAAATAATAGAAGAATATATAAATATAATAAAATTAAAACATCAAAAAAACATTTTAGAAAACTCTATAAAAGAGATGAAAGAAAACAGAGAAAAATTAAATGAAATGTATAAAGAAAAAATGATAACAAAAACTCCAATATTAGATATTGAGTATGCTGTTATAAATTTAGAAGGGAATATGATAGGTGTAGAAAATGGGATAGAAATTTCTAAAGAGAAATTAAAAAATGATATTGGATTAGATGAGAGTGAAGATATTAAAGTTAGTGAATTATCAAATATATCAGTTGATTTTGATAAAATAAATTTAGAGGATGATATACAAAAAGCACTAGACAAAGGAATATCAGTAAAATTAATAGAAAATATGACAAAGCTTCAAAAAGCAAGTGAAGCTATACAAATGGCAGGGTTGTTACCTAAAATTAATTTTCAATTTAAATATAGTTCTCCAACTGGAGCTTTTAAAATAAGTGATTCTGTAAAATTAGAAGACTGGAATTGGAGTGCTGGAGTTTCATTTAATATGGATGTTTGGGATTGGGGTACAAATCTTAGTAAATTAAAAAGAGCTAAAAATGAAACTAAAAAGAAAAAATATGATGAAGAAAATGCAAAAGAAAATATAAAACTAGGAATAAAAAGTAAGTATCTTGAATTGAAAAAATTAAAAAAAATGTTAGAATCGAAAAATAAAGCAATGGAAAGTGCAAAAGAGAATTATCAATTGGAAAAACAAAAATTTGAATATAGTATTATATCAACTACAGATTTAATATCAGCAGAAAATAAATATAGAAGTTCAGAAATAGATGTAGATAATACAAAATTAGATTATTATTTAGCAGATTTAAAATATAAAAATATGATAGATGGGGAGGTAAAATAGATGAAGAATATAAAGAAAATTTTAATTGGAGTAATGGCTATAAATCTATTATTTGTATATGGATGTGGGAAAAATGCAAAAAAAGAAGGGGTGAAAACAGAAAAAATAGTAGTTGTGAGAACAGTGGAATTGAAAAAAATGGAGCTATCTAAAAGAATAGAGGTTGGAGCAGAAGCGAAACCATTTAAAGAGGTAGTTCAAATAACAGAAACAGGTGGAGATGTAAAAAAAGTAGATACAATAAATGGAAGATGGGTAAAAGAGGGGGAAACAATTGTAGAACTTGAAAATACTCAAATAGAAGCCAGTTACATGCAAGCAAAAGCAGCATATTTAAATGCAAAAGCAAACTATGAAAGAACAGAAAAATTTGCAAAAGATCAGCTTTTAAATAGATTAGCACAAGCTAGATTTGCACTTACATCTGCAAAAATGAATTTAGAGAAAGTAACTAAAGGGGCGAGACAAGAGGATTTGGATAGAGCTACATATGGAGTAGAAACAGCTAAAAAAAATTATGAAGTGATGAAATCAACTTATGAAAAAAATAAAAAATTATATGAAAAAAAATTGATTTCAGAACAAGCATTTTTAAATATAGAAAATGGTTATAAGTCATCTGAAAATGGATATAAATCAGCAAAAAAAGGGTTAGAACTGTTAAAAAAGGGAGCTCAAGTAGAAGATAGAAATACATTGAAAGAAGCAGTAAAAAATGCAGAAGATGGATATAATTTAACAAAAAAAATGGTAGATGGCAAGTCATGGAAATATGATATTCAAGCAGCAAAATCAGGATATATTCAAGCAGAAGCAATGTATAAATTAGCCAAAAAAAATTATAATGATTTAACTGTAAAAGCTAAAATATCAGGAGTTGTTATAAATCTTGATCTAAAAGAGAAAAATAGAGTTAATCCAATGACACCATTGTTTAGAATTGTTAATAATGATGATATGGTGCTAGAGGTTGGATTGGCGGAAAGTGAAATAGAAGGCGTTCAAAAATTTAATAAAGTAAGAGTGAAAGTTAAAGCTGTAAACAGCGAGTATGAAGGTCAAGTGTATGAGATAAATCCAGCAGCAGACCCTAAAACTAAAAAATTTAAAGTAAAAATTAAATTTAAAAATGTAGGACATAAAATAAAAAAGGGTATGTTTGCAAATGCTATAATTTTAGCAGGAAAACATGAAGCCTTAGTAGTTCCAAAAGCAGCAACAGTAGTAGAAAATTTATCTACTTACATATTTAAGGAAGAGGAGAATAGAGCTGAAAAAATTAAAGTTAAACTAGGAGACTCAAATGATAGATATCAAGAGATTATCTCTGATAATATTTCAGAAGGAGACAAAATAATAGTAGAAGGACAATTTATATTAAATGACAAAGACAAGGTGAAAGAGGTGAAATAGATGAAGTGGTTATCAAGTTTATCAATAGAAAGACCAGTTACAACAATTATGCTGATAGTTACAATGATTGCATTAGGATTAGTATCTTTAGTAGGTTTACCAGTAGAATTAATGCCAAACTTAAATTTCCCAGTAATAACAGTTGCTACAGGGTATTCTGGTGTTGCACCTCAAGATATGGAAGAGTTAGTTACCAAGCCCATAGAAAATGCAATTGAAAGCATAGAAGGTGTTAAAACTATGACTTCTTCTTCGAAAGAAGGGATGTCCCATGTTGTTGTAGAATTTGAGTGGGGAACTAATTTAGATTCGAAATCGATAGATATAAAAGATAAAATAAATTTGATTAAAAGGATGCTTCCAAGTGATATAGATGATCCAATAGTATCTAAGAGGAATATAATGAAGAATGAAGTAGCTATGAAATTAAATTTATCAGGAGGAAATTTATCAGATTTAAAAAAAATAGCTGATGATGTGTTAAAACCTAAATTTGAGAGAATTCCAGGAGTAGGCTCAGTTGATATATATGGTGGATTAGATAAAGAAATATTAGTAAAAGTAGATCCGTACAAATTAGAGAGTTATGGATTAACAGTTGATTCATTGATAAATTTATTAAGGACAGCAAGTGTAAATATGCCAGCTGGAAATATAAAAGAGGGCGGGAAAGAGTTTCTTGTTAGAATTTTAGGAAAAGCGGAATCTGTAAACGATATAAAAAATATTGTTATTTCGAATAAAAATGGTAATACTTTATATTTAAAAGATGTAGTAGATATTATGTTAGGGACAGAAGATAGAGATAACTATAATAGGTTTAATGGTAAAGAATCAATATCTCTAAATTTAATAAAAGAATCTGGTGGGAATACTGTATCAATAGCAGATAACGCAAAGAAAATGATGAAAACTTTAAAAAATGAATTGCCAGAAGGAGTAAAGCTTACAATAGGTCAAGATAAATCTACATATATAAAAGACTCGATGAGTATGGTAAGAGATAGTGCATTAATGGCGCTAGTTTTAGCGGCAATAATTTTATTTATATTTTTAAAAAATATAAGAGCAACATTAATTATATCTACTGCAATACCAACTTCTATAATTTTTACTTTTGTATTAATAAAATATAAAGGTATATCAATGAATTTATTATCCCTTGGTGGATTGGCACTTGGAGTAGGAATGCTTGTAGATAATTCGGTAATTGTACTAGAAAATATATATAGACACTTAACAGAGTATAAAAAGCCAGTAATAGAAGCAGCAAGAGATGGAGCAGCTGAAATGGGGTTGCCAATTTTAGCTTCAACTGCAACAACAGTAGCAGTATTTTTACCAGTAGCATTTACTAAAGGGATAGCAGGAGAAATTTTTAGAGATTTTTCATACACAGTTGCCTTTTCTCTATTAGCATCTATGATAGTAGCATTAACATTTGTGCCTATGATTTCTTCAAAAATATTAAAAGAGGGCAGAGAAACAAATAAAGAAGGAAAATTATTTGTAAAATTAAAAGAAAAATATTCAAAATGGATTGGGATAGCGTTGTCAAATAGATGGAAAACATTAGGAATAGCAGTTTTTATATTTGCAATAGTTATAACTGCAGGGATTAAATTTGTTGGATTAGATTTTTTCCCAAGTACAGATAGTGGAGAATATACAGTTACAGCAACTTTGCCAACAGGATTTGATTTAGAAAAAGCAAATAAGATAGGCAAAAAAATAGAAAAAATAGTAAAAGCAAATAAATATACTAAAAAATATATAACACAAGTAACAAAAAAAACAATAATAGTAGATGTAGAAACACCATCTAAAGATTTGAGAAAAGTGAGTATAGAAGATATAAGTTCAAATATTAGAGAAAAAATGAAAAATATACCTGACATAACTTATACAGTAAAAGGGTCATCCAGAGGTGGTGGCGGAGGTGGAGCTGCGATACAGGTTTCTATACAAGGTGACAATTATGTAATTCTAGAAAAATTGTCAAATAAAGTAAAAGAAAAAATAAAAAGTTTAAAAGGTATTGTAGATGTAGAAAGCTCATTTGAAGGTGGAAATCCAGAAGTGAGAATTAAAATAAACAGAGAAAAAGCAGAATATTATGGATTGAATATAAGTTATATATCTTCTATAATTAATTCGAAAATGGCGGGGATAGTACCTTTAAAAATTCAAAGTAGTGGACAAGATATAAAAGTTAAATTAATATTAAAAAAAGAATATAGAGACTCTATAAAAAAATTAGAAGATATATTAATATCTACCCGAAATGGAGAAACAGTTAGATTAAAGGAGATTGCAAATTTTGAACAAGGAGAAGGACCAACTCAAATACTTAGAGAAGATAAAAGGAGAGAAATAATAGTTTCGGCAAATAATTCAGGAATATCACTAGGAAATGCAACTAAGGAGATTACGAAAGCTATTAATGGTATAAAATTCCCAAGTGGATATTCATATAAGTTTGGTGGAAGTCAAAAAAGTATGATGGAAGCTATGCAAAGTTTAGTAGTAGCATTTTTAATTGCAATATTTCTTGTATATATGATTTTGGCTTCACAATTTGAATCATTTATATTACCGGCAATTATAATGATAAGTGTGCCGTTTTCATTAGTTGGAGTATACTTAGGGCTTATGATAACAGGATTTAGCTTAAGTATAACGGTAATGATAGGAATTATAATGCTAGCAGGAATCGTTGTAAATAATGCTATAGTTTTAATTGATTATATAAATTTATTAAAGGCGAGAGAAATAGATAGACATGAAGCTATAAAAAAAGCGGGTAAAACTAGATTAAGACCAATATTAATGACTACAACAACTACTGTTTTTGGAATGATTCCATTAGCAATGGGAATAGGTGCAAGTTCTGATTTTTATCAACCACTTGCAATATCTGTAATATTCGGATTAAGTGTTTCTACACTTTTAACTTTAATAGTAATACCGGTATTATATTCGCTGTTTGATGATTTTCATATATGGTATATGAAAAAAAGAGGAAAAGCGGAATAACAAAAAGGGGGTTATAAATATGTATAAAGGAATAAGAATAGTGTATGATTCAGTAATAGAAGATAGAATATTAAAAATATTAAAAAGTGAAAATATAGAAAAATATATAAAATTTCCTAAACTTGAAGGAGTTTGGGGAAAAGAATTAAGACATTTAAATTCTCATATATGGCCTGGTACAGATGGAATAATTTTTTTAATGTTACCAGAAGAAAAATCTGTAACTGTGTTAGATAAATTTAGAAACTTTAAGAAAAAATTGGAGATAGATGTTCCGTTTATGATAGTAGTATCGCCAATAGAAGAGATAATATAAAGAATGTAAAAAAGGGCAGATTTAAATATCTGCCCTTTTTTGATTTTTATCTTTGTGTTGAACTGTTTTTTATTAATCTTTATTAATAAAATTATCAATAATTGGATTTATCTTGTCATATTCAATTAAAAATGAATCATGACCAGAGTAGGTATTTATCTCGTGATATTCTACATTTTTTTCTTTTTCTTTTAATATATTTGACATCTCTTGAGATTGGTAAGATGGAAATAACCAGTCAGATGTAAATGACATAATTAAAATTTCTTTTGCCTTTATATTATCTAAAGCGTCCTCTAAAGAATTAAAATCTCTGCTAATATCAAATAGATCCATAGCCTTACTTAAATATAGATATGAATTAGCATCAAATTTTTTTACAAATTTGTATCCTTGGTGATCTAAATAATTTTCTACTTCAAATTTTTCGTCAAAGTCAAAATATTCAGTAATATTTGCATGCTTTCTTCCAAATTTTATTTGCATAGCTTCGTCGGAAAGATATGTAATATGAGCAACCATTCTAGCTAATGCAAGGCCGTCTAATAGTCGCTTTTCCTTATAATAATTACCACCATTCCATTTGGGATCAATCATAATAGCATGCCTTCCAATTTTATTAAAAGCTATAGATTGTGGAGAGAGCTTACTAGTAGCAGCAATAACAACTAGTTTATCCATAAAATCAGGATATGTAACACCCCATTGTAATGCCTGCATTCCTCCAATAGAACCACCAATTACAGATTTTAGATGGTAGATTCCAAAATGTTTTTCCAAAAGAATTTTTTGAGTTTCTACCATATCTTTTATTGTTATTGTAGGAAATTTCATTGCGTATGGTTCTTTTGTTTCAGGATTTATAGAATTTGGGCCTGTAGACCCACTACAACCACCTAAAATATTAGAACAAACAATAAAATATTTGTTAGTATCTAATGGTCTTCCTGGACCTATAATAGGATCCCACCAACCTGTTTCAGAATCTTTATCCAATCTGCCTGCTACATGAGAATTTCCAGTTAGAGCATGACAGATTAAAATTGCATTATCTTTATTTTTGTTAAGGGTACCATAAGTTTCGTAATCAAGTGTTATGGGCCCGAATTTCATTCCAGATTCTAGTTTTAAAAGAGGAAATTCGCTATTGCCTGTAGCGAATGTAAATTTTCCATGTTTTAAATTTATAGTTTCAGGTAAATTAGGAGGAAATTTCTCTTCTCTCAATTGTTTTCCAGTTAAATTTTTCATAATGCACCTCCATAAAATCGTAAAATATATAGAAAACAGCACTGCTTGCAATAAGAAAGTTATAATTTTCAAAAATTTCAGTTGCTAAAAATAAAAACTGTTCTTTTGTATTGTTAATATATTATACATTAATAAAAAAAAATCTTCAAGAACAAAAAAAAGTTGAAAAAAAATTATAAAAATGTTATTATATAGAAGAAAGTGTTTAAATATTGGAGGTGCGGTCGTGGAAAAGACATCATTGCTTGTAATTTCAACAAATAAGGAGTTACAACAAAACTTGAGGAAAGAATTAAAAGAGGATTATGAGGTAATAACATTTGATAATCTTTTAGATGGACTGGATATGTTAAGAGAGAGCGATTTTGAAGTTATGCTATTAGATGAGAACTTAAATTGGTTTACTTTTGATGAAGCTATGAAAAAAGTTAAAGGTATAGGAAAAGATATTTTTGTATTAGGATTGTTAAGTGATGAAAATCCAGCTAGAATAAAAGAGATAAAAATGGCAGGTATATATGATTATATTTTGAAACCTATTAATAAAAGAGAATTTGACAGATTAATAGATCATGTTTTAAATAATATAGAAATATTAAAAGAAAAAAGAGATTTGGAGAAAAAACTTCTTATTATTGAAAAAGAAGAAGAGATGATAGGTCAAAGTAATTCTATAAAACAATTAAAACAAATGATAGAAAAAGTAGCTTTAGGAGATACTACAGTTTTAATATTAGGAGAAAATGGTGTTGGAAAAGAATTAGTAGCAAAAGAGATCTATAGAAGAAGTCCTAGGTATAGAAAACCGTTTATAACATTAAATTGTGCAGCAATATCTAGTAATGCTATAGAAGCAGAACTATTTGGGTATGAAAAAGGAGCTTTTACAGGAGCAAATTTATCTAAAAAAGGGATAATAGAGGAAGCGCATACTGGAACTCTATTTTTAGATGAAATAGGTGAACTTGATGTAAAAACTCAAGCAAAACTATTGAGAGTGATAGAATATGGAGAACTTAGAAGAGTTGGAAGCAGCAAAACTTTAAAAGTAGACGTGAGATTTATAGCTGCTACAAATAAAAAATTAGAAGATGAAGTTAGAAGAGGTAATTTTAGAAAAGATTTGTATCACAGACTAACTAATTTTCCTATTTATGTAATGCCTTTAAAAGATAGAAAAGAAGATATTCCATTATTGGTAAACTACTTTTTAAATAAAATTGTGGAAGAACTACATAAAGATATGATTGTGTTTTCAGGCGAAGCAATGAAATATTTGATAGATTACAATTATCCTGGAAATGTAAGAGAATTAAGAAATATTATTGAGAGAATAGTTATTCTTTCAAATGATAGAGTTATTTCAGTAGAGGATTTGCCATTAGAATTAAAAATGAAATCAGATACACTTGAAAATAAAGTTGTAATTGGATTAGGGCCTTTAAAACAAATTTTAGAAAAAGAGATATATGAATTAGCAGAAGTAGAGAGAGTTGTAATTGGAATGGCTCTTCAAAGAACAAGGTGGAATAAGCAAGAAACTGCTAAGGTTTTAGGAATAGGAAGAACGACTTTATACGAGAAAATAAAAAGATATAATTTGGATAGAAGATTAATAGAAAAAGAGATGATGTAAAAAATGGATTTCAATTTAGTTCAATCATATATTTTAAAACTTCCTAAAATTGAAGAGCTAAAAGATATTCCTCAAATAAAAATATTAATAGAAGGATATTCTGAAAGAATAGTAGACGAATATCTTTCTAAGATATTAGAAGAGCGACATAAAAAAATTGTTAAATCAGATGTAGAAGAAGATTTAAAAAAAATGGATTTTTCTATTGACTATTATATAAAAGAGTTGAAAAAAGGGATTGAGATAGAAAAAGGAAAATCATTAAAAAAAGTTATAAATTGTATGGGAACGATCTATTCTGATTATATTGGGAATAGATTTTATTCTAAAGAGGTTTTGGATAATTTTAGTAAGGTTTTTTTTGAGTATACAAATATGGAGCTAGATGAAGAAAATGGAAAAAAAACAGATATAGATAGTGATTTTGAAAAATTGTTAGTTCAACTTTTTGCACAGAAGAACTGTTTATTGGTGAATAATATGGGGAGTGCATTTTATTTACTTGTGGATACTATTTTTAAGGATAAAAATATAATACTTAGTAATTCTGATTGGCTATATTTTTCGGAATTAAAATATGGGATATCGGATGTAATAAAAAATGCAAATGGAAAAATAAAAATAGCAGGTTATTTAAATGATATTAATATAGAAAATTATATTGAATTAATTGAAGAAAAAGATGATTTATGTTTATATAGTGAAATGTTTAATGGGAAAAAAGAGTTTGTTTCAAATGTAAAAGAAGATGAATTCCAAGCTTTAAAAGAAAAATCTAAGACAGTTTATATTACAGATAAAGTGTATATAGAAACTGAATCAAATGCGATAAAAAAAATAGGATATGATATAAAAACTGTTTTAGAGAAAAAATATGATTTTTATATATTGGAACTTTCTAAATTAGGGAATTTCCCGCCTGTAGGAATAATTTTTGCAGATGAAGAAAGTATAGAAAAGATGAAAAAGAACTTTATATATTCTTTGATATCTTTAAATAAAGAGATGAAGGTACTTTTATATTTTTCAATAAAGTTATATTTAGAAAAAAAAGTAAATAAAGTTTGGATTAATGAAACTCTTGCAGAAGATAGAGTGAAAGATAAAAATATAAAATTTATAAAAAATATAGAAGGAAAATTATTTGAAAAAGCTGAAATAGAGCTAGTAGAAACTAAACAGTTTTCGTTCTTTGAATCAATGGGAGATTCTAAAAATGAAAATAGAGAATTTATAAAAATATATCCTCTGAAAAAAGATGTTTATGAAGCTGAAAAAGAGTTGAGAGTGGGATATCCAATTGTATTATGTTGGGTAGTTGAAGATAGTTTGCTTTTGAATATAGATTTGTTAAAAAACGAAGAGATAGAAATATTAAATAAAAAGCTATTGGAAGTGTTATAAATCTTCTGATAGCTTTTTATTTGATGCTTGGAAAAATATTTATACTTCACCACCTGAAATGTAACCTTATTTTTCTATGTAATAAAATTTTACTTGACAATTTTCTATTAATTTGATAATATTATTAAGCTAAAATGGCATAAAGTTTATTTTTATATATATTGAAAGGAGGTGCACAGATGCCTACTATAAATCAGTTGGTAAAAAAAGGTAGAAAAAAAATTGAAAAAGCAAAAGCTACACCAGCTTTACAAAGCAACCCACAAAAAAGAGGAGTTTGTGTAAGAGTTTACACTACTACACCAAAAAAACCAAACTCAGCGTTAAGAAAAGTTGCGAGAGTAAAATTGACAAATGGGATAGAAGTTTCAGCGTATATTCCAGGAATCGGACATAACTTACAAGAACATTCAATAGTACTTGTAAGAGGAGGAAGAGTTAAAGATTTACCAGGAGTTAGATACAGAATAATAAGAGGAACATTAGATGCAGCAGGTGTTTCTGACAGAAAACAAGCAAGATCAAGATACGGTGCTAAAAAGAAGTAAATTAGGAGGTGAATAATAGCGAATGGCAAGACGTAGAGTGGCAAAAAAAAGAGAAGTATTACCAGATTCAGTTTATGGAGATAAAATTGTAACAAAATTCATAAATGGAATAATGAAAGATGGAAAAAAATCATTAGCTGAAAATATATTTTATACAGCTATGGATAAAATAAAAGAAAAAACTGGTGAAGAGGGAATTGATACGTTTAGAAAAGCTTTGGAAAATATCCAACCTTTACTTGAAGTTAAATCAAGAAGAATAGGTGGAGCTACTTATCAAATACCAATAGAAGTAAGACCAGAAAGATCTCAAACATTAGCTATAAGATGGTTGGTTAAATATACTAGAGCTAGAAAAGAATATGGAATGATAGATAAATTAGCAAGCGAATTAATAGCAGCGGCTAATGAAGATGGGGCAACATTCAAGAAGAAAGAAGATACTCATAAAATGGCAGATGCTAATAGAGCTTTTGCGCATTATAAATGGTAAAATAAAAGGAGGACAATCTAATGGCTAGACAAGTTTCTTTGCAAAAAACAAGAAACATAGGGATAATGGCCCATATAGATGCCGGTAAAACAACAACAACAGAAAGAATTCTTTTTTATACGGGGATAACTCATAAAATTGGAGAAGTTCATGAAGGTGCAGCTGAAATGGATTGGATGGAGCAAGAAAAAGAAAGAGGTATAACAATTACTTCTGCAGCTACTACTTGTTTCTGGAAAAAACATAGAATAAATATTATAGACACACCAGGGCACGTGGACTTCACAGTAGAGGTTGAAAGATCTCTAAGGGTTCTAGATGGAACAGTTGCTGTTTTCAGTGGTGTTGACGGGGTTCAACCACAATCAGAAACAGTTTGGAGACAAGCAGATAAATACAAAGTTCCTAAAATGGTATTTATTAATAAAATGGATAGAGTTGGGGCGGATTATTTTATGTGTATGAATGACATAAAAGAAAAGCTTGGAGCTAATCCTGTACCTATTCAATTGCCGATTGGAGCAGAAGATTATTTCGAAGGAATAGTTGATCTTGTTACAATGAAGGAAATTGTTTGGGAAACAGAAGATATGGGAGCTAATTACACTGTTCAAGATATTAGAGAAGATTTGAAAGAACAAGCTGAAGAGTATAGAGATAAATTGCTAGAATCTATTTCAGAAGTTGAAGATGATTTGATGGAGAAATATATTGGCGGAGAAGAGATTTCAGAAGAAGAGATAAGAGCTGCTTTGAGAAAAGGAACTATTGACAATACATTAGTACCAATGCTTTGTGGAACTGCTTTTAAAAATAAAGGTGTTCAAACATTGCTTGATGCTGTAGTTGAATATATGCCTTCACCTCTTGACATAGGTGCAGTAAAAGGAACTGATCCTAAAACAGAAGAAGAGATAGATAGAGAACCATCTGATGACGCAAGTTTTTCAGCTTTGGCTTTCAAAATAATGACAGATCCTTTTGTAGGGAAATTAGCTTTCTTTAGAGTTTACTCAGGAGTGTTAGACAAGGGAAGTTATGTATTGAATTCAACAAAAGGTAAAAAAGAGAGAATTGGTAGAATTTTACAAATGCATGCTAATAAAAGAAATGAAATAGATAAAGTGTATGCTGGAGATATTGCAGCTGCCATTGGATTAAAAGGAACTACTACAGGGGATACTTTGTGTGATGAATCTAATCCTATAATTCTTGAAAAAATGGAATTCCCAGAACCAGTTATATCGGTTGCTGTAGAGCCTAAAACAAAAAAAGATCAAGAAAAAATGGGTATTGCACTTCAAAAATTAGCAGAAGAAGATCCTACATTTAGAGTGAAAACTGATGAAGAAACAGGTCAAACAATCATATCTGGAATGGGAGAACTTCATTTGGAGATTCTTGTAGATAGAATGAAAAGAGAATTTAGTGTAGAAGCAACAGTTGGTAAACCACAAGTTGCTTATAGAGAAACAATTAAAGGAAATGCAAGAGTAGAATCTAAATATATCAAACAAAGTGGAGGTAAAGGACAATACGGACATGTATGGATTGATGTTGAGCCACTTGAAAGAGGTAAAGGATTTGAATTTGTAAATAAAATTGTTGGTGGAGCTATTCCTAGAGAATATATTCCAGCAGTAGAAAAAGGTATAGTAGAAGCTTTAGAAGGCGGAATTTTAGCTGGATATGCAATGCAAGATGTTAAAGTAGTGTTATTTGATGGTAGTTATCATGATGTGGATTCATCTGAAATGGCATTTAAAATTGCAGGATCAATGGCAATAAAAAATGCAGCTAAAAAAGCAAATCCAATAATTCTAGAACCTATATTTGATGTTGAGGTTGTTACTCCTGAAGAATATATGGGAGATATAATAGGAGATCTTAATTCAAGAAGAGGAAGAATAGAAGGAATGGAAGATAGAGCAGGAGCTAAAATAGTAAAAGCAAAAGTAGCTTTATCAGAAATGTTTGGATACGCAACTGATTTGAGATCTAAATCTCAAGGAAGAGCAACTTATGTATACAGATTTGATCATTATGAAGAGGTTCCAACAAATATTGCTAAAGAAATAATAGAAAAAAGAAGTTAAATTTAAATTGAAAACTGATATATTAAAATAAAAATTAATTTTTTAGGAGGTAAAAAAATGGCAAAAGAAAAATATGAGAGAACAAAACCCCATGTAAATATAGGTACAATAGGTCATGTCGATCATGGTAAGACAACAACAACAGCTGCTATATCAAAAATATTAGCAGATAAAGGGTTAGCAGAAAAAGTGGATTTTGAAAATATAGATCAAGCTCCAGAAGAAAGAGAAAGAGGAATAACAATAAATACAGCTCATGTGGAATATGAAACAGAAGCAAGACATTATGCGCATGTGGATTGTCCAGGCCATGCTGATTATGTAAAAAACATGATCACAGGAGCAGCTCAAATGGATGGAGCTATATTAGTAGTATCAGCAGCAGATGGTCCAATGCCTCAAACAAGAGAACATATATTACTAGCAAGACAAGTAGGGGTTCCTTACATAGTAGTATACTTAAATAAAGCAGATATGGTAGAAGATGAAGAACTATTAGAATTAGTAGAAATGGAAGTAAGAGAACTATTAAGTGAATATCAATACCCAGGAGATGATGTACCAGTAATAATAGGATCATCATTAAAAGCATTAGAAGGGGATAAAAAATATGAAGATAAAATAATGGAATTAATGGCTGCAGTGGATGAATATATTCCAACACCAACAAGACCATTAGATCAACCATTCTTGATGCCAATAGAAGATGTATTTACAATAACAGGAAGAGGAACAGTTGTAACAGGAAGAGTAGAAAGAGGAATAGTAAAAGTAGGAGAAGAAATTTCAATAATAGGAATAAAAGATACAGTAAAAACAACAGTAACAGGAGTAGAAATGTTTAGAAAACTGTTAGATCAAGGTCAAGCAGGAGATAACATAGGAGTATTATTAAGAGGAATAAAAAAAGAAGATGTGGAAAGAGGACAAGTATTAGCAAAACCAGGAAGTATAACACCACATACAAAATTTAAATCAGAAGTATATGTATTGAAAAAAGAAGAGGGTGGAAGACATACACCATTCTTCGCAGGATATAGACCACAATTTTATTTCAGAACAACAGATATAACTGGATCAATCAAATTACCTGAAGGAGTAGAAATGGTAATGCCAGGAGATAATATAGAAATGGAAATAGAATTAATTCATCCAATTGCAATGGAAAAAGGATTAAAATTTGCAATTAGAGAGGGTGGAAGAACTGTAGGAGCTGGAGTAGTTGCTACTATAATGGAATAATTAAGTGAAGAGGCATTTGCCTCTTCATAATCTTAGAGGTGCATAATTAATCAGGAGGTGGAAAAAGTTTAATGAGTTCTGGAAAAATAAGAATATATTTAAATGCATATGATCATAAATTGTTAGATCAATCTGCACAAAAAGTTGCAGAAACAGCAAAAAAAACAGGAGCTAAGATAGCAGGGCCTTTGCCTTTGCCTACAAAAACAAAACGATATACAGTACTTAGATCTGTTCATGTAAATAAAGATTCAAGAGAACAATTTGAAATGAGAATTCACAGAAGAATGGTAGAACTTTTAAGTTCTAATCAAAAAACAATTGCAGCTTTAACTGCTCTTAGCCTACCATCAGGTGTAGGAATAGAAATAAGACAAGCGTAATAATATAAGTTGACATTTTAGTCAACCAATATATGGAGGTGTAACAATGTTAGGATTATTAGGAAAAAAAATTGGAATGACTCAAATATTTGAGGATGGAAAAACTATTCCAGTTACAGTAGTAGAAGCAGGACCAAATTACATATTACAAAAGAAAACAGAAGAAAAAGAAGGATACAACGCAATTCAAGTTGGTTTTGGAACAAAGAGTGAAAAAAATGTGAATAAACCAATGATGGGTATTTTTAAAAAAGCTAATGTAGGACCTTTAAGATTTGTAAAAGAATTTAAAGTTGACAATGTTGACGAATTTGAATTAGGACAAGTAGTTAAAGCAGATGCATTAAGTGAAATAAAATATGTTGATGTTGTAGGAACTTCAAAAGGAAAAGGGTATCAAGGTGTAATGAAAAGACATAACTTTGGTGGAAATAGAAAAACACATGGTGTGTCAAGAGCACATAGATCACCAGGTTCAATAGGTCAAAGCTCATCTCCTTCAAAAGTTTTAAAAGGACTAAAAATGGCAGGACAACTTGGAGGAGTTCAAGTAACTGTTCAAAATTTAGAAGTAGTGAAAGTAGATGTAGCAAATAACTTATTATTAATAAAAGGGGCTGTACCAGGACCTAAAAACGGTTTATTAGTTATTAAACCAGCTGTAAAAAAATATTAGTGGCCAGGAAGGAGGAGTAAATAATGCCAATATTGGATTTGTATAATATGCAAGGAGATAAAACAGGAACTATTGAATTAAAGAATGAAGTATTTGGAATAGAACCTAACAAAACAGTCTTGCACGAAGTATTACTTGCAGAACTTGCCGGTTCAAGACAAGGAACTGCAGCAACAAAAACTAGAGCAATGGTAAGAGGTGGAGGAAGAAAACCACTTAAACAAAAAGGAACAGGAAGAGCTAGACAAGGGTCAATAAGAGCTCCTCATTGGGTTGGAGGAGGAGTAACATTTGGACCTCAACCAAGATCATATGAACAAAAAATAAATAAAAAAGTTAAGAAATTAGCTTTAAGATCAGCTTTGTCTGAAAAAGTAAATGAAGGAAATTTAGTTGTTGTAGATGAATTTAATTTTGATGCACCTAAAACTAAAAGTATAATAGCATTTAATACAAAAGTTGGAGCAGATAAAAAACAATTATTCGTATTAAATGATTTAGCAGGTGATAAAGATTGGAATACATACTTATCAGCTAGAAATTTAAAAGATGCAGTAATATTACAACCAAATGAAATGGGTGTATATTGGTTATTGAAACAAAACAAAGTAATAATTACAAAAGATGCAATTAGCACTATAGAGGAGGTGCTAGCATAATGACTATTTATGAAATGATAAGAAAACCAATAATAACAGAAAAAAGTGAATTATTAAGAAGAGAATTTAATAAATACACATTTGAAGTAGATAAAAGAGTAAACAAATTGGAAATTAAAAATGCAGTAGAAAAAATATTTGGAGTTACAGTAGAATCAGTAGCTACAATAACTTCAAAACCAAAGACAAAAAGACACGGAATGAAATTATATAAAACACCTTTAAAGAAAAAAGCAATTGTAAAATTAAAAGATGGAGATAATATAAAATATTTCGAAGGTGTGTAAAATTAAGCGGAATGGAGGGTAGAATCGATGCCAATTAAAAAGTTTAAGGCAATGACTAATGGAACTAGACATATGACAATGTTAGTTAATCCTGATTTAGATAAAAATGTAAGACCAGAAAAAAGTTTGACTGTGCCTCTAAAGAGTGCATATGGAAGAGATAATTATGGTCATAGAACAGGAAGAAACGTACAAAAAGGTCATAAAAGATTATATAGATTAATAGATTTTAAAAGAAATAAATTAGATATACCAGCAAAAGTAAAAACAATAGAATATGATCCAAACAGAACAGCAAATATAGCTTTACTTGTATATGCTGATGGAGAAAAAAGATATATATTAGCTCCAGAAGGATTAAAACAAGGAGATACTGTATTAGCAGGAGCAGGTGCTGATATTACTCCAGGAAATGCTATGAAATTGAAAGACTTACCAGTTGGAACAAGAATTCATAATATTGAATTACAACCAGGAAAAGGTGGGCAATTAGCAAGATCTGCAGGAGTATATGGAAGACTTGTAGCAAAAGAAGGAACTTATTGTCACGTAGAGATGCCATCTGGAGAATTAAGATTAATTCATAAAGAGTGTATAGCTACAATTGGTGTTGTTGGAAATGGAGAACATCAATTAGTAACAATAGGTAAAGCAGGAAGAAACAGACATATGGGAAGAAGACCTCACGTAAGAGGATCAGCAATGAATCCTGTAGATCATCCACATGGTGGAGGAGAAGGTGGAGCTCCAGTAGGAAGAAAGAGTCCTGTGACTCCTTGGGGGAAACCAACTCTTGGTAAGAAAACTAGAGGAAAAAAACTTAGCGATAAATTTATTGTAAGAGGAAGAAAGAAGAAATAGTTGAGAGGAGGTAAATAATGGCACGTTCATTAAAAAAGGGACCTTTTGTAGATGATCACTTAATGAAAAAAGTGGAAATTTTAAATAAAGAGAGCAAAAAACAAGTTATAAAAACATGGTCTAGAAGATCAACAATATTTCCTGACTTTATAGGCCATACTTTTGCCGTTTATAATGGTAAAAAACATGTCCCAGTATATGTTACTGAGGAAATGGTTGGACATAAATTAGGAGAATTTTCACCTACAAGAACATTTCGTGGGCATGGAAAAGACGCAAAGAAAAAATAGAGAGGAGGCATTATTTTGGAAGCGAAAGCAATAGGACGTTATTTTAGAGTTAGTCCTCAAAAAGCAAGATTAGTGGCTGACTTAGTAAGAAATAAAAACGCTGAAGAAGCTTTAAATATACTTAAATTTACAAATAAAAAAGCTGCTCCATTAATAGAAAAAGTACTGAAATCAGCAATAGCTAATGCAGTAAACAATTTCGATATGGATGAAGAGAAATTATATGTTTCTACAATTTATATTGATAAAGGGCCTTTTTTGAAAAGAATAAAGCCAAGAGCTATGGGTAGAGCAGATAGAATATTAAAGAAAACTAGTCACATTACAGTTTGTGTAGGTGAGAAAAAGGAGGGATAGTTAAGTGGGCCAAAAAGTAGATCCTAGAGGATTGAGGTTAGGAATTACTAGAACTTGGGATTCTAACTGGTATGCAGACAAAAAAAGTTATGCAAACTATTTTCATGAAGACTTAAAAGTTAGAAACTTTATAAAGAAAAATTATTATCATGCAGGTATTGCAAAAATATTAATTGAAAGAACTTCACCTTCTCAAGTGGTGATTGCAATTTATACAGCAAAAGCTGGGATATTAATTGGAAGAAAAGGTGTCGAAATAGAGGCATTAAAGAAAAAACTTGAAAAATTAACTGGTAAAAAAATCATAGTTAAGGTTCAAGAAGTAAAACAACCTAATAGAAATGCTCAATTAGTAGCAGAAGGTGTAGCTTTCTCTATAGAAAAAAGAATAGCATATAAAAGAGCAATGAATCAAGCTATAAGAAGAGCAGAAAAATCAGGTGCACAAGGAATAAAAGTTTCAGTTTCAGGAAGACTAAATGGTGCTGAAATTGCAAGAGCAGAGTGGAGTTTATCAGGAAGAGTTCCTTTGCATACATTAAGAGCAGATATCGACTATGCAACAGCAGAAGCAGATACTACTTATGGAAAAATCGGAATAAAAGTTTGGATTTTTAATGGAGAAGTTCTTCCAAAGAAAGCGGAAGGAGGGCAAAAATAGATGTTGATGCCAAAGAGAACAAAATATAGAAAACAAATGAGAGGCAGACTAAAAGGAAAAGCTCATAGAGGAAATTATGTGGCTTTTGGAGACTTCGGACTTCAAGCATTAGAACCTCATTGGATAACTAATAGACAAATAGAAGCTTGTAGAGTTACAATTAACAGAACATTTAAAAGAACAGGAAAAGTATTCATAAGAATATTCCCTGACAAACCTTTTACTCAAAAACCAGCTGAAACACGTATGGGAAAAGGAAAAGGAAATGTTGAAGGATGGGTAGGAGTTGTTAAACCTGGAAAAATATTATTTGAAGTTTCAGGAGTAACAGAAGAATTAGCAAGAGAAGCAATGAGAAAAGCAGCTCATAAATTACCTATAAAAGTTAAATTTGTAAAAAGAGAAAATGGTGGTGATGTAAATGAAGGCTAATGAATTGAAAGCTTTAGCAGCAGAAGAATTAGTAAATAAAGAAAAAGAATTAAAAGAAGAATTATTTAACTTGAAGTTTCAACTTTCTTTAGGACAGCTTACAAATACAACAAGAGTAAGACAAGTAAGAAGAGATATAGCAAGAATAAAAACAATCTTGGGAGAGAGGGAATTGGTTAATAAGGAGGGATAAATAAGTGGAAACTCGTAATGACAGAAAAGTCAGAGAAGGAGTAGTTGTATCTGACAAAATGGATAAGACAGTAGTGGTAGCAGAAGTTAGAATGATTATGCATCCATTATATAAAAAAAGAGTAAAAAGTACAAAAAAATATAAAGCTCATGATGAAGAAAACATTTGTAAAACAGGAGATAAAGTAAGAATAATGGAAACAAGACCTCTAAGTAAAGATAAAAGATGGAGAGTCGTAGATATTCTTGTAAAAGCTAAGTAGCGAGAGGAGGAAAATTTAAATGATACAACAACAAACTGTCCTTAATGTAGCTGATAACTCTGGTGCAAAAAAAATAATGTGTATAAGAGTATTAGGAGGATCAAAAAGAAAATTCGGAAGAATTGGAGATGTGATCGTAGCAAGTGTTAAGGAATCAAGTCCAAATGGAAATGTAAAAAAAGGTGAAGTGATAAAAGCTGTTGTAGTAAGAACAAGAAAAGAAATAAGAAGAGCAGATGGGTCATATATAAAATTTGATGACAATGCAGCTGTTATTATAGATGAGAATAAGAATCCAAAAGGAACTAGAATTTTCGGACCTGTGGCAAGAGAATTGAGAACTAAAGATTTTATGAAAATAGTCTCTCTTGCACCAGAAGTATTATAGGAAGGAGGTAAATAACCTTGGCAAAGCCTAAAATTAAATTCGTACCAAATAAATTACATGTAAAAACTGGAGATACAGTTTATGTGATATCTGGGAAAGATAAAGGAAAAGTAGGGAAAATAGTAAAAGTTTTTACTAAAAAAGGTAAAGTAGTAGTTGAAGGGATAAATATTGTAACTAAACATATGAAACCAACTCAAATGAACCCACAAGGGGGAGTTGTAGAAAAAGCTGCACCAATTTATACTTCAAAAGTAATGTTATATTGTGATAAATGTGGAAAACCAACAAGAATATCAAAAAAAGTGTTGGATGATGGAAAAAAAGTAAGAATATGTAAACACTGTGGTGAAGTGTTATAAGAAGGGAGGAAAACGTAGTGGCGGAAAAATACGTTCCTAGATTAATGGAAAAGTATAATAAAGATGTAGTACCTGCTCTTATGAATAAATTAGGAATAAAAAATATAATGGCGGTACCAAAAATAGAAAAAATTGTTGTAAGTATTGGAGTTGGAGAAGCAACTCAAAACTCAAAATTAATAGATGCAGCATTAAGTGATTTGAGAACTATTACAGGTCAACAACCTATTGTGGCAAGAGCAAAAAAATCAGAAGCTGGATTTAAATTAAGAGAAGGTGTAGCAATAGGAGTAAAAGTAACATTAAGAAAAGAAAAATTATATGAGTTCTTGGATAGGTTAATAGCAATTGCTTTACCAAGAGTTAGAGATTTTGAAGGTGTTAGTGCAAATTCATTTGATGGAAGAGGAAACTATACTCTAGGACTTAGAGAACAATTAGTATTCCCTGAAATTGAATATGATAAAGTTGAAAAAATCTTCGGTATGAGTATTACTGTAGTAACATCTGCAACGACTGATGCTGAAGCAAAGGCTTTACTTGATGAATTTGGTATGCCTTTCAAGAAATAAGGAGGTAATTTAAAAGATGGCTAAAAAGTCTATGATAAACCGTGATGCTAGGAAAAAGCAAAGAGTTCAACATAGAAATAGATGTAAGATTTGTGGAAGACCAAGAGGATATATGAGAGAATTCGAAATATGTCGTATATGTTTTAGAAAGCTAGCTGGGGAAGGTAAAATCCCTGGTGTAAAAAAAGCGAGCTGGTAGAAAGGGGGAAAGAGAATAAATGTATTTTACTGATCCAATAGCAGATATGCTAACAAGAATAAGAAATGCAAATTCAGCTTCACATGAAAAAGCAGACATGCCTTTTTCAAAAGAAAAAGAAGCTATAGCTTCTGTGCTAAAAGCAGAAGGATATATATTAAATTATAAGGTTATTGAAAAAAATAATAAAAAAGATTTAAGAATATATTTAAAATATGGAGTAAATAACGAAAAAGTAATAAAAGGAATAAAAAGAATTTCAACACCTGGAAGAAGAGCTTATTCAGGGGTTAAAGAGATGCCAAAAGTTTTAGGTGGACTTGGAATTGCAATAGTTTCAACACCAAAAGGAATAATTACTGGGAAAGAATGTAAAAAAGAAAATGTAGGTGGCGAAGTATTGTGCTACGTATGGTAAAAAGTATGTTAGGAGGTGCCAATTAATGTCAAGAGTAGGAAGAAATCCTATAACAGTTCCAGAAGGTGTAACTGTGGAGATAAATGGTTCAAATGTATCAGTAAAAGGACCAAAAGGAAAATTAGAAAATGCATTTAATGAAAATATATCTATAAAACAAGAAGCTGGACAAGTAATAGTAGAAAGACCAAATGATACTCCTCAAATGAGATCATTACATGGAACTACAAGAGCTTTAATTGCAAATATGATAACAGGTGTAAATCAAGGATTTACTAAAACTTTAGAATTAATCGGAGTGGGATATAGAGTAGCTGCAAAAGGTAAAGGACTTACTTTAGCACTAGGATATTCTCATCCTATAGAAATTCTTCCAATAGAAGGTATTACATTTAAATTGGAAGGAAATACAAAAATTAATGTTGAAGGAATAGATAGAGCCCTTGTTGGACAAGTAGCAGCAGATATTAGAGCTAAAAGAGCACCAGAACCTTACAAAGGAAAAGGTGTTAAATACTCTGATGAAGTAATAAGAAGAAAAGAAGGAAAAAAAGCATAAAGTAAAGGGGTGAAAAAGATTGTATAAGAGAATAGACAGAAATGCTAACAGGCTTAAAAGAAGATATAGAATAAGAAAAATAGTATCTGGAACAGCCGAAAGACCAAGATTAGCTGTTTTTAGAAGCTTAAATAATATATCTGTCCAATTAATAGATGATATAAAAGGACACACATTATTATCTGCTTCTACAATAGATAAAGAACTAAAATCAGAAGTTAAAAACGGTTCAAATGTAGAAGCTGCTAAATTAGTAGGAAAGAAAATTGCCGAAAGAGCATTAGCAAAAGGGATGAAAGTAGTAGTATTTGATAGAGGTGGATATTTATATACAGGTAGAGTAAAAGCCCTAGCTGATGCTGCAAGAGAAGCAGGATTGGAATTTTAAAGAGGGAGGGAAATAAACTTGAGAAGAGATAGAAAGAATTCTGAAAAAGATAGTAATCTACAAGAAAAGATAATCAGAATAAATAGAGTTTCAAAAACTGTAAAAGGTGGAAGAAGAATAAGTTTTTCTGTTTTAGCAGCAGTAGGAGATGGAGAAGGTAGTGTTGGTTTAGGTTTAGGAAAAGCTAATGGTGTTCCAGATGCAATAAAAAAAGCAATTGCAGTTGCTAAAAGAAATATGGTGAAAATGTCATTTAAAGGACATACAATTCCTCATGAAATAATTGGAGAATTCAGTTCAACTAAAGTGTTATTAAAACCGGCTTCTGCAGGTACAGGAGTAATAGCAGGATCATCTGCAAGAGATTTGTTAGAATTAGTAGGAGTACATAATATATTAACTAAAGTTATGGGAAGTAAAAATAGACTTAACGTAGCAAAGGCTACTATTAATGGATTACAAAACCTTAGAACTCCTGAAGCAATAGCTGCATTAAGAGGAAAAACTGTAGAAGAAATTATAGGCTAGGAGGTAAGGATAATGGCAGGAAAGCTAAAAATAAAGCTTGTAAAAAGCATAATTGGTAGAAAGCCAAAACATGTAGGGACTGTAAAGTCTTTAGGATTAAAAAAGCTAAATGATGTAGTAGAACAAAATGCTACAGCTGATATTATAGGAAAAATTAATCAAATATCTTACTTATTAGAAGTTGAGGAGGTGTAAGTAGTGAAATTAAACGAGTTAGCACCAGCTCAAGGATCAAAAAAAAATAGAAAAAGAGTTGGAAGAGGAGAATCTTCTGGAGTAGGAAAAACTTCTGGAAAAGGTAGTAATGGTCAAAAATCAAGATCAGGAAGCTATATTCATGTAGGTTTTGAAGGTGGACAAATGCCTTTAATTAGAAGAGTTCCAAAAAGAGGTTTTTCTAATTATAGATTTAAAAAAGAATTTGCAATAGTAAATTTGAAAACATTGGAAGAAAGATTTGAAGATGGAGCAGAGATAACACCAGAAATACTTTTAGAAGCAAAAGCAATAAAGAAATTATCTGATGGAGTAAAAGTTTTAAGTAAAGGAGATCTTACTAAAAAATTTACTGTAAAAGCTCATAAATTCTCTGCAGCAGCTAAAGAAAAAATAGAAGCTGTTGGTGGAAAAGTAGAGGTGATTTAAGTTGTCTATGTTACAAAATTTTTCTGATAAAATAATGGGTATAAACAAAATACCTGATTTAAGAAAAAAAGTAATTTTTACACTAATAATGTTTTTAGTTGCCAGGGTGGGAACTCATATTCCTTCCCCTGGAGTTGATGTAGCTAGACTTACTTCTATGGTTAATACTAATGATATTTTAGGATTCATCAATATGTTCTCTGGAGGAGCTTTTAAAAGAGTTTCAATTTTTGCACTAGGGGTTATGCCTTACATTAATGCTTCAATCGTAGTTCAATTACTAACAGTAATAGTTCCACAACTTGAAGAGATGCAAAAAGAAGAAAGAGAAAGAGCTAAAATAGTACAATGGACAAGATATCTTACTATTATAATAGGTGGAATACAAGGATTTGGTGTAAGTATATGGTTGCAATCAATGGGATTAGTTTATAATCCAGGATTTTTATTTTTATTTACAACTGTAACTATACTAACTGCTGGAACTGTATTCTTAATGTGGCTTGGAGAGCAAATAACTGTTAATGGAGTTGGAAATGGTATTTCATTAATAATATTTTTAAATATTATTGCAAGAATGCCAGCAGCACTTATACAGTCAGTACAAAAAATGAGTGGAAGTAAATTTTTCATAATTGAAATCTCATTTCTAATACTTATAGTTGTGGCAATAACTGCAGCAATAGTAGCATTCCAATTAGCTAATAGAAAAATACCTATTCAATATGCAGGAAAAGGTTTTGGAGGTAAAAATTCAATAGCTTCTAAAACATATTTGCCATTGAAAATAAATACAGCAGGTGTAATACCAATAATATTTGCTTCAGTTTTGTTAATGTTACCAGCTATGCTAGTGAAAGCATTACCAAATACTGATTTAAGAGTATTTTTAGAAAGAATTTTTTCAACTACAAGTCCAGTATATTTAACATTATATGCGGCACTTGTGATATTCTTTACTTTTTTCTATACTGCAATTATGTTTGATCCTGAAAAAGTAGCTGAAAATTTGAAAAAAAGTGGAGGCACAATTCCAGGAATAAGACCAGGTAGTGAAACAGTAGATTATCTTGAAAAAGTTGTTACAAGAATAACTTTTGGAGGAGCTATTTTCTTAGCTTTAATAGCTATAGTTCCAATGCTAATATTTGGTATGTTTGGTCTTCCTGTATACATAAGTGGAACAGGATTACTAATCATTGTTGGAGTAGCGTTAGATACTGTACAACAAATAAATGCGAATTTAGTTGTAAGAGAATATGAAGGATTTTTATCATAAAATTTTATGAATATAAATTTTTTAATTTATAGGCAATAGATTATGGGCATTTGCCTATATTCTATTGCCTTAATTTTTTAGGAAATAAAAAGTTGGAGTATAAGAAAGGAGTAGTAAAATATGAATATAATGTTATTGGGGGCACCTGGAGCAGGAAAAGGAACACAGGCTAAATATTTAATAGAAAACTTTGGAATTCCACAAATATCAACAGGTGATATTTTAAGAGCAGCTGTAAAAAGTGGAACTGAAATGGGAATAAAAGCTAAAAATTATATGGATAAAGGTGAATTAGTTCCAGATGATGTAATACTTGGAATAATAAAAGATAGATTGGCTGAAGATGATTGTAAAAAAGGATTTATTTTAGATGGATTTCCTAGAACAGTTGCACAAGCAGATAGTTTAGAAGTAGTATTAAAAGAGTTAGGGAAAAAAATGGATGGAGTAATAGCATTAACTGTAAAAGATGAAGAATTAATAACAAGATTAACTGGAAGAAGAGTATGTAAAGATTGTGGTTCAAGTTTTCATATTAAATTTAATCCACCAAAAGTAGAGAATATATGTGATTATTGTGGTGGAGAATTAATTATAAGAAAAGATGATAATATAGATACTGTAAAAAATAGATTAGAAGTATATAAAAAACAAACAGAACCATTAATAGAATATTATAGAAATAAAGGAAGTTTTATTGAAATTAATGGAGAACAAGATATAACAGCAATAAGAAAAGATATAGTAGAGGCTTTAAAAGGGGAATAGTATGATAATCTATAAAACAAGAGAAGAGATAAAAAAAATAGAGAAAGCTGATAAAATATTAGCTGAAATATTAGATGATCTACTACCAAAATATATAAAAGCTGGAGTAACAACATATGAATTAGATAAAATTGCAGAAGATTATATTTTATCAAAGGGAGCAAAACCAGGATTTAAAGGATATAGAGCTGGATATTTAACATTTCCAAGCACTTTATGCACTTCTATAAATGAAGAAGTAGTGCATGGAATTCCTTCTAAAAAGAGAAAGTTAAAAGATGGAGATATTATAAGTGTTGATGTAGGAAGCATAGTTGAAGGATATTATGGAGATTCAGCAAGAACATATTCTGTAGGAAAAATAGATGATATTGCTAAAAAATTAATGGACGTTACTGAAAAATCTTTATATATAGGGATAGAACAAGCAAAAGTTGGAAATAGAATATCAGATATAGGGCATGCCATTCAAGAATATATAGAATTAAATGGATTTGGAGTAGTAAGAGATTATTGCGGGCATGGAGTAGGTAGATATTTACATGAAGATCCTCAAATACCTAATTTTGGTCCTGTAGGAAGAGGCTCTAAAATAGAAGATGGTATGGTAATAGCAATAGAACCAATGGCAACAGAAGGTAGTTATAAGGTAAAAACTCTTCATGATGGTTGGACAGTTATAACAAAAGATAAAAAAAGAGCAGCACATTTTGAACACAGTATAGCAATAATTGATGGAAAACCTGTAATTTTAAGCAAACTATGATATTATTTCACTTGATTTTTATATGAATTTAGTGTAGAATATTTTAGAATGCTATAATTTCTTAAGTATCCAAAAAAATATAGACTTTTTATAGATAATTTGGTATAATAGAAAAACTTGAGTCTAGGAGGTTAGCTATGGCTAAAGAAGATGTAATAGAGTTGGAAGGTAAGGTTTTAGAATCTTTACCAAACGCAATGTTTAAAGTTGAACTAGAAAATGGACATGTTATTTTAGGACATATTTCTGGTAAAATGAGAATGAACTATATAAAAATTCTTCCAGGTGATAAAGTAACAGTTCAAATATCACCATATGATTTAACAAGAGGAAGAATAGTATATAGAAAAAAATAATTTAAAGGAGGGAGGGGAAAATGAAAGTCAGAGCATCTGTAAAACCAATCTGCGAAAAATGTAAAATAGTAAAAAGAAAAGGCAGAGTAATGGTAATTTGCGAGAATCCTAAGCACAAACAAAAACAAGGGTAAAGTTCTCTGTAAAGGTATATATTGTCGTAGGATGATTTTTTCTATTTATATAGAAAGTATACCGAGGAAAGTGTTTAGGTGGTTATAAAACCACTAGTATATAGAATATATTTTGATGATTTTGAGAGGAGGAAGTTTAAGTGGCTAGAATCGCCGGAGTTGATATACCACGTAATAAAAGAGTTGAAATTTCTTTAACTTATATTTATGGAATCGGTAGAAAGAGATCTCTTGAAGTACTTGGAAAAGCAGGAGTAAATCCTGATATAAGAGTAAAAGATTTAACAGAAGATGAAGTTGGAAAAATCAGAAATGTTATTACTGAAGAATTAAAAGTAGAGGGAGACCTTAGAAAAGAAGTAAGACTTAATATAAAAAGACTTATGGATATAAAAAGTTATAGAGGGCTAAGACATAGAAATGGATTGCCTGTTAGGGGACAAAAAACAAAAACTAATGCAAGGACAAGAAAAGGTCCTGCAAAGGCAGCTGTTAAAAAGAAAAAATAAGGAGGTAAGCTAAGTGGCTAAGAAAAGAGAGTCATCAAGCAAGAAGAAAAAATTAAGAAATATTCCTTCTGGGATTGCATATATACATTCAACATTTAATAACACTATAATCACAATAACAGATGAACAAGGAAGTGTTATTACTTGGAAAAGTGGAGGGCAAGCAGGATTTAAAGGTACCAAAAAAGGTACTCCATTTGCAGCACAATTAGCAGCTGAAGAAGCAGCTGGAATTGCAATGGAAAATGGTATTAAAAAATTAGAAGTTAGAGTAAAAGGGCCAGGATCTGGTAGAGAAGCATCTATAAGATCATTACAAGCTGTTGGAATTGAAGTTACTGCAATAAGAGATATTACACCAATTCCACATAATGGTTGTAGACCGCCAAAAAGAAGAAGAGTATAATTATTTGAAGGGAGGAATAAAAAGCGATGGCTAGATATATAGGGCCAGTTTGTAGACTTTGTAGAGCATCAGGACAAAAACTTTATTTAAAAGGTAATAGATGTTTTTCTGATAAATGTGCTTTAGAAAGAAGAAATACAAAACCTGGAATGCATGGAGCTTCAAGTAGCAAAATGACAGAATATGCAGTACAATTAAGAGAAAAACAAAAAGTTAAAAATATATATGGGTTACTTGAAAAACAATTTTATAAATATTATGAAGAAGCAGACAAAAAAGAAGGAATTACAGGTGAATTATTACTTAGTTTGCTAGAACAAAGATTAGATAATATTATATTTAGATTGGGAGTAGCAAAATCAAGAAGTCAAGCTAGACAAATAGTAAGACATAAACATGTGAAAGTAAATGGAAAAATTGTAAATATCCCATCTTTTAGAGTTAAAGAAGGAGATGTTATATCTGTTTCAGAAAAATCAAAAGATATTACAATTATAAAAGAAGCAGTAGAAACAGCAAAAGTTCCTTCATGGTTAGATTTTAATGCTGAAAAACTAGAAGGTAAATTAGTACAATTACCTAAAAGAGATGCAATTGACTATGAAATAAATGAACAATTGATAGTTGAGTTCTACTCTAGATAATAATCCTTCTTAAGGAGTGACAAATTATGTTGAAAATTGAAAAGATTTCAAAGAATATCACAATAAGTGAAGAAAAAATTAATGAAAAATCATATGTATATACGGTAGAACCGTTATATAGAGGGTATGGGAATACTTTAGGAAATGCTTTGAGAAGAGTATTATTATCATCTATTCCTGGAGCAGCAATAAAAGGATTAAAAATAGATGGTGTACTAAATGAATTTTCTACTATCGAAGGAGTAAAAGAAGCTGTAACTGATATAATATTAAATATTAAAGAGATTGTAGTTAAAACTGAGGTTCCAGGTGAAAGAAAAATGTCTTTAACTGTAACAGGACCTAAAGAAATTACAGGAGCAGATATCATATGTGATCCAGACTTAGAAATAGTTAATAAAGATAAAGTTATAGCAACAGTTACTACAGATAGAGAAATAAATATGGAGTTTTTAGTAGATACAGGTGAAAGCTTTGTAGTTGCTGAAGATATTGATAATAGTAATTGGGAAATAGGATATATTCCAGTAGATGCTATATATACTCCAATAAGAACTATAAGCTACCGTGTAGAAGATACAATGGTAGGAAGAATAACAAATTATGATAAATTGATAATGAACATCGAAACAGATGGAAGTGTCAAAATAAATGATGCTATTAGTTATGCTGTAGAATTATTAGAAAATCATTTAAATCCATTCTTAGAGATTGGAAATAAAATGGAGACTTTTAAAGAAGAGCAAGAAGAGATAGCTGAAGAAGAATTAAAAGAGCAGGAAAAGAAAGAAAAAGAAAAAGAGATTTCAAATTTAAAAATAGATGAACTTGATTTAACTGTAAGATCATATAACTGTTTGAAAAAAGCAGGAATAGAGAGCTTAGGAGAGTTAGGTGGATTAGGTGTATCGGAACTTTTAAAGATAAAAAATCTTGGAAGAAAATCTCTAACAGAGATAATGGAAAAATTAAAAGAATATGGATTTGATGTTTCTACAGAAGCATAAATCATGTTTTTATAGATAGGGAGGTAAAGAAATGCGTCATCATAAAGCGTATAGAAAGTTAGGTAGAAGAAGTGATCATAGAAAAGCTATGTTAAAAAACTTAACAATCTCTTTACTAGATAAAGAAAGAATTGAAACTACTGTAACAAGAGCAAAAGAACTTAGAAAATTTGCAGAAAGAATGATTACTTTAGGTAAAAAAGGAACTCTGCATGATAGAAGAAGAGCTTTTGCATTTTTAAGAAGTGAAGAAGTAGTTTATAAATTATTTTCTGATATCGCTAAGAGATATGAAGATAGAAATGGTGGATATACTAGAATTATGAAAACAGCAGTAAGAAGAGGCGATTCTGCAGAAATGGCAATAATCGAACTTGTATAATATTAAATAATTAAAAAGACAGCTTAGGCTGTCTTTTTTTTTATATGTTAGGAAAGTATAAATTGGATTCATAAAAATAGTTATTGAAAAAAATAAAAACTTGTAGTATAATAGTAATACAAGATGCTTAATGCTAAATAAATTACAGTTACTTTAAGAATTTAGGAGAATACTAAAATGGATATAATATTGAAAGTTGCTATTATAATATTAGGAGTTATAATACTTTTATTTATTAGAAGTCAAAAAAAAATAAAATATGAAAAAATGATTTTAGAAGATGAAAACGAAAGTTTAAAAACAGATAATGAGGATATAAAAGAACAACTAAAAAAAGGACGAAAAATAAACATGGAATTATATAGTGAAATCAATAATGAAAGTAATAATTTAGAAATAGAAAATGCTAAACTTTTTTATAAAAATTTAGAAAGTGAATTATATAGAAAAGGCAGAAATTCAGCATTTATATTTTCAGTAATTATAGTGTCAATAGATTATTATGAAGAGTATAAAAAATTATATACAGAGAAAGTAGAAGAGTTTAAAAACAGATTAGAAACAGATTTAAATTATGGTAGAAGAAAAATAGATATATTATCAAGAGGAAAAAAAGATGATAGTTGGATATTATTGTTGCCAATGACAGATAAAGATGGGGCTGCTGTTGTAATAGATAGAATTAAAAATATAAGTAAAAAGTATAGTGATAATCCTGTAATAAGCTTGACAATAGTGGCATTAGAAGTAGAAAATTGTGAAGATGTTAATGAAATATTTTTTAATTTGGAAGAGAGAGTAAAAAAACTGCAAAATAGTGGTGGAAATACAAGTATAGTAGATAAAATATAAAAAACAAAAAGCATATAAAAAATAGGAGGTAATAGATTATGGAAGTAAAGAGAATAGCATTAATACCAGGAGATGGAATAGGAAAAGAAGTTATTCCTGAAGGAGTAAAAGTATTAAAAGCGGCAGCCGAAGCAGAAGGATTTAAGTTAGAATTCACTAATTTTGATTTTGGTGCAGATAGATATTTAAGAGATAATGGTCATTTAATAGATGATGATGAGTTAGAAGAATTGAAAAAATATGATGCAATTTATCTTGGAGCTGTTGGAGATCCAAGAGTTCCGGCTGGAGTGTTAGAGCATGGAATTTTATTGAAATTAAGATTTGATTTAGATTTATATTTAAATTTAAGACCAATAAAATTATTTGATGAAAAATATTGTCCTTTGAAAAATAAAACAACAGCAGATATAGATTTTACAGTAATTAGAGAAAATACAGAGGATCTATATATTTCAGCAGGTGGATTTTTAAGAAAAGGGACTCCACAAGAAATTGCAACTCAAGAAATGATAGCTACAAGATTTGGAGTTGAAAGAGCTATTCGTTATGCGTTTGAAGAAGCTAGAAGAATAAATAAAAAGAAAACAGTAGCACTTTGTGATAAATCAAACGTATTGACTTATGCACATAATTTATGGCTAAGAGCATTTAATGAAATTGGAGAAGAATACCCAGATATAAAAAAAGAACATTATTATGTAGATGCAATTTGTATGAAAATGGTGAGAAGTCCTGAAATATTTGATGTAATAGTAACACCAAATATGTTTGGAGATATAATAACTGATTTGGGAGCAGAGATACAAGGTGGAATGGGAACTGCTGTTTCTGGAAATGTAAATCCAAATGGAATATCTATGTTTGAGCCTGTACATGGATCTGCACCTGATATAGCAGGACAAGGAATAGCTAATCCAATTGCAGCAATATTATCAGCGGCACAAATGATGGATGTATTAGGATTTGAAACTGCATCTAAGAAAATAGAAAAAGCAGTAATAAGAGCTATGGAAGAAAAAGAAACAACTAAAGATATGGGTGGAACATTAAATACAGCACAAGCTGGAGATGTAATAGCTAAATTTGTAAAAGAGGCATAATTAAATATAATGAAAAATTAAAAGATGATTTCTGTGTTATGCAGGAGTCATCTTTTCTATGTTTTTATTGTTCTTTAAGTAACGTTTAAAAAATAAATTTCTGATATTTTGTTATAAAAACGCTTAAAACACTACGTATTTTAAAACAAAATTAGATGGCTATTTTTAAGCCGTTCCTAAATAAGAATATAAAATTATAATAGTTTTGGAAGGAGAAATATGCAAAAAGAAATTGTAAAAATATTAACAATAGATGGGGGAGGAATTAGAGGATTAATTCCATCTATTATTTTAAAAGAATTAGAGTCAAAATTACAAAAATTAGGAAATGATAAAAAATTTTATGAAATATTTGATTTAATAGCAGGTACATCTACTGGTGGAATAATCGCATTAGGACTTTCAGTTCCACCAAATGGATTAAAAACAGAAGAAATAATAAATTTTTATGAAACTGATGGAAAAAAAATATTTCCAAATGATATTTTTTCAAAATTAAAAAATGATATTAGACAATTAACAGATGAAAAATATGAAAAAAAACCATTAGAAAAAATTTTAAAGAATATATTTAATGAATATACATTACAGGATAGTTTAACTAATTTATTAATACCTGCATATGATACTGAAAATAGGAATACAATATTTTTTAAAAAAAGAGCTAGAAAAAAATGGCAAAAAAAGGATTTGAATTTTTATATGAAAGATGTAGCAAGGGCAACATCTGCAGCTCCAACTTTTTTTGAAGCTAGTAAGATTACATCTGTTAATAAAGAGAAAAAGATATGTTGTATAGATGGGGGAGTTTTTTGTAATAATCCAGCAATGGCTGGATACATAGAGGCGTTAAAAATTTTTCCTAATGCAAAAGAGTATGTAATAGTATCATTGGGAACTGGACAAGATAGGAAGAAGTATGATTATAATGAAATAAAAGACTGGGGAATAATAGATTGGGTTAATCCAATAAAGGGAACTCCAATATTAAGTATATTAACAGGTGGAGAATCTGCAAGCGTAAACCATCAAATGAAAAACATACCAAATGTAAATTTTTTTAGATATGATGATAAAAATTTATTAAAAGAATGTGAAGCAATTGATGATTCTAGTAATGAAAATAGAGAAAGATTAAAAAAAATAGCATTTAATATAATAAAAGAAAATGAAGAAAGTTTAGATGAAATTTGTAAAATTTTGTTAGGTAAGGAATTTTAAAAAAAATAAGTTATTTACTTGAAAAATATGAACAAATACATAAATTTTCTCAATTAAGGAACGTTTAAAAAATAAGTTTCTTATATTTTGTCATAAAAACGCTTAAAGAATGTTTAAAAATAATTTTATATATTTTGTTATAAAAACGCTTGAACCATTGCGTATTTTAAAACAAAATGAAAAGGTTGTTTTTAAATCATTCCTAAATCATTGCGTATTTTATAACAAAATCGGAAGGTTATTTTTAAGCCGTTTCTAAATAGTTTATTTTTTAACTGCTCCTAAGAGTTTTCAAATATTCTTAGGAGCAGTAAAGTTCATTAAAAAAATTATTTCTTAATTCCTTTAAAAATCTATTAATTCTCGAACAACTACCGATGAAATAATTAGCCCAACTACAGAAGGAACAAAAGAGAGAGAACCTATTAGTTGAGAAGATCTATTTTTAGGTATTTCGTCAGAAAAAACAGTTTTAACACCTTTATTTATACCGATTTTTCTTAAATTGAGTCTGATAGTTTTTGCTAGTGGACAAGTATTAGTTTTTGATATATCAGCTACTTTAAATCTAGTTGGATCTATTTTTCTTCCAGCCCCCATAGAACTTATTATTTTTACTCTATTTTCATATGCGTGTTTTATTATTGCTATTTTAGCAGGGACATCATCAATTGCATCTATGACATAATCATAATTTTTTATATTAAATGATGAAATATTTTTAGTGGATACTTTTTCTTTTAATATATTGATTTTAAGCTCCGGATTTATAATAGACATTCTATATGCCATTTCATCAACTTTATTTTTCCCTATATTAAGAGTAGTAGCCTCTATTTGTCGATTTACATTAGTAATATCAATTGTATCAAAATCAACAATAGTGATTTCGCCTATACCAACGCGGGCAAGAGATTCTGCTGAAAAAGAACCAACTCCTCCAACTCCAAAAATTATTATTCTAGATTTTTTTAATTTATTTAGATTATCTTTTCCAATAGCAGTTTCTGTTCTTGTAAAAATTGTGTTCATAAAAACCTCCTCAAAAGAATAATTAATAGTAACAATTTATATTAAAAAAATCAAGAATAAATTGATTTCCAAGAAATTGTGAGGTATAATTTAATGGGAATCACAAAATTTTAGCATAAAAATTTAAAGTATATCTAGTGACAGTGTAAAGTTTTTTTGTAGGGAAAATAATTTCAGCACAAAGACGCAAAGCACACAAAGTTACACAAAGAAAAAAATTTAAAACCATGGGATAAACAGAGCTTAAAACTGATGAATAAAAATTGCCAGATAATTATCTGCGTTTATTTGTGGCTAAAATTTTACGATTATTCTACACTATCATAATCTAGTTGCAATATTTAAAAATATAGGAGTAATGCAGAGAGATAAAGTCATTGTTTGGGAAAGTATAAATTTGTCCAGAAAATAAGTTTCTTATATTTTGATATTAAATTATAAAATAAAACTCTTTATATAATTATATGATTCTAATTTATTAGAGGAGATGAAACAAATGGAGGAAGATACAATAAAAAATTTATACAAGTTACTAGAGAAAAGAGAAAATGAAGTAGAGTTAGTAGATGAATCAGATAAATTAGTATATGTAAATAGAAAAGTGGTTAATTTAACAAAATATACAAAAGATGAATTTTTTGGAAAAAATCCTAATATTTTAAAATCTGGGAAACATAGCAAAGAATTTTATGAGAAGTTATGGAATAGAGTGTTGGAAGGAGAGAGTTGGGAAGGTTTTTTTATTAATAAGAAAAAAGATGGAAGATTATTTTATGAAAAAGCAATAATAGTACCATTTTTAGATGAGAAAGGGAAAGTAAGAGAGTTTTTAAAAATAGGAAATCAAATAAAAAAAGAGGAGTATTCTGAAAAAAAATTAAAATGGATAGTTGAAAAAATAGATGATGTTTTTGTGGATATATCAAATGCAATGATTTTAGTTTGTGGGGATAAAATAAGTTCATTCAATGTTTTAGCAAAAAAATTGTCAGAAAATAATAATGGAAATTTAAAGATAGAAGACATTTTCGATTGGAAAAGTTCTTTAGAATTTGAAAATTCAATCTATAAAAATTTAGATTTTAATGAATTTAAAAATATATTGTTAAAGTGCATAAAAGATAATATTGATTTTGTAACAAAACTAAAAGATGGGACTTGGGTAGAGGTAACATCATACAAGATAAATTGTAAAGATGTAAATTTACTTATATTAAAAAATATAGATGCTAGAAGAAAAAAAGAAGAAAAAAATTTAAGTTATAGAATAGGATTAGAAAATGAAATTGAAGTAAGAGATAAATTTGTGAGAACTATAACTCATGAAATAAGATCTCCTTTAAGTGTGATTTTAGGATATTCTGAAAATATAATGAAAGAGAATAGAGATATAAAAGGGGTAAAAGAGATTTATCAAACAAGTAAATATTTATTGGAGTTAGTAAATAATATTTTAGATTTTTCTAAATTTAGTTCAGGTAAAATAATTTTAGAAAAAATAGATTTTGATATTTATGAATTAGTAAGTAGTGTAAAAAGTATGGTTTTAGCAGAAATAACAAGAAAAAAATTAAAATTAAAATTAGTAGTTGATAATGATGTGCCTAGATTGCTTAATGGAGCAGAATATAGAATTCGTCAAATATTATTAAATTTAATTAGTAATTCTATAAAATTTACAAAAGAAGGTTTTGTAGATGTTGAGATTTATTATAAAGAGAATAAATTAATAATAGTAGAAAAAGATAGTGGGGTTGGAATCCCTAAGGGGAAACAGAAAGCAATATTTGATCCATTTGTTCAAGCAGATGAATCAGTAGAAAGAAAATATGGAGGAACTGGATTAGGATTATCTATAGTAAAAGAGATAGTAATGGCAATGGGCGGAACTATAGTTTTAGAAAGTGAAAGAAATAAAGGGTGTAAGTTTACATTGAAAATACCAATTGAAAAATCAGAAAAAAGTGAAAATATATTAGAAATAGAAAATTGGATAGAAAATATGGGTGGAGATTATGAGAGTAGAGAACTTATGATGAGTGCAATAGAATCATTGGAAAAAAGAGATAAAAAATTGAAAGAAGCAATAAAAAATAAGAAAATAGAAAAGATAAAATTTATAACGCATAAATTGAAAGGTGTTTCTGGAAATTTTGGATTTATAAAATTAGAAAAAATATCAAAAGAGATAAATGATGAAGTGAAAAAAGAAAAATTTGATTTCGAAAAGATAGATAAGTTATTTTTGGAATTAAATAAAAATATAGAAGAAATTTCAAATTATTATGAAGAAGGAATTGAGGAGAGAAATAATTTAAATGGAAAAGTTTTAGTAATTGAAGATGATATTTTTAATAATAGATTATTAAAAAAAGTAATTGAAGAAAAAGGGTTGGATGTAGAGACAGCATTTAATGGTAAAGAGGGATTAAATAAAATATTAAATGAGGATTATGATTTAATATTTTTAGATGAGAAAATGCCAATATTAGATGGTATAGGATTGTTGAATATTATAAAAGAGAGAGAGCTAAAGAAAGATACATATATTATATTATTAACAGGAAATTATTTTGGTGGAAAAGAGATAGAAAATTTAAAAGAAAAAGGAGTAGATGAAATTATACAAAAACCATTAGAGATAGAGGCATTAAATTATAAATTAAAAACATTTTTTTATGTCCCAAATAATATTAAAAACAGGTTAAAAGAGTTGGTAAAAGATTTATCTAGAGAAGAGTTTATGACTAAAGAAGAATTTGAAGAAAAATTAGGCTTTTCAGATTTAAATAATTTGATATTTAGGAAGTTGATTAGCAATTGGAAAGAAAATGAATCGTATTTAAAAACAGAAGTAGTTTTAAATAATCTCTTAGATTTTTTCTTACAAAATAAGGATAAATAATAAAGATGGAACAGAAACAATAAAATATATTGTACGAAAGGGCATAATATATTTTGTTGTTTTATTTTTTGAAATTGATTTTTTCTTGTATTTGTATGTATAAAGTGATATAATTTGTGAAATAATAAAAAATATGCGAGGTGGGAATATGGCATTAATACCAAAAGGAGTGAAAGTATACTTCGGAAATTCATTAAAAAAGAAACTTTGGATAGAAAATAGTATAAGAGATTATTTTGAAAAAAATTATTATAATTATATTGAATTACCAGTATATGAATATTATGATGATATAAAAGAAAATTTTTCTGAAGATGTTCAGGATGAGATGTTTAAATTTTTAGATAGGGATAGTGGGAAAATATTAACTTTAAGACCAGATATGACATCTTTGTTGTCAAAATTAATAAAATTAAAAAAAGAAAAGATTAAATTTCCTGAAAGAATTTATTATATAGGAGATGTATTTAGACATCATAAAATAAAATCTGGAGTTTATAGAGAAATAGCAGAAGCAGGAGTGGAATTAATCGGTGGAAAAGATAAAGACAGATCAGATTTAGAAATTGCAGTAATGGCTATTGAATTAATGAAAAAATTAGGTCTTAAAAATGCTAAATTAGAAATAGGAACTGTTAATTTATTTAAAGATATTTGTAAAAAGGTTAATATTTCTAATAGTGATATAAAAGAGATAAAAAAATATTTATCAGGGAAAGATATAACTTCTCTTTCTAAAATTGTTAAAGAGAAAAACTATGATGAAATAATATTAAAATTACCTAGCTTAATAGGAAAAAAAGATATTTTAAAAGAAGTAGAAGGGTATGATATTAGCGAAATAGAGAAATTAACAACTGCATTAGATGAATTAGGATATGAAAATGATTATATTATTGATTTAGGAATTGTAAGAGAGCTTGAGTATTACACAGGAATAGTGTTTAATGGACTAGTAGAAGGGTATGGAGATTATATTTTAAGTGGTGGGCGATATGACGAGCTTATGGGAGAAAAAGCTATAGGCTTTGTATTAAAGATAGATTCTATATTTGAACTGTTAGAAGTTAAAATAAAATCTGAATTAAAAGGATATTATATTTATGGCTCAGACTACATAAAATTAATGAAAAAGAAAAAAGAGTTGTTGTTAAAAAATGAATTTGTAGAAATTTCAGCAGGAGATTTATCAGAAAGTGAATTAAAAGAATATGTAAAATTGAAGGGATTTAAATATATATATAATATTGACACTGATGAAAAAATAAGTTTGGAGGAAGATGAAAATGACAAATAAATTAACCATTGCATTGCCAAAAGGCAGATTAGCGGAACTTTCTATGGAATATTTTGCTAAACTTGGGATAACATCTTCTGAAATGGAAAAAGAATCAAGAAAATTAGTGTTCCCAAGTGATTGCGGGAATTATGAATTTATTTTGGTAAGAGCTTCTGATGTTCCGGTATATGTAGAACACGGAGCTGCAGATATGGGAGTTGTGGGAAAAGATACATTATTAGAATATGGTTCTGATGTGTATGAGCCCAAGGATTTGGGATTTGGATATTGTAGAATGTGTATAGCTAAAGCAAAAGATAAAGATATTAATTTGAATTTTGAAGAATGGGGAAATTTAAGAGTTGCTACAAAATTTGAAAATGTAGCAAAAGATTATTTTAAGAAAAAAGGGATAAATGCAGAAATAATAAAACTATATGGGTCTATTGAATTAGCTCCAATATTAGGTTTGTCAGATGTAATTGTGGATATAGTATCTTCAGGTGCAACATTAAGAGAAAATGGATTAGAAGAAGTTGTTACATTATTTGAGTCGACAGCAAGAATGATAGTAAATAAAGCAAGTATGAAATTGTATTATGACAAAGTAAAAAAATTAATATAGGTTGAGGTGAAAATATGTTTGATAAAATAGCAAAACAAAATATTTTAAATGTTGGAGCATATGTACCTGGAAAACCAATAGAGGATGTAAAAAGAGAATATGGGTTGGAAAGAGTTATAAAATTAGCTTCAAACGAAAATCCAATAGGAGTTTCTCCAAAAGCGGTAGAAGCAATGAAAAAATATATAGAAAATTTAAATTTATATCCAGATGGATATGCTTATAAATTAAGAGAAAAATTATCAAAAAAATTAGAAGTTAATATGGAAAATCTGATTTTCGGAGATGGGACAGATGAAGTTATAGAGATGTTATTTTTAGCATTTGTAAATATTGGAGATGAGGTTATTTATGGCTGGCCATCTTTTGTAGAGTATAAGAGATATGCTGGAATTGCAGGAGCAGTTTCAAAAGAGATAGATTTAACTGATGATTATAAATTTGATTTAGATGAAATTTCAAAAAGTGTAACAGAAAAGACAAAAATGATTTTTATATGCAATCCAAATAATCCAACAGGAACAATAGTTAAAAAAGAAGATGTGGAAAAATTTATAAAAACTGTTCGTAAAGATGTATTGATAATATTTGATGAAGCGTATTTTGAATATGCTAAAGATGATAAAAATTATCCTAATTCATTGGATTATCAAAAAATGGGGTATAGGAATGTAATTACATTAAGAACATTTTCAAAAGCATATGGAATGGCAGGAATAAGAATAGGGTATGGCGTTGCAGATAAAGAAATTATAGATATATTAGAAAGAGTAAGATTGCCATTTAATGTAAGTGTAATAGCACAAGCTGGAGCTGAAGGTGCAATAGATGATGATAAACATATAGATGACTCTATTAGAATAAATGAAGCTGGGAAAAAATATTTATATAAAGAGTTTGAGAGATTGGGAATAAAATTTGTTAAAACTTATTCTAATTTTATATATTTTGAGATGAAAAATGCAAAAAAGATATTTGAAGAGATGATGAAAAAAGGGGTAATAGTAAGACAAATGGGTAATAACAATATAAGAGTAAGCATTGGATTGCCAGATGAAAATGAGCAATTTATAAAAATTTTAGAAGGGGTGATGAAAAAATGATAATAGTTATGAAGCCAACGGCAACTGAGAATAATATTGAAAAAGTAAAAGAAAGATTAGTAGAATTAGGATTTAAAATACATGAATCAAAAGGTGAAGAAAGATATATAATTGGAGCAATAGGAGATGAAAATATACTTAGAGCACATCCAGTTGACAGTTATGAAGGAGTTGAGGAAGTGTTAGAAGTAACCCAACCATTTAAATTAGCAAGTAGAGATTTTAAAAGAGAAGACAGTGTAATTGATGTAAAAGGAGTAAAAATAGGCGGAGAAAATTTTGTAGTTATGGCAGGACCATGTGCTGTAGAAAGTAGAGAACAAATAATAGAAACAGCTAAATTTGTAAAAAAATCTGGAGCACATATTTTAAGAGGAGGAGCATTTAAACCTAGAACAAGTCCATATTCATTCCAAGGACTAGGAGAAGAAGGATTGAAATATCTTAAAGAAGCTTCTGAAATTACAGGAATGCCAATAATAACAGAAGTTATGAGTGAAGATGATATAGAGCTGATTTGTAAATATGCAGATATATTACAGGTGGGAGCAAGAAATATGCAAAATTTTGCATTATTAAAAAAACTTGGAAAAATAGATAAACCAATATTTTTAAAAAGAGGGATGGCAGCTACAGCTAAGGATTTTTTAATGTCAGCAGAATACATAATGGCTGGTGGAAATTATAATGTAATACTTTGTGAAAGAGGAATAAGAACTTATGAAACAGCTACAAGAAATACTTTGGATCTGAATTTAGTTCCTGTAGTGAAAGAGTGGAGCCATTTACCTGTTATAATTGATCCTAGTCACGGAACTGGAAGAAGAACTGCAGTATCTCCAATGGCAAGAGCTTCTATGGCAGTTGGAGCTGATGGGATAATGATAGAAGTTCATCCTGATCCAGATAAAGCTTTATCTGATGGTCCTCAATCTTTAACATTTGATATGTTTGAAAAACTTATGAAAGATTTAAAAGATATAGCAAAAGTAGTTAATAAAAAATTATAAAAAATTAATTAATAAAAAAATGATACAGATTAATTTTAATCTGTATCATTTTTTTTATGTTATGTATTAGACTACGAAAATTAATTTATATTGTGTGATTAGGATATATAATAATGTAGGGGCAGACCTATGTGTCTGCCCAGATTTGAAGATACAACAAAAGGGCGAACACACAGGTTCGCCCCTACATAATATTATAAATGATGTTTTTGTGGGATAATCATATTTTGTTTTAAAATACGCAATGATTTAAGAGTTTTTATAACAAAATATTAGAAACCTATTTTTTAAAGGTTATTTATTAATAACCAGTATATGATTTTAAAAGTTCTCTTTTTTTAACATCCCATAAATTAACTTTAGCATCTCCGCCAGAAGTTAATAATGTACTTGATGTAGGAAAAAATACTGCATTATAAACTTGTTTATCATTTGTTTGAATTTTGTCAACTAAAGAAAGCGAATTAGCGCCATAGAGATATACATATTTATCTGAAGATGCTACTGCTATTAAATCATTATCAGAACTCCAAGATACAGAATTCAAATTTTTATCAGCTGGAACGTCAATTGTATTAGTTACTTTAAGGTCCTTAACAGATGTAATACATAATTTCAAATCCCAACTGACAGATGCAATATAATTATTATCAGGAGAAAAAGCTATCCCTGTAATCCAATCATTATGAACATTTGAAATAGTATCTATTTTTTTTAAGTCGCTAGATTTTATTAAATATAAACTACCATTATCTCCACCAATAGCGATATACTGTTTGTTTGGGGATGTTGTAACAGATATAATTTTGCATGGCATAGAAATCATATTAACACGTGATAGTGAATTAATATCATAAAAAACTAAATTACCGTCAACGCCACCAGAAATAACTATATTTTCTTTTGATCCAAAAGTAACGTCCATAACTTTTCCAGTATGATTTTTAACAGAAGCAATTAATTTTTTTGAATTAAAATCAAATATAAAAACTTTTCCTGTAGAGCTGCCAACAGCAAAATATTTTCCACCAGGAGATATTGCAACAGTAGTTAGAGCGCCTTGATATAATTCAAAAGTTTTTATAATTATATTTTTGTCAAGGTCCCAAATTATTGCTGTTTCATCATTGCTAACAGAAATAGCTTTATTTCCAAACGGGTATTTAACGATATCTGTTACAGAATCAAAATGTCCCTCATTTAATGTAAATGGTTCTGAAAAAACTAAGATTGAAAAAAATAAAAATAAAAAAATTGTAAATATGTGTTTCATATTGTCACCTCTTTCAATAGAATAAAATAAACACTAAATTTAAATGTATCAAAAAATAAGTTTATTAAAATTATTTTTTGATGCCACATTTATGATTCTTTAAATAAATCACTTAATTTTTTTAGTATGTTATAATTAAAATAATTGGGCTTCCAAAAGGAAAATAGTGTTCAGTTATAATGAATCTCTTTCTCTTTATGCTCAAATTATATTATTAATAATTATCGGTAAGGAATAGTTATTAATAACCATAAAAATATAATTTAAATAATATTTTTATAGTTTATAATTTAAATTATACTACATTATAAACAAAAAGGCAAAAAAACTTGCAAATTTTGAAATAAAAAGGTAAAATTTAGTATAGATATTTGGGGGTAGATAACTATGGATAAGAAATTAATAGAGGATATAGAAAATGAAATAGGTCATAAAATATGTGGATATCCAACTAAAAAAGGGACTCCATGTAAAAATTTACCAGAACCTGGAGAAAAATTTTGCAAATTACATTCTAAAATATTAAAAGAAAAAATAGAACTTGGAGAAGAAGAACCGATTTTATTAGAAGAATCTAATAAATTAGAAGAGATCGATAAAATTTCAGAATTATTAATAGATGAAGATAAGAGACTTGATATAGAAAGCGATATAATGGCTGAACAGGAAATTGAGGGCTTATTATCTGAGGAAAGTGAAAAGATTGAAAATGAAAAAAATGGGTTTAATACAGAAGAATTGAATGAAAATATAGATTTAGAAGAATTATTAGAAGAAGTACCAGAGGAAAAGATAGAAGAATCAGAAGAAGAAGCTGAAAATTCAGAAGATTTAGAAGAATCTGAAGAAGAAGTTGAAAATCCAGAATCTGAAGAAGAATTTTTAGAAGAAGAAAATGAAAAATCAGAAGATGTAGAGCCAGAATCAGAAGATTTAGGTGAAAATATAGATTTAGAAGAGTTATTAGAAGAAGTACCAGAGGAAAAGATAGAAGAATCAGAAGAGTTAGAGCCGGAATCAGAAGAATTAGATGAAAATATAGATTTGGAAGAATTACTAGAAGAAGTACCAGAGGAAAAGATAGAATACTCAGAAGAAGCAGTTGAAAATTCAGAAGATTTAGAAGAATCTTTAGAAGAAGAAAATGAAAAATCAGAAGAGTTAGAGTCAGAATCAGAAGAATTAGATGAAAATATAGATTTGGAAGAATTATTAGAAGAAGTACCAGAGGAAAAGATAGAATACTCAGAAGAAGCAGTTGAAAATCCAGAGGATTTAGAAGAATCTTTAGAAGAAGAAAATGAAAAATCAGAAGAGTTAGAGTCAGAATCAGAAGATTTAGCTGAAAATGTAAATTTAGAAGAATTATTAGAAGAAGCACCTGAGGAAAAAAAAGAAGAATTAGAAGGAGAAACAGTTGAAAATCCAGAGGATTTAAAAGAACTTTTAGAAGAAGAAAATGAAAAATCAGAAGAGTTAGAGCCGGAATCAGAAGAATTAGATGAAAATATAGATTTGGAAGAATTACTAGAAGAAGTACCAGAGAAAAAGATAGAAGACTCAGAAGAAGCAGTTGAAAATCCAGAGGATTTAGAAGAATCTTTAGAAGAAGAAAATGAAAAATCAGAAGAGGTAGAGTTTGAATCAGAAGAACTGGGAGAAAATATAGATTTAGAAGAATTATTAGAAGAAGCACCTGAGGAAAAAAAAGAAGAATTAGAAGGAGAAGAAGCTGAAAATCCAGAGAATTTAGAAGAATCTTTAGAGGAAGAGAATGAAAATGCAGAAGAGTTAGAGTCAGAATCAGAAGATTTAGCTGAAAATGTAAATTTAGAAGAATTATTAGAAGAAGCACCTGAAGAAAAAAAAGAAAAATCTGAAGAATCGAAGAAAGGGGAAAAAAGCATGCCAGATGATTTGGAAGATATAGATAAACTTATATCTGAAAATTTAAATTCAAATGATGAAATACCTATAATAGATGATGACGAAGATGATTTTTTAAGTGGATTAGATGAAATAGACGAAGATACAAATATTGATGAAATGGTAAGTGAAAATGTTGAAAAAGAAGAAGAAGAACTGTTTGAAAAGGCATCTTTGGAACCGGAAATAAATAAAAAAACAGACGAAGAAGAGTTTTCTAGCTTAGAATTAGCAGAAGGAGAAAGCTTAGAAAAAGAGAAATCTAAAAAAAGAAAAAAAGAAAAAAAGAAAGTAAATATAGATTTAAAATATTTTATTATAAAAAATAAATATAAAATTTTAGCAATTATTGGAGGGCTGATTTTAATATTTATTTTGGGAAAAATATTTATTTTTAAAGGAACGAAAAAAAATAAAGCTAGTGTAAAATCTATTAATAATGGATCTCTTAGCAAGAAAAAATCTATAAAAAAAGAGAGCTCGCCGCTAGGAGGAGAAATTGTAGAAAGTGAAAATATAAATCAAAATAATATAGTAGACACAGAAAATAAAGAAGTTATGGAAAATAATTCTGAAAATGTCATTAACAATAATGATTTAAATGGCTATTTAATTACTTTAGATAATTTGTTAAAAAAGCTATCTGAAGAAAAAAACAAGGAGACTCAAATAGAAATTAAGAAAAAAATATCAGAATTAAAATTAAAAATATCAGAATTGTCAAAAAAAGAGGATGTATTATTAGAGAATAGAGTAAAAAGAATCAATTCTAATTTATTAGTATTAAATATAGATAAAATTAAAATTGATGGATTTACATTAGTGCTAGGGTTGCAAGGGAAAAGTTTGAATTTAAAAAATGAGATAACAAAAGAAAAAAGTTATAGAGATATATTTTATGTTGTAAAAAATATATTTGAAAAAGAAAAAAAGATAAATACAATAAATATAAACGTTTTTCAAGGGGATAAAGAAGTTAATAAAAAAATTGAAATTACTGCAAGGAGATATGAATATGAAAATATAAAAAATAAAAAAGATACTTATGAAAATTTAATTGATAATTTTAAAGTAACCATTATAGAGAGGTGAGAGAAAATGCCAAAAAATAAAAAAGATGTAATGCTAGAAGCGAGTTTAATGATGGTAAGAAATGAACTAGAACAAAAAACAGGCAAAGTGGTGGCAAGCAAATCAAAACCTAAAAATCAAGATGAATTTTTAAAAAAAATAAAATCAAAGAAAAAAGAACAAAGTTTAAATGGAGTGGATATATTTAAATTAAATAGAACAAATAAATTTGACAAAGAGATAAATATAGATGCTGTTATTGAAGTGGTGAAAAAAAAATTATGGAACTCTCCTAGAAGTTTAAAATTAATAAATGTTATGCTTGCATCATATATTTTACAAAGAAACTACAGTAAAGCTGGATTAGAATTAAAAAAAGGATTAAATATTGATTCAAATGATTTGGATATAAATTATAATGGAGCAGAATTGCTTTTTAAGATTGGAGAAATAAATAGAGCTAAGGAACTGTTGAAAAATATAATTAGTAAATACAAGGATAAAGAAGCATTATATTTTTTGGGAATGATATTGTATTTAGAAGGGAATAAAGAGCAAGCGATTGTAGTTATAGCAGAATCTTTAAAAGATGATTCTAATGTAACTAGAGTAGATAAAAATTTTGCGTTTTTATTTATAATAAAAGAAGATGTTGAAAAAGAGTTAGAAATTTTAAGTAAATCTTTAAAAAGAGTAGTTGGGAATTTAGATTTTAGAATTGTGAAATCGTATTATGAAATTTTAACAGGTAAGTTAGAAAAAAATGATGCTAATGAAAAAATAATAATGAAATTAATTGCAGAAGATAAAAAATATTTACCTTGTTTAAAAGTTAATATGGGATTGAAGGCAAAAAAGAGTGGGGATTTAAAAGAAGCAGTAGAAAATTATAATCAAGCAATTAAACAAAATCCTAAATGTATTTGTGCAAAATTAGAAAAAATAGATATTTATTTAGAAGAATCTAAATATGAAAAAGCAGGGGAAATATTAGAAACAATTATAAAAAGTAATGGGAAATATTTGCCAGTATTACAGAGGGCTTTGGAGTTTGAATTTTATTCAAAAAACCAAAGCGAAACAGAAAAAATAGCAAGAAAAATAGTTAAAATAAAAAAGGATAGTTTAATAGAGGTGTATAATAAAGAAAAAATCATATTAAAATTATCTTTAAATGATATTATTGAAGGATTTTATGGGAAATTAAAAATTATATTAGATAAATATAGAGATTTGAATCCTAAATTTAGATTTTTAGGATATAGTGAAATGGCAACATATAAGCTATTTAGAAACATAAAATTATGTGAAATAGATTTTTATAAGGAGGGATTTGTAAAATGAGAATTGATTCAAAAACAAAATTAATATCTTTATTAGGGTATCCAGTGGGGCATAGCAAATCGCCATTAATGCATAATGCAGAATTAGAAACATTAGGAGTAAATGCTATATATACAGCAATGGAGATAGAACCTCAAAAATTAGGAGCGGTAGTAAATGGATTAAAAAGTATAAATAATTTTATAGGCGCAAATGTAACCATACCACACAAAGAAAATGTAATGAAATACGTAGATGGATTGACAGAGGAAGCAAAAAGCATAGGAGCAGTAAATACATTATATTTTGAAGATGATAAATTAATAGGAGATAATACAGATGGTCGAGGTTTTATATTATCTCTTATGAATGATAGTGGATTTGATCCAAAAGAAAAAGAAGTGTTGGTATTAGGAGCTGGTGGTGCAGCTAAAGCGATAATTACAAAATTAATTCAAGAATCAGTTAAAGTTGTAAATATTTATGAATTGAATATAGAAAAAAGTAGAGAAGTAAAAAAACAGATAGAAAATATAAACTCTTCTACAAAGATAAATTTAATATTAAAAGATGAATTAGAAAATTGTGCAAAGAAAAGTGATCTGATTATCAATTGTACTCCTGTAGGATTAAAAGAAAATGATCCTTTAATTTTGTCTGAAAATGTATTTAATGAAAAACAAGTGGTTTTCGATTTGATATATAATCCTGAAAAAACCAAATTATTATTAGCGGCAGAAAAGAAAGGGGCTAAAATTTTAAATGGACTTGGAATGCTAGTGTATCAAGGGGCGTTATCATTTGAAAAATGGATAGGAGAAAAACCAAATGTTGAAAATATGAAAGAGACTATAAAAAAATCTATGTAGTGGTTTAACTACAAAAAGTATTTAAAAAACTATTTTTTGTGGGAAAATTATTTTAAAATTTTATTTGAAAAAATTAGCAAAAGGAGAAAAAAATGGTAATTACAAGAAGACAGGAGATGTTAGGAGAAAAATTATTAAAAGCTGGATTAATTAAAAAAGAGCAATTGGAAGAGGCATTGTCACAGCAAAAAATGACGAAAGAAAAAGTAGGAGAAATATTAGTAAGATTAGGCTATATATCTATAGATGAAATTTTACCATTGCTTGCTTCTCATTTAGGAGTAAAAAGTACTCGTATAGAATTAGAAGAGTTAGATGAGGATTTAAAAGATGTTTTGCCATTAGATTTAATGAGAAAACACCATATATTTCCTATTAGGAAAAGAGGAAATAAATTAATTCTTGCAATGGCAAATCCAAATGATTTGTTTGTGGCAGATGATGTACAATTAAGGACAAAATCAGTAGTAATACCTGTATTAGCTTTAAAAAGTGAAATAGAATCAGCTATAGACCATATTTCGCAAAGAGAAGAAAAAAGTTCAGAAGAGCAAATGAGTGATGATATTTTAAATGAGTTAGAAGGTTTTGAAAGTACAGACTTAGAATTTGTAGAAGATAAAGATGAAAACTTAGAGGATTCTTTAAATTCTGATAGTGCACCAATAGTAAAAGCAGTAAATGCATTAATAGCAAAAGCAATAGCTGTGGGGGCAAGTGATATTCATATAGAACCTTATGAAAAAAAAGTAAGAGTAAGATTTAGAATAGATGGAGTTTTGAGTGAAATAAAAAGTTTTCCAAAACGAGTTATAGGGCCTATGGCATCTAGAATAAAAATAACATCAGGACTAGATATAGCTGAAAAAAGATTACCTCAAGATGGAAGGTTTAAAACAACGACAAGGGGAAGAAGTATAGATTTTAGAGTATCAACACTGCCAACTGTTCATGGAGAAAAAATAGTTATGCGGATATTGGATAAAGGGAATTTGAAATTAAATATGGAAGATTTGGGATTTGAAAAAGAGGAGTTAGAGAGATTTGATAAAGCTTTAAGTAATCCATATGGAATGATACTTGTAACAGGTCCAACAGGAAGTGGAAAAAGTACAACTTTATATTCAGCGTTAAATAGATTAAATAAACCAGATGTAAATATATCAACAGCGGAAGATCCGGTTGAATTTCAATTAGAAGGGATTAATCAAGTACATTGTAAAAAAGAGATTGGACTAGATTTTGCCTCAGCTTTAAAATCTTTTTTGCGTCAAGATCCAGATATAATAATGGTGGGAGAAATTCGGGATAAAGAAACAGCTGAAATATCCGTAAAAGCGGCGTTAACAGGACATTTAGTTTTGTCTACAATTCATACAAATGATGCGCCAAGTACAATACAAAGGCTTACAAATATGGGAATGGAACCATTTATGCTGTCATCTTCTTTATTGCTAATAGAGGCACAAAGATTAGGAAGGAGAATATGCAGTAATTGTAAAACTGAAGTAAAAGCAAAAAAAGGACAAATTGTTGCATTGGGATTAGATTACGAAGAATATAAAGATGTAGTTTTTTATAAAGGAACAGGATGTCCTAAATGTAACGGAACTGGTTACAAGGGTAGAGTGGGGTTTTATGAGGTTATGTATATAGATGAAGATATAAGAGAAGCTATAGCAAAAGGGGCTAGTTCAGATGAATTGCGCAAATTGGCTAGGAAAAATGGAATGCGAACGTTAAGAGAACAAGCTATAATAAAAGCAAAAAATGGGGTAACAACAATTGAAGAAGTCCTACGAGTTACTATGGAATAGTGCTTGACAAAAATATTTCAAGATGATATTATATACATAAAGTTCTTTTTCCGTAAAAAGGGGTGTGGAAATGTTTAATTTTAAGTATACTGCTATTGATAAACAGGGGAATAAAAAAAATGGGGAATTACAAGCAAAAAATGAGAAGGATTTAAAGTCGGCTTTAAAAGCAGCAGGCTTTATTTTAATTAAAGCACAAAAAAAAGGTGGTTCCAAAAGTGGTTCAAGTGGTTCAAAATCGAGCTCAAACAAAACTGGAGAAAAAAAAGTATCTATGTTTAGTAGAGTTACTTTAAAAGAGCTTACAATATTTAGTAGACAACTAGCCACAATGATATCTTCAGGAGTTACACTTTTAAAAGCAATTACAATTTTATCAGAACAAAATGAGAATCCATTGTTTAAACAAAAATTAACACAGATAAAAAGTGATATTGAATCAGGTCAACCTTTTTCAAATGCGTTATCAAAACATCCGAAACAGTTTGATAAACTATATGTAAGTATGGTAAGGGCTGGAGAAGAAAGTGGAGCATTAGAGGTAGTTTTAAATAGATTAGCTACTAGTATGGAAAAAAATCAGGAATTAAGAGGAAAAGTAAAAGGTGCTATGATGTATCCTGCAATAGTAATGATTGTAGCGCTTAGTATTACTTTTATGTTATTAACATTCGTAGTTCCTACATTTACATCTATGTTTAAAGATGCTGGAATGCAGCTTCCAGGATTAACCCAAAAAGTGGTAGATGTAAGTGATTTTTTAAGAGTTTATTGGTGGGTAGTTATAATTGGAGTTATATTATTGGTAGTTGGAATAAAAAAATATATAAATACACCAAAAGGTAGAAAAAAATTAGATGGATTAATGTTAAAATTGCCAATAATGGGGTCTTTTACAAGGAAAGTTTCAGTTGGAAGATTTACGAGAACAATGGCGACTCTTTTGGATAGTGGAGTTCCTATATTAATGGCATTTGATATAGTATCTGAAACGGTTGGGAATGAAATTATTTCAGAAGCTATAATGGTAGCAAAATCAAGCATAAAAGAAGGAAATACAATAGCAAAACCTTTAGCAGATAGTGGCGAATTTCCGCTTATGGTAACTCAAATGATAGAAATAGGAGAAGAAAGCGGTTCTATAAGTGAAATGTTAAGTAAAGTGGCGGATTTTAATGAGAGGGAAGTAGAAGAAGCGGTAGCTGTAGTAGTATCTGCAATGGAACCGTTAGCAATTGTAGTAATGGCAATAATAGTGGGGACTATTGTAATAGCTATGTTTTTACCAATGTTTAAATTAAGTGACCTTGCTGGCTAAAGAATGTTTGAAAAATAGGTGGTGTAAGTGAATGATAGGGACAAGAGATATTATAGAAATAAAAAATATAAGTAAAAATTATAAAGAGATAGATATATTTAAAAGATTAAAAGGTCATAAAAGTAAAATTGGAATAAACAATATTTCATTAAATGTAAAAGAAGGGGAGATTTTTTCTATAATCGGGTTAAATGGTTCTGGAAAAACCACATTAATGAAGTGTATGTTAGGACTATTGAAACCTGATTTTGGCGAAATAAAAGTTTTTGGAAAATCAAAATTAAAAAGAAAAGATTATTACAATATAGGATATCTACCTGAAATATCTTATTATCCTAAAGAGGTAAGGTTGAAAGATTTAATTAATTATTATGCAGAACTTTATAATATGGATAGGTTAAACAGAAATAAGATTATAGATGAAATTTTTGAAATATTAAAATTAAAAGGTAGAGAAAAAGATAAATTAGAAAATTTTTCTAAAGGAATGGTTCAAAAAGTTGGGATAGCACAAGCTATAATGAATGAACCGAAACTATTATTTTTAGATGAGCCAATGTCAGGGCTTGATCCGCTGGGAAGAAAATTAGTAATGGATATTATAAAAAAAATGAAAAGTAAAGGGACGACGATAATTTTGAATACACATATTTTAAGTGATGTAGAAAAACTAAGCGATAGAATTGTAATATTAGATTCTGGAGAATTAAAATCAGTTGTAGATTTTAAAAATTATATGCAAATAAAGTCAAAATATCAAATAAAAATAACTAAACCTTATAAAAATTTTGTAAGATTAGGGAGTTTTTATGTTAAAAATGTTATAGAAACAGAACTAGATGAAATAATTGGGGATTTGATTTTAAGAGGAGTAAAAATAGTTGATATAGAAAAGTTAAATGTTTCTTTGGAAAGATATTTTATAGAACAAATTAGTTAAAAGGGTGGTAGATATGAGACAAATAATATCAATAGCAAAATTTACAATTAAAGAAAATATTTTTAATAGAGTATTTAATGGATTTATAATGTTTGGAGTAGTATTAATATTAGCTACTTCTGTATTAAAAGATATATCATTATATGAAGAAAGTAGAGTGATTCAAGATACAGGACTGTTTTTAATAGAGTTTTTTGTGTTATTAATAGCAATATTTATATCTTCTAATCAATTTTTAAAAGATAAAAAAGAAAAATCTATTTATATAGTCTTGACAAAACCTGTGACACGTGGTATGTATATAGTAGGGAGATTGTTAGGAATGATCTTAAGTATACTATTAAATATAGCTATAATGGGAGGAATACTTTTTGGTATTGTTATATGGCAGCATGGAAAAATAGATATAAATTATATTTATATGCTGACGGCAATATTTTATAAATTGTCAATAGTAGCCTCTATTGGTGTGTTTTTTTCTGTAATATCAGATTCATTTATAACATCAAATATATTTACTTTTTCTGTATATATATTAGGGCATGCAGTTTTAGAATTAAAAATGTTAGGAGATAAAGTTTCAAATCCAATTTATAAATGGATTTTAGATCTTTTGTATTATATACTTCCTAATTTTAGAGTATTAAACTATAGAGATTATTTGACACCTGAAAAGTTTGATTTTGTAAATTTAACTTTATATACATTTGGATATATATTTGTAATAACAGCTATGACAAATATAATTTTTCAAAATAGAAAGATATAGTGGTGAAGATTATGACTATTATAAAAAATTTAATTTTTTTAGGAATCGGTGTTGCTTTTATATTTTTTAGTGGGAACTATATGATGCAAATGGATAATAAATTAAAAAATGAAGAGTATCATGGAGAAAAAGGAAAGTCTACAATAACTGTAAATTTTAAATTAATGGGAATGAAAAGGTTTGGAAGTGATGTTTTATGGATAAAACAAGTATTGGATACAGGTTCATTTGATTATGGTGCAGATAGAATTAAAAAAAATTCTGAAGCGGTATCATATCTTGATCCATATTTTATAGGGAATTATTATTTTTCAGGAACAGTTGTAGCGTTAATAAAAAAATATAAAAGATATGATTATGGATTGGAAATTTTAGGAAGAGGGTTAAAATATAATCCTAAAGATAAATATTTGAAGAACTATATAAGTGGAATAGTTGCTGCATCTAAAGGAGATATAGAAGGGGTATTAAAGGAATTTGAAAGGATATTAAAGACACATAGAGATGATAGGATGATACATACAGTGGCATTTATATATGAAGAAAAGTATAAAAAAACTAAAGAGATTAAATATTTGAAAAAAGCAATAGGGTATTGGAAGAGATTAGAAGAATCGAAAGATGAAAATTATAGAAAAATAGCAGTTGTGAAATTAGGGAAGTTGGAAGAGGTTATTGGGGTAAATAAATAATAGTAGAATTAAAGAGAAAACCTTTTTACCACGGGATAAAAAAGGATAAAAGATGGATAAAGAATAAAATTATTCGATTATGATGATAGAAATATATACCTGAGTAGCAAAATAGGAGATATTAAAATTAAAAAACAGGAAATATTATTAAAAAACAATAAGTTTAGTATAAATAAATTTTTAATAAATTAAAAAAAAGGGGGTGTAAAACTAAAGTAAAGAGGAATAAAAGTAATAAAGGAATGGTTGGAAAATAAGTTTCTTTTATTTGATAATAAAGAAGTATAAAAAGGTGAATTTGCTAGGCATAGTTTTTTATGCGGTTTTTATAAAAAGCCTGAATATTTTTATTATCAAATGGGTAAGTTATTTTTAATCTATTTCGAAACAACAGAAAAAAACAAAAAATAGGAGGATGAGAGAATGAAAAGAAGAATGGAAAAAGGGTTTACGTTGGTAGAATTGATGATTGTTGTAGCTATAATAGCTATATTGGCAGCGGTGGCAATACCACAAATGGGAAATCAAATTAGAAAAGCTAAAGATAGTGCAGCATTAGGTTCTATAGGAGCAATTAGAACTACAGTATCTGTAATGATGACAGACAATGGAGGAGTTGCACCATCAAATTTTGGAGAAGTTTTTAATGGGATAACAGCAGCTAATGCTCAAGAAGGAGTAGCAATTGCTTCAGCTATTGATACAAAAACAGTGAAAAAATTTGGGTATACTGCAGCTACAACACTTGCTGGAATAAATGTTGGGACTGGAGTTACTGCAGCTACAACTTATACAACTAATGGTGCTGATTATAAAGCAACTAATGGTATTCACAAAATATCAATTGCTTTAAATACTGCAGATGGATCTATAGATATAGATCAAGGTGGAACAAATACAGATACTAAAAACAAACAATGGAATAAATACTAAAAACAAAGGCGGTGTTTTGCCGCCTCTAATCTCTAATTAATTGTGATGCAAATATGTATGTAAAAAAACTATAAACTATATTTTCAACTATTTTTTATGCAATACTATTAACTGGAACAAGAGCATCTCTTTTAAGCATAGTTATAGCAGGAACTATTTTAATTTATTATTTAAGAAAAAGAATTTTTAAGAAAAACAGAAATTATTTTAGTATATTAATTATAGGTATTTTAATTGAATTATTATTAACAAATGGAGTTTTAAATCAAAGAATAAAAAATGCAACAAAATTAGATAAAGGCTCAACATATGCAAGATTGAATTTATATAAAAAAAGTATAATGATGATAAGCGAAAAGCCGATTATTGGACATGGAACAGGTAGTTATTATAAAGAAGAGTTAAATTATTATAATAGATTAGAAAATTATTTTAAGCAGAATAAAAAGATAAAAATAAGCGAAAAAAAAGAGTTAGAAAATTTTTATTCTATAGCAGGTCATACACATAATGAATTTTTACAGATTTATGTAGAAAATGGAATTTTGGGATTTTTATTAATGTTATTTATTGTGATATATATAATATATGATTTTGTAGTTGATTATAGAGCGGGGAAGATAATAACTTTCTTGCCATTACTAGCTATTGTTATAATAACCAATTTTTCGTTTCCATTGCATATGATACATAATTTAGTTTTGACTGGAATTATGTTGGGGGGGAATAAAATTGACAATTGATAATGGAAAATTGACAATTAGAAGAGAAAAGAACTAAGAGAAAATTTTTAACCACGAATTTACAAAGATGGGAACGAATGAAATCAAAATAAAAGATATGGGATTAAAAAACTTTTTAAAACTTGAGGTTGGAGTTTTGGATAATTAAAAAAGATAATAGGTTAATAAAATAAAAATAAATATTTGATTATTATGGTTTGAAAAAAGTATTTAGTTTTATTTTTTTAAAATTCGTGATAATTTGCGTATATTCGTGGTAAAAAATGTTTTAGATATTAATGTAGAGATGGCGATTTATCGTGCCTTTAAAAGATACATTGAAATTTACTTATTTAGTTTTGATATAAATAAAGTTTCAAAAACAGGGGGGGATTAATATTGAGAACGGTTTTACATTGGTGGAACTTATGATTGTAATAGCAATAATAGCAATATTATCAGTAGTAGCTTTACCTGAATTATCATCAAATATAAAAAAAGCAAAAGATAGTAATGTTTTAAAAGTAGTGGGGACACTAAGAGATGGAATTAATATTTATAAAACTGACAATGAGCAAGGGGATAATCCAGAAAGTATTCAAAAAATAAAATATTATATACTAGGACAGATAAAAAATAGCATAGAAGATAAAGATATAGATATAACAGATGGGATAACTTCATTAGAGATATTAGCAGGAACAGTAAATAAAGATGGGATTATAAGTAAAGGAAGCAAAGGGAAGTTGAATGGATTAAACAACATTGCAGAAATATATTATAATAATGGAACAGGAACTATATATGTAGATGGAGCAAATGGTATAAGTGGATTCAAAGATACAAAAAATAAAAATTGGAATAGTTATTAAGATTAGACAATAAAAAGGAGGAAGAAAATATGCAAAAAAAGGGATTTTTATTAGTAGCAATTTTAGTGTTATTTATGGCAGGGTGTAGCTTACCACCATTTAACACAAAGGCGAAATTAGATTATGATTTAGAAGGGGCTACAACGGAGTATAGTAATTTAAGTGCAGATAATACAAATGAATTTATAATGAGTATTCCAATAAAAGATGAAAATGCAGTTGGAGCTAATTTAGTAGAAGCAACAGTTTCTATAAATGGAGAAAATAAAACTGTAAAAATAATAGAAAATAAAGTGTCAGGAAATACAATTACACAAGTAAAAATAAATCCTTTTTTGGACACAAATGGAAATTTAATTAAAGCATTTACAGCATTAGAAGATTCAAATACTATAAAGATAGTTAAAATGAAGTTTAAAGATATAAATGAAAATGAGATTGTTTTAGGAGAAATGTATAAAAGTATAAAAGTATCAAAATCAAGTTCTGGTACAACTTCTGGGGGAGAAGTAGATAATAAACCAGTTCCACCAACAAATTTATCTTATGATGTTTCAGCCGATGGAAGCAAAATAACTTTAAATTGGATTGATAATGGAAATAGTTTAGAAAATGATATATTGGGATATAAAGTTTATAGAGAAGAGACAAGTAATGGAGTGTATGAAGAAGGAAAAGAAACAGCATTATTAGCAAGTAGTGTAGCAATAGTTACAACTTATTCGACACAATATATTGATAGTAGCGTTACAGCAGGAAAAGCATATATATATTTAGTGACTGCAGTAGATAGAGCTAGTCAAGAAAGTACATATAAGAGTAAACCTCTATATGTAGCTATTTATAAGCCTGGAAATTATAAAGTAACATCTTTAGTTGGAGCTTCTGTAGAAGGTACTATAAATATAAAATTAACATGGACAAAACCAGTTAATTCAACAGAGTCAAATACAGCCACAGTAAAAGGTTATAAAATATATAGAAAAGATAATTCTTCTGGGTATATATTAATAAAGGATATAAATAATGCAGATACAGCAGAATTTATAGATTATGATAAAAATTTAGTAGAAAATAAAGAATACACTTATAAAGTAGTAGTTTATGATGAAATAGGTAAAGAAGGAGAAGCAGCAGAAACAACATCTATAAGAGTGAAAGATATAACAGCACCAACAGCACCGAGTGGCATAGTATTAACATTAAAACCAGCATATAAATTGAATATTGCATGGAGTAAAAATAATGATTTGGATTTGAAAGATTATACAATTGAATATACAGATAATATTAATAGTACGACTTGGAGTTCTATAACTATATCAGGAATAACAACAACTGAAATAAGTTTGAATTCTTCAGAAACAGAAAAAACAATATATGTAAGAATGAAAGCAACAGATACATCTGACAACAAATCGGATTATAGCAATACAGAATCTATAATTATAGATTATAGTAGTTATATTCCGGCACCATCTAATATAGTTTTATCAGGTGGGCCTAAAAATGTTACTTTAACTTGGGATAAAGTAACTGCAGTAGCAGGATATGATGTAATAGGTTATAAAATAAAATATGGAACAACTCCTACTAATTTAACAGAAATAATAGAAACTTTTTCAAATAATACTAACATAACATCAGCTACAACTCCAGGGGGAATAAAAACGGCTGGAATATGGTATTTTTCTATAGCTGCAGTAGAAAAAGGAGATGGAGAAAACAAAGTAGAAGGGGCATATAGTAGAATAGAAGATGTTGTGGTATATGATGATTTACCATTTTTAAGAGATGTATCTACAGATTTATCTCCAAAAGGAGTAATGGTAAAATGGAAAGATGTTTATGACAGTGAAACAACAGGATATGTAATATATAGAGCAGTTACGACAGGCGGAACACCGACAGAGGATGATTTTAGTTATTTAGAAGCAAAATCTAAAAGTGATTTTGAAGTTCAGCCTGACTTTAATGGCGGAAGTTATTCTTGGAAAGTATATCAAGATGAAAGTGCTAATGAAATAGGTAAAACTTATTGGTATAAAGTAGCATTATATAATGGAGTTTATGACTCAACAAATCCAAAGACAGGTAAGTTTAGTCAATCTGTAGCAGTAGAAGATAAAGGAGCTCCAAAAGCAATAGAATATAGCACATTAAATGTTTCAGCAATGGAACCACAGCATAAAATGAGAATTAGTTGGGGAGGATATGTATTTGATAGAGAAGATTTAGCAGGATTTAAAGTGTATATATCAAGAACGGGAGAAGGCACATATTATTATGCAGGAAAAACAAGTAATTCATATATAGATTTAAATGTAAATAAAGATGGAGATTTTGATACAATTTCTTCAACATATCCACTTGAAAGAGAAGATGCGAAGTGGAAAAATATAGGTATAACAACAGGAAGTGGAATAACATCAGGAGCAGCAATAATATCTAACTCAGAAGTGAGTGGGATAGTAACAAATGTGAATAAAGATGATTATTTGAAAATAGAGGAACATTATTATAAAGTAACAGATAAAACGGCCGATCATGTATCAGTAAAACCAAATATTATAGGGAATATATCTGCTGAAAAAGAGGTATATATGTACCAAGGAGATACAGGACCAATCACGGAAACAAGAACAGTTAGTTTAAAAGATCCTATGGGAAATAGAATGTTTTATATAAAAGTAGATGCATATAATAAAGCAGGAAGAGAAAGTAGTCTTACAGCTTATAAATGGATTGATATGGTTCCTCCGGCTCCAAAAAGATTAAATGTAAAAGTTAGTCAATACACAGATGACAATAGTAAACAAGTTGCAAAAATAGAATGGTCAAATAATATAGAAGCAACAAATTTTCAGGTGTATAAATTTGTTGGACAAAACAGTTTAAGTAGCAGTGATCTAAGTATAGAAGGATTACCAATAACAGGAGTTTTATTAGGAGAAACTTCAGATTATAAATACGAAGATGCAACATTTAATGATTTAACAGCTTCGACTAATGTGGTATATGCAGTTGTTCCAGTTGATTCTTATGGAAATAAAGGGTCTTTATATGTTCTGGATAGTAATTATAAAGTAACTTCAACAATAATAACTGAAGCTTATGGAACAGTAGCAAGATAAAATCAATCTATTGGCAGGGGAGCATAAAGTAACGGCATTGCCGTTGCTTTCCTGCTAAAATTAAATTTTATTTAGGAACGGCTTAAAAATAATCTTCCAATTATGTTTTAAAATACGCAGTAATTTAAGCACTTTTATAACAAAAAAATTAAAAACTTGATATTCAAATATTCTTTGAATATTAAAGGAGACAATTATGGCACTAAAAAAATTAAAAGAAAAATATAGCTACAATGATTATAAAAATTGGGAAGACAGCGAAGATTGGGAGATAATAAATGGTGTAGCATATAATATGTCGCCAAGCCCATCATCAGAACATCAAGAAATAGGGAGTAAAATATTAATAGAATTAGGGAATTTTTTAAAAAATAAAGAATGTAAATTATATTATGAATTAGATGTAATATTGTCAGATGAAAATATATTAAAACCAGATATAATAGTAGTATGTGATAAATCTAAAATAAAAAAAAGAGGAATATTTGGAGCACCAGATTTAGCAATAGAGATATTATCACCATCTACCTCTATAAAAGATAAAACATTAAAATTAGAACTATATAAAAAATATGGAGTAAAAGAATATTGGCTAGTAGATCCAATATATAAAGATATTACAGTGCATATATTTGAAAAAGATGAGATAAAACTTTATACTTTAAATAATGAAAATATACCAGTTAATATATTTGAGAAATTTGCAATAAATATGGATGATATATTTGAAAAAGAGGAAACTAAACAAAAAAAAGAGGAACAAAACGAAATTGAACAAGAAGCAAAATAAAAAAGTTGAAATCAGAAAGGTAAAATTATGGTTATAATGTATATATATATATTTATAATAGGGGCTGTAATAGGAAGTTTCCTTAATGTTTGCATATATAGAATTCCAAGAGGAGAATCAATAGCATATCCTCCATCTCATTGCCCTAATTGTGGATATAAAATAAAATGGTATGACAATATACCAATTATTAGTTATTTTATTTTACTTAGAGGTAAATGTAGACAATGCAAAACAAAAATATCATTACAATATCCATTAATAGAGCTATTAACAGGGATATTATTTTTAGGACTGTTTTTAAAATATGAGTTCTCCATATTAACGATAAAATATATGATTTTTACGGCATTATTAATTGTTTTATCTGGAATAGATATTGAAGAACATATATTACCAGATAAAATAACATTTTTTATGATAGTAATTGGATTCATATTTTCTTTTTTTAGCGAGACAAATATATTGTATTCGTTCATTGGAGCAGCAACATATTCTTTTCCATTTATGCTTTTATATGGATTTGGAGAAGATCTATTAAAAAAAGATATAATGGGTTTTGGGGATGTAAAATTAACAGCAGCAATAGGAGCTTTTTTTGGATATAGGGGATTTTATAATTTATATATGTTTTTTATGTTAGCTTTTACAATTGGGGCAGTTATTAGCCTAATATTGATAATTTTAAAAATTAAGACTAGAAAAGATATAATAGCATTTGGACCATTTATAGCAGTGGCTGGATATATTATGATAATGATTATGTAGGGAATTTTAAATTTATATAATTTTTAATATCCCTAAAGTGAGGAGATATTATGCAAAAAGGATTTACATTAATAGAATTAATGATTGTAGTGGCTATAATAGGGGTTTTAAGTTTTACAGGTGGGGTTACAATTTCAAGTAGTATAATAAAAAATTCTGTAAATAAAGCAAAGGCTCAAGTTCCAGCATACTTAAATAATGGTGTAGATAGGGCATTTGAAGAGGGAAGTGGCTATACTATTGGATTTAATAGTAATGAGATAACTTTAACAGGAAAAGAGTCTTTAACACTACCTAGAAATTTAAAATATTTATATAGAATAGGTTCTGCAATACCTTCAAATTCAAGCATAAGTGTAAATATCAATGAGCAAGGAAAATTAAGTGGAGAATTTGATTTTTATATAGGAGATAAAAAGAATAATTTTTATTATAGAATACATGGAAGAAATATAGCTGGAATAAATTTAGGGGTAATAGAAGAATATAATCCTAATGCTACGGCTACAGTTAGTCAAGCAGGAATAGGAGTAGAGACTAATTGGACATTAGTAGAATAAATTTTGGGGGATAGATATGAAAAGATCAAAAGGATTTTCATTAATAGAAGTTCTTGCTGCATTTGCCATATTATCAATAGCTATTTTACCAATTATGTCAATGTATCCTACAGTATTAAAAATGGATAGAAAATCAAGAGGACATGAAGAGGGAGCTAGATTAGCATTTACAATTGTGGATTATATAAAGTCAAAAGGGTATGCTAACTTAATGCAGACTACAATAACATCTACAGCAATTAAGAACTTTATAACAGGAAAAAAGTATACTGACTTAGTAAAAACATCAGGGCAATCTTATTATAGTTCAGCTTCATTTTGTGATGATTTTAATATAGCATCAAATTTATTTATATTAAATAGCAAAAGTTTAGACTTATCTAAAGTAAATATTTGGATAGGATTGCATAAAAGTATAGCAAAATTAGGTGATGGAAGCGGAAATTTAAAAAGTCCTGAAGTTGATTTATATGCTACTACTAGAGCAGGAATAGGTTATATAGAAAACAAAATAATAATGGGTAGAGTTATAGTAGGATGGGGAGATGATGATACAGCTCACCTAACGGGAAAAGAAAAAGAATATTCGCTTCAATTTATAGTAACTAGTTTAGAGAAATAACTTGAAAAGAAAAAATATTGGGGGCTTCTATTTATGAAATGTGAAAAATCAAATGGAGTTACATTAATAGAATTGTTAGTAGCAATGGCAATATTAGTTATTTTAGTAGGGATGATAACTCCGTTATTTAGATCAATAGGTCGAGTAAATACAAAACAAAAAGAATTAAATAGAATAGATACAAGTATAGGGAAATCAATTGATATAATTAAAAGAGAAATTAGAGGAGCAAAGAATATAGTTGTAAATACTTCTGGAACAGCTGTTACAATAACGAAGGCGGATAATACAATAGTTAATTTTAAATTAGAAGATTATTCACCGGCAAGAAGTGAAAAAAACAGATCTGGAGGAACATCATTAGTAAAATGGCTACAAGTAAATAATGATGATGCTCATTTGGCAGATAATATAAGTAATTTAAACTTTCAGTTTACAGATAATATATTTACATTATATATGAAAATAGTATATAGAGGAAATGAAAAAGAGATAAGGGATGCTGTAACTAGCAGAATTAATTAATGAAGGAGTTAATTATGAAGAGAGAAAAGGGCTCTGCAATAATATTAGCAATACTTATATTAAGTTTTTTTATGGCGTTGTCAATGAATATGTTTTATATATCAAGACAAAAAGCTAACAAAGCTACTATTAAAATAAAAGGGAATAAAGTATTATCAAAAATAGATGTAGGAGCATCTCTGGGAGCTTTGGAATATGCAACAGCAATATTGTACGAACAACCAGGAGTATTAGATGACGTTAATAATTCTAATTTAGATATATTACTAAACAGGTATGGAGAATATTTTATTGGAAGAATAGATACGACAACATATGCGAATGGTGGAGCAAATTATGATATAGCTTTACATCATTTTGAAGATAATAGAAATAATAGTACAGGTACAACAGTAGCAGATGGGATACCAGACAATACAATTACAAAAAGAATTTGTGAAGAAGCTTCTACAAAATTGAGTATTGGATTATATGATTATACAACTAATGCTGCAATTACTTATCCAGCATCGACTAATAATTATACAATAAATTACAAAAAAGAAGTAATAATACCAGGAGATGGTGGAAATATAAAAGATATGGTATTCGAAATTGTGTATACTGAAAATATAAATACAGATGCATCAAAAAAAATATCTGCATATAACCCAGGCACAATAACAGTTACATACCAAAACTAAGGAGATGTTTAAAATGGAAAAATTAAAAAATCATATGGAATATTTAGTAAATGAAGAATTAGAACGATATTTAGGTACTCAAGAAGGAATTTGTAAATGTGAAAAATGTAAATTGGATATGAAAGCGTATGCTTTAAATTTATTACCAGCGTATTATATTGTATCTGAAAAAGGTTATGTTTATAGTAAAATAAGTGAAATGAGGCAACAATTTAAAGTGGATGTAATAAAAGCAGTAGTTGAAGCTGTGGAAAAAATTTCTGAAAATCCAAGACATAAATAAGGGGGACAAGTGATGTTTAAAGACAAGATAGAGGGGAGTATCGATGTTGGGTCTGGAATGATTAAGGGGATATCAATAAAAAAAGGGGAAATAGAAAATATTAGTTCTGAAAGACTGCCAATGGGGGCTGTGGTAAGTGGAAATATAGAAGATAGTTTATCAATAGTAGATAAATTAAAAACAATAGTTGAACGACTGAGCTTAAAAAATAAAAAAGTAGTGGTATCACTTCCTATACAAAATTTTGTGATAAAATTTTTAGAAATACCAGAAATGGAAGAGGAAGCAAAGCTTCCATTTATAGAGGGTGAATTAGATGAAATTGTTCCAAATTTTTCAGGTGAAGATTTTATAACTAATTATTATAGTTTAGAATTCAAAAATAACAATGAAAAAGTAATGGTAGTAACAATAAAAAAAGAAAAAATAAATGATATAATAGAAATATTAACATCAGTAAAATTAAAACCAATAAAGATAATTCCTGATTTTTTATCATTGTTTAATTTGGAACAAATTCAAAAACATAAAATAATAGAAGATACAAAAGGTGCAAGTATAATGACAATTGATATTGGGGCTGAAGCTACAAAAATTTTTATTGAAAATGATGGAATTATAAAAATGCAAAGATTAATAGCAATTGGTGGGAATGATTTTAGTGACATAGTGCAAAGAGAAAAAAGTGTAGATTATGATGAAGCAGAACAATATAAAAAAGAGTTAGAGGTTTTTGAAGATGAGGAAGTAAATGATGAATTTTATGTACAAGATGATATTGAAAAAGAGATATCAAATCTAGTGGAAGAACTGGGGGAACAAATAGAAAGAACAATCGAATTTTATAAAATGCAAGAAGGATTATTAGGAGTAGATGGAATTATAATATCAGGTGGCGGGACCCTTTTAAAAGGATTAAAATTAGTAATAGAAAAAAAAATAGTACAAGAATTTAATGAGATGAAAACGGAACAATATTTTATGAAAATAAAAGATAAAATAGCTGGAGAAGATATAGCTATATATGATATTGCTTTGGGAAATATCGTAGAAGAGGTGATATAAATGATAGAGATGAATTTTATTACAAAAGAATATAAGATGAAATTGTTTTTAGAAAATTTATTAAAAGCATCTATAGTTATAGTTGTTTTAATAGTATTAGCAGAAATTGGAGTAGGATTTTATTTAAATACAATTGTGAAATCCCAACAAAATAAAATTGAAATTGTGAATGGAAAGATTAATGAACTTAATAAAAAAAATAAAGAGATAAGAAAATTATATAAAAATATACCAGATTATAGCAGTAGAATTCAAGTTTTGAATGACCTTGTATCAGAAAAAAAATTAAGATTATCAGAGGTTTTATATTATATAAAAGAAGTAACACCTCTAAAAATTTGGTATTCTAGTTTGACATATAAAGATGGAAAAGTAATTTTAAAAGGGTATGCAGCAGGTAAAAATAAAAATTCGCCAGAAGTGGTAGCGTTATCCCTTGAAGAAAAATTTAGAGAAAGTAAATTATTTAGAAATGTGATAGCAGAAGGATTCAAAAGAGGAAATGTATTAGGAAATGATGTTGTAGTATTTACATATCAACTTGTTTTAGGTGGGGAGTGATAAAATGGCTGAAATATTTGGAAAAGAGATTGATATTGATGTGAAAATTGATGAAAAAGGAATAATGGCATTATCGATAGTGGCTTCTATAATATTAATAGCAGCTACAGGATATTTTATAATTTATCCTAAAGTTATTAAAATTACACAAAATAAACAAGAGGTAAAGAAAAAAAACCAAGAAATTGTTAAAGTTGAAAAGGCATATAAATCTATAAAATCAAAATATGATTTAGCAAATAAAATTTATTCAAATCAAAAAGATAAATTGGAAATTTTAAATTCAAAATTTGCGAATTCTAGTTTGAAAAATGAAACCGATTTAAAAATAGCTATACAAAAATTTATTGACTATTTTAAATTGGATATTTTAAAAACAGGCTCAGTTCAAATTGATGCTAAAGAGATAAAGATAGAGCCAGCGAATGATAAAGATAAAAAAATAAAAATTTATAAAAGAATGTATATACCTTATACTGTTCAAGGAAATTTAAAAGATATTACTACATTTTTTTACTATTTAGAAAATTCTAAATGGCTATTAACATTTAAAAAAAGTGATTTATCAATAAAAAAACTTGAAACAAAAAACATGAGTCAAGATACTGGTAAAATAGAGGTAAATTTTAAAGTTGGAGCTTATGTTTTGGAAAAGGTGGTGAGTAAATAATTGAAAAATAAATTTAGATATATAATGATTTTTTTTATAGTAATGAATGTTATGGCAATTGCAGATAGTAATCCATTAAAAGAGTATATATCGGATAAAGTATATTTTGAAGGACAGAAAAAATTTAAAGGTGGAAATGATATATTTAGAACTAAAGTATATTCAAAAGCTGATATTTCAAAAGAATTGGATGCAGCAAGAGGAAGGATAAAAAGTGTATTTTTAAAAGTATCATTTATAATAGAGAGAAATCACAAATTGACAGCAACATTTTACTATAAAGGAGAAGATGGAAGGGCAGCTAGAAAAGTAATTACTAATAGAAAAACTTTAAAAATTGGAAAATATTCATATAGTGTAATTGTAGTAAAAAACGGAATAGAAGTAATAGACCTAAAAACAAAAGTTAAAGTTAAGATAGAAAAAAAAGGGAGGTAACAAACTTATGAAAAAATTAGCAGCAGTATTATTTGCATTTGTATTTTTAATAGGGAACATATATGGTGCAACATCAGAAAGTAGATTTGAAAAAAGATTGGAGAAAATCAAATATCCTTCAGAGTTAGATTTTAAAGGAACTCCATTATCAGATGCACTGAGTACAATATCTAAAACAAGCAATATTAATATGGTGGCAGCATCAGAAATAGCAGATTTACCAATAGATCTGTATTTGCCAAAAGGACAAACTTTAAAAAGAATAATAGAAACAATAAAAAATACTAATGGATTAGTTAGTAGAATTGTAAATGGCACAATGATTTTATCAAGGGCTACAAATCAAGGTGTAAAAGTAGCAAGCAAAGGAAAAGTAGTTGGAAAAGTAACAGAAATAGATAAGATAACAGGGATAAGAGGAGTTACATTATCATTAGGTGATGATATAAATACATTGGTGTTATCAGATGTAGGAGGAGCATTTATAATAGGAGATGTAAATCCAGGGACATATATATTAAAAGCTAGTTTGAGAGGTTATAAACCAAATGCAGAAATTGTAGAAGTTAAACCAGGAGGAATTACTAATATTAATATAGTTTTAGCAAAAGTAGAATCAGCTGCGCAACGTTCTGGTAAATTGACTTCAAAACAGGATATTGGAAAAGTTGTAAAAACAAATGGTGATATAAGAAATACTAAAATGATTAATCTTATTTATGCTGATCCAAAAGATGTAAAAGGGATTGTTACCAATATAGTTCCTTTGGATAATATTGTTGTAGATGAGAAAAATAATATTTTGATATTAATAGGAACAGAAGATAATATTAAAACAGCTACAAAATTAATTGAAAAATTAGATATCCCCACTAAACAAATAAGAATAAAAGCTAAAATATGGGATATAAATCAAGATGTAGTAAACAAAGTAGGACTAAATTGGACTGCAGTACCTATAGATGGAGAATATCAATTATCTAAAAATAGTTCTGATGGAACTTTTTTAACAGGTAGTAAATTTAACGGAACAGATGGAATGACTTTATCATTTATGTATGGTGGTATAAATAATGAAAATGCATTAGGAACTACTTTAAATATGTTAGCAAGTACAAATGATGCAGAAATATTAGCAGAACCAGAAGTAACAACATTAAATGGGAAAGAGGCTAATATTCAAATAGTAAATGAAGAAATAGTAGGTTATAAAGAAACGTCAGATGATAAAGGGAATTCAGATAAATCACCTTTATTTAAAGATGCAGGAGTAGTGTTAAGAGTAAAACCAATAATAAAAAGTGATGAAACTATTTTAATAGAATTTTATAGTAAGGTAAGTAAATTCACAAGTGATGGAGTGCATGGAGCAGCAGAGAAAAAAAGTGAAACAACAACTAAAATAAGAGTGAAAAATGGTGAAACAATAAGGATTGGCGGTCTTGTAAGGCAAGATAAAGGACATGGAGTAACTAAAACACCTATTTTAGGAGATATACCATTAATAGGAATACTATTTCAAAATAGTACGACAACAAATAATAAAAGAAATTTGTATATAGAACTTACTCCTGAAATTGTAAAATAATCAGAGGAACTACTTAAAAATAGGGTTGTTTTTTGATTTTTAATAGAGTATACTATTAGTGATAGAGATTTATAGTTAGAAATGGATTAAAAAAATTATAAATTTGATAATAAATGACACAAAGTTTTGTTTATTATTATCAAAGAGAAGAATCTTATTTTTTAAACATTTTTTACATGGAGGTGAGAAAAATGGCTATGATAAATGGATTTTATGGAAATAATAATATATCATCATTAACAACCGTAAATCAAACTAAAGAACCTAAACAAAATGAGAATATAGAAAAACCACAAGACGATCAACCTAAAACAGACACAGTAGAAATAAAAAATAATATAAATGCAAAACCAACAGAAACTGAACAAATAAATGAAGAAGGTAGAGCTAATGATATAGAAAAACAATTAAACGAAGTTATAAAAAAAGCACCTGAACAAGCTATTTCAACACAAGGTATGGGAATAACGCCAGAAAGAGTAGCAAATTTGTTATAAGAATGATTTAGAAAATTATCTTTATTCTTCTAAGACAGCCCCTATTATTCTATAGGGGCTATCTTTTTTTGTAATAAAAGGCAATGATTAAAAAAAGTATTGATTAATTTAAAATAAAAGATTATAATTATAAAAATATTTAAAATAAAAGTATTATAATTAAAGTATTATAATTAGAGTTTTAAAAAATAGACTATGAAAAAGAGGTATGAAGCAAACTAAATACATTTTTGTAGGTTAATTATATTATTAATATTGGAGGGAATATGAACAAAAAAAATAGAGCTATTTTTTTAGATAGGGATGGGACTATTAATATAGAGAAGAATTATTTACATAAAATAGAAGATTTTGAATGGATAAAGGGGACAAAAGAAGCAATAAAAATATTTAATAATTTGGGTTATAAAGTAATTATTGTTACAAATCAATCAGGTGTAGCAAGAGGCTATTATAAAGAAGAAGATGTAGAAATATTAAATATATATATGAAAGAAGAAATTGAAAAAAAAGGTGGGAATATAGATAAAATATATTTTTGCCCTCATCATGTTGATGGAATTGGAAAATATAAAAAACAATGTAAAAATAGAAAACCTGAAATAGGATTTTTTCTAGATGCAAAAGATAAATTTAATATTGATTTTGTAAATTCATTTATAGTAGGGGATAAAATAAGTGATTTGGAAGCAGCAATTAGACTAGGGATGAATCCTATTTTAGTGGAGACTGGATATGGAGAAAAAACCAAAAAAGAGATTTATTTTAAAACTAAGATTTATAAAGATTTATATGAATTTGCATTAAATTTAAAGAAAAATATAGAATCAAAAAAAACCAAAAAAGAGGAAAATGTATTATTGAAATAACACATAGAATGTGATATAATAAGTTGAGGTGATGTATATGTATATAAATGGAGCGAGAATATTACTTGAAACATTAAAGCGAGAAGGTGTTACAGACATATTTGGATATCCTGGAGGTGCAGTTATACCTCTATATAATGAACTATATGATTTTGAAGGAATAAATCATATTCTTACAAGACATGAACAAGGAGCTGCACATGCTGCAGATGGATATGCAAGAGTTACTGGAAAAGTTGGAGTTTGTATAGCGACTTCAGGTCCTGGAGCTACAAATTTAGTCACAGGAATAATGACGGCGTATATGGATTCTGTACCTATGGTGGCAATAACTGGACAGGTTCCAACATCTCTTATAGGAAAAGATGCTTTCCAAGAATCGGATATTACAGGAATCACAATGCCAATTACAAAACATAATTATTTGGTAAAAGATATAAAAAATTTACCAAGAATAATAAGAGAAGCTTTTAAAATAGCTAGAACTGGAAGACCTGGACCAGTTTTAATAGATTTGCCAAAAGATGTTCAAATTAATGAAATAGAAGAAAAAGAGTTTGAAAAATTATATAAAGCACCGTTGAAATTGGAGGGATATTCTCCAACCTATGAAGGACATCCAATGCAAATAAAAAAAGCAGCAAAATTTATAGCACAATCTAAAAAACCTGTAATATTAGCAGGAGCAGGTGTATATAAATCGATGGCACAAAAAGAGTTAAGAGAATTTGCTCATAAAAATAATATACCAGTTACAATGACGTTATTGGGCCTTGGTTCTATTGCAGCAGATGATGAATTAAATTTAGGAATGCTTGGAATGCATGGAACAGTTGCAGCAAATTATGCAGTATATGAAGCTGATTTGGTTATAGCTGTTGGGATGAGATTTGATGATAGAGTTACTGGGAAATTAGAAACTTTTGCAGAAAATGCAAAAATAATTCATATAGATATTGATCCAGCAGAAATTGGAAAAAATAAAAATCCAGATGTACCAATAGTTGGAGATGTAAAACTTGTATTGGATAAATTAATAGGTAAAATAAAAGAGAATGATAGAAAATTTTGGATAGAACAAATAACAGAGTGGAAAAATGAATATAAATTAGTTTATAAAAATTCAGAAACAGAGATAAAGCCACAAAAAGTTATAGAGTTAATTAGTAAAATAACAGATGGAAATGCAATTATAGTAACTGATGTTGGTCAACATCAAATGTGGGCTGCACAATATTATCAATTTAAAAATGCTAATAAATTTTGTACTTCTGGAGGAGCAGGCACAATGGGTTATGGTCTTCCTGCAGCATTAGGAGCACAGGTTGGAAAACCTGATCAAAAAGTTATAGCTATAGTTGGAGATGGTGGAGTACAAATGACTGCTCAAGAGCTTATGACTTTATCACATTTTAATATTCCTGTAAAAGTTGTTGTATTAAACAATGGATTTTTAGGAATGGTTAGACAATGGCAAGAGATATTTCATAAAAGAAGATATTCTTCAGTGGATTTAGAGATAAGTCCTGATTTTGTAAAATTAGCAGATGCGTATAAAATAAAAGGTGTTAGAATAGAAGATCCAAATGAATTAGAACAAAAATTAAGAGAAAACATAGAAAGCAATGAAGCAGTTCTTATAGATTGTAAAATTACACGAGAAGAAAATGTATTACCAATGGTACCGCCAGGTGGAGTAGGAAATAAAATGGTAGGGATAAGAGGTGAACTAGAATGAGACATGTGATATCGGTAATTGTAGAAAATAAACCAGGAGTTTTAACTAGAGTATCAGGACTATTTAGTAGAAGAGGATATAATATAGAAAGCTTAACAGTAGGAACAACAGAAAATCCAAATTTATCTAGGATGACAATAGTTGTAGAAGGAGATCAATCAATATTAGAACAAATAGAAAAGCAATTATATAAGTTAGTAGATACATTAAAAGTTATAGATTTACCACATGCTACATCTGTTAGTAGAGAATTAGTTCTTGTAAAAGTTTGCAGTGATAAAAATAATCGTTCTGAAATTATTCAAACAGCAGATATTTTTAGAGGAAAAATAGTAGATGTAGGAGAGTCAACATTAACAATAGAGGTAACTGGAGAAGAAGGGAAATTAGGAGCTTTTATTAATTTAATGTCAAAATTTGGAATAAAAGAGTTAGTTAGAACAGGTAAAATAGCATTACATAGAGGAGAAAGAACAATAATTTAAGAATAACTTAAGAATAATATTTTTTAGGGGTATTCTCTAAAATAACTTAAAGAACGATTAACGTTCTAAAAAACAGGAGGGAAATATAATGGCAAAAATTTATTATGAAAAAGATTGTAATTTTGAGGTATTAAAAGGAAAAAAAATAACAGTAGTGGGATTTGGAAGTCAAGGACATGCACATGCTTTGAATTTAAAAGATAGTGGAGCAGATGTAACGGTTGGACTATATAAAGGAAGTAAATCTTGGGAAATAGCAGAAAAAGCAGGATTAAAAGTTGCTGTAACAGCAGAAGCTGTAAAAGGTGCAGATGTAGTAATGATATTAGTTCCTGACGAAAGACAAGCGGATATTTATAGAGAAGATATTGCACCAAACTTAAAAGAAGGAGCTTATCTTGGATTTGGACATGGATTTAACATTCATTATGGTCAAATAGTTCCAAGAGCAGATGTAAATGTATTTATGGCAGCTCCAAAAGGGCCAGGACATATGGTTAGAAGAACTTATACAGAAGGAAGCGGAGTACCTGCATTAGTTGCAGTATATAAAGATCCAAGTGGAGATACTATGGATGTAGCACTAGCATGGGCAGCAGGAATTGGTGGTTCTAGATCAGGAGTGTTAGAAACAACATTTAAACAAGAGACTGAAACAGATCTGTTTGGAGAACAAGCAGTTCTTTGTGGTGGAGTTACTGCACTTATGAAAGCTGGATTTGAAACTTTAGTAGAGGGTGGATATGATCCAATGAATGCTTATTTTGAATGTGTACATGAAATGAAATTGATAGTAGACCTTATATATGAAGGTGGATTTGCTACAATGAGAGATTCTATATCAAATACAGCAGAATATGGAGATTATATTACAGGACCAAAAGTAATAACAGATGAAACTAAAAAAGTTATGAAGGGTGTATTAAAAGATATTCAAGATGGAATTTTTGCTAAAAACTTTATATTAGAAACAAAAGCGGGAATGCCTTCTATGCATGCTATAAGAAAAAATGAAAAAGAGCACCAAGTTGAAAAAGTTGGCGGAGAACTTAGAAGTATGATGAGTTGGATAAAAAAATAAATTTATGTGATTGGCTATTATTTTAATAATAGCCAATCTTTTTATGGGATTGACATACAAATATATTAGAAATAAAATTTTAATCATAAATTGGGTTTAATTCTAACTGATTATGTAGAGATGGTTGTTTTTTTTGAAAAATAAAGCAAGAATAATAGAAAATAAATAAGGATACAGAAAGCAGAGATGTGAGTTCTATTTTGAGATTTAAAAACTAAAAAAGGAAAAAAGAAAATTAAAAATAATATTATTGTTATAAAAAAATATTTTTAAAAAAAATACAGAAAAATAATAAAAAAACTATAATAAATATAGTAAAAAAAAATAATAAAAAAGTAATAAAATAGAATTTTCATATAACAATGTGAAAAAAGATGCGAAATAAGTACACAAATAAGTAGCGCGAAGTTTAGTAGCGGTAGAAAAATTCTGAAACCAGATTATAGTTCAAACTAAGCACAATCAAAACGTATTGACTTAAAACAGGAAAAGTGATATAATTCTAATGCTGAAAAAGTATTAAAAAGGATTGATGGAAAATTTAAAAAATCAAATATTTCCCCTTTTTTAATTTCAAAATTATCATCTGATATAAATAAAAAAAGTTATTAAAATTTAAATATATGAGGAGGTGAGAAAAATAAAAAAAACTTTTATAATAGTTTTATTGCTTTTATGTAATTCTTTTTATTTGTTAGCAAATGTTACAGATGTTTCTAATATGAAAAAACTAGAAAAAGAATTAAAAGAGGGTAAAAAACTTGAAGTGGAAAAGGAGTTGATCGAAAAATATAATTTAAAAGAAGAGGAAGCGTACATAACTATTTTAAATTTATCAGAAAAAATTAAAGATTATACTACAGAAATTTATTATGCGAAGAAAATATTGGAAAAAAATGAAAAATTTTATCTTATGTGGTTCAAACTAGGAAAATTATATTTTGAAAATAATGATTTTGAAAATTCAAAAATTATATTTAAAAATCTAATAACTAAAGATAAAAAAGTTGATAAAATTTTAGTGAGTAAATCTAAAAATTATTTGATGAAAATAAAAAAAATAGAAAATAAAATAAAAAATGAGGTTGAAACATGGAACTTTAAAATTAAGACAGGATATGAAAATATTAATAAAATAGAGCTTTTATCTATGGATAGTTATGAAAAAATGTATGGGACTTTTAGAGGCTCACATTTAATGGATGAAGCAGTTATAATTGGAGCGTACTCAAATTATAGAAAAAAAATAGCAGAAATAGCAGAAATAAATTTTAAAATTGGATATGAAAAGTTAAGTTATAGTTTAGATGACAATTATAATGTAGAAATTCCAGAATTAAGTTTAAAATTATTATTGAATTTAATAGACACGAAAAAAATTCATTTAAAATTGCCATTGAATTATGAATTTAAACAAGGATATGCAAAAATAAGTGATATTAAATTAGAAGGAGAATATAAGATAACATCAAATGTAAGTTTAGAAAATAGTTTGGGGTATATTCAGAAAAGTTCTTCTATAAATGAGTTGAATAATAAATTTGATGAAATCAAATTAAAATATTCAGGTAATATTATAAAAAAAATAGAAATATTATATAAATATAGTGTTGAAAAAGAAAAAGAAATTTCAAAATTAAATAAATCTGATATATTTGGTCTGAATATATCAAAACAGGTGTACTTAGGTTTTAATTTGGATTATTCGATGAATATGAAAAATAAAATTTTTGGAGAAAGAGATATTAGTGTTGATATGAAAAGAGTAGATAAAATATTAGATACAAAACTTTTATTAAGCAAAACATTTTGTGATTTAGAAATTAAATTAGAGTATGATTATATGAAGATAAATTCAAATATATCAAAATATAGTTATGCAGGCGATGGATTTGGGATAATAATGGGATATAATTTTTAAAAGATAAAGAATGTTTAAAAAATAAGCTTTTCATATTTGGTAATAAAAACGTTTGAATTGTTATATACGTTGTACATTTTTTTATAAAATAACTTTGAGCCTTTTATTGTCAAAGATGTAATCTATTTTTAAATCATTTCTAAATAATCCGTAAAAAACGGAAAATAAAAAAAACAGGAGGAAATACAATGAAGAAGATTTTAACATTAGCAGTAGCATTACTAGCATTATCTTTTGCAGGTTGTTTTACTGATAAAACAACAACAGAAGACAATACAACAAAACAAGAAACAACAACAACAGTAACAACAGAGGGGAAAATTGTGAATACAGCTTCACCAAAAGGGATTTTTGCGGGAGTAGTAAGAGATTCTTTTAATAATCCTTTAGAAGCAGTTACAGTATCAATAGGTGGAAAAAGTATAGTTACTGATAAGACAGGGACATTCAAAATAGAAGGATTAGATGTAGGGGGAGCTGGAGCTGGAAAAGAAGTGTCTTATACAGCAGTATTCTCTAAAAAGAATTATTTGTCTATAACAAAGTCAATTGTATTTAAAGAAGATACTTTAACAAACGATGATACAAATGCAACAATACATATTGATGCAACTACAGGAACAAGTGTAAATTCTGGAGAAGATGGTTTAATAGTAGGGACTGTAGTTATACCTCTTAATAATGCAACTGCAACAGTAGATGCTGAAATGGTAGAGCTTGTAACTGCAAAAGGAACAATAAGTTTGCCGGAAACTTTATCAACAACTGCGGCAATAAAAGTAATTCCATATATATCAGGATCAAGTGTACCTATGTCTGACTATTCTCAAGAAATATCAGATAGCTTAGAATATACAATTAAAAATATTCCAGCACAAGAAACATCTGTAACATTAAAAATATATATTAATGGAAATATATATGCAAGTTATTATGTAAATGAAGAAGCTGTTAATTTCCATACTGCAAAGAGAATAGATTCAAAAGTACAAGGGGGACAAAGAGAAGTTATTCAAAATTTTAGTGCTAAAAAATATGGAGAAGTAAGTGGTATAGTATATAAAAATTATAAATTAGCAAATGCTACAGATAATACAGTTGGAGCAGGAGCAAAAGTTGAATTATATAGAGATGTTTATCCTAGTCCTGTGAAAATGGGAGAAGCTTTTACAAACGCAGCAGGGAAATATATTATTCATGAAATTTTACCAGGAGTATATAGTTTAAAATTACTTGATTTTGATAAAGAAAATGATGGAGAATTTGATTTTGTAAATGGGAAAACATTTATGGATATAGCTGTTGCAGAAGGAGATAATGTTACAAATGGAGTATCACCATATAGTATAGTAAAAGATTTATGGTTTACAGGATATCAAAATTATTCTGTTTCAGGAAAAGTAGAAGCTGGAATAGAAGGAAATATTATAGCTAATGTAAATGTAAAAGTTTATTATAGTAGTACAAATAAATTATTAAAAGAAACAAGAACTACTACAACTGGAGCATTTTCTGTAAGTGGAATACAATTTAAAAATATAAAAATAGTTGCAGAAGCAATTGATACAGATAACAATTTGATAAATAATTTCAACCAAGCAACAAAAGATATTACAAATAATGAAGGAATAGATGTGAATGATGTATATTTATTCATGGCTCCAAATAGTGATGAGTATGGATTACATGTTGTTTCAACTAACTTTACTATGAAAAAAACAGTTTCTGGAGAAACTAAATTATTAACAAAAGTAAATGGAGTAGAACCAAATGGGACTGTAGTATTAACATTTGATAATGCTGTTTCTACTGATTCTGAAAATGAAATATTAGCTAAATTAGATAAAGTAGTTAAATTAATAGGAAGTTCAGATGTAGATATAGATTACTCTTTTGATTCTACAAGGAAAATAATGACAATTACACCAAAGAAACCTCTTACAGGTAATTTATATACTGTATGGATCAATTCTGAGTTAGCAACATCTAATGGTTATAAATATAGTGTAGCTAATACAATAAATACAGATTTATTGAATTCTACTAATGTAGATATTGATGTTGAAGCATATCAATTAAAAGTAGCTGGAGCATCATTCTTAACAAAAGATGAATATGGTAATTGGAGTGCTAATGATGTAGAAGGGCAAGATGCAAATACAGCAATAGCAATAACATTTAATAAAGAGATATCACAATCTAAAATAACTGAATTGGTTAATAAAGGTGAAAATATAGTTACAGTGACAGATATGGCAACATTAAAAGATATATTAACAGATTATACATTTGATACAGCAAATAAAATAATGACAATTAGTCCAAAAGTATCTCTTACACCAGGAAATCAATATAGAATAACTTTGAATAGTGAATTAAAAGCTAAATCAGCATCAGATAACGGACTTGATATAAAAATTAATGGAGATAAAGTATTTACAGGTAAAATTTATAAAGCAAATAATGAAAGTTTAACATCTATAAAACCAGAAATATTTATAGATGGAGCTTATGTTGATAATTATACAGCTTCTAATTTTGCGATGGATTGGAATTTTGGGAATGCTGGAATTTATAAAACAACAGATTTAGATGAAACAGTACAAACATATGGAGCTTCAAGTTTTGATGTTAAATTCAGTGTTAGCGGATTAGAAAGTAAAAAAGCGAACATTAAAGAGTTTGATATTTATGCAAAAACAGAGAGTTCTTATTGGGAGAAATTATCTGCAATAAATATTAATGCAATAACAAAAACAGAATGGAAATTAGGGGTTAAAAAAACAACAGTAAATCTCAACAACGTAAATGGACTTGATTCTTCAGATAAATTGAAATGGGGAGAATCATTAGAGATTATAGTTATACCAGTAGATGCAAAAGGAAAACCAGCAGATTTTCCAACAACAGAAGATGCAACAAAAGTATTAACTTTAAAAGATAACTACGGAGTTAAATTAGCGGGATTAAATGGAACTTCATTATTAAATGCAGGAACAAACACTTTGACTATGTCAGAAGATATATATCCAGCAGGATATGGAGTGACTATAACAGGGATAAATTCAAATATTGGAATTAATACAACAACAGCAGGAGCAGTTTCTAATTTAAGAATTGGAAGTAGTTTGAATGAATTAAAATTTGAAGCTTATCCAACATCTAAATTTGTGGTAGGAGCAGATTACAATCATGGAGAAAGTGATCCTGCAAATAGATTAACTTTAGTTTCATCAAATGGATTGTATGATGGAATGAAACTTGAAACAACTGATGGAGAAATAGTTGTTTCAAATATAGTTAATGGAACAACAATAGACTTTTCATATGTAGCAACTCCATTTGATATGGCAAAAGATGTAGAGTTTACAATATCAAAAGATAATACGGATATTTATAGTAGAGCAGACTCAACAAAAGTATATAATATAACAGGAACAGGATATGGAGAAATACATGAAATAGCAGTATCAGCATATGCTGATGGTGGAGATGGAGATTATACAAATGGTGGAATAGTTACATTATCTGGAACAAATCCATTATTGGGAGTAACAAGTGGAATGGTATTGAGTTTACATGATAATAATGGTGTGGTAACAACAAATATAAACGTAACAGTAACAAATGTAGGAACAAATGGAAATGACAAACAATTCTCTACAAGTTCAAGTATTGAAGGACTTACTACAGGAGGAACAAGTTTTGTTGTAACAAATATATATCAATTAACAGGAGTAACAAGCGTAAATAGTTTAATTATAGGTGAAAAATTATATTTAGAACATGCCACAGACGGAACTAGCAAAGAAGTTACTATTATGGCAGTAGATAATTTAAATAATATAGTAAAAATAAGTGCTAGTCCTGAAAATTATACTAAATCATTTAAATTGAAAACAGTAGATACAACAGCAAAAACATTTATAGCAAAAGAGGTTAAGAAATATGCTGTAGGAGATAAAGTTGTTATCAATAAAGATACTAGTTCAATAATAGCTACTGGAACAAATATTATGACAAATATAACAGGAATTTCTCCAGTTGAAACAGTTGGAGGAACAAAATTATATAAATATACAACTACAGATGATATAACTGGAGCAGCAGAAAATCAAACAATTGATTTTGTATCAAATGTACAATTAAAAGTTGTAGCAAAAGATTCATCTGAAAATATGATTCAAGCAGATGATGATACATTAAGATATGATGAAGCAAAAGGTTGGATAATAGATTAGTTTACAAAAATTTATAAAACGAAACTTTAATGGAGCCACAGATTTGAAATTTCAAATCTGTGGCTTTTATTTGGATAATACGAAATTTACAATTGAAGAATAGGGAAAAAAATGTTATAATAAAAATAAAATGATTAGGGGAACAAATGATGCGATTTGATTATTTTTTGAGCATTTTAAAAACAAATAGATTAAAAACAAACAGCAAAGATATAAAAAAAGGAGATATTTTTGTTGCAATAAGGCAAGGAAACAGTTATTTGCAAGAAGCAATTCAAAATGGAGCTTCAGTAGTGGTATATGATTCTGAAAAAATATTTTGTGATTTTAAAAATAGTTATAAAGTGGAAAATAGTATTGAATTTTTACAAAAATTAGCTAAAAAATATAGAGAAACATTAAATACCAAAATAATAGGAATAACAGGAAGTAATGGAAAAACAACTACAAAAGATATTATTTATGAAATTTTAAGTTTGAATAAGATAGGAAAAAAAACAGAAGGTAATTTAAACAATCATATTGGAGTACCGATAACTATATTAGGATTAGAAGAAAAAGATGAATTTGCAGTTATAGAGATGGGAATGAGTAATTTAGGGGAAATAGATCTGTTGGCTGATATTGTAAAACCAGAGTATTCAATAATAACAAATATAGGAGATTCACACCTTGAGTTTCTAAAAAACAGAAAAAATATATTTAAAGCAAAAAGTGAAATTATAAATCATACTAGAAACAGACTATTTATAAATGGAGACGATGAGTATTTAAAAAAGTTAAGTGGAATAAAGATTGGATTTGGAAAGAGCAATGATCTAAGCGCAAGAAATATAATTTTCAATGAAGAATATAGTACATATTTATTGAAATGTGATTTGGGAGAATTTAATGTTAAATTAAACCTTGTAGGGGAACACAATATTTTAAATTCTATGTTTGGTATAGCGATTGGATTGGAATTTGGATATACTATAAACGAGATATTAGATAGAATAGCTAATATTAAGATTTCTAAAATGAGATTTGAAAAGATAAAAAGAGGAGATACTATTTTTATAAATGATGCATATAATGCGAGTCCTATTTCAACAAAATACTCTCTTAAAACATTTTCAAAACTTTATGAAGATAGATTAAAAATAGTGATTTTAGCTGATATGTTAGAGCTGGGAGAGAAAAGCAGAAAATTACATGAGGATTTGAGCGATAATATAATGGATACAAAAGCAGATATATTTATATTTTATGGAAATGAGATGAAATATTTATATAAAAAAGTTCTAAAAGATAAAAGAGCGTATTACTTTGAAAATAAAAAAGATATAATAAAATTAATAAATGAATTAAGCGGGAAAAAAGCAATATTATTAAAGGGATCAAGAGGAATGAAATTAGAAGAAATAATTTGTTAAGGAGAGTGTATGTTATATTATATTTATCAATATCTTTATCATGATTTATCAGTTTTTAGGATTTTTAGGTACATTACATTAAGGGCAATGATTGCATTTGTAACATCGTTTTTATTTGTATTAATAATAGGAAAGCCTTTTATAAAATTTATAAAAAATAAAAAAGTTGGAGAAGATATTAGAGAGCTTGGACCAGCAACACATTTTTCTAAAAAGGGAACGCCTACAATGGGAGGAGTTTTAATTCTATCCTCTATAATATTTACAACTTTAATTACAGGGAATTTGGAAAACAAATTTATAATTTTATTATTATTAATTACAATTTTATTTGGGGTAATTGGATTTTTAGATGATTTTTTAAAATGGAGTGAAAAAAATAAAAAGGGACTTTCGCCTAAAAAAAAGATATTAGGACAAGTTATTATATCAATATTAGTATTTGTATTTATTATTAAATATAAACTAATAGGGAACAATATAGATTTTTCATTAGTTAATCCGTTAATTAAAAATAGCTATTTGGAATTAGGAGCTTTTTTTTATTTTATATTTTTACTATTTTTTATTACCGGAACATCAAATGCTGTAAATATAACAGATGGACTTGATGGATTAGTGATAGGACCTGTTATGATAACATCTTCTATATTAGGAATTGTTGCATATTTTACAGGACATTTAGAGCTTAGTAAATATTTGAATTTATATTATATAGAAGGAAGTGGAGAAATTTTAGTATATATTTTAGCAATAGTTGGTTCTGGACTTGGATTTTTATGGTATAATTTTTATCCAGCTGAAATTTTTATGGGAGACACAGGTTCTTTAACATTAGGTGGTATTATAGCAGTAATATCTATATTGTTAAAACAAGAATTATTATTATTAGTAATAGGGTTTGTTTTTGTAATAGAAACATTATCAGTGATTATTCAAGTAGGATCATATAAAACAAGGAAAAAAAGAGTTTTTAGAATGGCGCCAATACATCATCATTTTGAATTAAAGGGATTACCAGAAACTAAAGTAACAATAAGATTTTGGATCATTTCAATAATTTGTGGATTAATAGGATTGTTAATTTTAAAATTGAGATAAAATTAATAGTTGACAAAAGGGGGAAGATGAAATGGCAAAAAATAAAATAAAAAATAATTTAATTTTTGGATTTATATCATTTTCAATAATAGTTATATTGATAGTAGTTGGTTTTTTTTATATTAATATTAGAAGTTCTGTAATTGATTTTAATAAAGATATAGTGAGCAATAACGAACAAACAATATTAACAATGATAAACTCGAATCAAACTCAAGGGAAAAAAGTTATTTTACAAGCCAATAGCAAAGTTATGAAAAATACGAAAGAAAGATTAAATAGCTTTATAAAAAAAGCATCGAAGGAAAATAATGAGTCATTATTAAAAATATTTTCTAAAACAATAGATCAAGAAATAAAGATGAAAGAGTTTGAATTAAAAAACATAGTAAAAAGTCAAATGTTTGTATGGGAAGATATAAAATCCGAAAGAGATAGTTTGAAAAAATTATTAAAAAAAAATAGTGATTATAAGGGGTTTATTGTATATGGAGAGTTAATAGATCCATTTTTTCAAGTTGGAAAAATAACAGAAAATTTTTATAAAAGTAAAATTGTGGAAAAAACAAGAAGAGGGAAAACATATTTTTATAATATAAATAATACAAACTATTTTTATTTAGCAGTTCCAATTTATAATAGCAAACAAAAATATAATGGATTTATAATAGCGAAAATAGATATAAAACCAATTTTAAGTAAACTATTTAAAGAGATAACTTTAGGCTCAGACAGAACAATCTTTGTAATTAATTCAAATAAAAAAATTATAAAACATATAAATAAAAAATATGAAAATAAAAAATTTACTAGGGTGAATTTTAACAAAAGGTTAGATTTTCAACAGATTATAAAAAATAAAATAATTTATACAATTAAAAAATATAATTATGGTAATTTTACTATATTTATTGTAATAAAAGAGTATATTTCAGATGCTTTTTCATATGTAGATTCTTTAAAAGATGATACTGAGAAAGTATTAATTCAAAGTTTTAATGATTTTAATAAAGATTTAAAAAAAGCTTCTAAAAAAACATATGATGTTTCAAAAGAAAAAGCTTTAGATAAACTAAATAGTTTTATAAAAAATATTGCAAATATATTTTATGTTGTATTTTTTATAGGAGTTTTAGTGTCTATTCTATTGGGAATATTCTTTGCAGATGGAATAACAAAACCGATAAAGGAACTTTCATTTGCAGCAAAAAAAATAGGTGATGGAAATTTAGAATATAATTTTGATAAAAAATTGTTAAAAAGAAAGGATGAAATAGGAGAACTTTCAAGAGAGTTTTCTGAAATGAAAATCAGATTAAAAGAAAATATAGAAACTGTAAAAGAGTTGGAAAGAAAAAAAGCACATTCAGAAAGATTATCAATAATGGGACAAATAGTAAGTGGTATAGTTCATGAAATAAAAAATCCATTAACAAGTATATCTGGATTTGCGCAAATAATAGAGGAAACTTCAGGAGAAGAAACTATAAGGCGTCAAAGTAAAATGATTTTTGAGGAAGCTCAAAGATTAAATAAATTAACATTAGATCTTTTAGAGTATGCAAAAGGTTCAAAATTGGATATGAGAAGAGTAAAGGTAAAACTTTTAGCAGAAGAGGTTTTTGATAAATTAAGTCCTAAAATAACTGAAAAAAATATAAAAGTAAGTGTAGATGTCCCAGAAAATTTTCCTACAATTTATGCAGATAGGGATAAAATTATGCAGGTGTTTATTAATTTAATATCAAATGCTGTAGAGGCTATAAAAATGAGACGAGGAAATATAGAATTTATAGCAGATAGAATAGGAACTGGAAAAGTTGAGATAAAAATAAGAAATGATGGACCAGTAATACCTGAAGATATAATAAAAGATCTATTTTTGCCATTTATATCTCATAAAAAAGGTGGGACAGGACTTGGATTAGCGATGGTTAAAAAAATAATTGAAGATCATAAAGGAAATATAAAAATAACAAAAGGGTTAGAAAAAGGAGCAGAATTTGTAATAGTATTGCCTATAAAATAGGGAATGTTATAAAAAAGTTTATTTTTTTACTAGGAGAGTATAAATTTGTTTAGAAAATAAGCTACGCTGTTTCTTTGAAATATGCGATTTTTCAAAGCAAAATTTTTCAGAATCTAAAAATTTAGAAAAACATTTATGTTTTACCAGATGAAGCGTAGCTTATTTTTTTATTAGAAATTTTTTAAGGAGAAATAAATGAAAAAAGTATTGGTTTATGGAAATGGAAAAAGTGGAAAAGCAGTAACCAAATTATTAAATAAAAAAAAATATATAGTAGATATTATAGATGATAGAATTGGGTATGATAAAGATGAAATATTAAAAAAAATAGGAAATTATGAATTTATTGTAAAAAGCCCTGGAATATCAAATGAAAATTTACTTATAGATATATTGAATAAAAAAAGAATAAAAATATTAGATGAAACAGAAGTAGCAGCCAAATATATAGATAATTCAAAAATAATAGCAATAACAGGTACAAATGGAAAGACTACAACAACTACAAAAATAACAGAAATGTTAAATTTTGCAGGATATAAAGCAATTAGTGCTGGGAATATAGGTGTTCCATTTTCAGAAATTATAGAAAAAGAAAAGGAGTATGATTATATAGTTTTGGAATTAAGTAGCTATCAATTAGAATATATAGATGAGATGAATCCATTTATAGCTATGGTTATAAATTTAACTCCTGATCATATGAATAGATATGAAAGTTTAGAAAGTTATTATAGTACAAAATTTAATATTTTTAAAAATCAAACAAAAGAGGAGCATTCAATAATAAATTTGGATGATGAAAATAGTGGATCTATTTTAAAAAAATTAAATATAGAAAGTGAAATGCTAACAGTTACAAAAGGAGATAGGTTAACTGAAAAAGCAGATTTATATGTAAAAGATGATCTGTTATTTTATAAAAATGAAAATATTTTAGATATAAATAAACTTACACTAAAAGGAATTCCAAATTTAGAAAACACACTATTTATAGTTGGAGTTGCGAAAATAATTGGAATAAAAAACAGTATTATAAAAGAATTTTTGTATAATAATAAAGGGTTAGAGCATAGAATGGAAGAATTTTTAAAAATTAAAAATACAGTTTTTATAAATGATTCAAAAGGAACAAATACTGATTCAACAATAAAAGCTTTGCAAGGATATAAAGAAAGAATAACTTTAATTTGTGGTGGGAAAGATAAAAAATTAGATTTAGTTCCATTGTGTAATGAGATTTTAAGACATACAAAGGAAGTTTATCTAATAGGTGAAACAAAACAATTATTAGAAAAGATACTAATAAAAATAGGATATGATAAAAATAAAATTTATAATTTAGAAATTTTGGAGAATGTAATAAAAAAATTAAAGGAAAATTTAGATATAAATAAAAAAAATATAGTAGTTTTTTCTCCTGCAGCTTCTAGTTTTGATCAGTTTAATAGCTTTGAAGAGAGGGGAAAAATTTTTAAGAAACTTGTTATGGAGAATTTTATGGAGGAATAATGACGAATAATAAAAAACTAATAAGAGGCATATTAATAATAATAATTATACTTGCAGTAATTAGTTTTATGTTTATTTATAGTTCAAGTGCATATATTGCAGAAGAAAAAAATTTAGGACAATGGTATTTTGTTAAAAAACAGGCTATATGGTATATGTTAGGATTTGCTTTGATGATGATATTTAGACATATTGATTACAAAAGATACAAGCACAATCAAATAAAAATATTTTTGATTGGATTTTTTTTACTATTAGCTGTTTTAATGTTTGGGAAAACTGTAAATGGTTCTAGAAGATGGCTTGCAATTTTTAAATATACGATTCAACCATCAGAGTTTGCAAAAATATTATATATTTTATTTTTTGCTTCATTAATAGAAAAGTATAAAATGAAAAAAAGGACAGATCCTGAACTTATTATAGCTGGATTAACAACATTAGGAATTTATGCAGGATTAATATTTTTAGAAAAAGATTTAAGTACAACGTTTCATTTGATATTGATATCTGCAATAATGTTTTTTGCGACAGATATTAAAATAAAGTATGTAATAACTGGATTTTTTGTATCAATATCAGGAGCAGTTTTATCAATAGTATCAAGTAAAAATAGAGCAAGAAGAGTAATAGAGTACTGGGAAGGGATAAAAAAAACAGGTGTTGGAGGAGGAGGACAAGTAAAGCAATCTATTATTGGAATAGGAAATGGAGGCTTATTTGGAACTGGTTTTGGAAAAGGATTGCAAAAGTATAATTTTTTACCAGAACAACATACTGATTTTATATTCTCAATTATAGCGGAAGAGTTAGGATTTATATTAACAACAATATTATTGACAATATACTTAGTGTTTATAACGATAGGCGGAGTTGCTATTTTTAGGGTGAAAAGTTATTATGGAAAATTTGTGATTTTAGGAATATTTTCAATGATTATTACGCAGGTTCTTTTAAATATATTTGTTGCATTAGGAATTATTCCAGCTACAGGAATTCCATTGCCATTTATAAGTGCAGGTGGAAGTTCAATAGTTGCTCTTTTAATAGGAATGGGAATAGTTTTTAATATTTTAAGTGAGGGAGAAAATTAATGAAAAAGGTTTTAATTGCAGCAGGTGGAACTGGCGGACATATATATCCAGCATTAGCAGTAGCAAATGAGCTAAGGAAAAAGGATATTGAAGTTATATTTGTAGGGACGAAGACTCGAATGGAAAAAGATATTATTCCAGCGAATAATTTTAAGTTTGTGGGATTGGATATAATACCATTTAGAAAATTAAAATCGTTATTTAAAGCGTTAAAAGCGACAATAAAAATAATGAAGATTATAAAAAAAGAAAAAATTGAAAATGTAATTGGATTTGGAAATTATATATCAGTTCCAGCGATACTTGCAGGATTAATATATAAAAAAAATATATATTTACATGAGCAAAATGTAAAGATGGGACAAGCTAATAGATGGTTTTATAGATTTTCTAAAAAAACATTTGTTAGTTTTGATGATACATTTGAAGAGATGCCTTTGAAATATCAAGATAAAGTTATAGTGACTGGAAATCCTTTGAGAGAAGAATTTTATAATGTGAATAGATTAGAGGAAAGAAAAAGATTAAAAATTAGTGAAAATGAAAAAGTTATATTAATTACAGGTGGAAGTTTAGGAGCAAAAAGTATAAATGAATTTGTTTTGAAAAATTGGGAAAGATTTTTTAAAGAAAAAGATTTTAGAGTATATTGGGCTACAGGGAAAATAAATTTTGATGAAATAAACAATAAAATTACTAAGTTAAAGAACAATGATGTCATTAAGCCATATTTTGAAAATATGCACTCTATTATGGAAGTAGCGGATATTGTGATTAGTAGAGCAGGAGCTAGTATAATTTCTGAATTAATAGAGCTTAGTAAGCCATCTATTTTAATACCATATAATTTTGTGGGGCAATATGAAAATGCTAAAATATTAGAAGATATAGGGGCAACCGTTCTTTTTAAAGATGAAGAGATAGATAGTGCAATGGATTATATATTTGAGCTCGGAAATGATAGAAAAAAATTATTGGAAATATCAAATAATATAAAAAAGTTAAAAAAGGGAAACAGTACAAGAAAAATCGTGGAAGAGTTAGATATATGGAGGAAAATTTAGATGAAAAAAGTTTTTTTTATAGGAATTAGTGGAATTGGAATGAGCGGATTAGCTAAAATAATGCTAAAAAAAGGGTATGAAGTATACGGCTCAGATATAAGCGAGAAGGATGTAACAAGTGAATTAGTGAAATTAGGAGCTGTAATATATAAAAAACATATAGACTTAAATGCTAAAAAAATGGATTTAGTTGTTTATTCAACTGCTATAAAAAAAAGTAATCCAGAATATATATTTGCAAAATTAAATGGAATAAAATTATTAAAAAGAGGAGAGCTTCTAGCTGAGCTATTTAATGAAAAAAAAGGAATTGCAGTAGCTGGAACTCATGGAAAAACAACTACTAGTTCTATGCTTGGAGTTTCACTATTTGATATTAATCCAACAATTATAGTTGGTGGGATAATACCAGAAATAGGAAGTAATTCTAAATTTGGGAAAAGTGAATATATGGTTGTAGAAGCAGATGAAAGCGACAATTCGTTTCTATATTTAAATCCAGAGTATTCGATAATAACAAATATAGAAGCAGACCATTTAGAGAAACATGGAACTTTTGAAAATATAAAAAAATCATTTTTAAAATTTATGGAGAAAACAAAAAAAGAAGTTATTGTTTGCAAGGATTGTGAAGTTTTAGATGAATTAGCAAAACAAATTTCAGAAAGAGATGAAGAAAAAAAAATAATAACATATAGTCTTAAAGATAAAACAGCAAATATATATTGCGAAAATATTTACATAAAAAATGGGATAACACATTATACAGTTATAGAAAATGGAGAAGAAATTGGAGAATTTGAATTAAAAATACCTGGAGAACATAATATTTTAAATAGTTTAGGAGTCATATATATAGCTAGGAAATTAAAAATAGAAAAAGAAAAATTAAAAAATAAATTAAAAAATTTTAAAGGAGCAAAAAGAAGGTTTGATATTTTATATGAAAATAGTGTTAGAATAATTGATGATTATGCACATCACCCAACAGAAATAAAAGCTACATTAACTGCAGCAAGAGAGATATATAAAGATAGAATAATAGCAATTTTTCAACCGCATAGATACAGTAGAACGAAATTTTTAATGGATTCTTTTGAAGGTGCATTTGGAAATGCAGATAAAGTTATTTTGCTTCCAATTTATAGTGCTGGAGAAAAAAATATATATGATATTAATGAAAATATTTTAGCGGATAAAATAAATAATAATGTAAAAATAATTAGAAATAGAGAAGAGATAACAAAAACAATTTTAGATGATAAAGTTAAAGGAGATACGTATATATTTATGGGTGCAGGAGATATATATAAGTTGGCTTATGAAATGAAAGAAATTTTGGAAAGATAAAAAAATAAAGAAATATTTTAGGAGATAAAATGCAGATAATAAAAAATGCAAATATAAAAAAATATTCTTATATAAAAATAGGTGGAGAATTAAGAGAGTTAATAATTATAGAAAAAAAAGATGAATTAAAAGAATTAGAAAATATTTTTACCGGAAATAATTTTATAATTATTGGAAAAGGTTCTAATATACTTTTTTCAGATGAAAAAATAGATAAAACGGCAATATATTTAAAAGGATTAAAAAAGATAAAAGAAGTTTTTACAAATATAATAAAGGTAGAAAGTGGAGTGTTAGCAAGTGAATTAATAGGTTATATGAGAGAACATAATTTTTCTGGAATAGAAGAATTAGCAGGAATACCTGGAACTATTGGTGGAATGTTAGTTATGAATGCAGGAGCTAATGGAAAAGAGATATTTGATGTGGTGAAAGAAGTAGAACTGTTTGACACTTTAAATATGAAATTTATAAATTTAAAAAAAGAAGATATAGATTTTGGATATAGATATACAAATTTATTAAATGACAAAATAATAACTTCTGTAAAAATAAAATTAGAAAAAGGATTTAAAAACAGTGTAGTAGAGAGTGTATTAAAAAAAAGAGCTGAAAAACAGCCATTGGAGTATCCAAATTTAGGCAGTGTATTTAAAAATCCAGATAAAGATTATGCAGGAAGATTAATAGAAGAAGTGGGATTAAAAGGATTTAGAATAGGAGATGTTCAAATTGCTAATAAACATGCCAATTTTATTGTTAATTTAGGAAATGGAAAATCTAAAGATATGATTTCACTAATAGATATAATAAAATCTAAAATAAAAGATAAATTTAATATAGAATTAAAGGAAGAGATAAAAAAAATAGATTAAAATTAAAGGAGAAAACAGGAATGAGAATAGCAGTTTTAATGGGAGGAATATCAGCAGAAAGAGAAATTTCATTAAAAACAGGAAGAGCTGTATTAAAAAAATTATTGGAATTAGGATATGATGCTTTTGAAGTTAATTTAACAAAAGAAAATATAGTTTCAGAATTAACAAGAGATGATTATGATATTGCGTTTATAGCGTTACATGGAGAGTTTGGAGAAGATGGAAGAGTTCAGGCATTTTTAGATATAGTAGGTAAAAAATATACTGGAAGTGGATTCATCGCAAGTGCAATTTCAATAGATAAAGAGATTACTAAAAAAATCATAAAAAACATAGGAATATGTATACCTAAAAGCTATATGAATATAGAAGAAGTTAAAAAATTTCCAGTAATTGTGAAGCCGGCATTTGAAGGTTCAAGTATAGGATTGCATATTTGTAAAAATAGAGATGAATTAGAGAAAGCTGTTAATAATTTGAAGTCAAAAAAAATATTAATAGAAGAATTTATAGAAGGAGAAGAACTTACTATTGGAGTGTTAAATAGAGAAGGGTTAGGAGTTGTAAAAATAAAACCTAAAAGTGGCGTATATGATTATAAATCTAAATATACTAAAGGCGAAACGGAATTTGAAGTTCCAGCAAAAATAAAAAAAGAAATTTATGATAAAGCAGTTTTATATTCAGAAATAATTTATAAAGAGTTGGAATTAAAAGGCGCAATAAGAGTAGATATGATTTTGTCAGAAGATAAACTTTATTTTTTAGAGGTAAATACTATACCAGGAATGACAGAAACAAGTCTTTTGCCAAAATTAGCTAATTTAAAAGGGTATTCATTTGGAGATTTATTAAAAAAAATTATAGAACCGATTGCAAAAAACTAAAAAAAATGTTATATTATTATGAATGATTGCGGGTGAGTGATATTGGATAAGAAAAAAAAAGCGAGAAAATTTTTTTCTATTTTTTTTCTAATTGTTTTAATAAGTCTATTTTTTATGGAAAAAAAAATATATGATTTTTTGGAAAAAAGTTATTTTACAGTTACTAATATAAATTTATCCGGAAATACTAATTTAACTGTAGACATTATAAAAAAATTAGAAAAGTTAAAAGGAAAAAATATATTCTATATAGATACTAAAAAATTAGAACTTTTTTTTAATAATGATATAAGAGTAGAAAAAATAAAAATAAAAAAAGAGATACCAGATACTATTGATATAGAAATTAAAGAAAGAACTCCATATATATATATTAATTATAATAAAAAAATATTGATAGCAGATAAAAATTGTAAGATTTATGCAAATTATAACGAATATCAAAATTTTGATTTTATAATTTTGACAATTTCTGATTTGAAATTATTAAGAAATGGTTATAACATATTAGAATTATTGCCTCAAAATTTAAAAAATATTGTATCAGAAATAATTATAAATGAAAAAGAACCAGAAATTATTTTAAAAGATGGAACGATTTTTAAGATAGATAAAGATGTAGATAGAGAAAAATATTTAATAGGATTAAAATTATATAAAAAATTAAAATTAGATGGAAAAAATATAAAATATATCGATTTGAGATTTTCTGATTATATTGTAATGTAGGAGGGGTGGAATATGAATAACCAAAATATAGTAGTGTCTATAGATGTGGGAACTACAAAAATATTTGTAATTGTATCAGAAATAGATAGAGAAACAGAAAAATTTAAAATTCTAGGATATGGTATGAGTGCTTCAAATGGGGGATTAAATAAAGGTAGAGTAGTAGATATAGATAGAGCTGCAAAAGATATAGAATCGGCAATTAAAGCAGCAGAAATAATGTCATCTGTTCCAATAACAAAAGCGTTTGTTGGAATAGCGGGAAGACATATTGAATCTCTCGAAAGTTCAGGTATAATAACTTTATCAGAAAATGAACCAAGAGAAATTACAAAAGCAGATAAAAGAAGATTGGAAGATATAGCTGAAAATAAGGTTGTCCCAGTGGAAAGGACTGTTATTCATAGAATTGGGTATAATTATAGAATAGATGATTCAGGTATTATAAAAAATCCTATTGGAATGAGAGGGTGTAAATTAGAAGGAACAGTTCATGTGGTTACAGGAATGATTAATACAATTGATGCATTAATAAAAAGTGTAAATAAATTATCAATTGAGGTAGAAGATGTGGTGTTAGAACCGTATGCTTCAGGAAAAGCAGTTCTTACTGATACAGAAAAAAGGACAGGAGTTATATTAGTAGATATTGGTGGGGGGACCACAGATATAGCGGTGTTTAAAAACGAAAAATTAATATATACTTCTGTTTTACCTTTAGGTGGAGAATATTTCACAAGTGATATAGCAACACTTTTAGGGATAGAAACTAGAGTAGCTGATAATTTAAAAAAAGATTTTAGTATAAATAATGAAGATTATAAAATGGATGAAGTAGTGGAAATACCTAATTATGATAGATATACTGAAAAAAAAGAAGTAGAAGTAAAACATTTAAAAGAGATAATAGATAGCAGAACAGAAGAAATTTTAGAAAATATAGAGAAAAAAATAGAGGCTTCAGGAGTAAAACATCAGGTTTATAATGGAATTGTATTTACTGGGGGTTCATCTAAAATAGCAGGATTAAAGGAACGAGCAGAAAAATATTTTGATATGCCAGTAAGATTTGCAGTTCCAATAAAAAAAGATGGGCTTTCAGATCAAATGTTAAAGCCTGAAGATGCAACAGGAGTTGGATTATTGTTATATGGTGTAGAAAAGTCATTAGAAGGAAAAGTAATATCTTTGAATGAAGAGGAGCAAGAAGGAAAAAAATCTATGTTTGATGTAATAATTGGAAAATTAAAAAAAGGATTTGATATATTTTTTAGTGATAGTGAATAAGCTTGGAGGAGGGGGAGCAATGACAGAAATTAATGTATATGAAAATGTTGCAAAGATTAAAGTAATTGGAATTGGTGGAGCAGGCGGAAATGCTATAAATAATATGATAGAAAGCGGAATAAATGGAGTAGAATTTATAGCGGCAAATACTGATTCTCAAGATTTGCTAAAATCAAAAGCAGAAGTAAAAATACAATTAGGAGAAAAACTTACAAAAGGTCTTGGAGCTGGAGCAAATCCAGAAGTAGGAAAACTTGCAGCAGAGGAAGATAAAGAAAAAATAAGAGAACATCTTGAGGGGACAGATTTACTTTTTATTACAGCAGGAATGGGTGGAGGTACAGGGACAGGAGCTGCACCGGTAATAGCTGAAATAGCAAAAGAATTAAATATATTAACAGTATCAATAGTAACTAAACCTTTTAGATTTGAAGGGTTAAAAAGAAAGAGAAATTCAGAATCTGGAATAATGGAATTAGAAAATAAAGTTGATACTTTAGTAGTTATTCCAAATGAGAAATTATTAGAAAATACTGATAGAAAAGTATCTATAAAAAATGCTTTTGAAGGAGCGGATGACGTATTAAAGATAGGAATTAAAGGTATTTCTGAGTTGATAACAACAGAAGGTTTCATAAACCTTGATTTTGCAGATGTGAGATCAACAATGAGTAATTCAGGAATAGCAATGCTTGGATTTGGATATGCTGAAGGGGAAGATAAAGCAAGAGTAGCTGCAGAAGCAGCGTTATCAAGCAATCTATTAGAAAGAGATATTCATGGTGCAAGTAAAATTTTATTGAATATAACTGGTGGAATGGATTTAACACTTAATGAAGCTAGTGAAATAGCACAAAGAGTAACAGAAGCAGCTGGGGAAAGAACGACTGATGTTATTTTTGGAACAGTAATAGATGAAAGTATGGAAGGAAGTATAAAAATAACAGTAATTGCAACATCATTTGAAGATAATAAAAAAGAATATATAGAAGAAATAGATGGAATAAATTCAGAAGAAAAAGAGCCAGAAGAAAGAGTAATAGAATCAAAAAAAATGTCTGTAAATGATGAATATAAAGATTTAGATATACCTGCATTTATTAGAAGGAAAAAAAATTAGTTGAAATAGATATAGAAGTATGATATACTTATAAAAGTCCCTGCTTTATAAAATTATAAGGCAGAATCCATAGGGAGGAGGTGTAGGAATGAAAAAAAATTACGAATTAATGTTCATCGTTGTTCCTGAAATAACAGAAGAAGAAAGAGATGCAGTAATTACTTCTGTAGAAGAGGTGTTAAAAAGAGCTGAAGCTCAAGATGTTATAACAGAAAAAATGGGTGAAAAAAAATTAGCGTATGCCATTGATAAAAAAACAACAGGTTTTTATGTATTAATTAAGTTTGCAGTAGAAGGAGTTAACTTAGTTGATGTTGAAAAAAGATTAAATATCAATGAAAAACTTATGAGATATATTCTTGTAAAACAAGGGTAGGTGAAGAGATGAATATTGCAATTTTAGTGGGAAGATTAACTAGTGATCCAGAATTAAAATATGGGCAAAGCGGAAAAGCTTTTGCAAAGTTTTCTTTGGCAGTTGCGAGAACATTTAATAGAAATGAAGTTGACTTTATAAATTGTGTTGCTTTTGGAAAAACTGCAGAACTAATAGCAGAATATTTGAGAAAAGGAAATAAAGCTGGAGTTCAAGGTGAAATCAGAGTAAGCAGTTATGAAAATAGTGAAGGTCAAAAAATAAGAAGAACAGAAATAATAGTAGGGAATATAGAGTTTTTAGAAAGCAAAGGGACTAAAGATAGATATAATGATAATCAACCATCAGGGGCAGAAGTTGAAAAAACTTCAAAACCTTCTGATGATGATGAATTTCCATTTTAAGGAAGGAGGGAATTATGAGAAGAGAAAATGATTCAAGAAAAAGAAAAAAGAAACAATGTGATTTTTGTAAAAATAAAAAAGCAAAAATAGATTATAAAAATGTAGATATGTTAAAAAGATATTTGTCAGATAAAGGTAAAATTTCACCAGCAAGAGTTACAGGTGCTTGTGCAAAACATCAAAGAGCATTAACTCAAGCTATAAAAAGAGCAAGAAATATTGCATTATTACCTTATACAGTTGAAAACTAAAAAATATTAAAATAAAGAAAATCGGCAATTTAATTTTGCCGGTTTTTTATTTTTCTTGGGATTGATATTTTGAAAAAACTACACTTTTTTATTTCAAACAATTATGGTATAATGGAGAGTAAATTATAGGAGGAAAATAATGTTTTTACCTACGACAAAAGCTGAAATGAAAAAATTAGGTTGGAATAAATTAGATGTAATTTTGGTTACAGGAGATACTTATATAGATAGTTCTTATATAGGGGCAGCTGTAATTGGAAAAACTTTATTTAATGCAGGCTATAAAGTTGGAATAATAGCACAACCCAATATAGATAATGCAGAGGATATTACAAGATTAGGAGAGCCAGAGCTGTTTTGGGGAGTTACAGCTGGATCAATAGATTCTATGGTGGCTAATTATACAGCATTAAAGAAGAAAAGAAGAAATGATGATTTTACTCCAGGTGGAGAAAATAATAGAAGACCTGATAGAGCTACAATTGTATATTCTAATTTAATAAAAAGGTATTTTAAAGGTGGAAAACCTATAGTACTTGGTGGCATAGAAGCTAGTTTAAGAAGAATAGCACATTATGATTATTGGAGCAAAAAAATAAGAAAGTCGATATTATTTGATGCAAAAGCAGATATATTATTATATGGTATGGGAGAAAAAACAGTATTAGAACTTACAAAAGCTATAAAAAACAGCGAAAGTATTAAAAATATAAAAGGAATTTGTTATATATCCAAAAATGGAGAAGATGAAATAGAGAAAACAGATAAATATATAATATTACCATCTTTTGAGAGTGTTAAACAAGATAAAATAGAATTTATAAAAATGTTTAATCTTTTTTATGTTAATCAAGATCCAAAAACTGCAAAAGGGTTAATTCAAAAACAAGATACAAGATATTTAATTCATAATCCACCACAAAATTATCTTACGCAAAGTGAATTAGATGAAATTTATAATATAGAGTATGAAAGAGATGTTCATCCATTTTATAAAAAAATGGGAAAAACAAAAGCTTTAGAAACAATTAAATTTTCTATTACAACTCATAGAGGGTGTTATGGAGAGTGTAATTTTTGTGCAATAGCAGTCCATCAAGGAAGAACTATTAGAAGTAGAAGTGAAGAATCAATACTAAAAGAAGCAAAAGAGATTGTAGGAAGAAAAGATTTTAAAGGGTATATAAATGATGTAGGAGGACCTACTGCAAATATGTATCAAATAGAATGTTTGAAAAAAGAAAATTATGGAAGCTGTGAAAATAAAAGGTGTTTGTATCCTAAAAAGTGTAAGACATTAACAGTGAGCCATAAAAAACAGATAGAGTTATTAAAAAAATTAAGAAGTTTAGAAAATATAAAAAAAGTTTTTGTGGCATCAGGAATAAGATATGATTTGATTTTAGAAGATAAAAAGTATGGAATGGAATATTTAAAAGAGATAGTAGAGCATCATGTGTCAGGACAAATGAAAATAGCTCCAGAACACATAGAAGACAATACGTTGGATAAAATGGGTAAACCTGGTAAAGAGTATTTAAAACAATTTAAGGATAAATTTTACGAATTAAATGAAAAAACAGGGAAAAAACAGTTTTTAACTTATTATTTTATAGCAGCACATCCAGGGACAACAGAAAAAGAGATGAAAAAATTAAAAACATTTGTAAGTAAAGAATTAAGAATGAATCCAGAGCAAGTTCAAATATTTACACCGACTCCAATGACATATTCGACGTTAATGTATTATACTGAAATGAATCCATTTACAGGAGAAAAATTGTTTGTGGAGAAAGATATGAATAAAAAAAGAAAACAAAAAGATATAGTAGTGCAAAAAGGAGGAAGAAGATGAAACCAGTAGTAGCAATAGTAGGGAGACCTAATGTAGGAAAATCAACACTTTTTAATAAATTAATAGGTGAAAGAGCGGCAATAGTAAAAGATGTACCAGGAGTAACAAGAGATAGATTATATAGAGATATAGAGTGGAGTGGGCATGAATTTTTACTTGTGGATACAGGAGGATTAGAGCCAAATACAAAAGATTATATTATGAGTAAAGTTAGATATCAAGCAGAAGTTGCAATTGAAGAAGCAGATGTGGTTGTATTTATAGTAGATGGACAAGCAGGAGTAACGGCATTAGATGAAGAAGTTGCATATGTATTAAGGAAAAAAAATAAACATGTAATTCTTGCAGTAAATAAAATAGATAATTTAGAGAAACATAGTGAATTAGTATATGAATTTTATGGATTGGGATTTGAAAATTTCATTGCTATATCTGGTGAACATAAACAGAATTTAGGGGATCTTTTGGATTTGGTAATTGAAAAATTTAAAGATATAGAATTAATAGAAGAGGAAGAAGGATTAAGAATTGCAGTAATAGGAAGACCAAATGTAGGAAAATCTTCATTAGTAAATAAGTTAATGGGAGAAGAAAGAACAATTGTAAGTAATATTGCTGGGACTACAAGAGATGCAATTGATACGAAATTTGAATATGATGGAAATAGTTATGTGTTAATTGACACAGCTGGAATAAGAAGAAAATCTAAAGTTGAGGAATCGCTTGAATATTATAGTGTGTTAAGAGCCATAAAATCAATAAAAAGAGCAAATATATGTTTTGTGTTAATAGATTCAAAAGAAGGGGTTACAGATCAAGATAAAAGAATTGCTGGACTTGCTTTTGAAGAAAAAAAGCCAATAATAATAGTTATAAATAAGTGGGATTTAGTAAAAAAAGATAATTATACAATGAAAGATTATGAAAAAGAAGTGAAAGATCAATTGCCATTCTTGAGTTATGCACCGGTAATATTTATATCTGCATTAACTGGTCAAAGAGTGTTAAAATTAATAGAAAAATCTGAACAGATATTTGCAGAATATACAAAGAAAATAACAACAGGTGTTTTAAATCAAGTATTAAAAGAAGCCATGATGTTAAATCCTGTACCAACAAGAAAAGGAAGAGTAGTTAAAATAAATTATGCAACTCAAATTAGAACAGCTCCACCGAAGTTTGTGTTATTTGCTAATAATCCTGATTTATTGCATTTTTCATATTTGAGATATTTGGAAAATAAAATTAGGGAAGCTTTTGGATTTGAAGGAAGTCCAATTGAATTTACAGTAAGAAGAAAAGGAAAAGATGATTAGGAATGGCTTAAAAATAACATTCCCATTTTGTTATAAAATACGCAATGATTCAAGCGTTTTTATAACAAAATATAAAAAAATATTTTTTAAATGTTCTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCCTTAAAGAATTAATTATTGTATAAAAATAGATTTTAGAAATCATCTTTTAGAAATATAATAACTAATAGATATATTAAAGGTTATAAAAAAATTGTTATTAGAAATTATAAAAGAAAGGGGCTTTTAAAATGAAAGAAGAAAGTAATTTCAAAGGGATAGAAGATGATCTATTACAAGAATTAGAGGATTTCAAAAGAGATAAAGAAAGAATTAGAAAAATAATAGGGAATATTGGTGGAAAAGCATACTCTAAATTAGATATGACAATAAATATAGTTTTTCTGGGGATAATATTGGTTATATTTTTATTAGAGATGACAATACATTTATTACCAGCATTTACATCATTAGAAATAGGTGTACTTTTGGTCTCTATTAAAATTGCTTTTATGATACATTCACAACAACGTTTTAACCATTTTCAATTTTGGATTTTGAGTTCTATGGAATTTAAAATAAATGAAATAGATAAAAAAGTAAAACAGATAGAAAAGAGAACGAGAGAGGAAAAGATAATTAATAAGTAAAAGATAAATAAAATTAATTTTTGATTGGAAATGAGGTGAATATATCTTATGGAGAAAAATAAAAAAAAGAGATTACCAATAGGGATAAGTGATTTTAAAACAGTAATAGAAAAAGATATGTATTACGTGGATAAAAGTATGTTTATAAAAGATGTAATAGACAGTGGACAAGTAATATTAATAACAAGACCTAGAAGATTTGGGAAAACTTTAAATCAATCAATGATGAAATATTTTTTTAATATACAAGAAGAGAATAGTGAACTATTCAAGAATTTAAAAATATATAAAGATAAAGAGATAATAGAAGAATATATGAATAAGTATCCAGTGATATATTTAACATTTAAAGATATGAAAGCTTTAGATATACAAGCTATGATGAATAAAATGAAAATGGAGTTATCCAGCCTGTATATAGAGCATGATTATTTATTAAATGATAAAATATTGAAAGATGTAGAAAAAAATGTTTATAATAAGATAATGAATTTGGATGAAAATAATCAATTATATGAAAGTAGTATAAAAAAATTATCAGAATATATGTATAGATATTATAGAAAAAAAGTAATATTAATAATAGATGAATACGATACAGCAATTCAACAAAGTTATTTGAATGGATATTACAAAGAGTTCATAATGTTTATGAGTAATTTGTTAGGAAGCGGATTAAAAGATAATAAGTATTTGGAAAAAGGTGTTCTTACAGGAATAACAAGGGTATCAAAAGAGAGTATATTTACAGGAGTAAATAATTTAAAGGTATCAACAATATTAGATGAGTTGTTTAATGATAAATTTGGAATGTTAAAAGAGGAAATGGAAGATATATTAAAATATTATAATTTAGAATATGAAGAAAAAGATGTGATGACTTGGTATGATGGTTATAATTTTGGAAGAGTGGGGATATATAATCCTTTTTCAATAATAAATTTAGTAGATAATAAAGGGAAGATAAAGCCATATTGGGTGAATACAAGTGGAAATAAATTAATAAAAGATTTAATAAGAAAAGGGAATGTGAGTATAAAAAAGAAAATAGAATTGTTATTATCAGGCGAAACTATAGAGAGTTCAATAGAAGAAGCTATGATATATAATGATTTATCAACAGAAAATGAAAGTTATGTCTGGACACTATTTTTATTTAGTGGATATTTGAAATGGGTAGAAAAAGTAGAAGAGAGTATATATAAATTAAAAATACCAAATAAAGAAACAGAAGGATTCTATAGAAAAATTTTAAGGAACATATTAGACGATAAAAATATAGATATAGAAAATATATTAGAAAAGCTAATATTAGGGAAAATAAAAGGATTTAAAAAAGATTTTAAGAAGTTAGTGATGGGAACATTAAGCTATTTTGACGTAAAAGGAGATGAACCAGAAAGATTTTATCATGGATTAATATTGGGAATGATAGTAAGCTTAAATAAAAAATATGTAGTAAAAAGTAATAGAGAAAGTGGATTAGGAAGAGCGGATTTATTGTTAATACCACGAGATAAAAAAGACAAGGGAATAGTAATAGAATTTAAGAAATATGATGAAGATGTAGATAAAGATTTAGTAGATAGTGCCAAAAGAGGGATAAAACAGATAGAATTTAAGAAATACGAAGAAGAGATAAAAAGCTATGGAGTAGAAGAGGTAATAAAAGTTGGTATTGCATTTGAAGGAAAAGAACTTGAAATTGTGAGTAACTTAGAAAATATAATAGATAATTAAAAGATAAAAGATAAAAAATAAAAGATAAAATTAAAATAATATGGTAATTTATTATTTGGAGGAAAAAGAGTGAAAGATATATCTGAAAAAATATTAAGCGAGATAAAGGAATTAAGAGAATTAATAGATAAGTATAATTATTTTTATTATGCAAAAGATGAGTCTATAATATCAGATTATGAATATGATATGTTGACAAAAAAATTAGAAAAATATGAAAAAGAATATCCAGAATTAATAAATGAATTTTCTCCAACTCAATTAGTGGGAAAATTGGATAAAAATAGTAAATTTAAAAAGGTAGAGCATAAAGTTCCAATGTTAAGTTTAGCTAATACATATGGAATAAATGATATAAAAAATTTTAATGATAGAGTATTAAAAATAATAGAACGAGATAACATAGAATATGTTTTGGAACTGAAATTAGATGGCTTATCAATTAGTTTGAATTATGAAAATGGAAAGCTTAAAAGGGGTGTAACTCGTGGAGATGGGAAAATAGGCGAGGATGTTACAGAAAATATATTACAAATAAATTCGATACCAAAATATTTAAAAGAAAATATAAATATAGAAGTAAGAGGAGAAGTAATATTACCTTTGGATAAATTTAAAAAAATAAATAAAGAAAGAATTGAAAAAGGACAAGAAGTTTTTGCAAATCCAAGAAATGCAGCAGCAGGTACATTAAGACAATTAGATAGTAAAATTGTAAAAGAGAGAGAATTAGATTGTTATGTATATTATTTAGTGAATTCTGAAAATTATAATTTGGAAAAACATTCACAAAGTTTGGAATATATGAAAAAGTTAGGATTTAAAGTTAATGATAATTATAAAATAGTAAATAATATATTTGAAATAACAGATTTTATAAAAGAATGGGAAGAAAAAAGAAAAGAATTGAATTATGAAACAGATGGCTTAGTTATAAAAGTTAATGAATATATGTTCTATGAGGAATTAGGATATACAACTAAAAGTCCTAGATGGGCAATAGCTTATAAATTTCCAACAACACAAGTTACTACGAAATTAATAAGCATTACGTATCAAATAGGAAGAACAGGAGTAATAACACCAGTTGCTAATTTAGAACCTGTAAGAATATCAGGGTCAATGGTTAGGCGGGCAACGTTGCATAATTTTGAAGAGATAGCGAGAAAAGATATAAGAATAGGTGATATAGTTTTTGTAGAAAAAGCAGCTGAAATAATACCACAAGTAGTAAAACCAGTAATAGAACTTCGTACAGGAGAAGAAAAAGAAGTAGAGATGCCAACTATATGTCCTTCTTGTAGAGAAAAATTATATAAAGATGAAAATGAAGTTGCCCTAAAATGTGTGAATAATAGCTGTCCTGAAAAATTAAAAAGAAAAATAGAATATTTTGTATCAAGAGATGCTATGAATATAGAGGGGTTAGGGCCTAAATTAATAGAAAGATTTATAAATGAAGGGTATATAAAAAATATTTGTGATATATATAAATTAGAAGATAAATTTAACGAAATTTCTGAAATGGAAAATTTTGGAATAAAAAGTATAGAGAATTTGTTAGAAAGTATAAACAAAAGTAAAACTAGAGAGTACAATAAAGTTTTATATAGTTTAGGAATTCCTTATGTTGGTAAATTTTTAGCAGATACTTTGTCAAATTATAGTAAAAATATAGTTTTTTTAATGCAGATGAGCAAAGAAGAGCTTTTGGAAATTGATGGTGTTGGAGAAAAGGTAGCTTCATCAGTTATTAAATTTTTTCAAGATGAAAACAACAGAGAAATAATAGAAAAATTAAAACAGATTGGACTTAATTTTGAATTTTTAGAAAAAGATAATCAAGATGAAGATTTAAAAAAATTAATTGGGAAAACATTTTTAGTTACAGGAACTTTAAAAAATTATAAGAGAAGTGAATTAAAAGATATAATAGAAAAAAATGGTGGAAAAAATGTTTCGAGTGTAAGTAAAAAATTAAATTATTTAATTGTAGGAGAAAATCCAGGAAGTAAATTTAAAAAAGCAGAGGTATTAGGTATTCCAATTATTAATGAAGATGAATTTTTTAAAATGATATAAATATGAATGATAACATCTGTAGGGACTAACCTATGTGTTGCCCAAATTTTAAAATAATTAAATTAAATTATAATTTTTGGAGGATAAAATGATTACAGTTAATGATATTTTGTCAAAAAAGGGAAAAGAAAAAATAACTATGATAACAGCATATGACTACCAAACTTCAAAATTGGCAGATGAAGCTGAAATAGATATGATATTAGTAGGAGATTCATTAGGAATGGTAGTTCTGGGATATGAATCTACTCTTCCTGTAACTATGGATGAAATGATACATCATGCAAAAGCTGTTAATAGAGGTAGGAAAAACAGTTTTTTAGTTGTGGATATGCCATATTTATCGTATAATGTAGATATGAAAGATTCATTATATAATGCAGGTAGAATAATAAAAGAGACTGGAGCAAATGCAGTAAAATTAGAAGGTGGAAAAAGAACAATTGAAACAATAAAAAGGATAATTGATTTAGAAATTCCTGTAGTTGGACATTTAGGATTAACTCCTCAATCTGTAAATAAAATGGGCGGATATAAAATACAAGGAAAAGAAAAAACAGCTGCAGAAGAGATGATAGAAGATGCAAAAGAATTAGAAAAAGCAGGAGTATTAGCAATAGTTTTAGAAGGAGTTCCTGAAAATTTAGCTAAATTAATAACAAAAGAAGTAAATATACCGACAATAGGTATTGGCGCTGGAATATACACAGATGGACAAGTACTTGTAATTTATGATATGTTAGGATATAATGAATTAGTGCCTAAATTTGTGAAAAAATATGCCACTCTAAAAGAAAATTCAATAGCTGCAATAAAAAAATATATAGAAGATGTTAAAAATGGGGATTTTCCATCAAAAGAGTATATTTATAAAGCACAATCTAAAATAGAAAAAATATATTAATATGATTACAAAAAGTTTTTAGGAAACTAGTTTTTTGTGTGCAACTTATTAATAAAATTATTTGTTATTTTAAAATAAGCTTAAGGGGGAGAATAGATGTATAAAGAGATGTTTCATACAGAAGATTTAGAAAATGTAATTGAAGAATTGGTTTTTAAAGAGTTACATAAGATTATTTCAGAAAAGTCTGTTGAATTTTGTACTTGTAAAATATGTTTACAGGACATAGCAGCAATTGTTCTAAATAGAATACCTCCAAGATATAAAAATAGTATTATAGATAAAATGTATCCTAATAAAAGAGAAGAGGAAAAATTAGAAAAATTGGAAAATTTAATAGATGAGCAGTTATTAGTGGCAATAGAAAAAATAAAAGAAAATCCACATCATTAAAGAATAAAAATTATAAAGGTAAAAAAGGGAGAAATCATTATGACATTGGGTGATAGAATAAAAAAAATAAGGAATGAAAAAGGATATTCTTTAAGAGAATTAGCAGAAAAAGTAGAAGTTTCGGCAAGTTTTTTATCCCAAATAGAACAAGGAAAAGCATCTCCTTCAATAGAAAATTTAAAAAAAATAGCAAACGAATTAGAAGTAAGAGTGAGTTATTTAATAGAGGATGAAGATGTTAAAAAAGATGCTGTTTTTACAAAAAAAGAAGATAGATATATAGTGGAAAGTTTGAATTCGAAAACAACAATATCTCTTCTTACAACTCCAGATATAGATAAAAATATGGAGCCTATATTTTATGAGATAGAACCTGGTGGAGAAAGTGGGAAAGGATATTATTATCATCCAGGAGAAGAGTTTGTATTTGTGATAGCAGGAGAATTAGATGTTTATATAAATGAAAAAAAATATATTTTAAAAAAAGGCGATAGTTTGTATTTTAAATCTACTCAAAAACATAAATTTAAAAATAGTTCAAAATTAAAAGCAAAAGTTTTATGGGTTGTAACTCCGCCAACATTTTAAAAAATTAGGAGAGTATAAAGATGACAGAAAATATAAAATTAATAGTTTTAGATGTAGATGGGACATTAACAAACGGCACCATATATATTGGAAATTCAGGAGAAGAATTAAAAGGATTTAATGTGAAAGATGGATTTGCAATAGTAAAAGCACAAAAAGTAGGATATAAGTTTGCTATAATTACAGGGAGAAAATCTGTTATTGTAGAGAAAAGGGCAAAAGAATTGAGTATTAATGAAATTCATCAAGGAATAGAGAATAAAAGAGATAAGCTAAAAGAAGTACTAGATAAATACAATATGAATATGAAAAATGTAGCATATATAGGAGATGATATAAACGATTTACCTGCAATGAAAGATGTAGGATTAGTAGGAGTTCCATATGATGGGGCACAGGAAGTAAAAAAAATATCAGATTTTATTAGTAGCAAAAAAGGCGGGCAAGGAGCTGTTCGAGAATTTATAGAGTATATTTTAAGGAATAATGGAGATTGGGAAAAAATTTTAAGAGATTATAAATGAAAAATTATTTTGTAATATTTAAAAAACAAATTTTTTATGTTTTGTCATAAAAACAATTAAAATATTACATATGTTGTGTTAGATTATTTTTATTAGGAGGAAATTTTGGGAATTAAATATATAAATGCAATAAGATTAAAAAAAATGTTAATAGCTGGAAGTAGATGGTTGGTAAAGCATCAAGATATATTAAACGAATTAAACATTTATCCAGTTCCAGATGGAGATACTGGTACAAATATGTCTATGACAGTAAAATCAATAGAAGAAGAATTAAATAAATTTAATGAAAAACAAGATATGGATTCATTAATAAATGTAGTATCAGAAACAGTTTTATTAGGGGCAAGAGGAAATTCAGGAACAATATTATCTCAAATAATACATGGATTTTTAAAACCATTAGAAGGAAAAGAGAAAATTTATGCAAAAGATATAGCTGTATCTTTGGATTCTGCACAAAAGACAGCATATGAAGCTGTACAAGAGCCAGTAGAGGGAACAATTTTAACAGTAGTGAGAATAGTTTCTGAAAAAGCTAATGAATTTGTAAAAACGAACAATGATTTAATAGAATTGTTGGAATATATAAAAAGAATAGCTGAAAAAGAGGTAGAAAATACAAAAAATTTATTGCCTAAATTAAAAGAAGCAGATGTAGTTGATGCAGGAGCAAAAGGATTTTTCTATATTTTAGAAGGATTTGAAAAATTAATAAAAGATGGAATTATAATTGAGGAAATAGAAGAAAATATAACTACAAAAGAGTTATCTGGAATTTTTAATTTGTCTAATAGTGAAGAGGAGTTAAAATATAAATATTGTACTGAGTTTATAATTAATGGTTCAGATTTTGATTTTGAGGAGTTTAAAGATAAGTTATCAGAATTAGGGGACTCAATGGTAGCGGTGCAAGTTGCAAATAAAACTAAAGCACACATACATACAAATAATCCAGGACTTGCAATAGAATTTGCGTTAAAGCATGGCGAATTAATTATGATAAAGATAGATAATATGGGAGTACAGCATAAAAGTGTAGTAATAAAAGATAAAGTTGAAAAAATAATGATTAATAAAATTCAAAATAAAGAAGATGGATATATCGCTGTTGCAGATACTATTGAAATAGCAAATTTGTTTTTAAAATTAGGGGCTAATGCAGTAATTGTAGGAGGACAATCAAATAATCCAAGTGTAGCAGATATTTCAGAAGCAATATCTAAAATAGATGCTAAAAGAATTGTGTTACTTCCAAATAATAAAAATATAATATCTACAGCTAATTTAGCAAGTCAAAGAGCAGGTAAAAATAGTTTAGTAATGGACACTAAAAGTATTGTAGAGGGCTATTTTATATTAAGAAATAAAATTGAAAATATAGAAGATTTATTAAATGCGTTAAAAAGAAATTATTCAATAGAAGTGACTCAAGCTGTAAAAGATACAAAAATTAATGATTTAGCAATAAAAAAAGGAGATTATATAGCGCTAGTTAATAATAAAATAGAAATAGCAGAGAAAAAGCTTGAAGATATTATAGAAAAAATATCTGAGAAATATATTGATAATAAAACTATTCAGGTTTCTATTTTTAAAGGGGAAAACGTAACCCAAAAAAGCGAAACAAAAATAAAAGATAAATTTAAAAATATAAAAACAGAATGTTTTACAGGAAATCAAAAAAATTATTTTTATTATATGTATATAGAAAATAGAGATGAAGAATTACCAGAAATAGCAATAGTTACAGATTCCACATCGGATTTGGAACAAGAGATGATTAATGGATTGCCTGTTTATATTGTGCCTTTAAAAGTTAATTTAGATGGAGAATATAAAAAAGAAAAAGAGGAGATTACTAAAGGACAATTTTGGAAAAGTTTGTTAGAGATGGATGGATTACCCAAAACATCACAACCTTCTCCAGCAGAATTTAAAAATTTATATAAAAAATTATTAGAAAAAGGATATAAAAAAATAATTTCTATACATATATCTGGGAAATTAAGTGGAACTCATCAAGCAGCGAGAGTGGCTAGAAATATGATTGGAAAAAATGAAAATGATATAAAAATAATTGATAGTAAAACAGTTATGAGTAGTCTTGGACATTTAGTAATTGAGGCAGGGAAAAAAGCAGTAGAAAAAGAAAATTTTGAACAAATTATAGAGTGGGTAGAAAAAACAAAAGATAAAGGTTTACTTATAGGCTCAGTATCTAGCTTAAAATATTTAGAAAAAGGCGGAAGAATAGGAAAAGCGGCTTCTTTAATTGGCGGGATATTAAAAATGCATCCAATTGTAAAAATAGAAGATGGAGAAGTTTATAGTGCTAAAAAAGTAATAGGAGATTTAGGAGTATATAATTATTTTGAGAAAATTTTAAAAGAGGAGATGAAAAAAGGTCCAATTATAGTGTATAATTTATGGGGAGGAACAGCAACAGAATTAGCAAATGCTAAAAAATTATTTAAATTAGAAGAAAAATATGATAAGATAACTGTAAGAGGAGTAGTTGAGACTGGCTCTGTGGTAGGAAGTCATGTGGGACCAATTTATGGATTGGTAATTTATCCAAAGTTAAATTAATGGCTTAAAAATAGATATGATAATATTATTTTTTAAGCGTTCCTAAGGAGGAATAATGAAAATAAAATTGATATTATTAATAATGACTATAGCAATAATAACTGGGTGTTCTGCTGATGTAACAGTAAATACTCTTGATGCAAGAGGAGGTATTGTTTCAAGTGCATTAGTAAATATTTATGATAAAAAAAATAATTTAATTGCATCCAATGGAAGTGGCCCAGATGGAGTTTTAAAAGTTAATTTAGATTATAATGAGTATATAATTAAAGTTACAAGAGATGGATATAATTCAGCTCAAGGAAATGTGCAGGTTAATTTAATAGGAGCGTTAAGTGGGATTTCACTTGACATCCCATTAGTTAGAGCAAAATAAAAATATAAAAAGTGCCTATTTTTAAAGGCACTTTTTTGTTTACTAATAAAATATAAATTTATTCAGAAAAGAAGCTACGCTATTTTTTTGAAATATGCGATTTTTCAAAGCGAAATTTTTCAGAAGCCAAAAATTTAGAAAAACATTTATACTTTATGGGATGAAGCGTAGCTTATTTTTTGTTTAATTATTAATCTAAAATTTTTCTTAATCATAAGTAATTAAGAAAATGGTTAAATTTTACTCTTGAAAATTAAATTTTTGAGGAGTATAATAAAATTAAAAGAGACAATAAATGATTATGTCACATAAAATTAAATACTTTTTTGTGCCTAATCAATCAATTGTCTTTAAACTTTGGGAGGGTGAAAATATGAGACTGTCAAGTTTTTTAGATTCTGAATTAATATTTGTGAATCTAAATGAAAAAGGGAAAGATCAAATAATAGAAACTATGGTGGAAAAAGCTGCATTAGTTGATGAGAAGTTAAAAAAGAGAAAAAGAGAAATTGAAGATGCAGTATTAAAAAGAGAACATGAAATATCAACTGCTATGGGAAATCATATAGCAATACCTCATGCTAGAATTGAAGGTTATGATGACGTAATGGTGATAGTTGGGATTTTAAGTAATGATCTGGAATGTGAAACAGCAATTCATACGAAAGATAGCATTAAAATGATATTTATGATTATTGCAGGACAAACTAAAAATAAACTTGTCTTACAATTAATGAAAGGGATAATGAAGCTTTCAACAAAACAAGATGTATTAAAAAAAATAAGTAATTTAAAAGATGCAGAAAAGATAATATCAATTATAAAAGATGAAGAGATTGAAGTAAGTGAAAGAATAACAGCAGAGGATGTAATGAGCACAGATGTAGAACCTGCAAAATTAACAGATACTTTGGAAGAAATTGCTAAAAGATTTGTGGTAGAAGAGCTAAGAGGAGTACCTGTTACAGATAATAAAGGAAAATTTATAGGAGAAATAACACAAAGAGAATTAATACAATATGGAATGCCTAAATATACATCTTTAATGGGAGATTTAGGGTTTATGACAGTTGGAGAACCATTTGAAGAATATTTTAAAAATGAAAAAAAAGTTACAGTAAAAGAGTTATATAGAAAAAATCCAATAACTGTAGATAAAAAAGCATCAATTATGGAAGTTAGTTTTTTAATGGTTACAAAAGGAAATACCAGAATTTATGTGGTGGAAAATGGGAAATATTATGGAATGATATTAAGATCAGATATTATAAAGAAAATTTTACATGTATAGGAGGAATTAGATGAATACTTTAGTAATAGCATTAATAATATTTTTAGTTACATATTTATTTATTATTACAGAATGGATACCAGCTTCTACCGCAGCATTTTTAGGTGGAATTGCAATGGTGGGGACAAGAGTTTTAACTCAAGAAGAGGCATTTCATTCAATTGATTTAGGTGTAATATTTTTATTAACAGGAATGATGATGATTGTATTTGTTATGTCAGAAACAGGAGTCTTTCAATGGGTAGCCATAAAAATAGCACAGTTAGTAAAAGGAGAACCATTTGCATTAATGGCTGTTTTATCAATTGTTACAGCGGTATTTTCTGCATTTTTAGATAATGTAACAACAGTTCTATTAATAGCTCCAGTTTCAATTTTACTTGCAGAGCAGTTAGAGCTTGATGCAGTACCATTTCTTATTACAGAAGCAATAGCATCAAATATTGGTGGAACAGCTACATTAATAGGTGACCCTCCAAATATTTTGATAGGAACTGCGGCACATATATCATTTAATGACTTTTTAATACAATTAGGACCAGTAATATTATTAAATTTGGTATTTTTAGTTATAACTTTATGGTTTTTATTTGGAAAAAATATGCATGTATCGAGAGATTTAAAAGCAAAAATTATGGAATTAGATTCAAGCAGAGCAATTAAAGATAAAAAAATGTTAAAATTTAGTTTAGTTGTAATGGGATTAGTTATATTAGGATTTTTGACTCATCCATTTACAGGATTAGAACCAGCAGTAATAGCAATGACAGGTGGAATTATATTAATAGTTTTATCAGGAAAACATCCAGAAGAGATATATAAAGAAGCTGAATGGGATACACTGTTTTTCTTTATGGGATTATTTATGTTAGTAGACGGAGTAGTGAAAGTAGGATTATTAAAAATAATGGCAGATAGAGCGTTAGCATTGACAGGAGGAGATTTAGGTGTAACATCTATGTTGATTTTATGGCTTTCAGGAATAGCTTCAGCAGTTGTAAATAATATACCTTATACAGCTACAATGATTCCTATGATAAAAGAGATAATACCTCAAATTGCAGCACATAGCACTGTTCCGCTAAAAGATATAGGATACGCTTTATGGTGGGCATTGGCATTGGGAGCATGTCTTGGAGGAAATGGAACATTGGTAGGAGCATCAGCAAATGTAGTAGCAGCAGGAATAGCAACAAAAAGTGGAAAGCCAATATCATTTATGAGATTTACAAAATATGGAGCTATAATAACATTAGAATCTTTAGTGGTAAGTAGTGTTTATATATTAATAAGATATATTAAATAATTTAGATTTAAAAAGAGTAGTTTAATAATTATAATAAGCCCTATATAATCAACAGATAAAAAGTTGAATTATATAGGGTGTTTGTTTTTATAGTTATTTAAATTTATGATAAAAGTAATTATAGTGACATTTTTATAAAAATATAGTAAAATATATATAATAAAAAATACAGACAAATAGGAGGGTTTTATGGTTTATTTATTAATAACTTTATTAATGCTTACATTAATAGCATTTGTTCATGAATTAGGTCATTTTACTATGGCAAAATTTTTTAAAGTTCCTGTTTCAGAATTTTCATTGGGGATGGGGCCAAAACTGTTTAGCAAAAAAAAGAATGAAACAGTTTATAGCCTTAGAGCGTTACCAATAGGTGGTTTTGTAAATATTGATGGAATGGAACCAGATAATGAGATGGAAAATGGATTTAACACAAAAAAGCCATATCAAAAATTTATAATATTAGTAGCAGGTGTATTTATGAATTTTGTGTTAGCGTATATTATATTGTTTTTTATGGCAATATTTATTGGAGAATTAAAGCCTAATAATAATCCAATAGTGGGGAATGTATCAAAAGATTCTTCTGTGTATTCGACATTAAAAAAAGGCGATAGAATTATATCTATTGATAATGAAAAAGTTGAAACTTGGGATGATATAATAAAAAAATTATCTATAAAAAAAAGTGATGTTAATTTAATAATAAGTAGAAATAATAAAATTATAAAAATAAAAGGCAAAATGAAATATAATGAAAATGCAAAACGATATTTATTAGGTATATCTGGAGATGTTATTAATGTTAAATATGGAATTGGACAAAGTTTTATAAAGGCAGGAGATAATTTTATAAAAGTTTTTGATTTGACTTTTAAAGGATTAAAAATGTTAGTAGCAGGAAAAGTAAAATCTAATGAAATCGCAGGACCAGTAGGAGTTGTGAAAGTTGTAAAAACTTTTTCAGCTTGGGGAGTATCTTCATTAATATTTTTAATAGCACTTTTATCGGTGAATATAGGAATAGTCAATCTTTTTCCTTTGCCGGCTTTAGATGGTGGAAGAATAATCTTTGTAATTTTAGAAGGATTAGGAATGAAAGTAAATAGAACTGTTGAAGAAAATATTCATAAAGTAGGATTTATATTACTATTAAGTTTGATAGTGTTATTAACTTTTAATGATATAAAAAATATTTTTATAAAATAAGTAGAAATTATGGAACTGAAAAATTTAGAAAAAATATTTAAAACTTTTTCTGATAAAACAAGAATAAGAATATTAAATATATTTTTTAAAGGTGGAAAATTTAGATAAATAGGGGCAATTCATGAATTGCCATTACGGTTGTCGGAATGTGTCTGTATCTACCCGAAAAAAACAAAATAAATACAAACAAAATGAAAAAAGGAGAAAAAGATGAAAAAAATAATATTAGCAGTTTATATGATGGTAGGAATTGTTGCTTTTGGAGAAATTGTATGGGTGAAGACAGATAAAATAACAGAGGATAGTGCTAAAATAATATTCGAAACAGATAAAAATGAAATTGGATATATAAATGGGTTAAAAATAGATGAAGTTCCAAAAAAATCTCACTATTTTTATTTGGATAATCTAGTACCTAATTCTTTAAATAAAGTTTTAATAAAAGCAGATGAAGATATAAAAACAATAGAAATAAAAACAACAATAAAAAATATAGATTATTCAAAAACACCAGATTTTTTGAATAATGCGATATTTTATGAAATTTTTGTAAGGGCATTTGCAGATTCAAATAATGATGGAATTGGAGATTTAAATGGAATAACAGAAAATTTAGATTATATAAAATCTTTGGGAGTTAATGGAATTTGGCTTATGCCAATAAATTCTAGTCCAAGTTATCACGGATATGATGTGACAGATTATTATTCTATTAATAAAGAATATGGAGATTTAGATGATTTTAAAAATTTAATAAAAGAAGCGCATAAAAAAGGGATAAAAATTTTAATGGATTTAGTATTAAATCACACATCTTCAAAACATCCATATTTTAAATTGGCAAGAAAATCTAAAAAGGCACCATATAGAGATTGGTACGTGTGGAATGACAAACCCAAAAGTAGTGAATGGTATAAAAATAATGATGGAGAATTTTACTATTCTGCATTTTGGAGTGAAATGCCTGATTTGAATTATCATAATCCATTAGTGGTATCAGAAGCTAAAAATATATCTGATTATTGGCTAAATATGGGGGTAGATGGATTCAGATTAGATGCAGCAAAACATATAGACGATACAGATAGTAAATTTACTCATGAGTTTTGGTACAGCTGGAGAAAAAGTATAAAAAATACAAATAAAAATGCAATAATAGTAGCTGAAAATTGGACTAACTCTAACGAAATAGCTCCATATTATAAAGAATTTGATATGAATTTTAATTTTGATTTAAGCAAAATGATGATAGATACAATTTCTAGAAAAAAAGATATGGGATTAGTAGATTTTATTAATGGAATATATAAAGAGTATAAAATGCAAAATCCAAATTTTGTAGATGCTCCATTTTTGACAAATCATGATATGAAAAGAATTATGAACCATTTTATAATAAAAAAATATAGAGACTTACAAATGAAACAAATTTCAACTATGTTATTTACTATGGGTGGAGTTCCTTTTATATATTATGGTGAAGAGATAGGTCAAAGAGGAAATAAACCAGATGAGCATATTAGAGAGCCTTTTGACTGGTATAAAAATATGACAGGGCAATATATGGCAAAATGGATAACTCCAAAAGATATTAAAGCAGATGATGGGGTATCTGTAGAAGAAGAAAAAGATATAAAATCTTCTTTGTTAAACCATTATAAAAAAATGATAAAATTAAGAAATAAATATAAAGTGTTAAGGAATTACAATATATCTTCGATAAACTTAAAGGAGAGAAAAATATATGGATATATTAAAAGTGATAATAAAGAAAAAATAATAATTTTATTTAATTTTGGGAGAAAAAATGCCGAAATTAAATTAGAAGATCTATTTAAGGAAAACGAATGTTATGATCTGTACAACAATAAAAAATTAATTAAAAAGGTAGAAATTCCAAAATATGGGTTTGCTATTTTAAAAAAGGAGTGACGATGTTGAAAAAATTAGTAAATGAGAATATAAAAAATTTAGAACCATATAAAGTTCCAGATTTAGATTATAATATAAAATTAGATGCAAATGAAAATCCTTATCCAATGCCTGAATTTTTAGGTGAAAACATAAAAATAGATATGGAAAAAGAGATTTTTAATGCTTTGTGGAATTATTATCCTGATGCACAATCTAAGGATTTAAGAGAAGAGCTAGCAAAAAAATTAAAATTAAAAAAAGAAAATATTATATTAGGTAATGGCTCTGATGAATTGATTTTAAATTTAATGTTGACTTATGTTTCAAAAGGTAAAAAGGTTTTAATTCATACTCCTACATTTGCTATGTATAAAATAACTACGCAAATAGTAAATGGTGAAGTAATAGAAGTGCCGTTAAATAGTGAAGATTTCTCTATAAATAAAGATGAAATGATAAAAAATGTTATAAAAGATGATGTAGCTATGACATTTATAACTTATCCAAATAATCCAACTGGAAATTTATTTGAAGAAAAATCTATAATTGAGATAATAGAAAAAGCAAAAGGATTAGTAGTTATTGATGAAGCTTATAGTGAATTTGCAGGTAAAAGTTTTGTAGATAAAGTATCAAAATATGAGAATATAGCTATACTTAGGACATTTTCAAAAGCATATGGTATAGCAGGTCTAAGAATAGGATATATGGTAGCAAGTGAAGAGGTAATAAATGAAGTGAATAAAGTGAGGTTGCCATATAATATAAATAAAATAACCCAAATAATTGCATTAAAAGTTTTGAAAAATAGTGAGAATATGAAAAAAATAGTAAAAGATATTTTAGAAGAAAGAGAAAGAATGGAAAAAGAATTATCTGAAATAACAGAAATAAAATTATATAAATCTGATTCAAATGCACTGTTTTTTAAGACAGAAAAAGCAGAAATTATATTTAGTAAAATGTTAGAAAATAAGATATTAATAAGAAGATTTAAAGGAGATTTGAAAAATTTTATAAGGATTTCAATAGGTAGAAGAGATGAGAATGATAAAGTTTTAAATATAATAAAAGAGTTGTTTGGAAAAAATTAAGGAATGAATTAGGAACATCTTAAAATAAACATAACAAAAGGATGACAGTTATTATAATTGTCATCCTTTTGTTATGTTTATTTTTTGTAAAGTTTAGTCTTATTTTTTTAAATTTAAAATCTCTGTCTCGCTCAGACCAGTTATTTTAGAGATCATTTCTAAAGATAATCCATTTTTTAATGCTTCTTTTGCTGTGTTTTCAATACCCTTTTCAATACCCTGTTCAATGCCTTGTTCAATACCCTGTTCAATACCTTGTTCAATGCCCTGTTCAATACCTTTCTCAATGCCCTTTTTAATTCCTTTAGCAAATCCCTTTTTTTCAGCTGTTTTTATTGCAGCTTCTTCATCTCTTAGCCATTTTAATCTTGCTTCATAACTTTCTCGTTCTTCATAATTTAATGACATATCATCTAACAATTCTACTGCTTTTTTTATACTTTCTACTTCTGCTAACTCTTTTGGTAATCTATTTTTATCATATCCTTCTGCTTTTTTTAAAAAATTAACCCATCTATCTAACATTGTACTCATCTTTTCATCATACTTTTCTAATTCTATAAAATGTATCTCTAAATGGTCTATAAATTCTTTTCCACTTTCACTATTTATTATCTTATATATATTATGATATTTTTCTTCATCTAAACATCTAAAATTTAATATATTTATACTTATAGTTTTCTTTAAATTATCATAATTTACGCCAGCAGACAACTGTCCTGAGTACAATCTAGCCCAATAATATAAAGCTCTTTTATCAAAATATTCTTGATCAATTACTTGCATCTCTATATTATACCATTGCCCTCTTTGATCTGTTGCTTTTATATCCAATATAGACAATTTGTCATTTCTGAAATTTTTATCATTATATGGATTTTTTAATTCTAACTCTTTCACTTGATCTTCTTCTGATACTATTGAATTTATTAAATCTATTAATAATTTTTTGTTTGACTCTGTCCCAAATAATTTTTTGAACGCAAAATCTACCCTTGGATTTATTCTACACATAATAACCTCCTAGATTGTTTTATCTTACAATAGAATTATAACATATTTTATATACAATTAAAATTATTTTTTATGATTTTTAAAGGAAAAAATAGAAATTGAAGTATAACATTATATGAGATAATAAAAAAATATATAAAATTAAGAGGGGGAATAATAATGAAATTTTTAGTTGTGGAGGATGATTTTGTTAGTAGAAATTTATTAGTAAGGTATTTAAGAAAATATGGAGAATCTGATGTAGCGGTTAATGGTAGAGAAGGGCTTGATATATATAAGCTTGAAGTTGAAGAAAAAAGGAGTTACGATCTAATTTTTTTAGATATAATGACTCCTGAGATGGATGGAATGGAATTTTTAGAAGAGATAAGAAAATTTGAAAAAGAAAAAGGGATACTTGGAATGAATGGAGCAAAGATTGTTATGACAACAGCATTAGGCGATATGGATCATGTGAAAAAAGCATTTAGGTATCAGGTAGAAAGTTACCTGATAAAACCAATTGAAGTATCGAAAATTGAAGAAATTATAAAAGGAATAACAGAATAGGAGAAGAAAATATGAAAAATTATTTTGATGATATAGAAGATAAAAATGAAGTTCAAAAATATTTAATAGGTACAATTGAGAATAATTTTGAAATTGTGATTATAACTAATAATGATGGGGTGATTAGTTATATTAGTAAAAGCGGGGAAAACTATACAGGATATGAGTTAATAGATATAGAAGAAAAATCTATTTTTGATTTTATAAAAGGCAAAACTATACGAGATAAATTTTTGAAAAAGAGTTTAAATAAAACAAGTGTTGAATTCAAATTAAAAAAAAGAGGTATAAGAAATTTTAAAATTACAATTTATAAAATAGAGACTAATAAATATATATGGTATTTTACAGATATAACTATGGAAGTAAAAAAAATAGAAACAATTTTAGAAAGTTTATCATTGAGAAATATAATATATAATATTATGGAAGAATTTATTTTTAGTTTTCAAATATTAGTGGGAGATAAACTAACATCTCTTTACGAAGTAAACAGTTCATTAGAAAAAGTATTAGGATACAATAGAGAAGAATTATATAAAAAGAAAGTTGTTGATATAATAAAATGTGACTTTAATAAGATGATATCTAAATTATATAGTGAAAAACAATTCACAGAAGAAACTTTATTAATCAAAAGTAATGGAGATGAGTTACCTATAAAGGCGAAGTTTATATTATTAGAAGGTTATGAACCCAAAACAGTTGTTGTAATCGCACGAGATATCTCTGTAGAGAAAGAAGTTAAGAGTTTATTATTAGAAAATATAAAAAACAATGACATAATGGTTGATAATATAGTAGAAACAATGTCGAAAATCGTAGAAAAAAGGGACCCTTATACTGTTGGACATCAAAAATCTGTTTCAGAAATATCTGTGAAAATAGGAAAAGAGATGGGATTTTCAAAAGATAGATTAAGAGGATTGGAAATAGCTGGAATTTTGCATGATTTAGGAAAAGTAGCTATTCCAATAGAAATATTAACTAAACCAGGAAAACTAATGGAAGAGGAATTTAACTTGATAAAAAAACATTCTGAAATTGGATATGATATATTAAAAGATATAAAATTTCCTTGGGAAATAGCAGAGTTTGTATTACAACATCATGAAAGAATTAATGGAAGTGGATACCCTTTAGGGTTAAAAGGAGATAATATTTCATTAGAAAGTAAAATATTAGCAGTAGCAGATGTGATTGATGCTATGGCATCTCATAGGCCGTATAGAGCAGCTTTAGGATTAAAATCTGCTATGGAAGAAATAGAGGGGAAAAAGGGAATTTTATATGATGAGAGAGTTGTGAATTCTGCAATAAAAGTTTTGGGAAAAGGGGAAAAATTATGAAAAAAATATTAGTTGTAGATGATGATTATTTAAGTAAAAATCTTTTGAGTAGAATATTTAAAGGAAGTTTTATAGTCGAAGGAGCTTCAAATGGAAAAGAAGCTATTGAGAAATTTAGAAGAGAAAATTATGATATTGTATTTTTAGATATAATGATGCCGTTGATGACAGGGATGGAGGTTCTTAAAAAAATTAGAGAATATGAAAAAGAAAAAAAAGTAATTGAATCAGAGAAATCAGTAATAATAATAGTGACAGCATTAGGCGAAATAGAAAACATAGAAACAGCATATGAAATGGGATGTGATTTGTATTTGAAAAAACCAATTACAATAAAAAATTTAAGAGAAAAATTAGGAGAATTAGGGATTGAGTTAAAAAAAATATAGGAGGATATAAATATGGATGAGAAAATAGGAGTAAAGGAAAATGGAATACCTTATAAAATATTGATTGTAGATGATTCACCATTAATTCATAAAATGATAAAAAAGGGATTGTTGCCTTTAGGTTTTGAGGTAGTAGGAGATGCTAAAAATGGAAAAGAAGGGGTAGAATTGTATAAAAAGCTAAATCCAGATTTAGTAACAATGGATGTAACAATGCCAATAATGGATGGAGTGGCGGCTTCAGAAGAAATAATGAAAATTAATCCAAATGCCAATATATTAATGTTAAGTGCTATGGGAGATAATGATATAAAAAAACAAGCTGAAGAAAAAGGAGTTAGAAATTTTATAACAAAACCATTTAAGAAAGAAAATTTAGCTAAAAGTGTAATGGATACTTTAGGAATGGCTTAAAATGTGTTATGACACTAAAATTTAGAAAGAATAAAATTAACCCCCGTAGGGGTAGACCCCAATGTCATCAAGCTAAGGGGAATTAATGCAAATCAAAAGTCCAACTCCTTCCTTCTTAGCGTTTTCTCTTGGATAAGAGAAAACTAAAGTGCAGAATATTGGGAAAAAAGCATTAAAAAAGCCAAATATCCACGCTATAGGTTTCTCTTAGATAAGAGAAACCGACAACAAGGGAGGAGTAGAGTTTTTATAAAATCCTTAGCTTGATGACATTGCCCCTGTGTCTACCCTAAAATACCTTAAAACAAAAAAGGGCAAACACGGGGGGGCCTACGAGAACAAATATCCATATACATAATTTAATATGGTGTTAAAAAATAATTTAATTATAATAGGGAGGAGAGGAATTTATATGGCTGTAAATTTAGAATATATTAATCCATTTTTAAGTTCAGTTATAAATGTTATGAATGAAATGATTGATGAAAAACCTATAAAAAGTGAAGTTAAAATGCAAAAAACTAATTTTAAATCAGAAGGGATATCTACTATTGTAGGGATTACTGAAGGCGGGAAAGGGAATATAATAATTGATATGAAACAAGAAACTGCAATAAAAATAGCAGAAATAGTAAATGAAGAAGAGTATGGCAAATTAACAGATTTTGTATTTATAACATTAGCTGAGATAGGCAATATGATAGCTGGAAATGGGATAACTGTGATTAATAATAAAAATTCAAAATTAAATTTAAGATTAACTCCTCCAAGTATATTCGCAGGAGATGATTTAGAGATTGATTCCCCAAAATTATCATCAATAGGAGTTAAGTTTAAATTGAGTTTTGGAGAAATTTCTTTAAATGTTGCATTTGAAGGGGTGGAGGTGTAATTATGTCGATAAATGTAGAGTTGATAAACCCATTTATAAAGGGGACAAGTAATGTATTGGAACAATTTGGAATAATAGAAATAAAAAAAGGTAAAATTGTAAAAAAAAATAGATTAGATTCAAAATATCCAGTTACAATTGTTGTTGGGATTGTTGGAGAATTAAAAGGGAATATAACATATAATCTATCTTTAGAAACTTCAAAAAAATTAGTTTCCGCTATGATGATGGGAATGGAAGTTGTTGAAATGGATGAAATGGCAAAAAGTGCATTATCAGAATTATCTAATATGATTACAGGTAATGCAGCATCAATTTTTGAGTCAATGGGAAAAGTAATAGATATTTCACCACCTACTTTAATTACAGGAAAAAATATAATCGCTTGGATAAGTCAAGTTGAAACTATTGCGTTAGAACTTGTAATGCCTATTGGAATTATTGAGCTGAATATAGGATTGGAGATTTAAATTAGAAATAATCATTAAATGAAAATTCATAATTGATGGCAAAAGGAATGTGGTTTTTTAATATGCTTAAAGGAGAAAAGAATGGATAATTTAATGAATTTCTTTGAAGAAAATTATGAGGCAATTATTGTTATGGATAAAACAGGTATTGTAGAGAATATAAATAAAGTTGGATTAAAACAAATAGGATATAATAAAGAAGATATAATAGGACATCATCTTTCAAAATTCAGTAAAAATTATTCTGAAGAATTATATAATAAAATGTTGAGAAAAGTTATAAAAAATAAAAGATATAATGATATATTTTATTTCAGAGAAAAATCAGGGAAAGAAATTATTTGGGATTCGCATCTATATCTTTGGAGAAATTCAGGAGATGAAAAAATAGTAAAAGTGGCTAAAAATATTTCTAAAAAATTAAAATTAGAAGAGTGTTTGAGAGAATCGCACGAAAGATTTTTTCAAGCTTTTGAAAAATCACCAATAGGAATAGTATTAATTTCTGAAGATATGAAAATAATAGAAGAAAATGAAAGTTTTAAAAATATATTAGAGATTAGTGATAATAGATATTTAAAAAGAAATTTTAAAAAAAATATATATGTAGATGATATAGAAAAAATAGAAAACGGTTTAAAAGAATCAAAGAAGTATGAAAATACAAAAAAAATAGATATTAGGATAGTTACACAAAAAAGAAATTTAAGAGATATATCTTTAACCATAAGTTATACAAAACAAGTAGAAATAGAAAAAGAATTTTTTATTTTGCAACTAGAGGATATTACAAATGAAAAAATTACAAATGAAAAATTAAAATTATTGATAAAAGAATCTCAATCTTTAAATAAAATAAAAGATAGTTTATTAAGTAATATTTCGCATGAATTTAGAACTCCATTAAATAGGATTTCAATAGCATTAGATTTATTAATTGAAGAGATAGGCAAAGGTACAGCAGAAAATGATTTGATACAAATAATAAAAAAATCTATGAATAATATTTTGGAATATTTGGAAAATATAATTTTAATGAGTAAGATAGTTTCTAAAAGTTTAACATATAATCTTGAAAAGTTTCAAACAAAAGAGATAATTGATGGAATTTTAGATATAAAAGAAAAAAACATAGGAAATAAAAATGTGAAATTTGAAATTAATGATAAAAAATTAGGAGACAAAATTATTTGGGGAGATAAAGAAAAAATATTAAAGATAGTTTCAGAAATAGTTAAAAATAGTATAATATTTACTCAAATTGGATATATAAAAATAAATTTGGGAATAGTTGAAAATATGTTAGAAATTAAAGTAAAAGATACAGGAATAGGGATTCCAGAAGATATAAAAGAAAGAATGTTTAATATATTAGAACAAGGAGATATGAGTTATAAAAAAAGTCATAGTGGGATAGGCATAGGTCTATCTATAACCAAAACATATGTTGAAGGATTAGGTGGAACAATAGATTTTATTACTGAAGTTGGAAAAGGTACAGAATTTAAAGTAATGATTCCTATAGAAATTATTAAAGTAGGCAAAATAGATATATAAAGTATATGAAAGAGAGATGATTTTATGGATATGAATATGTTTATGGATGAGTTTGTAAGTGATATAAGTGAAATATTAGAAAATTTAGAATTAGATACTATTGAATTAGAAAAAAATGGAAAAGATAAAGAGATATTAAATAGAATATTTCGTAGTTTTCATTCATTAAAAGGGATGTGTGGAACTATGGGATTTCATAAAATGGAGTCGACATCTCATCTTGTAGAAGATTTAATTCAAGATATTAGAGAAGATAAAATAGAATCAAATCAAGAAATAATTGATGTTATACTTTATGATAGAGATATAATAGAGAAATTATATAAATCAATTATGGAAACTGGCAAAGAAAAAGAGATAGAGACAGAGACAGAAGAATTAAAATTGAAATTAGATAAAATAAGAGGGATTAATGATGACAAAAAAGATGATAAAAAAAGCAGGGATATGGCTACAAATAGAGTGAAAATAAGGTTTATAGGAGATTCGTATAAAAAAGATATGATATCTTCTGCCTTGAAAATGGGATTGAAATTACATGAAATGACAATTAAATTAAATAAAAATTCAGATATGCCTTTGGTAAGAGGGTTTATGGTATATTCATCTATATTGAAAGAGGCAAGAATAATATATTCTAACCCTAGTTATGAGAGTTTATTAGAAGGTGAGGAGGTAGAGGAGACATTTGACTTTAAAGTTATATTTACTACAAACAAAAAAATAATAGATTTAAAAAATAGGGTAAGAAAACTTGTAGATGTAGAGTCGATAAAAGTTTCGGAAGTTATTGAATATGGCAAAACTATAAAAGATAAATATTTGATTAATGAAGAATGGGAATCGGGAAGTTTTAAGCCATTTACTCTTGAAGAGATAGTTGAGATGACAGATGAATTTGATTACGAATATGAAGAAAATTTAATAAAAGAATTAAAAATAAAAATTAGTAGTAGTGATGATAAAAAAACAGATTTAATGTTTATGCAGGAGATATATTCACGATTGCATCAAATAGAAAATATTTTTAAAATTTACAAAATAAAATTACTTGCAGACATATTTAAAGATTTAAAAATAAAGTTTGATAATAATATAAAAAATGAAAAAATAACAGAAAATATAAAAAAATTAATTATTTCTGGTTGTGAATTTTCTGAGCTTTACTTAGAAACGATTGGAAAATAGTCCTAAAAAAAGGAGGGTAAATTAATGAAAGAATTACTAGAAAAGTTAGAAAATGGGAAAACAGAAGAAAAGCTAGATATAATAGAAGAAATTTTTGAAAAAAGAAATTTTGAAAATTATTTAGTTGAAATTGTAGATTATTTGGAAAAGTCTAAAGAAGGGATAGTTAGAGAAAAGATAGTAAATTATTTGAAAAAATATAATAATCCTAAAATTGTGGATAAATTATTAAAATTTTATGAAAGTAATGATATTTTTTTGAGAAATGTGGCGGTAGATATAATCTCTCAATTCTATGAATTGCCATTTGCTAATCTTACAAAAATGTTAAATCATGAGAATAAGCATGTAAGGAAGTTAGCATTAGATACATTATATAACACACATAATCCAATGGTAGCTGGATTTATATCAACAGCTCTTTATGATGACGAAGATATAAATAATGTGATTACTGCAGTGGAATATTTAGGAAAGTTAAAAGCATATAAATATGCTGATGATATAGCAGAACTTTTAAAGGATGCAGAAGCTCCATTTTTAATTATAACAATTTTGGGGACATTATCTTTAATTGGTAATAAATATTCATATATGAAAGTAAAAGATATATATCCAGATATAGAAAAAGTAGATGCTCTATTTTTAGCACCATTATTGAAGTTTTATAAAAAATTTAATGGTGGAGAATTAATAGAAGAGATTTTAAAATTAAAATCAAAATACTCATTATTATATAAAGAAGTTATAGATATTGTAAAAGATTTTATTGATAATGGAAAACCGGAAGAGATAGATGAAAAAGGGGAGGATATTTATAATTTATTAAAAGAACTACTAGAAGAAAAAATACCAGAGGCTAATAAATATGAGGTTATTCATATATTAGCTCTTTTTGAAGGAGAAGAGGTAGAATATATTTTAGTTGAAAGCTTACATAATGGTAGTGATATATTAAAAATTGGTGCTACAGAAGAACTTTTAAAAATAGATTTTAATAAATATAAAGATGAAATAAAAAAAGTGATAGAAGATGAAAAAGATGAAAATACAAAAGAGAATTTAATAATTCTGTTAGAAGGTGATAATAATGAAGCTTAGAGCAAATAGATTTAATTTGAATAAAGTAGAAAATAAAGTTGAAATGGAATTCGGTTTAAATGAATTTAGACAAATAAGAGATATAATTTATGATTATGCAGGGATATATATAAATGAAAATAAATTATATTTTTTGAAAAAGCGTATAGAAGATAGAATGGAAATTCAAAATATGAATAATGTAAATGAGTATATTAATTTTCTGAAATATTTTGACAAAGCAAAAAAAGAGATGAATGAATTGATGAATTCAGTTACAATAAATGAGACATATTTTTTTAGAGAATTTGAGCAATTAAAAGTTTTTGGAGAATATGGTATAGATGATGTTTTAAAAAATAAAGGAAGATTTAATAAAAAAATAAGAGTATTATCGGCAGGATGTTCAACTGGAGCAGAACCATATACTTTATCTATAATATTAAAAGAATTATTAGAAGAGGATGAAGGAGTTGATTTTGAAATAGTAGGAATTGATATTGATGATAATGTTTTAGATAAAGCTAAAAAAGGTATATATGATAAAAGAAGTATAAAATATGTTCCAATATCTTATTTGAAGAAATACTTTATTCAAGATGATGCTGAAACTTTTAGAGTTATTAATTCAATAAAAGAAAAAGTTAAATTTTATAAAAAAAATTTAACAGACTCTAACGGATTGCTTGCTTTAGGATATGATTTTGATTTTCTATTTTGTAGGAATGTACTTATATATTTTGATAGTGATTCAAGAAGAAAAGTTATTGAGACATATTATAAAATGATGAATGATGGAGGATATATATATTTGGGGCATTCGGAATCTTTATCAAGGATAACAACTGCATTTAAATTAAAAAGAATGGGTGGTCAGCTGGTATATCAAAAACCAATAAGAGGTGATGAAAAATGAAAATAATGATAGTAGATGATTCTGAAATGACAAGAAATTTTCACGCATATATATTAAGAACTGCAGGATTTGAAGTTATAGATGCTGTAGATGGTGCAGATGCTTTGGATAAATTATATAGATTTAGTGATGAGATTAAATTAGTTCTAACTGATTTGAATATGCCAATAATGGATGGGTACACTTTTATAAAAAAAGTTAGAGAAGATAAAATTTTTGATGAATTGCCAATTGGAATAATAACAACTATTGATGAACAAAAAAATAGGGATGAAGGATATGAGGCTGGAGTAGATTTTTATTTGGTAAAACCAACAGAGCCATCAGTATTAATAGAAAGTATAAAAATGGTTTTGGGTGGTGATTAATTATGATGAAAAAATTTGATGAGGAAAATATAGAAATATTAGTTGATGTACTGGAAGAAATAGATATATATAAAGAAACAATAGAACGCTCTATATTGAAATTTGAAAAAGAGAGTAATAATGAGATAGTAGATGAACTTTTTAGAGCATATCATAGTATTAAAGGGATAGTAGGATTTGCAAATTTGGACTCTATAGCAACTATTGCTTCTTTTACAGAAAAAATATTAAAAACTCTAAAAGATAAAAATGAGAATATAGAGAATAAAGATGAGATAGTATCGCTTTTATTAGATTCAATAGATTTATTAAAAGAGATAGAAATGAAAATAAATGAAGCGTTGAGCAGTAAAGGAGATAAAAAAGAGATATCAATAGATATAGTAGATATAGGAGAAGAAGAATTTAAAAAAAGAGTGTTGGATATTATTGGAGAAAAAGAGGAGAAATCAGAATTAGTTTTTGATAATTTAAATTATGAATATGAAGATAAAATTATAAGCCAAAGTTTTGAAAAATATACTTATGAATTTGGAGATAATTTGAAAATTGCAGAAGAAAGTTTATTGAATTTAGAAAATAAATTTTCTGAAGAGGAAATTAATGTTTTAATGAGAGCATTCCATAGTATAAAAGGAGGAGCAGGCTTATTATTAATATTACAGACTAACGAAAATACAAAAAAAATATTTAAATTAATAGAAAAAGTGGCTCATTCTTTAGAGGATTTAGTACAAGTAGCAGAATATGAAAACGATTCTAAAGATTTTGATTCTTTTTATAAAGGTATTGATATTTTAAAAGGTATATATCGATCTCTTTCTTCAAAAGAAAAAACTATAAAAATAAATAATGATTATTTAGAAAAAGTGAATCGTGTATCTAAAGAAGAAAATAAAAAACAAAACGAAGATAAGCAAGAGGAAGATAAACAGGAAGAAAAAGATAAAAAAAAGATTGCAAAAATTAAAACATTGAAAAATTTTAATAATCAATTTATTGAATATTTGAAAAAAAATGTTATTGAGAAAGAGGAGTATAATGTAGGAAAATCCAAAAGAATAAGTAAGGGATTAAGAGGAAGTTTGAAAAATTTAAAGTTTAATGAAAAACTAGATTTTATAAATGATATTATAAACAGTATAGAAAATGAAGAGATGCAAGAAATAAAAGATAAGCTGGAAGAGCTAAAAAAATGGGATTTTGAAGTTGAAAAACCATTAAAAAATAAATCTCAAAATGAAGAAGCAGAAAAAAAGAATATAAATATTAAATCAAATGGTAAAGGTGATAATGAAACCACTTTGAAAAAAGTAGCTACAAATAGATCGATAAGACTTAGTAAAGATAAAGTTGATAAAATGGTAAATTTGGTTAGTGAATTGCTTACTTTAAAAAATCAGCAGGCTAATTTGACAAAGGATGTATCAGGATATAAAGAAATCTCTGGAAAAATGAAAAAAGTATATGGAAATTTTGAGAGACTTACATTAGAATTTCAAAATATAGTAATGTCTATGAGAATGGTAGGGATAGAAAATTTATTTAATAGATATAGAAGGACAGTAAGAGACAGTGCAAAAGCTTTAGGAAAAGAGGTAGAACTTATTATAGAAGGTGGAGAAACAGCAATAGATGAAGATATTATGGAATTGCTATCAGATCCACTTACTCATATGGTAAGAAACTCTGTAGATCACGGATTAGGAATGCCAGAAGAAAGAGAAGAAAATGGAAAAACCAGAACTGGTCATGTAACGTTAAGAGCATACAATAAAGGTGGCTTTATTTTTATTGAAGTAGAAGATGATGGAAGAGGATTAAATCACAATAAAATATTACAAAAAGCTGGGGAAAAAGAACTTATAAATGATATTGATATAGAAAAATTAACACCAGAAGATATATATCAATTTATATTTTTACCAGGATTTAGTACATCAGAAAAAGTTACAAATTTATCTGGACGTGGAGTAGGGATGGATGTTGTGAAAACGAATATCACATCTTTAGGAGGAAGGATCATTATAAATTCTAAAGAAGGAGAAGGGACAAAATTTATATTAAAAATTCCTTTATCATTATCAATAATAAAAGGACTAATGGTGAAATTAGATAAAGGTAAATATATTTTACCTTTAGAAAATATAAGGGAAAATATAAAACTAAAAAAATCAAATATTAGAAGATATAAAAATTCATATTTAGCAGTAATTAGAGATGAGCCTATTCCGTTAATTGACATAAAATTTTTAACAGGAAAGAGTTTAGGTGAAATTATAAATAAAGAATATTTTTATGATTTAATTCCAATAGTAGTTTTAGATATAGATGGAGAAAATTATGGAATAGTAGCAGATGGGTTTATAGAAGAAAATGAATATATGGTAAAACCTATACCTGATTTTTTGAAAGGGAATAATCTGTTTTCTGGTACAACAATATTAGGAGATGGCTCTTTAGTTTTGATATTAAATCCAACAACGACTGTAACATTAAAGGAGTGAAGCTATGAAAGAGATAATAGTTTTTTCTAATAGAAAAGGAGGCACAGGCAAATCTTCTTCTGTTTATAATTTAGGATATTTTTTATCTGAAAAAAATAAAGTTTTATTAATAGACTTTGATTCACAAGGGCATTTAGGAGTTTGGGCAGGATTAAAACAATCAAAAGTAAAAGAAAAAAATATATATATAAGTTTAGTAAAATTCATAAAAAATAAAACTATTGATAAAGATGATGTTTTTAAAATAAAAGAAAATTTATATATATTACCATCAAATCAAGATTTGTCAGCATTGGATATGGAACTTATGAATGTAGAAAATAATAAAACTGTTCTAAAAGATTTTATTATAGAGATAGAAGAAGATTATGATTATATAATCATAGATACAGAACCAGCTTTTGGAATGACAGCTTTAAATGGATATGTAGCAGCTACACAATTAATAATTCCAATAAAAACAGACTATTTATCAATGATAGGTGTTTCTCAATTAATGAGTCTGTATTATAAAGTAAAAAGTACAATGAACCCATCAATTGAATTTGTAGGAATTCTACCAACATTTTATAATAAAAGGACAAATTTAGCTAAAAATTTAATGAAAGAATTAATTGAAACTTTTGGAAAAGATAAAATTTTTTCACCAATAAGAAAAGATATAAAATTATCAGAAGCACCATATTATGGAAAATCTATATTTGAGTTTGCAAAAAAATCTCATGGAGAACAGGATTATAGAAAATTTGGAGAAGAGTATCTGAAAAAAGCAGGTGAAAAAAATGGAATTAGGTAAAGGATTAAAACTATTTTTTGGTGAAATGGAAGAAAATTCAGAAGATGTAGAAGATATAAATAACTATTTTGAAAAAGCGAAAAAAGAAAAAAACCCTTTGATTTCGTTTGCTTATTATTTTCAAGTTATTTTAAAAAGTGAAGATGAAAAGTTAAAATCAAAAGCTTATAATAATTTGGCTATAATATTATATCAAGAAGAATATGAAAAAAAAGCAATAGAATATCTAAAAAAAGCAATAGAATGTGACAACGAAAATATTAATGCAAAAGAGAATTTAGAGGAGATAGATAGCAATAGATGAGTCTAATTCATTCAGCACAAAGATATAAAGTTCTCTAAGATACGATAGTGTAAAGTTTTTGTAAAGAAAATAATTTCAGCACAAAGACGCGAAGTACGCAAAGGTACACTAAGAAAACATTGATACTTTACCAGATTAAAGCGTATCTAATTTTTTTATTATATATTGGTAAAAATGGATTCTACCCATATATAAGTTTTTCTTTGTGATACTTTGTGTTCTCCTTTCTTTGTGCTGAATCTTTGTTTTTTAAATGGTTTGACTTAAAGAAACGATTATTAGCTTGATGCCATTAAGAATCAAAGAAGATTATAATACAAATAGATTAAGTATTTCGTGAAAAGGAGGGGAAGAAAAATTGATTGGAATTGATTTAGGAACAGTTAATTCATTAGTAGCCTACATTGGAGAAGACAATAAACCTAAAATTATATCCACTGAAAGAGGAGAAAAATTTACTCCTTCAGTAGTTTATTTCAAAAATTCTTTAGAAGTATTAATTGGAGAATTAGCAAAAAGTCAAATGTACCTTTATCCAGAGCGAACAATTAGATTTGTAAAAAGAGATATAGGAAAAGAGATAGATTATACGATATTTGATAGAAAATTTAACCCAGCAGAAATTTCAGCTCTGATATTAAGAAAATTAATGAAAATATCAGATGAGTATTTTGGCAAAAAAAAAGAAGCTATAATAACAGTACCTGCATATTTTGATGATAATCAAAGATTTTATACTATAAATGCAGCAAAATTAGCAGGAATAGAAAAAGTGCATTTGTTAAATGAACCTGATGCTGCAGCAATTGCATATGGTATTTTTAATGATAATACAAATTTAATGGTTTTGGATATAGGTGGTGGAACTTTTGATATATCTCTTATGAATATCAAAGATGGAGTTTTTAAAGTTATAGGAAACGGAGGCGATACCAATTTTGGCGGACTGGATTTTGATAATGCAATTTCTGATTATATATTAAAAACAGTGCAGGAAACTCAAAATATAGATTTGTCAAAAGACCCAATTGCAATGCAGCAGATATTAATACATTCAGAAAAAGCAAAGTTGGATTTGAGCACAGTGGATGAAACAAATATTATGATACCGTATATATCACAAAATGATAATGGGCCTATTCACATAAATATAACAATTACAAAAGATATATTTTATAAATTAACAGAAAATCTTTTTAAAAAATTTGAAAAATTAATAGAAGAAACTTTATTAGAAAACAAGATAGAAGATAACTGGCTAAATAAAATTATTTTTGTAGGAGGAACTTCACGTATAAAGAAATTTAAAGATATAATAAAAAATAAATTTCCAACAGTTGAAATAAAACAAGATATAAATCCTGAAGATGTTGTAGCAGAAGGAGCAGCAATAAAAGCTGGAATTTTATCAGGAAAATTAAAAGATGTAGAGTTTAAAGATATATTATCCCATTCATATGGAATAATAAATGATGAAGGAGAATTTGTAGAAATTTTAAACAAAGGCAGAGAATATCCAACAGTGGAATCAAAACTATTTACAAATAGTTTTGATGAGCAAGATGAAATAATTTTAGAAATAAGACAAAAAATAGCAGAAGAGATAATAAGTTTAGGTAGCTTTAAATTTAAATCTACAAAAAAATGGAAAAAAAATGAATCTAATATTGAAGTTGTTTTTAATGTTGATATTAATGGAGTTTTAAATGTTACAGCAATAGATATAGATACTCATCAAAGTGAAGAGCTAATAATAGAAAATGCTTTGTATGGGAACAGAGAAAACGAAACACAGGTAAGAAGAGGAAAAGAGATAATAGTAAAATAAAAAGCGGAGGTGTAGTTTAAAATGGTAAGAAAAATGGAAAGTCCAGAGGATTATAGTGAAAAAAAATATGTTACAACAGGAATTACAACAAAACAAACAAATGGAGACGATTCTTTAAAAAAACGAGAAACAGCAAAAAAACTAGCGATTCAAAGAGCAAAAGCTAGAACAATGGCAAAGAGACAAGCCATGGCAGAAAAAATAGGGGCTGCAACTGCAGAGCTTGCAGCAAACGTGGAACAAGTTTCAGAAAACGGAGAAAATTTAGCTAATGCAGTAGAAAAAATAGCAGCGGCATCTCATCAAGCGGCATCAGCAACACAAGAAGCGATAGGTTCATCTAAAATGATAAATGAAAATGTAAAAGCATCTACAAAGGATATGATGGATTTAAACGAAACTATTAATGAGAATGAAAAAATGGTTCAAACTATGGTAGTAAGTGTAGGAGAATTAATTGAAAATATAAAAGATATAGTTGAAAAAAACAATGTATCGGTAAAAATGATACAAGAATTAGAAGATAAATCAAACAAAATAGGAGATATAGTTAAAACGGTGGTAATGATATCAGACCAGACAAATTTATTAGCATTAAATGCAGCAATAGAAGCAGCGAGAGCAGGAGAACATGGGACTGGATTTGCAGTTGTAGCTGATGAGGTTAGAAATTTAGCGGAAGTTTCTGAAAAATCAGCAAATACTATTAGAGACGTGGTTGATGAAATGAAAGTAGATATTGATGGTATAGTAAAAGATATTAATGAAATAATAAATGATTCTAATAAACAAACTGAAAAAGGAGGAATTGTAACAGAAGCGTTAAGAAAATTTAGAGAAGATTTTGTTGAAATAATTAACAAAACAGAAGAAAATATAGGATTATTTAACGAAATTGATAAAATGTCAGAAAGAATAGTGAGCGAGTCAGAAACGGTAGCAGCTGCTACAGAACAAATGAGTGCGGCAACTTTAGAATCTGCAAAAGCAAATGAAGAGCAAGCAAAAGCTCTTGAAGAGATATCTATAGCTACAAGAGAACTTATGGAGATAGCAGAAGAGTTAAAAACGTCTACAGATTCGGAAAAATCTGCTGAAATAGTAGCTTCTGCAGCAGAACAGCTTTCTTCTAATATAGAAGAAGTTACAGCAACATCTCATCAAATAATGAGTGGATTAGAACAGGTGTCAAAAGGAACGGAAGTAGTCGCTGCAGGTGCAGAGTTAGGGAAAAAAATTGTAATAGAAATTGAAGAAAAAATGAATATATTTCAAGAAAATATAAAAAAGGATTATGAAAATATAGAAAATGTAAAAAAAGAATTAAAAAATAATACAGGAATAATAAAAGAGATAGCTGTTGGGTTAGATGGTTCAGATAACTTGTTTCAAGAATTATCAGACAATATTTTGAATTTACAAGAAAAAGGATTTAATATAAACAAAACTGTAAACAAAATTGATAAAGTTACAATTCAAACAAATATGCTTGCAGTAAATGGTTTTGTGGAAGCGGCTCATGCAGGAGATTATGGAAAAGGTTTTAATGTAGTTTCAAATGATATAAGGAATTTGGCAAATGATTCAGGAGAAAATGCAGATCAAATTCAGGAATTAGTAGAAGGAATACAACGACAAATTGGAAAAACAAGTGTAAATATAGCAGAGTCAACAAAATATACAGCAATAGGTGTGAAAGAATCGCATGGAACTCAAAAAATATTGACTGATATGGGAGAAAATATAGAAAGCTTAATAGGTGTATACAAAAATGTTTTGAATAATATGGAGATTATAAATAATGCTTTAGAAGAAGAAAAAACTGGAATAGTACAAATTGCATTGGCAGCTAAAGATTCAAATGAAGCTGTAAAAGCTGTAATGGAAGATGCAAAAAAACAATTTAAAACAATGGAAGAAATATCAATGGCGATAGAAGATATTGCTACAATTGCCGATGAATTACAAACTGAATAAGGGGGCTCGGAAGATGAAAACAACTAAAGAAGGACAAAGTATTGTTTTTGAAATAAAAGATGAGAATTACGCAGTCCCTCTTATTTATGTAAAAGAGATAATAAGAGTTCCAGAAATAACAGAGCTTCCAATGTCTGAGGAATCTTTAAAAGGGATAATAAATTTAAGGGGGATTATAGTTCCGGTTATATCAATAAGAGAAAAATTTGGAATTGAAAAAAGCATTGAAAATAAGGAACAAGAAAGAATAGTTATTTTAGAAAAAGAGGGTACTCAATTTGGAGTAACTGTAGATAAAATGAGAGGTGTAATTAATGTAAATGAAAATGAAATTGAAGAGAATGATGGAAATTTTGAAAGTGAATTTATAAAAAATGTTATAAAAAAAGATAAAGAAATTTATATGGAACTAAATTTAGAAAAATTAATTGAAATAAAAACATTTGGAAACAGTGCAAATGGAAATTTAGGTAATTCAAACAAAAGTACAGAAAACAGACAAAATATTTTAGAGGTAAGAGAAAAATTTGTAACATTTAAAATAGGTGAAAATGACTATGGTTTTAATATTGAAGATGTAAAAGAGATAATAAGATATATAAAACCAAGGGAAGTGCCAGCAGAATCAGAATATATGCTAGGAGTAATAAAATTAAGAGAAGAAATTTTACCAATTTCAGATTTAAGAATAAAGTTGGGAGCAGAAAAAACAGAAGTAGATGAATTTACGAAAGTAGTAGTAATTGAAAGTAAAAATCATAAAATAGGGTATGTGGTAGATAGAATAGAAGAGGTAATTAATATTGAAAAAGATAAAATATTGCCACCGCCGTTATATTTGAAAACACAAGGGAATGATGAAATAAAATCAATAATAAAAGATAAAAATGAAAATATAACAATAATATTGGATATAGAAAAATTAATGGCAGATGTTTCGGAAAATTTAGACAAACTATCTGAAACGAAAAACTCTATTAAAGAAAATGAATCTAATATAAAAAAAGATGAAGATGTGCAATTTATAATATTTGAATTAGAAAAAACGCTTTATGGGATAGAAATTGAAGACGTTAGAGAAATAAATAGGCTATCAAATATTACAAAAATTCCTAAAGCTCCTGAATTTGTAGAAGGAATAATAAATTTAAGAGGAGATGTTATTGCAGTAGTAGATTTGAGGAAAAGATTTAGTTTAAACAAAAAAGAGATAGGAGAATTTACAAGAATAATAATATCAGAAGTAAAAGGAGTAAGTATAGGATTTATAGTTGATTATGTAAAATATGTGTCAAAAGTTAATAGAAATGAAATTTTACCAGTTGAAACCCTTGGATTTGTTAATAATGACTTTTTAAAAGGCGTTTACAAAAACAAAGATAATAATAGCATGGTTTTAATATTAAATTTTGAAAATGTTATGACAGAAAAAGAGGTTAAAGATTTAGGGAAAATAGGTTCTAAACCGGTAACTAAAAAGAGAGAAACTAAGAAAAAAGTGCCTAAAAAGAAAAAAACTTTAAAAATTAATGAATGATAATATGTAATAGTATAATTTGTAAGGGAGCCCCCCCTGTCATCAAGATAAGAACTGGGCTTGCCAACGGCAAGCCCCTACAGTATTAATTCATTTTATAATGTAGGGGCTTTATTTATAACGCCAAAATAAAAAAAATTAAACCAAAAAAGAGGTGTAAACTAATGAACGAAATAAGGGTTATAGTCGCTGATGATTCTGCATTAATGAGAAGGACTTTAAAAAAAATTATAGAAATGGATAGTCGACTAGTTGTTATTGAAACAGCAAGAGATGGAGAGGATGCAGTAAATAAAGTAAAAGAATTAAAACCAGATGTTGTAACAATGGATATAAATATGCCTAAGATGGATGGACTTACCGCATTACAAATAATAATCGAAGAAGATATATGCCCTATAGTTGTAGTTTCATCCTTGTCACAAAGAGGAGCACTAACAACATATGAAGCATTAGAGCTAGGAGCATTTGCCTGTGTAGGGAAGCCTGGAGGGACTGTTAGTACAAATATGGCTGATGTTCAAAAAGAACTATGTGATGTTCTTTATGAAGCAGCTTTAATTGGACATAATGGAGAAAAGCTAAAAAGATTATCTAATAAGATGAAAACTATAAAAAAAATTAGAAAAGAAGAAGAAGTTTTATTAAATGAAATAGAAGTAAAAGTAAAAAAAGGGGGAATATTAAAAGCTGTAGCACTAGGAATATCAACTGGAGGGCCTAAAAATATTTATGATGTATTACCTTTATTACCTAAAAACTTAAATGCAGCTATATTTGTGGTTCAACATATGCCGCCTAATTTTACAGAATCTTATGCTAAAAGATTAAATAAATATTGTGATATGGAAGTTGTAGAGGCTAAAAATGGAATGCTAGTAGAAAGAGGAGTTATATATATAGGAAAAGGTGGTTATCATATTAGGACTAGAAAAAATTTTAATAATGATTTAGTAATTAGACTTTCTAGAGTTCCAAAACATATGTTTATGCCATCTGTTGGAATTATGATGGAATCAATCTTAGATAGTTTTGGTGAAAATACGTTAGGTGTACTTATGACTGGAATGGGAGATGACGGCGCTAACGGAATGGTAAAAATAAAACAAGCAGGAGGTTATACAATAGCAGAAGCAGAAGAAACGTGTATTGTATTTGGAATGCCACAAGAAGCTATAAAAAGAGGTGGTGCAGATATAGTATTACCATCATATAAAATTGCAAAAGAGATAATAAATAAAGTGGGATTATATAAGTGATTTTAGTTATTATTTATTTTTTAAAAATAAATAATAAAAAAGTGTTGACAAATACTTGGAAATGTTATATAATCATTCTCGCCTTAAGTGGTAGTTCGGAGCATAGCGCAGTCCGGTAGCGCACCTGCCTTGGGAGCAGGGGGTCGTAGGTTCAAATCCTACTGTTCCGACCATATGCGGGAATAGCTCAGATGGTAGAGCGTCAGCCTTCCAAGCTGAATGTCGCGAGTTCGACCCTCGTTTCCCGCTCCAATTATGTGCCCGTAGCTCAGCTGGATAGAGCAACGGCCTTCTAAGCCGTAGGTCATGGGTTCGAATCCCGTCGGGCACACCATTTTTAAAATTATAAATTTTTTTAAGATGGTGGTTGTAGCTCAGTTGGTAGAGCACAGGATTGTGGCTCCTGTGGTCGCGGGTTCGATCCCCGTCATCCACCCCAACAGATTTTAGATACAACCCACAAGATAGCACACAATGATACGCCTGTGGCTCAATTGGATAGAGCAACGGACTTCGAATCCGTGTGTTGCAGGTTCAAATCCTGTCAGGCGTGCCAGTATGCCTGAAAAAAGTATTAACTTGATATTATTTAAACTTTATGCGCTATTAGCTCAGTTGGTAGAGCACACGACTTTTAATCGTGTTGTCACAGGTTCGACCCCTGTATAGCGCACCATTTTAATTTTAAAATTTAATTATAGCACAACATATTGTGTGCGAGGATGGCGGAATTGGCAGACGCACTAGACTTAGGATCTAGCGCCTATGGCGTGAGGGTTCGACTCCCTCTCTTCGCACCATTTTTTTATTTCTGAGTTAGTTGCGAAAGTAGCTCAGTTGGTAGAGCACTTCCTTGCCAAGGAAGGGGTCGCGAGTTCGAATCTCGTCTTTCGCTCCAAAATAAAATTATGGACCATTAGCTCAGTTGGCAGAGCAACCGACTCTTAATCGGTAGGTCACAGGTTCGAGGCCTGTATGGTCCACCATATGAAAAATATAACTACCTATTATTTTATAGGTGGTTTTTTATTTTTTGGATTTGAAAAGATAGTAAAGAGGTATATTTTATGTAAAAGAATAAAAAATAAAAGAGTAAAAGAATAATATGAATACTAGTTTTTGGCGACGTTGAAAACATAATCCATGTAGGGGCAATTCATGAATTGCCCTTACTTGTAATAGCTTGTACACCCAGTCTTTGACATTAGAAAAAGTTTCTTTTCTGAAAAAACATGTTCTTTTGCCGAATGAAAAAACGTGAACAATCAGAACAAAAACAGTCTAAAATTAATCGTCCCATTCAGCAGGTACAATATTTATATAATATATATAGGGATGATATGTCATAGTTCAAATATATATGTGTATAATAATTATAGTACAGTTCTCAAAAAAACTTTACAAGTGTTCAAAAATATGGTATACTTGTTCCAATGTAAATAATGTTATAAAATTCTAAGGAGGAGATTGTATGAAGAAAAGAGTATTGAGTATCGCATTATTGATGACGTTTGTTTCAGCGGTGTCATTTGGAGGCATTTTTGATTTCTTATTGGGCAAAAAGAAAGAGGTTAAAAATTTAAAAGCAATTACAGTAAATTTAGGGCAAGAACCTGGATCAATGGATCCACAATTATTAACAGATTCAGTGGCAATACAAGTAAAAGGATTGACTTCAGAAGGATTAACAAGAATTGGTAAAGATGGTGGAATTATGCCAGGAATGGCAAAAAGTTGGGAAATAAAAGGGAACAAATGGTTTTTTCATTTAAGAGATGCAAAATGGTCAAATGGAGATTCAGTAACAGCTAATGATTTTTATTTCGGAATAAAAAGAGCAATAGATCCAGCAACAGCTTCAGAGTATGCATATATGACTTATTATATAAAAGGAGCTCAAGAGTTTAACGAAGGTAAATTAAAAGATTTTAGTCAAGTTGGAGTGAAAGTTATAGATGATAAAACATTGGAAATAGAATTATCTAAACCAGCAGCATATTTCGCTTCTGTTACAGCTTTTCCTACATATTTACCAGTAAATGAAAAGTTTTATAATGCACATAAAGAAGAGTTTGCGTTAGAAGCAGATGCATTATTATTTGAGGGTCCATTTATTTTAAAGAGATGGGATCATGATAGCAAAATGATTTTAGTTAAAAATCCAAATTATTGGAATAAAGATAATATAAAATTAGATCAAGTTACATTTGTAATGGTTAATGATACAAATACAGCTTTAAATATGTATAAAAATGGAGAATTAGATATAGCTGGATTAAGTGGAGATCAATTACCAGCTTATAAAGATAGTAAAGATCTAAGAACATATAGTGATGGTTCAGTTTGGTATTTTGAATTTAATACTACTGATAAATTATTTAAAAATGTAAAAATAAGAAAAGCTATAGCTTTAGCAATAGATAGAGAAGCATTAGTAAATAAAATAAAAAAAGATGGTTCTAAAGCTGGAACAGGAATGGTTCCATTTGGATTCCCTGGTAAAACTGCCAAAGGATTTAGAGGAGATTATGGAAATCAATTATATAGCTATAATCCAGTAGAAGCTAAAAAGTTATTTGCTGAAGGATTGAAAGAAGTTGGATATACAGGACCAGTTGTAGTAAGTATGTTAACAGGAACAAGTGATGGAGCTACAAAAGAAGCTCAATTTTATCAAGAACAATTAAGAACAAACCTTGGAATAGAAGCTAAAATAGAACAAGTAACATTCCAAATTAGACTTCAAAGAATGAGTTCTAAAGATTTTCAAATAGTTCTTGCAGGATGGGGACCTGATTATTTAGACCCAATGACATATATGGATTTATGGGTAACAGGTGGAGGAAACAACCAAACTTCTTGGAGTAATCCAGAATATGACAAATATATAGAAACTGCTCAAAAATCATCTGATAATGCAGTTAGAATGGATGCAATGGCTGCAGCAGAAAAAATACTTGCAAAAGATTTTCCTGTAGCAGTAACATTCTATAGAAATAGAAATAGATTAGTTAATCCAAAATTAAAAGGAGTTAAATTTAGATCAGTTGGATCGGAAACAGATCTTTATTGGGCATATTTAGAGGATTAATTTAGTTGAAAAATATAAGAAGAATGTTTTAAAAGTCAGTTTATAAAATTAATTTTGTAATGAAAAGTATAGAGTGACCACTTCGGTGGTCATTTTTATGCTGATATACAATAATGAATAAAATATAATATTTTATCTGTAAAAAGAGATTTAGTTTTCTTAGCACCACTACAGATAGTGCTTAAATGTTTTGACGATACTATATATAGTGGTATTAAGAAAACTGTCTTTTAATTGAAAGGTGGATTCAATTCCCCGCTGTTTGCGGAGAGGTGTTTATTTGCATAAGTAATAAAATTAATAATTTAAAAACGGATTAAAAATAATTTGCCATTTTTTATATGATGAATTATTCTTAACGTTTATAATAAAGAGAGGAAGAGATAAATGTTAAAATTTATACTAAAAAGAATATTATCTGGAGTGGTTACACTTTGGATTGTTACAACAATTACATTTTTTTTGATGCATGCCTTACCAGGAGATCCTTTTGCAAGTGAAAAGGCAATTCCGCCTAAAATAAAGGCTAATTTAATGAAGAAATATCATTTAGATAAACCATTAGTGGTTCAATATGTCTATTATTTAGGTGGCATAGTAAAGGGCGATTTTGGAATGTCTATGAAAGTAAGAGGTAGAAAAGTAAGTAGAATAATAGCTAGAGCATATCCTATTTCCTTAGACTTAGGTATGAGAGCTATAATTTTTGCATTTATATTTGGAATATTTTTTGGAATAATAGGAGCATTTAACCGTGGCAAATGGGAAGACACGGGAGCAATGGCAGTGGCTATTATAGGAGTTTCAGTTCCAAGTTTTATAATTGCAGGAACTTTACAATGGATAGATATATTTGTAAGTAAAAAAGCGGGTATTAGTTTACTTCCTGTAGCAGGATATGATTCTCCAGCACATAAAATAATGCCAACAATAGCGCTAGGTCTTATGGCAGTAGCTGTAATTGCTAGAATGATGAGAGCTTCTATGATAGAAGTTTTAAATCAAGATTATATAAAAACAGCAAAATCAAAAGGGCTAGCTTCTAAAATAGTGATTTGGAAACATGCTTTTAGAAATGCAATCATGCCAGTTATTACTTATTTAGGGCCTTTAATCGCAGCAATTACAACAGGTTCTTTTGTAATTGAAAAGGTTTTCGCAATTCCTGGATTGGGGAAATATTACGTAGAAAGTATTTATAACAGAGATTATACAATGGTATTGGGAATTACAGTTTTTTACTCACTTCTTCTAATAGTAATGGTTTTAATAGTTGATATTTTATATGGATTTATTGATCCTAGAGTAAGAATTGGGAAAGGAAGGGAGTAATAGATGAAAAATTTGGATTTTACATTAGTTGGAAAAAATTTAGAAGAGAGCGAGAAAATATACAAGCCGAGTTTGACATATTGGAAAGATGTTTGGAGAAGATTAAAACAGAATAAAGCAGCAATGTTTTTCTTAGTTTCTTTAGTAGTACTAATAATAATGGCAATAATAGGTCCATATTTAAATAAATATGATTTTAGAGAACAACATCTAGATTGGCAATATAAATTTTGGGATAAAGCAAGTTTTGAAAAAGGATTTTTCTTCGGAACAGATGATTTTGGAAGAGATATGTTTACTAGAATATGGGAAGGTGGAAGAATCTCATTTACAATAGCGTTTGTAGTTGTTTTTATAGAGGGGGTAGTTGGGACTCTTTATGGAGGGATTGCAGGATATTTTGGTGGAAAAATAGATTTTTATATGATGAGATTTGTAGAGATAATGATGGCTGTACCAAGTATAATATATATAATATTATTAATGGTAGTTATGGGAGCTGGAGTTAATACAATTATTATAGCAATGGGACTTACAACATGGATGGTAATGGCTATGATTGTAAGAGGAGAAGTTATAAAGATAAAGCAGCAAGAGTTTGTTATGGCATCAGTGGCTTTAGGAGCAAGTTCATTTAGAATTATATTAAGGCATCTTATACCAAATGCTATGGGGCAAATAATTGTACGTTTGACACTAGATATACCATCAGCGATATTTACAGAAGCGTTTTTGAGTTTCATAGGTATAGGAGTTCCTGCACCAATAGCATCATGGGGTAGTTTAGCAAATAATGGATATCAATTATTAGCAGTTGCACCACATCTATTTATTTTGCCAGCACTGTTTATATCGTTTACTACAATGGCATTTAATATTGTTGGAGATGCATTAAGAGATGCAATGGATCCTAAATTAAGAAAATAAGATGAGGAGAAGATTAAGATGGTTAAAGATAAAATATTAGATGTTAAAGATTTATATGTTTCATTTGATACTTACGCTGGGGAAGTTCAAGCGATAAGAGGTGTTAGCTTTGATCTTAAAAGAGGAGAATCATTGGCAATTGTTGGTGAATCTGGTTCTGGAAAGTCAGTTACAGTTCAAACAATAATGAAATTAATACCTATGCCGCCAGGTAGGGTAAAATCAGGAGAGATAATTTTTGAGGGCGAAGATATAGCAAAGAAATCTGAACATGATATGCAAAACATAAGAGGTGGAAAAATTGGGATGATATTTCAAGACCCAATGTCTTCATTAAACCCAACAATGAGTGTAGGAGCACAAATAGCGGAAGGAATAATAAAACATCAAAGATTATCAAAAAAAGAAGCTAAAATAAAAGCGTTAGAGATGTTAAAACTTGTAGGAATTCCAAATGCTGAAAAAAGAATAAAACAATATCCACATGAATTTAGTGGTGGAATGAGACAAAGAGTTATGATAGGAATAGCATTATCTTGTAATCCTGATCTACTGATAGCTGATGAACCAACAACAGCATTAGATGTAACTATACAGGCACAAATTTTAGATTTGATGAAAGATTTAAAATCAAAATTAGGTACAGCTATTATTTTAATAACACATGATTTGGGAGTTGTAGCAGATATTGCAGAAAGAGTTGTTGTGATGTATGGTGGAGAAATAATGGAAGAAGCAGATGTTAAAACTATTTTTTATGCTCCGAAACATCCGTACACTTGGGGATTGTTACAATCTATGCCAAGATTAGATTTAGGAAAAGATGAGGAAGAAACATTAAGATCAATAGAAGGGACTCCACCAGATTTATTCAATCCACCAAAAGGGTGTCCATTTGCTCCAAGGTGTGAATATGCAATGAAAGTATGTTTAGAAAAAAAACCACATTTTTTTGAAATTGAAGAAGGACATAAAGCTGCATGTTGGTTATTGCATGAAGATGCTCCAAATATAGAATCTCCAATAGAAAGCAGGAGGAAAAAGATATGAGCAAAGAAAAATTAGTAGAAATAAAAGAGTTGAAAAAACATTTTGACGTAGGTCATAAGCAAATATTAAAAGCTGTAGATGGAGTTAGTTTTGATATATATAAAGGAGAAACACTTGGTTTAGTAGGGGAATCAGGGTGTGGAAAAACTACATTAGGTAGAACTTTGACAGTATTATATAAGAAAACAGCTGGAAATATATTTTATAAAGGAGAAAATGTAGATAAAATTTCATATAAAGAGTTTGCTAAAAAAGTGCAAATGATATTTCAAGATCCACAAGCTTCTCTAAACCCAAGAATGACAGTTGGAGATATTATAGCTGAGGGATTAGATATTCACGAAATGTACACAACTAAAGAAGAAAGGAATAAAATAGTTTTTGAACTATTAGAAAAAGTTGGATTAAATAGAGAACATGCAAGTAGATTTCCACATGAATTTAGTGGAGGACAAAGACAAAGGATAGGAATAGCAAGAGCATTAGCTATAAAACCAGAATTTATAGTATGCGATGAACCTATTTCAGCGTTAGACGTATCAATACAAGCGCAAGTTGTAAATTTATTAAAAGATTTGCAAAAAGAACAACAGTTGACATATTTATTTATAGCTCATGATTTGAGTATGGTAAAATATATATCTGATAGAATAGCTGTAATGTATTTAGGAGATATGGTTGAGTTAGCTGCAACAGATGAACTATATAATAAACCGTTACATCCTTATAGTGAAGCTTTGTTGTCTGCGGTACCAATAGCTGATCCAGAAGCAGAGATAACTAAAAATAGAATAAAATTAGAAGGAGAATTACCAAGTCCAATAAATCCTCCTGTGGGATGTAAATTTTCTACAAGATGTAGATATGCAGATGAGACTTGTATGGCTGAAAGACCAAAATTAAGAGAAATAATTCCAGGAAGACTAGCAGCATGTCATTATGCAGAAAGATTTTTAGATAAATAAGGAATAGCTTAAAAATAATTCAGCTGTTTTGTTTTAAAAGGTTCAAGGTTCTTTTATGAAAATTACATAAAAAACTACGCCTAACATATGCAACGTTTCAACCATTTTTATAACAAAAAATGAGAAAATTATTTTTTAAACGTTCCTAATTATTATATTTTATGAGAGAAATTTAAATGAAAAAATTCATATAAATTTCTCTCATTTTTATATTATAAATAAAAAAACTAAAATTTAAAATTATTTTGACACAAAAGGATAGAAGTGTTATAATGCAAATGTTCATTATTGAATCAGACAGTGATTAGATAATGTTCTTAAAAAGAAAAGGAGGTTTTTGAATGAAAAAGGTAATATTTGTTTTTTTAATAATTTTATTTGTAGGATGTAGTAATGAAGAGATAAGAAAAGGTGGGACTAGTTGGGATAAAATAAATATTCCAAAAGAAAAAAATTATTATGATTCAAATGGTAGTTTATTAGAAAAAATTGTTTACAATGGAAAAATAGAGGGGATGCTAGATAAGAAGGTAATAGTGGAAGGAAAAATAATAGATTATAAAAAAAAAGAAATTGGAAAAATTAGAAATAGTTATTCAATGGAAAACAAAATATTAGAAGAAAAAATGTTTGATAGAGCAGGAGAAGTTATAAAAAATATAAAATATATATATTCGAAAGATGGTAAATTAATATCAAAAACTATAATTGGGAAAAATTATAAATTAGAGAATGTATACTCTGGAGACAATGGATTAGATATAAAAAAGACAGGGAAAAATGGAGGAGATTTAATTTTAAATATAAGAGAAGAAAAATATGATTTAAAGGGAAATTTAATAAAAGATTATTATGAAGATAATAATGGAAATTTATTGTTAGGATATGATTATAAATATAAATATGATTTAAAAGGAAGATTGGTAGAAAAAATAATTACTAGAAATGATGGATTTGAATTTAATCAAAGTTATGAAACTGAATTAAATAGAGATGAAAAAGTAACATCAATTGCAGAATATGACTCTGATGGAAGAGTGAAAAAATATACAGAATATGCTTATGATGATTTGGGGAAACTTTCTAGTAAAATAATAAAAGATGAGTTAGAGGAAATAAAAGAAAAAGAAGATTATGATTTGAATGGAAATATTTCTAACAAAATATTTTATTATCAAGATGGGAGTAAAATTTATGAAATTCATAAAGAATATGATGATAAAAATAGAATTGTGTTAGAGGATAAAAAAGACAGTAAAGGCAATAAAATTTTAACAATAACATATATTTATTAGGAGGAATTATAATGAAAAAAATAAGTTATATATTAATTTTTATTTTATTTTCAATATCAATTTTTGCCAAAACGAACCTTCTGTTTTGGCATGGAATGGAAAAAGGTGCTAATGAAGAGCTATTAAAAAGGAAAGTAGCGGAATTTGAAAGTAAAAATCCTGAGATAACAGTAACTTTAGAAAATTATGGAGAACAAGATTATTTGGAAAAAAAATTAAATAAAAAATTATTATCTAATGAAGGACCAGATATGTTATGGTTGGGACCTCAAATGTTAGGTAAATTAGTAAACACAGGGAAATTATTAAGTTTAGATAAATATATGGAAAATGATGACATATTTTCAGATTTCGACGTTTACAGAAGTTTAATAGAAGGAACAAAATATAATGGGAAGACATATTCTTTACCATTTGATGGAAATAATTTAGAACTATCTTATAATAAAGAGATATTTAAAAAACTAGGAATAGATGCAAAAAAAATAAAAACTTGGAATGATTTTTTGAAAGCTGCTAAAAGAGCAACGATAGATACTACAGGAGATGGGAAAATAGATCAGTATGGATTTTTAATTCCATTTGGGGATAAAGAGTGGACAGTTTGGATTTGGCAAACTTTTTTATGGGGAAATGGTGGAGAGTTTTTAAGTGATGATAATAAGACACCTCTTTTTAATTCAGGAGCAGGGATAAAAGCTTTGGAGTTTTGGAAAAATTTAATTTATAAAGAGAAAGTAGCAAAACTTTCAGATTATAACAAAGGGTGGGATATATCAAGCTTTATAAATGGAAAAGTTGCAATGGTTATAAATGGACCTTGGAATTTTATGAAACTTCAAAAAGAATTTAAGGGGAAATATGGAGCAATATATTTACCAACTAATGATAAGAGAGTGACAAATATAGGCGGGGAAAATTTATATATTTTTAAATCAAATAAGGAAAAAGAAGATGCAGCTTGGAGATTTGGGAAATATATTCTTTCAGATAATTTTCAAGTGGAATGGGCTACAAAAACAGGATATTTACCAGTTACAAATAGTGCTGTAAATACAACAACATACAAGAAATTCTTATCAGGAAATGATTTTTTGAAAATATATGTAGAACAAATGAGATATGGAAAAATGAGACCAACTATTCCGGAGTATGATAATATTTCTTCTTATTTAGGATACCAATTAAAAACAGTATTAGAAGATAAAATACCTGTAGAAATAGGTCTAGAAAATGCTGAAGAATTTGCTAATGATATATTAAATTAAGAAAGCCGCTTGGCTTTCTTTTTATTTTGATTTATGATATAATATTTTTATTTGAAAAAAATATACCCAATGCGTGTAGTGGTTTAACCATTTTTATAACAAAATATAAGAAAATTATTTTTTATAAATAAATCATAATTTTAAAAATATTCGAGGGGTGATGTTGTGAGGTTAGAAGATATTATTATAAAAGAAAATAAAAAAGTAGCACATGATACTTATTTACTTTCTTTTGTTAGTTCGGATATGGCAAAAGAAATTTTGCCAGGTCAATTTTTAGAAATAAAAGTTGGAGAAGGATTAAACAATCTATTGAGGTTACCAATAAGTATTCATGATGTTATTGATGATACAATATATATGTTGTATAAAGTAATAGGAAATGGGACGAAAGATTTAACAGAATATAAAACAGGTGCAAAAATAAGTGCGTTGGGACCTTTAGGAAATGGATTTCCAAAATTAGAAGGCGAGAAAGAAGTTTTGCTTGTAGCAGGCGGCATAGGATATGGACCATTTCCATTAGTAATAAGAAATAATAATAACTATAAGTTGTTTTATGGAGTGTCTACAAAAAATGAAATAGCAAAAGATACAACATTCAAGTTAGAAAATGATAAAGTAAATGTAGCTACAGTTGATGGAAGCGAAGGACATAAAGGATTTGTAACTGATATTTTGGAAGAATATATATTGAAAAATGGAGAAAAAGATAAGATTATTTTTTCATGTGGCCCAGAAATAATGATGAAAAAAGTAGCTCAAATAGCAAATAAATATAATATAGAGAGCTATTTATCTTTAGAAGAATATATGGCGTGTGGAATAGGAGCATGTGTAGGTTGCGTAAAAAAAATAAAAAATAGTGAAAAAAAAGAGGGGTGGGAATATAAGAAAGTATGTAAAGATGGCCCTATTTTTAAAGGCGACGAGGTGATATGGGAATGAATATGAAAGTAAAATTGGGAAATATAATATTACAAAATCCAATTATGACAGCCTCTGGAACTTTTGGTTATGGAGATGAATTTAAAGAATTGGTAGATTTAAATAGAATAGGTGGAATTTGTGTAAAAGGAACAACATTAGAAGAAAGGCAAGGGAATCCTACTCCAAGGATATTAGAAACGCCTGGTGGTATGTTAAATGCTATTGGCTTTCAAAATGTAGGAATAGATAGATTTAAAAAAGAAAAATATTCTTTTTTAAAAGAGCTAAAAGCCAAAACATTTGTAAATATAACTGCTAATACGATAGAAGAGTTTGGAATTTTAGCGAATAAATTAAATGATATAGAAATAGGTGGAATAGAAATAAATATATCTTGCCCAAATATTAAAGCCGGTGGAATAAATATGGGAACAGATCCTGATATGGCATTTAAAGTAGTGAAAGAAGTAAAAAAGAATACAAAACATCACGTTATGGTAAAACTTACGCCAAATGTAACGGATATAAAAGTGATAGCAAAAGCTGTAGAAGATGCAGGCGCAGATTCGATATCTCTCATAAATACATTGGTAGGAATGGCAGTAGATATAAAAACTAGAAAACCAAAAATTAAAAATATAATAGCTGGATTATCTGGACCAGCGATAAAACCAGTTGCATTAAGATTAGTTTGGGAAGTAGCTAAAACAGTTAAAATCCCAATAGTTGGAATGGGTGGGATTAGTAATTTTGAGGATGTATTAGAATTTTTAATAGTTGGAGCAACTGCTGTACAAATAGGAACTGCAAATTTTTATAATCCGAGAGTTACAATGGATATTTTAGATGGGTTAGAAAAATATATGAAAGAAAATGAGATTAAAGATATAAATGAAATTGTAGGTAGTTTTAAAATTTAATATTAAAAAAATGCTAAAATCATATACGTATAAGGAGTGATAAGAGTGAAAGAATATAAGTTTAGTGAAATTGAATCAAAATGGCAAAAAGAATGGGAAGAACAAAAGATATTTAAAACTGAAAATAAAGATGAAAATAGAGAAAATTATTATCTGTTAGAGATGTTTCCGTATCCATCAGGAAAAATTCATATGGGACATGTTAGAAATTATAGTATTGGGGATGTAATAGCTAGATATAAAAAAATGAATGGGTATAATGTTTTACATCCAATTGGATGGGATTCTTTTGGATTACCAGCTGAAAATGCAGCTATACAAAATGGAGTAGATCCAAAAAAGTGGACGTTAGAAAATATTGAAAGTATGAAAAAACAGTTAAAAAAACTTGGCTTTTCATATGATTGGGATAGAGAGATAGCAACTTGTAAAGAGGATTATTATAAATGGAATCAATGGATATTTACAAAACTGTATGAAAAAGGTTTGGTGTATAAGAAAAAGTCTTATGTTAATTGGTGCGATAGTTGTAAAACAGTGTTAGCTAATGAGCAAGTTGAAGATGGTAAGTGTTGGAGATGTGGAAATGAAGTACATCAAAAAGATTTGGAACAATGGTTTTTTAAGATAACTGATTATGCAGAAGAACTATTAGAGGGACATAAAGAATTAAAGGGAAATTGGCCGGATAAAGTAATAGCTATGCAAAAAAATTGGATAGGAAAAAGTTATGGAACAGAGGTAAATTTTAAATTAGAAAATAGTGACATAGATGTTCCTGTATTTACAACAAGAGTAGATACGATATTTGGTGTAACTTATATGGTTTTAGCACCAGAACATCCATTAGTAGAAGAGATATTAAAAGAGAATAAAGATATAAAAGAAAAAGTATATAAAATGAGAAATGAAGATAAAATTTCTCGTACAGCAGAAAATTCTGAAAAAACTGGAGTATTTTCTGGGAAATATGTTATAAATCCAGTAAATAATGAGAAAGTTCCTTTATGGATAGGAAATTATGTGTTAATGGATTATGGAACTGGAGCTGTAATGGCTGTACCAACACATGATGAGAGAGATTTTCAATTTGCTAAAAAGTATAATTTGAAATTAAAAATAGTTATAACTCCTGAAGAAGATGAAATTAATAAAGACGAAATGACTGAAGCATATATAAAAAAAGGAATATTAATAAATTCAGGTGAATTTAATGGATTAAAAAATAGAGAAGCAATAAGTAAAATAGCGGATTATATAGAAAAAAAAGGGTACGGAAAAAAGACAACAAATTACAGACTGAAAGATTGGTTAATTTCAAGACAAAGATATTGGGGAACTCCAATTCCAGCTATTTATTGTGAAAAATGTGGTGTTGTAATGGAAAAAGAGGAAAATCTTCCAGTTAGATTACCAAGCGATGTAGAGTTTACTGGAACTGGAAATCCATTAGAGACATCAAATGAATATAAAAATGTAGTTTGTCCAAAATGTGGTGGAAAAGCAAGAAGAGAAACTGATACAATGGATACATTTGTGGATTCATCTTGGTATTATCTTAGATATACAGATTCTAAAAATAGTAGTATTCCATTTGAAAAAGAGATTGTAGATGGATGGGTTCCTGTAGATCAATATATTGGCGGAATAGAACATGCAGTAATGCATCTGCTTTATTCTAGATTTTTCCATAAATTATTAAGAGATTTAGGGTTACTTTCAAGCGATGAACCGTTTAAAAAATTATTAACACAGGGAATGGTACTAGGACCATCATATCATTGCCCAGACTGTAAAAAATACTATTATGCCTCTGAGGTTGAGGAAGGAAACAGGTGCAAAACATGTGGAAAAGATTTGAAAATAAAGGTTGAAAAAATGTCAAAATCAAAAAATAATGGTGTTGATCCAAACCATATAATAGCGGAATATGGAGCAGATACAGCTAGATTATTTACTTTATTTGCTGCACCACCAGAAAAAGAGTTAGAGTGGAATGAGAAAAGTTTAGCAGGAGCATTTAGATTTTTAAATAGAGTTTGGAGAATTGTTTTAGAAAATAAAGAACATGTAAACATTGGAAATAAAATAGAGATAGATGTAAAAAAACTAAATAAAGATGATAAAAATTTAATGAAAAAACTTAATCAAACAATAAAAAAAGTTACAGAAAGTATGGAAGATAATTTTCATTTTAATACAGCAATAGCTGCAATAATGGAATTGGTTAATGAGATGTATCTTTATAAAAATAGCATATTCGATAATAAAAAAGAGAGTAATATTTGGAGAGAAGTTATTGAAAAATTAGTGATATTGGTTTCGCCATTTGTACCACATATAGCAGATGAATTATGGGAAGAAGCTGGATTTAAAGGGTTTGTATATGAAGAGAAGTGGCCAATTTCTAATGAAGAGTTTTTAGTAGAAGATGAAGTAAATGTAGCATTTCAAGTAAATGGTAAATTGAGAGATGCAGCAACTGTAGCAAAAGAGATAGGTAGAGAAGAACTAAAAGAGTTAGCGTTAAATTCTGATAAAGTTAAAAAATATACAGATGGAAAAAATATATTGAAAGTTATAGTTGTTCCAAATAAAATAGTTAATATTGTAGTAAAATAAATTGAAAGTCCTCTTTTTTCTATTAAGAAGAATAGGGGGCTTTTTATCATATATTTTTTATTAATTAGAAAAGTATAAAATTATTCAGAGAATAATCTATGCTATTTTGTTAGTCATGATTATTGTTAATAAGTAAAAAAATATATCTAAAAGTAACTTATAGGATAAAAAAGTAAAAAAAGCATATTTATTTTAATAAAAAATAAAATATATTTATTGAAGAAATCAAATATATCGAAAAAATAAAGTTGAATAATCCGTTGATTTTAAAAGGTTTCAAAGGATGTTATGTAAAAATATAAAAAAATGCAAAAAAAGTATTTGACAAAATGTGATAAGTGTGGTAATATTAATCTCGTCCTCGAGAGAGGGCAAAGGACATTGAAAACTTAATAGAGAGAAGTAAAGCAAACCAAAAAAAAGACAAAAAGGTGTAAAAATATAGATTGAAGAGTTTGATCCTGGCTCAGGATGAACGCTGGCGGAATGCTTAACACATGCAAGTCTACCACAAAGGCTCTTCGGAGCTGAGTAAGGTGGCGGACGGGTGAGTAACGCGTGAATAACCTGCCCATTAGAGGGGGATAACTTCTGGAAACGGGAGCTAAAACCGCATAATCTTATTGATAGGCATCTATTGATAAGTAAATGCTATATGCGCTAATGGAGGGGTTCGCGTCCTATTAGCTAGTTGGTGAGGTAATGGCTCACCAAGGCGACGATAGGTAGCCGGCCTGAGAGGGTGAACGGCCACAAGGGAACTGAGACACGGTCCTTACTCCTACGGGAGGCAGCAGTGGGGAATATTGGACAATGGGCGAGAGCCTGATCCAGCAATTCCGCGTGAATGATGAAGGCCTTCGGGTTGTAAAGTTCTTTCAGCAGGGAAGAAGCAAGTGACGGTACCTGCAGAAGAAGCCACGGCTAATTACGTGCCAGCAGCCGCGGTAAGACGTAAGTGGCAAGCGTTATCCGGAATCACTGGGCGTAAAGGGCATCTAGGCGGCCTATAAAGTCAGAGGTGAAAATTCATGGCTCAACCATGTCCTTGCCTTTGAAACTAATAAGCTAGAGTACGGGAGAGGAGGGCGGAACTACAAGTGTAGCGGTGGAATGCGTAGATATTTGTAGGAATGCCGATGACGAAGGTAGCTCTCTGGACCGATACTGACGCTGAAGTGCGAAAGCTAGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCTAGCTGTAAACGATGGATACTGGGTGTGGGGGGTCGAACCTCTGTGCCGAAGCTAACGCGATAAGTATCCCGCCTGGGGAGTACGTTCGCAAGAATGAAACTCAAAGGAATTGACGGGGACCCGCACAAGTGGTGGAGCATGTGGTTTAATTCGACGCAACGCGAGGAACCTTACCAGGTCTTGACATCGTGAGAATTCTGTAGAGATATGGAAGTGCCTCTTTGAGGAACTCATAGACAGGTGGTGCATGGCTGTCGTCAGCTCGTGCCGTGAGGTGTTGGGTTAAGTCCCGCAACGAGCGCAACCCCTATTGTTAGTTACCATCATTAAGTTGGGGACTCTAGCAAGACAGCCTACGACGAGTAGGAGGAAGGTGGGGATGACGTCAAGTCATCATGCCCCTTATGACCTGGGCTACACACGTGCTACAATGGGATGTACAGAGGGCAGCGAAAGGGCGACCTGAAGCGAAACTCAGAAAGCATTTCGTAGTTCGGATTGCAGTCTGCAACTCGACTGCATGAAGTTGGAATCACTAGTAATCGCGAATCAGCAATGTCGCGGTGAATACGTTCTCGGGTCTTGTACACACCGCCCGTCACACCACGAGAGTTTGTTGCACCTGAAGTAGCTGGCCTAACCCGTAAGGGAGGGAGGTTCCTAAGGTGTGGTGAGCGATTGGGGTGAAGTCGTAACAAGGTAGCCGTACCGGAAGGTGTGGCTGGATCACCTCCTTTCTAAGGAGTATAATAGCTTCTCTCTATTAAGCAAGTCTTTTAGAAATAAAAGGACATTGGGAATTGTATAGTAGTAATAATAAGCAGAAGAAAAGAAGAAAAATAAGGTTAAGATATTAAGGGCACACGGTGGATGCCTAGGTAATAAGAGCCGAAGAAGGACGTGGTAAGCTGCGAAAAGGTAGGAGGAGCTGCAAACGAGCGTTGATCCCTATATATCCGAATGGGCAAACCTATACATTTGAAGGATGTATACGAAAGAGGTAAGTGGGTGAACTGAAACATCTAAGTAACCCGAGGAAAAGAAAGTAAAAACGATTTCCTAAGTAGCGGCGAGCGAACGGGAAAGAGCCTAAACCAATATAGTGTTAAAGGATGCAGCCGTTGCTGTATTGGGGTAGCGGGACCGAATCCGAGAGAACTGCAAGGTATCTATTTATGGATGTGTATAAAGTCGAATAGTTTGGGAAAGCTAACCGAAGATGGTGAGAGTCCAGTAGATGAACTGTATGCATAAGTAAAGAATCGGCACCCAAGTAGCACCGAACACGAGAAATTTGGTGTGAATCAGCGTGGACCAGATCACGTAAGGCTAAATACTCTTATTAACCGATAGTGAATAGTACCGTGAGGGAAAGGTGAAAAGGACCCTTGTTAAGGGAGTGAAATAGAACCTGAAACCGTGTGCTTACAAGCGGTCGGAGCATTTTTAGGAATGTGACGGCGTGCCTTTTGGAGAATGATCCTGCGAGTTACCGTTAGTGGCGAGGTTAAGGAAACGGAGCCGAAGGGAAACCGAGTCTGAATAGGGCGACGAGTCGCTAGCGGTAGACGCGAAACTTGGTGATCTATGCCTGTCCAGGTTGAAGCTGTGGTAAGACACAGTGGAGGACCGAACCCACCGTCGTTGAAAAGCCGGGGGATGAGGTAGGTATAGGGGTGAAAAGCCAATCGAACCAAGAGATAGCTCGTTCTCTCCGAAATGCATTTAGGTGCAGCCTTAATTAGTAATCTGCGGAGGTAGAGCACTGATTGTCGTAGGGGGCGTATAGCTTACTGAACACATTCAAACTCCGAATGCCGTAGATGATAGATTAGGAGTGAGACTATGGGTAATAAGATTCATAGTCGAGAGGGAAACAGCCCAGACCACCAGCTAAGGTCCCAAAGTAATATCTAAGTGGGAAAGGATGTGTCGATTCAGAAACAACCAGGAGGTTGGCTCAGAAGCAGCCATTCCTTTAAAGAGTGCGTAATAGCTCACTGGTCGAGAGTCGATGCGCCGACAATGTAACGGGGCTAAGATATTCACCGAAGCTGTGGAACATGCGTAAGTATGTTGGTAGGAGAGCGTTCTGTAGGCCGGCGAAGGAGAACTGATAAGGTTTTCTGGAGGTATCAGAAGTGAGAATGCAGGAATGAGTAGCGAGAAGGTAGGTGAGAATCCTACCCGCCGAAAGCTCAAGGTTTCCAGGGGAAGGCTCGTCCTCCCTGGGTAAGTCGGGTCCTAAGTTGAGGCTAAGAAGCGTAGGCGAAAGGAAAACAGGTTAATATTCCTGTACCGCTAATAACTGATAGTGATGGAGGGACACAGAAGGGTATAATAGCTTACTGACGGAATAGTAAGTATAAGCATGTAGGATGTCTGTATAGGAAAATCCGTATGGATAGATCTGAGGTGTGATGAGGAGTTCCATTAGGAACGAAGTATTAAATCCCATGCTGTCGAGAAAAGCTTCTAAACTAGTTGTTAGCGCCCGTACTGCAAACCGACACAGGTGAGCGGGGTGAGAAACCCAAGGCGCGCAGGCGAACCATCGTTAAGGAACTCTGCAAAATGGCCCCGTAACTTCGGGAGAAGGGGTGCCTAAAGTATGTGAAATTCTAAGCGGATGGAGCAGAAATAGGCCGCAGTGAAAAGGTCCGGGCAACTGTTTACCAAAAACACAGGTCTATGCTAAGCTGGAAGGCGACGTATATGGGCTGACACCTGCCCAGTGCCGGAAGGTTAAGAGGAGGAGTGAGAGCTCCGAATTGAAGCCCCGGTGAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAAAGGTGTAATGATCCGGACGCTGTCTTGACGGTGGGCCTGGTGAAGTTGTATTACCGGTGAAGATACCGGTTACCCGCAGCAGGACGGAAAGACCCCATGGAGCTTTACTATAGCTTGGTATTGGGTTTTGGTATTATATGTATAGGATAGTTGGGAGACATTGATTATATGACGTCAGTTGTATATGAGTCGTTGTTGGAATACCAACCATGTGATATTGAGATTCTAATCTGTCGTGTGTAACGATGGAGACAGTGCTAGGTGGGTAGTTTGACTGGGGCGGTCGCCTCCTAAAAGGTAACGGAGGCGCCCAAAGGTTCCCTCAGGCTGTATGGAAAGCAGCCAAAGAGTGTAAAGGCATAAGGGAGCTTGACTGTGAGACAGACATGTCGAGCAGGGTCGAAAGACGGGCTTAGTGATCCGGTGGTTCTGAATGGAAAGGCCATCGCTCAACGGATAAAAGCTACCCTGGGGATAACAGGCTAATTCTGCCCGAGAGTCCATATCGACGGCAGAGTTTGGCACCTCGATGTCGGCTCATCGCATCCTGGGGCTGGAGAAGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGTACGTGAGCTGGGTTCAAAACGTCGTGAGACAGTTTGGTCCCTATCCGCTGCGGGCGCAGGAATATTGAAGAGAGCTGTCCTTAGTACGAGAGGACCGGGATGGACAAACCGCTGATGTACCAGTTGTTACGCCAGTAGCATAGCTGGGTAGTTACGTTTGGACAGGATAAACGCTGAAAGCATCTAAGCGTGAAGCCCCCTTTAAGATAAGTATTCCTATAGCGTATGCTAGTAAGGCTCCTTCGAGACTAGGAGGTCGATAGGTTAGGGGTGTAAGTGTAGTGATACATTTAGCTGACTAATACTAATCAGCCGAGGTCTTAACCTTTAAATAGTTTCTTTGATTAAAACTGCTTGTAATATTACTATACAATTTTGAATCTCTTTTTAAAAAAAGAATATTAAAGAATTGTTTAAAGAGTAAGGTAACTTTATTTTTAAACGTTCATAAACCAATTATTATTTAGCTTGGTGGGTATAGCTAAAGGGGTACACCCAGTTTACATTTCGAACCTGGTAGTTAAGCCTTTATGCGCCGAAAGTACTTGACTGGTAGCGGTCTGGGAGGATAGGTCCCTGCCAAGCTTTAATTTATACATACTGGTTTCCCTGATAGCTCAGTTGGTAGAGCAGGTGGCTGTTAACCACCTTGTCACTGGTTCGAATCCGGTTCAGGGAGCCATTATTATTTAGTTATTATATATTTTTTAGATTAGATATTAAACCAATTATTATTTAGCTTGGTGGGTATAGCTAAAGGGGTACACCCAGTTTACATTTCGAACCTGGTAGTTAAGCCTTTATGCGCCGAAAGTACTTGACTGGTAGCGGTCTGGGAGGATAGGTCCTTGCCAAGCTTTAATATATTATAGATATATTTTATGGTTCTGAGAGCCATTTTTTTATTTTTTGAAAAATTTTATAATTATTAAATTAAAAGTAGGAGGAAAAGAAATGGAAATGAAAGATTTAATAAATGAAATAAATGATTTGTCTAGGAAATCAAAAAGTATAGGATTAACTTCTCAAGAGAAGAAAAAGCAAAAAAAGTTAAGAGAGGAATATTTAGAAATATTTAGAAATAATTTTAGAAACCATTTAGATAGGATAAAAATAGTAGATGTAGAAGAAACCAGATAATTATTTTAAATTATTTGGTTTCTTTTATAATAGGAAAGCATAGAATTGATTTAAGAATATCTTAAAAATAACATTTCTATTTTGTAAAACATGAAATTATTTAAATGGTTTTCATAAAAAAATAAAAAAACTTCATTCAGGACAATATCATGCTATTTCAAGTCATAAATATATCTGTTTAGGCAATAAAAATAACGTTTCAAGCCATTTAAGCCATTTGACATTAAAATAAAAAAAGTATAAAATAAAAAATAAGAAAATAAATAAAAAAGGAGTGGTTTAAAATGGATATGTTTTTTTTCTTTATATTATTAGGAATGTCATTTTTTTTCTTGATTTTAGGGGTATATTTACTTAGAAAGAAACCTTTAATAGCAAAGGGAGGAGTATTTGTATCAATTGTAAGCTTGTGCTTTTTTCCTACAGTTATAAAAAATATAATAGAAAGTTATGAATATGGTGGAGTGTATTTTAAAATAATAGGTTTGGTATTTATATTATTTTATATATGGCTTATATTTATTTTGATTAAGTCATACGGAGATATAGTAGTGTTTAACAGTAAAGAAGAGGAGTTATATAAATCTGTATATAATTCATTAGAAAATTTAGGAATAGAATTTGAAGAAAATAGAGGTAAAATAATATCTAATCAAAATAAAATAGAGCTTAAATTAAATCATAGTAGTTTTTTTAAAATAACAAACTTATATATAAAAAGTGATGAGAAATTTAAAAATGTGTTTTCTTCTGAGATAAAAAAAGAGATGAAAGATATTAGACTTTCTAAAATTTCACCAGGAAGCGTTACATATATAATAGGAGGAGTATTTCTTATTACTATTTTAACTTTATGGATAATTTAAGGAAATAAAATCATAAAACAATTAAAACCTGACTCTGTGAAGAAATCCAAATATATAGTCCAATTTTTTACAGTATAGTTACTTGGAAAAGTCATGTTGAACGTATAGGAGTGATGGTGATTTTTCATAATCTATATGTAGTGAAGGTGGAGGAATATATCGAAATTCTCTAACGGATTCAGGTGGAAATATCCTTTAAAAATAAAGATTGAATATTCAATCTTTATTTTTTTTTGAAGGAAATATTAAAAATTATCGTATAATGTTATTGTGATACTTTATATAGATAATTTAATAAAATCAAAGTCAAAGTCGATTTTATACCATTTAAGGGGGAGATTAGTATGGCTAAAGAAATTTTTATGTTTGAAGAGGGTAATAAAGAATTAAAAGCATTGTTAGGTGGAAAGGGAGCAAATTTATCTGAAATGACTAGAATTGGGTTGCCTGTTCCTTATGGATTTATAATTACTTCAGAAGTTTGTGTTGATTATATGAAACAAGGAGAAGAGGTAGTAGAAAAACTAAAGGATGATATATTAGAATCTCTTATAAAAGTTGAAGATAAAGTTGGAAAAAGTTTTGCTGCTTCGGAAAATACATTATTAGTATCTGTTCGTTCTGGTGCTAAAATTTCAATGCCTGGCATGATGGATACAATACTTGATTTAGGATTAAATGATAATAATGTAGAGGGATTTTCAGAACAATTTAATGATAGAAGATTTGCATATGACTGTTACAGAAGACTTATACAAATGTTTGGAAATGTAGTAATGGGAATAGAACATGATAGATTTGAAGAAGTTTTAACGGCTATAAAAAAAGAGAAAAAAATTAAATATGATATAGAATTTTCAATTGAAGATTTGAAAAATATTATAGTTGAATATAAAAAATTGGTTAAAAATGCAACAGGTAGAGAATTCCCACAAGATCCTTATGAACAATTATTTATGGCAATAAAATCAGTTTTTGAATCTTGGAACAATAAAAGAGCTATAACATATAGAAAACTTAATAATATACCAGATGACTTGGGAACAGCTGTAAATATTCAAATGATGGTGTATGGGAATAAAAATGATATTTCAGCAACAGGAGTTGCTTTTAGTCGTTCACCATCTACAGGAGAGAAAAAATTATATGGAGAATATTTAAAAAATGCACAAGGTGAAGATGTAGTGGCTGGAATAAGAACCCCTAGAGAAATAAATGAAATGGAAAAGGAATTTCCAGGTATATATAATCAATTAAAAGGAATATCACAAAAATTAGAGTTACATTATAAAGATGTACAAGATATGGAATTTACGGTAATGGATGGAAAATTATATATGTTACAAACAAGAAATGGGAAAAGGACAGCAGATGCAGCAATAAAAGTGGCTGTAGATTTTGTAAAAGAGGGGATAATTGACAAAAAAAATGCAATAAGGAGAATTGATCCAGAACTATTAATAAAGATAATGCATAGTAGAATTTCTCCAAACGCTAAGAAAATAAATAGAGTTATTGCAAAAGGGTTGCCAGCTTCTCCAGGGGCTGCAATTGGAGAGGTTGTATTTACAGCAGATAAAGCAGAACTTTTGGGAAAAAAGGGAAAAAAAGTTATCTTGGTAAGAATAGAAACCACGCCTGATGATATAAATGGGTTAGCTCAGGCAGAGGGGATATTAACAGCTAGAGGTGGGATGACTTCTCATGCAGCAGTTGTGGCAAGAGGAATGGGAAAACCTTGTGTAGCTGGATGTAATGAACTTGAAATAGACTTAAAAGAAAAAATAGCAAAAGTTGGGGATGTAACTTTTAAATCAGGAGATATAATAACATTAGATGGAGGAAGTGGTGAACTGTATTTAGGAGAAGTAGCAACAATAGAGCCAAATTTAAGTGAAGAAGCAAAATTATTATTAGAATGGGCAGATGAATTTAGGAAATTAGGTGTAATGGCAAATGCAGATACTCCATTTGATGCAAAAAAAGCAAGAAGCAATGGAGCAGAAGGTATTGGACTTTGTAGGACAGAGCATATGTTTTTTGAAAAAGAAAGACTTGAATTTGTACAAAAAATGATTATGGCTGGAAGCAAAAAAGATAGGATAAAATATTTAGATGAATTAGAAAAATTTCAAATAAAAGATTTTCAAGGAATATTTGAGGCTATGGATGGACTTAGTGTAACAATAAGATTATTAGATCCTCCTTTACATGAATTTTTACCTAAGAAAGATAAAATAAAAGATCAAATAGGATTTGAATTAAAAAGGCATAATATTGATAAAGTTAAATATTTAGAAAAGATGTTAAAAAAATTAGATGCTTTGCAAGAAGTAAATCCGATGTTAGGGCATAGAGGAGTTAGATTAGGAATAGTTTATAAAGAGATTTATGAAATGCAGATAAGAGCAATATTTATAGCATTAATAAAAAGACCAGATATAAAAATAAAGTTAGGAATAATGGTTCCGTTAGTGGCAGATATAAATGAATTTACAGTAATTAAAGATTTGGCAAAGAGAATAGAATTAGAAGAGATACCACATTCAGGAAGAAAGATAGAGTATGAGATAGGAACAATGATAGAATTACCAAGAGCATGTATGGTAGCAGACGAAATTGGGAAAGAAGCTGAATTTTTCTCTTTTGGAACTAATGACTTGACTCAAACTACTTTTGGATTTAGTAGGGATGATGCAGAAGGAAAATTTTTACATTATTATTTGGAAAATAAAATATTAGAAAGAGATCCATTTCAAACTATAGATGTGAAAGGCGTAGGAGCATTAATGAAAATAGCAATAGAAAAAGGCAGAAATATTAAAACTGATATAAAAATAGGAGTTTGTGGAGAACATGGTGGAGATATAGAATCAATTGATTTTTTTAATGAAATAGGATTAGATTATGTGAGCTGTTCTCCATATAGAGTACCAGTAGCTAGATTGTCAGCAGCGAGAGCAGAAATAGGTTAGAATTAATAAAAGTGAGGATTATTCCTCACTTTTATTAATATATATATATTAAAGTCGATAATATTAGTATAGTTTATAATAAAACTTGATTTTTAAGAGTTTATTTATTATAATTAAAATAGAAAAGTGTATTTAATGGAATGAAGTATAGCTTTTTTTATTTAATAATAAAGTATAAATTTGTTCAGAAAATAAGCTACGCCGTTTTTTTAATATACGATTTTTTAAGGCTAAAGTTTTTAGTAGCCAAAATTTTAGAAAAATATTCACACTCTACCAGATGAAGCATAGCTTATTTTTTAGTGGTTAGGAAAATATAAATTTATTCAGAAAATAAGCTACGCCATTTTTTTGAAATATGCGATTTTTCAAAGCAAAATTTTTCAGAAACCAAAATTTTAGAAAAATATTTATGTTTTACGAGATGAAGCGTAGCTTATTTTTTTAGTAATTATAGCTAGAGTCATAAAAAAATAGGAGGTGGCAATTATGAAAAATGAAAAGAAATTTGTAGAAGTTTTATCAGAAGTTATAAAACAATTAATAGGCCCTTCTCATGAGAATTTGAAAACAGTAGAGACTCATATAGTTGAAAATTTAACAAAAAAAGGTTATGAACTAGAAGAAATTTCTGAGATGTTAGATGAAATCTTTGAATCTATGAATATTTCAAGAGCTAAAGATTTTAAAATTAGGATGATTCATCCTTTAGAGGTAGAGAATTTAACACCAGAAGCTAGAAGCTATCTGTTTGATTTACGTTCAAGTGAAGTAATTGATGATGAGAAATTTGAAGAGCTATTAAATGAAACAATAGCAGTTGATTTTAAAGTGGGAATAAATTCTTTAAAAACATTATTAAGTAGAAAAGGAATAATTGTAAATAAAATAATAAATTGAGGTGGAAATATTGGTAAAAAGATTAGTGATTGTGGAATCACCAGCAAAAGCACATACAATAAAAAAAATATTAGGTAAAAATTATGAAGTAACTGCTTCTTATGGGCATATTAGAGATTTGCCAAAAACTAAATTGGGAGTGGATATTGAAAATAATTTTGAACCTTCTTACATTACAATAAAAGGTAAAGGGAAAGTTATAGCTGAATTAAAGAAAAAAGCTAAAAAAGTTGATCAAGTGTATCTTGCTTCCGATCCAGATAGGGAGGGAGAAGCTATAGCTTGGCATATCTATAATGCTTTAAAATTAAAAGATAAAAATATAAGGGTTGAATTTAATGAAATAACTAAAGAAGCAATAAAAAATGCTGTGAAAAATCCAAAACCAATAGATGAAAAAAAAGTAAATTCACAGCAGACTAGAAGAATATTAGACAGAATTGTGGGATATAAAATAAGTCCTTTACTTTGGAAAATATTAAGCCCTCATGCAAGTGCCGGTAGAGTACAATCAGTGGCATTAAAATTAATATGTGATTTAGAGAGAAAGATAAAAGCATTTATTCCAGAAAAATTTTGGGAAGTTTCAGGAATTTTTAATAAAAAATTAAAATTAGAAATTTATAAAATAGATAAAAAAAGAGTAAAAAAGATTAAAGATATTAAAGTTGTAGAAAAGCTAAAAAAAGAAATAATAAATAAAGAGTTTGAAGTTATAACAGCAAAAGTTAAGAAAAAGAGTAAAAGAGCACCTTTTCCTTTAAAAACAAGTACATTGCAACAATTAGCTTCATCCTATTTAGGATTTACAGCTTCGAGAACCATGGGAATAGCTCAAAGTTTGTATGAAGGTGTAAGCATTGGTGGTTCATATGTTGGTTTGATTACATACATGAGAACAGATTCTAGTAGAATATCAAAGGAAGCAAAAGAAGCTGCACAAGAATATATTAAAAATATATTTGGAGAAAAATATGTTGGCGATTATGTGCCACAAAAATCAAAAGGGAAAATACAAGATGCTCATGAGGCAGTAAGGCCAACTGATGTAAATAGAAGTCCAGAATTAATAAAAGACAGTTTAAATAAAGATCAATATAAGTTGTATAAGTTAATTTGGGAAAGATTTTTAATATCGCAATTTTCAAATATGGAATATGAGCAATTTGAATTAGTTTCAGAGTATGAGAAATACCAATTTAGAGGAACGGTTAATAGAATACTATTTGATGGTTATTATAAGTTATTTAAGGAAAATGATGAAGATAGTTATGGCGGGGATTTTCCAGAGATAAAAGAGGGAGATAAATTATTATTAGATAAGTTAGATATAACAGAAGGAATTACAAAACCACCAGCAAGATTAACAGAATCTTCGCTTATAAAAAAGCTAGAAACAGATGGAATAGGTAGACCTTCTACGTATGCAGCTATAATTGAAACATTAAAAAAGAGAGAATATGTAATTTTAACTAAAAAATCTTTTATTCCAACAGAATTTGGATTTGAAGTTGAGGAGATATTGGAAAAATATTTTCCTACTGTTATGGATATAAAATTCACAGCAAAAATGGAAAAAGAACTTGATGAGATAGAAGATGGAAATTTAGAATGGAAAAAAGTATTAGGAGATTTTTATGGAGAATTAAAAGAATATTTAGAAGGATATAATAAAGAAATAAGCAAAATATTAAATCAAGATATATATTCTGATCTGATTTGTAAAAAATGTGGTGGAAAAATGTTGTTAAAAACAGGTAGATTTGGAAAATATCTTGAATGTGAAAATTATGAAGAGGATAAAGAGAGAGTATCAATTCCTAAAAGTATAAAAATAACAAAAGAAGAAATGGAATTAGGCGAGATAAAGATTGCAGATAGGTTAAGTGTGGTAGTAAAGGAAAAAGCAGGGATAGAAACAGATGTTGTTTGTAAAAAATGTGGTGGGAAAATGATTGTTAAAACAGGTAGATATGGGAAATATCTTGAATGTGAGAATTATGCAGAAGATAAAGAGAGAGTATCAATTCCTAAAGGTATAGAATTGATTGAAGAAGATGGAATTATAAAGATAAAAGAGCAGATGGCAAAATTAGATGCAGAAGATGAAGCGGCTTTGAAGGAAGTAGGGCCGTGTGATAAATGTGGAAGTCCTATGATTGTAAAAATGGGGAGATATGGGAAATTTTTGGCTTGTTCAAATTATCCTGAGTGTAAAAATATAAAGAAGTATCCGAAGAAATAATTTATTATTAATAATGGTAAATTTGTGATTAAAAGATAAAAGATAATAAATAATAAATAATAAAATAATAAAATTAAATTATAAAAACAGAATAATATAGGAGTTGTAGGGGCGAGGTTTTCTCGCCTAAGGCATGTTATATTGAATTGATATTTTGTTTTGGATTGGAAGATATATTCGCCTTTGGGCGAACTACTTTTTTCTTGATAAAAAAGGAGCAAAAAATCAAGTGCTAATGCTCCAAGTTATAATTTTCTAAGATGAAGTTTTTCTACAACTGCCAAACTCGCTGCGCTCAGACAGTGGCAGTCGCTTAACGGAAAATTCATCAAGAAAATTTATAACTTTACGCAAATGCACGGGGAATCAAAAGATTAAAAGATAAAAGATAAAAGATAAAAGATAAAAGATAAAAGATAAAAGATAAAATAATAAAATTAAATTATTAAAAAATGAAGGGTGGTAGAATAACATAGAAGAGGTAATAGTTGTAGGAGCGGGATTGGCAGGAAGTGAAGCAGCATATCAATTGGCAAAAAGAGGAATAAAAGTAAAGCTTTATGAGATGAAACCTATTAAATATACAGAAGTGCATAAAAGTGAAAATTTTGCGGAGCTTGTTTGTAGCAATTCTTTAGGGTCTAATTTATTAACAAGTGCTTCGGGATTGATGAAAGAAGAATTGAGATATTTTGATTCATTTTTAATAGATATAGCTGATAAGGTGAAAGTTCCTGCGGGGCAGGCTTTAGCTGTAGATAGAGAAGGATTTTCTGAAATGGTAACTAAAAAAATACAAGAAAATGAAAATATAGAGATTATAAATGAAGAATTATTAGAAATTCCTAAAGATAAATATGTTATTATTGCAAGTGGACCATTAACAAGTGAAGGTTTATCTAAAAAAATAACAGAATTAGTTGGAGACGATTATTTATACTTTTATGATGCAGTAGCTCCAATTTTAACATATGAATCATTAAATCAGGAAAAAGTATATTTTGCTTCGAGATATGATAAAGGTGAAGGCGAATATATTAACTGTCCAATGTCAAAAGAGGAATATACTTTATTTTATAATGAGCTTATAAATGCTGAAACTATTCCATTGAAAAAACATGAGAAAGAAAAACTTTTTGAAGCTTGTATGCCTGTAGAAAGAATAGCAAGTAGAGGAGAAAAAACACTGTTATTTGGACCATTAAAACCTAAAGGGCTTACAAATCCAAGAACAGGAGAAGAGGATTATGCTGTTGTTCAATTAAGACAGGATGATAAAAATGGTGAATTATATAATATGGTAGGGTTTCAGACAAATTTAAAATGGGGAGAACAAAAAAGAGTATTTTCTCTAATCCCTGGATTAGAAAATGCAGATTTTATAAGATATGGTGTAATGCATAGAAATACTTTTATAAATTCTACAAAATTATTGAATAAGGATCTGAGCTTAAAAAGTAATGATAAAATATTTTTTTCTGGTCAAATAACAGGCTCAGAAGGATATGTATCTGCAATAGCTACTGGACTTTTAGCAGCAATAAATCTTTATAATAAGATGAATGAAAAAGAGGTAATTGTTTTACCAACAATAACTGCAATGGGGGCAATAGTAAATTATATAACAGAAGAAAGAAAGAAATTTCAACCAATGGGACCTAATTTTGGAATAATTGAAAAATTAGATGAGAGAATCAAAGATAAGAGAGAAAGATATAAAGCTGTTTCTGAAAGGAGTATTAATTATTTAAATGAGGTATTTAAAAAAGATTTTAAATGATTTTTTATATTATGAGGAAATGGGTGTAAATAAAAGTGAAAATACTTTAAAGATATATAGAGTGGATATATTACAATTTATAAATTATATAATAGAATATGAAGATATACATGATTTTTCAAATGTTAATCATTATACAATTAGGTCATTTATGGCTTATTTAGATAGAAATAATAGAGGGAAAAGAACTATAAATAGAAAAATATCATCTCTTAGAATGTTTTTTAAATATTTAAAAAAGAAGGATTTAATAGATAAAAACTATATGACTTTAATAAGTAATCCAAAATTTGGACAAAATTTACCAACAGTTTTAAATAAAAATGAAGTTATAAAAATTTTAAGAGAGATAAAAACATCTAATATATTGGGGATAAGAGATCGATGTATAGTGGAATTACTTTATTCAACTGGACTTAGAGCAGCTGAACTATTGGATATAAAAGAAAAATTAATAGATTTTTCTGCAAGAGAGATAAGGGTTATTGGAAAAGGAGAAAAGGAACGAACTTCATTTTTTAGTAATTCATCTAAAAATTGGATTTTAAAATATATTGAAGAAAAGCGTAAAAAAGGTTTTTTGTCAGAATATCTATTTTTAAATTCAAGAGGTGGGAAATTAACTGATAGATCACTTAGAAGATTAATTGAAAATTATTCAAAAAAAGCAGGAATAGAAAAAGAAGTTACTCCGCATACATTTAGACATACATATGCAACATATTTATTAAATGAAGGTGTTGATATTAGATATGTTCAGGAACTTTTGGGACATTCTAATATAACTACTACTCAAATTTATACTCATGTAAGTAAAGAGATATTGAGAGATATTTATATAAAAACACATCCAATGGCGAAGTGAAAAGATAATGGGAAATTTATAATAGAGAAACTAGAAATAAAAAAATGGAGGAAAGATGGAAAATATGAGGGCAACAACGATTTTAGCAGTGAAAAAAAATGGTAAAGTCGTTATAGGTGGAGATGGACAAGTTACATTAGGGGCTACTATAGTAAAAAGTAAAGCTAAAAAAATACGAAAATTATATAATGGAAAGATATTAGCAGGATTTGCAGGAGCAGCAGCAGATGCATTTTCTCTTTTTGATAAATTTGAAAATAAATTGGAAGAACATCAAGGAAACTTAAAAAGAGCAGCGGTTGAATTGGCAAAAGATTGGAGAACAGATAAAATATTAAGAAAATTAGAAGCAATGTTAATTGTGGCTAATGAAGATGAGCTATTGATAATTTCTGGGAATGGTGATATATTAGAGCCGGATTTTGATATAGCTGCAATAGGATCTGGTGGGAATTATGCTTATTCTGCAGCTAGAGCATTACATGAAAATACTGATTTTACTGCTAAAGAGATAGTAGAAAAAGGGTTAAAAATAGCATCAGATATATGTATTTATACGAATAGTAATATTGTAGTTGAAGAAATATAAGAAAGATAAAAAAAGTCTATTTGCTTATTAACCAATTAATATTTTTAGCTTTTTTATGAAAAAATATGAGAACATTATTTTTTAAATGTTCTATAGCAAGGAGAAATTTAGATGAAAAAAAATTTAAAAAGAGATGATATGTTTAAGAAGCTATTTTCTGATAAAAAGTTATTTTTAATGTTATTGAAAGATTTTATAAAAGAGTCTTGGGTAAAAGATGTAGATGAAAATAAATTGGAATTGGTTCCATCACTATTTACAGATGGAGTTGAGACAAATAGGGAAAGTGATATAATATATAGAATACAACAAGATGATAATGAGATATATGTTTTTGTTTTATTAGAACAGCAATCAACAGTAAATTTTCTTATGAGTTTTAGGATACTAGAGTATATGGTGAAATTATGGAGAAAATATATAGATGATAACAAAAAAGAATCAAAGAATAAAAGATTTTTATTGCCACCAATTTATCCAATATTATTTTATGATGGAGTGAAGAATTGGACAGCAGAAACAGAGTTTAAAGATAAAATTAAATCAAAAGAAGATTTTAAAAAATATATACCAAATTTTGAGTATGAACTTATAGACTTAAATAAGATAGAATTTAAAGAACTAGAAAGTTATGAGGATTTATTGTCTATATTATTAATAATAGATAAGATAAAAAAACCAGAAGATTTATTAAAGCTAAGTGATATAGAGAAAAGTTATTGGAATAGGGTAAAAGTAAATACAGGGAGTAAAAGAGAACTAGAAAAAGTGGTAGAAGTAATGAACTTATTATTGATAAGGATAAATGTGCCGGAAGAAGAGAGAAAAGAAGTATTAGAGCAGATTTATGAAGGGAGGATGGAAAATATGTTTGAGATGGCAGTACATTATGATGTACAGGCAGAACGAAAAAAATATATAATGCAAGGAATGGAAGAGGGAATAGAAAAAGGGATAGAAAAAGGAATGGAAAAAGGGATGGAAAAAGGGATGGAAAAAGGGATAGAAAAGGGAATGGAAGAAGTGGCAAGGAAAATGTATGCCAAGGGAATAGAAATAAGTTTAATAACTGAATTTACAGGTTTTTCTGAAGAAAAGATAAAAAGTATTTTATAGATTAAATAATTATTAATATGAAAACTAAAATTGGAGGAGATAAATTGAATAAAAAAAAATGTAATGGTTGTGGAGCAGAGCTACAAAGTAATGATGAAAATAGGGCAGGGTATGTACCTAAAGATAAATTAAAAAAAACGGGGAATGTTGTTTGTAAGAGATGCTTTCAGATAACTAACTATGGGAAATATGTACCTGTAGGAATTGCTGATGAAGAGTATATAGAAGAAGTGAAAATGATAATAAAAGAATTGGATGTAGTTATACTTATTTTGGATATAATAGATTTTGAAGGTTCTTTTAATGAAAAAATACTAAACATCATAAGAGATAAGCCGATAATAGTAGCAATAAACAAAATAGATTTAGTGCCAACAGACAAACATCCAAGTGAAATATCAGATTGGGTAAAAAAAAGATTTATAGAAAAAAGGATAAATCCATTAGATATATCAATTATAAGTGCTAAAACTAGATATGGTGTAAATGGAATTTTGACAAAATTAAATCATTTTTACAAAGGAAGAACTAATGTAGGAGTAGTTGGTGTTACCAATGTGGGGAAATCTACTGTTATAAATAGGTTGTTGGGGAATAAGAAAAATTTAACAGTATCTAAATATCCAGGAACTACTTTAAAAATAGTAAAGAATATTATTCCAGGAACAGAATTTACTTTAATAGATACTCCAGGAATAATTCCAAATGGAAGAATATCAGATATGGTTTGTCATGAATGTAATTTGAAAATAGTACCTTCATCAGAAATATCAAGAATGACATTTAAAATGGAAAAAGATAGAGTTTTAATGTTAGGTGGATTGGCAGTAATAAGAGTATTAAATGAAGAAGGAGAAAAGCCTATTTTTGCAGCATTTGCTTCAAAAGATGTAAAATTTCATAAAACTAATATAAATAGAATAGAAGATATGAAAAGTAAACATATAGGAGAAATGTTAATACCGCCTTGTAATAATTGTAAAGATGAATATTCTAGCTTGAAAATGAAAAAAGAAGTTCATACTGTAAATGAAGGTGAAGAATTAGTATTGAAAGGATTAGGATGGTTATCTGTGAAAAGAGGACCTTTAAAAGTAGAAGTTGAATTGCCTGAAAATGCAGAAATTATAATTAGGAAAGCATTTATAGTACCAAGGAGGTAATTATGACGAGAGAAGAGATATTTGAATTTATAAAAAGTAAAATGTGAAAGAATGTGGTCAAATGAAAAGAGAGAGTGGATTAACAGTTATAGAAGTAGTGATCGCTTTTTTAATAATAATAATAGTTAGTTTTTATACATATCCGAAATATGAAGAGTTTATAAAGTTATCAAAAGAAACTGCACTTGTACAAGAATTGAAAGTTTTAAGAGAAGGTGTATATTTTTATGTTTTGAAATATAATAAATATCCAGCTAGTTTAAAAGAGCTAGAACAAAAGGGATTCATAGATTTTAATGGACAAAGCTATACTGGATTGATTATAAAAAAAGAAAAAAAAGATAAAAATGGAAATTTTTTAGATCCATTTGGGAACATATATATATATGAAAAAGAAAAAGGAAATGTTAGAAGCGGAACAGAAGAATATAAAAATGAATAATTTTAGAATAGTGGTGGATTTTGTTAAAAAAATAAGCTATAATTATATTAAGATAAGAATAAAAAAAAGGAGGAATTAAAAATGGGAAAAGTAAGAATTGAAAAAAAAGAGAAAGGATTTACTTTAATTGAGTTAATGATAGTAATAGCTATTATAGCTTTATTAGCAAGTGTGGCATTGCCAAAATTTGCAGGAGTAACAGATTCAGCAAAAGCAGCAAAAGTACAAGGGGATTTAGCAAATTTGAGAACTTCTATAGCTATGTTTTATGCAAAAGAAGGTAGTTATCCAACAATAGGAACTACTTCAGCATCTAGTATAACTAAAGGCACTGGAGCTTTAGACAGTACTTTTCAAAAATATTATGCAAAAACAACAATGCCAAAAACACCTAAAGGCTCTGGAACTATAGCTGCAGAAGAAGTTAGTGATGTTAAAGATATAACTGGTGGAGATAGTTTAGATTCTACTGGTGGTTGGGCATATAAATCAAGCAATGGAGAAATTCACGCAGATTTAGGAGATGCTTCTAACAATCAATATAAACAAAGTATAGATTGGACAACAGAATAGTTTGTAAAAATATCTCAATCAATTTAGATTGAGATATTTTTATTTTAATTCTAGAAAAGAATATCTACTGTATTATTTAAGAACTTTCACCAAAAAATTAAATTTGACAAAAAAAATAAAAAATGATAAAATGTCAAATAGTGAATAATCACATATCTGGATTAGTAGAGTGGTGCCTAATGGTTCTCTAAGCTTGAAAGATATGGAAGAAAAAACCAAAACTCAGGAGGTAATAAGATGGCAGTAATCAGCATGAAACAATTATTAGAAGCAGGTGTGCATTTTGGACATCAAACAAAAAGATGGAATCCTAAAATGAAAAAGTATATTTTCACAAAAAGAAATGGGATTCATATTATCGATTTACACAAAACATTAAAAAAAGTGGAAGAAGCTTACAAAGTAGTAAAAGAAATATCAGAAAATGGTGGAAAAGTTTTATTTGTAGGGACTAAAAAACAAGCCCAAGAAGCAGTAAAAAATGAAGCTAAAAGAGCAGGAGCTTTTTATGTAAATAATAGATGGCTTGGTGGAATGCTTACAAATTTTAAAACAATTCAAACTAGAATAAATAGATTGAAAAAGCTTGAAAAAATGGTAGAAGATGGTACAATGGAAGTTTTACCTAAAAAAGAAGCAGCAAAATTAGGGAAAGAACTTGTTAAATTGGAAAAAAATCTTGGTGGAATAAAAGATATGAATGGATTACCATCATTGATTTTTATAGTAGATACAAAAAAAGAAGAATTAGCAATTACAGAAGCTAAAAAATTAGGAATCCCTATAGTAGCTATGGTAGATACTAATGTTGATCCTGAATTAATTGATTATGTAGTTCCTTCAAATGATGATGCTATAAGAGCCGTAACTTTAATTTCAAAAGTAGTAGCAAATGCAATTATAGAAGCTAATCAAGGTGAAGAAAAAAATGTAGTAGAAGAAAAAGCAGCAGAAGTATCAGCTAAATAATTTAATATTTAAGGAGGTTTACATAGATGAAAGTAACAGCAGCAATGGTAAAAAACTTAAGAGAAAAAACTGGTGCAGGAATGTTAGATTGTAAAAAAGCATTAGTAGAAACAGAAGGAGATGTAGAAAAAGCTATTGACTTTTTAAGAAAAAAAGGGATAGCAAAAGCAGTTAAAAAATCTGGAAGAGTAGCAGCAGAAGGAATTGTAGTTTCAGCTGTGAGCGAAGATTTAAAATCAGGAGTAATTTTAGAATTTAATAGTGAAACTGACTTTGTAGCTAAAAATGATGAATTTAAAGGATTAGCTAATGATATAGCAAATATTGTATTAGTGAATGATTTTTCTAATGTAGAAGAATTAAAGGCAGCTGACTTAAATGGAAAAACTGTTGAAGTAAGAGTTCACGAATTAATTGCTAAAATTGGTGAAAATATGAATATAAGAAGATTTAAAAAAGTAGTTTCAACAGAAGGATTTGTATCTACTTATATCCATTTAGGTGGGAAAATTGGTGTTATATTAAATCTAAAAGGAGAAGCAACTGAAGAAGCAAAAGTTGCATCAAAAGATGTAGCTATGCATATAGCAGCAATGTCTCCAAGATTTTTAGCTCAAACTGAAGTAACAGAAGAAGTATTAGATAGAGAAAAAGATATAGCTAGAGTTCAACTTGAAAAAGAAGGAAAACCAGCTAATATAATAGAAAAAATATTAATTGGTAAAATGAGAAAATTCTATGAAGAAAATTGCTTATTAAACCAAAAATTTGTAAAAGATCCAGATACAACAATAGAAAAATATATAAAAGGTAAATTTGAAATAGTTTCATTTGATAGATTTTTATTAGGTGAAGGAATAGAAAAAGAAGAAGTAGATTTTGCAGAAGAAGTAAAAAGACAAGTAGAAGGTAAATAATAAACAAAGGGACGCGTATATATTAGTGTCCCTTTATTTTAGATATAGGAGGATAAAAATAATGAAACCGGCATTTAAAAGAATTCTTTTAAAACTAAGTGGAGAAGCTCTAATGGGAAATGAAAAATTTGGAATTTCTGGTGAGATAATTTCAAGTTTTGCATCACAAATAAAAGAGATAGTAGATATGGGAGTGGAAGTAGCTGTAGTAATTGGTGGTGGAAATATTTTTAGAGGAATTTCTGGAGCGGCTAAAGGAGTAGATCGTGTAACAGGTGATCATATGGGAATGCTTGCAACTGTTATAAATGCATTGGCTCTTCAAAATGCAATTGAAAAATTAGGAATTTCAACAAGAGTATTAACTGCAATAGAAATGCAAAAAATAGCGGAACCTTATATAAAAAGAAGAGCTATTCGTCATTTAGAAAAAGGAAGAGTGGTAATTTTTGGTGCAGGTATAGGAAATCCTTATTTTACAACAGATACAGCAGCAGCATTAAGAGCTATAGAAATAAATGCAGAAATACTAGCTAAAGCTACAAAAGTAGAGGGCGTTTATGATAAAGATCCAGTGAAATATAAAGAAGCTAAAAAATATGATAAAGTAAGTTATTCAGAAGTTTTAAACAAAGGATTAAAAGTAATGGATGCTACTGCAATATCATTATGTATGGAAAATAATCTTCCAATAGTTGTTTTTAATTCGTTAGTAGAAGGAAATATTAAAAAGTTAGTTGAGGGAGAGACTATTGGTACATTAGTAGAGGGAGGAAAATAAAATGGCAGAAACTTTGATGAAAGAAATTGAAGAAAGAATGCAAAAATCAATAGATGCAACAAAAGGAAAATTAGCTGCAATAAGGGCAGGAAGAGCAAGTATTAATATGCTTGACGGAATAATGGTTAATTATTATGGAAATCCAACTCCATTAAATCAAGTAGCTAATTTATCAGCTCCAGAAGCAAGAGCACTTACAATAGAACCGTGGGATATTAATGCTATAAAAGATATAGAAAAAGCAATTCAAATGTCTAATTTAGGATTAACTCCAAATAATAATGGGAAATTAATAAGGCTTCAAATCCCAGAATTAACAGAAGAGAGAAGAAAAGATTATTTGAAATTAGCTAAAAAAGAGGATGAAGATGGAAAAATAGCAATAAGAAATGTAAGAAAAGATATAAATAATAAGCTTAGAAAAATGCAAAAAGATAGTGATATAACAGAAGATGAATTAAAATCATATGAAACTAAAGTTCAAAAAATTACTGATAAATATATAAAAAATGTAGATGAACTTTTTGTTAAAAAAGAAAAAGAGATAATGGGGAAATAATAATTGACAATTAAAGAATAAAAATTAAGTAAAAAATAGTAGAAAAAAATAGAAAAATGTGTTAAAATCAATTGTAATTTTTATTATAGGAGGTGAATTTTTGTGGCTTATAGAATTGATGCTGATACTTGTGTAGGATGTGGAGCATGTGCAGGAGTATGTCCAGTAAGTGCTATCTCTGAAGGAGAGAACGGAAAATATGTAATAGATGAAGATACATGTATTGATTGTGGAGCATGCGCAGGAGTATGTCCAGTAAATGCTATTGCGGAAGCGTAGTGAAATTAAATAAACTCCCCTAAATTCAGGGGAGTTTATTTTTTAGGGTTAAAATTCAAAAAAAAAATTTGGGAATATTTAAAAAACAATTTATTTAATATAAAAAATTTATTTTTTAAATATTTCTTAAATAGGGGAAAATTATGGAAATAAAAAAACCAAAACATATAGCTATTATAATGGATGGTAACGGAAGATGGGCAAAAAAAAGAATGTTGCCAAGGACAGCAGGCCATAATGCAGGTGTAAAAACTGTAAGAAGAATATTAAAAGCTGCTGATAAATATGGTATAAAATATTTAACTTTATATGCTTTTTCAACAGAAAATTGGAAAAGACCACAAAAAGAAGTTGATGCGCTTATGCATCTATTTCATCTTTTTTTGAATAGAGAGAGAAAAAAAATGATGAAAGATAATGTTAAACTTATATTTTCTGGTATTAGAGAAGGGATATCGGAAAAGCTTTTAATTTTAATGGATGAAGTTGTAGATGAATTAAAAAATAACAGTGGAATAGTATTAAATATAGCATTTAATTATGGCGGAAGAAGAGAAATTATAGATGCAATAAATTTAGTATTAAAAGATGGAAAAAAAGAAATTACAGAAGAAAATTTCAAGAAATATTTATATCATCCAGAAATACCAGAACCAGAATTGGTAATAAGGACAAGTGGTGAATTTAGAATAAGTAATTTTTTATTATGGGAAATAGCATATTCAGAATTCTATATTACTAAAAAATTATGGCCAGATTTTAAACAAGAAGATTTATTAGAAGCTATAAATGTGTATATGAAAAGAGAAAGAAGATTTGGAGGAGTTTAGGATGAAAGGGAGAATTATAGTTGCGGTGATTTTTATTCCTCTTCTTATATGGATAATGTTGTGTGGGGAATATTCATTATTGTTATTTGTAGAGGTTGTTGTTGGTGTGGCATTATATGAATTTTATAAAATGTTTGAGAAAAAAGATATGAATGTATATTTAAAAACAGGAGTTATAATAGGATTGTTGATCCCTATTTTTTATAGTTATTCAATATGGGCTAAATTAAAAAGGGAAAAATATGCATATTTTGCATTGGTTGCTATTATTTTATATTTTATGATAAAACAAGTTATATCTGGAAGGATAAAAGAAGCTATAAGTGAAATTTCATATACAATTTTTGGAGTTATTTATATATCTTTTATGTTTTCTCATTTGCTGCTTTTGAGATATATATCAAATACTCCTAAAAATATTTTGGGATTTAATTTTACAGAAGGAAGGTTATGGATTTTAACTATATTTTTATTGATTTGGGCATCTGATTCAGCGGCGTATTTTATAGGTGTGAAATATGGGAAACATAAAATTATGCCTAAAGTTAGTCCTAAAAAATCTGTGGAGGGAAGTATAGCTGGAATTATTGCTCCAATATTATCAATGATTCTTTTAAAATATGTATTTTTTAATGAATTATCTTTTTTGCATATAATTTTAATAGGAGCATTGGTTGGAATATTTGGAGAATTTGGTGATTTAAGTGAATCACTTTTAAAAAGAGAATTTGAAATAAAGGATTCTGGGACAATTTTACTTGGACATGGTGGAATTTGGGATAGATTTGATAGTCTAATTTTTGCAATTCCAGTTTTATATTATTATCTTAAATTTTTTGTATTTTAAGAGTAGATTTTTAGAAAAAAGTTTTTATGGAATATCTTTTAGGGAGGAAGCATGAAAAAAATCGCGATACTTGGAGCAACTGGGAGCATAGGGAAAAATGGATTAAAAGTAATAGATCAATTTAAAGATAAATTTGAGATTATAGCACTTTCAGCTAATAAAAATTATAAATTATTAATAGAACAGATAAAAAAATATAAGCCTAAATATGTTTCAATAGGAACAGAAGAAGGATATAAGGCGATAAAAAAAGAATTTTCTAATATAGAAATATTTATAGGAGAAAGTGGATTAAAAAAAATAGGGCAAATTGATGAAATGGATATTTTATTAACAGCAGTTTCTGGTTCTATAGGAATAGAATCAACTATTGAAGCAATAAAAAATGGTAAAAGAATTGCGTTGGCTAATAAAGAGACATTAGTGGCTGCAGGTGATATAATAACGAAAATGGATAGAGAAATTTTGCCAGTAGATAGTGAACATAGTGCAATATTTCAATCTTTAAAATCAGGAAAAAATAAAGAGGTTGAAAATATAATTTTAACAGCATCTGGTGGGCCTTTTAGGGGGTACACATTAAATGAATTAAAAAATATTTCTGTAGAACAAGCTTTAAAACATCCCAATTGGAAAATGGGAAGTAAAATTACAATTGATTCAGCTACTCTTGTAAATAAGGGGCTAGAGGTTATAGAAGCACATTATCTTTTTAATGTAGATTATGACAAGATAAAGGTATTGGTGCATCCTGAAAGTATAGTACACTCAATGGTTGAATTTAAAGATAGTTCCGTTATTGCTCAAATGGGAATGCCAGATATGAAACTTCCAATACAATATGCATTTACATATCCAGATAGAATGTCAAATGTCGAGTTGCCAAAATTAAATTTAGGAAAAATTGGGAAATTAACATTCGAAGAACCTAATTTAGAACTGTTTAAAGGGCTTAAATTAGCATATGAAGCAGGAAAAAATGGAAATGGGTATCCTATTGTATTTAATATGGCAAATGAAGAATTAGTAAAGCTATTTTTAGATAGAAAAATTAAGTTTTTAGAAATATACGATTATATTGAAGAAGTATTAAATCAATTTAATTCCGAAAAAATAGAAACAGTAGAACAAATAAAACATATAGAAAAAATCACAAAAGAAAAACTAAGGAGAATGATAAATGAAAAATAAAAGAGGACTTTTTATAACTTTTGAGGGGGGAGAAGGAGCAGGAAAAACAACTCAAATAGAGCTTTTTAAAAAGTACCTTGAAGAAAAAGGATATGAGGTGGAAGTAACTAGAGAACCAGGTGGAACGTTAATTGGTGAAAAGATAAGAGAGCTGCTGTTAGATGTAAAAAATAAAGATATGAACTATTTGGCTGAGTTATTATTATATTACGCAAGTAGGGCGCAACACCTTTATGAAAAAATTATTAAACTAAAAAATGAAGGGAAAATAGTTATTTGCGATAGATTTTCAGATTCTACATTAGCTTATCAGGGGTTTGGTAGAGGATTAGATAAAGAGTTAATAAAAAATTTAACTAAAATTGTAGAAAATGGAAATGGACCAGATATAACTTTTTTAATAGATATAGAACCTAAAATAGGATTGGATAGAGCAAGGAAATTGACGAGTGATAAAAGAGGTGATAGAATGGAGCAGGAAAAAATTGATTTTTATGAAAAAGTAAGAGATGGATATTTAAAAATAAGTGAAGATGAGCCTGAAAGGGTAAAGGTTATAGATGGGAACCAAGAGATAAAAATTATATTGGAAAAACTAAAAGCTACATTTGAAAAAATAGAAGAGGAAAAATTGTAATAGTATGATTGACCAACAAAAAGGTATTTTAGAATATATAATAGTGTAGGGGCATACCTATGTGTCTGCCCAAATATTTGAATATGCAACAAAAGGGCGAACACACAGGTTCGCCCCTACATTAAAAAATTATTCGATAATTTAGAATTGTGTTACTGGCGAATAAATACTATAAATAACATATTTTGTGGTTGGATATAAAAAAAATAAAAAAAGTAGTTGACAAATATTAAAGTATATAGTATAATCATCTTGCTTTGATGAGAGAAGCAAATGCCTCGGTGGCGGAATAGGTAGACGCACAGGACTTAAAATCCTGTGGTGATTTTCACCGTGCCGGTTCGATTCCGGCTCGAGGCACCACACATATCGCGGGGTAGAGCAGTTTGGCAGCTCGTCGGGCTCATAACCCGAAGGTCACAGGTTCGAATCCTGTCCCCGCCACCAACTAACTAACTTGCCGATGTAGCTCAGTTGGCTAGAGCATACGGTTCATACCCGTAGGGTCGGAGGTTCGAATCCTCTCGTCGGCACCACAATAAAATAGACAAAAGCCGGATAGTTCCTTATGCCCCCTTTAAGGCTATGCGATTAAATATTCCCAGCGATAAGCTGGGTTTTTATTTTTTTGTTAGAAAAGTATAAATTTATCTAGAAAATAAGCTATGTTGTTTTTTATATGTGATGTTTCAAGGCAAATTTTTTCAGGATCCAAAACTTCAGAAGAACATTTATATTCTACTAGGTTATAAAGTGTAGCTTATTTTTTATTAATATAAATTTATAATACTAATATTTAAATTTTTTATAGAAAACATTTAAAATAGTAAAGTTATATGGTATAATATGGTAGTTAGGAACTTTAATTTTTTTCTTGTTTGTTAGGAAAATATAAATTTATTCAGAAAATAAGCTACGCCGTTTTTTTGAAATATGCGATTTTTCAAGGGAAAATTTTTCAGAAGCCAAAAATTTAGAAAAATATTTATGCTCTACCATATGAAGCGTAGCTTATTTTTTTATTTGTTAGGAAAATATAAATTTATTCAGAAAATAAGCTACGCTATTTTTTTTAATATACGATTTTTCGATGCAAAATTTTTCAGAAACCAAAATTTCAGGAAAATATTTATGTTCTATCATATGAAGTGTAGCTTATTTTAGTTTTTAATGCCATATATAAAGGAAGTGAAGATATGGAAGTTTTAACTTTGGATATAATAAGTGCTTTGATAAATGCTCTAAAATACGCTAATATTAATAGGCTTATAAAATTAGAAAAAAGAGCTGTATTAACAAATTTATTATCAATGGAAATAGATGAAAATATAACATATCAAGCAACTATGGCTTCTTTTCTTAAAGATATTGGGAAAATTGGAGTGAGAGAAGTTAAAGAAAAAAGGATGAATTATAAATCTTCTGAAATAATGAGGATAATGCCAGAAATTATTCCATTTCAATATAATATAGCTGATATTATATTAGAAAGTAATGAAAAAATAGATGGGACTGGTTGTCCTTCTAATAAAGAAGATGTATTAATTGAAGCTCAAATAATAGTAATTGTAGAAGAGTATCTAAAAACCATGAGTTTTGAAGAACTGTCTAATGAAAAAAGATATAATCGAAAAATAGTTTTACAGTTGAAAAAACTATTAGAAAATGGTAAAATTATAGATATTTTAAATGATGAAAAAAAGCTAAATAAAGTTTTTTCTGGAGAGATAAATAAATATAACGTTTATAAAGAACAGCTAGAAGGAGTAGAGGAAGAACAATTTATGCATACAATAGCATCTATAATTGATGCAAAACATCAGTATACTGGGGGGCATACTCAAAGAGTTGCAACATTTAGTTATGCTATAGCTAAAAATATGGGATACGAAAAAGAAAAACTATCAGAAATTAGGTATGCTGCGTATTTACATGATATTGGGAAATTAGCGGTAGATTTAGATATTTTGGATAAACCAGGAAAATTAACAGATGAAGAATTTGAAAAAATAAAATTACACGCAAAATATTCATATGATATTTTAAGTGATTCGCCAAGATTAAGGAAGTTTGCGTTTGGGGCATTACATCACGAAAAAATGGATGGAACAGGATACCCTTTCGGACTAAAAGGAGATGAAATTCCAGAAGGTTCTAGATTAATAGCAATTGCAGATATTTTAGATGCTTTAACTTCAGATAGAAATTATAGAAAACCATTTACATTTAAAGAAGCTTTTGAATTAATGGAGATGATGAAAGGAACAGCTTTAGATAGTAAAATATTTGATATAGCTAAAACTACATTTAATATATAATACAGGTGAGTATTCACAGTTGAAAATGGAGGAAAAATGAATATTTTATATTCTGTTATGGCAGATGGCTGGGGTGGTCTTGAAAAATACCCTTTGACTATTTATGAAGAATTATTAAAAAAAGGAAATAATATTTATATATTAACAGTAAATGGAAGTAGATTGCATCAAGAGTGTATGAAAAGGGGAATAAAAGTATTTGTAGTAGATAAAATAAAAAAAATAGATTTAAAAACAATAAAATATATAAAAAAATTAATTTTAGAATTAAAAATAGATGTGATTCATTCAAATACAACTCGTGAATTATATAATTTTTATTTTGCATTGATTGGTAATAAAAATATAAAATACTTTATAACATATCATATAGGAGTTCCAAATCATAAAGAAATTTTACATAAAATATTATATAAAAGAGTAAATAAAATTATAGCAATAAACAGTAGAGAAAAAAATTTGATGCTTGAAAATATCCCTATTTTGAATAACAAGATAGAATTATTATATAATGGTGTGGATTTAAAAAGATTTGATAGAAAAAAAGTGGAACTGAAAAATATCAGAGAACAATTTGGGATACCTGAGCAGGGATTGCTTATTACTGGAATTGGAAATTTATCCGATGGGAAGGGAATATCTGAATTTATAGATGCTGCGAAAATTATTTGTGATAAATATAAAAATATATATTTTTTATGGATAGGCGAAGCTACATATACTAAAAATAAAAAAGCATTAGAAGAAGCAAAAGAAACAATAAAAAATTATGAAATAGATAAAAATGTATATATGGCAGGTTATAGAAACGATATTCCAGAGATATTAAAAGAGAGCGATATATTTACATTGCCAGCATATGGAGAATCTTTTGGGATTGTATATATTGAGGCAATGGCAATGGAGCTACCTGTTATAGGGTGTAATTCTGGAGGAGTACCGGAATTAATAAAAGATGGAAAGAATGGATTTTTAGCAGAACCAAGATCAGCTAAGAGTCTAGCTAACCAATTTGAAAAATATATTAAAAATAGCGAATTGATAAAAAAACATGGAAAAATTGGGAAAGAGATATCAGAGAGATTTTCAATGAAAAGCCATGTTGAAAAACTAATTAAAATTTACGAAGGATAAAAAATGTATAAAAAATTAAAAAAAGAAAAATATAAAAATTGGGATATGAGATTTGATGCAAAATTTGAAAATATATTAGAAATTATTGGAATTATAAAAAATATTATAGATAAAAAAGAGATAAAATTTGATGAAATTTTAAAAGATACAGACAGAAGTTTTGTTGGAGTAGTTAAAGTAAAGGATAAAAATATAATATTTAAACAGCCAAAAGAGAAAAATAGAAGGAAGTGGATAAGGTTTTTAACTTTATTTAGAAAAGGAGAAGCTTTAAAAAATTTTTATATAATGAATAAAGCTGAAAAAATTGGAATAAAATCTAATAAGCCTTATTTAAGTGTAGAAAAAAAAGAGTATGGAATGGTTGTTGACTCTTGGGTTATTTATGAATATATAGATGGTAGAGAGTGTGCAAACAGAGAAGAGTATGAAAAATTATTTAAAATATTAGATGATATTCATAATAAAGGGTATTTGCATGGTGATTCTCAAGTTCAAAATTTTGTATTCTCAGGAGATGAAGTTTATACAATAGATTGTGGGTTAAAGAAAAATATTTATGGGAAATTTGGGAAAATGTATGAATATATATATTTAAGAGAGAGTAGGAGAGAGATAGAAAAATATTATAAGTTTGATATTCAAAATTTTTATTATAAAGCAGCAGAATTTTACAAAAAATGGCTTTACTTTTTAGGTAGAAATAGAAAAAAAGTTAAAAAATTAATTCAGGGGGTGCACAATGGTAAAGATTAGAAAAGTAGAAGAAAAAAATTTAGAAGAAGTGTTGTTGGAAAATGGATATTTAGTGGAAAAAAAAGAGGGGATTTATTTTGTGAAATTTAAGGAGTTTGATGCAAAAGCAGTAATGTTAGAAGAGGGAGAAACTTTATTTGTTCAAGTTGATTTGGTTGGAGTAGATGATCTGCACAATGATGTGGCACTTTATAAAAAGTTATTAGACCTAAATACAGAAATATTGCCTGTATCAATTGCAATAGATTCTACAGATAAAGGAAATCAAAGGTTAGTTATCAACGAATCATTAGAAATTGAAAATTTAGATGAAAACGAGTTACTAAAAGTATTTGATACAATTGATATGAGTTTTGGAAAGATATTTAATTTATTAAAAGAATATAAAAAATAGGGGGTATTTATAAATGGGAATATTTGATAGAATTTCAAATGTGTTTAAATCAAACGTTAATTCAATGTTAGACAAGGTAGAAGATCCAGAAAAAATATTAGATCAAAATATAATAGATATGGAAAAAGAGTATACAAAAGCTAAAGAGAGCATTGCAAGAGCAAAAGCAGAAGAGATAGGATTAAATAAGAGAATAGCATATTTGAAGCAAGAGATGGAGAAATGGACAAATAATGCTAAATTAGCTTTGGGAAAAGGAAATGAAGAACTAGCTAAAAAAGCTTTGGCTAAAAAACAAGGATATGAACAAGAATTAAATGCTATAGTTGGAGATAGAGATAGTATAGAAAAAAATGTAGAAGAACTGCTTGGAAGTTTAAAAATGATGGAAAATAAGATTTCAGAAGCAAAACGGAAAAAAGATTTATTGAAAATGAGACTTCAAACTGCAAAGGCTAAGAAAAAAATAGTTGAGACAAAAGCTAAAATAGGTGGAATTGGAGAAGGAGCTTTTGACAGTTTTAATAAAATGGAAGAAAAAGCTAATAAAATGATAAATGAAGCTGATGCTTTAGAACAAATAAATAATTCTTTAGCAGAAGAAGATGTGGACGAAGAGTTTAAACAATTAGAAACAAGCGGAAATGTAGAGAGTGATTTGGAAAAGATGAAAAAAGAGTTAGGAATGTAATGAAAATAGATAGATTAGAGAATAAAATTATAAATTATTTAACTAATCAATTAGAAGTAGAATTAATATATATGTTTGGTTCTTATGTAAAAGGGAATTTTAATAAAAATAGTGATATTGATATAGCTATATAGCTATTCACGAGTATAGAGAAATAGATATAGATATTTTAGATAATATAATAAAAAATCATTTGAAAGATTTTTTTATGTATACTAAAGAGATAATTGATAAAATATTTTAGATGAAAATTGTTTAGGAATGGCTTAAAAATAACATTCCCATTTTGTTTTAAAATACGCAATAATTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCTTTAGGAATAAAAGGCACTGTTTAGGAGGAAAAAAGATTGAAAATATCAGTATCAATGATAACTTATAATGAAGAAAACAAACTGGAAAAAACATTGAAATCTGTATATAATTGGGTTGATGAAATTGTTATAGTTGATAGTTATAGTAGTGACAAAACAGTTGAAATTGCTAAAAAATATGGAGCTAAAGTATATATAGAGGATTGGAAAGGTTTTGGAAAACAAAAAAATAGTGCATTAGAAAAATGTACTGGTGATTGGATATTATTAATTGATGCTGATGAAGAAATAACAGAAAATTTAAGAGATGAGATTTTAAATATTATAAATAGCGATAAAATTGAAAAAAATGTATATAAAATTCCTCGTATATCATGGTGGTTTGGGAAAAAGACTCATGAAAAAGATTCTGTAATAAGATTGGTAAAAAAAGATAGTGGGAAATATAATGAAAAAGAAGTTCATGAAGAATTTGTAACTAAAGAGAATATAGGAGTGTTAAAAAATAGTATAAATCATTATACTTATGTTTCTTTAGAAGAATATTTTATGAAATTTAATAAATATACTACTTTAGCAGCTTTAGAACTAAGAAAAAAAGGTAGAAAATTTAATTTAGGAAGACTATTTTTTGAACCAATTAGAAATTTTTTGAAGATATATATTGGGAAAAAAGGGATATTAGAGGGATATTATGGTTTTTTAAGAGCAATTTTAAGTGGAATGTATGGAATAGTTAGATATTCAAAATTATACTTATTAGAAAAAGAAAATCCAAATATATTAATATCAAGAACAGATAAAATAGGGGATCTTGTTTTATCTGTTCCTTCTTTTTCTAAAATTAGAAATATGTATCCAAATGCTAAAATAGCTATTTTAGTTAGAAATTACAATTATGATATAGTAAAAAATTTGCCATATATTGATGAAGTTATAAAAATAGATGATTATAGTGAAAAAGAATTAATAAAAAAAATAAGAAAATTTAATGCAAACATATTTATTGCACTTTTTACAAATAAATTTATTGGGAAATTGTCTATAAAAAGTAAAGCAAAATATAGAATAGGTCCATATTCTAAATTACATTCATTTTTTTCATATAATAAAGGGGTATTTCAAAAGAGGTCCAAATCTATAAAAAATGAGGCAGAATATAATTTGGATCTGATAAAAAGAGTTGATGGGAAATTGTTTTATAATAGTAAAGATGGAGAGAGTAAGATATATTTAGGAGAAAGCAATAAAAAATTAGCAGAGAAATTTTATGTAGAAAAAAGAATCAATAAGAAATTAAAAACTATAGTGATACACCCGTTTTCTGGAGGGTCTGCAAAGAATTTGACAATAGAACAATATATAGAGCTAATTAAGAGAATAAAACAGGAATTAGATATAAATGTGGTGGTAACAGGTGGAATAGGTGATAAGGCTAAAATAGATTATTTTAGAAAAAAGATTATTGATGTGAATTATTTTATAGGGAAGAGGTCAATATTAGATTTAGCTGCTATTATTAATAAAGGAGATATATTTATTGGGAGTTCTACTGGGCCTACACATATAGCAGGGATTTTGGGAAAAGATATAGTAGCAATATATCCTAAAATAAAAGCACAATCTAAAATTAGATGGGGTGTATTAGGAAATGGAAAAGTAGAATATATAGAGCCGGAAGAGAATTGCAAAGAGAAATATAAATGTAATGAGAAGTGTGAGTATTATGATTGTTTTAGTAAAATTAAATTAGAAAAAATAGTAATTAAAATAAAGAAGATTATTGATGAGGAGTAATATTATATGTATAAAAAATTGAGAAAAATTCATATGAATTTAAAAGATAAAATAAAAGATAAAAGAATTAAGGGATTTAAATTTTTATTTGATAAAAAAAAAGTAAAAGCTGATTTGAAAAATATAAAAAAAAATAAAATTTTATTTTTGAGGCATGATGGAAAAATTGGAGATATGATAATAAGTACAATGATGTACAGAGAAATAAAAAAAAATAATCCAAATATAACAATTGGTGTAATAACTAGAGAAAATACATTTGATTTAATAAAAAACAATCCATATATAGATAACATATATATTTATAAAAAAAAATATAAATATATAAAAAAAATTGCTGGAGATATTTCTAAAGTTAATTATGATGTGTTAATTGATTTTGGAGATGGAATCAGCGAAAAAACAATTTATTTATTGAATAAAATACAGGCTAAAGTAAATATAGGATTTATGAAAAAAGATTATAAAATATTTGATATATCTTTGGATGAAAAAGAACTTAATGAACATATAACAAATAGATATAAAAAAGTTTTGAATTTTTTAGGATTTGAAGTATCAAGTTATAAATATGATATTTTTGAAAATAGGAGTAATGATAAAATAAAATTAATAAAAAAAAATAGTGTAGGCGAGAAAACAATATGTATAAATAGGTTTGGAGCTAGCAAACATAGAACATTATCAGAAAATAATATGCTTGAAATTATATATGGTATTTTAAAATTAAATAAAAATATAAAAATATTATTACTTACTCCAAGTAATAAAAAAAGTTTGAATAAGAGGGTTATAGACAAAATTGGAGATGAAAAAGTAAAATTAATAGAGAGTGAAAATATAATGAATGCAATTGAGATAATGAAAAAAGTAGATTTAATTGTAACACCAGATACTTCAATTATACATATCGCTTCAGCACTCCAAAAACCATTAGTTGGAATATATAGAAAAGGAAATGCTATGAAATGTTGGGGGCCTAAAGGAACAAATTATAAAATAGTTACTTCTAATTCAAAGGATGAGATAAACGAGTTAGAAACAGATAAAGTTGTAGAGAATATAAAAAAAATATTACAGGAGATATAGGATATGTTAAATATAAATAAAAAAAAAATATTAGAAAAAATTAAGATATTACAAGAGGTAGGATTATATATTTTAGCATTATCTTTTTTTGTTTCAACAGCAGGGTTTAATATTGGATTAGGAATAATCGCTATTGGTACTATAGTTAAATTATTTATAGCACCAAAAGATATAAATTTAGGTAATAAAAATATATTATATTGGTTTTTATTTTCATATATAGTATTGGCAATATGGTCACTATTTTCAGTAGGTGGAATAGATAGTTTTATTTATCATTTAAATAGACAAAGTAGGTTTATAGTAATTCTGTTAATTGGAGAGGCAATAAGAGATAAAAGAGTTTTTTTTAGATTTTTAGTTTTCTTAGGTATATCAATATCATTATCTTCGTTTAATGGGATTTTTGAACATTTAAAATATCCTTCTAAGAGAATAGATAGCTTTCTAAAATTAACACATTATGGACCTGCCTTAATGGAGATGTTAATACTGTTTTTTGCAATGATAATAACTAAAACTTATTCTTATAGATACAGAATTATACTGTTTTCAAGTTTTTATTTATTAGGAATAACTAATATTTTATATATGAAAACTAGGGCTGTTTGGGTAGGATTGTTTTTAGGACAACTAGCAATTATGTTTTTTAATAAAAAAAAGCGTTATTTTATTTTAAGTATAGTAATAATATTAATAATTGCATTTATTGGAAAAGAAACATATCTTAGAAGAGCGGAATCTATTGGAAATATAAAAACAGACACATCAAATACCACAAGAATGAAATTATGGAAGGCGGGAATATATACTTTTGAAAATAATATAATTTTTGGAGCAGGATCTAATAATGATAATAGCACGCCTTTTTTTAAACAGTATATAATAAAGAAGTCATTTAAAATATTTCACTTTAATGGAGATCCTCATAATATGTATATATCATTTTTGGCAGAGTATGGATTAGGTGGACTTCTTTATATGATTTTGATTTTTTATATAATACCAAAAGAATTTTTTAGATATTATAAAGCTAGAAAACGTTTTGACTTAGATGGGATTTTCTATGGAGTTATAGGGATGACAATAGGTTTTTATATTGTTGGTATTTTTTGGAATATATGGTATAGAGATTACCATCCAAGTTTAGGATTTTTTATAGGATTGGGAATATTTAATTTTTTATATTCTAATAATGAAAGGACAGAAAATGAAAAAAAAATTAGTTAGATATTTTTTATTGAGAAATAGAAATAAAAAAATAGATATAAAAAAAATAGATAAGATTTTATTTATTGCATATGATGCAATAGGAGATATGATAATGACAACTCCTGTATTTAGAGAATTAAAAAAAATATATCCTGAAAAAAAGATTGGAGTATTGTGTAGTGAAAGGAATAAAGATGTTTTAAAATATAACCCATATGTTGATAAAATCTTTATAAAAAATTCAAAAAAATGGTATTTTAAAGATTTAAGGATTTTGAAAAAAATAAGAGATGAAAAATATGACATATGTATTAACTTATGGAATAAAATTTCTATGACAGAGATGTCATTTATAAAACTTTTAAATGTAAAATATAGAGCTAGTGGAGTATTTCAAAAAAATAGTGAAAATAAATATAATATATTAACAGAAGATATAAAAATGTATGATTATATTTTTGGGGATAGAAAAGAAAAACATTTTTCTAAGCAACAAATTAGTTCTTTAGAAGTTTTTGGAATTAAAACTGATAATTTAAAATATGATATATTTATATCAGAAAAAGAAAAAGAAAAAGCTAAAAAATTTTTCAAAGAATTTTCTGGAAAAATAAAAATTTTTATTAATATGTTTTCTAGTGAAGAAAAAAGAAATATTAAATTTGAAGATGTATGTTTTATAGTAGAAAAAGTAAAAGAAAAATATAAAAATGCAATATTCTTTTTAAATTCTATTCCAGAAAAAAGAGTGGAATTAATTGAAAAAATAAAAAAGAGTAATTTTGAGAATATAAAAATAATGTATGAAACAGAATCTATATTAGATGCAGTAGCAGGAATAGAATATGCAGATTTGTTGATTACGCCAGATACTTCATTTACACATATAGCAGAAGCATTAGATAAACCAATGATAGTTATTTATTCTGGAGTATTAAAAAATTATGAGAAAGTAAAGACTTTTTCTAAGAAACATTATGCTATTTTTTCTGATAATAAAGATGAAAATATTATTGAAAAATATGATAAAAATAAAATTATAGAAAAATTAGAATTAATATTAGATGAGGAGAAAATATGAAAATTTTAGTTATTCAACTAAAACAAATTGGAGATGTTTTATTATCAACACCTGTTTGTAATAGTTTGAAAAAAACATATTCAAGTGCACAAATAGATTACATAATATATGATTATACAGCAGGAGTTGTAGATAATAATCCAAGTATATCAAAGATTATAAAAATAACTAAAAAAGAAAGAGAAAGTTATATTGAATTTTTAAAATTATTATTAAAAATAAGAAAAGAGAAATATGATATTGTTTTAAATATTCAAGGAAAACTTGAAGGGACATTAATAACATTAGCTTCTGGAGCTAAATTGAAAATAGGATTTGATAGAAAAGGGTGGGAAATATTTCATACTAAAATAGTAAATGAAAGTAACTCTAAAAAAATAACTGGAGCAGGTAATACAATTGATGGGCGACTATCTTTATTGACAGCATTAGATGATGAAGTAAAATATGATTATGATTTGAAAATTTATTTAAAGGATGATGAAGTAATAAGGATAAAGAATAAGATGATAAAGTTTGGAATTAATATAGATAGACCTATAATATCAATGGGAATTACCAGTAGAAGAGATTATAGAATTTGGCCAGTAGAATATTTTTCAAAAATTATGGATTATTTAATTAAAAAGTATAATGCTCAAATAATATTATTTTATGCTCCAAATGATAAAAAATATAATAGTGAAAAAGATTATTGTGAGGCAGCTAAAAAATTAGTAGAAAATAATAAAAATGTATTTACTAATATAGAAACAGAAAATGTAAGAGAGCTATTATGTTTGCTTAAAAATAGTGACATATATATAGGAAATGATAATGGTCCAAGACATTTTGCACAAGGGGTAGATACTCCTGCATTTTGTATTTTTTCACCAACGGCAAATAAATGGGACTTTAATCCACATAATAATCCTAGATTTAGAGCTATTGATTTACAAGATGCTTTAGGATTAGATAATGAAAAATATAAAGAGTATACTAAAAATTTAGATAGAGATAAAAATAGCATGGAATATTTTAAAGAGATAAAACCTGAATTTGTAATTAGTGAAATTGATAAAATGATAAAAGAATTAAATTTATTTAAATAGGAGAAATATATGAAAAGAAAACTAAAAATTAAAGAACTTTTATTTGAAATATTAATATTTTTTTTCAAAAGAAAAAAAAGCAATTTTAACAATAAGATAACAAAAATACTAGTTGTTAGGCAAGATAATAGAATAGGAAACATGTTATTTATAACACCATTATTAAAATTAATATTCGAAGTCTATAATGTAAAATCAGATGTTTTAGTTGGAGGAAGATTTTATAAAATTATAGATAGTAATCCTAATGTAAATAAAACTCTTGTTTATAATCAGAAAGAATTTATAAAAAAGCCTTGGAAATTTATAAAATTTATTTTGGAAATGAGAAAGGTAGAATATGATATTGTTATTGATTGTAAAAATGCTTTTTCTTTTAATAATTCTATGCTAACATTAATATCAAAAGGGAAAATAAAACTAGGGTTTGAAAATAATTTGAGTGATAAATATTTAGATTTCTCAATAAATTTTGACGAGTTATTAAAAGAAAATAAACATGAATATGAATATTTAGCAATGCTTTTATTAAGGTTCATAAATGAAAATAGAGAAATTCCAAAGATGGAATACTATTATAGTGATAAAGAATTGGATAAAAAAAGTTATAATATAGTTATACATATTGGTGGACGTGGAGAGAAATCTTTAAAAGCAAATCTTATTAATGAATTGGTAGAAGAAATATTAAAAAAAGAGGATAAAGTAGCAATAATATATGGACCTAATGAAATAGATAAAGTAAATAATATAAAAAATCTAAAAGGTGTTATAAAAATAAATCCAAAATCAATAGATGAGCTTGCTTATTATATAGAAAAAAGCGAATGGTTTATTACTCCAGATACAGGAGCCCTACATATTGCTTCAGCATTAAACAAAAATATAATTGCACTATTTTATAATAAAACATTTGATAGATATGGGCCTGTAACAACAGGAAAAAGTATAGTTATAAAAGCTTTTGAAAAGTTAGATAGTGAGATTTTAAATGAAATAATAAGTTTTTTTAGAAAAGTTAATTAAAAAAAGGAGATAGAAATGGATAAAACATTATTATTTACAGTTGGACCAGTTGAAATGAGTTCTAAAATAAAAGATATTGGTGGAGCAGGAATACCATATTTTAGAACAAAAGAATTTTCAGAAGTTATGTTGGAGATAGAGAATAAATTAAAGAAATTTTTATATACTAATCAAAATTCAAAAGTTATTACATTAACAGCTTCTGGAAGTGGAGCTATGGAAGCCTCTATTATTAACATATTTACTGAAAATGACAAAGTATTAATTGTAAATGGCGGAAGTTTCGGAGATAGATTTGAAAAAATATGTAAAATCCATAACATTAATTATAATGTGATAAAATTAAAAAAAGGTGAAAGTTTAAAAAAAGAGGAATTGGATAAATATAGTAATAAAGGATATACAGGGTTATTAATTAATGTGCACGAAACTTCAACTGGCGTATTATATGATATGAAAATGGTAGGAGAATTTTGTAAAAAAGAGAATATTTTATTGGTTGCTGATGCGATTAGTTCATTTTTAGCAGATGAATATAAAATGGATGAATGGGGAATTGATGTAACTATATTAAGTAGTCAAAAAGCTTTAGCATTACCTCCAGGATTATCATTTTTGATAATTAATAAAAAAGTAAATGATATTATAATTAAAAATAGTGTAAAATCTTTGTATTTTGATTTGAAAGATTATTTAATGAATATGGAGAGAGGACAAACTCCATTTACTCCAGCAGTTGGGATTATATATCAATTATATGAGAGATTAAAAGAGATAGAAGAGGTAGGTGTAGAAAAAGAGATAGGTATTAGAAAAAATTTAGCTGAAGATTTTAGAAATAGAATAAAAAAATTGCCATTAGAACTATTTGCAGAAACTATGTCAAATGCAGTTACAGCAATAGTTCCAAAAACTATGAAAGCTAATGAAATATATGAAAAATTAAGATATGATTATGAGATGACAGTTTTACCAAGTGGAGGAGATTTAAAAGAAAAGCTATTTAGAGTAGGACATTTAGGAGATTTAACAATAGATGATAATGAAAAATTGGTAGATGCTTTAAAAGAGATTTTGAAAGGGGAATAAAATGAAGGTTATAATAATGGCAGCAGGTAAGGGAAGTAGAATTAGTAGACATATAGGAGAAAAACCAAAATGTACATTGGAAATAAAAGATAATCTTCCTTTAATTGAAAATACAGTAAAGAATTTAAATAATAAAGGGATATATGATATAACGATTATATTAGGTTATAATGGAAAAGAGATAGAAAAAGTGTTAAAAGGATATAAAGTAAAATTTTATTATAATTATTTTTATGATGTAACTAATAGTATAGCTTCTTTATGGTTTGCAAAAAAAGAATTAGAAACTGATAAAGATATAATGTTTATGAATGGAGATGTATTTTTTGAAGAACATTTTTTAGATGAAATTAAAAAAGAGGAGTTAAGTCCTGTATTATATGCAGATGGAAGTAGAAAAGAGGAAGCTGATTACAAGCTATTTTATGAAAATGGGATATTGTATAAGTATGGAAAAGAGTTAAAATTAAATGAAACAACTGGAGAATATATTGGAGTTGCTAAAATATTAAATAAAGATATTAATATTATAAAAAATAAATTAGATAATATGATAAAAGATGGAAAACATAGCTTGTGGTGGGAGAATGTATTATATGAATTAAATAGTAATATGAAGATATATGTAAAAGAGATAAAAAATATATTTTGGGCAGAAGTTGATTATATAGAAGATTATATGAGGATAAAGGAGTTTATAGATAGTGAAAATAGATGAACTTTTTCCAGATGAGAGAAAAAAATATATTGAGATGTCTAAATTAAGGCAGATACAATTGATAGAACTTAGAATATTTAAGATATTCGATTATATATGTAAAAAAAATAATATAGAGTATTGGAGAGATTGGGGAAATCTTTTAGGGGCAGTAAGGCACAAAGGGTTTATACCGTGGGATGATGATATAGATATTGGAATGACTTTAGAAAATTATCAAAAAATGATAGAAATTTTTCCTAAAAAGCTTCCAAAAGATATTTTTTTTCAAACTCCTAAAACAGATAAAAATTATGATAATATTGAAGGAATAAAATTAAGAGATAGATATAGTAATTTGAATATAGATGATAAATCACCTAAAATACATAATGGTATTTTTATTGAGGTATTTCCAGTATATAAAGTACCTTCAAATAAAATTTTGCAAAAATTACAGATTAGTTTATATAGGAATTTAATATCTTGTAGAATTGAAAAGGGGAATAAATTAAAATTAAAAGTGAGAAGAGGAATATCTAAATTTATAACTAATTTTATATCATTTGAGAAATTAGATGAAAAAATATTAAATATGTATAAATTGACAAAAAATTATATGTATAGACACGCTCTACATAGTAGCTCAAAAGAGGTAGATTATTATTTTTCAAAAGATTCGATTTTTCCATTAAAAGAAATAGAATATGAGGGATATAAATTTAGAAGTGTGAATGATTATGATGAATATTTAAAAACAGCATTTGGAGATTATATGAAGTTACCACCTGAAAATGAGAGGGGTGAAAGACATATGAAATTAGATGAAGTAGTAATATTTGAAGCATGTAATCATATAGAATCACTAAATTGGAAAGATAAGGAGAAAATATGAGTATAAATTATAATGAAATTTTTCCAGATGAACGAGAAAAGTATATAGAACTATCTAAATTGAGGCAAGTACAATTAATAGAACTTAGAATACTTAAAATATTTGATGATATATGTAAAAGAAATGGAATAAAATATTGGCTTGATTTTGGGAATTTATTAGGAGCAGTTAGACATAAAGGGTTTATTCCTTGGGATGATGATATAGATGTGACTATTTTATATAAAGATTATAAAAAATTAATAAATATATTAAAAAAAGAGTTACCAGAAGACCTTTTTTTACAAACTTTAAAGAGTGATAAAGATTTTTTAGATGTCGAATTAATAAAAATAAGGGATAGATATAGTAATTCTAATAATAATAAAAGCTATAAATTTCATAATGGGATATTTATTGATATATTTCCTTTATATAAATTACCAGAATCAAATTTTTTAAGATTTATACAAAAAAGATTATATAGACTTTTAATATCCTCAAGAAAAAAAAGATTGAAATATGAAAAATTAAATCACAGAAGAGTTATAAGAATTGTAAAAGGGAATATTAGAAAACTATTATCAAAATTTATAACAATTTTTATAGAATTGGATATATTAGAAGAAAAGATATTGAATATGTATAAATTAACAAAAAAACATATCTATAGTTTTAGTTTGCATAAAAATTTTAGTGAAAAATTTAAAAAAGAGGATATATTTCCTTTAAAAGAATTAGAGTATGAAAAATTTAATTTTTTTGTTCCTAATAATTATGATAAATATTTAAAAATAGAGTTTGGAGATTATATGAAATTGCCTCCAAAAGAGGAACAGAGACCACATCATTTTAATCCAGATGAAATTGACATAACAAAACCTTGTGAGCATAAAGAAAGTTTATACTGGGAGGAAAAAAAGCAATGAAATTAAAAATAGATTTAAGAGTAAAAAGAGCATTAAAATATATAAAACCATATTTAGGGTTATCGATTTTATCAATAGTTTTAGCATCATTAGCAGCAGCAACAGCAGCTTCACCTATTTTTATAATAAAACAAGTTGTAAATGATGTTTTAATGAAAAAAAATTATAATATGTTAATTATGATAAATATAGCAATAATTTTGATATTTATATTAAAAGGTTTTGTATTTTATTACCAAGCATATGTTTCAGCATATATTTCTAATAAAATAACTTTTAATGTAAGACAGGAACTGTTTGAACATTTGCAAAAATTATCAATGGGATATTTTGCAAAAACAGAAGTTGGAGAGTTAATGGCTAGATTTTATAATGATACTGAAAAATTTAAAGCGTTTATTGTATTAGCTTTTTCAAGTATAGTAAAACTATTTACAATACTAATAGCTGTCATAGCAATATTTCAAATGAGTTGGAAATTATCAATAATATCTCTTATATTTATTCCACTTTTAAGTAAAATAGTTAGAACTTTTACTAAAAAATTATATAAAACTGGAGGAGAGATACAAAAAAAAATAGGTATAATAACTACAGTTATACAGGAGAATTTATCTGGAATAAGAGTTGTAAAGGCATTTGCAAATGAGGATTATGAGATAGAAAAGTTTAGAAAAATAAATGATGAAAATTTTAATGCTAATATAAAAAATGTGAAAATATCTTCGAAGGTTACACCAGTTGTTGATTTTTTTAATGCAGTATCTTTAGTAATAATTTTAATGATTGGAGGGGTACAAGTTATAAAAGGAGAAGTTGATTCAGGGCAATTTTTAGCTTTTTTAACAGCTTTAGCTTTGTTATCTGATCCACTTAGAGTTTTGACTTCAAATATAAATAAAATGACAACAAATCTTTCATCAGTAGAGAGGGTTTTTGAGATATTAGATGAAATTCCTGAAATAAGAGAGATAGAGACTCCAATAACTAAAGAAGAAATAATTGGTAAAGTGGATATAAAAGATATATATTTTAAGTATGATAGAGAGTATGTATTAAAAAATGTAAATATATCAGGAAATCCTGGTGAGGTAGTGGCGTTAGTTGGTCAAAGTGGAAGTGGAAAGACAACATTAGTTAATTTGATACCAAGATTTTATGAAGTTGAAAAGGGAGAAATATTAGTTGATGGAGAAAATATTAAAAATTTAGAGATAAAATTTTTAAGAAAAAATATAGGAATAGTGCCACAAGAGACATTTTTATTTAGTGGGACAATAAGAGAAAATATAATGTATGGGAAACGAGATGCAACATTTAAAGAGGTAAAAAAAGCTGCAGAAAGTGCTAATGCAATTGAATTTATAGAAAAGTTGCCAAATGGCTTTGATACAGAGGTTGGAGAAAGAGGAGTTTTATTATCTGGTGGTCAAAAACAGAGGATAGCAATAGCGAGAGCTATATTAAAAAATCCTAAAATATTAATATTGGATGAGGCTACATCTGCATTAGATACAGAGTCTGAAAGATTAGTGCAGGATGCTTTGGATAAATTAATGAAAAATAGAACAACATTTGTAATAGCACATAGATTATCTACAATTATAAATGCAGATAAAATTGTAGTTATGAAAAATGGTGAGATACAAGAGGTTGGGACTCATAAAAAGTTATTAGAAAAAAGAGGTATGTATAAAGAACTGTATGATAAGCAGTTTAAAAATTAGGAGGGATAAATGAATATATATTTAGATAAATTTATAAAAATGGCATTAGAAGAAGATTTGGGAATATTAGGCGATATTACAACAGATAATATTTTTAGTGATGAGGATATATCAATTGGAAATATAAATTATAGAGAAGAAGCTGTGGTTGGAGGATTAGAATTTGCTAAAAGAGTATTTGAACTAATTGATGAAAATATAAAATTTGAAATTTATAAAAAAGATGGAGAGATTGCAAATCCTAATGAAATAGTTGCAAAAGTAGAAGGGAAAACAAAAGCTATATTAACAGGAGAAAGAATAGCATTAAATATAATGCAGAGAGTATCAGGAATTGCTACAAATACTAAAAGATATGTAGATAAGATAAAGCAATATAATGTTAAATTAGCAGATACAAGAAAAACTACACCTTTATTTAGGTATTTTGAAAAATATGGAGTAAAAATTGGTGGCGGAATAAATCATAGATTTGGATTATATGACGCTGTAATGATAAAAGACAATCATATTGCGGCAGCAGGAACTATAACAAAGGCAGTTGAAAATATAAAATCTAATGTTGGACATACTGTGAAAATTGAAGTGGAAGTTGAAAGTAGAGAGCAGTTATTAGAGGCTTTAAATATGAAAGTAGATATTATAATGTTAGATAATATAAGAGGAAAAGAGTTAAAAGAGTACGCAGAATTAATAGGAGATAAAGCTATAATAGAAGCTTCTGGTAATATCAATATAGATAATATAGAAGATATAGCAAAATCAGGAGTAGATGTAATATCTACAGGAAGTATAATTTATAATGCTAAAAATATTGATATTGGGATGGATTTTGAATAGGGTAAATAAAAAAACTACATTATAGTTTTATAATGTAGTTTTACTTTTTAAAAATTTTTAAATTAATCAGAATTAATAGGGAATTCTACATAAAATGTAGTACCTTTATTAACTTCGCTTTCAAACCATATGTTACCATTTAATTGTTCTACCAACATTTTTGAAATTGGCATACCAAGGCCTGTACCTTTAGAATGATTGTCTGTATTTTCTATTTGTTCAAATTTTGAAAAAATTTTATTTTTATTATTTTTGTTAATTCCTATACCACTATCTTTTATTTTAAATCCTATTTTGCTATCTTTACTATAAGTTGAAACTTTTATAGTTCCAAAATTAGGAGTAAATTTTATAGAATTAGAAATTATATTTGAAATAACTTGTAACATTCTATTATAATCTAAATCTATAAAAGGTAACTCTTCTGCAATAAATTCAACATCTATAGATTTTTCTTTAGCTTTTTCAGAAAATTCTTTTATAGATTTATTTAATAACTCATTTAAATTAGTAGGGGTTAAATCAAATGTCATTTTTCCAGCTTCTAATTTTGAGAGATCTAATATATCATCTACAATTATTTTTAAACGTTTAGATTCAGAATAAATAATATTTATAAACTCTTCAGTAGTTTCAGGGTCGACTCCACCATAACTAAGAGTTTCTAAGTAAGCCATAATAGATGTTAAAGGTGTTCTTAATTCATGAGAAACAATAGCCAAAAATTCATCTTTTGCAAAATCTAATTTTTTTAATTCATCATATGCTTTTTGTAAATCTAAAGTACGTTTTTTAACTTCTTTTTCTAAGTTGAAATTTAATTTTGTATTTTCTAAAACTGATGCAGTTTGCATAGCAAAAATTTCTAATAATTGAATATCTTCTTGAGTAAATTTTTTATCTGATTCTATTTTTATTATTGCATTTAATTTTCTATTAGAAAAAAGAGGTAATGCTAAAGAGGTTTCATTTTTTGATAATTTCCAATAATTTTCCTTTTTACTGTTTTCTACTAATATATCATCTAAAGTTTGAAGATTTTTAAATACCAATTTTTCATTTTCAAAAGTAACTTTTTTTATTGGAGATTCTATTATATATATGCAGGCATTTGTAAAATTAAACCCCATTGGCGAGGATAAAGCTACAAGATATTTTGTCAATACTTCAAAATATCTTGTAGAGTCATGAATTTCTTTTGTAACATAGTGTAGCATAATAAATTGATCAACTTTTTCTCCTAACATTTTTTGATGTTCAATTAATTTTTCATTTAAAAGTATATTTTCTATTGTAGATACAGTTTGTTGAGCATATATCTCTAATAGCTGAATATCTTCAAAAGATATTCCGCAACTTTTATCTGCTACTAGAATAGCAGTTATTTTATTATTGTTGTTTAAAATTGGTATTGCAGTTGAAGTATTTGATACAGAATTTGTAGAAGCCTTAGAATAAACAGCTGTATTAACAAATCCACCAGCTTCAGTAAGAGAAAAAGTCTCCTTTTTTAATTCTCCAAATTCATTTAAAAATAGTTTTATATTAAAATTATTTTCATCGTCTGGTAATATTATAAAAGCATTTTCATAATTAAATCCACCAGAAGTTATATTAGTAAGATAATTTTTCCAAAGCATTTTAGAAGTTTTGGATTCGTGTATAGTTTTATTTAAGTAATAAAGCATCATATAGTTATTTGTAATATCTCCTAATTTAACTTGATTTTCCATTAGTTTTATATTTTTCTCTTTTATTTTTTTTATTTCATTTTCTAATTCATGAATTTCTATCATAATAATCACCTCTTTGAAATTTTACCTTATATTTACCAAAAAAACAAATAAAATTTATAAAAATATATAATTTGGTTATTATTTTTTTTGAAATGATTAAATTCTAAACAAAATATTGATTTTTATAAAAAAACAAAGTATAATAAAATATAAATGATTTTATTTTATGAATGTTTTAAAAACGGTTTTATTGTTTTTTTAAATTTTTTTAAAATTCTTTAAAATTTATTATAATTAAAAAATAGGAAGGTGTATAGTATATGGAAATAAAAAATGGAATGGATTACGAGGGATATTTAAATTCATCTCTTGAAGAGTATAAAGAAAAACAGATAAAAGTTAGTAATTTTATAAAGTTAGAAGAAAAAATCATAGAAAAGTTAAAGGAGATAAAATCTGAAAAAAATATATTAGTTTTTGCAGAAACTTATTGTCCTGACAGTAGAGAAGTAATGGCAGTTTTAAATGAAATGAAAAAGTATGTTAAAATTAATTTATATATTTTTCCTAGAAAAGACAATGAAGATGAATTAAAAAAAATAACAGGATATGCTAAAATTCCAACTTTAATAAAATTAGATGAGAGTAAAAAAATTACTAATAACTATTTTATAGAATTTCCAGAAAAGTTTAGAGCTATATTAAAAAATAAAAGCGAGACAGAAATAAAAAATAAGATTCATCAATTTAGAAGAGGGGAATATAACCATTTGATTGTAGAAGAGATTATAAATAAAATGTTTGATGCCTAAAAAAGATTTAGTTTTTTAAATACTACTATATATAGTAGTTAAAAATTATATATACCTATATGTAGTATGAGGATTTTAGAAACTTATTTTTATAGTTATAATCTTAAAATAAAAAAAAGGAAAAATAGAAAAATAGAGTATAATATATTGTGGTGTTAAAGAACGATTAAAAAAATAATGTTCTCATCTTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTATAACAAAATGGAAATGTTATTTTTAAGATGTTCCTAAATAAATAAAAAAATTAAAAAATATAAAAAAGGGGGAGATAAAAATGAAATTAAGGAATAAGTTTATAATTCCAACAGTAGGAACAGTAATTCTAATATTTATAGTTATGATATGGGTGGTTAGAAATCGAGATTATAAAATAGGAATGGCAGAATTAAACAGTAAAGTAGAAAGAGTTTCAAGTATTATAGGATTTACAAATATAAATAATATATGGAATTTTGATGAAGATGGTATGAAAAAGAATTTAAATTCATTTTTTAAAGATAAAGAGATTATATCAATCGTATTAAAAGATGCGGATGGAAATGTAGCTTCAAAAGTAGAAAGAAAAGGGAAAGGGGATTTAATAAAAAAAGATATAAAAATAGTAAATGGAAGCGATAAAGTTGGAACTGCAGAGGTGGTTTTTACTGATTATTATGTGAAATCTAGTATATCATCGCAAGTGAATTTTTTGATAATAACAGTTATAATTATAATTCTTATATTAATAATAGTAATATTTATAATTTCCAAAATGATAACGAATCCAATTGATGATATGGTGAAAATTTTAAATAAAGTTGCTGGAAAAGATTTAAGAGAAAAAGTAGTTATAAAAACAAAAGATGAGATAGGAGTTTTGGGAAAAAATATAAATAATGTAGTAGATATATTGAAAGAGTCAGTTTCTGATATAAGCGTAAGAGCTTCTAATTTAACAGCTATTTCTGAAAATTTAGCAGCAGCTTCTGAAGAAAGTTTTAGAAGTGTTGAGAATGTGGGAGAAATATTAGAGGATGCAAAATTAAAAGCAAAAGATTCTGTATCTTATCTAGATAACATAAATGAAATAATGTTAGAAATGGATAAATATTTAGAACAAAATGATAAAAATTCAAAACAAACATCACAAGATGCTAGTAATACAGTTGAAAGCGTAAAAGAAGGGGTGGAAATAGTAACAAAAGTTGCAATTAGTATGGAAGATGTAAAAGTTCAAGTGGCAACATCATCTGATACAGTACTAAAATTGGCAGGTTTATTAGAAAAAATAGATGATTTTTCTCAAGTAATAACTAAAATATCAGAACAAACTAATCTTTTAGCATTAAATGCCGCTATAGAGGCAGCAAGAGCTGGAGAAGCAGGAAAAGGATTTGCAGTTGTTGCAACAGAGGTGAAAAATCTAGCAGAAGAATCAAATAAAGCTGCAGAAGAGATAGGAAATATGGTTAAAAATATAAGATCAGAAGCAAATAGATCAGTTGAGATGATGAAAGAAACTCAAAACAGAGTTACTGATGGAAGTGAAAAATTATCTTTAGCTACAAAAGTTTTAAATGAAATAAATAGTTATGGAGCAAATATGGCGAAAAATATATCTACAATAGTTGAATCTTTAGAAACTCAAAATAGAGAACAATTAAAAATAAAAGATGAATTAGCAACAGCAGTAAAAGCATCGAATGATAATTATAGCTCTATGGAAACAGCTTCTGAAGGATTAAAAGATCAAATTGGAGCAGTACAAGTAGTATCTGAATCAGCAACTGAAGTTGTAAATAATTCAGAAAATTTAGCAGGTCTTGTATCAGAATTTAAATTAAGTTTGGAAAAAAGTGAACAAAATGAAAAAGGATTAAAAGAAAAAAATTAAAAGAAAAAATATTTTAATATATTTAAATAGTCAATATACAGAGAATAAAAAGAAAGCCTATGTTGACACGATAAACTATAAAAAATACTATAGTTTTATTGTGGCATAGGTTTTTTTTATATTATCCATGTCAATACGTGGCTAATATTATCTTTTGTTTTTGTTATGATTTTATCTAATATATAAATATCTGAATTGTAATAAAAATTAAATTAAATTGTAAAGTCATATTGTATTTTTGTTCAATATATGTTAATATACTAAAGATATTGTAATATTATAAGATGAAGATGTGAAAAAAAGTATTTGATTTATATTGATAAATATATTAAGATATAGTATTATAATATATTTTTAAAAAAATAAAAAAATCGAGGGAGGGAAAACGATTGAAGCTATTTACTTTTAAAGGAGGAATACATCCACCAGAAAGAAAAGAGTTAGCAGAAGATAAAGAAATTGAAGTTTTTGCTGCACCTAAAGTGGTATATATTCCGCTAATTCAACATATAGGGAGTCCACTAGATCCTTTAGTAAAGGTTGGCGATGAAGTCAAAGTTGGGCAAAAGATAGGTGATAGCAAAGGGTTTATGTCAGCACCAGTTCATTCTTCTGTATCTGGAAAAGTTTTGAAAATAGTAAAACATCCATTTCCAGTTAATGGGTATGCGAACAGTGTAATTATTGAAAATAATGGTGAAGATGAATGGATAGAATCAAAAGCAGTAGATGATTATACTAAATTATCATCAGAAGAATTATTAGGAATTGTGAGAGAAAATGGAATAGTTGGATTAGGAGGAGCAACATTTCCTACTCATATAAAACTAAATCCACCAAAAGATAAAGTGATTGATACTCTTGTAATTAATGGTGCAGAATGCGAACCATATTTAAATGCAGATAATAGATTAATGATAGAATATGGGAAAGAATTTGTAGAGGGAGTAAAAATAATACTTCATATACTTGGAATAAAAAAAGCAGTTATAGGAATTGAAGAAAATAAAGAGGAAGCAATAGAAAAAATTCAAAATTTAGTAGCTAATGAAGATGGAATTGAAGTTGGAGTATTAAAAACAAAATATCCACAAGGTGGAGAAAAACAATTAATAAAAGCATTATTAGATAGAGTAGTTCCTTCTAAAAAATTGCCTTCAGAAGTTGGAGTAGTAGTGCAAAATGTGGGAACAGCAAAAGCTATTTATGATGCTGTCGTAAAGGGAAAGCCAATAGTAGAAAGAGTTTTAACAGTGAGTGGATTAGGAGTAAAAACGCCTAAAAATCTTTTGGTTAGAATAGGTACTCAATTTAAAGAAATATTAGAATCTGTAGGAATTGATGAAGAAAAAACAGAAAAATTAATAATGGGTGGTCCAATGATGGGATTAGCTCAATTTACAGATGAAGTACCTGTAATAAAAGGAACATCTGGTATATTAGCGTTAACAGAAAAAGAGATGAATAGTTATGAATCTAGAAGTTGTATAAGTTGTGGGAAATGTGTTTCAGTTTGCCCAATGAACTTAATGCCTTTAATGTATGCTAAATTAGCAAGATTTAAAGAATGGGGAGAAATGGACAGATATAATTTAATGGATTGTATAGAATGTGGAAGTTGTCAATTTATATGTCCTTCAAATAGACCATTAACAGAAGGTATAAAAATTGGAAAAGCTAAATTAAGAGGAATGAAAAGAAAATAAAAGGAGGTAAAGAAATAGATGAATAAGAAATTGAGAGTTTCTCCTTCGCCACATATAAGAACAAAAGAAACTGTTGAAAATGTAATGTGGGATGTAGTAATAGCATTAACTCCTGCTATATTAGCAGCGATATATTTTTTTAGACTAGGAGCTGTAAAAGTACTTTCAGTATCTATAATAACAGCAGTAGTAAGTGAGGCAATAGCACAAAAATTAATGGGAAGAAAAATCCAGATAAAAGATGGGAGTGCAATAATAACAGGAATATTATTTGCATTTGTAGTTCCACCAACATTACCATGGTGGATAACTATGATTGGGGCAGGAGTATCTATAATTTTAGGTAAAATGGTTTTTGGAGGATTAGGGCATAATGTATTCAATCCTGCATTAATAGGAAGAGCTTTTTTGTTAGCATCATGGCCAGTAGCAATGACAAGTTGGATTGGCGTAGATGGAAAAGCTGGGCCTACAATTTTAGGAGTATTAAAAGAGCATGGATTTTCAAAAGTTTTAGATATGTTTGGGAATCAAGGAGCTATGTATACGAAACTATTTTTAGGGAATGTAGGAGGGTCTTTAGGAGAAACTTCTGTATTAGCACTATTAATAGGAGCTGGATATTTATTATATAAAAAACAAATTACATGGCATACTCCAGTAGTTTATATTGGAACAGTATTTGTATTAATGTGGATATTTGGACAAGATCCATTAATGGAAATTATGTCAGGTGGACTTATATTAGGAGCATTCTTTATGGCAACAGATATGGTAACAACTCCATATACATCTAAAGGAAAAATATTGTTTGGACTTGGAGCTGGAATATTAGTTGTTTGGATAAGATTAAAAGGAGGGTATCCAGAAGGAGTAGCTTATTCAATTTTATTAATGAATGGAGTAACGCCTCTTATAAATATGTATACTAGACCTCGTATCTTTGGGGGGGTGAAAAATAATGGGTAAAATCATTCATTATGGATTAGTGCTTATGACAATAGCTGTTATTTCAGCTGGAATACTTGGATTTGCGGATATTAAAACTAAAGATACTATTGCAAATATAAATATAAAAATGGAAAAAGCAGCGATGAAAGAAGTAATGCAAAAAGTTAAAAAATTTGATAAATCAAAAGAAAAAAAATCAGGAAATTTTAAATTTATACCTGGTTATAATAGTAATAATAGCTTAGAGGGATATGCTGTAAAAGTTGTAACACCTGGTTATGGTGGAGATATAGTTTTTATGTTAGGGATAGATTTATCTGGAAATATAGTTGGATTAAAAGTAATCTCTTCATCAGAAACACCTGGACTTGGAGCTAATATAAATAAGAAAAAATGGCAAAAACATTGGGTTGGTAAAAATAGAAATTATAAATTTAATAAATCTGTAGATGCTTTTGCAGGAGCTACAATATCTCCAAGAGCAGTTTATAGAGGAATAAGTGAAGCACTTGCTGCTTTTGAAAAAATTAAATAAGGAAGGTGAAAAAATGGCTGAGAATAAATATTATAGTACATTTATAAAAGGGATATTTAAAGAAAATCCTACTTTTGTATTATTATTAGGATTATGTCCTACGCTAGGGGTTACATCTTCTGCAATAAACGGTTTTGCAATGGGAGCAGCAACTTTAGCGGTACTTTTTGTATCAAATATACTTATATCATTAATTAGAAATATAATACCTGATAAAATAAGAATACCAGCATATATAATGGTAATAGCTTCATTAGTAACCGTTGTAGATATGACAATGCATGCTTATGCTTATGATCTTTATAAAGTGTTGGGACTATTTATACCTTTAATAGTGGTGAATTGTATAATACTTGGGAGAGCAGAAGCTTTTGCATCTAAAAATGGAATTTTATTATCGGCTTTAGATGGATTGGGAATTGGGTTAGGATTTACATTGTCATTAACTGTATTAGGAGCAATAAGAGAAATTTTAGGAAATGGTTCAATATTTAATATTCATTTATTTGGAGCACATTTTCAACCTGCTATAATATTTATATTACCTCCTGGAGCATTTATTACAATAGGATTTTTAATGGCAGGAATAAATATAATAAAAAATAGAAAAACTAAATAGGAGGTGTAATAATTGGAATTAAGTAAGCTTTTTGCGATAATAATAGGTTCAATATTTATAAATAACTTTATATTCTCAAGATTTTTAGGGCTTTGTCCATTTATGGGAGTATCAAAAAAGATAAGTTCATCAGTAGGAATGGGAATGGCTGTAACATTTGTAATGACATTAGCATCTTCTGTAACTTGGGTAGTGTATGAATATTTATTAAAACCGTTTAATTTAGAATATTTACAAATAATAGCTTTTATATTGATAATAGCTTCTCTTGTACAATTTGTAGAGATGGTAATACAAAAAACAAGTCCTAATTTATATAAGGCTTTAGGAGTATTTTTACCATTGATTACAACCAATTGTGCGGTTCTTGGAGTTGCAATATTAAATATTCAAGAAAAATATAATTTTATAGAAACAACAGTAAATGGGTTTGCAGCAGCAGTTGGATTTACAATGGCTTTATTATTGTTGGCAGGAGTAAGAGAAAGACTTGATTATGCAGATGTACCAAAAGCATTTCAAGGAATTGCAATAGCATTCATAAGTGCTGGGTTATTGGCTTTGGCATTTATGGGATTTAGTGGAATGAAAATATAACCTGATTGGAGGTAAGTTATGGGAGCAATATTAATACCAGTATTAGTTTTAGGAGGATTAGGACTGTTTTTAGGAGGATTTTTAGCATATTCGGCTAAAAAATTTGAAGTTAAAATGGATCCAAATGTAGAAAAAGTATTTGAAGCATTACCAGGAGCAAATTGTGGAGCTTGTGGATATCCTGGATGTAGTGGTTATGCAGAAGCAGTAGCTGGTGGAAAAGCAGAAATAAATTTATGTGCACCAGGTGGTGGAGCAGTAGTTGAAAAAATAAGTGAAATAATGGGATTGAATGCGGATATTGATGAAGAAAAAAAAGTTGCACGAGTTATGTGCCATGGAGATAATAGTAAAACAACTAAAAAATTTGAATATGATGTAACTTTAAAAAGTTGTGCAGCTTCTAATCTATATTATATAGGAGATAAAAGTTGTACATATGGATGTTTAGGATATGGAGACTGTGTAGCAGTTTGTCCTTTTGATGCAATTCATATAAACGATAAGGGAATAGCAGAAGTTGATGAAGAAAAATGTACTGCTTGTGGAAAATGTGTAATTGAATGTCCAAAACATATTATAAACATAGTTCCTGAAAAAAGTAGACATACAGTATTTTGTTCATCAAAAGATAAAGGAGCAGATTCAAGAAAAGTTTGTGATGTATCTTGTATAGGGTGTGGAATATGTGCTAAAAATTGTCCAGTTAATGCAATTACTGTTGAAAATAATTTAGCAAAAATAGATCCAGAGATATGTATAAACTGTGGAATATGTGAATTAAAATGTCCAACAAACGCAATTAAAAGTGATATAAAAGAGATAAAAAAAGCACATATAGAAGAAGAAAAATGTGTAGGGTGTACAATGTGTGCAAAAGTTTGTCCAGTAGATGCAATTGAGGGAGAATTAAAACATAAACATAAGATAATAGAAGAGAAATGTGTAGGATGTGGAGCTTGTGTGGAGAAATGTCCAACTAAAGCAATAACATTAAATACAGTAGTTGAAAAAAATTAAAACTTAAGAGTAAAAATAAAGATAAGCGTTATGCTTATCTTTATTTTTTTGTAAAATTATTTTACACAATATAAAAAAAGGAAAACTAGAAAAAAAGAGTATAATATAGTATACGAAAATATATAATTGTATATTATTTTAGTATACAATGATTAGACCCCCAAAAGGTAGTTTTCTAAAATCATACCACTACATATAGTTTCGTAAAAACTTTCGAACACTATATGTAGTGGTATGAAGAAAACTAAATACATTTTTGTGGATCAATCATACAATTATAATACGTGAAATATAATTTTTTGTATTAAATTAAGCGCTGAAAATATTAAAATTTAGAAAGTAGAGTAAAACAGATGAAAATTTTAGATTATTTATTAAGAAATAAAGATAAAATAATTTTAGAAACAGCAAATCATATATTTTTAGTTTTTGTATCAATAATAATTGCTTCAATATTTGGGATTTTAATAGGAATATTTATATCTAAAAATAAAAAGAAAGAAAAAATAGTATTAAAAATAGCAGAAATATTTATGACTATTCCAAGCCTGGCATTATTTGGAGTTTTGGTAATAGTTTTATCACCATTAAAAATGGGGATAGGAAAAGTCCCTGCTATTATAGCACTAGTTATCTATTCGTTAATGCCAATAATAAGAAATACAATATTAGCAATAAATAATGTAAGAAATGAATTAATAGAAGTGGCGGTAGGAATGGGAATGAGTAAAACAGAAATTTTATTTAAAATAAAAATACCTTTAACCGTTCCAACTATAATGGCTGGAGTAAGAAATTCAGCAGTTATGGGAATAGGAATAGCAACAATTGGATACTATATTGCTTCTGGTGGATTGGGATATTTTATATTTTATGGATTAACACGAGGAAATTATGAAATGGTTATTTTAGGAGTTATTATTTTAAGTTCATTAGGAATTTTAGTTAATTATTTATTTTTAAAATTAGAATATTTTTTGACACCTAAAGGAATTAGAGAAGATAAAAAATAGTAAAGTTGGAGGATAAATTGAGTATAGAATTTATAAATATAAGTAAAAAATATGGGAAGTTTTGGGCTTTAAAAGATATAAATTTGAAATTACAAAAAGGTAAAATAAATATATTGATAGGAACTTCCGGTTCTGGAAAAACTACATTGTTGAAATTAATTAACAGATTAATAGATAGAGATAGTGGAGAAATTTTAATAAATAATAAAAAAATTAATGATATTGATGTTATTGAACTTAGAAAAAGTATGGGATATGTTGTACAAGAGATTGGACTTTTTCCACATTATACAGTTTATGAAAATATAGCAGTAGTTCCAAAACTTTTAAAATGGGATGAAGAAAAGATAAAAAACAGAGTTTGTGAACTATTAGAAATGGTAAATTTAGATCCAGAAAGATTTATGGATAAATATCCACGAGAATTAAGTGGTGGTCAGAAACAGAGAATAGGAGTAGCAAGAGGTTTGGCATCTGACCCGGAAATAATACTTATGGATGAGCCATTTGGTGCTATAGATCCAATAAATAGAGAGGAATTACAAAATTCATTTTTAGAGATTCAAAAGAAAATAAAAAAAACAATAGTATTTGTAACTCACGATATAAGAGAAGCATTAAAATTAGGCGATTATATAACAGTTATGAACAAAGGAATAATAGAGGGAACAGGAAAAAAAGAGGATATAATAAAAGAAACTAAAAATAGTTTTATAAAAGATATATTGGGAGATTTTAGTTATATAAAGTATTTAGAATTTATGAACAGTGATAATAAAATAGAGGAGATAAAAAGAATAGAGAATCAAAATAATGTATATGAAGATAAACAGATAGTATATAGTGATTTTTCTGAAAATTATTATTTTCTTACAGATAGAGAGGAAAAGTTTGTTGGGTATTTAAAAAAAGAAGAATTTAATAAAAATATGAAAAATTTAAAAAAAGATTTTATAGATGAAAGTTCAAATTTATTAGAGGCTTTAAATAAAATGATTTTTAATAAGGAAACAATGATACCTGTATTGAATAATAAAAAACTTATTGGGGTATTAAGATTTGAATCTATTATAGAGTAGTAGCGGTTGACCTATGTTGTCCAGATATTAATATATATATGGGCGAACACAGGGGTTCGCCCATACAGTGTTATTTTTAAACAGTTTATAAGGAGAAAATATGGGATTTGATATATATTACATTTTAGAAAAAATATTTCAACATTTATATATTTTTATAATCTCTTGGGGAATGGCTATAGTTGTAGGGAGTCTTATATCTATATTTATTACAAGAGAAAAACATAAAAAAATTGGAACGAAAATATTGATTTTAACAGGAACATTACAAGCAGTGCCGAGTATTGCTATTATTGCTATAATTTTTTTATTTGTAGGAATAGGAATTGTTCCTGCGATAATATCTTTATTTTTATATAGTTTAGTTCCAATTATATTTAATAATACATCAGCTTTATTAAATGTAGATAAAAATTATATAGAGATTGCTAAAGGTATGGGTATGAATAAAAAGGAAATATTATTAAAAATTGAAATTCCATTATCAATGTCATCTTTTTTTTCAGGAATAAAAAATGCTGCAGTTATAGATATTGCAACTGCTACTGTGGCTTCTGCAATTGGAGGTGGAGGTTTAGGAGAAATAATATATATAGGAATTAGTAATTTTGATAATGAAAGTATAATTTTAGGATCTTTATTGGTATCTTTATTGGCAATTTTTGTGAATGAATCTATAGAAATAGTAGAAAGAAAAGTAATAAAATATAAAGAATATTGATAAAAGATGGAGTATTAAAAGTTTATGAAAACTATGGTAAAAAATAAGAAAACAAAAAAGAATGCAACGCAGAGACGCAGAGGTCGCAAAGATTCACAGAGGAAAACTTGTGTAGAAAATAACATTTAGAAATGGATTTAAAAAGGAAACTTTATTTGACAATATTATAAAAATACATAGGAGGTGAAAACAATGATAAAAGTAATGTTTAATAACACGCTTATAGCTGAAACTAATAATTGTATAGCTGTAGAAGGAAATTATTATTTTCCACTAGAAGATGTAATGATAAAATATTTAGGGAAAAGTGACTATCATACAGTTTGTCCTTGGAAAGGTGATGGAAGTTATTATAATTTGAAAGCAGAGGGAAAAGTAGTAGAAAATGCAGCTTGGTATTATCCAGAGCCAAAAGAAGAAGCTAAAAAAATCAAAAATTATATAGCATTTGATAAAAAAGTATTTAATATTTCAGAGGAATAAGAGGATTAGAAAAAACAGGGTATGTTGCCACGTGCCCTGTGGATATATTTGTAAATAACTAATGATAGTGGGGGAGGGAAGCAAATGAGTTATATAATTTTAGTAGTAATAATTTTAATTATTTTCCATATATTTATTCATAAAAAAAAATTATATTTACTTCCTGAAAAAAATAATAATCCTATTATTTTAATAAGGAAAAAGAAAATTAAATATATGAATGGAGCAGCAAAATGTATATTTTATCAAAAAGAAGATTTGGATATATTAGAAAATGAAGTAATGAAAAGTAATTATAAAGAATTTGAGGTTAAAATTAATAATAGTTATTATAATTTTAATGTAAGTACAATAGATAAAAATTCATATAATTTATATGGAAAGAATATAACAAAATTAAAAGAAACAGAAAAAAAATTAGAAATCACGTCTAAAATATTTGAAATATCTAAAGATGGAATATTAATATTGGATGAAAATTTTGTTATAATTGCAGTAAATGATGCATTTACAAAAATATCTTTATTTACTGAAGAAGAATATATAGGAAAAAAGATATGGGACACTACAGGGTTACTTGAGAGAAAAGAAGAATTTAAAAATATACTGAAAGCTTTATTAAAATTAGATTATTGGGAAGGAGAAACATGGTTTAGAAAAAAAACAAAAGAAATTTATAACGTATATTTAAAAATAAAAATAATACGTAGAAATAAAAAAATTATTAATTATATAATTTCTATAGAAGATATAACGTATTTGAATAAAATAGAGCAAAGAACTAATTTTATTAAAAATTATGATCTGTTGACAGGACTACATAATAGAAATTTTATTATAGAAAAAGTTGAAAAATATTTTGCTGAAAATAAAAAAATTTATTTATTATATTTGGATATTGATAATTTTAAAAAAGTTAATGATTCTTTAAATTACAAAGCTGGTGATAAAATTTTAAATGACTTGTCAGAATATTTGAAAAGTTGTGTTAATAGTTCAGATGAATTGGGAAGATTAGAAGGGGATAAATTTGTTTTATTATATGAAGAAAAAGATTATAATGAAAAAGAAATTTTAGATAAATTATATAAAATTTTTAAATTACCATTTAAAACATATGAAAATCCATTTTTAGATGAAGTAAAAGATGTATATTTGAATTTTAGTTTAGGGATAGCATATTCTGAAAATAGTAACAAAAGTGCTTTTGATTTAGTAAAAAATGCGGAAATAGCAATGTACGATTCAAAAGTTGATAAGAAAAATAGTTTTAGAAATTATGAAAAACTAAAAAATAGAGATTTGATAAAAGAGGTAGAATTAGAAAGTGATTTAAGAAAAGCTATAGAAAATGATGAATTTATAGTATATTATCAGCCACAAATAATGATACCAGAAGAAAAAATATTAGGAATGGAAGCATTAATAAGATGGCAAAGTCCAAAAAGAGGATTTGTAAATCCTGGTGGATTTATTGAATTTGCAGAAAAAAGTGGACTTATAGTAGAAATAGGAGAAATTGTATTTGAAAAAAGTTGTAAATTTTTTAAAGAACTTATGGAAAATGGCAGAAAGGATTTACTGTTATCAGTAAACTTATCACCATTACAATTTGATGATATAGATTTAATAGATAAAATAATGAGTATTGTAGAAAAATATAATATACCTACAAATAAAATTAAACTTGAAATCACAGAGAGTTTAATAATGAAAGATATGGATAATAATATAAAAAAAATGGAAGAGTTAAAAAGTTTAGGTTTTAAATTTTCAATGGATGACTTTGGGACTGGCTATTCTTCACTTAGCTATTTGAAAAATTTTCCATTAGATTTTTTGAAAATAGATCAGAGTTTTATAAGAAATTTGCGTGATGATGAAAGCGATAAAAATCTTGTGAAAGCTATTTTAGATATTGGGAAAATATTTAAATTGGGTGTAATAGCAGAAGGTGTAGAGACGAAAGAACAATTAGAATTTTTAAAAGGGATAGGAGTAACCGAAATACAAGGATATTATTATAGTAAACCAATAAGTGATACAGAGTTTATAAAATTTTTAGAAAAAGAGTAAAAATTAGGAGGAGAAAATGAAAAAATTATTATTGTTAGGTATCTCATTACTGTTATTTGTTAATGTAATGGCAAAAGATGTTGTAGTTGGAGCAAAAATGTTTACTGAAGGGTATGTTGTATCAAATTTAATATCAGAATTACTGAAAAAAGATGGATTTAATGTAAAAGAAAATTTTGGAATGAGTTCTTTCCCACTTAGAAAAGCACAAGAGACAGGTCAAATAGATATATATCCAGAATATACTGGAACTGCATGGGGAGCTTATTTTAAAAAGAAAGAATTGATAAAGAATCCTAAAAAATTATATGAAGAAGTAAAAAAATTGGATTATCAAAAAAATAAGTTGGTTTGGTTAGATATGATAAATGTGAATAACACTTATGCTTTAGCCATAAGAAAAGATTTTGCTAAAAAATATAATTTGAAAAGTTTAACTGATTTGGCAAATTTGATAAAAGTAAATAAAAAAATAAAATTTGGAATAAATCCTGAATTTTATAAAAGAGCAGATGGATTTTGGGCAATGGCGAAACATTATAAAATGAAAATAAAAAGAAATGAAGTTAAATTAATGGATGCGGGAATAGTATATCAAGCTGTGGCAAGTAAAAAAATAGATGTAGCAATGGCATATTCTACAGATGCTAAGATAAAAAAATATAATTTGAAAGTATTAAAGGATGATAGTAGTTTTTTCCCATATTATAATTTAGCAGTTGTAGTGAGAGAAGAAACTTTGAAAAAATATCCTGAAATAAGAGAAGATTTAAAAGTGTTATCTGATAAATTAACAGAAGAAGATTTGATAGATTTGAATTATAAAGTTGATGTAGAGGGGAAAGAACCTAAAGAAGTTGCAAAATGGTATTTGAAAAATAAAATGTAAAAGTTGTTTTTAAGCCATTCCTAAATAAGAGATAATAGATTATTATAATCTATTATCTCTTATTTTTTCATCTAATAGGAAAGTATAAATTTATTCAGAAAATAAGCTACGCCATTTTTTTGAAATATGCGATTTTTCAAAGCAAAATTTTTCAGAAACCAAAAATTTAGAAAAACATTTATGTTCTACCAGATGAAGCGGAGTTTATTTTTTTATAAAGTATTATTTCCCAATTTTGAGTTGTATTTTCTAATTTAAAATAGTATGCTATATATGCAATAGATAAAAGTAGGAATATGAGAAATATTATATATAGAGATATAAAGTTTAAAATTAGAGATAGAGCTAAAAAGATAAAAGTAAATAATATTGTAAACAGCATTATGATTAAATGAATTAGTCGTTCGTGGGATAATATAGTTATGGCAGTTCTATGGATATTTATATCTAAATTTTCAGATGTTATGTAGTTGTTATGTTGTGTTATGAATTCATTTATATTTTTCATTTGAGATGACCTCCTTGATTTTATTTAGGAAGGCTTAAAAACAACTTTTATATTTTATTATAAAATATAAAAAACTTATTTTTTAAACCTTCCTTAATTATACTTTATAAATGTGTTAGAAGCAATAGATGATTTAGCCACAAAAATAATGGAGGGATTTTTATGAATATTAATGATTTGAAAAACTATTGTTTGAATAAAAAAGGAGTTTATATCGATTTTCCTTTTGATGATAGAACTATTACTTTTAAAATAGGGTCAAAGATGTTTGCACTTTCAGATATAAAAACAGGTGAAGAAAAAAATTTAAAGGTAAATTTAAAATGTAATCCTGAATTAGCAATGGATTTGAGAAATATTTATGAAGGAGTTATTCCAGGATGGCATATGAATAAAAAACATTGGAATAGTGTATTTTTGAATAGTGATATCCCAATTAATGAAATTTTTAAGATGATAGATCATTCATATGAATTGGTTTTTAAATCTTTGAAAAAATCAGAAAAAGCAAAGATAGAGGTATAAAAGTAGAAAAAAATATTATTTCTGAAAGGAGAAGAATTATGAAAAATGTATTAATTGTGGAAGATGAAAGTGCAATGAGAAAAATAATAAAAGATTATTTGATTAGAGATAATTTTCGTGTTTTTGAAGCAGAAGATGGAGAAAAAGCCATTGATATGTTTTATAGTCAGAAGATTGATTTGATAATTTTGGATATAATGATTCCAGGTTATGATGGATGGTCAATTTGTAGAAGAATAAGAGAGGATTCAACAGTTCCAATTATAATGTTGACAGCCAGAAGTGCAGAAGAAGATGAAATTTTTGGATTAGAATTAGGAGCTGATGAATATATTACAAAACCATTTAGTCCTAAAGTATTAATGGCAAGAATAAAAAATATTTTTAGAAGGGTTGAAAATAGTGACAATGAAAACGGAAATACAGAATTTGGAGAACTTAAAATAAATAATAAAAGTCATCAAGTATATTTAGAAAATAAAGAGTTAAAATTATCTCCAAAAGAATATGAGTTATTACTGTTTTTTTCGGAGAATAAAGATAAAGCTATATCAAGAGAAGAAATTTTAAATAAAATTTGGGGATATGACTATTTTGGAGACTTGAGAACTATAGATACACATATAAAAAGGTTGAGAAAAAAATTAAATGGGAAATTTATTATAACTGTAAGAGGAACTGGATATAGATTTGAGGTGGAAGAATGAAAATTAAAATGTCTTTAACAATAAAATTTTATTTGATAATAGTATCTTCTTTGATTTTTGCAATAGGGATATCTATATTGATTAGTAATTTTATGTTGAGTAAATATTATATTGTGCAAAGGGAAAAAAAGATAAAGAATATAGCTGTAACTTTACAAGAAATAGATGTTAATTCAGCTTTTAAAGATGAATTTGAAAAATTAAAAAACAAGAATGATATAAATATATTATTTTTAAATAAAGTTCCAGATTTTATAGCAGAAAATTCAATGTTACAAATAATGATGGCATTAAGTTATGTAACGAAAGATGAAATAAAAAGAGTTTATAATGGAGAGATTATATTAAAAAAAGAGTATAGTGTTATAACTTCTAGAAATGAAATAATTGTACTTACTAAAACTAAAAATGGAATAATATTAGCATTAACTAGCTCAATTGCTTCTGTAAAAGAATATGTAAATACAGTAATTAGATTTGGGATATTTACTGGAATAATAGCATTAATTTTAACAATTTTTATAAATGGATTTTTTGTAAAAAAAATATTATTTCCATTGAAAAAGCTAAAAGAGATAGCGGAAAAAATGGCTAAATTAGATTTTAGTGATAAATTTGATATTGAAACAGGAGATGAAATAGAAGAATTTGGGAAAACATTTAATTATTTATCTAATGAATTGGAATTTAATTTAACAAAAATAAAATCTGTGTCAGAAAAATTAACTCTAGAGATAAAAAAAGAGAAAGAGATAGAAAGAAAAAGAAAAGAATTTATTGGTAATGTAAGTCACGAATTAAAAACTCCAATAGCGTTAATAATGGCATATTCAGAGGGGTTAAAAGATAATGTAGCAATTGTAGAAGATAGAAATTATTATTGTGATGTAATATCTAGTGAAGCTAAAAAAATGGACAATCTAGTAAAAGAATTATTAGGATTAATGAAAATAGAAAAAGAAGAAAAAAAATTGAAATTTGAAAAAATAAAAATAAGAGATATAATAAAAAAAACAATTAAGAAATTTGATTTTGATTTGAAAGAATTAGGGGTAAAATTGAAATGTAGTAAAAATCAGAATAACGATTATATTGTTATGGCTGATATTGTGAAAATAGAGCAAGTTTTAGATAATTTAATAAGTAATGCGATAAATAATGTAAATAAAAATGGAATAATAAGTATAGATGTATTAGAAAAAAATAGTAAAATTGAAATTGAGATTTATAATTCTGGCTCACATATACCAGCAGATAAGATAGATGAAATATGGGAACCGTTTGTAAAATTAGATAAATCGAGAAATAGAAAATATGGTGGAACTGGTCTTGGATTATCAATAGTAAAAGGAATAATAAAAATACATAATAGTGAAATTAAAGTTGAAAATATAGATAATGGGGTGAAATTTTCATTTTTTTTAGAAATGGCTTAAAAACAACTTATTCTTTGAATATTTTTTAGAAATAGTTTGAAATTTGGATTTTATCACAAATTTAGATTAAAAGTTCATAAAAGTTTACTAAAGTTGTCACGAATTTGACACATAAAAAGAGTATACTGTTTATAAGAGGTGGAGACGTCCATATGACTAAAAATCGAAAAGGAGTGAGAATTATGAAAATCAGAATGTTTATTGGTGCATTATTTATCTTAGCTATAGGAGCTATTGCGTATGCAAATGTTGGAAATTTTAGAGGTGGTATGATGGGGGGGGGAATACAATGCAATGGAGTGTATAACAACACAAATGTTAATAGTGAAGAAAGCAAAGTAGTAGATGAATTTGTAAAAAAATTAAAAGGGAAATACAAAGTAGGAGAAAGTGAGAAATTAAATCCAGATAAATTAACTGGAAAAGAATTGGAAGAACTTGGAGATTTAGTGATGGATGTAATGATTCCAAATAAATATCAACATGAAACTATGGATAATATGATGGGTGGAGAAGGTTCAAGTAGATTAACAGCAGTACATCAAAATATAGCTTATAACTATTTAAGAGGAAATGGTTTTGCTGGTATGGGCATGATGGGTATGATGGGGAATGGAATGATGGGAAATTGGAATAATTCATATAACTCAAATAACTCAAATAACTTAAATAGATTAAATAATTCTAACAGAGGTCAAGAATCAGCATTAGAAATATTACAAAGAAGATATGCAAATGGAGAAATAACAAAAGAACAATATGAAGATATGAAAAAAGTACTTAATAAAAAATAGGAGGAGAAAAGAATGAAATATGAATTTAATAAAGAGGTAAAAGGCGAATTTGAAAGTGTAAAAAAGATTGTGATTGAGAAACTAAAAGATGAAGGATTTGGAGCATTATACACTTTAGATATGAAAGAAAAATTTAAAAAGGCATTAAATGAAGAGTTTAGAAGATATGAAATATTGGGGGCATGTAATCCAAAATTTGCAAAAAAAGTGATAGATATTGATAAAAATATAGGGCTATTATTACCTTGTAATGTTTTAATAGAGCAAAAAGACGAAGATACAATATATGTTTCTATAGTAAATCCAAGTGCTGTGATAAATATATCTGGAAATGATAAGATAATAAAATTGGCAAAAGAGATTGCAGAAAAATTGGAAAGAGTAATTAAAAATATTTAAATAACTTGGAGGTGTTTAAAATGATGGGATATTATGGTTTCGGAGGTGGTTTTTGGATGATGGGTATATTAATAATAGTAGTTGTATTTGTAATATTATTCTTTTTTAAAGAAAATAAGGGTTTAGGTAGAGATATAAGTTTAAATAAATCAACACCAATGGAGATATTAAAAGAAAGATATGCAAAAGGTGAAATTACAAAAGAAGAATTTGATGATATAAAAAAAGATTTATAGTGTGAAAGAGCTATGTTTATAACATAGCTCTTTTATTTTAGTTTTTTATTTATTAAGATTGAAATTATTAATTAATAAAAGTTGACAAATAAAAGTTTAAGTGATACTATATAATTAAATCGTTATATGGTTATATAATAATATAAACGAAGAAAAAAGAAAAGGACGTGATGAGAAATGATGGTGGAGTTTTTAGTATTAATATTGATTGTAGGTTTTGTAACAGCTGGATTGAGCATTAGATTTGATAGGTTTTTTACTATTTTACTTTTGTTATTTGTATTTAAATTAACCATATTTAATGCAATAAATCTGTTTTTATGGGTTATTTTATTTGGAGCATTAATGATTATATTGGATAATGCAGATAAGATTTCAAAATTGCCAAAAGCGATGAAAATGAAACTATTTACATTTATTCCAATAATGACATTTATTTTTTCGTGGCTTGGAAGTTATGTATTTATGCTTAGTTCTAAAACTGTTTTAATTGTTACGTTAGGAATAATTGCTATTTTGTATGGATTAAGACTTGTCTTTATTCATTTTGCACCTGATGAGTTGGATTTAACAAATGCAAGTCCAACAATTGTGAAACTATGTGGAATTTTTGGACCTATTATCAGTGGATTTTTTATTGGATTTATAGGAACATCATTAAAACCTTTAAAAATACCATTTGCTATTAAATTTGGGAAAATGAATGCAAAACAAGTTTATTTAGGAAATACAATCACAACTTTTTTTGCAGCTTTTTTTACTATAATATGGCATTTTGTTATGAGTAAAGGAGCTATTACAGGAGCAATATTTTATCAACAAATGATATTAGGGGCAGCACTTTGGACAGGGATTCATTATACGTTTGAACTTACTAATATTTTCTTTAAAAACAGCTGGAGAAAACCATTCCAAATAATAATAGGATTGACACTGTTATTAGTATCAATTAAAGTATTTATGATGATTTAAACGTTTTTTAAAATTATATTATTTCATATTAAGAAGCCATCCGTTTTGGGTGGTTTTTTAATATTTTGGTGTATTTGAAAAAATACTTGACAAAATTGCTAAATTAAGTTATATTTATATATATAAATATAACTTAATTTAGTGCAGGAATAGCTTAAAAATAGAATTCTTATTTTTTAAATATTCCAGAGGAGAAAAGAATGGAAGAAATACTAAAAGTATCTAAAGGACTATCAGATAAAACAAGATTAAAAATTTTATTATATTTAATTGATGGAGAAAAATGCGTATGTGATATTTCAAGACATATATCTAGGAGCCAGCCTACTACATCATTGCAACTAATAAAATTAGAAAGTTTGGGATTGGTTTCTTTTAATATTTATGGTAGAAGTAGATGTTATTATATAAAATCTGAAAAAGTAAAGCGTATATTTGAAATTTTTGAATTAAAAAATCAGTGATAAAATTGGAGGCGTTTTATGATAAAACTTACAAATGAAAATTATAATGATTTTATAGATTTGCCTTTTGATAGTATTAGAAATAAGATTTTAGATATAATAAAAGAGAAAAAGGCAAAAAAAATAGTTGATTTATGTTGTGGAGCAGGAGAGCAATTAACTTTATTAAAAGAAAATGGATATGATAATATAATAGGAATAGATATTTCTGATCATATGTTGGAGATTGCAAATTTAGGAGAAGATAAACCAATATGTAAAAAAGGTGATGCAACAAATACAGATTTTAAAGATAATAGTTTTGATGTTGCTATTATAAGTTTTGCATTGCATGATAAATCTTTAAATTCACAAAAAACATTATTAAAAGAAGCAAAGAGAATTGTTAAGAAAAATATGTATATTATTATTGTAGATTATAATTTTGATAAAAAAACAGAGAGACTAGGAGAAGTTGGAGTTGAATTAATAGAACAAGCACCAAACGAACATTATGAAAATTATAAAAAATATATAAAAAAAGGTGGATTAGATTCATTAGTAAAAGGAAAATTTATAAAAATAGAAGAGTACTATTTTTATTTTAATGCTGTAAGATGTAGGGTGTATAAGAATTAAAAATTAAGAATTAAAAGAATTAAAAGAATAAAAGAATAAAAGAATAAAAGAATAAAAATTAAAAATAAAATTTTAAAATCAGGAGGAGAAAAATTATGAAAGAGAGAGTGAGTTTAAGTTATTGTCCTACAATGTTACCATATGTTGAGGAGATTAAAAAAAATTTGGAAGAGGTTGAAATTATTCCAGGAGGAAGTGCAGCAGGTGTATTATCAATGTTAAGAAATGGGAATGTGGATATGATAATCATTGGGAGAAAAGCGTATGAGAGAGAATTAACTAATGAGATTAAAGAGAGAAGATTGCAGGAAGGATATACTTTGGCATATTCTCAAAAGATGGGAATTTCTGAAGAGAAATTAAAAGAGATATCAGTTAAAACTTATGTAGATGAAAAAATTGTAAAAGAAAAATTTGCAATGTTAAAAAATGTAACTTATTATGAAGATAAAGATGAATGTATAAATTCAGGAGTAAATATACCTATGCTAGTAGATTGGCAAGATTTTAAAGAGGAGTTTGAATTATTAATACCTTTGAATAATGAGGGAGGCAAAACATCTGTTTTTAGAGCTCCAGTTGTGTATTATAATAAAAATGTTGATGATAAGATTATTGATAAAATTGAGAAAATATTAAAATAATATTGATTTATAATAAAAAATAGTGTAGCTTATTTTCTGAATAAATTGATACTTTATTATTAAATAAATGTTTTTTTAATGAGGGGGTAATTTTTATGTCAAAATTTATAGCAGATATTTATGATACTTCTTTATATATTCCATTGAAGGGGATTAGAAAAAAAATTATAGATATAATTGATGAATTAGGTGTAGAAGAGATAATTGATATTTGTTGTGGGACAGGTAATCAATTGAAACTGTTAAGAAAAGCAGGGTTTACATATTCTGTAGGAATAGATTTATCAGATGATATGTTAGCAGTTGCAAATAATGAAAAAAATAATTTAAATTGTAAAAAAGAGGATGCTACCAATTTAAGCTTTAAAGATAATAAATTTGAAGTTGGGATAATAAGTTTTGCACTTCATGAAAAGCCATTAGAAATACAAGAAGCTGTATTAAAAGAAGCTAAAAGAGTTATAAAAAAAGATATGTATTTAATAATTGTAGATTATATGTTTGATGATAAAGTTAATTTTTTAGGTAGATTTGGAATTGATATAATGGAAAGAATTGCAGGAGAAGAGCATTATAAAAATTTTAAAAATTATATAAAAAATGGTGGATTAGAGAATTTAACAAAAGATAAATTTGAAAAAATAAAAGAGTATTATTTTCATTTTAATGGGACAAGATGTGTGGTATATAGGAACGTGAAGAGATAATTGACAATTGATAATTGAAAATGTATAATGGAGGGGATTATTAGTTATTTGAATAATAATGGTTATAATAGTTGTAATTATAACTTTTTAAAAATAGATTTAAAAATAAATATAGGGAAATAGGGAACATTTAAAAAATAAGTTTCTCATTTTTTGTTATAAAAACGCTTAAAGAACATTTAAAAAGTAATTATATATATTTTATTATAAAAACGATTGAATCGTTGCGTATTTTATAATAAAATGATAAGGTTGTTTTTAAATCGTTCCTAAACCATTGCGTATTTTAAAACAAAACCAGAAGGTTATTTTTAAGACGTTCCTAAATAATAAATTTTATGTTTTAAGGGAGGCATAATGTTAGGTATTGATTTAGGGTCTGCAACAGCTAAAATTGTGTTGCTGGATAAAAATAATAATGTAAAATATAAAAATTATATTAGACATAATGGAAAAATAAAAGAGGTATTAATAGATTCTTTGAAAGAATTAAAAAAAGAAATTGGAGAAGAAAAATTTTCATTAGCTATAACAGGAACAGCAGGAATGGGAGTAGCAAATAGAAATAATTTTGAATTTGTACAAGAAGTTATTGCAATTTCAAAAGCTATTGTAAAATTTTATAAAGAAGCTCATACTTTAATAGAACTTGGTGGAGAAGATGCAAAAATAATTTTATTTGAAGAGGGAAAAACTCCAGAAATGAGAATGAATGGAAGTTGTGCAGGTGGGACAGGTTCTTTCATAGATCAAATGGCAACTATACTAAATGTAGAAATATCAGAATTAAATGAATTAGCTAAAAAAGCAACTAAAAACTTATATATAGCCTCAAGATGTGGAGTATTTGCAAAGACAGATGTGCAAGCATTATTAAATATGGGAGAAAGTAAAGAAGATATTGCAAAATCAGTATTTTTAGCAGTTGCAAATCAATCAATCACAACATTAATGGCAGGAGCAACAGTTAAAGAAAAAGTTATTTTTGCAGGTGGACCTCTTACATTCTTATCAGAATTAAGAAAAGCATTTTATGAAACATTAAAATTATCAGAAGATAAATTCATATTACCTGAAAATTCAGAAGTGTTAGTTGCAATTGGTGCAGCACTTCATTCGGAAAAAACAGATGAAAAATATACAGTAGATGAAATAATATATAAATTAAAAAATGAGAAAAAAGGTGAAAAGACAATTCGTGTTTTAGAGCCACTTTTTGAAAATAATAAAGAGTACAAACAATTTAAAGAAAGACATTCTCAAAAAGATGTAAAATATCTTTCAGAAAAAACTGATTTTGAAAAAAAAGATTTATATATAGGAATTGATGCAGGTTCTACAACAACTAAACTTATAATGATTGACAATGAAAATAATGTTGTAGATAGTTTTTATAGAAATAATTTTGGAACACCTCTTGAAGCAGCAGTAGAGGGACTAAAAAAAATTAGTAAATATATATCAAATGGAAATTTAAAAGGGGTTTATGCAACTGGTTATGGAGAGGAATTTATAACAAAAGCTTTAAATTTAGATGGCGGAATAGTAGAAACTATGGCGCATTTTACAGCAGGAAAAAGTTTTGGAGATAATTTAAGCTTTATTGTGGATATTGGTGGTCAAGATATAAAATCTATAAAAATAGAAAATGATATGATTTCAGATATTCAATTAAACGAAGCTTGTTCTTCTGGGACAGGGTCATTTATTGAAACTTTTGCTAAAAATCTAAATTTAACATTGGATGAATTTGTAGAAAAAGCAATTGCAGCAAAAAATCCAGTAGATTTAGGAACTAGATGTTCTGTATTTATGAATAGTAAAGTTAAAGAAGCATTAAAAGATGGAGTAGAGGTAGGAGATATTGCTGCTGGGCTAGCATATTCAGTAGTTAAAAATGCATTGTATAAAGTTATAAAATTAAAAAATGCAGATGAATTAGGAGAAAATATTTTTGTACAAGGTGGGACTTTTAAAAATGATGCTGTACTTCGTGCATTTGAGAAAATAACAGGGAAAAATGTATATAGATTAAATATATCAGAATATATGGGAGCATTTGGAGCAGCAATTTATGCAAGAGAATTTTATAAAGGGAATAAAAATTATAAAACTAAATTTAATATAAATAATATAGATAAGATTGATTATAAAAAAGATTTTTTACAATGCAAAGGGTGCGGAAATAAATGTAATATAACGAAATTTAGTTTTGATAATAATAATATATTTTATACTGGAAATAAATGTGAAAAATATTTTTCAAACAGAACAATAAAAAGGGATAACACTAAAAACTTTTTTGTAGAAAAAGAAAAAATGGTTTTTGATATGGAAAAAGAGTATAAGTATGATGAAAACAAACCTGTAATAGGAATTCCTAGAATATTATCAATGTATGAACATTTCCAATTTTTTTATAATTTATTAAAAAAATTAGGATTTAAAGTAGTTGTTTCAGGAAAAACTACTAGAGCAATGTATTATAGTGGGCTTAGAACAGTATCTGCAGATAATATATGTTTTCCAGCAAAAATTGCAAATGGTCATATTTTAAATCTTATAGAAAAAAAAGTAGATAGAATATTTATGCCAACTATAATTTATGAAAAATTAGAAGGAAATGATGCAAAAAACTCTTATAATTGTCCAATTGTAACTGGATATGGAGAAGTTTTGAAAAGAAATATAGAGACAGATATTCCAATGGACACTTTTGCAATTAGTTTTGGATATGAAAAGGGATTAAAGAAAAATTTATTTAATTATTTAAAACAATTTGGAGTGGAAAAACAAGAATTTAATAAAGCTTTTGAAATTGGAAATAGTGCAGAAGTAGAATTTTTAGAAAAGCAAAGAGAATTGGCAGGAGAAATTATAGAAAAAGCTGAAAAAGAAGATAAAATTTTAGTAGTAGTACTTGGAAGACCATATCATCTTGATTCAATGGTAAATGCAGGTATAATGGACTTGATTTATGAATTAGGAGCATATGGAATAACTGAAAATGCAATTCCAGATTTATATGATATGAATTTAGATGGGGTATTGCCATTAACACAGTGGTCGTATCATAATAGATTATATTTAGCTGCAAAATGGGTGGCAAAGCAGAAATATAAAAAGGTTACAGTAATACAATTAAATTCTTTTGGATGTGGGCCTGATGCAGTTGTTGTAGATGAAGTGAAATCAATTGTAGAGAGTGGCGGGAAAATATTTACAGCATTAAAAATTGACGAAATGTCTAATATAGGTGCTGCCAAAATAAGGATAAGATCAACATTTGAAGCATTAAATCAAAATAGAGATATTAATTTGAAAAAAAGAAAATATACTAAAAATTATACAAAAGAGGATGAGAAAAAAACAATATTAATTCCAAATTTTTCAAAAGTATATTCAGAATTATATGAAGGAGTAATGTATAATTTAGGATATAAAGTAAAAACAATAATAGAGCAAAGCGAAGAGGCGGTAGATGAAGGATTAAAATATGTAAATAATGATATGTGCTATCCAGCTACAGTGGTAATAGGAGATATAATAAAAGCGTTACAATCTGAAGATATAGAGCCTAAAGATGTAGTGGTTGGTTTATCACAAACTGGTGGGCAATGTAGAGCTTCTAATTATGTACCTTTATTAAAAAAAGCTATGGTAGATGCAGGATTTGAAGATACACCTGTAATAGCAATTGGAACTGATGCTACAGCTGAAGGGCTTAATATAAATCCGTTAAAATTATTAAAGTATAGTGTGATTTCATTTGGTGCAGGCGATGTTCTTTCTAAATTAAGATTGGCTACAAAACCTTATGAAAAAGAAGCTGGAGCATCAAAAAATTTGTTTTATGAATTGTTATATGAACTAAGAGAAAAGATGTTTTCTAAAAAACCTAATGGAGATATGCTTAAAAAATTTACAAGAGATGCAGTTAGAAGATTTAATGAAATAGAGATTAATGAACCTAAAGAGAGAAAAAGAATAGGATTAGTTGGAGAAATATATATGAAAACTAATTGTTTTTCTAATAATTATATAGTTGATACTTTAGAAAAAAAAGGATATGAAGTAGTTGTACCAACTTTTTTAAAATTTTTAGAATATGATTATTATAGTAGAAAATTTAATAAAGAAGAAAATGTATCGAATAATTATAAAGAGTATTTAACTAAAAAAGTTATAAAGAAAACTATTGATCATTATAGAAATATTACAGAAAAAGAATTAACTAAATTTGATAGATATATTCCAGAAATAAAATTGGAAAAAAATTCTAAAAGTGATAATAATATATTGCCAAGGTCTTTGCAATTTGGAGAAGGATGGCTTTTAGCTAATGAAATTGCTGGAATGGAATCAGAAGGGATAAAAGATGTTATTTCGCTACAGCCTTTTGGATGTATTTCAAATCATATTATATCAAAAGGAATATATAGAGAATTAAAAGATAAATTAGATGTAAATTTATTACTTTTAGATTATGAAGCAGGAACAAGTGATGCAAATATTATGAATAGATTAAAACTATTTTTAGAAATGAAATAGGAAATATAAATATAAAATAGAGAAGATTAAATTATAAAATACCCTATACAATAAACGAGTAAAAAAGTTGGATTGTATAGGGTATTTTTATATAATTAATTTGACAAAATGCGTGTTTTGGTAGTAAACTTTAATATATGATGGTAGGGGGAATTAAAATGAAGATAAAGATAGAAAAAGCTATACAATTATTAAGATTAGCAGAAGAGCTTGAATGGCAAATGTCAGATTTATATATGTTGTATTATAAATTATACGATGAAGATAAAGCGTTTTGGTGGGAAATTGCAAATGAAGAGTTAAAACATCAATCATTACTAGAAGCAGGAGAAGAATTTGTTAAAATCGGAAAATTTCCAGAAGAGTTATTAGAGATAGAAAAAGATACTTTAGAAGAAGTGGTAGGAGTATTAGGGAAAAAAATAGAAGAGTATAAAAAAAAGGCCCCATCGAAAAAAGAAGCTTATGAGTATGCTTTAAAAATGGAAGATAGTGCATTTGAAAAACATTATCAATATGTAATGGTTGTTGAGAAGAGTGATTCCAAAATTTTAGATATATTTAAAAGATTAAATGCAGCAGATAAAGATCATTATGAAAGAATAAAAAAATTGATAGAGGGCTCTGTTAACTAAATAGTAGCTTAATAATTGATTTTTAAAGATATAATAATAGATTAAGGAACGTTTAAAAAATAAGTTTCTTATATTTTGTTATAAAAACGCTTAAATTATTGCGTATTTTAAAACAAAATGGGAATGTTATTTTTAAGCCATTCCTAAATTTTAATTTAATCTATTCTGAAAGGAGATATTATGAAAAAGAATAAATTAAAAGAAATAAATATTTCTTTATTTGAATTTATATTGGAGTTTGCAGAAATATTTAATTTTATAGATGGAGAAATTCATGGTCATAGTTACGATGTAGCTTATATAGTGATGAGAATAGTAGAAAAAATGGACTTTAATAATAACGAAAAGTTAGAAATAGTATTAGCTGCTTTATTACATGATATAGGAGTTTTAAAAGAGAATGAAATGAAAGATTTAATGAATTTTGAAGTTGCAAATACTCAGCGACATGAAAAAATAGGCTTTTTTCTATTAAACAACTATAGACCATTTAAAACTGTAGCTTATATAGTTAGACATCACCATATAAAATGGAATGAAAAAATATTAGATGAAGATATCCATATTGGGAGCTATATAATTAGTCTTGCAGATAGATTTGCTATTTTAATAAATGGAGATAAAAACTATTACAAGAAAAAAACAGAAATTTTAGATATAATAAATAAAGAAAAAGGAAAAATGTTTTCTCCTGAATTAGTTGATATTTTAAATGAATTAGTTACAAAAGAGGAGTTTTGGCTGAATATAGTATATGGAGATAAAAAAAATATTATTTATGAAAATTATAAGGATAAAGTTACCAAAACTGGTTTAAAAGATATTTTGAGTTTGGGTAAAATCATATCTTTTTTTACAGATTCAAGAGATAGATTTACAGCAATTCATAGTACAGGAGTAGCATATGTGGCAGGAAAATTAGCTAAAATTCTGAACTATAGTGAAAGAGATCAAGAATATTTCTTATTAGCTGGATTTTTACATGATATAGGGAAAGTGGCAATTCCCATTGAAATTATAGACAAAAAAAGTGCATTAACAAATTGTGAATTTGAAACGATAAAGAGTCACACTTATCATACCTATAGAATACTTGATAGAATAAAAGGGTTTGATGAGATAGCAAAAATAGCAGCTTACCATCATGAAAAATTAAACGGAAAAGGGTACCCTTTTGGATTAAAAGGAGAAGAGATAACAAAAGAAGCTAGAATAATGGCTGTAGCAGACGTGTTTACGGCGCTATCTGAAAAAAGACCATATAGAGATAGAATGGGGAAAGAAAAAATAATAGAAATATTGGAAAGTATGGGGAAAGATAATCATTTAGACAAAGAGATAGTTAATAAAGTAAAGGAAAATTATGAAAATCTTGAAAAAATAAATATAGAAGTACAAAAAGAAGTTTTAGAAGAATTAAAAATAATAGATGAATTTATTTATTAATTTACTAAGAAATGGCTTGAAAATAACCTTCCGATTTTGTTTTAAAATACGCAACGATTTAGGAATGATTTAAAAACAACCTTTTCATTTTGTTTTAAAATACGCAATGGTTCAAGCGTTTTTATAACAAAATATATAAAATTATTTTTAAACATTCTTTAAGCGTTTTTATAACAAAAAAAGAGAAACTTATTTTTTAAACGTTCCTAGGAAAGTATAAATTTGTTCAGAAAATAAGTTACGCTATTTTTTTAAAATATGTGATTTTTCAAAGCAAAATTTTTCAGAAACCAAAAATTTAGAAAAACATTTATATTTTACCATATGAAGCGTATCTTATTTTTTTATTATGTAACTTAATATGTTGGGTTAAAATTAAAAACAGCAAATTGTGCGATGAAGCAGATATTGTACGAAAGCTTTTTAAGTGATTTTTTAAAAAAATTATAAAAAATATTAGGAGAAAAAATGTTTGAAGAGTGTAATAATTATTACAAAATAGATGAATTTGAAAAAAATGGAGTAAAAGCTATATACACAAAAAAAAATGTTGGTAACTTAGCATATTATACAGCAGAAACAAATGAAGAATTAAAACAAGTAAAAGATAACAGGGATAAAATTTTATTAGATATAGGTGCAGGTAACAGAAAATTATTTTACGCAAAACAAATACATTCTGATAAAATTAAAATAATAAGAAACACAGACATTGCAAAAGAATATGATGGTTATGATGGATTTATAACAAATAGAAATGATGTTGTAATACTTATGCATTATGCAGATTGTCTGCCAATATATTTTTATGATAAATCAAAAAAAATAATTGGTATTTGTCATGCAGGTTGGAAAGGAAGTTATAAAAATATTGGGTTAAAATTAATAAATATGATGAAAAAAGAGTTTGGATCTGAATTAAAAGATGTTTTAATAGGATTAGGAATTGGGATAAAAGGATGTTGTTATGAAACTGGGAAAGAGATATATGAAAAATTTAATAATCAATTTAATAATAGTATAATAGAAAAAAGCTTTGATATTAGAAATGATAAAATATATTTTGATTTAGAAGAATTTAATTATAATTTATTTTTAGAATATGGAATTAAACCTGAAAATATAATAAAATCGGAGATGTGTACTTATTGCAATGAAGATTTTTTCTCATATAGAAAAGATGCAGATAAAAGAGGAAGAAATGGAGCTTTTATTTTTTTATAGGAAAGAATAAATTTATTCAGAAAATAACCTACACTATTTTTTTAAGTGTGCAATTTTGTAAGGTGAAATTATAAAAAATGATTCTTGACAAAATTAGTATAGAAAGGTATAATAAGAGCATAGAAGTATAATATTAAGTGAGGTGAATAAATTGAAAGAAGTTTATTTTGATAATAATGCAACAACTAAAGTGGATGAAAGAGTATTTGAAGCTATGCTTCCTTATTTTGTAGATAACTATGGGAATCCTTCAAGTATTCATAGAGTAGGGCAAAAAGTAAGAAAAAAAATAGAAGATTCTAGAGATATAATATCAAATTTATTAAAAATAAATCCTAATGAATTAATATTTACATCTTGTGGGACCGAATCTAATAATATAGCAATAAAAGGAGTGGCAAGAGCTTATAAAAATAGAGGGAAACATATAATTACTTCTGTAATAGAGCATCCATCTGTTTTAAATACGTGTAAAGCATTAGAAAAAGAGGGGTTTGAAGTTAGCTATATTCCAATTGATGACAAAGGAATAGTAAACTTAGAAAAATTAAAAGAAGCTATAAGAGAAGATACTATTTTGATTTCAATAATGCATGGGAATAATGAGATAGGAACTGTACAACCTATAAAAGAGATAGGTGCTATAGCAAAAGAAAATAAAATATTTTTTCATGTAGATGCAGTTCAAACAATAGGAAAAATGGAATTAAATATAAAAGAAAATAATATATCACTGTTATCATTTTCAGGTCATAAATTTTATGGGCCTAAAGGTATTGGTGGATTATATGTTAAAAATGGAATAAAATTAGAAAAAGTTTTAACTGGTGGGCATCAAGAAAGAAATAGAAGACCAGGAACAGAAAATGTAGCTAGTATTGTAGGAATGACAAAAGCACTTGAATTATCATATGAAAATATGGAAGAAGAATCTAAAAGAGAAAAAGAATTAAGAAATTATTTTGAAGAAGAAATCGTAAAAAAGATACCAGAATTAATTTTAAATGGAGATAGAGAAAAAAGATTGCCTGGAACGTCAAGTGTTACTATAAAATTTGTAGAGGGAGAATCTATTTTATTAAATTTAGATTTTAAAGGTATTGCAGTAAGTTCAGGCTCAGCTTGTACATCAGGTTCGTTAGAACCATCTCATGTTGTACTAGCATTAGGAGTTCCTATGGAACATGCTCATGGTACAATAAGATTTAGTCTTGGAAGATATAATACAAAAGAAGAGGTAGATTATGTTTTGGAAGTTTTACCACCAATTGTAGAAAAAATAAGAAGCATGTCACCATTTTGGAATAATTAAAATAAATTAGAGATTAGAAAAGATAGGGAGGGATAGATATGTATTCAGAGAAAGTTATAGATCATTTTTCAAATCCGAGAAATGTTGGAAAAATTGAAAATCCTGATGGTTATGGAAAGGTTGGAAATGCAGCATGTGGAGATGTTATGGAAATATTTTTAAAAATAGAAGAGGACAAAATAAAAGATGTGAAATTTAGGACTTTTGGATGTGCAGCAGCAATAGCTACATCATCTATGTCAACAGAAATGATATTAAATAAACCTGTAGAGGAAGCTTTGAAATTAACTAATAAAGCAGTGGCAGAAGCTTTGGATGGGCTTCCAGCAAAAAAAATGCATTGTTCAGTATTAGCAGAAGAAGGTATACAATCTGCTATTGAAGATTATATGAGTAAAAAAGATAAGTCGTAATGACTTATCTTTTTTTATAAAATATATAACGATTTAACTGTTTTTATAACAAAATATAAAAAATTTATTTTTTAAACATTCTATAGTGAAAATATTTAATTGAAAATAAAAATAAATTATGGTATGATAAAATTATAAAAAATGTAGGAGGAGAGATTAAAGTGAAGAGAATAAGTGTGATTTTATTATTACTATTAACAATATTTTCAATTTCATATTCAAATACAAATTATGTGGCTAGGATTTTAACAGATCAAAATGGGAATTTTATTGAGGGAGAAAACATAACATTAAAGCATCCATTAGCTTCACTTACAAAAATGATGACAATATTAGTAGCTATAGATGAAGTAGAACAAGGGAAAATTGCATATACTGATATGGTAAAAGTATCAAGGAGAGCAGATAGAACCGGAGGAAGTAGTGCTTATCTAAAAGCTGGAGAAAAGATATCTTTATCAGACTTAATGAAAGCAGTTATTGTACGTTCTGGAAATGATGCAGCAATAGCAATAGCAGAATATATAGCAGGAAGCGAAGATAAATTTGTAAAATTAATGAATGAAAAAGCAAAAGAATTAGGGATGATAGATACAAATTTTTATACAGCAACAGGATTAACAAAAGATATGACTGGTAAAAATTTAGATAAATCAACAGTAAAAGATATTGCAATACTTTCAAGTGTGTTATTGAAAAAAGATGTTTTTATGAAAGACGCAGATAAAGCAAAAATAACAATATCAAAAAGAAGAAAGTTTGCAAATAGAAATAAATTAATAGGAAAAGTAAAAGGTGTAGATGGATTAAAAACGGGTCATCATTCAAAAGCACAATATAATGTAGCGATTACAGTAAAAAGAGATGGATTGAGATTTATAGTGGTTTCATTTGGTTCGCCAACAGAGAAAATTAGAGATAAAGAAGTTACAAAATACATTGATTATGCATATAAAACATATGAAAAAGTTAAAATAGCTTCAAAAGGAGACTTTGCAATAGAAATAAAAGTAAAAGATGCAGTAAATAGAAAAATACCATTATATTTAGGCAGAGATATTTATGGAATTATAGATAAAGAAAAAAAATGGAATTTTTATAAAGTGGCATATATTCCAAAAGAGGTAACAGCTCCAGTAAAAGCTAATGAAAAAATAGGAGTTATTTCTGTTAAATATAGAAGTAGAGTTATAGATGAAGTGCCTTTAGTATCAAAAATAGATATAAAGAAAATATCTGGATTTAGAAATTTTTTAAGAATTATAACTTTTAATCTGTTTTAGGAAGAATAAAAATATTGAAATAAAAAAAGAATTCTACAAATGTGGAATTCTTTTTTATAAATAGGGAGTAAAAATTATGGATTTGACAATATTAGAAAAAATAGATTCTACAAATAAATATTTAAAAGAAAAAAAATATAAAAAAAATTGGGAAATAGTAATGGCTAAAGAGCAAACTGCAGGTAAAGGACGTAGAGGTAAAGTTTGGAATTCTAATAAGGGAGGAGCATGGTTTAGTTTTTGTTTTGCAGAAGATAAATATCTATCTAAAACTGAATATGGAAAGATTCCATTAATAGCTGGATTAGCAGTAATAAAAGGACTAGAGGAGATAGAAAAATTAAATTATAAAATAAAATGGCCTAATGATGTATATGTAGGAAAAAGGAAAATTTCTGGAATTTTATTGGAAAAATCAGGAGATTTTTTTATAGTTGGAATTGGAATAAATGTTAATAATGTTGATTTTGGCGAATTTAAAGATATAGGAATTTCATTAAATAAAATAACTGATAAAATTTATAATATAGAAAAATTAGTAATGTTGGTAGCTTCAAAATTTAAAAAAGAATATTATAGATTTTTAAGAGGAGAATGGGAAGAGATTTTATTAGAAATAAAAGAAAAAAATTATTTAAAAAATCGAGTGGTAGAAGTTATGGTAAATAGTGAAGTTATAAAAGGAGAAGTAATAGGAATTAATAATAGTGCAGAATTATGTATTAAGAAGAATAATGAAATATATGAAATAAAAAGCGGAGAAATTAGAATAGTATACACTAATAATTAATTATAAATAAAAAAATAAGCTACATTTCATCTCGGAAAACATAAATATATTTTGTAGGAAAATATATTTCTAAAAGGGAGTTATACCAATGAAAGAAAACAATAAAAAACTATTGTATATAATAATTTTAATTTTGATTGGAGCAATTGGATTAAAATTTTTCGAAAACAAGTCAGATGAAAAAGATATAAATATAAGAAAATTAAAAACTTATAAAGTCGATTATCACAAAAAATTCAATAAAGGAAAGTTAGATATAAATAAAGTTTCAGAAAAAGAGTTGATAGATAGAGGAATGTCAGAAAAAATGGCATATAATATTATAAAATATAGGGGAATTGTTGGGAATATATTAAAAATAGATGAACTTACAAGAGTTAAGGGTATTGGAGTAAAAAGAGTAGAAAAACTAAGAGATATTATTTTTGTGGATAATAAAGATTTGAAACCAAAGATGATAAATATAAATAAAGTCAATGAAGAAGCTTTGAAATATTTTGGGTTTAGCAAAAAAGAGATAGGGAATATTATAAAATGGAGAAAAAATAACGGGAGTATATATTCGAATATGGACTTGATTGAGATAATAGGAGAGAAAAGGTATTATGAGATATCAGATAGAGTGGATTATTTGGAATGAGATATATAAGACAAATAAAAATAAAAAAACTTGACAATTGTAGTGTTGAAGTGGTATTGTTTTTATATAATCTTACAATTCGTCTGCCACAAAAAAATAAAAAAGAGGTTGGTTTTTATGATATGGATATTTGACATAGAAACAATATTAGATGCAGAATTAATCAGAAAAACAATGAATTTAGAGGGAACTGATGTAGAAGTAATGAATCTTGCTAAAGATATTTACCAAGGAAAAAAAGGAAATAGGTTTTTGCCTTTGCCATATCATAAAATAGTAAATATATCAATATTAGGATTAGATAAAGATAAAAATTTTCTAAAATTGAGCTCTATAAATGATGAAGATGAAAAAGAGATAATAGAAAAGTTTTTAGATGCTCTAAATAAAAATAATCCTCAAGTAATAACTTTTAATGGGAGAAGTTTTGATTTGCCTGTATTAATGATAAGAGCGATGAAATATTCTCTGAGTTGTAATACGTATTTTGAGAATGAAAATAGTAAAATAGGAAAAAATAGATGGTCGAATTACAGAGCTAGATATAATGAGAAATTTCATTTAGATTTAATGGATAGTTTATCAGAATTTGGAGCGGTAAGAGGGTTGAGTTTGGACCTGTTGTCTTCAATGATTGGAGCACCAGGAAAATATGAAGTGAATGGAAGTCAAGTAATAGATTTATATTATAATGGAGAATTAGAAAAAATAAAAGAATATTGTGAAAGTGATGTTTTAAATACATATTGGCTTTATTTAAAATATGAAGTTTTGCGTGGGAATATTACTAGAGAAGAATTTGGAAAAAAATTAGAGATATTAAAAGAAAATTTGATAAAGAATAGGTATTATTTTGAAATATTTGAGGAAAATATTAATAAAGAATTAGATAATCTTAATGGCGTTGAAAAAGGAATTGAAGAAGAAAATAAAAAAGAAAATAAAGGAGAAAAAATGATATTATTAACTGGAGCAAATGGACAGCTTGGAACAGATTTTAAAAAATTATTTGATGAAAAACAATTAAAATATATAGCTACTGATTATAAAGAATTAGATATTACAAATATAGATAATGTTAGAGAATTTGTAAAAAATAAAAATATAAAATATATTATTAATTGTGCAGCATATAATAATGTAGATAAAGCAGAAGAGGAAAGAGATAAGGTGTATGCTTTAAATTGTGATGCACCTAAAAATTTAGCAATTATAGCAAAAGAGATTGATGCTATTTTTGTTACTTACTCTACTGATTTTGTATTTGATGGAGAAAAAGGGGAAGCATATGTGGAAAAAGATAAAGTAAGTCCTGTGTCTGTTTATGGTCAAAGCAAAGCTGATGGAGAAAAAAAAGTTTTAGAAGCATATGAAAAAGTATTTGTAATAAGAACTTCTTGGGTGTTTGGAACAGGTAATAGTAATTTTAATACTCAAGTAATTAATTGGTCTAAAAGTAGAACTGAATTATCTATAGTAGATGATCAAATATCGGTTCCTACATATTCTTGGGATTTGGCAGAATTTTCTTGGAAACTTATAGAAACAAATGAATTTGGATTGTATCATATTTCAAATGACGGAATAGCAAGTAAATATGATCAAGCTAAATATCTGCTTGATAAAATAGGTTGGAAAGGTGAATTAAAAAAAGCTAAAACGAGTGATTTTAATTTAGCAGCTAAAAGAGCTAAATTTAGTAAATTATCAAGTGAGAAAGTAGAAAAATTAGTTGGAGAAAAACTCCCTAATTGGAAAAGTGGAATAGATAGATATTTAGGAATGGCTTAAAAATAACATTCCCATTTTGTTATAAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGATAACATTATTTTTTAAACATTCTTTAGGAAGAGAATTGATAATTGGAAAAGGAGAAAAATTTATGTTAGATTTAAAAAGTTTTGAAAAGGCTATAAATTCATTAGAACAACTTATTTTGAAAATGAAAGACAAAGAATTAATGAATAGTTTAGATGAAATAGTAATATATGGATTAAAAGCAGGTATTATTCAAAATTTTGAATTTACATATGAGATTTCATGGAAATATATTAAGAGATGGTTGGAATTAAATATTGGTTCTAGTTTTGTAGATGGAGTTTCAAGAAGACAACTGTTCAGATTAGCAATAGAGCATCATTTGATAGAAAATGTAGATATTTGGATGGATTATCATTTGGCGAGAAATAGAACATCGCATACATATAATTTGAACACAGCGGAGGAAGTTTATAAGACGGCAATTGAATTTCTAGGAGATGTAAAAAAATTATATAAAGAATTAGAGTTAAAAAATGATTAATTTAAAAGATGATGAGTTAGAAATAGTAAAAAGAATATTAAAAAAATATTTTGATAAGTGTGAAATAATTATTTTTGGATCAAGAATAACAGATGATATTAAGAAATATTCAGATTTGGATATTGCGATTAAAGGAACGAAAAAAAAAGATATAAGATTGTTAAATAGGGCTATTGAAGAGTTTGAATATTCTGAACTTGCATTTAGAGTTGATTTATTAGACTATTGGAGATTATCGGAGAGTTTTAAAAATATTATTGATGATAAAAATGAAAAACTTTATTTATGATAAAAACAGTTATAAAAATAAAATTATAAAAGGATAAAATCATGAAATATAAGAAGTTAAGAAGAGGATTTACGCTAATAGAATTAATGGTTGTAATAGCGATAATAGGGATTTTAGCTTTTTTAGAGGGAGCAGATGTAAGTAAAAGTGGAGAAGGTAGAGATTTGGATACTGCAAAGACTAAAATAATGACTTTCATGAGAGGTATATCAGATAAAAGCTTTGAAACTGGTAATGTATATGAGATTAATTTTGAATTTGATAAATATAGAATAGTAGCAAAAAAAGATGAAAAAATAATAGATAGCATAACAGTACCAAAAAGATTTGAATATAGAGATGTTAATTGGAATAATAATTTTAATAGGAAAACAACGTCCTTGGGAAATATTTCGAAAAGTTTAAGTATATTTATAATTGATAAAAAAAACAGTAAATTTTGTGCAAGAGCAACGTTTTTAAATATGAGTTCTGTGCATTATATGGGAATATCGCTATATGCGCCAACTGATAAATTGACATTTGAGAAAAAAGATTATAGTGATACTAATAATTGGAAAAGGTTGAGTTGGAATTAAAATTATAGGATATTTAGAAATAAATAAGTGAAATTTAATATATACAAAATATAAATTACAATTAAACTTTTGTAAAAGGGGCTATATATGGGAATAATAACGTTTTCTATATTATTATTGATTTCTACATTAATAGCTATACATATTAATATTAGTATTTACATCTATTTTTTAATGTTGTTAATTACAATTATATTTTTTTCTATTTATAAGAAAAAAATTATTTTAATAGTTTTGATTTTAATATTATTTAATATATTTAGCTTAATGAGAATTTATAAAATTAATATAAAAAGTAATGAGTATTATCATATATCAGGAAAAATAATAGGTGACAAAATAAAAGTTAATAAAATAAATAACAAATATATTAGTAATAAAATCTATTTAAGTATTAATAGAGAACTTGACGGCGAAAGTGTAGATTTAGATTTTATATGTAAAAAAATAGATAAATTTCATAATATATTATATTTACAAGGAAAAATGTTAAATGTGAAATTGCATAATAATTATCTAAAAGAATTTATAAAAAATAGAATATATAAATTTTCATATGTTTATGGCGAGAATCTATATGGATTTTTATTAGCAGTTTTTTTAGGCGATAGTTCAGAATTAAATCAAGATATGATTAAAAAATATAGATATACAGGGGTTTCGCATCTTTTAGTTATTTCGGGATTACATATGAGCATATTGCTTTTTTTAAGTTTGAAATTATTTGATAAGTTGAAATTTAATTATTATTCACAATATTTATTAACATTGGTTGTACTGACAGTTTATATTTTTATAACAGGAGCATTGACATCTGTATTGAGAGCGTATATAATGATTGTTATATATATATTATCAATGTTGATGTATGAAAAAGTAGATCCATTAAAATCATTATCTATTGCAGTTATAATAAATATAATTATAAATCCGACTTCTATTATATCGGTTTCATTTATATTATCATATTTAGCTGTATTATCTTTACTGATAATATACCCAAGAATAAAAATTGGGATTTTTAAATTTGATTTTGTTAATCAAATGATATTTATAACATTATCTATACAATTAATGTTAGCACCAGTATTTTTATATAATTTTAATCTGATTCCATTTTTATCCTTTTTTTCGAATATTATAGTTGTTGCTTTAGGTAGCTTTCTAATTGGGGTTTCATTTATATTGATTTTTATAGGTATATTTTCTACAAATTTAGCGATTATACTGGGATTTTTAGTTGATTTTTTATTAAAGATTTTAAATTTTTATGTAAATATTTTATCAAAAATATCATTTATGCAAATAGAATATAAAAGTAAAATTCCATTATTATTTATAATGTTATTTTATACAACTATTTTTATTATTATATATAAAGAAAAAATACATGAAAAATTAAAAATTTATTTTAATAATTAAAACTTCGTAATGGTGAACTGCTATTGACCCTTACAAAGACAAAACACAAAAATATAGGAGGAATTAAAGATATGAAAACATATTTAGTAACAGGTGGAGCAGGATTTATAGGCGCAAATTTTGTAAAGTATATGCTGAAAAAATATGATGATATTAAAATAATAATATTGGATAAATTAACATATGCTGGAAATTTAGGTACTATAAAAGAAGAATTAAAAGATAAAAGAGTTGAATTTGTAAAAGGAGATATAGGAAATAGAGAGTTAGTAGAAAATATATTTATGCAACATAATATAGATTATGTAGTGAATTTCGCAGCAGAATCACATGTAGATAGAAGTATTGAAAATCCTAAAATATTTTTAGAAACAAATATTTTAGGGACACAAAATTTATTAGACATATCAAAACAACATTGGATTATTGGAAAAGATGAAAATGGATATCCAACTTATAAAGAAGGGAAAAAGTTTTTACAAGTTTCGACAGATGAAGTTTATGGGTTTTTAAATAGAGAATATCCTGATGGAAAACTATTAATTGATAATGGACAATTGACAGTTGACAATGGACTAAAAATTGAAGAATTAAAAAAAGTTTTAGAAGATAGAGAAGTTATGCCAAAGATATTTGGAGAAAAGTTCTTTACTGAAGAAACAGCACTTAACCCTAGAAGTCCTTATGCGACATCAAAAACAGCTGCTGATATGTTGACTAGAGCTTATAGCGAGACATATCATATGCCTATTAATGTAACAAGATGTAGTAATAATTATGGGCCTTACCATTTTCCAGAGAAACTTATTCCTTTAATAATAAAAAATATATTAGAGGGAAAAAAATTGCCTGTGTATGGAGATGGGAAACAGGTAAGAGATTGGTTATATGTAGAAGACCATTGTAAAGGAATTGATATGGTGATAAATGGTGGGAAATTAGGAGAAGCATACAATATAGGTGGCTTTAATGAAGAACAAAATATTAATATTGTAAAATTAACAATAGATACAATAAGAAAATTGATAATTGATAATGGACAATTGGCAATTAAAGAGGAGTATAAAAATATAGTGAAATGTAATTTGAATGATATAAGTTATGATTTGATAACTTATGTGCAGGATAGATTAGGGCATGATGCTAGATATGCGATAGATCCTAGTAAAACAGTGAGAGAACTTGGGTTTTATCCTGAGACACCATTTAATATAGGTATAGAGAAGACGATAAAGTGGTATCTAAATAACCAAGATTGGGTAAATGAAGTTGTTAGCGGAGATTATCAAAAATATTATGAAAAAATGTATTCAAATAAAAATTAAAATTTTAATAGAAATTAGAAAAAAGGATGGCTTGTTTTAAGTCATCCTTTTAAAGTAGGAAAAATCTAAAATTTAATTATTATTTTTATTTTTCAAAATAAAAATAAAATAATTTGCATATTTAAAAAAAATATATTATAATTTAAAATAGGGTAGTTTCTATTACAAGGAGAATAAAATGGGATACAACAAAAAAGATGTAGAAAATTTAATAGAAAATCTAGATATAGTTGAAATAATAGGCGAATATGTAGAATTAAAAAAATCAGGAAGTGGATATAAAGGGTTATGCCCTTTTCATGATGAAAAAACTCCATCTTTTAGTGTTAGCCCAGAAAAAGGTATTTATAATTGTTTTGGTTGTGGTGCTAAAGGGAATGCTTTGCAATTTTATATGGAAAAAAATGGATTAGATTTTATAACTGCAATAGAAGAGCTGGCTAAAAAATATAATTATAAATTGAGGAATGAAACTGGATACAGTATAAAAAAAAATAGTAATTATGATAGATATTATTCTTTAATGGAAGAGGTACAAAAATATTTTGGGGAGATACTTTTTTCTAAACAAGGTATTTTAGGATTAGAATATTTAAAAAATAGAGGATTAGATGAAGATTTTTTGAAAAGATATCATTTAGGATACGCAATAGATGGATGGAATAATATAGGTGATTATTTAAAAGAAAAAGGGTATACAGAACAAGAAATTTTTGATATGGGTCTAATAAAAAAAGGGGAAAAAGGTTATTATGATACTTTTAGAGGAAGAGTTATATTTCCTATATTTTCACCAAAAGGAAAAACTATTGGATTTGGTGGAAGAATATTAAATTCTGAGAAAAGCACTGCTAAATATTTAAATTCTCCAGAGACGAAAATTTTTACAAAAGGAGATAATTTATACGGCTTTATAAATAAAGGGAGTAATATTAGGAAAAATGGCTTTGTAATGCTTATGGAAGGCTATATGGACGTGTTAGCTGCACATAAAAACGGATTTGCAAATGCAGTAGCCTCGCTTGGGACTTCGCTTACAGAGAAGCAGGCTAGCCTTATGAAGAAATATACTCAAAATATAGTTATATGTTATGATATGGATAACGCAGGAAGGAAAGCTGTTGAAAGAGCAAGTATAATATTAAAAAGATATAAATTTAATATAAGAGTTTTAGAACTATCTGAAGGGAAAGATCCTGATGAATACTTAATGAAAAATGGAAAAGAAAAATTTAAAAAAGAGTTGAGAAATTCAATTGAAATTTTTGATTTTTTATATAATTATTATATTGAAGGAATTAATTTAAATGATATTATCCTGAAGAAAAATTTTATTTATAGATTTAAAGATTTTTTTAATAGTATAGAGGATGAAATCGAACACAGTATATATATAGAAAAATTGTCAATAGCAGTAGATATACCCAAAGAAGATTTAAAATCTATTTTTAAAAAAGATAATAAAATAATAAATAAAAGATATAAATATGCCAAAATAAATAAAAACAATAAAATAGATAAGCTTGAAAAAGAAACAATAAGAATTATATTAAAAAATATAGATTATTATAATAAATTAAATTTTATAGAGATAGAAAATCCATTACTCAGAAAAGTTTTGGGGATTATTGCTCAAAAACTAGAATTTAAAGATTTGAAAATAGAAAAAGAAATTATAAATAATGAAGATTTTGATGAAGAAGAAAAAGCTATGATTATAGATATTTTATTTAGTGTTGATGAGATAGAAAACGAAAAAGAATTTTTTAAAGATATATTGGAAAGTTGGGAAAAAAAGAGGTTTCAAAATGAATTGGAAGAGGTAAAAAAACAGCTAGAAAACCAAAATTTAACTATTGGGGAAAAGAGAATTTTGGTTGGAAAAAGAATGGAAATAATAAAAAAATTAAAATTTTGAGGAGGAATATATATATGAAAAAATTTTTTAAAGATGAAAAATTGCTCAAGCTAGTAAGAAAAGCTCAGGAAAGCAAAATTGTTACTTATGAAGAAATAAATGAAAATTTACCTGAAAATTTTCCATTGGAAGAGATAGATACATTAATAAAAGGGTTTAAAGGGTTTGGAATAAAAGTAATTCCTAAGAAAATAAATGATGAAAAAGAAGATGAATCAAAAAAAATATCTAAAGAAGGAATACCAATAGTAGAAATAGATGAAGAAGAAGATTTTATAGAAGAAGATGAGGATGTTAATGATGCTGCAGTAGAAGAACTTTTAAAAGAAAATTTGTTGGAATTTGAAAACAATATGAAAGTAGATGAACCTATAAAAATGTATTTGCGTGAAATAGGGCAAATACCTCTGTTAAAATACTCTGAGGAAGTAGAATTAGCTAAAAGAGCAGCAGCATTAGATAGAGAGGCAGAACAAGAACTTGTAAAAGCTAATTTGAGATTAGTTGTAAGTATAGCGAAAAAACATACAAATAGAGGCTTAAAACTTTTGGATTTAATTCAAGAAGGAAATATTGGTTTAATGAAAGCAGTTGAGAAATTTGAACATGAAAAAGGATTTAAATTTAGTACTTATGCTACATGGTGGATACGTCAAGCGATAACTAGAGCTATAGCTGACCAAGGAAAGACTATAAGAATACCGGTACATATGATAGAGACAATAAATAAAATAAAAAAAGAAACTAGAATATATATACAAGAAACAGGAAAAGAACCAACACCAGAAATTTTAGCTAAAAGATTAAAGATGGAAACAGAAAAAGTAAAAAGTATTTTAAAAATGAACCAAGAGCCAATCTCTTTAGAAACTCCAGTTGGAAGTGAAGAAGATAGCGAATTAGGAGATTTTGTAGAAGACAAAAAAGTACAAACCCCTCATGAAGTTACGAATAATAATATGCTAAAAGAACAATTAGGGAGAGTATTAGAAACACTTAGTGAAAGAGAGGAACAGGTAATAAGATTAAGATATGGATTAGATGATGGATACCCAAGAACTTTGGAAGAAGTAGGTAAGATATTTAACGTAACAAGAGAAAGAATAAGACAAATAGAAGTTAAGGCACTTAGAAAATTAAGGCATCCAAGCAGAAGAAAAAAACTAGAGGATTATTTAGAATAGAAGAGTATAACACAGTATAAAGATATATTCCTTGAAAATGTCTTTAAATCGCCTGATATCATTGTTGATAAAAAGCGACTTTTACTATATAATTGTCCTTGCCAGTTTGAGGGCCTATAGCTCAGTTGGTTAGAGCACTCGGCTCATAACCGAGTGGTCATTGGTTCGAATCCAATTAGGCCCACCAAAATGCTCCCTTCGTCTAGCGGTTAGGACACCGCCTTTTCACGGCGGAGACAGGGGTTCGATTCCCCTAGGGAGTACCAAACTAAATATTAGCATTGTATATGGGAGCATAGCTCAGCTGGGAGAGCACCTGCCTTACAAGCAGGGGGTCACAGGTTCGAGCCCTGTTGTTCCCACCATATGCTCCCTTCGTCTAGCGGTTAGGACACCGCCTTTTCACGGCGGAGACAGGGGTTCGATTCCCCTAGGGAGTACCAACAAGAAAGTTAGACCTTACTTAATAGAGTAAGGCTTTTTTTGTTTAATGGAAAGAATTAATTTATTTTAGAAAAGAAGATACGCTATTTTTTAAGTATGAGATTTTTCAAGACAAAATTTTTCAGAAGCCAAAAATTTAGAAAAACATTTGTGCTTTACCATATGAAGCGTAACTTCTTTTTTTGTTTAATGAAAAAATTAATTTAATTTGGAAAAAATATAAAGATTTGAGGTGAATATAATGAATAATGAATATTTATTAAGAGAAATAAAAAAAAGAACAAAGAATAACTCAATAAAACAATCTGACATAGAAGATATATTAAGTATGGAAAAAATAGATGAAAATAGTTATGAAGAAATAATTGATTATTTAGTATCTAAAAATATAAAAGTATTAGATGAAGAGATTATAATAGAAAGTGAAGAAGATATGGAAAGTGTATCTTTGATGAAAGATGTAGATATTATGAAACAATATATGAAAGAAGTTTCAGAATATGAATTGTTATCTCCAAAAGTACAAATGGAATATTTAAATATAAAAGATAATGATGAAAAAGTGAAAAATTTATTGGTAGAAAGCAATTTGAGATTAGTTGTTGGGTTAGCTGTAAAATATTCGAAACAAGGAGTTTCATTTTTAGATTTAATTCAAGAAGGAACATTAGGTCTTATGAAAGCAATAGATAAATTTGATGGCACAAAAGGGTATAGATTGAGTACATATGCAACATGGTGGATAAAAAAATATATGATAGATTTTTTAAATGAGAAAGTTGCAAGCATGAAAGTTCCTACACACATATATTTGAAGTATCAAATGTTGAAAAAAGCTGAAAAAGCTATATCACAAGAGAATGGCAGAGCAGCTACATTAGAAGAAATAGCAGAAAGAACTTATATGACAGTAGATGAAGCATCGAGAATAAAAAGTATAATAGAAAGCAAAATGATAGCAATTGACTCATATACTGGTGAAGATGGAAATGGGAAATTTGATATTTCAGATGATAGCACCGAAGAAGAGATTGAAGCAGAGTTAGAAAAATTAGCTTCTGAAAATAAAATAAATAAAATGTTGAAAAAATTGGATTCAAGAGAAATTAAAATTATAAAAATGTATTTTGGATTTTCTGAAGATGGAAGAAGATACACTTTTAAAGAAATTGGAGAAGAGTTAAATTTATCAGCAGAAAGAATTAGAGTTATAAAAGAAAGATCATTAAAAAAATTAAGATATATTGGGAAAAAAATATGGAAAGATTAATGAAGCTATCTAAAATTATTTCTAAATTAGAAAGTAGATTTCCATTAAAACTGCAAGAAGATTGGGACAATAGTGGACTGTTAGTTGGAGATTTGAATAGTGAAATAAATAGAATTCAAATATCACTAGATGTAACAGATGAGGTAATTGAAAACGCTATAAAAATAGGTGCTAATTTAATAATAACGCATCATCCTTTAATATTTAAGCCTATAAAAAGAGTAACATCGGGAGATAATATTGGGAAAAAAATATTGAAGTTAATAAAAAATGGAATTAGCTTATATTCTATGCATACAAATTTAGATTCTGCTAAAATGGGATTAAATGAATATATTATGAATTTGTTGGGTGTAGAAAATGGAGAAGTTTTAGATAAAAATTATAAAAATATTTATCGAATTGGAATTTATATTCCAGAAGATAAATTTATAGAGTTTAGAAAAAAAATTATCTCTTTTGATAAAATTTACAAAGATGAAAGATATGAGAAAGTATCATATTCCACAGAAGTAGAGGAAACTTTCTTTGCGAAAGAAAAAGCCAATCCTGCAATAGGAGAAAAAGGAAAGTTATCTATTGTAGAAAATAAAAAATTGGATATAATAATAGAGAAAAAATATATAAATAATTTTTTAAATTATGTTTCTAAGAATCATCCATATGAGGATTTTTCTTATGAATTAATAAAATTGGAAAATAAAATAGAAAATGGTGGAATTGGAAGAATTTATAAATTGGATGAAAAAATAAAAATAAGTGAATATATAAAAATTGTAAAAGAAAAATTAAATATAAATAATATAAGAGCAGTTTATGATGAAGATAAAGAGATAAAAAAAATAGGATTAGTTAATGGAAGCGGAGCATCTTATATAAGTAGAATGAAGAATAGAGGAGTGGAGTTGTTTATAACTTCTGATATAAAATATCATGAAGCATTTGATGCACGTGAATTAGGAATGGCGTTATTAGATATAGGACATTATGAGACTGAAATATGGTTTTCCGATATAATAAAAAAAGAGTTGTTAGAAATAGTGGAGGTAGATGTTTTTAATTCTGAAAAAGTTTTTAAATATTTTTAAAGGGGAAATAAAAAATGTGTAATAAAAAATTGATAAAGATAATAATATTGTATTTTGTTATAATTAACTCTATTTTTGCAAATGTAACAGATGAATTAGGTGTTTTTAATCAGGAGGAAAAAAATAATTTAGAAAAAAAAATAAAAAATGTGGAAAAAGAGTACAAAATAAGTTATTATATATATATATTAAATAAAGATAGCGAAGTAGAAAAAACTTTAGTGGATTTAAAGAGAAGCGTTATTATAAAAATTGTAAAAAAATATAAAGTTAAATTATATTTTACAAAAGATATATCAATTGAAGGATATAGTGACGAAATAGACAACTTGTTAAATAAAACAACAGATTTAATTGCTGGAAAGGATTATTTAGACTATATTTATGAAGTTATAGGTGATACAAAAGATATAATTAATATTATTGATGTAGGTGAAAAAACTGATTCTAAACAATTGATTAATAACACTATGAAAAATATTTTTATAGGGATATTAGTTTTTTTAATAATAATAGTATTAATATTTAGATACATAAAAAAATATAAAGAAAATATGAAAATATGTAAACACTGTAATTTGGAGATGGATTTAATTGATAAATATTATGAAAAAAATAAAGAAATAAAGCTTTATAGTTGTAAAATTTGTGGATATTCAAAAAAGATAATATCTTTAAAAAAGAACATAGGTAAATAGTTTGATAGTTTAAAATAATTGTAGAAAAAAAGAATATTCAACGCAGAGTCACAGAGAACGCAAAGTTACGCAGAGAGATATTAGTTATGGAATGGCTTAAAAATAACCTTCCCATTTTTTTATAAAATACGCAATGTTTTAAGCGTTTTTATAAAAAAATATGAGAACATTATTTTTTAAACGTTCCTATGGATATAAGCAAATGTATATGAGCGTATGAAAAACATTTTTTAATTGCAAAAACTTTGATGCTATCAATAATTTTTTAAGCTGTTTCTAGGCGTAAGAGACAGTCGCAGGATGAAATATTCCTGAGGAAAGTCCGAACTTCATAGGGCAGGAGGGCAGATAACATCTGCTAAGAGAAATCTTAAGGAAAGTGCCACAGAAAATAGACCGCTATTTTATGGTAAGGGTGAAAAGGTGGTGTAAGAGACCACCGGTGTTTTTTGTAAAAAAAGCAGCCAGGTAAACCCCCTCCGAAGCAAGACCAAATAGAAAAACAGATAGAGCTTGCCCGCTCTTGTTTTTGGGTAGGTCGCTTGAGGCAGTAAGTAATTATTGTCCCAGATAAATGATTGTCAAATACAAAATTCGGCTTATACTTACACCTAGGAACGGCTTAAAAAATTAGTTGCTCTTCACGAAAAAATATGCATGTTTAAGCATTTTTAGAGTGATTAGAGCAAATTACTTATTTCAACGTTCTCTAGGAACGGCTTAAAAATAACCTTCCGATTTTGTTTTAAAATACGCAATGGTTTAAGCGTTTTTATAACAAAAAATTAGAAATTTATTTTTCCAACGTTCCCTAGGAACGGCTTAAAAAATTAGTTGCTCTTCACGAGAAAATATGCATGTTTAAGCATTTTTGGAGTGATTAGAGCAAGTTATTTATTTCAACGTTCTTTAGGAACGGCTTAAAAAATTAGTTGCTCTTCACGAAAAAAATATGCGTGTTCAACCGTTTTTAGAGTGATTAGAGCAAGCTGTTATTTATAATTTTATTATTGTTTATATTAGATAGCTACAAAAATAAAAAGAAAAAAGATTTAAACCACGAATGAAACGAATGTAAGCGAATTAGGAAAAATGTTGCATTCGAGATAATTCGAGTATATTCGTGGTTAAAAAGATATAAATAGGAGGCTGGCGATATGAATATAGAAGAAAAAATTGAATTACCTTTATTAGTAGTAAGAAATGTAGTTATTTTTCCATATATGGTAATCCCTCTAAATGTTGGCAGAGAGTTTTCTGTAAGAGCAGTAGAAGAATCGCTTAAGAGAAATAGTGAAATAGCCATATTCACTCAAAAAAAGATAGAAAAAGATGAAATGAAAAAAGATGATATATATGAATTTGGAGTTTTAACAAATATATTAAAAATGGTAAGATTTCCAGATGGGACTCTTAGGATATTAGTAGAAGCGATAAAGAGAATAGAATTAAAAGATTTTAAAATAGATGAAAAAACTAAAATGAGTAAAGGTGAAGTTGTTGTTTTAAATGAGATAGGAAATCAAAAAGATAAGGATAAAGAGGAAGAAGCGTTATATAAAATAGTAAAAAATAAATTTGAAACATGCTTATCAAGAGGATTAACAGTCACTCCTGAAATAATTTCACCTACAATAGATGTAGAGTTACCTGGAAGATTATCAGATATAATAACAGCTCAATTAGATATAAATTTAGAAGAAAAATATAATGCGTTAAAAGAACTTGATGTAAAAAAAAGGCTTGAATTAACAATAGAAAACTTAAATAAAGAATTAGACGTTTTAGAAATAAAAAATAAAATTCAAGATAAAATAAAAAAAGGTATGGATGAAACACAAAAAGAATTTTTCTTAAGAGAACAATTAAAAGCAATAGAAGAAGAGTTGGGAATTCAAGTTGAAAATGATGAGGAAGTAGAAAGGTATAAAAATGAATTTAATAAACGTAAATTCCCAAATAATGTAAAAAAATTAGCTGAAAAAGAGATAGATAGATTGAGCAGATTGCCATTGGATTCTTCAGAAGCTGGGGTTATTAGAAGTTATTTGGACTTTATAATAGAATTGCCTTGGAAAGATGTTTCTAAAGGGAAATTAGATGTAAAAAAAGCAAAAGAAATATTAGATGAAACTCATTATGGATTAAAAGATGTGAAAGAGAGAATATTAGAATATTTAAGCGTAAAAAAGATATCTAAAGAGTTGAAAACTCCAATTTTATGTTTAGTGGGGCCTCCTGGAGTTGGAAAAACTTCAATTGGGAAAGCTATTGCAGAAGCAATGAGTAGGAAATTTATAAGAATATCTCTTGGAGGAGTAAGAGATGAAGCTGAAATTAGAGGACATAGGAGAACTTATGTAGGAGCACTCCCAGGAAGAATTTTAACAGGGATAAAACAATCTGGAAAATCAAATCCAGTATTTATGCTTGACGAAATAGATAAATTAGGGTATGATTTTAGAGGAGATCCATCTTCTGCAATGTTAGAAGTTTTAGATCCTGAACAAAATATTGATTTTGTAGACCATTATTTAGAGATGGGGTATGATTTGTCAAAAGTATTTTTTATTACTACGGCAAATAGATTAGATACAATACCTGCACCTTTGAGAGATAGAATGGAGATAATTAGAATACCAGGCTATTCATTAAATGAAAAAGCTATTATTGCAGAAAAATATTTGATTCCACGTCAAAAAAAGCAAAATGGAATAGAAAAATATGAAATAGTTATTGAAAAAATGGCATTGGAAAAATTAATATTAAATTATACAAGAGAAGCAGGAGTAAGAAATTTAGAAAGAGAAATAGGAAAAGTATTTAGGAAAATAGTGAAAAAAATTGTTATGGGAGAGGAATATCCAGAAGTAGTAAATGAAAATGAAATAGAAAAATTATTAGGAATTCCAAAATATGAGATGAGTGATACTGAAGATATTCATGATATAGGAGTTGTAACAGGACTTGCTTGGACAGAATTTGGCGGAGATGTACTTAATATAGAGGTAAATCTTGTGCCAGGGCATGGAGAGCTAATTTTAACAGGAAAATTAGGGGATGTAATGAAAGAATCAGCAAGAATAGCTTTAACATATATTAGAAGTAAAATTGATAATTATAATGGAGATAAAGAATATTATAAAAATTATGATTTACATATTCATGTTCCTGAAGGAGCAGTTCCAAAAGATGGACCATCAGCAGGAATTACATTAACTACAGCAATAGCCTCTAAATTGTTAAATAAACCAATTTCAAATAAAATAGCAATGACAGGAGAAATAACATTAACAGGTAGAATATTGCCAATAGGAGGATTAAAAGAGAAACTCTTAGCAGCGAAATTAAGAGGTATAAAAAAAGTATTTGTGCCTAAAAAAAATGAAAAAGATTTAATAGAGATAGATGAAGAGATAAAAAGTGGAATAGAGATAAAATTTGTGAATTACGCAGAAGAAGTTTTTGAGGAGTTGCAACTTCAACAAGGATAAGGGGTGTGGATGCAATGAAAGTATTATTAATCGATGATGGTGGTTTATTTGGGAAAGTACTAAGAGATATTTTAATAACTAAAGATTTAGAGGTAGTGAATATAACCCAAAAGAAAGATGCCATGAAAATATTAGATGAAAAACCAGACGAAATTGGAGTAGTCATTTTAGATGGCGGAATATCTTTGAATGATCATATTGGATTAATTAATCATGTAAAAAATAGTGATAGAACCGAATATATACCAATTATTTTTATAGACTCATATAATGAAGTTGTAAATATAGAAGAATTTTTAAATATAGGTGTTTATGATTACTTAAAAAAACCTTTTGATAATGGAATTTTTTATCTTAAAGTAAAAAATGCTATAAAATATTATGAAAATTTCAAAAAATTAAAAGATGCAAAAAATAAAATAGAAAAGATGAATTTAAATTTAAGAGAGAATTATAGAAGAGCTGATGAATTAAATAGAAGGTTAGAGGAAAAAAACAAAATACTTGGATTTTTGGTAGATGCTAGAACAGAAGAGTTAGAAAGAATGACAACATCTTTAATATCAGCTCTTGAGAATGCAAATTTATATAATGATGAAAATACAGGGAAACATATAATTAGAGTTTCATTATATGCAGAATTAATATCTGAAAAAGCTGGATTTGATAAACTGTTTAGTAAAAAAATTAAGATGTATGCTCCATTACATGATATAGGAAAAGTGGGAATAAGCGATAATATATTGAAAAAACCTGGAAGGTATACAGAAGAAGAATTTGAAGAAATGAAAAAACATGTAACTATAGGATATAATATGATAAAAGATTCTCCTTTGCCTAAGTTAGCGAAAGAGATTATATTGTATCATCATGAAAAATGGGATGGGACAGGATATACAAATGGATTAAAGGGGGAAGAGATACCTCTAGCAGCAAGAATTGTTGCAATAGCAGATGTATTTGATGCTTTAACTACAAAAAGAACTTACAAAGAGGCATTTTCTTTGATGAAAGCTCTTAAGATATTAGAAGATGGAAGAGGAAAACATTTTGATCCATTTTTATTAGATATTTTTTTTGATAATATTGATTCTGTTTTAGAAATTAGAGAAGAAAATAAAGATGAATAAATAAAAATAAAAAAATTCTCCGATAAAGGAGAATTTTTTTATTTTTATTTGTTTTGAAATTGAAATATAAAACAAATTTAGAATAAAAATTTATTTTATATTTTTTAATATTAAGAAATAGATTAAAAATAACCTTCTTATTTTGTTATAAATACGCAATAATTTAAACAAAATATAATAAATTTATTTTTTAGCATTCTTTAAATTGAAAAAAAGAATCAAAAATAGTATAATAGAGATGGAAACAATACATAAATTTCGAAATAAAAAAACAGAAGAGGTGAAGATGGATGCGTAAAATGATTTTTATAGGAATAATCATATTAGGAACAGCAGTGTATATGTTTAGAACAACTTTTATAGATAAAAGTAAATCAATAAAAAAGTTAGATATAATGGTGTTTTCTCCAAATTATGAATCGTTAAATGGAATATTATATAAGTATTCAGAAGAAAATAATATTAAAATTAATTTAGAAGAGGCACAGTATTTTAATTTTACATCAGCGTTTAAAGAAAAAAGTAAAAAAAATGAAAAAATCCCAGATATATTTTTAGTTGTAAATGATTGGATTGGAGATTTGGTAGAGAAAAATTTAATTGAAGAAGTAAAAAAAGAGAATCTAAATGAATTATCAAAAATAGCTGTTGAAAGTATAAAATATAAAAACAGATATTATGGATATCCTTTTAAAGAAGAAACATTGTTTTTGTTTTATAATCCCAAATATATAAAAAAAGTTCCAAATAAAATTTCAGATTTATTAATATTATCAAAAAAAATAAAAGAAAAATATGGGATAGAAGGAATGGTTTTTCCAACTGATGAATATTATTACCATTTCCCATGGTATAGTTATGTGGGTGGAGATGTAAAAGAGCTTATAAACATTAGTGATAAAACATTAAATAATATGGAGAAAGAGATGAAAATCATTAAAAATAATTTTAAGTATATGAATTCTAATTTAGCAACAACTTTATTTAAAGATGATAAAGCAGCTATGATGATAAATGGACCTTGGAGTATAGATTATCTAAAAGGGGTAAATTATAAAATAAAAACTATAAAAGATGAAAAATTTAAACCTTTTGTAGGGATAAAAACATTTGTGATATACAAAAAATCAAAAGAAAAAGTTGAGGCTGAAAAATTATTGAAATATTTAATTGGAAAAGATATACAAGAAAAATGGTCAAAAGACCCAAAATTTATTTCTGTGAATAAAAATGTTAAAAATTCAATGAAAAATGGGATTATTATGCCAAATTCTCCGAAACTAAACAGATTTTGGATGGAAAGTAACAAAATGATTTATGATATATTAAAAAATAGTTTAGATATAAAAAAATCTATAAAAAAAAATCTAATTAAAGAGAAGATACAATGAAAAAAAATATAGGATTTAAAACAAAAGTTGTAGTAGTAATATTTGCAGTTATGTTTTTGGGAATGTTTATGTCATATTATATACAACAAAATTTTATGTTAAAGATGATACAAGATAATTTGAAGTTAAATATGGAAAACAACTTAAAAATTATATCAAATGAGATAGAAAATAAAAAAAAAGACTTAATGGTAAAAGCTGTAATTATAGAAAAAGATAATGCTATATTGGAGCTATTTAATAAAAATGATTATAATATAGCACAAAATATTTTGTTGAAGTATATCGAAATATATAAAGATGTTGCAATAGAAATATATGATTTGAATGGAAATATTATAACTAAAAGTTTGAATTATTCTAATGATATGAATTTTAATATGATAAATAATTTTATTAAAACTAGAAAAAAAGAAAAAATTTTAGATTCGTGGTTAGTTGAAAATAAAAATGGAGCATATATAAAATCATTTATAACAATTAGAAAAAATGCAGAAAATATAGGATGGGTTATACTTACTTATAGAATTTCAGATAAATTTTTAGATAATATAAAAAACAGGATTGATATGGAAATAAATATTTATAATAATAAAAATAGATTAATAGGAACTACAATGTATAATAAAAAAGGCGTTAGAATAAAATCAAGAAAAAGTTTAAATACAGATAGAGAAAAAATTAATTTTGAAGAAAAAAAAGAGGAATTAGTAGCAGTAAAAAAGAATAAGAATTTAAATATAAAAATTGAAGTTGTATACAGACTAAAAGAATTTGTAAAAAACCAACAAAGAATAAGGAATAAAATATTTTATTTAAATTTTTTGTTAATGCTGGGAATAGTAATATCTTTAAATTTAATATTAGGGAAGTTAATAAAACCTGTTGGAGAGTTAATAAAAGGATTACAAAAGATAGAAACTGGTAATTTTGAATATAAAATAGAAAAAAGTAGTTATGATGAATTAGGGCAGGCAGTGGAAAGTTTTAATAAAATGGTAGAAAAATTAAAAGAAAACAAAGAAAATGAAAAAAGAATAGCTAATTTAGACAAAATAGCTTCTGTGGGAAGATTAGCGGCAAGTATAGCACATGAAATAAAGAATCCATTGTCGTCAATATCTATGATAGCTAATATGTATTATCAAGAGTTTGATAGTATAGACTTTACAAGAGAAGATTTTAAAGTGATTTCTAAAGAGATAAATAGAATAAATGATATAATAGAAAGGTTACTTGATTTCTCGAGAGAGAGAAAAATAGTTTTGAAAGATGTAGATATAAATTTGTTGTTTTCAGAATTAATAATGTTATTAAGTAAAAAAATGATGGAAAAAGGCAATAAATTAATATTAAATAGTGATTATAAAGAGATTTATATTAAAGCTGATGAAAATATGTTGAAGCAGGCATTTTTAAATATTTTAATTAATAGTAATGATTCAATGGAAAAAGGAGTTGTATATATAAATATAGAAGAAAAAGAAAAAAATAAAGATAAAGAGATAAAAATAGAGATAAAAGACAATGGAAAGGGGATGAAGCCAGAAGTATTAAAAAAAGCATTTGAGCCATTTTATACAACAAAAACAAAAGGGAGCGGAATAGGTTTAGCAGTGGTAAAAAAAATGTTTGATATTCATCGTTTTAAATGTAATATAGATTCTCAAAGTGGGGTTGGGACAACTATTACAATAATAATAGATGTTGAAAAAAATAAAAAATTAACTTTTGAAGGTGTGAAATATGAAAGCGAGATATTAGAAAGGAGAGATTAATTAGTGGGGGAATATAGAGTATTATTAATAGATGATGAAGAGGATGTGCTTTATAGTTTACAAAGGATATTGTTAAGAGATAAAGAGTTGAAAATAGATACTGCTGAAAATGGAGTGGTTGGATTAGAATTGTGTAAAAAAAATAGATATGACATAATTATAACAGATTTGATTATGGGAGAAATAAATGGTTTAGAGATTATAGAAGAGGTAAAAAAAATAGATGAAAATTCTATAATTATATTAATTACAGGGAAAGGGAATGAAGAGATATACAAAGAAGCAATTGAAAAAGGAGCATATGATTATTTTTCAAAACCTTTTAATTATACGGAATTTTTTAAAGTTATTAGAAATGCAAAAGAGAAATTGGATTTAGAACTATATCAAGAAAAATATAAAAACATCACAGAGAAAGAAAATAAATTTTATAATATTTATTATAAAAGTGAAGAGATGCGTGAAGTTATAGAAAAAATAAAAAAAATATCAAAAATAGATAGTCCTGTATTAATTAATGGCGAAAGTGGAGTAGGTAAAGAACTAATAGCCGAAAGTATTCATATGAACAGTTTGAGAAATAATAAACCATTTATAAAAATAAACTGTGGAGCTTTACCAGAAAATTTAATAGAATCTGAACTTTTTGGATATGAAAAAGGAGCATTTACTGGTGCAGAAAAAAATAAAAAAGGGAAATTAGAGTTAGGGAATAATGGAAGCGTTTTTTTAGATGAGATAGGAGAATTAAATATTTATTCTCAAGTAAAACTTTTAAGAGTTTTAGAAGATGGGCAGCTAGAGAAGTTAGGAAGTGAAGGAACGAAAAAAATAGATATAAGAATAATAGCAGCTACAAATGTGGATTTGAAAAAAAATATTAGTGAAAATAAGTTTAGAATGGATTTATATTATAGATTAGGAGTTTTTAATATAGTTATTCCGCCATTAAGAGAAAGAAGAGAAGATATTATATTTCTTGCTGAAAAATTTTTAGATGATTTTTCAAATAAATTTAATATAGAAAGAAAAATTATGTCAGATGGTTTAAAATTAAAACTATTAAATTATAGTTGGCCAGGAAATATAAGAGAATTAAAAAATGTTATTCAAAATATATTGTTATTAAGTGGAGATAAAAATGTAATAAGTGTAGAGATGCTACCAGAATTTTTATTTGAGAGACATTTAGAGGATGAAAAGTTAGAATTTGAGGAATTACCTTTAAGAGAATATATGAAAAAAAACGAAAAAAAATATTTAAAAAAGATGTATTCGAAATATAAGGATAATAAATCACATTTGGCTAAAATTTTAGGAGTTACAAGGAAGACTTTATATGATAAATTAAAAGAGTATGGAATATAGAGCTTTATAATATTTTGCGTATTTCCTATTGACTAAAAAAAGTAAAAATGATATAATTAAATGCTTCAAAAAGGGTGGTCCTCTTTGTGAAACTGGCAAATGAACATCGCGTAAAGAGGGGAGGAACAAAATATGAAAGAAAAACTAATCGAATTAGTTGAAAAAGATTACATTAGAGAAGATATTCCTCAATTTAAAGCTGGAGATACTGTAAAAGTACATTATAGCGTAAAAGAAGGAGAAAAAGAAAGAATACAAATTTTCGAAGGTGTAGTTTTAAGAGTTAGTGGTGGTAGTGTTGCTAAAACTATGACTGTAAGAAAAATGTCTTATGGTGTAGGAGTAGAAAGAATAATACCAGTTAATTCACCTCTTGTAGCTAAGATTGAAGTAACAAAAATAGGAAAAGTAAGAAGAGCAAGACTTTATTACTTAAGAGAATTAAAAGGAAAAGCTGCAAGAATAAAAGAAATTAGAAAATAAAAAAAAGCTAGCGTATTGCTAGCTTTTTTGCATAGGAGGAAAAATGAAAAATATTTATATAAACATTTTAATATATATAGTAGTAACATCTTTTTTTGCATATATTTGGATAAAAGAAAAAGAGTTAGGAAAAAAAATACAAAATATAAAAGATAAATTTTCTGATAAAATAATTGGAAAATATGAAGTAAAATCTCCAATGAAAAAGAAAGTAATTAGAGGAACTGTTAATTGGACTGAAACAATTGTAACTGCAGTTGTTTTAGTGTTAGTAATACAACATTTTTACGTCGGAAATTTTTTAGTTCCAACAGGTTCAATGATACCTACAATTGAAATTGGAGATAGAGTGTTCGGAGATATGGTTTCATATAATTTTAGAGACCCTAAAAGAGGAGAAATTGTAGTATTTAGAGAGCCAATGGATAATAAATTGTTATTTACAAAAAGATTAATAGGAGAATCTGGAGATAAAGTAAAAATAGGCTCTGATAAGAGGATTTATATTAATGGAAAAAAATTAACAGATAAGAAATATGATAGAGATTACTTTCAATTAGGGTATTTAGGAGCTGGAGAATGGTATATTCCTAAAAAAGGCGATACTATTCAAATAGCTGGAGAGTTTAAACCTGCAGAAGGTAAATTAAGTGATATTGGAAAATTAAATGATGTTCAAAGATATTTAATGTCAAGAGGTGATGTAATAACAAGAGCACTTCCATATGCCAAATTTATTGTTAATGGGAAATATGAAACAGGAATAATAATGGATTTTTTAAGAGATGATGAAATTGCTAAAAAATTGTTAAGTGGAGAAAAAATAACATTAAAAGAAAATTATTATTTTGTACTTGGAGATAATAGTAAAACTAGTTTTGATTCAAGATGGTGGGGATTAGTTGCAGAACATAGATTTAGAGGACGAGCAATGTTTAGATTTTGGCCAGTTAATAGGATGGGATTATTAAAGTAGGTGAACTGTTATGAATAAAAAAATTACAATATTAGATTCCATATCATTTATTGAAATGGAATCTTTTAATAAACCATGGAATAAAAATATTATAAAATCTATGTTTGAATCTAAAGAATATTTAATTTTAGTGGAATATGTAAAAAAAGAGATAGTTGGTTATATAATTTTATATAACACTTCAGATGTAGTTGAGGTATTAAGAGTTGCGGTAATGAAAAAGTTTAGAAATCAAGGAATTGGGAAAACTCTTTTAGAAAAAGCTATTGATGAAACTAAAAAAATAGGTTATAATGAAATATTCTTAGAGGTAAGAGTAACTAATTATAGTGCTATTTATCTATATAAAAAAGTAGGGTTTGAAAAAATAAATATTAGAAAAAATTATTATAAAGACAGTAATGAAGATGCGTTAATAATGAAAAAAAAGTTATAGAATTAGTCAAAAAACGAGGTATTAAAATGAAAGAAAAAATTGAAAAAATTATGCAAAATTATAATTATAATTTTGATTCAGAAGAATATATAAAAAAAAATATATTAGAAAATATATATTTAACTTATTCAGAATTAAAGGAAGTAATAGAGATTCTTTATGAATTGGAGTATATAAAGGAGATGGATCTAAAAGAAGTTTTTGAAAGTATAAAATTTGATACAGTTAAAAGTAAAAAAGAAAAAGGAAGCTATTTTCTGAAGGAACTATTATATTATAAATATCCACTTTATCAAAAAACAATGAAAAAATTAAAATTTCATCTAAATAAGATAAAAGATTCTAAAATAAAATTAACATATCCTCAAAATTTAGAGGGAGACAATTTAAAAATTGAAATTACAATAAAAAATGAAAAAGACGTGGATAATATATTGGATAAATTATTAAAAAATAGAGATAATTTAAAAGATATAATATCATTAATAAAAAAATAAGCTACGCTTCATCTGGTAAAATAAAAATATTTTTCAAATTTTTGGTTTCTGAAAAATTTTGCTTTGAAAAATCGCAAATTTAAAAAAATGGCGTAGCTTATTTTCTGAATAAATTTATATTTTTTGAATAAATAAAAAAATAAGCTACGCTTCATCTGGTAGAATAAAAATATTTTTCAAATTTTTGGTTTCTGAAAAATTTTGTTTTGAAAAATTGCAAATTTAAAAAATGGCGTAGCTTATTTTCTGAATAAACTTATAATTTTCAAATAAATGAAAAAGGGTGAATAAATTATGAACAAAAAATTAGAAATAACATTATTATCTATTAGTTTTGTGGTTTTATTTTTGTTTAGTATTATATTTTCTACAAAAACTTTAATATATAGTTCTTTTATATATTTTAATCTTTTTTCATTAGTTGTAATTTCTGCAATAATGATATTATCTTTGCGTTCATATTTAATTTTAAAAAACTTTATGCATCTATTCTTTTCAATTTCTTATGGAATTTTAATGTTTATTTATATATTGATCATGAAAGAGTACTATTTTAATAATATGTATATAGATTATATGATCCCGATTATAAAATATACAGAAGTACTAATTTTTATGTTTGGAATATTTGTTTTAAGAGAAAAAGTAGATAAAAGAAAAATATTGAAATCTTTTATCATTTTAATAATAGTAAATTTATTTTATTTTTTTATAACTATATTTTTTATAGAGAGTAATGTTTCTATAGTCATATTTTATATAGAACTATTATTAGTATATTCTTATTTGTCAGATGAATCTATAAAAGATTATTTTACAAAAATTTTGTGGTATAAAATATTTTCATGGTTATTTGGAGTTATTTATACGGTTACATCTTTTAATTATTTTAATCTTATATCTTTTTTTATGTATTTTTATTCTTTATATAAATTTTTAGAATATTTGAATTATGTGTTGAATAGAGGCTTTTTTAAGGAGATTTATAATAGAGAACAAAAAATCAGAAAACTTATAAAATATCATAATTCTGGAATAATTATAATAGATGATTATTACATAAATTATATAAATGATTCAGCATTAAAAATATTAGGGAAAGATAGTAAGAGAGAATTAAAAAATAAAAGTATATATTTAGCATTAGAGGGAATATCATCGGAATTATTGGAAGATACATTAAAAAAATTTCCAGAAGAAAATGTTGTTGAGATAGTAAACTTTAATAAAAAAAATAAAAAAATAAAAATAAAAGCATATAAAACAGGAGATGAATTTTCAGAAGAGATTATAATAATTTTGGATGAACTTCTAACTCAAAAAGAAGTTTTTGAAAAAGCAAATAATTTATTATCAAATAATGTTGTGTATTTATATAATGAAGATGAAAGAGAATATGTATATATGAATAATGGAGTAAAAAATATTTTAAATAAATCTCCTGAAGATTTTTATAATAATTCAACAATGATGTTTGATATGATTCCAGAAGGTAATTCTAAATGGTATATGGAGTTTATGGCAAATAAAAAAGATGGACTTGAAGAGTTTTCCTATGTTAAAGAAAATGGAGAATTAGTTTGGTTGCTGGGAGAAAGAAGAAAATTTGAATTTTATGGAAATGAGTATTATTATGGTGTAGGTGCAGATATAAGTAGATATAAAATTAGAGAAAATGAACTGTTGTTAAAAAATGAAAAATTGGAAAAAGAGAATAAAATAAAGGATATGAGTGTATCGGTCATATCACATGAGATAAGGACTCCAATTACTTCAATAATAGGATTTCTAGAGAATATAATAATGAATAAAAAATTTATATATCCAAAAGTATTAACAATGGTATATAAAGTATATAATAATAGTATGAGGTTGAAAGAGCTAATTAACAACCTTTTGGATATAAATAAATTAAATGCAGGGAAAATGGAAATAAGTAAAGAGATATTAGTTTTAAAAGATATGGTAACAGAAATAATGCTGAATAATGAGATTCTAATGGAAATAAGAGATATAGAATATAGTGTAAATATAGATGAAGAGCTAGAAGCTTATGCTGATTATAATTTAATTTATCAATCTATAAATAATATTGTTAGTAATGCAATAAAATATAATAAAGATAATGGAAAGATTATAGTATCTGGAATTGATAATGAAAAAAGTGTAACGTTAAGCTTTAAGGATACTGGAATTGGAATAAAATTGGAAAATATAAACTCTGTATTTGAGGAATATGAAAGAATAGAGGGTTCGCATATACAAGGGACAGGAATAGGTATGCCATTAACAAAAAAAATGGTAGAATTAAATGGTGGTAAAATATGGATAGAATCTGTTTATGGAGAAGGTTCTACTATTTTTATAGAGTTGTTAAAATAAGGAAGAAGGGAGGGGAAATAATTGTTTATACTTTTTTTTATAATTTTAGGAATATTTTTATTCGTCAGATATAATTTGGGAGTTGGGCAGATTTTAATTGGATTTGTAGTAATAATGGTTGTGTTTAGCTTGTTTTTACGACCGGTATTTTCACCATTTTTTGGTGGATATTATTCACCGTGGGGAGGATATTCTCGAGGGTCAAGTTTTTTCTTTTTTAATAACAGTCATTCGAGCAGAAGTTATACACCAAGAAGGACAAGAAGTGTAAGAAGAAGCGTATCAGGATTTAGAAATAGAGGAACAGGTTTCGGAAAATAATGGAGGTGGATAAAATGTTATATGTATCAATTTATATTTTAGTAGGATTAATATTTGCATTTTTTATATCAACAATAGTATATGACAAAGCATTAACAAAAGGATTTAGTTTAAAAGAGTATCTGTTTGAAAAAGATAGTAAAGCGGTATGGGTAGATTACTTTGGTGGATTTATTTTACCAGCATTTTTAATAACATATAATTCTGTAACAGGAGGGGAAGCAAAATCATTAATATTAGACTTATTAACAATATTAATTATTTTATCAGTTGCAATAGCAGTTTTAGCAGTAGTTAGAGTGTTAAATGATAAAATTATATTGAATATATCTAGTAAATATGGTGATAAAACTACATTGAATAATGAGATATTTAATCAATCTAATTTATCAGCTTCATTTTTTAATATTGCTTTTACATCTGTTATAACAAATATTCTTTTGCAAGAATCTATATTTGAAGAAAAAATTTCAGTTATGTTATTAAGAGCTTTATTAATATTTTTATTTAATATAATAGTATTTATTGCTTATAAATTTTTAGAAGTAAAAAGAGAAGTGAAAATATATGAAAATTTATTTGAAAAGGATAATAGTGCATCTGGACTTACATTTTTAGGATATATTGTAAGTTGGCAAATAATTTTATATAAATTAGTTAATTTTTATGATTTGAAAGAGTTATATTCTATGGTAGTTAGTTTTATGTTGATTTTAGTTTTTTATGAAATAATAAAATTGATTATTAAATTTGGAATAAAATATATATTAAAAGAAGATATAGAAGATGAAATTTATTTACAAAAAAATATAGGTGCAGGGTTTGGAATGTTTGTTATATATACAGGAATTGCACTTTTGATATCAGGAGTATTATTTGGATGAAAATAAAAAGTGAAAATTTATTAGCAATTGCAATATTAATGACAGGAATAACAGGAATGGTAGCAGAGTATTCTCTCTCTACCATTGCTTCATATTTTGTTGGGAATAGTATAACCCAATTTTCATTAGTAATAGGAATTACAATGTTTTTTATGGGAATAGGCTCAAAAATATCAAAATATATAGAAAAAGAAATATTTTATAAATTTATATTATTTGAATCTTTACTTTCTATTATATCTGCATATTCAATAATATTTACTTATTATTTAATGGGGATAAGCGGAGAAAAATTGTTTTATATATATATGTTATCAGGAATAGTGGGTACATTAATCGGGCTTGAAATTCCATTAATTACAAGGATAAATGAGCATTATAATATAGCGTTGAAAGAAAATATAAGCAAGGTTTTATCTTATGATTATTTTGGAAGTTTAATAGGAAGTATATTGTTTGCATTTTTATTCTTACCATATTTAGGGCTTACAAATACATCAATTTTGTTAGGATTTTTTAATTTTTTAGTAGCTTTTTTTGTATATGTAAGTATAATAAAAAGAGGAATTGAAGTAGACTCTAAAAAAATAAAAAATATATTTATATTAAGTTTTTTAGTTATTTTATCAGCCTTTATATTTGGTAAAAAGATTGTAATGTATAGTGAACAGATGCAATATAAAGATAAAATAGTTTTTAAAGAACAAACAAAATATCAAAATATAATTTTAACTAAATTTAAAAAAGATTATAGATTATATTTAGATGGTCAAACTCAATTTTCTACATTTGATGAATATAGATATCATGAGAGCCTTGTGCACACTCCAGTTACTTTTTTGGACAATATTCCCAAAAGAGTATTAGTTCTAGGTGGTGGAGATGGAATGGCTGTTAGAGAACTGTTAAAATATAAAAAGATAGAGTCTATAACATTAGTGGATTTAGATGATCAGATGACAAAACTTTTTTCTACAAATAAACTTTTAAGAAGCTTTAATAAAAGTTCATTGTTAAATAAAAGGGTAGAAGTAATAAATGAAGATGCATATATATATTTGAAGAATAATAAGAGTAAATATGGATTAATTATAATAGATTTTCCTGATCCAAATAATATTGCATTAAATAAACTTTATACAGTTGAATTTTATAAATTGGTAAAAAGAAATTTAGAAAAAAGTGGAGTGTTTGTAACACAATCAACAAGCCCGATATATTCAAAAGAAGCGTATATATGTATAAGAAAAACAATAAAGGAAGTAGGGTTTAACGTATATTCGTATAAGACTCTAGTTCCTTCTTTTGGAATGTGGGGGTTTAATATTGGAAGTATGCAAAAAAGAGATTTGAATAAAATATTTAATAAAAAAATAGAGATTCCTACAATATATTTAACAAATGGAGTAATGAAATCAAACTTTTCTTTGGGGAAAGATATAAAGCTAGATGATGAAAAAATAGAGGTAAATAAGCTATTAGAGCCTAAATTATTGAAATATTATAATAATAGTTGGGTTTATTATTAAGGAATGAGTTAAATTTGTTTGGAGTTATTGAACGTTAGAAATTATGAGCTTAGACTCTTCTTTTACTGGGTGTAAACCTATTATATGGAAATTAGTGATAGAAACATTGAAAAAATTGACATTGAACAACATTGAAGTTTTTTTACTTTACAAAAAGGAGAAAAGATGAATTTAGAAGAAAAATATATAGATTATTTGCTAGACGAAGTAAATAAAAAGCTAAGAATGGAGTATTCAATAATTGAAGATTTGAATTATATTTTAAATGATTTTGAAAGATTTCAAGTTATGATAAAAGGAAATAACAAAATTAGGTCAGACATTAAAAAAGTTATTTTATCTAAAAATATTAATTTTAAAAAAATTAAAAATGATTATTATTTAAAATTAAATAGAAACAGAGTAATGAAATTAATTCCTATAATAAGATTATTTATAAAAATACAAGAGAAAAATTTTGAGAATAAATTTGTAAAAGAGCAATTAGATTTTTTTCGATTTGAATTCAATTCAATTAAGTTAGCAATGTTGAGTTAGGTATAAAAGGAAAAATGTAAGATATTGGATAATAATAGGAGGAGAATAAAATGAAACTTATAGATGCACATTGCCATATAAATTTAGATGAATTTAAAGATGATTTTAATGAAGTGGTAGAAAGAATTAATAAAAAACTTGAATTTGCAGTAAATATTGGATTTGATATGAAAACTTCTTTAGAAAGTGTAGAACTAGCTAAAAAATATGATTTTATCTATTCTGCAATAGGGATTCATCCAAATGAAGCAAAAGAATATTCTGATGAAGTTGAAAAAAAATTAATAAAACTTGCTGAAAATCCAAAAGTTTTGGCAATAGGAGAAATAGGACTTGATTATTATAGAGAGGGAGCTCCAAGAGATTTGCAAAAAGATGTTTTTAGAAAACAGATAGAATTAGCAATAAAATTAGATAAACCAATATTAATTCATTGTAGAGATGCTTATGGAGATACATTTGATATATTAAACGAATATAAAGAAGCTAGAGGAATAATGCATAGTTACTCTGGAAGTTATGAATTTGCTAAAAAATTAATGGATAGATTTTATTTTTCTATAAGCGGACCAGTAACATTTAAAAATGCCAAAAATGTAAAAGAGATGGTTAGAGAATTGCCAATAGAAAGAATAATGGTAGAGACAGATTCGCCTTATTTAACTCCAACTCCATATAGAGGGAAAAGAAATGAACCAATATTTGTAGAGTATGTAGCAAGAGAAGTTGCAGATTTAAAAAATATGAAATATGAAGAAGTAAAAGATATAACAAATAAAAACACAAAAAAAGCATTTGAAATAGAGGTGTAAAAGTGCAGATAATATGTCCTGTATGTAAGGAAGAGTTAAAAAAAGAGAATAATAAAATGAGTTGTATTAATGGACATTCATTTGATTTTGCAAAACAAGGATATATAAATCTTCATACTAAAAGAGGAGAAAAAAATCCTGGTGATAATAAAGAGATGGTGAAAAATAGAAGAGCATTTTTAGAAATAGGGCTTTATAATAATTTAAAAGAAAAGATAAAAAAAGTATTATATAAATACAGAGATTTATATAATTTTAATAGTTTATTAGATTGTGGATGTGGAGAAGGATATTATACATCATCTTTTGAATTAAAAGATGTTATTGGGATAGATATTTCTAAATTTGCAATATTAGAAGCTGCTAAAAAATATAAAAAGTTAAAATTTATTGTTGCTTCAGGGAAAGATATACCTATAAAAAGTGAGAGTGTAGAAATAGTTACATCTATTTTTACTAAACTTTTTCCGAATGAATATTATAGAATATTAAAAAATAATGGTATAGTAATAACAGTTCATTCAGGTATAAATCATTTAAAAGAGATAAAAGAAGTTGTGTATGAAAATGTAAAATATGATGTATATAATCCTGATAGAGATATGCTAGACAAATTTAAAAAAATAGATTCTATAAACTATTTTTATAAAGAAAAATTAAAGACAAATTTAGAGATAAAAGAGCTATTTGAGATGACTCCATATAAATGGAAAAGTCCAAAAGAGGGGATAGACAGACTTTACAGTTTAGATAATTTAGAAATAACAATAGATGTGAATATAGATATTTATAAGAAGGTGTAAAATGAAAATACTTGGAATAGGAAATGATATAATTGAGATATATAGAATACAAGAAGCTATAGAAAAAAACAGTAAATTAGAAAAAAGAGTTTATACAGAAAAAGAGATTGAGTATGCTAATAGTAATAGAAAATATGAAGTGTTGGCTGGCAGATTTGCAGCAAAAGAAGCAATATCAAAAGCTTTTGGAACAGGGATAAGAGGATTTAAATTAACAGATATAGAGATATTAAATGATGAATTAGGGAAACCGTATGTTAATTTGTATGGTAAATTAAAAGAAAAATATTTAGGTTATAATATTATGGTAACAATATCTCATAATAAGAGTAATGCCATATCAACTGCTATAATTTCTTGTGAATAGTGTAAAGGTTTTGTAAGAAAGATAATTTCAGCACAAAGAAAGGAGAACTCAAAGTTACACAAAGGAATGGCTTAAAAATAACATTCCCATTTTGCTTTAAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCCAAAGAAAAAAATTATTTAAAACTATTGGGTGAATACTGATGAATAAAAATTGAAAGATAGTTATTTTGGATGGAATTCTATAAAAATTTTATACTATCTTCTTGTGAATAGAGATTGTAAAAACAAAAATTAAATGATATAATATAAACAGGAGATTCGTGTGCCACTCTTAATATAATATAGATTGTAAGGAGAGAAATATGTATAAAAAAATTGTTATTTTTATGTTTTTAATAATGGGGTCATTTATTTTTGCAGAAAATTTGGGAACAAATATTATTTTGGATGATGCAATATTTTATTATGAAGGGAATAATGAAAATATATTGGATTTAAAAGATGATACTATTAAAGAATATCAGGATGTTTTGATGAAATATAAAAGCTTTTATGATTTGGATATAACAAAATTATTTGAAAGTAATTATGCAATATCTTTTCATAAAAGAAAGGATGAAAAGAAATTTTTTATTTATAAAAAGATTGAAACTGCAGATTTTGTAGGTACAAAATTTTATAATAATAAATTTTTTGAAAGAGATATAATTAGCGGAATGACTACATATTATATTTTAGGGGATAATCAATTTATATATTCATATGATTCTGGAAATTTATATATAAGTAATGATATAGCTTTATATTTTGAAATGTTAGATAATTTGAAAAAAGAAAAACACACATTAAGAAAAGATAAAAATTTTGTTAATTTGCTTAATTATAATAAAGAATATAAATATAAATATTATTTATTGCAAAGTAAACCTATTGAAAAAAATGGATATGTAATAAAAAAATATAGTGAAATTAATGGAGAGAAAAGAATAAAAAGATATTTAGTAGATAATCTTAGTGAAAAAGAAGAAGATAATATTAATTTAGCTGATTTAATTAGTGGCGATGTAGATAGAATTTATATTGGAAAAAATATTCAAGGTGTTACATCATTATTAAATGATGATTTTAAAATAATGAATTATACAGTTTCAAAAGAGTTGTTAAATTATCTGAATACTAATATAAAATTAGCAGTATATATAGAAAAAGGCAAAGATTTTTATATTTTATTATTACCTAAAGAAAATTTTGATAATTCAATTGAACTATTGAGAAAAGAATATGAAAAAGTATTTTTTTATGATAAAAAATTAAAACTTTTAAAAAATGAATATGGGTATGAAATTCATATTCCAATTTTACAAATAGATAGATATATAGATGTTTATAAAAATAAATATCTTATATTGAGTAATAGTTCAGAAGTATTGAAAAATATAGAGATAGGAAAATATTATAACTATGATTATTCAAAGATAAATCTACAAAGTACAATATATAAAGACTTTATAAATAATATAGATGAAAGTTTTGAAGTGAAAAACAATATAATTGAAGAGATAGAATAAAAAAACAAATAAAAAATTATAAAATAAATTTGAAAAATTTAAAAAATAAGAGTTTTGCTGAAAAGTTTAGAGCTCTTATTTTTATTATTTTTAAAAAATAAATACATTATATGGAGGATAGAATGAAAGAGAAAATTTTAGTGGTAGGTCATAAAAATCCGGACAGCGATTCTATTTGTTCTGCAATAGTATATGCAAATTTAAAAGAAAAATTGGGACTTGATACAAAGCCGGTTAGATTAGGAAAAATAAATAAAGAAACAGAATTTATATTAAATTATTTCGGAGTAGAAACACCTGAATTAATAGAAACAATAAAACCACAATTAAAAGATTTGAGAAAAGGTGTGAAGGATGTAATAAGAGAAGAAGATTCATTGAGAAAAGTAATTAAATTAATGACAGAAAAAAATTACTCTAGTTTGGCTGTTGTAGATAGTGAAAATAGATTAAAAAGTATGCTTCATATTTCTGAAATTGCAGATGCATATTTGGAAATGGGAGCTATTGATATTTTTAAAAATTATGAAACAACTTTTGAAAATTTATGGCAAGCTCTAGGAAAAGAAGCTTCACTTGTTAATGGAATTTATCCAAAAGGGATAATAAGAGGAAATCTTAGAGGTGTATCTGAATTATCAAAAATTAAAAAAGGAGATATTGTTATTACAACATTATTATCGAAAAATATAAATAATGCTGAAAAAGCAGGTGCAGAATTAATAATAATATGTGTAGATGAAACAGATGTTATTCCAGATTGTAATGTGAAAATTCCTATTGTTAGAGTGAATAATGGAATTTTTAAAGTATTTAAAAGAATATCTGAATCAGTACCAATAAAATCAATATTATCTGATAGTAAATTTATACATTTTTACACAAATGATTATATTGATGATGTAGAAGAAATTATAGATAATAGCGAACAAAATAATTTTCCTGTAGTAGATGAAAATGGAAAAGTAGTTTCAACAATTCGTTTGAAACATATTATGAATATTGAAAAGAATGAAGTTATTTTAGTAGATCATAATGAAGCGCCACAGTCAATAGATGGGATTGAAACAGCTAAAATATTAGAAATAGTAGATCATCATAAATTTGGAAATTTTGAAACTATAGAGCCTTTAATGATAAGAGCAGAACCAGTAGGAGCAACATCTACAGTTATATATGGACTATATAAAGAAGCTAAAATCATTCCAAGTAAAAAGATGGCAGGGCTTATGTTAAGCGCAATATTATCAGATACACTTATTTTTAAGTCGCCTACTTGTACCCAAAAAGATATTAATTATGCAAAAGAATTAGCAAAAATAGCAGATATAGATATTGAAAGTTATGGAATGAAAATGTTAATAGCAGGAACTTCTTTAGGAGATATTACACCATCTGAAATTATAAATATAGATAAAAAAGAGTTTTCAATGGGAAAATTTAATGTTGCTGTAGCACAGGTAAATAGTGTTGATGTAGAAGGAGTTTTAGAAAAGAGAGATGAATTAAAAAAAGTTATAAATGATGAAATATTAGAAAAAAATTATGATATGTTTTTATTTATGATAACAGATATAATAAGAAACGGTTCAAAGATTGTAGCTTTAGGAAAAGCAAAAGAGTTAGTTACTAAAGGATTTAATATTGAGCTAGTTGAGGATGAAGCTTGGTTAGATGGAGTGGTATCTAGGAAAAAACAAATTATTCCATTTTTAATGGATGCAAGTCAAATGATATGAGGGGATAATTGAAAATTAATAATGGGAAATTGATAATGAAAAGATAAAATTAAAAAAGCCAAATATCCACGCTATAGGTTTCTCTTAGATAAGAGAAACCGACAACAAGGGAGGAGTAGAGTTTTTATAAAATTCTTAGCTTTATGACATTGGGATAAAGGCGGATAAAAGATAAATAAAAGATTTTATAGGGGCAGATTCTGTATTTGCCTAAATAATAAAAGTTAATGGGGGCAAAAATGAAAGAATTTAATATAATAGGAACTTGTATTCCAGAAGAGCATTATATGGTAGATACAACATCTAAATTAAATCAAATAATAAAATTAATAGAAAAAAGAAAATATTTTACAATAAATAGGCCTAGACAATATGGGAAAACAACAACAATATATTTGTTGGAAGAAAGATTAAAAAAGAGTAAAGAGTATTTAATGATATCAATAAGTTTTGAAGGTCTTGGAGATGAAAATTTTGAAAATTCAGAGATTTTAGGTAAATCTTTAATAAGAAAAATAAATAAAATGTTAAAAATAAAAAAATTTGAAAATTTAGTAATTGATATTGAAAAAACTCAAATGAAAACGATGGATGATTTAAGCGATATTATAACTGATTTTGTATTAAAAACAGATAAAAAAGTGATATTAATGATAGATGAAGTGGATAAAAGTAGTAATAATCAACTGTTTTTAAATTTTATAGGAATGTTACGAGAAAAATATTTATCAGCAATAAAAAAGCAAGATTATACATTTCATAGTGTGATTTTAGCAGGAGTACATGATGTAAAAAATTTAAAATTAAAGTTACGACCAGATGAGAATAGAACATTAAATAGTCCGTGGAATATAGCGGTAGATTTTGACGTAGATATGTGCTTTAATCCTCAGGAGATAGCAACGATGTTAAGAGAATATGAAGCAGATGTAAAAACAGGAATGGATATAAAAAATATGTCAGAAAAGATATATATGTATACAACTGGTTATCCGTTTTTAGTAAGTAAATTATGCAAAGTAATGGATGAAAAACTAGATAGAAATTTTAGTGAAAAAGGGTTGGAAGAAGCTATAAAAATAACATTGGAAACTCCTAATACACTGTTTGATGATATAATAAAAAATATAGAAAATAATAGAGAATTTTATAAATTTATAGAAAAAGTTATATTAGGGAATGATAAAGTTGATTATGTACATACAGATACAATGGTATCAATAGGAAAAATGTATGGAATAATAAGAGAAAAAAATAGAAAAGTTGAGATAGATAATAAAATATTTGAGATATTACTTTATAATCATATTATAGCGAAACGAGAAAGAGAAAAAGGGGCAGTTTTAACTTATGAATTTAGAACAAAATTTATAGATGATAATGGTAATTTAGATATGGAATTGGTATTGAGTAAATTTCAAGAATTAATGAAAGCAGAATATAGAAAAATAGATGAAAAATTTGTGGAAAGAGAAGGTCGACTACTATTTTTAGCATTTTTGAAACCAATAATAAATGGAACAGGATTTTATTTTGTGGAATCAGAAACAAGAGAGTCAAACAGAATGGATATAGTAGTGACATATAATATGAAAAAATATGTAATAGAGTTGAAGATATGGCGTGGTGGTAAGTATGAACAAGAGGGAAGAGAGCAGTTGTGCGGATATTTAGAATCACAAAATTTAGATAAAGGGTATATGATATTTTATAGCTTTAATAAGGGGAAAAAGTATATTAAGGATAAAGTTATGGTTAAAGGGAAGGAAGTTTTTGAGATAGTTGTATAAAAAATTGGTAAAAAAAATAAAATTAAAAAAGAAAAAAGAGTGTTTTAACCACGGGATAAAGGCGGATGTTCTCAAGTTAAGAGGAACTGGTAATATAGAAAAGTGCTAGATTAATTCGTTCAGCACAAAGACACCAAGAACGCTAAGACACACTAAGAAAACATTTTTTTATTTATTTAATTAGTAGGAAAGTATAAATTTTTCAGAAAAAGATTTATGTTTTTCCATATAAAGCGTTAATCTTATGTTTTTAAATAATTTTTTTCTTTGTGTAACTTTGAGTTCTCCTTTCTTTGTGCTGAAATTGTTTTTCCTACAAAAATTTCGAACTATTGATTTTTTGAGTATTCTTTATATATAAAATGCTCTTTGTTTTTATAAATAGTTATGATATAATATGAGTATAATGGAAAATAGACAAGAAAAAAATGAATTTAAATCAGGAGGATTTATGGATATTTTAGAAATAAAAAGAGATTATGAAAAAATGAAAGAGAAATTAGAAGAGATGAGGAGGCATCTTTGACCTTGCTAACAAAAAAGAAGAGATAAAGAAATTAGAAAAAATAACAGTTGAAGATGGATTTTGGAATGATAAAAGAGAATCAGAAAAAATAATAAAAGAATTAAATATATTAAAAGAGAAAATATCAGAATTTGAAAATATTGAAAGTGAAGTTGAAGAATTAGAAGTTTTAATAGACTTTGTAGAAAGTGGAGAAACAGATTTTGAAGAAGAATTAGAAGAAAAATATAATAAATTAGTAAAAAATATGGATGAGTATGATACTAAGATATTACTATCAGGAGATTATGATATAAATAACGCAATAGTAACAATTCATTCTGGAGCAGGTGGGACAGAAGCTTGTGATTGGGCAGATATGTTATATAGAATGTATAGCAGATGGTGTAATGATAAAAAATATAAAATAGAAGTTTTAGATAGATTAGATGGAGATGGAGCTGGGATAAAAGCAATAACTTTTTTAGTTAAAGGTGAATATTCTTATGGATATTTAAAAAGCGAAAAAGGGGTACATAGATTAGTGCGAATATCACCATTTGATTCAAATAAAAGAAGACATACCTCATTTGCATCAGTAGATATAATGCCAGAAGTAGATGATAATATAGAGATTGTTATTAATAGTCAAGATTTAAGAATAGATACCTATAGAGCTAGTGGTGCTGGTGGACAACATGTAAATATGACAGATTCAGCGGTTAGAATAACACATTTACCAACAAAAACAGTTGTTACGTGTCAAAATCAGAGGTCGCAAATTCAAAATAGAGAAACAGCAATGAAAATATTAAAATCTAAACTTTTTGAAATGGAAATGAAGAAAAAAGAGGAAGAATTAAAAAAAATGCAAGGTGAAATGTCTGAAATAGGTTGGGGGAATCAAATTAGGAGTTATGTATTTCAACCTTATACAATGGTAAAAGACCATAGAACTAATTTTGAAATAGGAAATGTAGCATCTGTTATGGATGGAAATATTGATGGATTTATAAGAGCATATTTGAAATGGATAAAAAGATAAGGGGAAAAATAATGGAAAAAAAATTGATATATTTATTTTTTATAATGTTATTTTCCACAACGATATACGCTAGTAGAGAACAAACTAAAAAAATAAATTTTTCTGTTTTAAGTGTTGGAGATTTTAATGGAGAATATAAAAAAATCCCTAAAATTTTTAATATTGTAAAGCAAACAGAAAGGTTAAGAGATAATCTTGTAAAAATAGATATAGGAAATAATTTTTCAAAAATAGATAATTATAATGATATTATAATGAGATTTTTAAAAAAATCAAAATTTGATTTTAATTTTTTAGGAATAGATGAATTTAAAAGTAAAGTTTATATAAAAGAAAATAAATTTTTTTCAAGTTTAAATTTAATTGAAAATTCTGTAATTCCTTATAAATTAATAAAAAAAGATAATTATATATTAGCAATTGTAGGAATATCAAATTTATATGGGAAAACAGATAATTTAGTTGATTATAAAAAAGAATTAGAAAAGTTGATATATAAGCTTGATTCAAAATCAGATTTTGTATTTATAGTTTCAGATTTAACTAGAGCAGAAAATTTAAATATATTAGCTCAATTTAAAGATATATCAATTTTATTTGAAAGTAATAGTTTTTCATATAATCCAATAGAAAAAATTGGAGAACAGTATATTATAGCTAATAAAAATCCAATTTTATTGGATTTTGTATATAATCCAAATGTTGCAAAACAGATAAACAAACATAATAAAAATTTTTCTTTGAAAAATTTATTTATAGAAGATTATAAAATAATAGATGATTATTCATACTATGAAGAAGACAATAAGTTAAAAGATTATATTAACTGGAAAGAAGAAGTAGAAAAGAAAAAAAATAGTGAATTTAAAATTTTTAATAATAAAACTTTTTACAAAGAAAATGTTTTGTTGGGAGAAAGAATTCCATTTTTAGATAGTATTGGAGAATATTTATCATATTATTATGATTCTGATACAGTTGCATTTGTAAGTTCAGATATAAAAAGAGGATTAAAAAAAGGTATTGTAACTGTAAAAGAGTTGAAAGAGTTATTAAAAAATGATAATATAGAGATATATAATATTTCAGATTTAGAATTACAAAAATTAATAAAAGCTAATAAATTTTTTAAAGGGACAGACAAATATATCTATTTTATTAACGAGTATAAAAATTTAGGAAAAAAAGAGAGTTATAAAATCATTTCAACAGAAGAGTTTGAAAATAGATTTGGATATAAAGGCAAAGTTTTAAATTATACAATATCTGATTTTTTATTACAAAGGAGATAAAATATGAAAAAAATATTTGTTTTATTTATAATTTTATGTAATTTAATAGTGGCACAAGATTACAATAAAGCTGTTATGGAAAATAAAAATATAAAGAGCATCGAGCAAAAACAGATAACAGAACAAGAGATAAGTTTAATTGGAGTAAATGTGGATGGAATTAGAGTAGATAAAATTTATACTAATTTATTATCTCAAAAAAGTGAAGTTGTAATTTTAAAAAAAGATTTGGAAACAGCATTTTTAGCAAAGAATAAAGATATTAAAGAGATAAATTTGACTATAGGTAAAGATAAATTAATAGCAAAAGGAAAAGTTAGTTTGTTAGGGATTATAATGAGTGTTTATTTAGAAGGGGAATTTATTTTAAATGATAATCAAGAATTAGAATTTGATATAAAAAAGGCAAAAGTAAATGGAATTATAGGAGTACCTAAAAAGATTATAGAAGGGTTTAAAAAGCGGTTAAATCCAATATTTAAATTAAAGAAATTTGGGATTCCGTTATATGTAAGTAAGATAATTTTTGAAAAAGATAAAATAAAATTCATATAGGAGGACATAAATGAGAGAAGTAAAAGTAAGAATTGCACCATCACCAACAGGAGATCCACACGTAGGGACAGCTTATATAGCTTTATTTAATTATGTTTTTGCGAAGCATAATAATGGAAAATTTATATTAAGAATAGAGGATACTGATAGAACAAGATCAACAGAGGATTCGGAACAACAAATATTTGATGCTTTAAAATGGTTGGGATTAAATTATGATGAAGGGCCTGATGTAGGTGGAGAATTTGGACCATATAGACAATCAGAAAGATTTGACATTTATAAAAAATATGCTTTAGAATTAGTAGAAAAAGGTGCAGCATATTACTGTTTTTGTACACAAGAAAGATTGAAAAAATTAAGAGAAAGACAAATTGCAATGAAAAAAGCACCTGGTTATGATGGACATTGTAGAAGTCTTACCAAAGAAGAAGTTGAAGCAAATTTAAAAGAAGGAAAACCTTATGTAATAAGATTAAAAATGCCATATGAAGGGAAAACAGTAATCAAAGACCTTTTAAGAGGAGAAGTTTCATTTGAAAACGATAAAATAGATGATCAAATATTACTAAAATCAGATGGATTTCCAACTTATCATTTAGCAAATGTAGTAGATGATCATTTAATGGGAATTACACATGTAATTAGAGCAGAAGAATGGATACCATCAACTCCAAAACATATACAACTATATAAAGCTTTTGGATGGGAAGAACCAGTATGGGTACATATGCCACTACTTAGAAATGCAGATAAAAGTAAAATATCTAAAAGAAAAAATCCAGTTTCATTAAATTATTATATAGAAACAGGATATTTAAAAGAGGGTATTCTTAATTTCTTAGCATTAATGGGATGGGGATTAGGCGAAGAAAAAGAGATGTTTGGATTAGATGAAATGATAGAAAAGTTTACATTTGATAGAGCTTCACTTGGAGGTCCTGTATTTGATCTGAAAAAACTTGGTTGGTTAAATAATTTACATATGAGAAATAAAGATTTAGGAGAATTAACAAAATTAGCAATACCTTATTTTGTTAAAGCAGGATACTTAAAAGATGAAAATATGACAGATGAAGAATTTGAAAATTTGAAATCAGTAATAAAAATAGCAAGAGAGCCATCGCAAACATTATCAGATTTACCAAAAGAATCAAAAATATATTTTGTAGATGACTTTATGTTGCCGGAAGTAGAAGAAGGAATGTTTGCAAAACAAAAAAAAACAATAGTGAGATTACACAAAGCAATAGAAGATGAGATTGGGAAAAAAGCTATTCAATTATTTATAGAAAAAATAGAGAAAATGGAAGAAAATATTTCAGAAGAAGATGCAAAAAATATTTTACATAGTTTATTAGATGAGATAGGAGAAGGAGCTGGAAAAATTCTTATGCCTATAAGAGCAGTATTAACTGGAGAACCAAAAGGTCCAGATCTGTATACAGTTATAAATGTAATTGGAAAAACTAGAGTATTAAAAAGAGTAAATAATATAGTTGAAAAATATAATTTGAAATAAAAATTAAATTAGATTAAATTAAATAATTGATTTTTGCAATATTTAATTTAAAATATTATAAGACTTTAAGGAGGGGATATTATGAAAGAGTACATGAAAAAATATGAGGAATGGTTGGCTTCTGATTATATTGAAGCAGAGGATAAAAAAGAGTTAGAGGCAATAAGAGATGATGAAAAAGAGATAGAGGAAAGATTTTATCAAGATTTAGAATTTGGAACAGGTGGATTAAGAGGAATAAGAGGAATGGGAACTAATAGAATAAATGAATATGTAATTAGAAAAGCTACTCAAGGGTTAATTAATTATATGTTGAAAAATGATGAAAAAGCAAAAGAAAAAGGAATAGTAATTGCATATGATTCAAGAATAAAATCATATGAATTTGCTTTAAATACTGCATTAGTTGCAGCAGGAAATGGAGTAAAAGCATATCTTTTTGAAAGTTTAAGGCCAACTCCAATGCTGTCTTTTGCAGTAAGAGAACTTGGAGCATTATCAGGAGTAGTAGTAACTGCAAGTCATAATCCATCAGAATATAATGGATATAAAGCTTATTGGGAAGATGGAGCTCAAGTTACAGCACCTCATGATGTATTAATTATAGAAGAAGTTAAAAAAATGACAGATTTGTCACAAGTGAAAATAGCAACTGAGGAAGAAGCTAAAAAAAATGGATTATTAACAATAATAGGAAAAGAGATTGACGATAAATTTATAGCTGAATTAAAAAAATTGGCAATAAAACCAAATATAGTAAAAGAAGTAGCAGATAAATTAAAAGTGGTATATACTCCACTTAATGGGACAGGAAATGTACCAGTACAAAGAATATTAAAAGATATAGGATTAAAAAATCTATATGTTGTAAAGGAACAAGAGATGCCTGATGGGAATTTCACAACAGTAGGATATCCCAATCCAGAAGATCCAAAAGTATTTAAATTAGGGATAAAATTAGCAGAAGAAGTAGGAGCTAAAATCATAATGGCTAATGATCCAGATGCAGATAGAATAGGAATATCTATTAAATCAAAAACTGGGGAATGGATATATCCAAATGGAAATCAAGTAGGGATATTGTTGTCTGAATATATTTTAAGTAATATGAAAAAAATTCCAGAAAATGGAGTTATAATATCAACAGTAGTATCTACTCCAATGTTAGATAAAGTGGCAAAAGCTTATGGAGTAGAAGTAATAAGAACTTTAACAGGATTTAAATTTATAGGAGAAAAAATAAAAGAATTTAAAGAAGGGAAATATGATAAAGAGTTTATATTTGGATTTGAAGAAAGTTATGGATATTTAAGAGGAACTCATTCAAGAGATAAAGATGCTATAGTTGCAACAATGCTTATAACAGAAATGGTAGCATATTTTGAAAGTATAGGAACAACAGTTGAAGAACAAATTGAAAAAATGTATGAAAAATATGGGTATTACAAAGAAGGAATAAAAGCAGTAACTATGCAAGGAAAAGAAGGAGCAGAAAAAATAGTATCGATAATGAAGAATTTAAGAGAAAATTCTCCAAAAGAGATTTTAGGTAAAAAAGTTAGAATATTAAATGACTTTTTATTACAAAAAGAGAAAAATTTAATAGATGGAACAGAAAAAGAATTAATTTTACCTAAATCAAATGTATTACAATTTATATTAGAAGATGATACATATATTACAGCAAGACCAAGTGGAACAGAGCCAAAAATAAAATTTTATTTTGGCGTAAATGCGGATACAAAAGCTGGGGTAGAAGAGAAGTTAAGTAGCGCAATGGAAGATTTTTTGAAGATTGTAATGTAATTAAAGGATAATATGGAAAGCAACTGCTAGATTTGGCAGTTGCTTTTTTTGTGGAATTTAAATCTATAGTTTTTGGGGAGAGTTTATTTAGAGAAAAAATGAAATGTATATTGAAAAAAATAGTTTGTTATGATAAAATATATGTAGTATTATAGTAATAGGATAATTTTTTACAAGATTAAAACTATTAAAAAAGAACGGCTAAAAGTAATTTTCTCATTTTGTTTGAAAAATATGAACATATTTATAGGTTCCTTCAAATGGTTTTGTCAAAATTATTTTTTAATAGAACTAATAAAATTATAATAGTTGATTTTTTTATTAATATCTAACATTCTTTAATATCATATTTTTTAGATATATATTTTCTTTTTAAATAAATAAAAAATTAAGTTAAAAAGTAGTAGAAATATAAAAAAATATTAAATTTTGTAGAAAAAACATTCTATATATAATGAAAATATAAAAAAGGAAGAAGATATGAAAGGGAAAAAATTTCAATTGTTGAGTTGTACAAATTAGGGTAGAGTATTTTTATAAATTTTTATTTTCTGAAAAATTTTGCTTTGAAAAATCGCATATTAAAAAAACAGCGTAGTTTATTTTCTGAACAAATGAAAAAGAGATAATAGATATATATGTAACATTAACAAATGTTGAAGAAACATTTATATTTTTCAAATCAGATTTGGGAATGAGAATGAGATATTATAGAAAAGATAACAGAATAGAATCACATTTATTTATAACGATTTGAGCATATCATTTACTAATAGCAATAGAATATCAACTAAGCGCAAATGATATCAAACATAATTGGAAATATATAAAGAAGGAATGGTGTATCAAGTAAGAGTAACAACTGGATTTTTAACATCAGGAGGAAAAGCGCTATATGTTAGAAATAGATTTAGAGCTAATGAATTTCCAAAAAATCTATGCAGCATTAAAATTAGAATCAAGACCAATGAAGTCAAAAGTGTAATTATATAAATTTGTAGTGTTGAGAATTTTATTACTTATAATATTCTCGATGTTTTTTAGTGGCAAATATGAAATTCGGGTTAAAATTATAGAATAAATATTTAAAAAGGAAATTAAAATTATATTTAAAAATTTAGGAGGAGAAATTGAAAAAGATAAATAAACTAATAGTGATTATTATAGCTATATTATTTGTAGGGTGTTCTACATTAAGGCAAGATGTTAAAGATATAAAAAAGAAAAATGAAAAAGTTAAAATTGATAACAAAAAAGAAAAAATAAAATTTTATTCTAGTGAAAACGATTATTATAATGAAGGTAAAATTGGTGAATATAATTTAATAAAAAAGAATGATATATATTGGATATCATTTAGTGAACTTAACAATTTATTAATAAAAGCAAGAATTAGGAAATACGGAAATGATAAGTACATGGCTTATGGTAGAAAGATTATAATAGAGAAAGAAATGAATGTAGTAAAATTAGAAACTAGATATATTATAAATGATATAGTTATAAATAATTATGATATCGATTCAAAAGAAAATTTAATAATGAAAATGAAAAAAAAATATCCTGAATATAATATGACAAGTTTGGATATAAATAAAGCGGGATTTAATAAATTTGTTTATAAAGCAGAAAATTTATCGAAAGAAAAAATAGAAGTAAGGTTCGATTTAGATAATAGACGAGCTATAAAGAATGAATATAAAATTTATTCATTGAAAGAACTTAATCTTAAGTTTTTTAAAGTTAATAAAGAATATTATTTTCCGTTATTTTTAATAGGTGAAATATTTTTTAATGATAATCTTTATTTTGTTCATAACAAGAATAAAGTCAACATTTATAAAGGAACTAATATAGATCAATTAGGTCAAAAAATACTACCCCCTATTAATAAAGAATCAAGTTTAAGATTGAGAAAACTATCTACAAATTACTTATTTTATCTATTAGATAGCTATTATCCTAATAAAAAGATAATAGCAGAATTAAGAAAAAAATATATAGAGAAAATTAGAATGAGTAAAGATAATAATAGTTATTATAAAGAAATAAATAAAATGTTTAGTGAACTAAATGATTGGCATACAACATTAGTTAATCCTGTGTATGATTTAGAGTCTGTTCAAATTGAGGAATCGAAATATTTGAAAGCGGTTACAGAAGAAATTCCTAACAAAAATATTAAAATGAATAAAAAAATAAATATTAAGATGAAAGATGTATACAAAATAAGAAATAAATATCCATATGCAGAAAAATATATAAAAGGAAGGTCAAAAATTAGTTTCACACAACCAGAAGAAGGCACATTCGTAATAAAAATTAAAGATTTTAAGCATATTGAAAATTTTGAGAAGGTTAAAAAAAAGATAGAATATATTTTTAAAGAAATAAATAAAAGAGGTATAAAAAATCTAATTTTTGATTTAAGAAATAATCCAGGAGGAAGTCCTGATTTGGTTGAAGAAATGCTAAGTTATTTAGGGAATAAAAGTATTAATATATACTATAAAGGTCAAAATATCTTATATAAGGAAGAAGTTTTAACAAAAGATAAGGATAATTTTATGGGAAAAGTAGTAGTTTTATCAAATAAAAATGATTATAGTGCTGCAAATTATTTTATTCTAATAGTTAAGACAAATAATTTGGGTAAAATTATAGGAGAAAAGAGTCATGGAGGGGCACATACTCCAAATTATTATATATTGCCTGATAATACAGTGATTCATATGTCAAATGATTGCATAGTTGATACAGATAAATTTGGGAATGACTTTGAAAAAGGGGTAGAGCCAGATATATATGTAGAAGAAAATTTTAAAGGTAAAAATGATGACATACTAGATGCTGCATTAAGATATTTAAATGAAGAAGAGAGAGGTAGATAGTGAAAAAAATTGAGACTTTAAAGGATATATTCAAGTTTTTCCATTATTTACGACCATATTTAAAAATATTACTGTATATGTTAAACTAACTTTTAGTTTAACATATACAGTAGCTGTCAATTAATCAATTCATCTAGCTTTTTTAATTTATATTTTTCTAATTTTTAATATTTACATCTGAACTGTAACTTTATTTAGAGAAAAAAATAAAATATATATTGAAAAAAATAGTTTACTATGATAAAATATATACAGTATTATAGTAATAGGATAATTTTTTACAAATTTAAAACTATTAATAAAGAACGGCTTAAAAGTAATTTTCTCATTTTGTTTGAAAAATATGAACATATTTATAGGTTCTTTCAAACAGTTTTGTTAAAATTATTTTTTAATAAAACTATAGTAGTTCATTTTTTTATTAATATCTAACATTCTTTAATATCATATTTTTTAGATACATATTTTTTTTTAAATAAATAAAAAATTAAGTTAAAGAGTAGTATAAAAAGTAGTGGAAATAAAAAATATTAAATTTTGTAGAAAAAATATTATATATTTATTTGGAAATGCAAAATAAAAATATAACAGGGAGGAAAAATGGAAAATAAAAATATAGAAGGAAAAAAATTTGAAAAAGTAGAAGTAAAAGAAAATAAATTAAAAAAAACTATTGAACCTTCAGGAGCTTTTGTAGGGGCTTCTTGGGTAGCTCTTTTTTCTGGAATTATTGCTTACTTGATTGGATTATGGAATGCTACAATGCTTTTAAATGAAAAAGGATATTATTTTACGGTATTAATGTTTGGGCTTTTTTCAGCAGTATCTTTACAAAAGACTGTTAGAGATAAGGAAGAGGGGATTCCTATTACGAATATTTATTATGGAATTAGTTGGTTATCCTTGATGACATCTATAGGATTACTTTCTATTGGCCTTTGGAATGCAGGACTTACAAAAAGTGAAAAGGGATTTTATGCAATGGCATTTATATTAAGTATATTTTCGTCAATTGTTGTGCAAAAAAATATAAGAGATACAAATTCTAAATAAATAATTTACACTTTAATCTGAAAGAGTATAAATATTTTTTTGAATTTTTGATTTCTGAAAAATTTTATTTTGAAAAATTAAATATTCCAAAAGGATATAAAGTAAATCATTCAATTGCATTGTGATATTCTAAAATAGAAGCATTAAATGTTCCTAAAAGAAAAGAAAATTCTTACACTATTATTAAATAAGAATTAATATTTATAATGTACTTTAGTGAGTGAAAGCGCAATCTATTTTACTCAATAAAGTACTGTTTTTTATTTTTTGAAATATGGTATAATAAAATGCAAAAAAAATATTCCATATATTAATTTCAGATAAAAAATATTCTAAAATAAGCTTAAAAAATAGATTAAAGATAATTTTTTCAAATATTTTTATATTAATCATTTGCAAACCATATCATATACAAAATATATGAAATTATATATACTATATATTTGAAAAAAATATGTCAGCGTGATAAAATATTTAAAAATACTATAATAATAGTACAATTTAAATCGAAAGGAGTATGGAGAATGTATAGAAAAGTTGTGGATTATGCAGAACAACCGTTAGAAAAAATGTATGGAGAAAATTCATTTAGCGATGCTAAAATGAGAGAAAGATTACCTAAAAGTATTTACAAAGAATTTAAAAAAGTGCAAAATGGAGACAAAGAATTAACAATTGAGGTAGCAGAAGTTTTGGCTAATGCTATAAAAGATTGGGCAATTGAAAAAGGGGCAACTCATTACACACATTGGTTTCAACCATTAACAGGACTTACAGCAGAAAAGCATGATTCTTTTATATCACCAACAGCAGATGGAAGCGTTATATTAGAATTTTCTGGAAAAGAATTAATTCAAGGTGAACCAGATGCCTCATCATTTCCTAATGGAGGATTAAGAGCAACATTCGAAGCAAGAGGATATACTGCTTGGGACGTAACTTCTCCAATATTCTTAAAAGAAGATAATACAGGAATTACATTATATATACCAACAGCATTTATTTCTTATACAGGAGAAGCTTTGGATAAAAAAGTTCCATTATTAAGATCTATGGATGCTTTAAATAAACAAGCTATGAGAGTGTTAAAAGCTTTAGGAAATAAAGATTCTAAAAAAGTAATAACAACAGTAGGACCAGAACAAGAATATTTTTTAGTAGATAAAGAATATTTTGAAAAAAGAATGGATCTTGTGCTTGCAGGAAGAACTGTTTTTGGAGCAATGCCTCCAAAAGGACAAGAGATGGATGACCATTATTTTGGACAAATAAAAGATAGAGTAGCAGCATATATGAGAGAGCTTGATTATGAATTATGGAAATTAGGAATTGCAGCAAAGACAAAACATAATGAAGTTGCTCCAAATCAATTTGAATTAGCAGTGATATTTGGGACTACAAATGTTGCAGCTGATCATAATCAATTAGTTATGGAAACAATGAGAAGAGTGGCAGGAAGACATAATCTTGTAGCTTTATTACATGAAAAACCATATGCAGGTGTAAATGGATCAGGAAAACATAATAACTGGTCAATGGCTACTGATGATGGTAAAAATTTATTAGAACCAGGAAAAACTCCACATGAAAATATGCAATTCTTATTATTTATGACAGGAGTAATAAAAGCTGTAGATAAATATGCACCAATGTTAAGATTATCAGCTGCTAATGCAGGAAACGATCATAGATTAGGAGCTAATGAAGCCCCACCTGCAATTATCTCAATATTCTTAGGAGATTTATTGAGTGATATATTAGAAAAAATATCTAATGGAGAAGCTGCTAAAGGAAAAGATGGAGTAAAACTTGAATTAGGAACTGACTCATTACCAAAATTACCAAAAGATTTAACAGATAGAAATAGAACCTCTCCATTTGCATTTACAGGAAATAAATTTGAATTTAGAATGGTTGCAAGTTCAGATTCAATTTCTGGTGTAAATGTTATATTAAATACAATGGTTGCAGATGTTTTAAAAGAGTTTGCAGATGAATTAGAAAATGCAACTGATAAAAAAGCAGCTGTAGAAAAAATTATAAAAGATGCTTATTCTGCACATAAAAGAGTAGTATTTAATGGCGATGGATATGCAGAAGGTTGGGTAGCTGAAGCAGAAAAAAGAGGATTACCTAATTTGAAAAGTACAGTAGATGTATTGCCAGAAGGAAAAACTAAAGAAGTTATAGATTTATTTACAAAACATGGAGTATTTACAGAAGAGGAACTTGTATCAAGATTCTATATTTATTCTGAAAAATATTCTCAACAAATAAATATTGAAGCTAATATAATGGTTGAAATGGCTAATATGCAAATATTCCCATCTGCTAATAAATATGCAAAACAATTAGCTGATACTATAAAATCTGTAAAAGAAGTATTATCTGATGCAGATACAGTAGAACAAGAAAAATCATTAAAAGCTGTTTTAAATAATATAAAAGGATTAAAAGAAGGAATAGCTGAATTAGAAAAATTAATAATTGATGCTCAAAATACAGAAGGTGAATATGAACAAGCTAAATTCTATAGAGAAAAAGTTTTAGCTAAAATGGAAGAAGCAAGAGTTTATGGAGATAATTTAGAAAAACTTGTAGAGAAAGAATTATGGCCTTTCCCAACTTACGAAGATTTATTATTTAGATTATAAGAATTGAAAATATAAAGAAAGCTTTTAAAGGTAAACTTTAAGGGCTTTCTTATATTTGAAATATTATTTATAAATAAAATAGGGAGGTTTAAAATGGGCAGAAGATTTTACTTGTATATTTTAGGTCGATTAGTATCTATAATTGGAACAGGAGTTCAAATGCTTGCATTGCCATTATATGTTTTAGATATTAGTAAGTCGGCAGCGGTTATGGGAGGATTTGTAGCAGTTACAACTTTACCATCAATAATATTTTTACCATTCTTTGGAGTAATAGCGGATAAAAAAAATAAAAAAAACATAATGGTTTTATCAGATATATTAAGTGGAATAACAACTCTGTTTATGTTCTTGACAATTTTTTTTAATTTCAATTCTATTTACATTTTAGGATTTTTACAAATGATATTATTATTAATAAATTCATTTTTTTATTCATCAACAATGGCATTTTTCGGAGAAATTGTGCAGGAAAAAGATTTACAAAAAGCAAGTAGCATTTCGGAAACAAATAATAATATAGCAAAATTAGGTGCTCCTTTTTTAGGGGGAATTATATATATGGCATATGGAATAAAACTTATCTTTTTAATAAATTCAATTTCTTTTTTTATTTCAGCATTATTGGAAAAATTTATAAAATACGAATTTAAAAAAGTAGAAAATAATAATAAATTAAAATTAAAAAATTTTATTGAAGATATAAAAGAAACGTTGATATATATAAACTCTTATTTGGATTTAAAAGAAGTAGTAATACTTGCTATATTTTTAAATCTGTTTGTCATGCCACTTTTTTCTGTTGTTTTACCATATGGATTAAGGGTTGTTTTAAAAGTTAATTCGTCTGAATATGGTATAATAGAAACAATTTTTGCATTGGGGACTATTGTAGGGAGTTTAGTTTATGGAATGTTAAACAACAAGGTTAAATTTAAAAAATATTATTTGTTAGGAGCTTTTTTCATTATACTTTTTATATATGGAATTTCATTTAATATTGGAATAAAAAATGTATTTATGCTTTCTTCTATATTTTTTATGATTTTTTCTTTAATGATTACAATTATAAATTTACCATTAATGGTAGAATTTCAGAAGTTAGTAGATAATAAAATAAAAGCTAGATTTTTTAGCATATTTATGTTTTTAAGTCAAATATTGGTTCCACTGACAAGTTATCTATTTGGGTTAATGGTATCAAAAATAAATATTTATCTATTTATCTATTTTATTTCAATATCTTCTATAATATTTCTATTAATAATGAAAAAAAGATATGAATTTATAAGGAAAATTGAGATGTTAAAAATAAATAAGGAATATTGAAGAAATAAACTTGTAAAACCTTTGCTATTAAATATATTTAATAGCAAGGGCTTTTATATTGCTTTGATAGCATATATATATAAACGATCCATTAATGTGAATATTAATTTTCAAACAAAAGTTATTGACTTTCCATGGAAAATATAATAATATTATTTTAGAATAGAATATATAATAAAATATAAAAAAATTATTTTTTAACATTCTATGAAACATTAAAGTTATAGATATTTTGAATATAGGAGATGAATGTTATAATGGAAAAATTTGAAATAAAAGGTATTGATGGTAATAAAATAAATGTGTATAAATGGGTACCAAAAGGAGAAGTTAAAGGAGTGGTACAAATATTTCATGGTATGGCAGAACATGCACTAAGGTATAAAAAATTTGCTATATTTTTAAATGATAAAGGTTATGCTGTATATGCAAATGATCATAGAGGACATGGAAATAGCGTAGATAATATCTCAGAGCTTGGAAGAATAGGTGAAAATGGATTTTATGGAATTGTTGAAGATGAAAAAATATTAATGGAAAAAATAAAGAAAGAAAATTTAGGATTACCAATAATAATATTAGGACATAGTATGGGTTCTTTTATAGCTCAAGAATATATTACAAAATATGGAAATGAAATTAGTGGAGTTATACTTTCTGGAACAGCTATGAAATCTGGAATGGATCTGAAATTAGCACTTATATTAGCAAAATTACAGATGAAGCTGTTTGGTAGATATAAGCCAGCAAAATTTATAAGTAATTTAAGTTTTGGAAGTAATAATAAAAAAATACAAAATGCAAAAACAAGTAATGATTGGTTATCAAGAGATGAAAAAGAGGTTGATAAATATAATAAAGATAAATATTGTGGAACTACTTTCCCAATAGAATTCTATTACGAATTTTTTAAAGGATTATCAAAATTATACGAAAAAGAAAAATTAAATCAAATTCCTTTAGAGTTACCAATATATATTTTTTCAGGAGATGCTGATCCAGTAGGGAATTATGGGAAAAGTACAAAAGATTTATATAATTTATATGAAAAATTAGGCTTGAAAAATTTAGAAATAAAATTATATTCTGGCGGAAGGCACGAAATGTTAAATGAAAAAAATAGAATGAAAGTTTATGAAAATGTGTACAATTGGATAAGGGAAGTTTAATTTTTTTTAGATTTCCTTATGAAAGAAGTTATTTTTAAAAATATAAAATAAAAAGAGTATAGTGAATGACTTTAGTTGGGCAGTTTTTTTACCCCTTTCAAAGAAAGCTTTTGAGAATTATTTTTAATATAATTTTTTATGTCAATTTTTTCTACAAAAACTTATAACTATTGAAATAAATTTACTATTGACTTTTTGTATAAAAAAAGATACAATGTGTAAAAATAAAGGACGGTTTTGTGAGGGGTTTAATATTATTTTTTCTTTAAAATCATTTTATAGAACAAGATTGTATCCTAAAATAATGGGAGAACAAATGTTAAGAAAGGTATTTTTTATATTTATAATATTTTCCAATTTCACTTTCTCTTATGAGTTGGTTTTAAAAAATATTGATTATCTAAATTATAAATCAAATAAAATTAAAGGGTATAAAATTGAAATAAATAGAAAGAATGATATATACATAAAATATTTATGTGGTGGATATTCAAATTCGGCTATTAATGATAAATTGAATTTAGATATTATGCATGGGAAAGTATATTTTTTTGATATGAAAAGATTAGACATAGATAGTAAACAAATAACATTTTTAAATGAAAAATTTAGTTTTATAAATCAAAATTTAAACATATATGGTGTGAATTTAAAGAAATACTATATAAGTTATAAATTAAGATATATGAATGATAATTTAAAAGTAGAGAATAATAAAGGAAAATTAGAGTTTAATAAATTAAATTATATAAATAATAATTTAAAAATAAGCATATTAAAATTCAATTACATTAATATAAATTCAAGATTATTAATAAATAAAATAGATATAGGGAATATAAAAGTAAAATCATACATTTTAAGTTTAGAAATAAAAAAAGCAAATTTATTTATTGGAAAATTTGAATTAGATAGTAATTTAAAAGTTGATAATAATTCTTTGGGAGTTTTAGGATTGGGTAGAACATATAATTTAATAGGGAAAGAAGAAATCTATACTTTAGGGTTTAAAATTAAAAAAAATCTTTGGGATTTAAAAATAGATTTATTGACAGGGATATTTATTAAAGGAAAATATAATGAATGTAATATAAATAGCAAGATAATAAAATATATATTTCCATTCGATATAAAGGTAGAAAATGGTATAGAGAAATATTATTTAGATATTGATAAAAAGATATATGGAATAATAAGATTAAACTATGAAAAACATTTTAAAAATAATATAATTTTAGGAGTAGAAAAGTTTATGCCATATATTGGAAGTATAAACTTAAAAAATGTTATTAATAAAAAAGAAGAAGAAAAAAATCATAAATTTAAAATTAATAAATCTGAAATACTTGATTATTTAAAAGCAGGAAACAGTATATATATTAAAATAAATTTTTAGGAGGGAAAAAATGAAAAAATTAGTATCGGCAATTTTATTAGGAGTGATGTTATTAACAACAGGATGTTTTAGTGAGGCGACTAAAGAAGAAGATTCATCAGAAGCAGTACAGGAAACACATTTACAAAATTCTGAGCCAAAAGAGGTAGTTTTAAATTTCAATCAAGAAGATAGTACTAAAATTAGCAATATGATGGAAGAAAATAAAGATATATTTTCTTTGGTGGAAGGAATCAGAAATGAAGGAATACTGAGTGAAAATGCCACTATAGGGTATGTAGAGGATGCAATTTTATCTTTCAAAGGAGTTGAAGATGAATTTAATATATCATTTGATAATGGGGGAAATATTTATAATAGTTTAAAAAGAGGAGTAAAAAGAGTAGGAAATAGTGACGTTAATCTAGAAGATATGAAAAATCAAATAAAAACAAAATTATTGCCAAAACTTGATACTGCGATATCTAAGTTAAAATTGGCAGTAGAAGAAAATCAAATAATTGTTATAAAAATTGGAGAAGGAAGTTCTTCAAAAGTAAAAATATATCCAGCACATATATTAATGCTTCAATCTATTTTAAGAGGATATAAAGGGTTATTAGAATATATTTGTGCTTATGATCTTAATATTACAGAAGATCAAATGTCAGAATTTATGAATAAGATGAAAAATATACCAACAGATAAAGTAGTAAGGGTAGGAGATTATATATTTAATAATTTGCCTTCAAATTTATTAAATATAACTGATAAAAGTTATATTTTAAAATCAAAAGAGAGTTTTAATACGGCATTTAACGAATTTTTAGAAGCTATAGATAATATTCCTACAGGAGATCTTTGGAAAATTGACTTGGCTACAGGGAAATTGGATATAAATGAAAATCATGTTTTTTCAGAAGGAGAAAATATGGCTGTACTACCGTTAAATCTAATAAATGAAATAAAATCTACAGTAAAAGAGATGAAAGCTGTTATAACTGGAAAAACAACAGTAAATATAATAGGAGTAAAAATAGATATGGATTTAAGTGTAATATTTAAGTCAGATTTTGCGGTAAAAGATATTATTAAAAGAGTATCAAATTATTTTGCATATACAAATAATGTAAATGATCAAAATACAGAAGCTTTAGCAACAGAAACTTTAGGAGGAGTATTTCCTAATGGACTAAAAGCAGTAGTTGAGAAGATACTTTTAAAGATAAATGATCCAAATTCTGGTGATCCAACTAATTGGGAACAGTTTACTGAAAGGATTAATGCAGATTGTATAAATCCTAATAATTCAAAAGATACTGCAGATTTATCTTCTGGAAAATATGAGTTAAGTGATGTAAAAAAAGGGGATATTTTTAAAATAAAAGGTGTAGCAGAAAATGAAAAATATAAAATTTATGTTAAAGAGAAAAATGTTAGTTATTCTTTAAAAATAGAATTTTATAATAAAAATGTTATAAAGCTGAATGATTATACTTGGTTTGATGAAAGTTATGGTTATAATTATGATTATTACTATCATGAGATAAATGAATTTTCTAAAATTGGATATTTAAAGATAGGAGATTTAAATATGTATGATAGCAATAGTGTTACTTTGATTATAGAAAAAATGTAAACTATGGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAATATTGCGTATTTTAAAGCAAAATGGGAATGTTATTTTTAAGTCATTCCTTGATAAAATTATTGTCTAAATAATTGTGATTTTATATAAAGTATAGGTAAAATTAATTTACCTATACTTTTTTTATGTTTGTAGGAAAGTATAAATTTATTCAGAAAATAATCTACGCCATTTTTTGAAATATGCGATTTTTCAAGGCTAAATTTTTTAGAAGCCAAAAATTTTGAAAAATATTTATGTTCTACCAGATGAAGCGTAGCTTATTTTTTTATTATGGATAAAATATTTAAAAAAATAAGATTTTGAAACCTTTTTTTACAAAAACTTTATATCTATACTTTTTATATAAATACATGTTATAATTAAGAGAAATTAAAACATACAGGAGATGAATAATATTATGGAAAAAATAACACTTATAGCATCAACAACAATGGGTCTTGAGAGTATTGTTGCTCAAGAACTAAAGAAATTAGGTTATAAAGATATAAATACATTAAATGGAAAAGTTGAATTTACTGGAACATATAGAGATATTTGTAAAGGGAATATTAATTTAAGATGTGCAGATAGATTATATGTGAAAATGGGAGAATTTAAAGCTACAACACAAACTGAACTTTTTGATGGAATAAAAAATATTGGTTGGGAAAAAATTATGCCTATAGATGCAAATTTTCCAATAAGTTGGATTAGTACAGTAAAATCTGAATTAAATAGTGAAAGAAAATCCCAAGCTTCAATAAAAAAAGCAATAGCTACTAGATTAGAAGAAAAATATAAAACAACAGAGCTTTTAGAAAGAGGAGCTAAATATGCTGTGAAAGTTCAGATAAATAAAAATAATGTAGTAGTTATGATTGATACAAGTGGAGAAGGATTAAATAAAAGAGGATATAGAGCTATTAATAATCTAGCTTCAATAAAAGAAACACTAGCAGCAGGATTAGTGCTTATAGCAAGATGGGATGGCTATAAACCACTAATAGATCCTACTTGTGGGACAGGGACTATATTAATAGAGGCCGCTATGATAGCAAGAAATATTGCACCTGGAGCGAATAGAAAATTTGAATCAGAAAAGTGGGATGTAATTCCAAGTGAATTTTGGATAGAAGAAAGAGATGAGGCTTATTCCAGAGAAGATAACGATAAAAAAATAGAAATATATGGTTCCGATATTGATGGAGAAATAATTAAAGTAGCAAAAGAAAATGCTAAATTAGCAGGAGTAGAAGATGATATAGTATTTGAACAAAGACATCTATTAGAAGTAGAAAATTATATTAAAGCAGAAAAAGGGACAATAATATGTAATCCACCATATGGTGAGAGAATGGGTGAAAAAGAGGATGCTATAAAAACAACTAGAATTTTAGGAGATGTCTGTAGGAGATTTCCTAAATGGAATTATTATGTAATAAGTTCATTAGGAGCAGATAGACATAAAAATGGAATAAAATTTGAAGAAATTTTTGGACAAAAATTTGATAAAAACAGAAAATTATATAATGGTGGCATAATGTGTTATTATTATCAATTTTTTGGAAATAGAAAGAATGTTTTTGTTAAAAATAGATTATAATTTTTAAAAAGGGACTAATTATATTCTATTTTATAATAGATTAATTATCAATTGTTATTTTTGTATTGTAAAATAATCAGAAAATTTTAGCCACCAATCTACATTAATATACACCAATAATCAATCACGAATTAATGCTGTTTTTTAAGGCAAAATTTTTCATAAGCCGAAAATATTGGAAATTATTATATATATACATAAGGAGATTTTAAATGAAAAGAAATAGAGGATATATATTAATATTAATTTTATGGATAATTGTTATTTCTAATATTATATTTTTATCTATGTATAATTCTATTTTGTTGGAAAATAAAATATCTTTAAATTATATGAATAAAAAAGAGAATAATCAAATTTTTTTATCAGGTTTAAATTATGCTATAGCAATTCTAAAATCAGATGATAATAATTTTGATTCTTTAAATGAAAAATGGGCAAAAAAAAAGAGGTTAAACTATTCTGAGTATTCATATGATGTATCTATTTCAGATCTTTCTAAGATTAATATTAATTATACTAATGTTAATATATTAAAAAATTTGAAATTTTGGAAAAAAGAGAGTTCAAAAAAACTGAAAGACAACAGGTTCTTAAAAAATAGTTATGAGATAAGTATGCTTTTTCCTAAAAACTTTAATTTTTTTACTATTTATGGGGAGTTTAATATTAATTTTGATTCTTTGGAATCTTTAAAGTTACTGCTAAAAAAACTAAAACTAAATGAAATGGATATTAAATATGCTATTACTTTAATTAGTAAAAATAGAAGCAATAGCAATATAAAAGATTTAAAAGAGCTAAGAAAAATTTTAAAACCACTTCATTTAAGTGATTCTTTTTATGAAAAATTTGAAAAGTTTATAACTTTTTCTGGAAATTTTAATATTAATACTATTTCAAAAGAAAATTTTGAACTATTATTTAAAAGTAATGCGTTATTACCTCTTTCATCATATAAAAATAAAATATGGGATTTTAAATTGAATAACTCTATAGAAAAAATAAAAGATTTTGATAATAAATTTATAGTTCCGATTAAATATATTAATTTATTAGAATCTGTTTTTTCAGTTAGAACAAAATACTATTTAGTAAAAATTAATTACAATAATAATATTGCAACTGCTGTTTTGAGAAAAAAGAAAATTAAGGATAAAGAGTATGAAATATCTATTTTAAATTATTATCAGGAAAAATAATATATTTTTAATGTTTATCCTCATTATTATATGAATTGTTAATTTTATAATAAGTGAAGAGCTTTTTTTTAATTAAATTTAACTTTGTTTATTAAAACTAAAAAAGATGGCATTATTGCCATCTTTTTTAGTTTATTTTTTTTGTATAAATGGAATATTATTATCTTTTGCATATGTTTCTGCATAAGAACCTGCAAAACTTTTTATTGTTATATTTGGATTCCTTTCGAAAGCCCAAAAGCCAATAGAAGTAACAGAATTTCCCATAGTAACGTTAGTTAATTGGTTATCAGAAAAAGCTGAATATTTAATAGAAGTAACAGAGTTTCCAATATTAACGCTAGTTAATTTATTATTTGAAAAAACTTCTTCGTCAATAGAAGTAACAGAACTTCCAATAGTAACACTGGTTAATTGGTTGTGATAAAAAGCTTTTTTTCCAATAGAAGTAACAGAATTTCCTATAATAACATTTATTAATTGATTATTAGAAAAAGCAGCTTTTCCAATAGAAATAACTGAATCTGGTATATTAACACTAGTTAATTGATTGTGATAAAAAGCAGAATCTCCAATAGAAACAACTGAATTAGGAATAATAATATTATGTAATTGGTTATAATAAAAAGCTCCTTTTCCAATAGAAGTAACAGAATTTCCAATAAAAACATTAGTTAATTGATTATTAGAAAAAGCTTCTTTTCCAATAGAAATAACTGAATCTGGTATATTAACACTGGTTAATTTCTTATCAAAAAAAGCTAAATTTCCAATAGAAGTAACAGGAATACCATCTATTTTATTAGGAATAAAAATTGATGTATCAGTTCCAATATATTCTGTTATAGTAATTTTATTGTTGTTATTTTCATATTTAAACTCCTTGCTATCGGTAGCTTTTAAATATTGAATATCAAAAGAGGTAGTTTTACTATTAAAATTAATAGTTAAAGTTTGTTTTCCAAGAATATCAGAATGAAAACCAGTAATATTATTATTAGTAATATTAATAACTTTAGTTGTTTTATCAGAATAAACTCCAGTAACCTCCAATCCACTAAGATTTAATTGTTCTCCTTGAAGATAATTAAGTTTATTAGCAGGATGTGTAATCGTAATTTCATTTAAAGAATCCTTTTTGATTTGTGTGTTTTTAGAAAATCCTGTAAATATGAACGAACTTAAAATAGCTAATACTGTAAAAATTTTTTTCATTTTTGCACTCTCCCTATGATGTTTTAGATTTTAAAATTTTTTTAAAATTAATTTAAAAAAATTTTAGAAAGATATTATACACTATTTTTTAATATTTTAAAAGATAAAAAATATTTTTTTTTAGTCATAAATAATAATAAAAACAACAACTACTTCGCTTTAGGTTAGAGCATAGATTAACCTTAGAAGATAAAAAAATAACCAGTATCTTGTTGACAAAACAGAAAAAAAGAGATATACTACTAGAAGTGGTATATACAATATAATGATAAGTGAACATATTCTGTGAATGCGAAATTTCAAATTAAATTAAAAAAACAAAATTAATATAAAAAATAGAATGAAAGATTATTTTAGAATTCAATTACATAAAGGATAGTTTTATACTTTTTTCAAAAATTAGATTAATAAAATTATAATTTTGGAGTCTATTCATATTATATAATAATTTTTTAGAGAGATAAAAGAGTAGCTTTGGAAAGTCAAAGCTCTCCGAATACTTTTTAAAAATAATAAAGTAAAAAAGATTTCTCTGGAGAGTTAGAGGAGAAATTGGAGGTGATTATAGTGCGGCAATTCTAACTATATATAGGAAATTTAGGAATGGCTTAAAAATAATCTTCTGATTTTATTATAAAATACGCAACGATTTAAGCGTTTTTATAACAAAATACAATAAACTTATTTTTTAAACGTTCCTTAAAATGTTAGATGCTTTATAAGGGTATGTAAGAAAAAAAGGAGGGAAAAGAATGAGTAGATGTTGGAAAGAGTTGGTGAAACTATTATTGTTTACAATTATAATAGTACCAATAACAGCTCAAAATGGAACTGTTTCAGACGTTAAAAATGATGGTATGCAGAGAAGAATTATAGGGTATTTTTCAGAGTGGCGACCTAATGATTACACAGTAGCGGATATACCATGGGGAAAAATTACCCATATAAATTATGCTTTTGCAAAAGTAAATTCAGAAACTAATAAAATAGATTTTTGTAATAAAAAAGATGCTATAGAATTAGATTTTCCAGGGCAAGATTTAACATTGCCATACAAAGGACATTTTAATTTATTGACAGTTTATAAAAGAAAGTATCCTAAAGTAAAAACTTTAATATCGGTAGGAGGTTGGGCAGCTGCAAAAGGATTTTATACAATGAGTGAAACAGAATTAGGAAGAGAAACTTTTGCAGATAGTGCAGTAGAATTTATAAGAAAATATGGATTTGATGGAGTTGATATTGATTATGAATATCCAACAGCAACTGTTGGAGCTGGAAATCCAGATGATTTTGATGTAGCAGAACCAAGAAGAAAAACTTTATATCAAGATTATGTTAAGTTAATGAAAGTGTTGAGAGAAAAGCTTGATGTTGCAGGTCAAAATGATAATAAACATTACTTATTGACAATTGCAGCTCCTGCATCATCTTGGATTTTAGGTGGAATGGGATTAGGAGATTATGCTCAATATTTAGATTTTATAAATATAATGAGTTATGATTTTCATGGTTCTTGGAATGGATATGTAGGGAATAATTCAGCTCTATTACCAGATGATAGAGATCTAGAAACAAAACCATTAGGGACTCCAGTTTTAAATATAGATTGGTCATATAGATATTTTAGAGGTGTAGTACCACCATCAAAAATAAATATAGGAATACCTTATTATACTCGTGGTTGGAAAAATGTTCAAGGTGGTATAGATGGGCATGGATTATATGGAACTGCTAAATTAGGCTCAGGAGGAGATGGAGCTGTAGGAATAGACAATGTTTGGCATGACTTTGATAAAGATGGTAAAGAGCTGCCAGGTGGTGGAAATCCTTTATGGCATGTTAAAAATCTATTAGCAGGAAGACATGATTTTAGTTATATTGATCATCCTGTATTTGGAGGATTTGATCCGAATTATCAAGGAAATTACATTAGGTATTGGGATGATGTATCAAAAGTTCCATATGTGTGGAATGATGCGAAAAAAGTATTCTTATCATTTGAAGATGAGCAGTCTTTAAAAGAAAAAATCAACTATATCATTAATAAAGGTCTCGGTGGAATGATGATATGGGAGCTTGCAGGGGATTTTTCTAAAAAGGCAGATGGAGAATATTATATTGGAGATACAATGACATCTCTTGCTTATAATATGTTGAAAAATGCTCCAGCTCCAGATAATAGAATGTATACAATAGATATGCCTCAAAAAATAATGAATTTTGAAATTAAATTTTCATATAAATATGATCATCCAAATGCAACTTATGAGTTTTCTATTGTAAATCATACAGATAAAACAATAGATAAGGGTTGGGTTTTAGAATTTAATATGCCTACAACAACTACAATGAGTGAAGGAACTTGGAGTGGGTTAAAAGTAAAAGAGATTGGAAGAGGATATGATTATGTTAGATACAGAGTTATTGGAGATGCTTGGGGGACAGAGATTCAACCTAATGGTACATATACATTTACAGGTATGTCAAAACTTTGTTTTGCAGGAGGACCAAAAGCTGTAACATTAAACGGCTTTGCTTCAAGTTACGAAATTACAATAAAAGATACAGATGGAGATGGTTTATCTGATAATATAGAAGCAAAATTAGGAACAGATCCTAAGAAAAAAGATACAGATGGAGATGGATATACAGATAAAGAGGAATATGATAATGGAACTAATTCATTAGATCCAAATGATCCTAAATATTTTAATGTAACAATTTTATCAGTTGATGATAATGGAAATAGAATTGGAAAAGCACAATATGAAATTAAATCAGGAGAAAAATTTACTGTAAATGCATTATCTATTATTACAGATCCTAGTTTGAGTTTTGTAAAATGGGATAATAATTCAACTAATTCAGAAAGAGAAATTACAGTATTAAAAAATACAACATTAACAGCTACATTTAAAACAGTGATAATAAATTATATTAATATTATTACAGAAGCCCACGATAGGAATGGAAATGTAATAGGAACAGTTACTAAAAAAGTTAAAGCTAACGAAACAGTAAAAATAGATATAAAAGATTTAAAAATAAATTCAGAGTATAGTTTTATAAAATGGGAAGATGGAACATTATCAAGTATAAGAGATGTTAAATCTGACAAAGATTTGAAAATTGTTGTTTTATTTAAAAAATCTGATTCAGGAAATAGTGGGAATAATAATAAAAAAAGAATAGTAGCTTATTTTCCAGAATGGGGAATATATTCTGGGCATAATAATTATACACCAGCAGATATACCGTGGGATAAAGTTACTCATATAAATTATGCTTTTGCAACAATAAAAAATGGAGAAATAGCAGTATTTGATGATTGGGCAGCAACAGGAGTAAGTTTAGGAGAAGCTTGGGATTCACCTTATAAAGGGTGTCTAGGTCAATTTAAAAAGCTAAAGAAACTACATCCTAAAACAAAAACTATGATTTCAATAGGAGGATGGTCTCAATCTGCAAATTTCCATTTTGTAGCAGCAACAGCAGAATCAAGGGAAAAGTTTGCAGATAGTGTTGTGAAATTTATAAGAAAATGGGATTTTGATGGTGTAGATATTGATTGGGAATATCCAACATTTAAAAGAGAACCAGATAAAACTGATAATCCTAACGATCAAGGTACACCATATGCAGATGATACTGAAAAAGAGACATTTACTCTATTGTTGAAGAGCTTGAGGACAACTTTAGATAAAGCTGGATTAACAGATAATAAGCATTATGAATTATCTGCAGCAGTTGGATGTGGAAAAGATAAAATAGAGAAAACTGAACCTGCTAAATATTCTAAATATTTAGATTTTATAAATATAATGACATATGATATTCATGGTGCTTGGGATAAAGTTACAGGACATCAATCTCCATTATATGCAAATCTATATGCACCATACAGTGATTTAATAAAACAATATTATAATGTAGATGCTTCTATGAATCTTTTTGCAGGGTATGGAATACCAAAGAGTAAATTATTAGTTGGCTCTCCATATTATTCTAGAGGGTGGAAAGGTGTAAAAGATGATGGTCCAATAGATAGTTTGCCTGGATTATATGCAACTGCAACAGGAGGAGCAAAAGGGACTTGGGATGGAGGAGTGCCAGGAGGAATGAATCCATTTTATTATATAAAATCAACATTAGAAAAAGATAATTCATTTAAAAAATACAGAGATCCTTGGACAAAAATGCCTTATTTATATAGCAAATCAAAAGGGGAAATGTATACATATGAAGATGAAGAATCTTTGCAGACAAGAGTAGATTATGTAAAAGATAATGGGTATGGTGGAATAATTTTCTGGGAGCTATCAGGAGATTATCCATCTAAAGGAGGAACAACTCTTACAGATATAATTTATAATGGATTTAAAGATAATACACCAGTAGAAAAAGTAAAAATAATAGTGAAAACATCAATAGATGGAGTTTTAAGTGTAGTAAAAAGTGAAGATGTAATAAAAAATTCTGATTATGTTATAGATGCAGGGAAATTATCAGACATGGAATTTATAAAATGGGAAGATAATTCAACAAATGCAGTTAGAACATTAAAAGCGGATAGTGATAAAGAGTTGATAGCATATTATAAAAAAGTAGTTGTACCTGAAAAAGTAAAATTAACATTAAAGGCAATAGATGAAAAAGGAACACTATTAAAAACAGAAACAGTAGATGTAGTAAAAGATGCAGATTATACAGCAGATGCAAAACAACTGTCTGATTTAGAATTTGTAAAATGGTCAGATGGAGAAACATCTGCAGTTAGAGTAATAAAAGTATCTTCGGATATGGTATTGACAGCTGAATTTAAAAAAGTAGAAAATAATACAAATTATCCAGCTTGGGATTCTAATACAATATATTTAAAAGATGATAAAGTGGTACATAATGAAAAAATATGGCAGGCAAAATGGTGGAATAAAGGCAATGAGCCAGGAACAACACAATGGGGACCTTGGGAAGATTTAGGAGAAGCCTCAAATAATGGAGGAGATTCTGGGAATACAGGAGGAAATACAGGAGGAAATACAGCTACTATTCCTTGGCCAACAACTGTAGGAGAAAAAGTGATTTTTACAGATAAAGAGATAAAAGCAACATTTGGAGAAATTTCTCCAAACACATATCCTGATAAAGTTGGAGAAAAAGTACAAGAGTTAATGAGCAAAAGTGAATATGAAAATATTTTTCCATATAGATATGGTTCTACTAAATGGAATGAATTTAATAATAAATCAGAACAAGAATATTATTCATATGAAAATTTAATAAGTGCTTTAAAAGAGTTATCAAGATTTATGTTAAGAGTAGAAACTAAAAAATATACTAACAGAGTATTTAGATTGGATAAAATAACTAAAGAGGTTACTTTATTAAAAGAAGATAAAGACTTTAATGGAGATTGGCTTCAAAATGTAAATCCAATAATAGATACAGCGGATTATGGTAAATTTTTGAATGAGGGTACAATGGAGGAGAGAAAAAGAGATTTAGCTGCATTTTTAGCAAATATATCTCATGAAACAACAGGTGGTTGGAAAACTGCACCAGGAGGACCTCAATCTTGGGGATTATATTATAAAGAAGAGATGAATCATGACGATAATAGTGTTGGTGGATATGTAGCAGCAAGTGAAGAATATCCAGCACAAGATGGGCAGTCTTATCACGGAAGAGGACCTATTCAACTTAGTTATAATTATAACTATGGATATATGAGTCAAATAATATATGGAGATAAAATGGTTCTTTTGAAAAATCCAAAACTTGTATCTCATAATGGAAAATTAGGATTTATGACAGGTATATGGTTTTGGATGACACCACAAAATCCTAAACCATCTTGTCATGATGTAATGGTGGGGAATTGGATTCCTACAGCAGAAGATTTAGCTGAAAATAGAAAACCTGGTTTTGGAGTTACTATAAATGTGATAAATGGAGGACTTGAAGCAGGAAAGCCTCATGATTCAAGAGTAGATGATAGAATAGCATTTTATGAAAAAATAACAGAAGCTTTAGGAGTTACTCCTGGAGATAATATAGACTGTTATACTCAAAAAAGATTTTGAAAAATCAGATTATTCTTTAGCTGTCGGATATTCCGGCAGCTTTTTGAATAAATCATGAAAGTGTAAAAATATTTAGAAAAAAGTTGAAAATATGTTATAGAAATGGTAAAATTATATGGAAATAAAACATAAAAACTAAATGTGAATAGAATGAGGTGAAGGCCATGAATAAATCCCAAATAAGAAAAATGAAAAAATACATATATATATTTATCTTACTTAGCATTTTAAATTTGATTATAGAGCTATCACCAATTAACAAAAGTAATGTATTAGATATAAAAAAAACTAAAGAAAATATAAAAAAAATTAAAAAAAAATTAGAAAATAAAACCGAAAATTTCAATATAAAAGCCATAAATATAAGTAGTGATAAAATTTTAATAAAAGATATAAAAAAAATAAAAGAAAATAATTTCTTTTTAAAAAGCACAAATATTAAAAATAAAAAAGAAGTACAAGAAGAATTAAAATTACCTCTAGATTTACTTGCAATATCAGAACAAGGAGATAAAAGTAAAATATTAGTTAGATATATGGGGCAAACATATATTTTAGGTGAAGGGGAAAAAATAGCTTCAAGATATAAAGTTAAAAAAATATCTGGAGACAAAGTTATATTTGAATATAACAATAGTGAATATATTATAAAATTTGAAAAATAATAAGGGTGGATAATATGAATGATATAGAAACTAAAATGGATAACGTTAAAAAAAAATATAAAATAATTTATAAAAATAGCGAAAATGGGCTAAATTTTTTTGCGACAGAAAAATTATCATTGGAAATTTTAGATGATTTAGAAACATATTTAGAGGAAAAAGTTAATATTGAAATTATATCCAAAAATGATATGAAAAAATATATGGAAGAGTATTCAAATGAACATAAAGCAGAAACAGAAGAAATTATTAGTGATTTAGGAAAAGAATATTTACAAAAATATAAAAATATAAATATAGATACAGAAATAGAAGATTTAGAAGAATTGGCAAAAGAAGCGCCAATAATAAATTTAGTGAATACAATAATAACAGAAGCTGTAAAAAAAGGTGCAAGTGATATACATATAGAGCCGTTTGATAATAATGTAAATGTAAGGTATAGAGTAGATGGAGTATTACACCAAGAAACAACCCTGCCAAATAGTCTTACTCCTGCAATTACAACAAGAATAAAAATAATGTCAAATTTAGATATTGCAGAAAAAAGATTACCACAAGATGGAAGAATTAGAATAAAAGTTATGGGAAAAGAGATAGATATAAGGGTAGCAATAATTCCAACGTTGCATGGAGAAAACTCCATTTTAAGGTTATTGGATAAAACTGCACTATCATTAAGTATAGAAAGTATTGGGTTTACAGATGAAAACAAAGAAAAATTTATGGATTTGATAAAAAATAGTAGTGGAATTATATTAGTTACAGGTCCTACAGGAAGCGGAAAAACTACAACACTATATTCTACATTAAGTCATCTAAATACAACAGAAAAAAAGATAATAACAATAGAAGATCCAATAGAATATCAATTAAAAGGAATTAATCAAATACAAGTTAAGCCAGAAATAGGTTTTACATTTGCAAAAGGGTTAAGGTCAGTATTAAGGCAAGATCCAGATATAATAATGGTGGGAGAAATAAGAGATTTAGAAACAGCAAAAATAGCTACACAAGCGGCATTAACTGGACATTTAGTATTTGCAACATTACATACTAATGATGCAGTTGGAGCAGTAGCAAGGTTAATTGATATTGGAGTAGAGGATTACCTTGTAGCTTCTTCTTTAAAAGGGGTAATTTCTCAAAGATTAGTGAGAAAACTTTGTGAAACTTGTAAAGAAGAATATATTCCAGATGAAATAGAGTTAAAAGGATATAAAAAAATTATAAATAAAGATGATAAAGTGTATAAAGCAAAAGGGTGTGAATTATGCAATGAATTAGGTTATAGCGGAAGAACTGGAATACATGAAGTTTTAGTTTTAAATGACAACATAAGAGAAACTATAACAAATTTTAATGGAGTTATGGATATAAAAAAAGCTGCAATAGCTAGTGGAATGAAAGATTTGACAGAAGATGGATTAGAAAAAGTAAAAGAGGGAATAACAACAATAGATGAAGTTATGCGTGTAACTAAAAGTTAAATTATATTAAGAACGGATTAAAAATAAGCTTCTTATTTTGTTATAAAACAGGAAAAATTCAAGTAATTTTATAACAAAATATAAAAAAAATTATTTTTTAAACGTTCATAAGACAGGGGGATTTTTTATGCCACTATACAAATATAAGGCAATAGAAAAAGATAGTGGAAAGAATGTAGAGGGTGAAATAGAAGGAAATAACGAATCTGATTTGATAAAAAAATTAGAATTAAGTGGAAAATATGTTTTTGAATTAAATGAAAAAACAGAACAGAAAATAGAAAGTAATGGAATTTCATTAGGAAGAGAAAAAGAGGTTATATTTTTTACTCAGCAAATGTCAGATTTATTAAATGCAGGGGTTCAATTAGGAGAAGCTTTAAAAATTATAAATTCATTAGTAAAAAAAGGAAAAATAAAACCAATAATTTCAGATGTTTATGAAAATATGAAACAAGGAGAAACACTTTCAGATTCATTAGAAAAGTACCCTTCATATTTTGGAAAAAGTTATACAAATATGGTTAGAGCAGGAGAAGAAGGTGGCTTTGTAGGAGTTACATTTCAAAGAATTTTGCAAGGTATGGAGGAAGGCAGGCAATTAAGAAGTTTTGTTATTTCTAGTCTAATATATCCTGCAGTATTAATGATTGTGTCTATTTTTGCAGCTATAATTATGTTAGTTTATATTTTACCTAAATTTATGAGAATATATAGTAACTATGGAAAGGCATTACCTGCCTCTACAAAAATGCTTTTGAATATAAGTTACTTTTTTCAGCATTATGGTATTTATTTATTAGCTGGAATAGTTGGGGTAATAATAGGCGGAATATTTTACTATAAGAATAGTGCTGGTAAAAAAATATTAGATAAACTTTTATTAAATATCCCTATAATAGGACAACTATATATATTTATTGCAGTATCAAATGTTATAAAGTCAATAGCAACAATGTTAGAAAGTGGAGTTCCTTTATTAAAATCATTAGAAGTTGCTAAATATATAACTCCAAATGTAATACTGCAAAGAGAAATTGAAAATATAAAAAATGAAGTAACAAAAGGAACTAATTTATCAGATTCAATAAAAGAATCAAAATATTTTCCAGAAATAGTTTATTATATGGTTGCAATTGGAGAAAGAACAGGGAAATTGTCAGAAATGTTGTTAAAAACCTCAACAAACTTTGATAAGAAAATAAAAGGAAATATGGAAATTTTTGTAAAAACTTTTGAGCCTGTATTAATTGTTGTAATGGGTATTTTTGTAGGATTTATGGTATTTGCAATGCTACTTCCAATATTAAGTATAAATGATATGGGAATGTAGAATAAAAGAGTTAAAATTTTAAATATATTTCTAAAAAAGAGGAGGAAGAAAAGTGGGGAATAAAAAAGAAAATGGATTTACGTTGATTGAAATAATAATTGTGGTAGTAATAATTGGATTTTTAGCAGCAACAATAGGGCCTAATCTGTTTAACCGAGTTTCGCAAGCAGAAAAAACTACAAGCGAAAATCAATTAAAAATAATAGGGTTATCTTTAGATAACTATAGATTGGATAATAAAAGATATCCTTCAACTGAACAAGGTTTAATAGCATTAATAGAAAAACCAATAACATATCCTTTACCTAAAAATTGGAATGGACCTTATCTTGAAAAAAAAGAGATTCCAAAAGATGCTTGGGGTAATGAGTATAAATATGTTTCTCCTGGTTATAATAATAAAAATAGTTATGATTTATGGTCTTTAGGAGCTGATGGAGAAGATGGAACAGCAGATGATATTAAAAACTGGTAAAGAAAATGGATTTACACTATTAGAAATAGTAGTAGTGATTATAGTTTTAGGATTTTTAATGGGAGTTATGTTGCCTACACTTAGTAAAATAGCTGATTCAACAGAAGAAAGAGCTTTTGAACAAGGAGTTATAAATATTTTTATGCAGGCTAGAGGAAATGCTGTAATACAAAATGAAACAAATAAAATTCAAATTGGAACTAAGACAATAGAGAGTAAGTTAAACTCCAAATTTTTAAATAAATTAAATAGTGAAATAAAAAAAATAAATTCAGATAAAAAAGAGGTTCTTTTTTATTCAGATGGAACAAGTTCTGGTTTGAATATAGAGATTTTTTTGTTGTCTAATAGAAAAATATTAATAAAAATAGATGAAATCACAGGAAAAGTCATGGTTGAAGGAGATACTCAAAATGATTAAAAAAAGTAAGGGATTTACTTTAATTGAAGTTTTGATTGCAGTAATAATTTTAGGAGTAGCATTTCCTACTTTAATAGAGGGTCTTATCTCAATTGTAAATAGTTTTCAAAAAAATAGAGAATATACTAAATTTTATATTTTTGAAGAAAATAAATTAAATGAATTTGAAGCAGGAATAGAAATATCTGACCACGGAGAAAAAGTAATTGATGATATAGAATATAGATGGTGGATATTGCAAGAGATAAAAGAAAATAACCAAAAGAAAATAGTTATAAATATACAAAAACAAGGAGATAATAAAAAATATAGTTTAGAAAGAGAAATCAATTATGAGAAATAAGGGATTTACATTATTAGAAATAATTATAGCAGTAGTCATTACAGGAATTGTAATGGGTACAGCATTTAGCTTTTTTAAAATAAATTTTTCTACTTGGAATAAAATAGAAAATTCAGAAAATCAAGAAATTAGAGTTTTTGATTCTAAATTTAGAGCAGATATAAAAAATATGTATTATTTGAATATTATGAATGAAAATCCATTTAAAGGTGATTACAATAAAGTTGAATTTTATAAACAAGATATAAATGGAGATGTTATAAAAATAGAATATTCTTATAATGAATTAAATAGTAGTATTGAAAGAGAAAAATTGAAAAATGGAGTTTCCATTAAAAAAAATATTTTTTTTAATGGAAAAGTAGGAAAATCTATAAAAATATTTTATTTTGATAAATTTTGGAAAGATAAGTGGGATTATAAAGAGGAAATGAAATTCCCTGTGAGTATAAAAATTGTATTTGAAGAAAATAAGGAACAACTAGAAATTATAGAAAATATTCTTCTTAATCGAAAATATTGAAAAGGGGAAAAGGTTATGAAAAATAAAGCATTTATAGAAATAGGAAAAGATAATATAAGGGTAATAAATAAAGAAGGCGCTAAACAAGCTAGCTGGAACGAGGTATCAAAATGGATATTTAAAAATAATTATCAAGAAATAGATATAATAATTTCTCCAGAAAAAGTTTTCGTGAAATCATTAGAGCTGCCATCTAAATTAAGTGGGAAAATAGAAAATTTAATAAAGTTAAAAGTTATTAATGAATTGCCCTTAAAAGAGAAGGATGTATATTATACATATTCTACTAGAAAAATTAATAAAAAAAATATAGAAGTTGCGGTTTTTATAATTGAAAAAGCTTTCATAGATAATATAAATAGTTTTTTTGAGGAAAGAAATGTAAAAATAAAATCTATTTTGCCATTAAACCTTTTGGGATATAATTATTACTTAAATAATTATAATAATAAATTAAGATTATATGCAGATGTTGCAGAAAAGTATATTCAATTTTACTTTTTTTATGAAAAAAAAGCTTTTTTTAGAAAATCAATTAGGATAGATGAGTATGAATTAGAATGTAAAAAAACAATAAAATATATAAAAGAAAAATTTGGCATAGAAAAAAATATAGAGATAATAAAAGGGAATATAGATATAAAATATTATAAATATTTTGATATTTCCAAGAAAAAATCTGAAAATTCTATTTTTAATACTAAAGGAGTAGAGTCAGTAAAGAAAAAAGAACTGAAAAAAATATATGTTTTAATATTTATTATGATTATAATAAATATTTTGACATTTTCATTAAAAATATACAAAAAGAAATTATATTTAAAAGAAATTACTAAAATCAATGATAGTTTACAACCTATTGTAAAAAATATAGAAACAATAAAAAAAGAGTATAATGAAAAACTTGTTAAAGAAGAAAAGTTTAAAAATAAACTAAAAGATAAAAGTAGTTCTTATTTAAAATGGATAAAGGAGATAGGAGACAAATTACCTAAAGGAACAGTTATAGATCAAGTGATTTTTAAAGATAATAGATTAGCACTTTTATCAGGAAAAGCAGTGTCAGCAACAGAAGTAATGAGAAAAATGGAAAAGTCTAAAAAGTTTAAAAATTTAAAATTTATAGGAAGTATTGTAAGTTCTAGAGGGCAAGAACTATTCAAAATAGAGGGTGATTTAGCTGATGAAAAAACTGAATAAAAATGAAAAGATTTTATTGATTTTAGCTATAATTATTATTGGGGGAACAAGTTTATTTAAATGGGGGATAATTCCAATAATTAATTATAGTAAAAATTCAAATAAAAAAACTTTAAAATTAGAAGAAAAAATAAAAGAAAATATATTTTTGGCAAAAAATTTTAGTAGATATAAAAAAGCATTAGAAGAGGAAAATATAGAAATAGATAGATATAAAAATAAATTTTTTGAAGAAAAACCTGCATTGGCACAACTTGAATTATTAAATAATTTGCAGAGTGAAGTTAAAAAAGTTCATTTGATAATATTAAATAAAAATGTATGGTATTCTAAAGAAAATAATAGTATATATTGTAAATTGAATTTAGAAGGGAGTTATCAAAAAGTAATAGAATTTTTAGGGAATTTAAAGAATAACAGGCCTAAAATTTTTATAGAACAACTGGATATGAAAAAAAAGTTTAGAAGTAATAGATTAAATGTAAATATGGTAGTAAGGGGATTTTTAGAAAATTTCGAAAAATAGGATTTTTAAGCCGTTCTTAAATAGGGAGATTATTAATAAAAAATAAAAAAATGGAGGAAAATATGAAGGGGAAATTTAAATGGATATTGGTTTTATTTATTGTTTTATCTGCGATTTCATTTAGTGCAGGAAAAAAAATAAAATTAAGTGTAAGGGGAGCAGAGATAAAAGATGTATTGATAATGCTAACACAGCAAAGTGGAATAAATGTAGTTCCAGATAGGACAGTAACTGGAAGAGTAACTATAAATTTAGAGAATGTAAATATAGCAGAAGCTTTTAAAGTGCTAAATAAAGTTTATGGATATAAATTTGATAAAATAGGCGATAACACTTATATGGTTACTAAAAAAAATATAAATGCAGGAAAAAAAGAGATAAAAATTAAACATGGATTAATATCATTTAATATACAAAATTCAGATATAAGAGAGGTGTTAAATGATATTTCACAAAAATCAGGAATAAACATTATAATGGAAGGTTCTGTAAATGGGAAAATATCAGGTAGTGTAAAAGATGTAGATATAGAAGATGGACTTACAGCATTGCTGCAAGCAAATGGATTTTCTCTTATGAAAGATAATAATATTTATAGAGTTTTAAATAGACGCTCTATAAATAGTAGAAAGAATAAAATGAATATATCAATTGTAAATAATAAAATATCAATAGATGTAGAAAATGAGAGTATTGTAAAAATCTTAAGAGAAATAGGTAGACTTAGTAATTTAAATATGATAATTGTTGGTGGAGGAGTAGAAACGATTAATGTCAAACTGCACGATATATCAGTACAAGATTCAATAGAAACTATTTTGAGTGGAACAAGTTATACTTATAGTCAAAATGAAGATGGGACATATATAATAGGAAGAAAAAATATTGGAAGTGCATCATATGCAATGTTTACAAGGACAGAATTAATACCATTACAATATGTCCACGCAGAAAAAATACCTACAATGCTGCCAAATAATTTTCCTGTATCGAATATAAAAGTTATCTCAGAACAAAATGCAATTTTAGCAACGGGAACAGATAAAGAATTAAAAAGATTAAAAGGGTATTTAAAAGAGTTAGATAAAAAAGCACCACAAATATCAGTAGAAGCATTAGTTATAGAAATTTCTCATAATAATAATAATTCTTCAAAGTTAGAATTGCAAGGATTTTACGGAGATGAAAAAAATATTTTGGCTAATAGCTCTACAGGTGACTTTAGATATTTGAGTTTAACTAAAGTGTCAAATCAATTTTATAGCGAAATAAAACTATTAGTTCAAAAAGGAGAAGCAAGAATAAAAGCAAGTCCTAGTATAACTACATTAAATGGAGAAAAAGCTACAATTAATGTAGGTACAGTTCAATATTATAAAGTAACTACATTAGATGAAAACGGAAAAGAAAAAAATGACTATAAAAGTGTAGATGCTGGAGTTAGCCTTAATGTGACACCTTGGATTACAAGTTCTGGAGAGATAAATTTAAAAATAAATCCAACTATAAGTAACATAGGAGCTTCACCAGCAGAAGGACCGCCAAGTGTTAGTAAAAGAGAAGCAAATACAGTAGTTAGAATAAAAGATGGAGGAACAATAGTTATAGGAGGGCTTACACAAAATGTAGTATCGAATAAAGTTTCAGGAGTACCTTTTATAAGTGATATTCCTTTGCTAGGAGAACTATTTAAATCAAGAACAAAGGACTTAAATCAAATAGAATTAATAATATATATAACTCCTAAGATATTAAAAAATGCAAGTGAAAGAGAAGCAAAAAACAGTATGAAAGAAATGATTAAAAAAGTAGAAAATAAATAATTTGATTCTTTAGAAACGGCTTAAAAAATCTTATCATTTTATTTTAAAAGGCTCAAGGTTCTTTTATGAAAATCACATAAAAAAACTATGCCCAACGTATGCAATGATTCAAGCGTTTTTATAATAAAATATATAAAATTACTTTTTAAACGTTATTTAGGAACGATTTAAAAACAATTTAAATATTACTAAAAATGAGTTAAAGCTTTTATTATTATAAAACTAATATTTCACATAAAAACTATTATAGAACAGAAGTGCTACTGAAAAGATACATTTTATAACTAGTTTTTAGTTGACAAAATTATAAAAATTTGATAATATATTTTAGGAACTTGGCGATATCGTCTAGTGGTTAAGACAGATGGTTCTCAGCCTTCAAACCGGGGTTCGATTCCCCGTATCGCTACCATTTTTAGAGAATATATATGAGAGGTGTCATGAAAAAATACTTTGTGAAAAAAGATTATAAAGGGTATGCTGTTTTTGATTACTTAAAAGAAGTAGAAGGGTTTTCATCAAGACTTTTGAGAAATGCAAAAGTGTATGTAAATAAAAAAAATGCAAAACCGAACAAAAAATTAAGATATAGAGATTCTATATGGGTTTTGGAAAAAGAAAAAAGTACGAATATAAAACCTATAAAGTTAAATCTTGATATAGCTTACGAAGATAATGAGCTTTTAATAGTAAATAAAGAACCATTTTTAATAACACATCCAACTCTAAAAAAAGTTGATATTACACTAGCTAATGGAATAGTATATTACTTTAAAAATAAAAACATAAATATGGTGCCAAGATTTTACAACAGATTAGATATGAATACAAGTGGATTAATAATTATTGCTAAGTCTGGTTTTGCACAGGGATTTTTGCAAAATAGGGGAGAAGTAAAAAAATATTATGTTACTGTAGTCAAAGGAATAATAAATGAAGATGAATTTACAATAGAAAAAAATATAGGAGTTTCAGAAGGTGGAATAAAAAGAGAAATTAATGAAAATGGTCAGTATGCAAAAACTGTTTTTAAAGTTTTAAATAGAAATATTGAAAAAGATGTAACTTTAGTTGAAGCACAACTGTTTACAGGAAGAACGCATCAAATTAGAGTTCATTTAAGCTCAATAGGTCATCCTATATTAGGAGATACATTATATGGTGGAGAAGATTTAAGAGTTAAAAGACAACTTTTACATAGTTATAAAGCTATTTTTATAAATCCAGAAACAAAAGCTATCCAAAAAATAGAAAGTAACTTTCCAGAAGATATAAAAAAGTTTATTTGACAAACTATTAAAAATAGAGTACTCTTATAAAAGAACATTAAAAAAATAATTTTTTCATAATTTGTCATAAATTAAGATAAAATTATTTTTGAAATATTTTTAAGTATTAAGGAACGGCTTAAAAATAACCTTCTGATTTTGTTTTAAAATACGCAATGGTTTAAGCGTTTTTATAACAAAAAATGAGAAATTTATTTTTTAAACGTTCTTAAGCATTAAAAGATACATAAAATTCTAAGGAGGTATGTGTAAGATGGCAGTTAAAGTAGCGATTAATGGTTTTGGAAGAATTGGGAGACTTGCATTTAGATTAATGTTTGGAGAAGCTGATTATGAAATCGTAGCAATAAACGATTTAACAGATCCTGGAACATTAGCACATTTATTGAAGTATGATACAGCACAAGGAAATTATAAAATTGATACAGTAAAAGCTGAAGGAGATAGCGTAGTTGTAGATGGTAAAGCTATTAAAATATATTCAGAAAGAAATCCAGAGGATTTACCTTGGGGAAAATTAGGAGTAGATGTAGTATTAGAATGTACAGGTTTCTTTGTTTCTGAAGAAGGAGCTGGAAAACATATAAAAGCAGGAGCTAAAAAAGTTGTAATTTCTGCACCAGCAAAAGGAAATTTAAAAACTGTAGTATATAATGTAAATCATGATATATTAGATGGAACAGAAACAATTGTTAGTGGAGCTTCTTGTACAACTAACTGTTTAGCACCAGTAGCAAAAGTATTAAATGATACATTTGGAATAGAAAAAGGATTTATGACAACAGTTCATTCATATACAAATGACCAAACAACTTTGGATAGACCACATCCAAAAGGAATTAACTCAAGAAGAGGAAGAGCAGCAGCAGCTAACATTATACCAACTTCAACAGGAGCAGCAGTAGCAGTTGGATTAGTAATACCTGAAATAAAAGGGAAATTAGATGGAATTGCTATGAGAGTTCCTACTGTAACAGGATCAGTTGTTGATTTAGTTGTAGAATTAAAAAAAGATGCTACTGTAGAATCAATTAATGCAGCAATGAAAGCAGCAGCTAATGAAACTTTAAGATATACAGAAGATCCAATTGTTTCAAGTGATGTAATTGGTTCAAATAATGGTTCAATATTTGATGCATTATTAACTAAAGAAATAGCAGTAGATGGTAAAAAAATGTTTAAATTAGTAAGTTGGTATGATAATGAAATGTCTTACACAGCTCAATTAGTAAGAACAGTAAAATATTTTGCAGGATTAAGCAAATAAGAGATTAAGTAAATAAATTTTAGGGCGGGGCTTTCGAGTTCCGCCGTTTTAATAGGGAGAATTTATAATATAAAAAAAATAAATTAGGAGGGAATAAAATGGCTAAAAAAACAGTTAGAGATATTGAAGTAAAAGGTAAAAAAGTTTTAATGAGAGTTGATTTTAATGTTCCTATAAAAGATGGAGTTATTACTGATGATACAAGAATAAAAGCTGCTTTAAGCACAATAAACTATGTGATAGATAATGGAGGAAAAGCTATATTAATGTCACATTTAGGAAGAGTAAAAACAGAAGATGATAAAGCAAGCAAAACTTTAGCACCAATAGCTAAGAGATTAGAAGAATTATTAGGTAAAACAGTTAATTTTGTATCAGAAACAAGAGGAGAAAAAGTTGAAAATGCAGTAGCTTCTTTAAAAGATGGAGAAGTTATGATGATAGAAAATACAAGATTTGAAGATATAGATGGTAAAAAAGAATCTAAAAATGATCCTGAATTAGGTAAATATTGGGCATCTTTAGCAGATGTATTTGTAATAGATGCATTTGGTACAGCACATAGATCTCATGCTTCTAATGTAGGAGTAGCTTCTAATATAGAAGCAGTAGCAGGATTTTTAATGGAAAAAGAGATAAAATTCATTGGTGGAGTAGTAGAAAATCCTCAAAAACCACTAGTTGCAATATTAGGTGGAGCAAAAGTATCAGATAAAATAGGAGTTATAGAAAGTCTTATAGAAAAAGCTGATAAAATAATAATCGGTGGAGGAATGATGTTTACATTCCTAAAAGCACTTGGTAAAAATATAGGAAGTTCATTATTAGAAGCTGATAAAGTAGAATTAGCAACTTCATTAATGGAAAAAGCTAAAGCTAAAGGTGTAGAACTTATTTTACCAGTTGATACAGTAGTAGCAAAAGAATTTAAAAATGATACAGAATTTAAAACAGTTTCTGTAGATGCTGTAGAAGATGGTTGGATGGGATTAGATATAGGTGCAGATTCTGTAAAATTATTTGCAGAAGCATTAAAAGGTGTTAAAACAGTAGTTTGGAATGGACCAATGGGTGTATTTGAAATGGAAAATTATGCAAAAGGAACAATAGGAATATGTAAAGCTATTGCTGGATTGGATGAAGCAATAACAATAATAGGTGGAGGAGATTCAGCAGCAGCAGCAGAACAACTTGGTTATGCTGATGACTTCAGTCATATTTCTACAGGTGGTGGAGCTTCTTTAGAATATTTAGAAGGTAAAGAACTTCCTGGAATAGCAGCAATATCAGAAAAATAAAAGAAAGAAAGAATAAAAAAAAGAAGCGACGATTATAAAAAATCGTCGCTTTTATTTTTGCTAATGAAAATAATTGTAGAGTTTTAGCCACCAATTTACACTAATATACACCAATAATTAATTACAAATTTTTTATTCATCAGTGTCTGTATTTATCCAATGGTTTCAAATAATTTTTTTTTAATATCTTTTTAGTTAATTTGAATAAATCATAAAATTTAAAATCTTAAAGTAAAAGATAATGCTTGCATATGATTTGGTTTTACTCCAACATGTGGAGAAAGTTCCTCTGTAAAATCAGCATATTCAAATTCGACATCATTTAAAATCCATAGCGGTAATAATACTACTTTTAAGAATAATGGAGCTCTTTCCATAAATCTAAGAGGTTGAACATAAAATCCATAAGTTCCATATCCTTGATTGATTCCAGCACGTAATTTTAAATTTATAGAGTGAGGAAACATAGATATTTCACTACCTAAATGTAGTTTTTTATAAATATTAGTATCATCTTCGCCATCATTATTCATATCTTTATTTAATAAATTTTCAACTTCTCCAGATAACTGAAGCCATTTAGAAGGTTTTATAGAGATACCAGCTCTTAAATTTGGAGTTACAGTATGCTCTCCAATATAATATGTAACATAGTTTCCACTGTTTGTAGGATGACCATTTATATTGACTTCTTCTGAGTCACGCCATGTATCAACTTTTGTATATGCATCTTGTAGTGCAAATCCAAGTTTAAATTTATCATTACCAATTAATCCACCGAAATCAAGTCCAAATCCTTCATTTTTAGTAGCTCCAAGTAGTGAAAACATTGCTTTACTGTCATTGACGTTTTGAGCACTTATTAATTTATTAGATGTTAATTTGCTATCAAAATTAATATAATTAAGATATCTAATTGATGCTCCGAAACTAAATGGACCTATTTTGGTAGCGATACCAATGGGAGCTTCAACATTTAAAGACATATTAGCAATAACTGTGGGATTTACAGGATTTACAATAGCTAATTTATTTATATTAGAATAAGCGAAAAGTCCTATTCCAAAATTTTTGTTAATAAGTCCTGTGAAGTCTCCGAAATATCCATTTAAACTTAAATTATTTATTTCAGATTGTTTATCTTTCAAATATTTAAATTGGTCAGAATCATCAACTTTTCCATCGTTATTCCAATCATTATCTTCAAAAGAACCATCTGAAATATCATTTGATACATCTATCATTGTACCTATAACATCTTTTCCTTCATCATTCATCCCTACAGCAAGACCAAAAAGAGAAAATTTATATCTATCTATATAATTTAACATAGCTGGATTATATAGTAATACAGACTCATCAGAAGCAGATGTTACATAAGTATTTCCCATTCCCATTCCTCTAATATTTTTATAATATTGAATAGAAATCTCATCAACGCTATTTGCAGCAAAAATATTAAAAGAAGTTACAATTAAAAAGAATATTAATATTTTTTTCATTTTAATAGACCTCCTTTCCAGTTAGGATTTTACTTATTTTATCTAAATCATCTGAAGTAAAATTGTTTGGTATCTTTTTTAATTGAGTATTTATTTTTCTTAAAATATCTAAGACTTCAACAGCATCACTAGAGTCTAAAGCGACAGCAAGATAATTAATAGTAGAATTTAAAGAGGTAATTATTTCATCTTTATGGACATTCCAATTATTAATTATTGATGCGTTGAAATCAGAACTATCAATTTCCGAATCTCCATTAGTATCTAGAGCGTTTAGAATGATAATTACTGTGTTTAATCCATAAGTAATACCTGCTGTTTGATATGTAGATTTTAAGTTGTCTCTTTCTTCTGGAGACAAAATTTCTGGACTAGGCAAACCTTTTTTAAAAGCTTCCATTGCATATTTAAGATCTGAACTGTTAATTCCATTAACAATATTAATTAAAGTAGAACTATTATTATCTGAAGTACCCCTTTTTATAGCAGTATTTGGAGTTGTAGAGTTTAGTTGATATATTTTATCTAATATATCAAGTGCACTAACACCACCTTGTCCAAGATAACTTTCAGCTTTAATTGTTTGGAATTTAATATATTCATTTCTTTCAGCTGTTTCAGTATCAGAAAAATCATTAACACTATTTTTACCTTGTTCTTCATAACTTCTAATTACAACATCTGCATTTTTAATAGCGGTAGCATAGTCTCCACTATTTAACCCTTCTTCTGCCTCATACTTTGATTGTGAAACAGCTTCTTGAGAATTTGCATCAACTTTATCTAAAGTTGAGAATATATTAGTTTCACAACCAGAAAAAATAAGTAAAGAAATTCCCACCAGCATTCCAATAAACTTCTTTTTCATTATTATCTACCTCCTTATGATTTGAAATATACATTAATCTTACCACACATTAACAAAATAAAAAGTAATACAAGTCACAACATAGTAAATTTTATTTAGGAATGTTTAAAAAATAATTTTCTCATATTTTGTTATAAAAATGCTTGAAACGTTGCATGCGTTGGGCGTAGTTTTTTATGTGGTTTTCATAAAAGAACCTTGAGCCTTTTAAAACAAAACAGATAAGTTATTTTTAAGCCATTCCTTAGTAGTTACTGGTGATGTAAACTACAAAATTTACCTCTTCATTAATGTATATACCAAATAAAAAAAAATTTCCTTTAAATTTTTTAAAAAAAAAAGAAGGAAATAAAAAAAAGTTTCGAATACTAAATATGGTGATGTGAATTACAGTTTTTTTATTGGGCTTATAGTAATCTAATGGTATGTAATCTAGCGAGTTATTAAAACGCAAAAATACAAAGGAGGAGAACAATTATGAAAAAGTCGATTGTTATAGTCTTAATAGGGTTATTAGGGCTATCAGGGTGTATTGGAGTATGGGGGGATAAAACTACAGTTAAACCAAAATATGAAAAAACTGCAGTAGACTATTATGAAGCTGCGAGAACAAATTTTGCAGATCCATATAAAGTAACTACACCAGAAGAGGTAGATAAAAATGTAGTGGAAAATGCAAAAATGGCAGAAGGGAAAAGTTTATTAGAAAAAGATTCAGAAATAGAGATGAAATCAAAATTATTAAGAGCAATGGCTCAAAATTACAAAGGACAATTATTAGTAGAAGAGGGAGAAGATTCTCCAACAGGAGCAATTTCAAGAGCAAGAGCTATTTCTATTAATAATTCTAAGGCAGAATTAGAATTTGCAGAAGCTAATATAGAGCTTAGTGCATTAGAGTATAAGAGTATAGCAGCTAAAGCTATAAAAGTAAATGTTTTATCAAATTGGTCTCAAATTGATGATACAAAATTAACAGCTGCAGAGGATGCTGCAGACAATTTATCTATGGTACAAGATCAAATAGATAGTGATCCAAATTTGCAAAATATAAAAGTTGCTGGTGAAAAAATAGAGTCAGAAGATGTTTTGACAAAAGTTGCAGATATATATATAAAAAAAGGAGATAACAAAAAAGCTATGGAATCTCTTGCGAAAGCTCAAGAGATAACAGACGGGAAAAATAAAACAACAAAAGACTCTAAAGTTTTAAAAATAAAAATAAAAATGGCGGATGTATTAATAGATAGCGGGCAACCAGAAGCAGCAGCTAAAGTGCTAAAATCAGTTGTAGATGAATCACAATCTATGAGTGCAAGTACAGATATAAAAGAGAAAGCAAAGGCAAAATTAGTAGCAGAAGGATTACAAAGAGTACAAGCAATAGCAGAAGCAGGAGTAGATTTATCTGATACTGGAATAGATACAGAAAAAGTAAAAAAAGGATTAAAAAATGTTACAGATGTAGCAAATGCAGGGACTCAAAATTTAATTACAGATGAAAAATTAAATTCGATAAAAGGTAAAGTAGCAGATAAAATTAACGAAGCTAAAGATAATGTGGAAGTTGGAAAAGATAAAGAAATAAATAATGCGTATAGCCAATTATTAATAGGAGAATTGGATAAATCTGAAAAATTATTTGAAACTTTAATACAAGATAGCGAAGTATTAGCAAGTGGTAAATATACAAGAGATGTAATTTTTGGATTGGCATTAGTTTATACAAAAAAAGGAGAAACAGAAAATGCAATTGAAACTTATAAGAGAGTTTCAGTATTGATTCCAGAGGATGGGGATTCGGTAAAAAGAGCAGCAATGGAAATTTCTAAATTGTCTGAAGATAAAACTGAAGAAGTGGGAGGTAATAAATTAGTAATAATACCTCCAACATTTAAGAAAACATCATTTTTACCAGGAGATAGTTTAAGTTTAGCTATCGATATTATGTATTCTGATATGTCAAATATAGATAAAAATATTGAATTAAAAGCCTCTATATATAATAAACAAGGTGAAGAAGAAAAAGATATAATGAGAGCAATTAATTTTAAATATGATGAAAAAAATGTATTTAAAGGGGAAGCAGTTATTAGTTTAACAGCTATTTCTGGACAATACAAATTGGTAATTATGGCTAAAGAAAAAAATGGAGCTCTTTATTCTAGATTTGAGATGCCTATATTTATAGGTAGAATAAGTGATATAAAAAATAATGTAAAAATAGATATGGTAAAAATAGATAAAGATATATTAAAAGTGGAATTAATGAATTTTAAAACTAATTCAGGAATAAAATTGAAAATTAATTCTACAGAAGCTGCGATTAGTATGGCTGGAGAAGCAATATATTCTCTTACAGGCTCTGACAAATTAGATGGAGAGCATGAGATGAATATTGAATTATATCAAAATAATAAAGTGGTAGATACAAGAATATTTAAATATAAAATAGGAACTTTGGAAGTTATTTCGGATGAATCAAGAGCAGCAATAGAAGTAAAAGTGAAAGATATAGTAAGTAGATTTAATGGAGATAAGGCGAATATATTATCTCTTGTAGATGATAAGAGTAATTTATATAGAGTATTAAGTGATAAATTAACTACAGCATCAGCGATAGATATAACAAGAGAAGAAATAAATAAACCTATTGTAGATAAATATGGTAATTTTGCTATAGTAAGAACAAATGAAAAGGTAACTGTTAATGATAATGAGATACCATATTATCAAGAGTATAAATTAGTAAAAATAGTAGATGAAGATGGAGCAGAGAGTTGGAAAATAAGAAATATTGCTTTTCTAGATATTTTATTTGTTAATTCGAAAAATATAGATACAGATAATGATGGATTAACAGATGAAGAAGAGGAACAGTTAGGGACAAATCCAAACAATCCTGATACAGATGGAGACGGATATACAGATGGAGAAGAAGTTGCAAAAAATAGTGATCCAAATAATAAAGATAGTGTTCCAGCAGAAGAAGAAGGGGTAAATGCAACTGAAACAGTTAATATATTGAATCAAGTTTTTGATATATTATCTAACTCAGAAGCTAAAGATACAATAGAAGGGTTTATAAATGGATCTACTACTGAGAGTGCAATAAGTTTTATAAATAAATATTATACAGAAAATATAGATGAAACATTTAAAGAAGAATTAACTAATAAAATAAAAGAGAATTTAGAATTTTTAAGTAATAAAAAGGTTACATTGAAATTTATAAAACCTAATGTAGAAGAAAAAAAATTAAATGAGATACCATTTGATTTAAGAAAGAAAAGTAATATATATATATTGAATCTAGATGTAGTCTTTGATTTGAGAGATGATAGTGACAGACCTATATTTACTGACAATATGCATTTCGAATTTGTTGGTAAAAAATCTGAAGACGGAAGTTTATCTTGGAAAGTAAGGTATGCCTCTAAATTAGAAAATGGATTCTTTATACCAGAAATATTGAAATCAGCAGATAATCAAGATAATGATGGAGATGGGTATATAGATGAAGAACTTCCAAATGGAGAAGATGATGATGGAGATGGATTGGTAGATGAGGATTTAAGAGCGCCAATTGGAGGCGGAGTAGATGATACAGGTGTAGTTAAATTTACTTTAAATAATAATCATATGAAGTTTGTAAAAATAATAGCTAAATATAGTGTGAATTCTACAGATACAACTGAAAGTGCAATAATATTAAAAGGAGCAATAAGAAGGTTTGGAAGAATACAAACAGAAACAACTGAAGACAAATTGCCACTTAATACAGAGTTAAAAGTAAAAATAGATGTAGAGGGAGTTGGAAAATATGAAAGTGATTGGTTTACTTTAACAGCAGATTCTCAAGAAGAAGATTTGGGAGATATTACAAATAAGTTAATGGAACCAATGAAAATCACATTCCCAGAAAATGAACATGAATTTGATTTGTCAACTACTAATGGTGGAGTTAGGATAGAATGGACAAAATTAAATTCTGATGAAATAAAAACATATGCAGTGGTAGTGGTAACAGATATGCGGGATATAGAACAAGGTAATTTTGATAATTTTGTGGCTGTTAAATTTATGGATGCAACTACGACAGAATCAGCAATGAGTTGGGATTATAAAGAATCATCAATGGATGATTTTGATGTAAATAATGGATTTGGTAGAAAACTTCTTCCTAATACTAATTATATTGCTGTTATTGGAGCATTTAAGGAGGATATTTCTACATTGATGCAAGAAAGTAACGAATCTGATCCAGTTGTTATTTCTAAACCAGTAATGTTTAAAGTAAAAGGAATAGAAGGTCTATATAAAGTTGGTGGAAATATTTATAATAATAATTTCATACCATTTGGAGTTAATATAGCTGTAATGGAAAATATGCCTGATAATGCAGAAGATGTAACTCCTGATTATATATTCAGAATAGATAGTTCAAATGCAGCAGGTTGGGATAATGGAGAGAGAGCTTTCAGGTTACCATTTGAGATATCTATTCCAGAAGGAAAATATTATATTGGTGCATATTTAGATGTTAATAATAATGGTAGAATAGATGAAGGCGATTTGCTAAGTAATTTGTTAGGAGAAGAGGATAATGATAACAATGGAGAACCAGATGGATTTGTAGTAGATAAAGATAAAACGGCTACAAAGTTATATTTAAGAGAAAATATGGGCGGAGATACAATTAAAGGTACAATAACTAATAAAACTGATATGGCAGGAAATTTGATGGTGGCAATACTTGAGTATAATAAAGAGTCTCAAGAACCACATGGTAATTTTGTAACTGATATGATAGCAGGAAATATTAATGCAAATGACGATAATGATTATAAGATGAATTTTAAACCATATGGAGATGGAAATATAGCATTTGGAATAGAAACGTTTATAGATTTAAATGGAGATAGAATGCCGGAACCAAATGAACCAAAATCATCATTTACTAAATTTTATGATAATGGGGGATATATAATAGATAAAGAACATATTGATTTAACAATAAATAAAATAGTAACTCCAGGAGATGGAATAGATAATGATAAAGATGGAAAAGTAGATGAAGAGTTACCAAATGGAATAGACGATGATGGAGATGGATTAATAGATGAAGATACTAAAATTCCTGAAAATACAGCAGGAGATGGAGAAGTAATAGGTAAAGTAGAATTAGAAGGAGGATATGGAAGTTTCATAGATTACGGAGTATTGATATATAATACAAAAGAAGATTTCTATAACTTCCTATTTGGAGGAACTACTGATGGTGGTGGTAATTATGATATAACAGGTCTTCCAGTAGATTTGCCAGAAAATGAAAAATTAATGATAGAATTTAAAAAAGAGGGATATCAACAAGTAACAACAGAAGCTGGAATAACAAAAGATATGCATACAAATACCTTACAAACTATAATATTAAAAAAGAGATTGAAAATAACTAAACCGAATACACAGTTTGTAATGTGGAATATTGGAGATAGCAACTTAGATACAGAGGTAATGTGGGAATTAAAGAGTGGTGTAAAATATAAAATAGTTGTTGGCTGGGACTATGAAACAGCACAATCGAAACCAATATTTGAAAAAGATTTAGGTTCTGATATTGATACATATACTTTTACAAAGGAAGATTTGCAAAATATAGGAATAGGACATAGAGTTATATTAGTGATTGGAGCTGGAGCTGCATCGGCACCAATTGATGTAGAGATTCAAGATAATACAACTTATAATAATAAGATAATAGGAGAAATAGTAACAAAAGAGCCTATAAATCAAAATATAATATTAGGTTTATTTGAGAATGATCCAAAAAATATGAATGAATTTAGACCTAAATATAGATTTGATATAGATAGGATGAATTATACAACAACGAATAGTGCAATAAGTGGAGAGATGTCATATATTTATAGTTATAACTTTACAATACCAGAAACAGGATTTTATTACATAGCAGCAATGGTAGATAATGATGCCAATAATATGATAACTCCAAATGATTTTGTAGGAATGTTAAATTATGCTATGCAAATAAAAGCTGGAGATAATCAAATTAGCAGATTTGGTTTGGAAAGGATGCAAGGGGGAGATAATTTAGATATAACTATAGATGTAGATAATAGTATAACAGTTGGAAATATAATGTTAGGGCTTTATAAATGGGATAGTGCAACTGGAAACTGGAAAGAAAAACCAGAAGAGCAATCAAATGAACCATTTATGTATCATCAAGAGTTTGGAAGACAATATGATTTGGAATATAAAGATGAAAATGGTGAAGTAAATAGATATGCTTTAATGGCTTTTGTAGATGTAGATGGTGATGGTATGCCAAAGAATACAGAAGAGGTAAAAAGCGATTATATCGAATTAACTTTTGATAATACAGGTAGAATAATAAATAGAAATATATATTTACCTATAATGAAAAATAAAGTAACAGGGACTAGTAAAATAGATGTAACAGTAATTGCAGATGATAATTCAACTATTACAGGAGCAAATGTAGAGATTTATAATGAAAAATATAATTTGAGAATAATGATGGTAACTAATGCATCAGGTGAGGTTGTATTTGAAAAATTACCAGCAGGAAAATATGATGTTAAAGTTAGAAAAGAGGGATATTCAGAAGAGTATGAGGAAATATATACAGTAGATGGAGAAACTACAACAAAATCATTTACTATGCAACAGCAGTTAGGTGAAACATATTTCTTAAGAGGAACTATTATGATAGAGGGAGCAACAGAAACTCTTAATATGGGAAGAGTTGTAGTAAACATAATTAATTCAGATAATACAGAAGAATATGTTACAGATAGTTCTATAATGAATAACAATTTTGAAATAGGTAATTTAGTATCTGGAAGTTATAGACTTCATGTCGTGGATATTGCAGGATATCCAGAAGAGGTTAGGGATTTTGTAATTGATAAATCAGATATATATATAGATGATATAGTATTAAAAAAATTAGGAGAGGGTAGTATATCTGGTAATGTAAGTGCAAGAAACTTTCCTTGGGGAGAAATAAGAGTTAATACTTTAAGTGGAAAAGAGGTAGGACAAGCTCAAATAGATCCTGTAACAGGAAGTTTTGTGGTAGATGGATTACCTATAGGGACTGAATTGAAGTATGAGATAAATGTAGAGGGATATATGTGGTATGGAAATAAAGTTACAATTGATGAAACAATAAAAACAGTTGATTTTGGAACTATAAATTTACAAGAGGCAGGAACAAATACATTGGAAGTAACAATAACAAATCCAGAAGTAGTTACAGATTTCTGGCATGCAGGAATATTAAAAGTAGATGAAAATGGTAATAAAGATTATATAACAAATGGAGAATGGAACGGAGTTGATAAAATATACTTTAGAAATATTCCAACAGGAAATTTTGTTATAGAAATAAGTGGAAATGGATTTATGGATGTGCAAGATATGCCAGTAGAAGTAATTAATGAAAATACGATATTAAATATAACATTAAAAACACCAATAAAAATAGTATCACCAGCAACACATTCAATAGAAAAAGATGGTTCTGGAAATTATACAGTTAATTTCCAATGGGAAGATAATACAGCAGCTGTAAATACATATGTAATAGCTGTAAAACAAGGAGAAATTAATAATGACAATATAACAGGACCAGAATATTTTGATACAGCATTAATTTTAGTTGATAAAACAACAAAAGAGTGGACATATGTAGATAAAGCAAAAGCAACAGGAAGCTTAGAATTTGCTAATAGTTTAACACCTAATTATATGTATGGATATATGATATTGGGATTTGCAGAGACAACAACAGAATTAGAAGCTAAAATTAATAATAGTGAAGATGTAGAACCTATAATAACTTCTGAGCCAGATAGTTTTATGCTTGCAAGTGATGCAGTGGGAGAAGTAGAAGTAAAAGTAATAAACACTAATAATGTGCCAATACCAAGTGATGGTAGTATATTAGTAGCAATATTTAAAGATTATATGCCAATGGGAGAGGATGGTGGACCAACAGGAGATCAAATAGTTGGAATAAAAGAAAATGTACCGGTTTCAACATCATTATTGCCAGGAAATGCAGGAGGTATGCCAGGACAAACTATTACAGTACCAATATCTCAAGAGATGGTATCAACTGGAGCTACAACTGGATATGTTGCATTTGTAATGGTTCAAGATGGAATGGGAAATGAGATAAAAGATCTATTTGGTGCAGATTTAGTGAAGTTTAATAGTACGGGATTAGTAGAACCAATAGATATAAATATGATAGGTGGAGCAAGTGATGAAGTGATGGGAATGTTTGCTAAAAAGATAGTAACATTAAACTTAACTTTACCTACAGATATGAATATAGATTATAGTAAAAATGTAAAAATGGAAGCAGATATATATTCAGAAGATAAACATGATGGTATAGCTTGGAAGGAGTTTAAAGTTAATTCTGACAGTGAATTACCAACAACAATTACATTATATATAATGAAAGACTATGATATTAATAATAATTATAAAATACACACAAGTATATATTATGATAATGGGGCTGGTAATAAAGAAAATATTGCTGGAGATTATGATGTAGTTTTTGATGATGGAGATAGTTATAATATGGATTTGCAGTTAGATAATGGAAATCAGCAACCATCAGGAAAAGATATAACTTTAATAGGAAATATAACAAATAATGTAAATCAAGGAGCAATAGTAATGGATATACTAAAAACAGATGAACAAGGAAATCCATTATTAGATGGAAATAATGATCCGTTGCCACCAGTATATCATAGAGATAATGTAAGTGAAGGTGCATTAAATGAAGTAGCGAATTTAGAAAATGGAAGTTATAAAGCAGTATTTATATTGGACTTAGGACCTCAAGGTCCAAGTCCAGAGGATATAAAAGAGTTTAGAGACTTTAACGTAACAGATATAACAACAGATATTTCTTTAGGAGATATAGAATTTAATGCAACTCAACCAACAGGAAAAGATGTAACTTTAACAGGAACGATAACAAATAATGTAACCCAAGGAGCAATAGTAATGGATATACTAAAAACAGATGAACAAGGAAATCCATTATTAGATGGAAATAATAATCCGTTGCCACCAGTATATCATAGAGATAATGTAAGTGAAGGTGCACTAAATGAAGTAGCGAATTTAGAAAATGGAAGTTATAAAGCAGTATTTATATTGGACTTAGGAGCTCAAGGTCCAAGTCCAGAAGATGTAAAAGAGTTTAGAGACTTTAATATAACAGATACAACAACAGATATTTCTTTAGGAGATATAGAATTTAATGCAACTCAACCAACAGGAAAAGATGTAACTTTAACAGGAACGATAACAAATAATGTAACTCAAGGAGCAATAGTAATGGATATACTAAAAACAGATGAACAAGGAAATCCATTATTAGATGGAAATAATGATCCATTGCCACCAGTATATCATAGAGATAATGTAAGTGAAGGTGCATTAAATGAAGTAGCGAATTTAGAAAATGGAAGTTATAAAGCAGTATTTATATTGGACTTAGGACCTCAAGGTCCAAGTCCAGAAGATGTAAAAGAATTTAGAGATTTTAACGTAACAGATACAACAACAGAGATTCCTTTAGCTGAAGTAAAGTTTGTAATTAATGTAATATTAACTGGAACAAATAGCACAGGAGGAGGGGAATTATTTATTTTGGTTAATGGACAAAAATTAGTTTCCAATTTACCAGCAGAGAGAGTAGGAAACGAACTTAAAGTTGAATATAATCTTCCAATAGGTACTTACAAGGCAGAAGCTTTTATAGATACAAATGGAAACGGACAATATGATTCTGGTGAAAGAAAAGTTGAAATACAAACATTTGATATAACAAAGGACAATTATTATACAACTCAACAGTATAATACAGATATATTTTAAAATAATAGGGTTCAAATCGAGCATCTTGCTTGATTTGAACCCTATTATTTTTTTTTATTAATTAGGAAAGTATAAATTTATTCAGAAAATAAGCTACGCTATTTTTAAAAAATATGCGATTTTTCAAGGCAAAATTTTTCAGAAACCAAAAATTTAGAAAAACATTTATACTCTACCAGATGAAGGCGTAGTTTATTTTTTTATTTAATAGCTGAATTTGTAGTTGAATTAATATTAATCTTTTCTTTATTTAAATTTTCACCTATAATAATACTTTTTTTTAAGATTAAATTTGTGAATTCTTCCTTTTTAATAAGAATATTTTTATCAAATTTATATTTGTTAATTTGAATTTTCAAACTTAAATCTTTAAAATTATTTATAGTAGAATATTCAACAATTCCATTTATATCAGAAGTATATTCTTTATTATTAATTTTTAATTTTGTATTGGATAAAGGGTTTTCATCACTGTTTTTTAACTCAAGTATAATTTTCACTTTATTATCTTTTAACAATATATTGAAAATTTTGACTTCATTATTATTAATTGAAAACTTTTTATTTATATATTTTGTATAATTTTTATTATCAATTTCAATTGTATATGTATTTAAAATTGGTACGCTATCAAATTGAAAGCTTCCATTTTGACTACTTAATGTAGTTGTTTTAGAATTATTGTCTAAATTTATTAAAGTTATTTTTATATTTTCTAATGGATTTATACCATTTGTTAAAGTACCTTTTATACTGCTATAGATTTGTTCTAATTTAAAATCTAATCCACTTAAAGTAGAATATTTATTTACGTTTTTTACTGTCCCTTTTGATTTGAAACCATCCTTTTCAACTTTAATAAAAATTAGTCCGCTATTAATTTCAGCACTATATTCCCCTTTTTTATTAGTAAAAAAATATTTTTCTTCACTATTATTCCTCAAAGTTATTTTTGCTTTATCTATAGGTTCTCCATTTAAATGAGTTATAACCCCTTTTATTATACTTGGTATTTCCTCAATTGAAAAATTCAATTTATATTTTTTGTTTGATTCCAAATAGTTAATTGTTAAATTTTGATTTTTACTAATTCGGTACCCTGATTTAAAAATAGTAATATTATATTTTATTGCAGGGACTTTAATAGTAAAAGTTCCATCTATATCTGATGTAGTAGAAAATTTGTTTTCATTATTAATAAATGAAATAACAGCTCCTCCAATGAGGTTATTTTTATCTTTTATAGTTCCAGTAATAGTTGCTTCTAATTTTTGTAACGATAAAAATATATTAGAATCACTATTTTCTGAAAGTTCTATTTTTTTAAAAGTTACATTTTTTCCTATATTATTTGAAACTTCAATGTTGTAAATACCATAATTTAATTTAATTTTATAAAATTTATCTTCAATTTTAAAAGAGTTTATTAGTTCATTTTTTAAATTAAATAATTTTATTGTAGAATTATTTGCTATTTCAAGTTTGTCTAAACTAGAATTAGCTGTTATTAAAATATTACTTTTTTGATTGAAAATAGTAATAAAATTGAAAAATTTAAAATTTGGAATAAATTTTAAATTGATTGTTTTTTCATTTGAATAAAAGTCAAAAAATTTAGTAGCAGATTTATAATTATCGCTATTTAATTCAACATTATATTTTCCATAAGGAAGATTAATATTGAAGATTTTATTTTTAGTTTCAAACTCTTTTATGTATGATTTATTTTCTAAACTTGTAATTTTAATTTTATAATTATCCAAAGATGTAGAAATATTTAAATTTCCTTTTAGTCTACTAAGTTTAAATAAAAAATCGGATGATAATAAATTTTTAGGAGTTAAATTATAGTTAAATTCTTTATAATTTTTTTCCTTAATATTAAATTTATATTTTTTATTTTTCTTTATTTTTATATTTAATATCCCTTTTTTATTAGTCGTAAAAAAAGAAAATGTATTATCAGTTAAATTAATAACTTTAATAGAGGTCTTGAGGAAATCATTATTAAAATCATCTATTATTTGTACACGTATAGGAATAAAATTGCTTTCTATATAAAATACAAATTGATTTTTGGTTGTGGTAATTTCAATATTTTTTTTAAAAGAAATATAATTATTTTTGAAAAATGTTATTTCATATGTTGCGGGAAATAATAAGGAAGTAGCTATTCCTGATTTATTAGTTGATAATTTTAGATCTCCAATAGAAATAGAAACATTTTCAACTGGTAATTTAGTTTCTTTTGATAAAACAGAAAAAGAAACTTGAGTAAAGTCATCTGCGAATGAAAAAGAACTTAAAATAAAAAAAAGTGTAGCGAAGAATGTTAAGAGTGTAATTTTTATAAATTTTTTCTTAAATTTATAAAAATAGATTCTAAATAAAAAATTATTTTTCAATATTATCACCTCAATCTTGTATTTATATATATAATTGTGTTATAATTAAATTATAGCATTTTTTATATATATTATCAAGTGGGTGATGAATAATGAGGGTAGGAATAAAGGATAAATTTACATTGACATTAGTATTAATGAATTTTTTAGCAATTATATTTTCTTTTTCAATCTCTATGTATATTGTTTATAAAAGTATTCAGAAAAATTTAGGCTCCACAGCAACAAAAAATTTAAAAAATATGGAAAAAAAATTAGAAAATTTAAATGTAGAATTAAAAACAGAGGCTAGAATATTATCTAAAAATATACAAGTTATTTCAATTTTAGATTCTAATAAGTATATAGATATAAATTCGGAAAAAACAGGAGAAAAAACTTATTATAGAACTTATGATATAGACAAAAAAAAATATTATAGATATAAGTTTATTTCTGAAATATCTGAAATGTTTCAAAACTATTCAATAGGTAATGAAAAGATAGAGATAGATATTATATCTATTAATGGAAAAAGTATATTAAATAGAGATAAAAAAATATCAAAAGAAAATTTAAAAAAATATTTAAGTAAATTTATTGGAAATAGTTCTGCAGATTATTCTTTTTATGAAATTGAATCAGGTAAAATGTATTCAAAAACATTGTCTCCTATATATTCAAAAAAAGATAAAAATAAATTTATAGGATTTGTATTATTAAAATTACCTATAGAAGAAAAAATGTTGAAAGAGATATTATCCGAAGAACAAGATGAAGTAATGGTGATTGATAATAATTATAAAATTATATCCACTACAATTGATTTAGAAAAAACAGATAAAATAGATTTAAAAAATTCTAAAAAAATAACAATTGATAGATCAATTTATTTGTTAAAAAAAATAGAATTAAAAGGCTTTTTATGGGAAAAGTCAGGAGAGATAATAGTAGCTGCAAAGGAAAATTATATTTGGGAAATTTCTAAAGAAATTTCTTTGCATCTATTTTTAGAACTGTTTTTAATTTTTGTGATGATATTTGTAGTGTTTAATTATATGTTAGATATGTTTTTAGATTCAATAAGAGAATTGACTTTGAAAATAAATCTTTTAAGAGGTGGGAAATTTAATATTGATTTAACAAAGCTGAAAAATAGAAAAGATGAAATTGGTTTGTTAGCTCATGATTTTGATGAAATGGCAGATGTATTAAAAATAAAAACAGAAAAATTAGAAGAGATTAAAGAAGAAAATGAACAAAATAGTAGTGAATTAAAAGCCAAAAATGAAATTTTAGCTAAGATGAAATATGATTTTGAAAAAATAAATAGTAATAGAGATAAATCAAATAAAATACTAAATTCTAGGATATCAGAAGTAACAAATTTATATTATTTAATAATAAAAATGACAGATAACATTACAAACGAAAAGTTTTACTCAATTATAGTAAGAGGGATAAGAGAAGGGTTATTTATAAAAAATGTAATATATTATGAAAAAGAAGAAAATATATTGATACCTAAAGCCAAAACGGGTACAAATAAAAATTTAAATGAAATAAAGATAACAAAAGAGTTAGAATATAAAATGTTGAAAAATTCAATAATTGAAGTGACAGAATGTAAATCATCACTAGATATAAATTTTAAGAACCCATATATTCTTGTATTAAAAACAAAAGAAGATGGCAAAAATGAAATTTTTGGAGTAATAATATTTGATAATAATAAAAAAATGGATGAATATTTGGAGCAAACTCTAAATACGTATAGTAAAACTATAATACTAGCTTTAGAAAATAGGAAACTATATAAAAAAATGGTGGAACAATTAAAAAGAACAGAAAAAGTTGCAGAAAAATTAAAAAATGCAGATATGACTAAAAATACAATTTTATCAAACATGAGCCATGAGTTAAAAGCACCTTTAGTACCAATTATGGGATATGTTGAAATGTTTTTAAATAGTGAATTGGGAGATATTACTGTAAATCAAAGAAAAGCATTATTTACAGTTTTAAATAATGTAGAAAGATTGCAAGAGATGATAGAAAATATTTTGAATTATTCAAAACTAGAGAATGGTGAATATGATTTTTATAATAAGGAATTTAATATAAAAGAATTAGTTTATAATGTGTCATCTACTTTTGAAAATAGAGTAATTAGAAAAAATATTAATATTAATATAGAGATGAATTTAAAAGATTATTTGGTTGATGGAGATAAAGATGTATTAGGGCAAGTTTTGAAAAATATTATATCAAATGCAGTGAAATTCTCATATGAAGGTAAGGAAATAAAATTAATAGTTACAGAAAAAGATGATAAGATTAAATTAACTGTAAAAGATAGTGGAGTTGGAATAGAAATAGAAAAAATAAAAAATATATATGATGACTTTAGGCAATTAGAAGAAGGATATACAAGGAAACATAATGGAGTTGGATTAGGGCTTACAGTTGTAAAAAAAATATTAGAAAAATATGATGAAAAACTTTATATAAAAAGTTTTAAAGGAATAGGAACAGAAGTAAGTTTTTATATAAAAAAATTGAAAAAAATAGATTAATATGATATAATTTTAAAATTAATTGAGAGATAAATTTAGGAGGGAAACTATTAATGAATGTAGAAAAAGAGATAGAAAGACAACTTTCTATATTGAAAAGAGGAGTAGAAGATCTCATATCAGAAGAAGAGTTGAGAAAAAAAATAAAAAAATCTATTGAAACAGGTAAACCTTTAAAGGTAAAATTTGGAATAGATCCTACAGGAAACTCTATACATATAGGACATGCGGTACCAATTAGAAAATTAAAACAGTTTCAAGACTTAGGTCATACAGTTCAGTTTTTAATCGGTACATATACTGCAAAGATAGGAGATCCAACTGGGAAAAGTGAGACTAGAAAAGTTCTTTCAGATGATGAGATTAATGAAAATATAAAAGGATATTTAGAACAAGTAGGGAAAATATTAGATATAGATAAAACTGAGATTAGATATAATGGAGAATGGTTGTCAAAATTAACAATGGAAGAAATTTTGAATTTGACGTCTCAATTTACAGTATCACAAATGATAAGTAGAGAAGATTTTTCAAAAAGATTAAAAGAAAATAAACCTGTAAGTTTAGTTGAGTTTATGTATCCAATATTACAAGGGTATGATTCTGTAGCATTAGAATGTGATGTAGAATTAGGAGCCACAGAACAAAAATTTAATTTATTAAGAGGAAGAGATTTACAAAAATATTTTAATCAAGAACAACAAGTTTGTATGATGATGCCAATATTAGAAGGAACAGATGGCGTAAATAAGATGAGTAAAAGCTTGAACAACTATATAGGTATCACAGAAGCTCCAAATGATATGTTTGGAAAAGTAATGTCGATATCAGATGAATTAATGATAAATTATTATGAAATGGCAACAGAAATACCATTAGAAGATATAAGAAAAATGGAAGAAGATATAAAAAGTGGAGTATTACACCCTATGGAAGCAAAAAAAAGATTGGGAGAAGAAATTGTAAAATTATATCATAATGAAGAGAGTGCAAAAGCAGCTAGAGATTATTTTGAAAAGATGTTTAGTAAAAAAGATATTCCTGATGATATTCCAGAGATAAAAGTGGAAGAAAATGAGATGGCTGTAATCGATTTGATATTCGAAAAAATAAAATTTGGAAAATCAAAAAGTGAAGCAAGACGTCTTATAAAGGGGAATGGATTTAGAATAAATGGAGAAGTTTTTAATGATATTAATGGAACTATAAAAATGATGGATGGAATGATATTAAAAGCGGGCAAGAAAAAAATAGTTAAAATTATAAAATAGTTTATGGAGGAGACCATGAATATAAGAGAAGAAAATATTTTTTTTAATCTACAGGGAGATTCAAAATATGAAATAATAAACAGTATGATTGCTAGTTCTAAATTAAATGAAAATTTAAAAGAAATAGCAATTGAAAAAGTGAAATTAAGAGAAGAAATTCAACCAACTTTTGTTGGAAATGGAATAGGATTAGCACATGCTAAGTTTCATGAAATGGAAGAGATACAGGTTATTTTAAGTACCAATAAGCTAGGAGTAGAATATGGTGTGGGAGAAGATGAAGTTGCAAATATAATTTTTGTAGTATTGGCTCCTTTGGAAAATAATAGAGATTATTTAGAAGTTTTGGCAAGAATAGGAAGAGTTTGTAGAAATAAAAATATAATATCAAAGATAAAAAATGCGAATTCTAAAAAAGAAATACTAGATGTTATAGAAAAAATTTAAAAGTGGCATTGCCACTTTTAAATTTTTTTTTATAAAAAAAAAGGAAATTTTTTTAAATAGAGTATAATATATAATGTAGGTTTATTTTAATAGTAATAATAAAAAAATTATAAAAAATAAAATAGGGAGGGGTATTATCATGAGAAAGAAAGTTATGGTTGTGATTTTATTTAGTTTTGTATTATCTTCATTTGCAGGTGCAGCAGATAGGGAATTATTAAAGAAGGTTTTTGATAAATATAAAAAATTAAAAAATTATGCTATAGAATTAAATATAGAAAATAAGAGTATAAAAAAAGATGATAAAAAATTAAAAAAAATGATGATAGATGATTATAACAAAGGTATTGATTTGTTAAATTCTTTAGATACTAAGGAAAATATAAGGAAAGATTTGTCAAATGCAAAAAATGTAGAAATTTATAAAGAGATAAATGGTTTGTTAGAAAAAATAACAGGAATAATAATGAATGAAATGACAGATGACTTACAAGGAATAAGAGAAAAATTAGTTTCTGATTATAATAAAGGTATATCACTTTATGAAAAGTTAAGTGGAAATAAATATAAAAGAAAAAACATAGAAAATATGAATACAGTAGATATGTATAATGAAGTAAATAATGTACTAGAAAAAATATTGGAATCAAAATAATATAGAATAAAAAAAGGTGAGATAATGAATAAAAAAACAAAAGCAGAAAAAGTAATATTAATTTTAAAAGATATATATGGAGAACCTGTACCAACATTAAATTATGAAAATGAATTTGAACTATTAATAGCAGTAATATTATCAGCTCAATGTACAGATAAAAGAGTAGATATAGTTACTGCAGAATTATTTAAAAAATATAAAACTCCAAAAGAATTTATGGAAATGGATATAAAAGAATTAGAAAAAATAATTCATTCCACTGGTTTTTATAAAAATAAGTCTAAAAATATAAAAAAATGTGCAAAAATGCTTGTTGAAAAATATGATGGGATTGTACCCAATAATATGGATGATTTAATAAAATTGCCCGGAGTTGGAAGGAAAACTGCAAATGTAATGTTAGGTCATATATTTAATATACCTGGAGTTGTTGTAGATACTCATGTAAAACGATTATCAAATAGAATAGGATTAACTAAACAACAAGATCCAGTTAAAATTGAATTTGAATTAATGAAAATTATTCAAAAAAAAGATTGGTTTTTATATTCTAATCTGTTAATTTATCATGGAAGAGCCATATGTACAGCAAGAAATCCAAAATGTGATAATTGTAAAATAAGAGTTTACTGTGAATATGGAAGGGGAATAAAATAATGATCGAACAATTATTAAAAGAATTAACTGAAAAAAAGGGTTCAGATTTACATGTAAAAGTTGGAAGTAGACCAATGATTAGAATAGATGGAGAGTTACAGCCTATAAATGGAGTAGAAGTTATATTACCTAAAGATATGGAAATAATGGAAAGGGAACTTTTAGATGAGAGAAAAAGAGAAAAGTTTAGAAAAAATAAAAATATAGATTTTTCATATGCTATTCCGGCTTTGGGTAGATATAGGATAAATATGTTTATGCAAAGAGGAACAATAGCAGTTGCTATAAGAAGAATATTACAAAATATTCAAAGCTTAGAAAAGCTAGGACTTCCAGATGTTTTAAAAGAAGTTATTAAAGAAAAAAGAGGTTTAATATTAATAACTGGTGCTGCTGGAAATGGGAAAAGTACAACTGTTGCAGCAATGATAGAATATATTAATGAAAATCTAACTAGAAATATAATAACATTAGAAGATCCTATTGAGTATCTATTTAAAGATAAGAAATCATTAATAAGTCAAAGAGAGATACCAAGTGATATAGAAAATTATAATCAAGCTTTAAAATATATAATAAGACAAGATCCAGACATAATTTATATAGGAGAATTAAGAGATAAAGAAACTTTAGAGGCTGCATTTAAAGCGGCTGAAACAGGACATTTAGTGATTAGTACTGTGCATACTGTAAATGCCTCTCAAACAATTACAAGGATATTAGATTATTTTCCAAAAGAGTTACAACAAAGAATACGAAATCAGTTGTCATCTAATTTGTTAATGGTAACTTCTCAAAGGCTATTACCTAAAAAACAAGGGAAGGGAAGAGTAGCAGCAATAGAAGTTATGAGAACAACGCCAACAATAAAAGATTTAATTTTAACTGTAGATGGATATAAAAAAATTCCTGAAGCAATGAAGCTAGGGAAAAAAGAAGACGGGATGAAAACGTTTGACCAATCAATAGAAAAACTATATACAAATGGAGAAATTGAATATGAAACTGCTCTATCTGCAGCAACTGTAAAAAAAGATATTCAACTTTTGAAAAGAGGAATAAATCACGCAAGCGCGTCTGATTATTATAAAGAGATGATAGAATAGGGATGATTGTAATGTTTAGAAAAAAAACATTTTTATTAGGAATATTTTTAACATTTTTAGTTACAATTATATTTTTTATGTATTCTAATTTAAAGATAAATCTTTTTGAAATATTTGAATTAAAAACAGTAGATTTAAGATATAAAATTAGAGGAACTGAGAAAAAAGATTTAGGAGTTATCATAATAGGAATAGATGAGAAAAGTTTAGACAAGATAGGGAAATGGCCATGGAAAAGAAGTATACATGGAGAATTAGTTAAGAAATTAAATGAAGATGGAGTTAAAAGTATAGCTTTTGATGTATCTTTTACAGAAAGTTCGACATCAAAAGAGTTATTAGATTATAAATTAAATTTAAAAAAAATAATATTGAATGGTTATAAAAATGGAGATATAAAGAAAAAAACAGCTCTGTCTTTGGCAAAAGAATTAAATAAACTAAAATTAGATGAAGATTATTTATTTGCAAAGGCTTTGAAAAAAGCTGGGAATGTATCAATAGGAACTTACAATATATTAAATGAAAAAGATGTAAAGTTATCAAAAGAGGTTTTGGATAATAAAGTATACATATTTAATAGATATGTTAATGTTCCTGGTCTTGCAGAGCAACTAAAGGAAGTAGGTAGAACTGGAAAAAGGAGTTTTGAGCCATTTTCAGTATATAAAGTTATTCCGCCGATAAAATTAATAGGAACATTTTGTTATGGTGTAGCACCTTACGAGATTGGAAGACCTGATCCAGATGGCGTATTCAGAAGTATACCTATGGCAACATATGAAAAATATACCGGATTATACTTTCCACCATTATATTTACTTGCGTATCTAAACGCTAATAAATATACAATGGACAAAAATGTAGTGTTAGATATAAAAAATAATAGACTTAAAATTTATAAAAATGCAGCTCAACTTTCAGGGCTAGAAAAAAGTATTCCATTAAATAAAGATGGATATCAACGGCTTAATTATTATGGAAAAGGGCATACATTTGAATATGTATCTTATATTGACGTGTTAAATGGAAATGTATCAAAAGATAAATTAAAAGATAAAATTGCCTTAGTTGGTTATACTGATACAGCAAAAGGGTTATATGATTTGAGAGCGACTCCATTTGATCCAAATACCCCAGGAGTAGAAATTCATGCGACTGCAATACAAAATTTGATAGATAATAAATATTTAGTGAGATGGGAAGTTGGAGAACATACAATATTAATATTAATTTTTGGATTGTTAATAACAATGTCTTTATCTATGAAAAAAGCTAACTTTAAAACTACAAATTTTATGGCACTGGGTATAATAACAGGTTATATTGCAATGGCGCAAATTTTATTTAATAATGGTATTTGGATAGAGATTTTTTATCCAACAATGAGTTATATTACAATATATTTGTCATTATTAATATTAAATTATGTAAATGAAGAGTTGGAGAAAAAGAGAGTGAAAAATGCTTTTAGACATTATACACCTCCAGCACTAATAGATGAACTGTTAAAAAATCCTGACAAATTAAAACTCGGTGGAGAAAGAAAAATTTTGACAGCTTTTTTTTCGGACATACAAGGATTTACAAGTATATCTGAAGGAATGGGACCAGAAGAACTTGTTGAATTTTTAAATGAATATTTATCTTATATGACAGATATAATATTAAATGATAATGGAATGGTTGATAAATATGAAGGCGATGCTATTATGGCAGTGTTTGGAGCACCAGTATACATAGAAGATCATGCGTTAAGAGCGTGTTATGCAGCTTTAGAATATCAAAAGAAATTAGATGAATTAAGAGAAAAATGGTCTGGAAGAGGATTACCACCTATTTATGCTAGAATAGGAATAAATACAGGAGAAATGATTGTTGGGAATATGGGGTCTCAAGATAGATTTGATTATACAGTTATAGGAGATAATGTAAATTTAGCTTCAAGATTAGAAGGGGCTAATAAACAATATGGAACTTATATAATGATTAGTTCAGATACTTATAGAGAAGTAAAAGATTATGTAGAAGTAAGAGAGTTGGATATAATTAGAGTAAAAGGTAAAAATAAGCCAGTAGATGTGTATGAATTAATTTGTAAAAAAGGAGAATTAACAGAGCAAAAAAAAGGAGTTTTGAAATATTTTTTAAAAGGATTAGTTTATTATAGAGCACAAGAATGGGAAGAGGCGATAAATTCATTTGAAAAAGTATTAGAAATTGATAAAAATGATTCTCCAGCAAAAGTATATATAAAAAGATGTGAGATTTTTCAAAAAAATTCACCTGAAGAAAATTGGGATGGGGTTTATACTTTTACCACAAAATAAATTTATAATAAATAAAAGAGGGAGGAATTAAGATGAAAAGAATACTAATGATTTTACTAGGGCTAATGCTTGTAGTTAATATGGGTGTTTTTGCACAAGGAGATGATTTAGAATCATTGTTACAAGAAGATGATACATCATTAGAGCAACAATTATTGGGAACTGCTGAGAAAAAAAGTGGAGATTTAATGGGTGGTAGTGTAAAAGATATAATAGGACAGGCTGTACTACAATATCCAAATGAAAAAGTATGGAAACAAGTGTATAAAGGGATGGGAGTTAAAGAAGGAACAACAGTAGTTACTATGGAAAATTCAGAGGCTAAAATTGAGTTAGAAAATGGAGCAATTATTGATTTAAGACCAAAGACACAAGCTATATTTAATACTTTAAGAGAAGACCCAGAGAAAAAAGAGATGACAGAAACAGGTATTCAACTTTTTGTAGGAAAAATATATTCAAATGTAAAAAAACTTGTAAAAACAGGTTCGAAATATGAAGTAAAAACAGGGTCAGCAACTGCGGGAGTGAGAGGTACAAAATTTACAGTTGCAGTAAATGAAACAGGAGATACAGAAATTACAACTTATGAAGGAACTGTTGCAGTAACAACAGTACAATCGCCAGAACCAGTTTTTGTAATGGCAGGAGAAAAAATAAAAGCATTAAAAGGTGGGAAAGTAAATCCAAAAGAAAAACATAATGAATTACCACCAAAATCATTAGAAAAACCAGTAAAAGAGAAGAAAAAAGCAGAAAAAAAAGCTAAAGTAGAAGAAAAGAAACCAACTGAAAAAGGAAATGCTGGAGTTACAATGGAAGCAGGTTCTAACGTTGTAAATGGTAAAAGTTATGGAACGTTGGAGATAAAACCTGATTTTGCACATATATTTGGAACGCCAATTGGATTAGGTTTAAAAATAATGGTGTTGCAAGGAGATGAAAATGGTAAAAATGTAACTAAATATGGTCCAAATGCTTCTGATAAATGGTATGATTCAGTATCTTTAAGATGGGCAGAATACGATAGTAAAACATTTGGCATAAGATATGGAGAATTATCTGGAGTAAGTTATGGTCAAGGATTGTTAATGAGTGGATATTCTACTTTTGGAATAAAAACAAGAGTGACTTTACCAAAAAATGGATTTAAAGCTATGGTTCCATTGAAAGAAGCTTCAGATTCTAAATTGGATACAGTTTATGCAGTAAGATTAGAGAGCAAAGTTATGGATAAATCGCCATTAACATTGGGGATTACAGCTATAACAGATACAGATGTAGCTGATGATAGTAAATTAAATAAAACAGCTGTTGGTTTAGATGCTTCATATCCTGTTTCAAAATACTTAATACCATATGCAGAATTTGCTAAACTTATGGATTTTGGACAAGGAATGGGAGCAGGATTTAGAGGTGGAAGTAAATTTTTCAATTATAAATTAGAATATAGAAATATAGGTAAGGAATTTACACCTGTGTTATATGATTATTATTATAACAAAAACAAAGATACATATGATTTGAGCAAGGTAGAGGCTTATTCAGGATATTTACTACAAGTTGGATCAAATATATTTGATATATTAACTATGGGAATAAAATATGAGGATTACGGAGACAATAGTAAAGTATTAACAGGAACAGCACTATTTTCTAAGTTGAAATTTTTACCAGGTATGTGGTCGAGATTACAGGCTGGATTTAATTACATGCAAAAAGGTGTAGATTTTAATGACTTCAGTTGGGAAGATAAAGAAAAAGCTGTGATTAATGGATATATTGTTTATCCTGCAAGTGGAAGTGTAGATGTTAGAATAGAGTATAATAAAGAAGCAGGAGAAGAAGCATATCAAACATTTAGAACAATTATTAGATTTTAACATATAAAAAAATATAAAAAGCAGGAAATATATTAATTTCCTGCTTTTTTAATATATTAAAAAAGTATAAACTTATTTAGCCCGACTTCACTGAGAATTAGCTAAAAACAATTTAAATAACTCTTAAAATATGGTATAATTAAACTAATTAATATTTGAATGATATAGTGTAAAATTTTACAATTATTTTACATTATATTATACTAATGGTAGTCTAATAATTTTTTAAAGTTCACTATTAATATATTCTAAAAAAAAATAATTTCTTTGATAAATTGTATGTATCTGATATACTAATTATAAAGTATGTTATAATTAGTATATTGATAAATTTTTATATTTTAATATTAAAGTATAAATTTATTCAGAAAACAAGATACGCTATTTTTTTAAGTAATTAAAAAACAAAAGGGGGAATAGAAAATGCATATTATAGTAAAAAATTTTCTAGAGTTGGGAAGAGATGTGTTATATAGTAATATTAAAAGAAATTTTGAAAAAGGGAAAAAGCTTGTATTAGATTTTAGAGGAATAGATGAAATCGATGAGGAGTTTTTAGGTGAAACATTAGGCAGAGTTATAGAAGAGCATAATTTTCAAGCTATATCTACTCAGATAAACTTTATTAATGTGAATAATGATATAAAAAAATCTATAAAAAAATTAATTTAGGAACGGCTTAAAAATAACCTTATTATTTTGTTATAAAACACGCAATGCTTCAAGCGTTTTTATGACAAAATATAAAAACCTTATTTTTTAATATTTCTTAGTTTTTTATTGATTTTATACTTTTGTTTTGATATAATAGACAAAAGTAATTAAAAAATGGACAAAGAGAGGTAATTGATGATGAAAATAGAAAAAGTTGGTATAGTTGGATTAGGAACGGTTGGAACAGGAACATTAAAAATATTAATTAATGAAAGAGAAAAAATTCATCAAAAAACAGGTGTGTGGATAGATGTAAAAAAAGCCTGCGATTTAAATATAGAAAGAGAATTTGATTTTGATGTAGATAGATCAATTTTTACTAATAATTATAATGAGTTGATAGAAGATGATGAGATTTCTATTATTGTAGAATTAATAGGTGGATACACAATAGCAAAAGATATAATAATAAAAGCTTTAAAAGCTGGTAAAAATGTTGTAACAGCAAACAAAGCTTTAATAGCTAAATATAGTAAAGAGCTATTTGCTATAGCAAATAGTAATGGAACAAAAATTTATTATGAAGCAAGTGTAGGTGGAGGAATTCCAATAATTACACCTTTACAAGAATCATTAGCAGGAAATAATATTTTAAGTATAAAAGGGATAATAAATGGAACTGCAAATTATATATTAACAGAAATGACAGAAAAAAATATTGAATTTGAAAAAGTATTGAAAAAAGCACAAGAATTAGGATATGCAGAAGCAGATCCTACTTTCGATATAGAGGGAATAGATACAGCACACAAAATAACTATATTAGCATCATTAGCTTATGGCGGATATGTTGATTTTGAAAAAGTAGGAGTAAAAGGGATTACAAGCATTACTGGAGAAGATATAAAATTTGCGAATGACCTTGGATATAATATAAAATTACTTGCTACAGCAAAAAAATATGAAGATGAAGAGATTGAAGTTAGAGTTCAACCAACTTTGATTTCACAAAAAGAGATATTGTCAAATGTAAATGATGTATATAATGCAATAGAAGTAATTGGAGATTATGTAGGGAAAACAATGTTTTATGGAAAAGGGGCAGGAATGGAACCCACAGGAAGTGCTGTTGTAGCAGATGTAATAAAACTTGCTACAGAAGATCTGGCGAATAATATTCCAAAAGGAAACTATTATTACAATATAAATAAAGAGCTTTCTTTAAGAGCATTAGAAAAAAGTATATCAAAATATTATATAAGATTAAATGTTAAAGATGAAATTGGAACATTAGCATTTGTAACAAATAAATTTAAAGATAATAATATAAGTATAGAATCTATGATTCAGACATGTAAAAGTTTTGATGATAATAAATTTGTATCTTTGATTTTTATTACTCACGATGTATTAGAGGCTGATTTGAAAAAATCTTTAGATGAAATATATATAAGCGAAAATGTAAATGTAGAAAAATCTATTTTATTAAAAATAGATGAATAAGAATTTTTAGAAATGGTTTGAAAATATGCTGTTTTTTTAAATGTTTTTTAGGAATCAATCTGTTAGCGAATATTTCAAAATAGGGGGGCGTTAATAGTTATGACAAAAGATAGTTTAAGCTTAGGAGAAGGGAATACACCGCTAATAAAAGCTATTAGATTAAATTTATATTTTTTAGAAAATTTTAATGTTTATTTTAAAAATGAACTATTAAATCCTAATGGAAATATAGAAGATAGAGGAGTATATAATTATCTAAAAGATTATATAGATAAAGGAAAAGAAGGGGTAATTGTATATAGTACAGGAGAAGCGGCTGCTTCAGTTGCTTCATATGCTTCTAGAATGGGATTAAAATCGTTTATTTTTGTTGCGAAAGAGCAATATAAAGAAAAAAGATATAAAAAAGCATTAAAATTTGATACTAAAATATTTGTAATAGATGAAGAGGAAAAAGAAATTATAAAAAATATATATAAATTAACTGAGAATTATCCATATTTATCTATAATTCCATTAGAAAATAAGATTTTTATGGATGGGATAAAAACTATTATAAAAGAAATTGAAGATAAAATAAAAAAAATAGATTATATTATTGTAAAAAAAGCTGAAGTAAACAGTGGAAGATTTAGATTTTATAAAGAGATATTCTCTTCGGAAGATATAAAAGTGTTAGGAGTATCAACTGAAGAAAGTGGCAGTGATATTATAACAGTAGATGAATATGATGTTATAGAAGCGTTAAATACTAATAGAAAACAGGAAGGTATTGTAGAAGAGGAAGCTGCGATATTAACAGCAGGTGTTATGAAATGTGCAGAAGAAAATGTTTTTAAATCAGGAGATAATATAGTGTGTTTAGTTGATGAAAGAGAAAATATAGAAGAGTTGGAAGAGTATGAAAAGCAAAATATTTATATGCTAAAAAATGGAATTGAAGAAATAAAATTTAAAATGGGATTAAAAAACATTCTTTAAAAGAAGAGAATATAAATTTAGGAACGTTTAAAAAATAATGCTTTCATATTTTGTTATTTTTAAGCCATTCCTTATTCAGAAAATAAAGAGGTGTGATATGGAAAAAATAATTGAAATTTTAAAAGAGGATTCAAGAGTAACAGTAAAAGATATTGCAGTAATGTTAGGAATGACAGAAGAAGATGTGAAAACGGAGATAAAAAGACTTGAAAAAAATGGGATAATTTTGAAATATACTACTATAATAAACGAGGAAAAATGGGAAACAGATAAAGTAAAAGCTTTTATAGAAGTTAAAGTTACACCTGAAAGAGAAAGAGGTTTTGATGCAATTGCAGAAAGAATATATAAATTTCCTCAAGTAACTTCTTTATATTTAATGTCAGGAGGATTTGATTTTTTGATTGCTGTAGAAGGAGATTCATTAAAAGATGTAGCTCTTTTTGTTTCTGAAAAATTATCAAGTTTGGATTATGTAAATAGCACAGCAACTCATTTTTTATTAAAAAAATATAAAGAAAATGGTATAAGTATGATTGCTGAAAAAAAAGATGATAATAGAATTGCGGTGATGCCATAATGATAAATAAAATATCAAATAGATTAAAAGAGATTAAACCTTCTGGAATAAGGAAATTTTTTGATTTAGTACAAGCTAAAAAGGATGTAATTTCATTAGGTGTTGGAGAACCTGATTTTACTACTCCATGGGGAATAATAGAATCAGCTTTTTATAACATGGGAAAAGGTAAAACTCATTATACATCTAATAATGGATTGTTAGAATTAAGACTTGAGATTAAAAATTATTTAAAAAAATATAATTTAGATTATGACGAAGATGAAATAATAGTTACAGTAGGTGGAAGCGAAGGAATAGATTTGGCATTGAGAGGATTAATTAATCCAGGAGATGAAATAATAGTACCTGAGCCAATATATGTTCCATATAAGCCATTGTCAATGTTGAATGAAGCAAAGGCAGTAACTATAGATACTTCAAAAACAAATTTCAGATTAACTGCAAAAAGTTTAGAGGAAAAAATAACTTCTAAAACTAAAGCATTAATATTATGTTATCCAAATAATCCAACAGGGATTATCTTAGATAAAGAAGAGGTTGAAGAGATTGCAAAAGTAATAAAAAAACATAAAATTTGGGTAATTAGTGATGAAATATATTCTGAATTAAATTATGGAAAAGAACATTTTTCTATAGCTTCAATTGAAGGGATGAAAGATTATGTTATTTATTTAAATGGTTTTTCTAAAGCATTTGCTATGACAGGGTGGAGAATAGGGTTTTTAGCTGCTAAAAAAGAGTTAATAAATGAATTAATAAAAATACATCAATATGCAATAATGTGTGCTCCTGTTATGTCTCAATATGGAGCCATAGAAGCATTAAAAAATAGTTTTCCAGAAGTGGAAAAAATGAAAAATTCTTATGATAGAAGAAGAAGATTAATGTTAAATGGTTTTAGAGAGATTGGACTTGATGTAATAGAGCCTGAAGGGGCCTTATATATTTTTCCAAGTTTAGAAAAATTAGGGATAAAAGGTGAAGAGTTTGCAATTAGATTGCTTGAAGAAAAAGGAGTAGCTGTTGTGCCGGGGACAGCATTTGGAGAAGGATTTGAATATAATATAAGATGTTGTTATGCAACGGACATTGAAGATATAAAAGAAGCAATTAAAAGAATAAAAGAATTTGTAGATGAATTATAAGGGCAAACAGTTGTTAGCCTTTATAGGGAATATAACTTTAATTTTTAGAAAGGAAGAATAAAACAGATGGGCATAATTGTACAAAAATATGGTGGGACTTCTGTAGCAAATACAGAAAGAATAAGAGAAGTTGCAAAGAGGGTATTAGAAACTAAAAAAAATGGGAATGATGTTGTAGTAGTATTATCAGCACCAGCAGGAACAACAGATAAATTAATAAAAATGGCAGAAGAAATTTCTCCAAATCCTCACGTAAGAGAAATGGATATGCTTTTATCTACAGGAGAGCAAATATCTATTGCATTATTAGCAATGGCTATTTATGAAATGGGATATAAAGCAATATCTTTTAATGCAACACAAGTTGGGATAAAAACAGATAAAGCCCATACAAAAGCTAAGATTCAATCTATTAATTCTAAAAAAATATTAGAAGAGTTAAAAGAAGATAAAGTAGTAATTATAGCAGGATTTCAAGGTGTTACAGAAAATATGGATATTACTACACTGGGAAGAGGTGGCTCTGATACAACTGGTGTGGCTTTAGGAATAGCTCTAAAAGCTGATGAAGTTGAAATATATACAGATGTTGACGGAGTATATACAGCTGATCCAAGGATAGTGAAAGATGCTAAAAAAATAAATTGTATATCATATGAAGAGATGTTAGAACTTGCTGGCTCAGGAGCAAAAGTTTTACATCTAAGGTCAGTTGAGCTTGCAGCTAAATATGGTATGAAAATACATTTGAGATCAAGTTTTTTACCAGAATTAGGAACAATAGTAAAGGAGGAAGGGGAAAACATGGAAAAGGCAGTAGTTAGAGGGATAGGACATTCTAAAAATGAAGCAAAAATTACAATAGTAGGAGTTCCTGATAAACCTGGAATTGCAGCTAAAATATTTGGAAGAATAGCTACTGAAAATGTTAATGTTGATATTATTATACAAAATTTAGGTGGGGATGGAAGAAATGATATTTCGTTTACATTACCTTATACGGATTTAAAAAGAGCATTAGAAGTTTCTGAAGAATTAAAAAATGAATTATCTGCTGAAAAAGTTATTTATGATGAAAAAATAGGCAAAATAGCAGTTGTTGGAGTTGGAATGAAAAGTCATCCAGGTGTGGCAGCTACAATGTTTAAAGCTTTGGCAGAAGCAGAAATTAATATAGATATGATATCTACATCTGAAATAAAAATAGCCTGTGTAATAAAAGATGAAGATTTGGTAAAGGCAGTAGAAGTTCTTCATAATACATTTAAACTTGATAATGGAGGTATAAAAATTGAAGAGTTATAGAGTTGGAATAGTAGGAGCAACTGGAGCAGTTGGACAAGAGATGTTAAATGTACTTGGAAATAGAAATTTTCCAGTGAAAGAATTAAGATTATTTGCATCTGCAAGATCAGCTGGAAAAAAAATAAAATTTAAAGGAAAAGATATAGTTGTTGAAGAATTAACAAAAGAATTTTATAAAGGGTTAGATATAGCACTATTTTCTGCTGGTGGTAATATTTCAAAAGAATTTGCACCAATTGCAGCACAAAATGGAGTTGTTGTAATTGATAATAGTAGTGCTTTTAGAATGGATGATAATGTGCCATTAGTTGTGCCGGAAGTTAATCCAGAAGATATAAAAAAACATAAAGGGATAATAGCAAATCCAAATTGTTCTACAATTCAGATGTGTGTGGCACTTTGGCCAATACATAAAGAGTTTGGAATAAAAAGATTATTGGTTTCTACATATCAAGCAGCTTCAGGAGCAGGAGCAAAAGGGATGCAAGAACTATTAGATCAGACAAAAGCATTTGTAGAAGGAAAAGAGATTCCTATAGATAAATTTGTACATCAACTATTATTTAATGTAATACCTCATATAGATGAATTTACGGATAATGGATTTACAAAAGAAGAATTAAAAATGATAAATGAAACAAGAAAAATATTTCATGATAATGAAATAAAAATTTCTGCTACAACAGTTAGAGTTCCAGTTTTGAGAGCTCATTCTGAATCTATAAATTTAGAATTAGAAAAAAAATCTACATCAAAAGAAATTAGAGAACTATTAAGAGAATCTGAAGGAGTAAAAGTAATAGATAATCCTAAAAATAATGAATATCCAATGCCAATTGATGCAGCAGGTACATATGCCACATATGTTGGTAGAATAAGAGATGATGAAGTATTTGAAAATGGAATATCACTTTGGGTAGTTGCAGATCAAATATTAAAAGGTGCAGCATTAAATGCAGTACAGATAGCAGAACTTCTTTAGAATTGAGATAAAACGTCAGGGTTGAAAAAAATCCGGTAAAATGGTATAATAAGTCTATAAAATCATACAATAACTAATGGTAAGGTGAGTACTTTGAATAAAAAAAGAGAATTTTATATTGTGGATAAAAAAATATTGTCAACTTCTATACAAAAAGTTATAGAGGTAAATGAACTTATTCAAAGAGAGAATATTTCTAAATATGAAGCAATAAAACGTATTGGAATAAGTAGAAGTACATATTATAAATATAAAGATTATATAAAACCATTTTTCGAGGAAAATACAGATTCTGTTTTTAATCTATATCTTTCTTTAACAGATCATCCAGGGGTACTTTCTATGGTTTTAGATCTTATTGCAAAATATGATACTAATATTTTAACTGTAATACAAAATATACCAATAGATAATATTGCACATGCTACTTTGTCTATTCAAACAAAAAAAGAGAGTATGAAAAATATAGAAAAAATGTTGGAAGGAATAAGAGGAGTTAACGGAGTAAAAGATATAAGAATAATTGGGAATAGTTGAAAAGGTGGTGAAGAACTTTGGTTAGATTTACAGATACAACATTAAGAGATGCACATCAGTCACTTTGGGCGACTAGATTAAAAACTGATGAAATGCTTCCAATATTAAAAGAATTAGATGAGGCTGGATTTTATTCTTTAGAAGTATGGGGAGGAGCAACATTTGATGTATCTTTAAGATATTTAAATGAAGACCCTTGGGAAAGACTAAGAAGGATAAAAAGTGAAGTTAAGAATACTCCACTTCAAATGTTAGTTAGAGGGCAAAATCTTGTTGGATATAAACATTATTCTGATGATGTAGTAGACAGTTTCATAGGAAAAGCAGTAGATAATGGGATTGATATAATAAGAACATTTGATGCTTTAAATGATTTGAGGAATTTAGAAAAAGTTATATCTGCAGGAAAAAGAGAAGGAGCACATGTACAGGGTGCTATTGTGTATACAATAAGTCCTATTCATAAAATGGAATATAATATAGAATTAGCTAAAAGGTTAGCTGATATGGGAGTTAATTCTTTAGCTATAAAAGATATGGCTGGGTTACTTACTCCTTATGATGCATTTCATTTAGTAAAAAAATTAAAAGAAGAAACAGGACTTATGATACAACTGCATAGTCATTATACAAGTGGAATGGCTGCAATGACATATTTAAAAGGTATAGAAGCAGGAGCGGATATTGTAGATACAGCAGTAGCATCTATGGCACTTCATACTTCACAGCCAGCAGCAGAAACAATGGTTGCAGTACTAAAAAATACAAAGTATGACACAGGAATGGATATAAAAAAATTATCTATTGTGTCTGAATATTTCGAGACATTAGCAGAAGAAAAAGCATATAATAGACCAAAACAAGGACTTATAGATATAAAAGTTTTATCTCATCAAGTACCTGGTGGAATGATATCTAATCTATTATCTCAACTTGATCAACAAGGAGCGGGAGATAGAATAGATGATGTATTGGCGGAACTGCCAAGAGTTAGAAAAGATTTAGGATATCCACCACTTGTTACACCTACAAGTCAATTTGTAGGAACACAAGCTGTTTTAAATGTATTGCTTGGAGAAAGATATAAGATAGTTCCAGAAGAAGTAAAAAATTATATAAAAGGATATTATGGAACTGCACCTGGCGAAATAAATCCTTTATTAAAGAAAAAAATAATAAAAAATGAAGGAATTATAAATGTTAGACCAGCGGATTTATTAGAACCAGCAATGGAAAAAGCAAAAGAAGAATTGCCAAAAGAGTTAGTTACACAAGAAGAAGATTATTTAAGTTATGCTATGTTTCCACAAATTACATTAAAATATCTTACTTTGAAACATGATCCTACAGCTGGCGATCTTATAATGGGAGGAGACGAAGATATGAGAATAAATATAGAGATATTAAAGCAATTAGCTGAATCTTTAGAAGAAAATAGTGTTGGAGAATTAGTACTGGAAACTAAAACTGGAAAAGTAGTATTAAAAAGAAATACAAAATCACCAGTACAAACTGTAGCTACACAACAACAAGTAATTCAAGAACCAGTTGCAGTAGCAGTAGAAGAAGCAACACCAGTACAAACTCAAGAATCTATTGATGAGGATAAATATACAAAAGTATTATCACCAATGGTAGGAACTTTTTATGCTTCACCTGCTCCTGATGTAGATCCTTTTGTAAAAGAGGGAGATATTGTAAAAAAAGGAGATACATTAGCAATTGTGGAAGCTATGAAATTAATGAATGAAGTGAAATCTGAAGTATCAGGAAAAGTAGTTAAAATATTAGCAGAGAATAGTAAACCAGTAAGACAAGGCGATGTATTAATGTTAATAGAGGAATAGATTTAAGCTGAAAAAGAATTAATAGAATAGGGCGTTTATTGAACGCCCTATTATCAACAGATAAATTAATTAATAAATTAGAATTTAGAATATTTTTTTTAGGGGAAATAAGTATCGAGTATTATTAAGGTTTAGGAGGATGATAAAATGGCTAGAGGAATGGGAATACCAGAACAACAAGGATTATATTCACCACAAATGGAAAAAGATAACTGTGGTGTAGGATTTGTGGCACATATAAAAGGGAAAAAAAGCCATGAAATAGTAGAAAAAGGTATAGAAGTATTAGTAAAATTAACACATAGGGGAGCTGTTGGAGCTGATCCTGAAACTGGTGATGGAGCAGGGCTTTTAATTCAAATGCCAGATAAGTTTTTTAGAAGTGAAATAGAAAATCTTCCAAAAGAGGGAGAATATGGTGTAGGATTTATATTTTTACCAGTAAAATATGATGAACAATTAATTGCAGAAGGTATTATAGAGAAAGTAATAGAAGATGAAGGGCAAGAGATTATCTCATGGCGTAATGTACCGGTCGAGTCAGATAAGATAGGTGTAACAGCAGCAAGTACAATGCCTGGAATAAAACAGCTATTTATAAAAAAATCAGAAGATGTAGAAAATTTTGAATTAAAACTTTATATTATAAGAAAAAAAATAGAAAAAGCTATAATGGAATCTAATATAAAAAATAAAGATTATTTTTATATTCCTTCTATGTCAAGTAGAGTGATTGTGTATAAGGGACTTTTATTAGCAGGACAAATAAAAGCTTTTTATCCTGAATTAGGGGATGAAAAAGTAACATCTTCTTTGGCATTAGTTCATCAAAGATATAGTACAAATACATTTCCATCTTGGGATTTGTCGCAACCATTTAGATATTTAGCTCATAATGGAGAGATAAATACAATAAAAGGAAATGCTAATTGGATGAGTGCTAGAGAGCCTGAACTTTATAATGAAATTTTAGGAGATAATATAAAAGAATTATACCCTATATGTAATTTAGAACATAGTGATTCTGCTAATTTGGATCATGCTTTTGAATTACTTATAGCTTCTGGAAAATCAATTGTAGAAGCAGCTACATTGCTTGTACCTGCAGCTTGGGAAAATGATGTAGAATTACCACAAAATGTAAAAGATTATTATGAATATAATTCTGGATTGGTAGAGCCTTGGGATGGACCAGCTGCAATAGCATTTACAGATGGAAAACAAATTGGAGCTACTCTTGATAGGAATGGTTTAAGACCAGCAAGATATATAGTTACAAAAGATGATTTAGTAATAATGGCTTCAGAAGTTGGAGTTTTGGAAATAGATCCTAAAAATATAAAACAAAATGGAAGATTAATGCCAGGAAAAATGTTTTTAGTTGATATGGAAGAGGGAAGAATAGTTTCTGATGAAGAATTAAAAGACAGTATTGCAAAAAATGAATCATATGGAGAATGGCTAAAAAATAATAAAAAAAATATAAGTGAATTAAGCGAAGCAGCAGCAAGACATGAAAATGATTATGAAACAATTGTAGCAAGAATGAAAGCTTTTGGATATACAAGAGAAGATTTAAAAGAGATAATAGTTCCTATGGCTAAAAATGGGAAAGAACCAATTGGTTCTATGGGAAATGATGCTTCATTAGCTGTTTTATCTGATAAATCTAAATTATTATTTAATTATTTTAAACAACTTTTTGCACAAGTAACTAATCCTCCAATAGATCCTATTAGAGAAAAAGTGGTTATGTCATTAACTACAAATATAGGTGTAAAAGGAAATATATTAGAAGAAACAGAAGAAAAAGCAAAGTTAATTACTTTGGAATCGCCAATATTAACAGATAAAGAATTAGATAAAATCGTTCATTTGAAAGATGAAAATTTTAAAACAAAAGTGATTCCTGCACTTTTTAATATTTCAGAAGAAGATGGATTAGAAAAAGGGTTAGAATTATTATTTGCTGAAGCTGAAAAAAGTATAGATGAAGGATATAATATTTTAGTTATAAGCGATAGAAAAGTTGATGACTTTAATGCTCCAATTCCATCACTACTTGCAACAGCAGGATTACATCACTATTTAATTAAAAAAAGAAAAAGAAATGGTGTAGATATAATTGTGGAAACAGGAGAAGCTAGAGAAGTTATGCATTTTGCATTATTAATAGGATATGGTGCATTAGCAGTAAATCCATATATAGCTTATGAAGCAATAGATTATATGATAGATACAAAACTTTATTTGACAGAAAATGCTAAAGCTAAAAAAGAAGCTAAATATATAAAAGCGGTAGATAAAGGATTATTAAAAATAATGTCTAAAATGGGAATATCAACTATACAAAGTTATAGGGGTGCTCAAATATTTGAAGCATTGGGGCTTTCAACTGAATTAGTAGATAAATATTTTACAGGAACTGTGTCAAGAATAGAAGGAATTGGATTAGATATAATTGAAAAAGAAACTTTAGAAAGACATAAAAAAGCATTTAATTCACTTAGAAAAAATGAATTTGATATTTTGGAAAATGATGGAGAATATCATTATAGAAAAAATGGAGAAAAGCATCTATTTGGTCCAGAAGCAGTGGCAAAATTGCAACATTCTACAAGACTAAATAACTATGATGAGTATAAAGAATATGCAAAATTAATAAATGACCAAAGTGAAAATTTAGCTACAATTAGAGGTCTTATTAAATTTAAAAAAAGAAATTCTATTTCAATAGATGAAGTAGAACCAGTTGAAAATATTATGAAAAGATTTGTAACAGGTGCAATGTCTTATGGTTCAATATCAAAAGAAGCACATGAAGCAATGGCTATAGCAATGAATGCAATTGGTGGAAAATCAAATTCTGGAGAAGGTGGAGAAGATCCAGAAAGATTTTTAGACAATAGAAGAAGCTCTATAAAACAGATAGCTTCTGGTAGATTTGGAGTTACAACTCATTATTTGGTGAATGCAGATGAACTTCAAATAAAAATGGCACAAGGTGCAAAACCTGGAGAAGGTGGACATCTTCCTGGTCATAAAGTAAGTGAAGAGATAGCAAAAGTAAGACATACATCACCTGGAATAGACCTTATTTCGCCACCGCCTCATCATGATATTTATTCAATTGAGGATTTGGCACAACTTATCTTTGACTTGAAAAATGTAAATCCTGATTCAAGAGTAAGTGTAAAACTTGTATCAGAAATAGGAATAGGAACAATTGCAGCTGGAGTTTCAAAAGCTCATGCTGATATGATATTAGTATCTGGTTATGATGGTGGAACAGGAGCAGCACCTCTTACATCAATGAAACATACAGGACTTCCTTGGGAACTTGGAGTATCAGAAACTCATCAAGTTTTATCAATGAATGATTTGAGAGGAAGAGTTAGATTGCAAGCTGATGGTCAAATGAAAACAGGAAGAGATATTGCAATAGCTACATTACTTGGAGCAGAAGAATATGGATTTGCAACAGGTGCGTTAGTAGTACTTGGATGTGTAATGATGAGAAGTTGTCATACTAATACTTGTCCAGTTGGAGTTGCTACTCAAAATCCTGAATTGAGAAAAAGATTTTTAGGAAAATCAGAATATTTAATAAACTACTTTACATTTGTAGCTAGAGAAGTTAGAGAAATTATGGCTGAATTAGGATTTAAATCAATAGATGAAATGGTTGGAAAAACAGAAGTATTAGAGTTAGATGAAGCTATAAAACATTGGAAATCAAAAGGGCTTGATTTAACAAAAATATTATATCAACCACAATTACCTAAAAAAATAGCAAAAAAATGTGTACAATCTCAAGATCATGGAATAGATAGTATAGCTGATAGGAGATTGATTGAATTAGCTAAACCAGCATTAGAAAATAGAGAAAAAGTTGAAATAAATGTAGATATTCATAATACAGATAGAACTTTTGGAACAATGTTAAGTGGAGCAGTTGCTAAAAAATATGGAGAATTTGGATTAGATGATGATACAATAAAAATTAACATAAAAGGATATGCAGGTCAAAGTTTTGGTACTTTTGGAATGAAAGGAATAACATTAAACCTTGAAGGACAAGCTAATGACTATATAGGAAAAGGGTTATTTGGTGCTAAAATAATAGTAAAAGCTCCTGAAACAGCAGATTTTGATACAGCTAAAAATATTATAGGTGGAAACACAATTCTTTATGGAGCAATAAAAGGAGAAGCTTATTTTAATGGAGTTGTAGGAGAGAGATTTTGTGTAAGAAATTCTGGAGTTACAGCAGTTGTAGAAGGAATAGGAGACCACGGTTGTGAATATATGACTGGTGGAAGAGTTGCAGTATTAGGTGGAACAGGTAAAAACTTTGGAGCTGGAATGAGTGGTGGAATAGCTTATGTATATGATATAACTGGAGAATTTGATAAAAAAGTTAATATGCTAGATGTAGAAATAGATAAAGTAGAAACTGAAAAAGAAAAAGAAGAATTGAAAACAATGATAGAAAATCATTTGAAATATACAAATAGTAATAGAGCAAAAGATATACTGCAAGATTGGGGTAATAATATAAATAAATTTGTAAAAGTAATTGCTCCAGGATATAAGAAACTTCTTGCAGAAGGGAAGGTGAAATAAATGGGTAAAGTTGGCGGATTTTTAGAGATATCAAGAGAAGAGTTTGCAAAAAGACCAGTGGAAGAAAGAGTAAAAGATTTTAAAGAATTATATAAACCATTTACAGAAAAGAATTTAGAAAAACAAGCTGCAAGATGTATGGATTGCGGAACACCATTTTGTCATTTTTCTTGTCCAGTAGGGAATTTATGTCCTGAATGGCAAGATATGGTAAATAAAGGAGAATGGGAAAAAGCATTAGAACTGTTACAAAGTACTAATAATTTTCCAGAATTTACAGGTAGAATTTGTCCAGCATTATGTGAAGGTGGATGTGTACTTGGAATAAATGACAAGCCAGTGACTACAAGAAATATAGAGTATGCAATTATAGAAAAAGGTTGGCAAGAAGGTTGGGTAAAACCAATATTGCCAAAAGTAAAAACAGGCAAAACAGTAGCTATAATAGGAAGTGGGCCTGCAGGACTTGCAGCGGCACAACAATTAACTAGACTAGGGCATACAGTAACAGTTTATGAAAGAGCAAGTAAAGCTGGTGGAATAATAACATATGGAATACCAGATTACAAAGTAGAAAAATGGGTTGTAGATAGAAGAATAAAACAGATGGAAGCTGAAGGTACTAAATTTATCTATAATACTAATGTTGGAGTTGATTTGCCAGTAGAAGAATTATTGAATAATTATGATGCTGTAGTTTTAGCTGGTGGGTCAAGATTAGCAAGAGATTTACCAGTTTACGGAAGAGAATTAAAAGGAATTCATTATGCAATGGATTATCTAACTCAACAAAATTATGTAAATGAAGGCAAAGAGATAGCAGAAAGTGATAGAATAACTGCAAAAGGAAAAAATGTATTAATAATTGGTGGAGGAGATACAGGAGCTGATTGTGTTGGGACAGCTATAAGACAAGGTGCAAAAAATGTATATCAAATAGAATTGTTAGACAAACCACCATTAGATAGACCACAAACTAATCCTTGGCCTAATTTTCCACAAGTGTTGAAAAATAATACAGCACATGAAGAAGCAAAGGTATGTTTAGGTGGAGAATGTAAAACAGATATAAGAGAGTGGAATATATTAACGAAAAGATTTAGTGGAGATGAAGCAGGTAATCTAAAAAAATATCATGCTGCAAGAGTAAAATGGGAAATAGATGAAAATGGAAAAAGAGTAATGAATGAAATTCCAAATAGCGAATTTGAATTAGATATAGAATTAGCAGTTTTGGCAATAGGTTTTGTACATCCTGAACATAAAGGATTAGTTGGAAATCTTGAATTAGAACTTGATGGTAGAGGGAATGTAAAATCTGATAAAAAATATATGACAAGCAAAGAAAAAGTATTTGCTGCTGGAGATATGAGAAGAGGACAATCTCTAATTGTATGGGCTATTTCAGAAGGTAGAAATGCTGCAGAAAATGTAGATAAATATTTAATGGGTGAATAATACTTAGGAACGGTTTAAAAAAATATAATAAATTTATTCTTAAATGTTATTTGGAAGAAAGCAGGAGAAGTTATGCTCCTGCTTTTCTATATGGTATTACAAATAAGAAAATAGAACTAAAATATAAATTAAATGTGATATATCAATTTCAAAATAATTATAATATTTCAACAGAAGATAAAATTCTTAGAAATATGTATAGAATAAGTAACTTTACCACTAATTTACAAGAAAGAAAAAGAATAATCAACTCTGTAAATAAAGAATTAAAATCAAAAATAACATATAATAATGGAAGTAGTATTTTTCGTAAAGTGATATAAATAGTCTCAAAAGCATCTGACAAATTTCATTCAATTTTAAATTTTCTATCTTTTTTAGATAAATCTGATAATATAAAAGAAAGAACTTTGAATAATATATATGTATTGAATGATATAAAAACATTAATACAGAATAATAAATTGGAAGAAAAAACAAAGAAATATTTAGAAGTTTTAAAATTCAGAGGAACAGTGTTGAAATATCCAATTATTTTTAAAGAAAAAATAAATAAAGAAAATAATAAAATTTTGTTTTCAAAATTTATAGCAAAAGGAATAGAAAGGGATTAAAAATTATAATTAAAAAAATCTTTGAAAAAATAAAAAGATATGATAAAATAGTCTAAATAATAGTTTTATAATAGCAAAAACTGGTTTTTTATAGTTTTTTAAATTCTTAAACAGGTCGTTTTATAAAATATAGTGAAAAATTAATGAAATTTTAGAAATTTTATTTTCCATAAGAAATAATAAACTTGATTTATAATAATTAATATATATTTGAAAATTTATATTAAAATATAGCTTAAATTTATAAAAAAATGAGGAGGGTTTATGAAAAAATTAAGCAAATTAATATTGTTAATAATTGTTATATTATTAACAACAGTTTCATGTGTAAACATTTCAAAAAAGTATTCAAAAAATATGAAGGAATATCACAGTAACTATTTTTATGTGGTTTATCCAAAAGATATAGTAGCATTTGAAGTAAATATACCTGTTATATCTACAATGTCATGTTTTCAAGTTAAAGGAATAAAAAAACAAACATATTTGCAAATTTTTATAGATAATAATAGATTTTCCAGTAAAAAAGATTTTAATAATTATATGAAAAAAATGTTTAAAAATATAAAATTGCATAAAAGAAAAATAAATGGAAATTTAGCATATGAATTTTCTATTAAAGATCAAAAAGAGATAAGAATGTATTTTAAAGGTAAAGAAATTGTTGGAATAATTAATTGTATGGATAAAAAATATATAAAAAAATTGGAAAATATTTTTTATAGTATTAATATGTATGATAAATATAGAAGTAAATCAAAAAAATATAAAAATAAATTCACAAAAAAAGAATTTTTAGAAATAATGGCAGATTTGAAAGAAAAATTGAAGCTACTTCATCCTAATTTATATAAATATAGGAGTGAAAAAAAGACAGAAGAGGATTATAAAAAAATAATAAAAAATATAAAAAGTAAAGAAATTTGGAAAAAGAGAGAGATAAAAGCCATTGTTGGAGAGTTTATGGCAGGAATAAAAGATGGACATACATCAATTTGGTTAGAAGCTTCAAATAGAAATCCATTGCCATTATTAGTAAAAGTTAGAAAAAATAGAGTGATTATCTATAATTATAATAAAAAAAAGGAGAAAATTAAAAATAATATTATAGGTAAAGAAATTATATCTATAAATAATATAAAAATAGGCACAATACTGGAACATATGAGAAAAATTGTTAGTGTAGATAAAGATGGAAGTGAAGCTGGATTTCTTATTGAGCAAAATTTTTCTGTATTATATTACTTAATATATGGAGAAAGTAAAGATGGATATAAAATTGAATATTTAGATAAAGATAATAAAATTAAAAATGTAATTTTAAAAAGTAGATATGTTTTTGATGATAATGAAGGAAAAAGAAATGGTGATTCAATAGAGATAAAGTATGTAAATAATGATTTAGCTATTTTAAAAACTTATAGATTTCCAACTAGAGAAGTTGGAATTAATGAATTTAAAGAAAAAACAACTAAATTTTTTAAAACATTAAAAAAGAAAAAAACAAAATATATAATAATAGATTTGAGAAAAAATACAGGTGGATTATTAGATTTAACAAAATATTTGTATAATTTTATAGATGGAAACAAAAAAAATCATTATAAAGGGAAAGTATATGTTTTAATTGGAAGAGAAACATTTTCAGCAGCAACTATATTTGCAGGAATAGTAAAATCTGGAAAAAATAGAGCTACAATAGTTGGAGTAAAAACAGGTGGAAGAGGAGATTGTTTTGGTAATCCTGTAGGATATGATATAAATAATAGTGGAATACCAGTTAGTATAGCTACTTTGGATATTTTAAAGGATATTCCATATTTTAAATATAAAGGAGTGGTAGAGCCAGATGTGGTAGTAGATATAGCTCCTATAAAAGAAGTTATGGGAGAAGATCAAGTTATGGAAAAAGTTATAAGTATAATTAATAAAGATAAAAAATAAAAAAATAAAAAGGAGAGAAAAAAATGAAAAAAATATTATTATTAGGGGTTTTAGTATTACTAACACAATTAGGATGTAGCTCAATGTCGGGTAAAAAAATAGTTGTTTTAAAAAATCCTGTAAAAAGTGAAAAAAGTATATATTTTAATTCAATTATGTATAAGAATTTTAATAATCTGGATATTACTCCTTTAGCAAGAGAAACACATGGGATTTCTGAAGAGTATAAATTTAATTCTGAAGATGAAAATGCTATAATTTCCTCTTTACAAGAAAGTTTAACAACTAATGGGATCTATTCTGTAAGTGAAAATAGAAGAGCAAGTGATTATGAAATTAAAATAGTTATTCCTAATTATATAGTAGCAGAAGGATATGGAGTTGCTGCAGAGATAATGTATATTTTGAAAGATAGAAAGAATAATAAAACGAAATTTTATGATAGATTTGCAGTATATGTAGAGTTACCTTCTCCAAGTTTAGGAAAAGATGAATTGAATAATGCAATTGTATATAAAATAATTAATGATATTAACTATCACCTTATGAATAAGAAAACTGAGATTAAAATAGGTGAAACTTCTGAAGTGAAGTATTATTTGCAAAATAATTTTAATAGTATAGTTAGTGCAGTTTCAAATTTTCCAAAAAGTATGAAAAAAGTTAAAGTAAATACATCTGGTAGTAATAGAACAAAAGCTGTATATACTTTAAATAATATTAAATGGAAAAAGATGGTTGTAAATTTAACTAAAATTTTTAAATTAAAATAATTAATGGTATAAAAACACTATTTTTAAGAGAGTTTTAAATTAGAAATAGTGTTTTTACTAATTTGTTTTAGCAATATAGAATATTTAAAAAATAAGTTTTTTATATTTTGTTATAAAAATGCTTGAAATATTGTATATTTTAAAACAAAATCGGAATGTTATTTTTAATCTGTTCCTATATATGAAATTATTTTGGGAATTTAGAAGAATATATTAAAAAATATGATAATAGGGAGGAGAAAGGTTTATGAAAACAATTTTGAAATTTGGGGGTATCTTATTTTTAACATTAATATCAACTTTTATTCTGTTTTTATTGATTATGACAATTTCTGAATTTAATCCAAAAGAAAAAACTAAATTAGAAGTTTATGGAACAGGAAAAAATATAATTGGGAAAAAATTTACTATTTTAACTTGGAATATTGGGTATTCTGCACTTGGAAAAGAGGCAGACTTTTTTATGGATGGTGGGAAACAATCAATAGGAGAGAGCAAAGAAGTAGTAGAAAAACATATAAAAAATATTACTAAAAATATAATTAAAGAAAAAAGTGATTTTATATTTTTGCAGGAGATAGATAAAAATTCAACAAGAAGTTATCATGTAAATGAATATAATTATGTGAAAGATAATTTAAAAAATTATACTACTACATTTGCTACAAATTATAAAACCCTTTGGGTGCCAATTCCATTATTTAAACCAATGGGAAAAGTTTTAAGTGGAATATCTCTGTTTTCTAAATATAAACCAGATTCATCAATTAGGTATAGTTTTCCTGGAAGTTACTCTTGGCCTACAAAATTATTTCAACTTGATAGATGTTTTATAGAAACAAGATATAAAATTGGAAATAAGAATTTAATAATGATAAATTTACATTTATCAGCTTTTGATAAAGGAGGATTCCTTAGGAAAAAACAGGTTAGTTATCTAAAAGAACATATTTTAGAGGAGTATAATAATGGAGATTTTATAGTAGTTGGTGGAGATTGGAATAGTATTTTTCCAAATACTAATTTAGATAAAATAAATATTACAACTGAAAAAGCAAATTGGAATCCAGTTAAGATTAATAAAGATTTTATGCCAAAAGATTGGAAATTTGTTGCAGATAATAATATTGCTACTTGTAGAGAAAACAATAAAATTTATAAAAGAGGAAGAAATCATCTGTATATAATTGATGGATTTTTACTTTCTCCTAATGTAAGCGTCGATAAAATTAATGGAATTGATTTAGATTTTCAAGATTCTGATCATAATCCTGTTTATATGGAATTTAGTTTGAAGATGTAAGAATAAATTTTTTTATGAGGTGTTTTATATGGTAGGGTATGGATATACATATTTTATACTTTTTATAGTAATTATAATCACAAATATAAATACTAGGGAAAGTAATAAGATTAATAGAATAATAAAAAAAATCAGAAGGAGGGATAAAAAAGTGGATAATCAAGTTATAAAATCTTTGATAGGTAAAAAGTGCATTATTTCAGGAGTATCTTTTGGAGGAGTAGGCGGAACTGTAATACAAGGGGAAATTATAGAAGTTATTGATAATTGGGTAAAAATAAAAGTAAATAAAAAGAAAACTGAATTAATTAATATAGAGTATATTACAAGGGTACAGATGATAAATAAACATAATAAATAAAGATGGATTATAGAATGTAATATTAGGAGATGGTTTTTATGATTTTAAAAATATATCTATTTATAGTTGGAATTTTTTTATATATTCCATATGTAAAAATTATAAGTAATATAACTGATAAACGAGAATTAATACACTTAATAACATTTTATAGTGTTATTTTATATATGTTTTATATTGGATTAAAGATAAAATTTTATATAGAAAATAATATGATATTAATAATAAGTAAATTTAAAACTATAATATCTTCTAGTGCTTTGATGTTACTATTTTTGGTGTTTGCAATTATAGATAAGACGATTATAGGAGTAGGTTTATTATGGGGAATTAATTTACTTATATTAGCAGATAAAAATTTTGTATTTTTCAGGTTAAATAAAGATGAATTTGATAGATTAAATAAAAAAATTTATAGTGCTGAATTGGTGGAAAATATAGATGAGTCAAATAAAAAAATATATTTTAAGAATGGTATAGAGCAAGAGTATTTAGATGTTAAATTTATGGATAAAAGAAGAAAAAAGATTAAAGTTAAAAAATAGAAAAACGTTTGCAAAAAAGAGGAGGCGTAAATATGAATATAGAACATATAGCTATTTGGACTAATGATATTGAGAGGTTACGTAGTTTTTACATTAAATATTTTAATGCTAAGTCAAATAAAAAATATTATAATCCTAAAAAAAAGTTTGAATCTTATTTTTTAACATTTTCATCAGGAGCAAGACTTGAAATAATGCAAACAACAAATATTCAAGAAAAACCAAATGATATTAATATAAAATATACAGGATTAATTCATATGGCATTTTCAGTTGGAAGCGAAGATTTAGTGATTAAATTGACAGATAAATTAAGTAAAGATGGATATGAAGTTATTAGTGAGCCTAGGAAAACGGGAGATGGATATTTTGAAAGTTGTATTTTAGATCCTGATAAAAATGAAATAGAAATTACAGAATAAATTAGAAATTACATAAGACATTGTTAAATTTAGAACTAACAACTAATACATTTATAAATAGTTTATAAAAAAGCTAAAGAATGCAAGCGGGAAATATTTTTTTAAAACACAAAATTTCACTTGACAAAAAAAGTAAAATGCTTTAAACTAACATAATATATAATTAATTGAGAAAAATATATGTTATAGAATTATAAAAAACATAGGAGGTGAATTAGAAAATGAAATACGTAAGAGTAAATAAAATTATAAAAAGAATAATATTTATGTATTTAATTTCTAAAGCCTCAAGTGAAAAAATAATAATCTGATTAGGAATAACTATATTTATATAGTTACTAAGATTTTCAAAAAATTCATTAGAGCTTAATGTGGCAGTAGAGATTATATCTACTGTCTTTTTTTATACTTTTTTTTGAAAATAAGTGTATATATTTTATTTGTGTAAACTATAAATTTAACTCAAAAAAGAAAGGGGTGTCTAAAATGTAGCACTATTATTTGTAAAGGATCTAAATATATTGTATTGCAGGCAACTTGAATAGAAATAGAAATAAAAAATCAAATTGGCAAAGAGTAGATATTAGAAATAAAAATAAAAACAATGGAGTTGGTACACGATGAAAGGGATAAAATTAATATATAAATATACAAAAGGGAATAGGAAACTTTACATTTTATCAATAATTGCAGTAATTATGGCAACTGTAGTTTCTTTTTTATCACCTGTTATTATAAAGTTTACAATTGATTATATAATAGGTGATCAGTCTTTTGAAATTAATAATGTGATAAATAAATTTATTGGATTTTTTGGAGATAGAGATTTTTTATCAAAAAAAATATGGATAATGGGAATAATCATAATTGTTATAGCTGTAGCTGAAGGAGGTTTTAATTATTTAAAAGGAAAATGGTCAGCAATGGCTTCAGAAAATATTGCAAAGAATTTAAGAGAAAAACTTTATGAAAAGTTACAATATATGTATTTTGATTATTATACAAATGCAAAAACTGGAGATCTAGTGCAAAGATGTACTTCTGATGTTGAAACTGTAAAGACATTTTTTTCGATGCAGTTAGTAGAAGTTGGAAGAACTATATTTTTAGTAGTGGTTGCCTTATCTTTTATGCTTTCGTTAAGTATAAAAATGACATTAGCTGCAATGGTTCTTATACCTGCAATACTTATTTTTTCATTATACTTTCATATGAAAATACAGAAAGTATTTTTGGAAACAGATGAGGCTGAAGGAGAAATGTCTGCAGGATTACAAGAAAATCTTACAGGTGTGAGAGTTGTAAGAGCATTTGCAAGAGAAAAATATGAGATGGAGAGATTTGATGAAAAAAATTTAAATTTTAGAGATCTTGTATATAAACTCTTAAAAACTATAGCAATATTTGAGTCAAGAGTCGATTTTTTAAGTATAATACAGATAGGGATAGTTACAGTATATGGAACGTATCTTACTGTAAAGGGTGAAATATCGCTTGGAACTTTAGTGCTGTTTTTATCTTATGAAAGAATGCTTTTGTGGCCTATAAGAATGTTTGGAAGAATATTAGCAGATATGGGAAAAGCATTTGTATCTGCCGAAAGGATAGAAGAAATATTGAATGAAGATAGCGAACAAGGAGAAAAAGATGGAATAAAGCCTGAAATAAAGGGAAATATATCATTTGAAAATATATTTTTTGAGTATATAGAGGGAAAAGAGGTATTAAATAATATTTCATTAAATATAAAGAAAGGTCAGACTGTAGCTATATTAGGTGCAACAGGTTCAGGAAAAACTTCTCTTGTAAATTTATTAACAAAATTTTATGATTATAAAAGTGGTTCAATAAAAATAGATGATACTGAATTGAATAAAATAGATAAAAGATGGATAAGAGAAAATATAAGTATAGTTTTGCAAGAACCATTTATGTTTTCAAAATCAATAAAAGATAATTTATATCTTGCAAATAAACATACTAGCGAATATGAAATATATGATGCAGCAAAAATAGCGACTATACATGACGTTATAAATTCATTTTCAGAAGGATATGAAACAGTATTGGGTGAAAAGGGAGTAAATTTATCAGGAGGGCAAAAACAAAGGCTTTCTATAGCACGTGCACTTTTAAAGAAAAGTCCAATACTTATATTTGATGATTCTTTAAGTGCTGTTGATACAGAAACAGACAGAGAAATAAGAAAAGCTTTAAATGATAGGAAACACAAGGCTACAACAATAATAATTGCTCATAGAATGACGACTATTGCAGGAGCAGATGTTATAGTGGTTTTGGATAAAGGTAAAATAGTGCAACAAGGAACACATAAGGAATTAATTAATCAAAATGGTATTTATAAAAGGATTTGGAATATACAAAATGAATTGAAAGATGATATAAATGAAGAAAGTGTATTTGAAGAGGATGTAGAAAATGTCGAAGTTTCAATATAATAAAAAAATTGGGAAGTGATATAAATGACAGTATTAAATGAAGAAGAGTTTAATGAAAAAATAGATTTTGGAATATGGAAAAAAATTCTTGAATTTGCAAAACCTTATAGAAAACATATGATTTTATTGGCAGTTGTAATGATAATAGTGGGAGCACAAGATGTCGCTATACCTCTTATGACGAAATATGCAATAGATCATTTTATAAATGGAAAAACTACATCAGGACTATATTTTTATCTTGGTGTATATATTTTACTAGCTATATCTCAAGCTTTTCATGTACGGATGCTTATAGTACTTGCTGGAAAAATAGATTCAGGGACATGTTATCAGATAAGAAAAGCTGGTTTTAATAGGCTTCAAGAGCTGTCTTTTACATATTATGATAAAACGGCTGTGGGATGGATGATGGCAAGGCTTACTTCTGACGTTCAAAAGCTTGGAGATATGATAGCTTGGGGAATGGTTGATATAGTGTGGGGATTTACAGTTATGATAGGAATTGCAGGTGTAATGGTTGTCCTTAACTGGAAACTTGCAATATTTGCTCTTTCGGCAATTCCTGCACTTTTGTTTATAAGCAAATATTTTCAAAATAAAATACTTGGAAGCTACAGAGAAGTAAGAAAGTTAAATTCAAAAATAACAAGTTCATTTAATGAAGGGATAAGTGGAGCAAAAACTACAAAAGCTCTTGCGTGTGAGCCTAAGAATATAAATGAATTTAAAAATCAAACTGGAGAAATGTATTCTGCTTCTGTAAGGGCAGCAATTTTTTCATCGTTATATCTTCCTATAGTTATAAGTATTGGAAGTATTGGGACAGCACTTGTATTATGGAAAGGTGGGAATGCAGTATCAGCAGGAGCTATAACATTTGGGACTTTAACTGCTTTTTTAGCATATACAATACAATTTTTTGATCCATTACGTGAAATCGCAAGAGTTATTTCTGAATTTCAATCAGCACAAGCAGCAGCAGAAAGAGTGATTTCTCTTGTAAAAACAGAGCCTGATATAGTTGATAATGCAGAAGTAATAGAAAAATATGGTACCTCTAATAATCCTAAAAAAGAAAATTGGGAAGAGATAGAAGGAGAAATTGAATTTGAAAATGTATCTTTTGCTTATAAAAAAGGTGAACAGGTGTTAAAAAATTTCAATCTAAAAGTTAAAAAAGGAGAAAAAATTGCAATTGTAGGTGAAACAGGGTCAGGAAAATCTACCATAGTAAATCTTATATGTAGATTTTATGAGCCGAATGAAGGAAGAATAATTATTGATGGAAAAGATTATAAAGATAGATCTCTTGGATGGCTTCATTCAAGATTAGGATATGTTTTGCAGTCACCACATCTTTTTAGTGGGACAATAATGGAAAATATAAGATATGGGAAACTTGAAGCTAGCGATGAAGAGATTATAGAAGCTGCAAAACTTGCAAAAGCAGATGAATTTATAGAAAAGATGGAAAATGGATATAATACAGAAGTTGGAGAAGGTGGAAGCAGGTTATCTACAGGAGAAAAACAGCTTATATCTTTTGCAAGAGCAATTTTAGCAGATCCTAAAATATTTGTATTAGATGAAGCTACATCTTCAGTGGATACAGAAACAGAAAAGAAAATACAAGAAGCTACAGAAATGATACTTGAAAAACGGACAAGTTTTATAATTGCACATAGGTTATCAACTATAAAAAATGCAGATAGAATATTGGTAATAGACAATGGAAAAATGATAGAGGAAGGTTCACATCATGAGCTTATATTAAAAAAAGGACATTATTTTAAACTCTATTCAAATCAATTTATAGAAGAAAATGAAGTGCAATACTTGAGCAATTAGTAGATGAGAGCCTAGAAATAGGCTCTTGTTTTTTAAAAAACTTTTACACAACTTTTACATTAAATTTATATTTAATTTAAACATCTATGTTATAATCCTTACATAAACAAAAAGAACTAAAAAAACTAAGGAGGTAACAAGATGAAAAAGAGTTTAGTAGTAATAATGTTAGGAATATTTATTTCGGTAGTAGCAACAGCAGGTGTATTTGATTTCTTATTTAAAAAAGGTAATTCAAAAAAGAGAATAGAAGTTACGTTAAGAGGTTCTACAACAGTATTACCAATAGGTATGGCAGTAACAGAACAATTTTCTAAAGAGAATAAAAGGTCTAGAGTATCAGTAAGTGGTGGAGGATCTTCTACTGGAATAAAAGCTTTATTAGATGGAAGTGTTGATATTGCAGAGGCATCAAGAGCGATGAAATCTAAAGAATATGATATAGCAAAATCTAAAGGGATGAAAATAAAAGAGATAGTGGTAGCTTTTGATGGTATTGCAATAGTTGTAAATCCTTCAAACGGTGTTACTGCACTTACAAAAGAACAAGTAAAAAAAATATATAAAGGTGAGATAACTAACTGGAAAGAGGTTGGTGGACCTGATAAAGCAATAGTTGCAGTAGGAAGAGATACAGCATCTGGGACAAGAGAAGCTTTTGATCATTTAGTTATGGATAAAGAGGAACCTGCAACAGGAGTTTTAGAATTAGCTTCAAATAATGCAGTTTTAGATGATGTAGAAAATACAAAAGGTGGAATTGGATATATAGGGCTAGGTTATGTAAATCATCAAGTAAAAGCATTAACTATAAATGGAATAAAACCTACATTTGATACTGTAAAAAATAAAACGTATCCTGTATCTAGAAATCTTTACTGGTATACAACTGAGGATAAAATAAATAATGTAAATGGAGTTAAACAATTAATAGATTATTTGCTTGGAGAAAAAGGACAAGCTATAGTAAAATCTCAAGGATTTGTACCTGTAAAATAGTGAGTTTAAAAATTAAATAATTAATTTTTAAATATTTAGGAACGTTTAAAAAATAAGTTTCTTATATTTTGTTATAAAAACGCTTAAATCGTTGCGTATTTTAAAACAAAATGATAAGGTTATTTTTAAGCCGTTCCTTAGCTAGAAGATGATAATATCTTCTAGCTTTTTTTATATAAATCATTTTTTACATTAAATTTACATAAAATTAATATTAAATTAACAGATTTATGGTATGATGATATTATAAATTATAGTTTGTTATTTTAATATAATAGTAAAGTATAAATTTGTACAGAAAATATAGAAAGGGTGAAATAATGGGAAAAAAGAGAAAAATAATTAACAGTACCATGAGTAATGGAGTAAAATTAATTGCCATATTTAATATTGTGATAGTATTTATGATATTTTTATTTATATTTTTTAATAGTTTAGATTTTTTTATGAAATATCCAATAAATAAATTTTTATTTGGTGAAGAATGGAGAATTAAAATAGGTAACGATCTAAAAAGTATTTTTGGGATGTTACCACTTTTAAAAGGAAGTTTAATAGTAACTTTTATAGCAATTATAATAAGTGTACCGCTTAGTTTTATAACTACAATATATATTGCAGAATTTGCAGGGAAAAAAGAACGTGAAATTATGAAAATATTAATAGAAACAATGGCAGCAATTCCATCAGTTGTACTTGGATTTATAGGTTTGAAAATATTATCAACTCCTATAAAAGATATATTTAATCTAGATTCTGGAAAAACAGCTCTAACTGGTGGGATAATTTTAGCATTTATGGCAATGCCTACAATAATAAGTATATCTGATGATGCTTTAAAATCTTTAGATAAAAGTTATAAAGATGCTTCATTAGCTTTGGGAGCTACCAAATTACAAACTACATTTAAAGTACTTGTTCCAGCAGCATTTTCAGGAATATTTGCCTCAATGATGTTAGGTTTTGGGAGAGTGATTGGAGAGACAATGACAGTTTTAATGGTAACTGGAAATGCACCTATATTTAAAAGTAGCCCACTTACATCTGTTAGGACAATGACAGCCACTATAGCAGCAGAAATGGGAGAATCTGTAAATGGAAGTTTGCATCAGAAATCTCTATTTGCAATAGGATTAATATTGTTTATTTTGACATTTTTAGTTAATATAATTGCAGATCATTTTGTGGAAAAATCAAGAAAAAAGATGAGGGAGTAAGAATATGAATAAAAGAAAAGAGTTGGTTATAACTTGGGGAATAAAAATTATAGCTATAATGTCACTGTTACCAATATTTGGGATATTATTGTATTTAATAATAAAAGGATTGCCTGCGATAAATTGGAAATTTCTTACATCTATGCCTGAAAATAGTGGAAGAGCTGGAGGTATATTAGCACCTATAATTGGAACACTATGGTTGACTGTTGGGACTATAATAGTTTCAGTACCATTTGGAGTTTTAACAGCTATATTTTTAGTAGAATATTCAAAAGATAACTGGTTGAAAAGAACTATAAATTTGATGATAATAAATTTAGCAGGAATACCAAGTGTTGTATATGGATTATTTGGATTGTCACTGTTTGTTGTTTGGATGGGATTTGGAGTATCTATTATATCTGGTTCATTAACTTTAGGAATAATGTCTTTGCCAGTGATTATTACATCTACAAAAGAAGCTTTATTGGCTGTTCCAAATAATCTGAGAGAAGCCTCTTTAGCATTAGGAGCAACTAAATGGGAAACAGTTTGGAAGGTGGTATTGCCAGCATCGATGTATGGAATAGTTACAGGAGTTATTTTAAGTATAGGGAGAGCTGCAGGGGAAACAGCACCAATAATATTTACAGTTGCAACTGCTTATCAAAATTATTTACCAGAAACAGTGTTAGATAAAACAATGGCGTTGCCATTTCATCTATTTGTTATATCAACAGAGGTAAATAATATGCCTATGAAAAATATGTATGGGACTGCGTTTATACTTGTTTTTATTACTGTTGGATTTAATTTGGTTGGGACGTTTATTAGGAGTAGGTTTAAGAAATCTAGGTAGATTTAGGGAATGCCGATAAGATGAAATGGCAACAATAGGCTATGCCACAATATATTTTTATTTATGAATTATGATTTGTAGATGCGGAGATTTATTGTACTTTTAAGAAATAGATTAAATCGTTTTTTATATGACTAGAGGGATTTGGGTTTATGATGTCTTTATTCGCCATGGGGCGAACTTCTTTTTTCTTGATAAAAAAGAAGCAAAAAATCAAGTGCTAATGCTTCAAGTTATAATTTTCTAAATGAACTTGCCTACAACTGCCAAACTCGCTACGCTCAGACAGTGGCAGCTGCTTAACGGCAAATTCATTAAGAAAATTTATAACTTTACGCAAATGCACGGGGGATTCAAAAGAAGAGATTCAAAAAAAGAAAAGGCAAAAAGAAAGAAAAAAGAGTTTTATAGGGAGGAAAAATGAAAGAGGAAGAAAGATATAAAGATATACGAGTTGATATTAAAAATTTTAATTTTTACTATGGAGATTTTCAGGCTTTGCATAATATAAATATGGAAATTGAAAAAAATAAAGTTACAGCATTAATAGGACCTTCTGGATGTGGAAAATCTACATTTTTACGTTCTGTAAATAGGATGAATGATTTAGTAGATATATCTAAATATGAGGGAGAAATATTATTAGATAATGAGAGTATATTTTCTAAAAAATATGATATAGTAAATTTAAGGAAAAAAATTGGAATGGTATTTCAAAGACCAAATCCATTTCCTAAAACAATATTTGAAAATATAGTATATGGGCCTAAAATACATGGAGAAAAAGATAAAAATAAATTAATGGAAATTGTAGAAACAAGTTTGAAATCAGTAGCATTATGGGATGAAGTGAAGGATAAATTAAATAAATCTGCGTTGGGATTATCAGGCGGGCAGCAGCAAAGATTATGTATAGCAAGAGCAATAGCGGTAAAACCTGAAATTTTATTAATGGACGAGCCAACATCAGCTCTTGATCCAATATCTACTTCTAAAATAGAAGAGCTTATAAGAGAATTACAAAAAGATTATACTATAATTATAGTTACTCATAATATGCAGCAGGCAGCAAGAATTTCAGATTATACAGCATTTTTTTATAATGGTGTTTTGGAAGAGTTTGGAGATACAGAAAAAACATTTACTAATCCTGTAAATAAAAAAACCGAAGATTATATAACAGGAAGATTTGGGTGATAATAAATATATATATAATTAAATCATATGGAGGTAAATATGAAAAGTTTAAATGAAGCTATTACAGAGATAAATAGTATGGAAATGGAAATGATAAAAGATGTGAAAAGACTTATAGAAATTACAATAGAGGAGCTTAATAATAAAACATTTGACAAAAGTATATATGGGGAAGGAAAGGTACTGGAAGAAGATACAAATGATTTGGAAGTTCAAATAGATGAGAAAACAATTGGAGCTATTGCAAGATACCAGCCGGCAGCAAGAGATTTAAGATTTTTAATAGGAATAATGCATATGAATAAAGATTTAGAAAGAATGGCAGATTTATGTATAAATATATTAAAAACTGCAAAGAGAATATTTAGAGATAGAGTTAATGAAGAGATTGAGATAGTTTCACTAATAGATATGGGAGAAAAAGTTTACAATATGTTTGAGATTTTTAATCATGGATATATAGAAAAGGATGTTAAAAAGGGATATATTATATTTGGATTAGATGATGAAGTTGATAAAATAAAAAAAGAAAGTATAGATAAAATAAAAGATAAAGTAAAAGAAAATATAGAATATTTGGATCTAGGAATAGAAAATTTATTAATATCTAAAAATTATGAAAGAATAGCAGATAATATAACAAATTTAGCAGAATCTTTAATTTATATATATCGAGGAGAGGATTTAAGACATCAAGCTGTTAAGGAGATGAGCTAAATGAAAATTGTAGTTGTAGAAGATGATAGCCAAATAAGAGAACTTATAGTATATTTTTTACAAAAGGAAAAATATGATGTTGTGGCTTCTGGAGATGGATATGAAGCTATAAAATTAATAGCAGAAATCAAACCAGATTTATTAATACTTGATTTAATGTTACCAAATTTAAGTGGAATAGATATAACTAAAATAGTCAGGGATTTACCTGAAAAATATGGAAATCCATTAATAATAATGGTAACTGCTAAAACTGAAACAGATGATGTGATAAAAGGTTTGGAAGCAGGGGCTAATGAATATATAAGAAAGCCATTTGACCCAAGAGAGTTAATAGCTAGAATAAAGAATATAATGAAAAGAACTGGAAAAAAAATAAATAAACAGATAGAATTTGGAGATATATTAATAGATGAATCTAAGTATATAGTGTACGAAAATAAAAATGAAGTAGAATTATCAAAAAAAGAGTATGAATTATTGAAATATTTTATAATTAATAAAGATATGATTTTAACACGAGAAAAATTGTTGAATGAAGTTTGGGGAGTGGATTATTTTCCTGGAGATAGAGTTATAGACGTTTATGTTGGAAAAATAAGGGGTAAATTTAAAATTTTGGGAGAAAATTTAAAGACAGTTAAGGGGGTTGGATATAAATTAATAGAAAAGAAGTTTTAAGTATATTGATGATTATATCGTTTGAGTTTATATTTTTAATAGTTTTTAATGTTTATTTGAAAAATAATTTTCAAAATTTTACAGAAAAAGAATTTAGAGAACAAGCAAAAATTGTAGAGATAGCTTTAGAAAATGAAGGTAATTCTATTTTAAAAAAGATAGGGGAACATAGTAGTAATAGAATTACAATTATAAAAAAAGATGGGAAAGTTATATATGATAATAGAAAACAAGGGCATGAAAGTGAGATGGATTCTCACAGATATAGAAAAGAGGTAAAAGAAGCTTTAAATGGTAAAGAGGGATTTTCTATAAGAAAAAGTAATACTTTAAATGAGAATTTATTGTATTATAGTATGAAATCAGATGATTATATTATAAGAATATCTATGGAATACAATATAATTCAAAAAATAATAGACAAAACTATATTTATTTTATTAGGAATTTTTATATTTTTGGATATATTATATTATATTATATTTGTGCATTATATAAAATCATTCTATTCAAAAAAAATAAATAGAATGAAAGAGATATTAGAAGGAAATGGAGAAATATCTTCTATATATTTAGAAGATGATATAGATTTAAAAGAGTTTTGGGAAATAATAAGAAAATGGCAGTTTAAAAATTTAAATAATTTAGATAAAATAGCTGAAGAAAGAGAAAAATTAAGCAAAATAGTATCGTCTATTGAAATGGGGATTATTACAGTTAATAGAGATGGAAATATAGAATTTATTAATAATGACTCTGAAAAATTTATGGATTTAGATATAAATTCTAATTTATATTATGAAAAAATAAATGATGTGAATATAATAAAATTTATTAGAAATTTTTTGAATGAAAGAAAGATTTCAAAAGAAGAAATATTTTTTTCGAAATTAAAAGAATATTATATATTAGAAAGCCATTATATTGAAAATGGTGATTTGTATATAATTTTATTAAAAGATATAACGCAAAATAGGAAATTTGAAGAGGTTCAAAAACAATTTATAACAGATATATCTCATGAATTAAAAACACCTCTTACAAATATAAAAGGATATTTAATAGCTTTATTGGGAGCAATTGATAAAGAAACAAAAGAAAAATTTGGAGAAATAGTATTAAAAAATATAGAAAAATTTGAAAATATAATAAAGGATTTTCTTAATATTACAAAAATAGAAAATAGTAAAATAGTAAATAGATATGATGTGAAAATAAATGATGTGATAGAAGAAACAAAAGACAGTTTAGTATCAAGAATAATGGCAACTAATGCTAAAGTTAATTATAATTTTAATCTAAAAAATGAAAATGGATATATAAATATTGATAAAGAAAAAGTAATAACAATTTTAAAAAATTTAATAGAAAATGGAATTATTTATAATAATAAAATTCCAGAGATAACAGTAAATATATCTGAAAATGAGAGTTATTATGAATTTGATATTAAAGACAATGGAATTGGAATAGAAGAGATAGAATTAAAAAATATTTTTAAAAGATTTTATAGAATTGATAAAGCAAGAGGAAATAATTTAGCAGGAACAGGTCTTGGACTTGCAATAGTAAATGATATAATATCTAATTATAAAGGTGAGATAGAAATTGAATCTAAAATGGGAAAAGGGACAAAATTTAAAGTGAAACTGCCTAAAGCTTAGGGAGTAAAATTCTACTTGACAAAACTCTAAAATTACTATATACTATAGTTGAGCAATTGTTCAACTATAGTTAAGGAGGAGTAGAAAATGGAAAATGATAATATTTTTTTAGAGCTTGCAGATTTTTTTAAAATTTTTGGAGATTATACAAGGCTAAAGATATTAAAAATATTGATGAAGCAAGAAACTTGTACAGGAGGGATTGCAAGAGAATTAGATATGAGTAAATCGAGTATATCTCATCAATTAAAAATATTAAGGGATAAAAGATTGATAAAGTACAGAAAAGAGGGGAAATCTGTAATTTATTCTTTAGATGATGAACATATTGAAAAAATATTTAATATGGGATTAACACATTTAGGTGAAGGAGGTGTTAGCAATGACTAATAATGAGCATAATCACGAACATAGTCATGAAGGGCATCATCACCATAGTATAGATGAAAATATATCATTAAAGAAAATTACAGGAGTAACAATATTAAATGCAACTATAACAATAACAGAAATAATTGGTGGTATATTATCAGGAAGTTTGTCACTTTTATCAGATGCACTTCATAATTTAAGTGATACAGTAGCTATAATTTTGAGTTATGTTGCATTGGTAATATCGAGGAAAGAAAAAAATGAGAAAAAAAGTTATGGATATAAAAGGGCAGGAGTGTTAGCAGCTTTTATAAATTCCACAGCATTAATAGTAATATCATTTTATTTGTTATATGAAGCATATAAAAGATTTATTAATCCAGAAACTATAAATGGAAATTTAATGATAATTGTTGCAGTTATTGGATTGGTTTCCAATTTTATATCAGTATTGTTATTAGAAAAAGATTCTAAAAATAGTATGAATTTGAAAGCAAGTTATTTACATCTTTTAGGAGATACAGTCTCATCAGTTGGAGTAGTAATAGGTGGAATAGTTATAAAATTTTGGAATATATATTGGATAGATCCATTAGTAACAGTATTAATTTCAATATATATTTTAAAAGAAAGTTATGGAATATTTAAACAAACAATAGATATATTAATGCAATCAACAGCAGATTTAGATTATGAAGATTTGAAAAAAGATGTAGAAAATATAGATGGAGTCATTAATATACATCATATACATACTTGGATGTCAGATGAAAAAACTATATATTTTGAAGGACATGTTATATTAGAAGATATGTTAATTTCAAATGCAAAAAAAATTCATAGTGAAATAGAGGAGATATTAGAAAATGAATTTGGAATAAGTCATATAACAATTCAATTTGAAGCTGAAAATGAAGAGTGTGAAACAGAGCTTTTTAAAATTTAAAAATAGAGTTATAATTGGAGGGATTAAAAGATGGATAAGAAAAAAGTGTTGTTTATTTGTATTCATAATTCTGCAAGGAGTCAAATGGCAGAAGCTTTTGTTAATGAGTATGGTGGAGATAAATTTATAGCAGAAAGTGCAGGATTAGAACCTGGGAATTTAAATCCTTATGTTGTGGATGCAATGGCTGAAAAGGGGATAGATATTTCTAAGAATAAGACAAACAGTGTTTTTGATTTTTATAAAGAGGGAAGATTATATGATTATGTAGTAACTGTTTGTGACGAATCAAACGCAGAAAAATGCCCAGTTTTTCCTGGAAATGCTAAAAAAATACATTGGGGATTTCCTGATCCTTCATCATTTCAAGGAGATAATGATGATAAGGTTGAATTTACAAGAAAAGTTAGAGATATGATTGAGGATAAAGTTAAGGAATGGTTAAAATCAGATGGAAAAGATGAGAGTGGATTTGAGATAAATTTAAATTTATAAAGAAAAAACAGCAAGTATATACTTGCTGTTTTTTAAATATTGTTTAGATTATGAAAGTTTAATTATTTATTTCATCTATTTTTCATATGTTTTCAAATGAATAAGTCATTATTAAGGAATGGCTTAAAAATAACCTTCCGATTTTGTTTTAAAATACGCAATGGTTTAGGAACGCTTTAAAAACAGCCTTATCCTTTTGTTTTAAAATACGCAACGATTCAAGCGTTTTTACAACAAAATATAAAAAAATATTTTTTAAATGTTCTTTAAGCGTTTTTATAACAAAAAATGAGAAACTTATTTTTTAAACGTTCCTAAATGGAAAATAGATTATAAATAAATAATAGTAAAAGAGAATAATTATTATAAAAAAAGGATTGTATTTATCCTGCAAATTTAATTGGAAGTTTTTTTTAGATATGGTATAATTGAAGAGAGAATGGATAATAGGGAGAAGAAAATTGAAAATAATAAATATAGGAATAGAATTAAAAATAGTATTTCGTAAAAAAATAAAGTAACATAATAAATAGAAATGTCTAATATAGATTTATATAAAAAGGAGAAACTAACGGAGGTTAACAAGTATGAAAAAATTTAATATAACAGGGACTTGTATTCCAGAAAGACATTACATGGTAAATATAACATCAAAAATAGATAGGATAATAAAAGATTTAATAAGTGAAGGGGATTATTTCACAATAAATAGACCAAGACAATATGGAAAGACAACAACAATGTATTTGTTGGATAAAAAATTACAAAAGAATAAGGAATATTTGTTAATAAAAGTAAGTTTTGAAGGAATAGGTGAAGAATTTGTAAGTGAAGATAGATTTGTGGAATCATTTGTTGGGTTAATAATAAAAAGATTAAAATTTTCAAATAATAAAAAAATATTAAATTATGTAAAAAATTATCCAAAATTATATAAAATAAAACAGCTAGATGAATTTATAACAGATTTTGTATTAGAAACAAATAAGAAAGTAGTATTAATGATAGATGAAGTAGATAAAAGTAGTAATAATCAACTGTTTTTACATTTTATAGGAATGCTTAGAGATAAATATTTAAGTAGAAATGAAGGAGAAGATTATACATTTCATACAGTAATATTAGCAGGGGTACATGATGTGAAAAATTTAAGGCTGAAATTAAGGCCAGATGAAAATAGGACATTAAACAGTCCATGGAATATTGCAGTAGATTTTGATATAGATATGAGCTTTAATTCAGAAGAGATATCAACAATGCTAATTGAATATGAAGCAGATGCTAAAACAGGTATGGATATAAAAAATATTTCAGAAAAAATATATATGTATACAAATGGGTATCCATTTTTAGTAAGTAAATTATGTAAAGTAATAGATGAAAAATTAGATAGAGATTTTAGTGAAAAAGGTTTAGAAGAATCTATAAAAATAACATTAGGAACTCCTAATACATTATTTGATGATATAATAAAAAATATAGAGAATAATAGAGAGTTTTATAATTTTATAGAAAAAGTTATATTAGGGAACGATAAAGTCGATTATGTACATACAAATAAAATGGTATCAATAGGGAAAATATATGGAATAATCAGAGAAAAGAATAAAAAAGTAGAAATAGATAATAAAATATTTGAAATATTGATTTATAATCATATGATAGCAAATAGAGAAATAAAAAAAGGAGTAGTTCTAACTTATGAATTTAGAACAAAATTTATAGACGATGATGGGAATTTAGATATGGAATTGGTATTGGATAAATTTCAAGAATTAATGAAAGCAGAATACAGAAAAATAGATGAGAAGTTTGTAGAGCGAGAAGGGCGGCTTCTATTTTTAGCATTTTTAAAGCCAATAATAAATGGGACAGGATTTTATTTCGTAGAATCAGAAACAAGAGAGTCCAATAGAATGGATATAGTTGTTACATATAATATGAAAAAATTTGTAATAGAATTAAAAATATGGCGTGGAGGACAATATGAGCAAGAAGGAAGAGAACAGTTATGTAAATATTTGGAGGCACAAAATTTAGATAAGGGGTATATGATATTTTATAATTTTAATAAGGGAAAAGAGTATATTAAGGATAGAGTTATGGTAAATGGAAAGGAAGTTTTTGAGATAGTGGTGTGAGAAGGAATAATTGGCAATGGAAATTTATATAAAATTAAACTTGATGAGAGAGAAAATAATAGAGTGTCTAAAATTAAGATGAATGTATATGGATACATATATTTGACGGTTGGATATACTATTTTAATGAGATGAGGAGGGGTTAAAAATGTGTAGAATAAATCCAAGAGTAGATTTTGTATTTAAAAAACTATTTGGAAGTGAAGAAAATAAAGATCTGTTACAAGATTTTATAAATTCAGTAGTATCAGAAGAAGATAGAGTAACAAGTTTAGAATTACAAAATCCTTATAATGAAAAGAATTTTAAACATGATAAATTATCAGTATTAGATATAAAAGCAAAAGACCAAAGGGGGAATTGGTACAATATAGAGATGCAGGTGATAGACCAAGAATATTATGATAAACGAGCTTTGTATTATTGGTCAAGAGTATACTCAGGGCAGTTACATTCAGGAATAAACTATGATAATTTAAAAAAGACAATAAGTATAAATATATTAAATTTTAGATGTTTAGATGAAGAAAATTATCATAATATATATAAAATAATAAATTTAGAGAGTAAAAAAGAGTTTATAGACCATTTGGAGATACATTTTATAGAGTTAGAAAAATATAATGAAAAATATAGTACAATGTTGGATAGATGGGTAAACTTTTTGAAAAAAGCAGAAAAATATGCAAAAAATAAGTTACCAAAGGAATTAGAAGAAGTATTGACAATAAAGAAGGCAGTAGAGTTATTAGACGAGATGTCACTAAATGATGAAGAAAGAGAAAGTTATGAAGCGAGATTAAAATGGTTAAGAGATGAAGATGCTGCAATAAAAAAAGCAGAAAAAAAGGGAATAGAAAAGGGAATAAAAGAAGGGATAAAAAAGGGGATAGAAAAGGGAATAGAAAAGGGAATAGAAAAAAGAAATGTGGAAATTGCTAAAAGTTTATTGGATATATTAGATGTAAAAACAATATCTGAAAAAACAGGTTTAAGTGAAGAAGTAATATTAAAACTAAAAGATGAAAATTAGCACAAGGATGTATGAGGGAGAAAAGGAACTTAGGAATGGCTTAAAAATAACTTACCTGTTTTGTTTTAAAAGGCTCAAGGTTCTTTTATGAAAACCACATAAAAAACTACGCCCAACGTATGCAACGTTTCAACCATTTTTATAACAAAATAGGAGAAAATTATTTTTTAAACGTTCCTTAGTTTTTTTTTCTCTTTTTTTATCTCTTGAAGAGGTTATAATTCAAATTATAGAAAAATATTTATATTTTTTGAGATGAAGTTTAGATTCTTTCTCCATTGGAATTAATTTGGGACTGTGTTATAATTAAAGAAAAATTTAAAAATAGGATTTTATAAATTTGGAGGATATTATGAAAAAATTATTATTAAAAGTATTAGAGTTAGGAGCATCAGGATTTGGTGGGATGGCAATATTAGGTTTTATTAAAGATGCATTTGTTAAAGAACGAAAAGATATTAATGAAAGTCAATTTTATGAAGGCCTTAGTATATCTCAATTTATACCAGGGACAACAGCAGGGAATTTGATTTCATATATTGGATATAAAATAGGTAAAAGTAAAACTATGTTTCTTATGCAGATTGCATTTTTATTACCAGCTATAATTTCAATGTTTTTACTTACATATGTTTATACTAAATTTGGAGAAGTAGAAATTATAAAAAATATATTTATAGGAATAAATATAACTGTTGTAGTATTATTAATAAAAACAATGGAAAAGATTTTTAAACCGTTTATAAAAAATTGGAGATATATTTTTATGATGGTGATAAGTTTTTTGTTAAAAATTATATTAAAATTGAATGTTTTTGAGATTATGTTTATTATATTAATATTAAATTTATTACTAGATAATGGAGTTTATGAAAATGAAGATAGAAATGTAAAAATAAATATTAATCCAAAAGAGTTTATTATAGAAATTATATTTATGATTGTTTTTATAATTAGTTTTATATTTAGAGATAAAGATAGACTTATTATGCTTTTTTATAATATGGGAAAAATAGGATTTTTTACATTTGGTGGGGGAGTAGCAGCAATTTCAATGATACAAGATATTATAGTAAAAGATTTGGGATGGTTAAATTCAAAAGAGTTTTTAACTGGAATAAGTTTATCTCAAATGACACCAGGACCGATATTAAATATAGCAGTATTTATTGGATATAAAGTTAGTGGGATAATAGGCGGAATAGTAGCCGCAATAGGAATGTTTACTCCTGGAGTACTACTTATGCATATTTTTTCAACTTTTGGAGAAAAGTTTTTAGAAAAATCTATTTCTAAAAAAATTATTAATGGAATTTTACTAGGTTTTAATGGTATAATATTAAGTGTAATATTAAAACTTTTTCAAAATTCTGTTACTAATATAAAAGAGATAATATTTTTTGTAATTATATTTGTAATTGCACATGTGTCAAAAGCTAAGGCTTTAAAATTAATATTAATTTCTGGGATTTTGTCTTATGTTTATTTTGGGTTGATTTTTTAAGATAAAAAGAAAAAAAATAAAATAAAAAAGAAAAAAATTGAAACCACGAATGAAACGAATGTAAACGAATTAGGAAAAAGGTTGTATTCGAGGGAATTCGAGTATATTAGTGGTTAGAAAGATATAAATATAGTGCAATAAGTGGAGAGATAGTCAAAAAATAAGGATTGCAGCGTTATGCAACTGACTAATAAAGAATAAAATAATAGGAGGCTATTATGAAGATTGTATTTTTGGATGCAGTATCTGTTGGGGAGGATATTTCTCTGGGGAAAATAGAAAAAGAAGGGGAATTAATTAAATATAATTTAACAAAAGAAAATGAAATAGAAGATAGAATTAAAGATGCAGAGGTTATAATTACTAATAAAGTTTATATAGGAAAAAAAGAGATGGGAATAGCAAGAAAATTAAAATTGATTTGTGTAGCTGCAACAGGATATAATAATATAGATATAGAAGAAGCTAAGAAACTTGGAATAGTTGTAGCAAATGTAAAAAATTATTCTACTAATTCTGTAGTTCAAATGGTATTTTCTTATATACTAATGTTAATGAGCAATCTATATAATTATAATAATGATGTTAAAAATGGAGAATGGAGCAAATCGCCTATATTTACAATGCTAAAATATTCAATACAAGAGCTTAATAATAAAAAAATAGGGATAATTGGATATGGAACTATTGGGAAAAAAGTTGGAGAAATAGCTAAAAGTTTTGGAATGGATATAATAGTTGCAAAAATTCATGGAAGAGAATATAGCGATAATAGTAGAGTAGAAATAGAGGAACTGTTAAAAATAAGTGATATAGTAACCATTCACGCTCCACTTACAAATTTAACAAAAAAATTAATATCTAATAAAGAATTTAATTTAATGAAAAAAAATGCAATTTTAATTAATACAGCAAGAGGTGGAATTGTAGATGAGAAAGCATTATATAAAGCATTAAAAGATAAAAAAATAGCAGGAGCAGCAATAGATGTATTGGAAAATGAGCCTCCAAAAGAAAATAATGAATTATATGAATTGGAAAACATATTGATAACACCTCATGTAGCATGGGGCTCAATTGAAAGTAGGCAAAGATTAATTGAAGGAATATATGAAAATATAAGAGAATACAAAAATGGGAATAGAAATAAGATAAATATTTGGAGGAGTAATGACAAAAGCTGAAATAATAAAAGTGCAAAAAGATAGCATAGCAGAAGAATTAGATATAGAAAAAGGAGATTTTTTAGTTAGAATAGATGGGAAAGATATATATGATATTATTCAATATGAACATATGATATATAAAGAATTTATTATAGTAGAAATATTAAAAAAAGATATAAATGAAATTTGGGAATTTGAAATAGAAAAAGATGAATTTGAAGATTTAGGGATAGAATTTAAGTCGCCAGTTTTTGATGGAGTTAGGACTTGTAAAAATAATTGCGTGTTTTGTTTTGTAGCACAACTTCCAAAAGGGTTAAGAAAAACTTTGTATTTAAAAGATGAGGATTTTAGATTATCGTTTTTATATGGAAGTTATACTACTTTTTCTAATTTAACAGATGATGATATAAAAAGAATAATAAAAGAGCATATATCTCCATTATATGTATCAGTACATGCTACTGACAGCATGGTTCGTAAAGTGCTGCTTAGAAATAGAGATGCAGGTAATATATTAGAAAAAATAAAATATTTAACAGATAATGGGATAGAGTTACATACTCAAGCAGTTATTGTACCAGGATATAATGATGGAAAAATATTAGAAAAAACAATAGATGATTTAGCTAGTTTTTATCCACAAGTAAAAAGTTTAACTGTAGTTCCAGTTGGACTTACTAAATATCATAAAGGTGGATTAAGGTTAAATACAGAAGAGGAAAGCAAAAAAATAGTAAAATATACATTGGAAAAAAGTAAAGAATTCAAAGAGAAATTTGATACATATTTTTCATTTTTATCAGATGAATTTTTTATTCAGTCTAAGATGGATATACCTGAAAAAGAATATTATGAAGAGTTTGAACATATAGAAAATGGTGTTGGATTAGTAAGATTATTATTAGAAGAAGTCAAAGATATGAAAATAAAAGATAAATTTTACAAAGGAAATAAAATAACAATTGCTTGTGGAAAATCTATATATAAGTATATGAAAGAGATATTTATTCATGATGATAAAATAAATATAGTTCCAATTGAAAGCTATTTTTGGGGAGAAAAAATTACTGTTACAGGCTTAATAACAGGAAGTGATTTAATAAAAAATCTTAAAGATAAAGAATTAGGAGATAAATTGATTATTAATAAAATTATGCTAAATGATAAAAAACAGTTTTTGGATGATATGAGTCTGGAAGGTGTAAGTGAGCGTATTGGAACGAAAATAAAAGTAATTGAGAGGTTGGAAGAAATTTATGATTAAATAATATTAGATAATTAGATGATTGGTTTACAAAAAGGTATGTATAGTATAATTAGCTTTTTGAGGTCTAATCATAATGTACAAAGGGGGATAATATGGAAAATCTAAGAAGAAAAATATTAAAAGATATATTAAAAAACGAAAATATAGAAATTGCTTTAAATGATTTGAAAAAATTTATAGATTCTATGGGTGTTAATTTTTTATATTATTTTATAGATTATGGAAATAACAAAGAATATAGTACAGATAAAGAATTAAAAAAAATAATTTTTAATTCTAAAAAGTATACTGAAATGACTAAAAAAGAAGATGAGAATGGGTTAAATTTAATATATAAATCATTATCAATGGGAGTAGTTTTTCATATAAATTATAAATTAAAAGATATATCAAAAGAAGAAATATTAGAAATAGAAGAAGAGATAGAACTTGTTTTAGAGTTATTAAAAAAAGTTATTGAATTTAAAAAAATTAGGATATATTCTTTGATTACTCCTCTGTTTTTTGAAGTTTCAAAGATATTATATTCTGCCGAGGGAACGATAAAAGAGAGTTTAGAAGAGTTAAATCTAACAATAGAGGGATTATTAGGTATAGAAATTGTTAATATAGAAAAAAATAATATAGAGTATTTTATTAAAGAAGAAAAAGAAAAATTATTTGAATATAAATATAAAGATATGATAGTAAAGTATAAAAAAACTAGGAAACTAGATAATTTAATAGAAATAGATAAGATATTAAATCTTATATTTATGATATTAAATAGTTTTTTAAAATTAAAAGAGCTGGAGAAAAAAAAGCAGATTTTTTTAGAGGAACAAATTAATACAAAAGAAAATTTAGAAAAATTAAATGAAATTTTGGAAAAAAGTTTATATAAAATGACGTTTATAAATAAATTATATTCAAAATTATCTAAAACTAGAAATTTGGAAGAATCAATAAGAATTATAGAAAAATTAATAAGAGATGAAGTGGATTATAGATATTTAAGAATAAAACTTGGAGATACACATTTAGTAGAAGATGGGATACAGGTAGAAGAAGCTGGAAACGTAAATTACAGTTCAAAGATATTAAAAGGAAAAATAGAATATGAGATTATATGTCAAAAAGAAGATATAACATCAGAAGATGAAGTTTATCTGAATTTAATATTTACTCATTCTAAAATAGAATTAGAAAATATATTGTTATATAAAAAAGTCGAAGAATTAGCAACTATAGATGGTGTAACAGAGTTATATATCCATAGATATTTTATAGAAAGATTAAAACAGGAATTAGAAATAAATAAAAGAAATGGGAGCAAAGTATCATTGATTATGTTAGATATAGATAATTTTAAAAAATATAACGATACATATGGGCATCAAGCTGGAGATGAGGTATTGCACAAAGTAGCTTCTCTTATGAAAAGAGGAGTAAGGAAAATAGATATTCCTTGTAGATATGGAGGCGAGGAATTTATAGTAATATTGCCATATACAGATATAGAAAAAGCAGAATTTGTAGCTGAGAGAATAAGACAATCATTAGAGGAAGAAACAGACATAACAGCAAGTTTTGGTGTTACAGAATATTTGAGCATGGAAAAATTAGAAACTTTTGTAAAAAGAGTAGATGATGCTATGTATAAAGCTAAACAAAATGGAAAAAATCAAGTTATAAGGATGTGAAAAGATGAGGACTTTTCGAATAAATAAGGGTGGGATAATATATTTTGAAAATACAGTAGATAATAATGTATATGTAATAAGAAAAGGAAAAGTTGAAATAATAAGGACAAATACACTTTTTTTGGTAGATAATAATTTGAAAAATAGAAAAAGATTAAAAGAAGGAGATGTGTTTGGATTTGAAGAGGTGTTCTTTAATTTAACAAGAGGAGAAAGAGCAATAGCTTTAGAGAATACCGAATTAATAGTATTTCCAATAACAGATTTTTCAGCTTTTATGGAAAAAAATATAACTATTGGCGAAAAAATGATTAATTCTCTTGCAGGAAAAATAAGAAAATTAAATAATAAAATAAAGGAAATCTCTAATAGAACTGAATGTATCATGGAACATGGAAAAATAAAGGATATATATATATACTTTTTAAAACAAGGTGAGTATAAAAAAGCACAACAAATATTAGAAAGGATGATAGTAAAAGAGAGTGATGTTGAATTTGCTATAAAAGAAAAAGATAGAATATCAATTTTACAAAGTTTAGGAATATCAGTAGAAAAAATAGATGCAATAGTATCTAAATATAAAGATAATGAGGAATTAAATATTTTATTGGCAATATTAGAAGGGATGAAAATTAAAGTTGTAGCAGAAGAACTTCATGAAAAAATATTTTTTGAAATGATAAAAATAAAGAAAAAAATAGGGAAAGATGATGAATATTTAAATAGATTAAAAGAATTTTTAGAAGAGTTTCCATATTCTGATTATATAAAAGATGTTATGTTTGACCTAATAGAAGAATATGATAAACGAAAGAGATTTCCTGAAGCATTAAGTATAGCTAATAAATTAACAGATGAAGAATTAACTAATGAAGAGATAGAAAAAACAAAAAAAAATATTGAAAAATTAAAACATGATATTCCAAAAGAGGGTGAAGAGAATGTTGGATAATCCAAAGTTATTTGAAAAATTTGGAAAAGATTATAAAGCAGGAGAGATTATTTTTTGTGAATATGAAACAGGAGAAGAGTTATATTTTATAATATCAGGAAAAGTAAGAATATCTAAAATAACTCAAGATGAAGAAAAAGTTGTGGCATATCTAAAAGATGGGGAATTTTTTGGAGAAATGGCAATTTTTGAAAATAAAGTAAGAACAGCAACAGTTATTACAGAAGAGCCTACAAAAGTGTTAGAATTAAAAAAAAATGATTTTTTAAAATTAATGAGTTCTGCTCCTGATATTGTTGTACAATTAGTAAAATCACTTAGTATTAGATATATAAAAACGCGGAATCAGTTAAATTCATTATTAGAAACAAATTTAGAAAAAAAAGTTTTGAAATATTTTTATCAGCAATATTTAAATGTGAAATCTAGAAGTTTAAATTTAAATATAAAAGAGGTAAAAAGCATTTTGAATATAAAAGAAAAAGATTTAAATAAACTATTATTAGGATATAAGAAGAAGGGACTTTTAAAGATTGTAGATGATAGCATATTAATTGGGGATATTGGATGGGTTGAATTAAAATTAAAATAATTTTAAAAGTGGGGCGTTAAAATGGAGAAATCAGAACGAGTTATGAAAAAATTTAATCTAGGATTTGAGAAGAATTTATTAGAAGAAAATTTAAAAAAAATGAGTATATTTAGTAAAGCATTTATAATATTAGGATTTGTTTTGTTAATATCACATATTCTTGTAAATAATATTAATAGTTTTGTTTTTCCTAAGCTGTCATATACTATAACGTATGGGATAATAATAGTTTATTCTATTGGATGGACCGTTTTTCTAAACAATTATAAAATAAAAAATATAAAAATAGCAAAAATTATTAATTTGATATTTGAAGTTGGAATGTTAACTCTTGGAGCTATAATTGCTCTTATATCTGTTAATATTTCAAAGGAGGTAAGTGCATACATAATAGCTATTTTTACAATTGCCTCATTAATGTATATGAAATTTTATGAGAGTATATTTGTATTTTCGGTAGGACATTCTATTTTTATTATTGGATTATTATTTTTACAAATAAAGACAGAGACCTTAATAGGATTTTATACAAGCACAACAGTAGCAGTTTTATTAGGAATATTAATAGCAAGAATAAATTTCACAAAAAAAGTAAGAGAGTTTTTAAGCAATACAATTATTAAAGAAAAAAATAGAGAATTAAAAATAGTTAGAGAGAAAATAATAGCAACAGAAAATTTACAAACAATTTCTCAAATAATGGGGAAAATAGCACATGAATTAAATAGTCCATTAGCAGGAGAATTATATACTTTAAAAATGATAAAAGATGATTTGAAAGAAAAATTTAGTGAAAATTTGGAAATAGTATCTATACTTGAAGACCTTAATGAACTTGAAGATAGTTTAATATTAACTAAAGAGATTGTGAGTAAATTATTAAAATATAGTAGTCAAGATACACATTTTGAAGAAAATGTAGATATAAAAGAGGTAATAGAGTATAGTTTTAAAAATTTAGAAAAAAAATATAATTATGATAATTTTAAATTAGATAAAATATTTAAAGAGGATTTTATAATTTTTGCTAATAAAGTGGATATAGTTCAATTAATAGAAAATATATTAGAAAATTCTTTTGAAAGTTTAAAAAATAAAGATGTTAAAAAAATTAGTATTTCAACTTACAAAAAAGATAATAAAAAAATAATAGAAATAGAAGATAATGGAATGGGTATAAATGAAAAAATAATACAAAAAATATATGTCCCATTTTTTACAACAAAATATAAAGAGAAAAATTTAGGGCTAGGATTGACAATTGGCAAAGAAATATTAAAAAAATATAATGGAGAGATGGAGATAGAATCTAAAAAAGATATATATACAAAAGTTAAAATTATATTTAAGGATGAATAGTAGGAGAAATTATGAAAAAAATATTAATAATTCATACAGCATTTATAGGGGATATAGTACTTTCTACTCCGCTTATAAAAAAAATAAAACAAAAATATAATAATTCAGAAATATATTATTTGACAACAACTGTAGGTGGCGAAATTGTAAAAAATAATCCTATGCTAAAAGGGGTAATTGTTTATGATAAGAAAGGAAAAGATAAAGGATTAAAAGGGCTTATTAAAATTATAAGAGATATAAAAAATTATAATTTTGACATTGCAATTATACCACATAGATATTTAAGGAGTACGTTAATAGCATTTTTAGCAGGAATAAAAGAGAGAATTGGATATTCTAATAGCGAAGGAAAGCTATTTTTAACTAAAAAAATTGAATATGTAAAGTCAGTTCATGAAGTTAAAAGATTATTAAATTTAATAGAATTATCTGATTTTAAGGATGATAAAATAGAATTATATCCCGGAAAAGAGGATATAAAAAAAGTAGATGAAATTTGGGGGAAATTTGAATTGGATAATCAAAAAATTGTGGTAATTGCTCCAGGTAGTAAATGGTTTACGAAAATGTGGCCAATTGAATATTATAATTTATTATTAAAAAAGCTTGAAAAATTAAATATAAAAGTATTATTAATAGGTGGAAAAGAAGAAGAAAAATTAAATATAATAGAAACTTCAAATACTGTTAACTTAATTGGAAAAACAAAATTATTGGAGTTAGTAGAAATTTTTAAGAGAAGCACTGTACTAGTGTCAAATGATAGCTCTCCATTGCATATTGCTGCAGCTACAGATATTTATATAATAGCAATATTTGGAGCGACTACGAAAGAATTAGGGTTTTATCCGTGGACCAAAAATTATACAATAATAGAAAACAGTAATTTAGATTGCAGACCTTGTGGATTGCATGGTGGGAATGAATGTAAAGAGGGACATTTTAAATGTATGAAAGATATAAGTCCAGATGAAGTATATGATGAAATAGTAGAAAGATTAGAAAGAAGGATATAAAATTGAGAATTTTAGTAATAAGATTTAGCTCTATTGGAGATATAATTTTAACAACGCCAGTATTAAAAAAGTTAAGAGAGAAATATCCTAATGCAAAAATTGATTTTTTAACATTAGATAAATTTAAAGATTCAATATCTGGAAATAAGAATATAGATAATTTAATTTTATTTGACAAAGAAAAATATAAAGGTATAAATGGAATATATAATTTTTCTAAAAAATATAGTGGGCAATATGATATTATAATAGATTTACATTCAAAAATAAGGTCAAAATTAGTTTCAAAATTTATTGGCGGAAAAGTATATAGATATAAAAAGAGAAGATTATGGAAAACAATTTTAGTTAAATTAAGATTAATAAAATATAAAGTTGATAATACAATTGTAAAAAATTATTTTGGAGCTTTAAAAGAGTTGGATATTAATTATGAAAAAGAAAATTTAGAATTTAATTTTTTAGAGAATGATTTGAAAAAAGTGGAGATATATAATAATTTTATAGTTTTTGCAACTGGTGCTTCAAAAAATACAAAAAAGTGGCCTAAAGAATATTTTGGAGAGCTTGGTAAAATTTTAGTAAAAGAGTTTGGGAAAAATATAATATTGATTGGAAGTAGTAAAGAATTTGAAGAAAATGAACAAATAAGAGAGATGGTTGGAAATAAAGCAATAAATTTAAGCGGAAAATTAACATTAAAAGAGAGCGGAGCTTTAATATCAAAATCTGATTTTATTATCACAAATGATTCTGGACCTTTTCATATAGCTAGAGGAGTTAATAGTAATTCATTTGTAATATTTGGACCAACTGATCCTAATATGTTTGAATTTAATAAAAATGAAGTTTTAATATATGGAGATGAAGATTGTTCACCATGTTCTTTGCATGGAGATAGAGAGTGTCCTAAAGGGAATTTTAAATGTATGATGAATTTGACTCCTGAAGATGTATGGGAGATAATAAAAAAGAATATTGGTTGAGTATAAACAAAAAATAAAAAAGACAGTTAAGTAAAAAACTGTCTTTTTTATTTAATATAAAAGTATATTTCTTATACTCTTGCTACAGTTTTAAGGCATTTAGTACAAACATGAGTTGTTACCTTTTTACCTTCTAAAATAATTGTAGCCTTTTGTAAATTTGGTTTCCAAATACGTTTATTTACTCTATGTGAGTGACTTATTTGATTTCCGTGAGACACACCTTTACCACAAACAGCACATTTTTTCAATTTATCCACCTCCTACATAATTTGCGAAATTAATTTTATCATAAAAGATACAAATAATCAAGATTTTTTTACTATTTAACAATTTTAATTAAAAAAAGAAAAAAAATAATTGAAATTATTTACGATATGGGTTAGTATAGAGTGAAGAGAATTGACGATTGTCAATTGAAAATATAAAAAACTTATTTTTATAATGTTTTTAAATAATTATTTTAAAAATTTTGGAGGTGTTTTAGTTGATTTTAGTAACAGGAGCAGCAGGATTTATAGGAAGTTCAATAGTTTGGGAATTGAATAACATGGGAAGAGATGATATTATTGTATCGGATAAATTTCATAAAAAAGATAAATGGAAAAATTTAATTAAAAGAAAATTTTATGATTGGGTGGATAGAGAAGAACTTTTTGAATGGTTAGAAAAAAATGGAAAAAAAATTGATATAATTATTCATATGGGAGCAAATTCTGCCACTACAGAAAAAGATGTAGATTTTCTTATGAAAAATAATTATGAGTACACTAAAAGACTTTTTAATTTTAGTTTGGAAAATGGAGTTAGATTTATTTATGCTTCAAGTGCAGCAACTTATGGTGGTGGTGAAAATGGATATAATGATGATGAAGATAAAATATCTAAATTACAGCCATTAAATCCATATGGTTTTTCAAAACAACTATTTGATTTATGGGAATTAAAACAAGAAGATAAGCCTAAACAATGGGTTGGATTAAAATTCTTTAATGTATATGGGCCTAATGAATATCATAAAGATAGAATGGCAAGTGTGGTTTATCATGCATATAATCAAGCTAAAGAAAATGGAGTGGTAAAACTTTTTAAATCTCATAAAGAAAATTATAAAAATGGAGAACAATTAAGAGATTTCGTATATATAAAAGATGTTACTAAAGTTATTAAATTTTTTATAGAAAATGAAAACTATTCAGGAATATATAATTTAGGAACAGGACAAGCAAGAAGTTTTTATGATTTGGCAAAAAATACTATGAATTCAATGGGAATTGTTGAAAATATAAAATTTATAGATATGCCAGTTGATATTAGAGATAAATATCAATATTTTACAGAGGCAAATATGGATAAATTAAAAAGTATTGGATATAAAGAAGAATTTTATTCATTAGAAAAAGGGATAAAAGATTATGTGAAGAATTATTTGATGAATGAAGATAGATATCTTTAGAAGACAATTTTTAAAAGATAATTGAAAATTAGAAATGAAAAGATGGAAGAAAATTAAATAAAAAAATTAAATAAAAAATAAAAAAATTAGCCACTAATTTACACAAATTAGCACTAATAAAATATAAAAAAACAAAAAATATATTTATACTTTAGGAGGAACTTGAAAGAATGATATTTAAGGCAGTTTTGTTAGGATTAGTAGAAGGGATAACAGAATTTTTACCAGTTAGTAGTACTGGACATATGATTATTGTGGACAATTTTTTGAAATTATCTAAAAATATGGAATTTACAAATGCTTTTGAAATAATAATTCAATTAGGAGCTATATTGTCAGTAATAGTATATTTTTGGAAAGAGTTATGGCCTTTTTCTGGAAGTGATGAAGAAAAAAAAGATAAGTGGATTATGTGGAGTAAAGTTGTTGTAGCAGTTTTACCAGCAGTAGTTTTAGGATTGAAATTTGATAAATTAATAGAATCAAAACTATTTAATGCAAAAGTTGTAGCAACTATGTTAATTTTATATGGAATAATTTTAATTGTATTAGAGATAAAAAACAGTAAGAAAAAAAGTTTTAAAATAAATTCAATAAAAGAGATGGGATTTGTAACTGCAATTGGGATTGGTTTTTTTCAATGTTTAGCAATGGTACCAGGAACTTCAAGGTCTGCTGCCACAATTATTGGTGGGATGCTTTTAGGATTAAATAGAGCGATTGCAGCAGAATTTTCATTTTTCTTGGCTATTCCAACAATGTTTGGAGCTACACTATTAAAAATAGTAAAATCAGGTGTAAATTTTACAAGCTCAGAATGGGGAATAATTGGAGTAGGATTTGTAGTTTCTTTTATAGTAGCACTTATTGTAATTAGATGGTTTATGGATTACATAAAAAATAAAGATTTTAAAATATTTGGGTATTATAGAATAATATTAGGAATAATTGTGTTATTAGTTTTGAAAAAATAAATTAAAATGGGGGCGTTAAAATGGAAATAAGAGAGATATTGGAACGGGCAGAAGAACTTAAGGCATCAGATATACATATAGTTGCTGGAAAATCACCAATTTTAAGAGTTCATGGAGAATTGCAAGATATGGATGAAGAGAGATTAATGCCAAGCGATTGTCAAACTTTAATATATTCAATATTGAGTGAGCTGCAACAAAAAGAATTTGAAGAAAGTAAAGAGTTAGATTTTTCATTTGGAATAGCTGGTCTGGGAAGATATAGAGTTAATGTGCATATGCAAAGAGGTACTGTAGCTGCAGCAATAAGAACAATAGCTACAGATATACCACCATTGGATAAATTGGGATTGCCTAAAAGTGTAGAAAAATTTTCAGACTATAAAAATGGATTGGTATTGGTAACTGGTCCAACAGGAAGTGGAAAATCAACAACACTTGCAGCTATAATTAATAAAATAAATGAAGAAAAGTCATCACATATAATTACAATAGAAGATCCGATTGAATATTTGCATAGACATAAAAAAAGTATAGTAGAACAAAGAGAAGTGAAATCAGATACTTCTTCATTTGCAACAGCATTAAAATATGCTTTGAGACAAGATCCAGATGTAATATTAATAGGAGAATTAAGAGATTTGGAAACTATAGAAGCAGCTCTTACAGCGGCAGAAACAGGGCATCTTGTATTTGGAACTCTTCATACTAATGATGCTGCACAAACAATAGATAGAATAGTTGATGTGTTTCCTACTAACCAACAACCTCAAATTAGGATTTTATTATCAAGTGTTATTAAAGGTGTAGTTTCACAACAATTAATACAAACAGTTGATAAAAAATCTAGAGTTCTTGCAGCAGAAGTTTTAGTAGGAACTCCAGCAGTATCAAATCTTATAAGAGAAGCTAAAACACATCAAATTTATTCTATGATAGAAACTGGAGCAAGATTTGGAATGAGAAGTATGGATATGTCTTTGAAAGATTTATATGAAAGAAGATTGATATCTTATGATGATATGGTAAAAAGAATGAGAAATCCAAACTTTATGTAGAATTGAGGTGTGTAAGAAATGCCAATCTATAAATATAAGGCAAGAGACAGAGATGGACTTGCTATATCAGGAGAACTTGAAGTTGATAATGAAGATATGCTTGCAAAAAAATTGGACCGAATGGGGTATATACTGACAAGTGTAAAAGAGACAGACAGTCTTTTAGGAAAAGATATTTTTGAATCATTTAGAAAAGTAAAATCAAAAAATATAGTAGAATTTTCAGTGGAGTTATCTACATTAATAGAAGCAGGAGTTCCTTTGTTAGGTGGATTAGAAGTTTTAATGGAGCAAATAGAGGATAAGCTATTAAAAAATATAATTACACAGGTACATAAAGATGTTAGTGGCGGGATGAGTTTTTCAGAAGCTTTATCAAAGCATAAAAAAACATTTCCAAATTTGTATGTAAGTATGATAAGAGCTGGAGAAGCTACAGGAGAATTAGATACAATATTAAAAAGTTTAGCTATATTTTTAGAGGTTAATGAGAATAATCGTTCTAAAGTTAAGGCGGCAATGATGTATCCAATGGCAATGTTTGGAGTATCATTTTTAGTAGTTATATTCTTAATTGTAGTGGTATTACCAAACTTTGTGGAGATATTTAAAAGTGCAGGAGTGAAACTACCACTTCCTACAAGAATTGTTTTAGGCTTTTCTGATATTCTTATTACAAAATGGATATATATCATATTGTTAATATCTGGTTCTATATATGGATTGGTTAGATATTATAAAACAGATAAAGGCAGATATTATATAGATTTATTAAAATTTAAGATTCCTATTTTTGGAAATTTAACAAAAAAATCAGAAATAGCAATGTTTACTAGAACTTTTGGAACATTAATAAAAAGTAGTGTTCCTATATTACAAGCTTTGGATATAGTAAAAAATACTGCCAAGAATAAAGCTATATCAGTAGTTATAGAAAATATAAGAAATAGCGTTAGACAAGGTGGTAGTGTATCTGAACAATTAGAAATAAGTGGGATTTTTCCTAAATTAGTATCAAAAATGGTATCAGTTGGAGAAGATAGTGGAGCATTAGATAAAATGCTTGTAAAAATAGCTGATTTTTATGATACTGAAGTTGAAAACAGCATAAAAGGATTAACTTCTATATTAGAGCCTGTAATGATAGTCGGGATGGGGCTTGTAATTGGTGTCATAGTGTTATCTGTAATGCTGCCTATGTTTGATATGATGCAGGTTGCAAGACGGTAAAAACGCGAATTAAAGCGGTATAGTGTGGAAAATATGGGATACAGATATAAATTAAGTTGGAGTGATATATTATGGCTAAAATTTCAAAAACAGGAATAGGTGGAAGTAAAAGTTTTTTATCAAAAGGTAGTGCGTTAAAAGGAAGCCAAAAAAATAGTGGAGCGTCTATTGCAAAAAATAGAGTAGATATAAAACAATCACCATTTGTAGACACAATGAATGAAGTAGAAATAAGCTTTGCAAAAGAAGATTTGAAAGAGAGCTTAGAGGATATAGATAAGTTAGGAAAAGAACTTATGGAAAATCCTAGTGTAAAATTATTGGAAGAATATAAAAAAAATATAAAAGCTTTTCTAAAAGAAGCCTTAAAAAAACTATATAAAGTAGATACTAAAGTATCAATTAGTAATTTGGGAAGAAGTAAAAAAGTGTTTATTAATGTGGAAAAAGTGGATAAAAAACTTGAAGAAATGACATTTAAATTTTTGAAACAACAAGGAGATGCAATATCATTAGTTGACTCAATAGAAGAAGTAAAAGGATTATTATATAATGTAATTGGATAGGAGAATGGATAATGAAAAAACTGAAGAAAGTAGTTCCATATATTATTATAAGAAATTGTGATAATACACCAGGATGTCCTGTAATAGAGGCTTGCCCAAAGAGACTGTTTTATTATGATTTTAAATTGAAAAAATTATTATTAGAAAATTTAGATGATTGTATTGGGTGTGGAATATGTGAAGTCGAATGTGAACATGAAGCAGTAGAATTAATAGAAATTGCTAATAATAAAAGAATAGATGAATTAAAAGATATGGATGAAAATTATATTTTGGAAAAAAGTAAAAATCTTATAAATAATTATGGTGGAGTTTTACCTAAAAAAATTGATAATGAAAAATATAAAAAAATAACTCAAAAAGAGATTTCTAAGAATTTGAATGGATTAATATTTGTTTATGGGAAATGGCAAGATGAGAGCTATATAGGATATTCTATTTTAGAAGAATTAGAAGATAAATTTGAAAATATATATTTATTAAATGCAGAGGAATTTGGAAAAGATAGTGTAGAGGAATTACCAGGATTTTGGATAGTTAAAAATGGAGTAATTGAAGGGAAATATAATATTAACAATATATTTTATGTTGTTGGGTAATACAAAAGGGTAAACATGTGTGTTTGCCCTTTTGTTGTATTGTTATTTTTTTAAATTTCTAATAATTTTTCACGATCTAATATTTTAATCTTTTTTCTATCAATTTTTTCTATAATTTCATCTTTTACAAGAGATGAAAAAACTCTAGATAAAGATGGACGAGGCACGCCAAAAAAATCTGATAATTTTGTTAAAGATATTGGTAATTCAAACTCAGCTCTATTTTTAGAAACAGTTAATAAATAATCGGCTAATTTCCCTTTTAAACTACTATTCATAGTATTATTCCAAAGTTGTTTTGCTAAAAAGCTAGCTTTATTACACACAATATTTAGATAGTTTCTCAAAAATATTTCATTTAAATTTGCCATTTTTAAAATAGAGCTTTTAGGAATAACTAATAATTTTAATTTTTCATTAGCTACAATATTAATTGGCAAATTATTATTATTTCCAAATAAAAAAGCAGGTGCAATTGGGAAAGGAGCAGTTATATTTTCTACAATCATAACTTTTCCTGAATGATTTAACATTTCACCAATTACTGAGCCAGATATAATTATATATAACTCTTCATATCTATCTCCTCTAAAATTAATAGATTCATATTGCTCATATGATTTTATCTTAAATTTTACAGAATTTAAAACTTTTTCAATTTCAATTTCATTTAGTCCTTTAAATAAAGGTGATTTTGTTAATATTTTATACATAAAAATTCTCCTTTCTAAATATTTTTATTTTTCTACCCCTTTTTTCTCTGTGTACCTCTGATAACTCTGTGCCTCTGCGTTGTCTGTTTTTTTTAATTTTTTTCAACGCAGAGGCGCAGAGAACGCAAAGGTTCGCAGAGGTAAATTTATTAACAAAAATTAGTGCTTAGGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTATAACAAAATGGGAATGTTATTTTTAAGCCATTCCTTAATATTAATTTTTACCTCTGAACTGTAACTTAAATATCATCCCAGCCTTCAATTACACTTGACATATTATAACTTGTAACAGTACTTTCAAAGAAATTAGCTTTTACATCGCCATTACCTTCACTATCTGCAATTTTTTCTAAATGTGCATAAGGATTTTTATCATATCCATCATAAAGTGGCTTAAATCCTAAACTTTTTAATCTGAAATTAACCATATATTTAGTATATTCCTCTGTACTTTTTTTAGTTATTCCTAAAACTTCATTTCCAATTATATGATTAGTCCATTCTATTTCTTGCTTAGCAGCCATTTCAAACATATCATAAACTGTTTTCTCATCAATTATATTAGGAAATTCATCTTTTAAAGCTTTTATCATATTTTCAAAAATAACTACATGAGTTAATTCATCTCTATTAATATATCTTATTATATCAGCAGTTCCAGGCATAAGATTTCTACTAGTTAATAGATAGAAAAAATTAAATCCATTGTAAAAATAAACGGCCTCTAATAGATAATCAGCAATTAATGCTTTGAAAAATGTAGTTTCATTAGGATTATCATGAAATTCTTGATAAATTTCAGCAATAAAACTAATTCTATTAAATAAAACCTCATTATCACGCCAAAATTCGTAAATGTCATCTCTGTTTTCTTGAGGGACAATGCTTTCTATTATATAAGCATAACTTTGACTATGAATTGCTTCCTGATACGTTTGAATTGATAATATCAAAGTAATTTCTGGAGCTGTAATATATTCAGCTACTTTAGGAACATTATTTGTTTGAATACTATCTAAAAATACCAAAAAAGATAAAATGCCGTCATAAGCTTTTTTTTCTGGAGCAGTTAATTTTTTATAATCTTGTCCATCAATTGTTAAATCAACTTTTTCTGGAATCCAAAAATTTTCCATCATAACTCTATAAAGTTTAGTTGCCCATGTATATTTTGTATTATTTAAATTAAAAAGATTTGTACTATTACCTTTTATTATACTTCTTTCTGTAAGATTATCATTTCCATCTGGATTAAATAATTTTTTTCTTTTCATTATTGTTGCCTCCCAAAAATAAAATTAATTTGCACAAGAAACACATTCATTTTTTTCTGAAATATTTCCATTTTTTTGAATAGTTCTAGTATAATATATTGTTTTACACCCAGTTTTCCAAGCTGTCATTATAGTGTCATAAATATCTTTTGCCTTTATATCTAAATTTAAATTAAATAAAAGCTCCATACTGATACCTTGATCAACCCATTTTTGAATACCAGATATAATTTTTACAACATTTTTTGGATCCATATTTTTATTTTCTTTATAAAACCAAAAATTTTCTTTTATATATGGCGGACAAATAGGCACAGTTCCTTTAGAATTTTTATCTATATAAAATTTACTATAAATAGGCAATACACTTGGAGTACATCCTTGAATTAATGCACTGCTAGTATTTGGAGCAATAGCAATTAATTGTCCATTTCTTATTCCATATTTTTTTATGTCTTTAATTAATTCAACCCATTTATCCGAAAAATCACTATTTTCTATAAACCATTTTTCATCTTTTCCAAATAAAATCCCTTTTGACCATTCGCTGCCATCAAATTTTTGATATTTTCCTCTTTCTTTTGCTAATTCTAAACTTCCTTCTAATACATTATATGCTATTTTTTCAAAAATTTCATCTATAATATGTTGAGATTTTTCATAAGGTGATTTTTTTAATGCTAAATAGTCAGCTAATCCCATTGCTCCAACTCCAATAGTTCGATAAATATTATTATGTAGATTACTTTCTTCAATAGGGGAGAATGTCAAATCAATAGTATTATCCAAAATTCTAACAGCTAATTTAGCAGATGATTTTAAAATATCATCATTATCTATATTTGCAAGATTTAATGAAACTAAATTACAAGTATGAATTAATCCAGATTTGGATTCTTGTACAATTTTATCTCCATTTAAAGATATATTTTTAATTTCTGTTGGTCTGAAATTTGAAAAAGACTCTTGGCATAAGTTTCCGCTTCCAACCATTCCATCATGTTTATTAGGATTTAATTCATTTACTCTATCTTTAAAAAATAGATATGGCATTCCAGTTTCAATCATTGTTTTCATAATTTTTTTCATAAATCCTTTTGAACTTATTTTTTTAGTTAATTTTAATTCACTATTTTTTTCTAAATTTATATATGCTTTTTCAAATTTATCTCCCCATAAAATAGATAAATCAATTTTAGTTTTAGTTTTAACTTCGTGTGGATCAAATAAAGTCCAATCTTCATTTTTTTCAACTCTTTTTAAGAATAGATCAGATACAACAAGCTGTGGAAATATATCATAAGCTTTTTTTCGCTGATCTCCATTTTCAGTTTGTAAATCTAAAAAATCTTCTACATCTAAATGCCAAATATCAATAGCAGGTGTAACAGCTCCAGCTCTTTTTCCTAATTGATTAACAGCTACAGCAGTATCATTTATAATTTTAATCCATGGGACGACTCCTCCAGAAGCATTTGGAGTTTTCTTTATTGAGCTTCCTTTTGCTCTAATCCTTGAGAGATTAACTCCAACGCCACCACCATTTTTAGAAATTTGTGCAATAGAGTTTATATTATAAAAAATACTATCTAAGCTGTCATCAATAGCAGTTACAAAACAACTTGATAGATTTCCACTATTTTTTCTTAAATTAATAAGAATAGGGGTAGCTAATGAAATTTTTCTACCTGCAATAGAATTATAAACTTGTTTGGCTAAATTTAATCTATTTTCTTTTTTTTCAACAGATGCAATAAATAAAGATACAGTTAAAAAAAGCTCTTGAGGCATTTCAAATGGCTTATCTTCATCAAAAATAATATACCTATTTATCATCATATTTGCACCAGCATAATCAAAATCTAAATCATATTTTGGATTTATAAAAGTTCCTGCTGTTTCTAATTCTTCTTTTGTATAAATTTTCATTATTTTAGAATCATAAAACCCTCTTTCTACAGAATTTTTTACAAATTCATAATAATTTCCATATCCAAAAAAATCATTTTTTCTTTGATGTTGGATCTCTTTATAAAGTTCCCAAATTAAAAGACGAGCAGCAACTATTCTCCATTTAGGCATTTCTATAGATGTTAAATTTAAAGAAATATCAATTAAAGATTTTTGAATCTCTTTTGTGGTTATTTTGTCATGATAAATTGAATTAACCTGACTTTCTATTTCTAAATAATTAATATCTTCAAAACCATCGCAAGCCCATTTTAAAGCTTTTCTAATTTCTTTGATATCAATTTGCGATTCTATATTACTTCTATTTAATACATTCATCTTCTTCCTCCTTTTGAAATTATAACATTTTTATAATTATTACATTATAAAAATTAAAAAAATATACTACATATAGTGGTATGGAAATATTATACCACTTGATATAGTGTTTGTAAAGAAAAAAATAAAATATAGAATTTGATAAAAAAAGAGCTTTTTTAAGTTCAATGCCATCAAGTTAAGAAAAAATATGTTTTTTTAGAGATTGATTTTATTATGCTATTAGTAAACTACTAGTAGCATAATAAAACGGTTAAATTTGAACTATAATAAATATACAATATATTGCTATTTATAATTGAAAAAAAATATGAAATAAGATATAATGTAGAAAATATTAGAAATCTAAATATTAGAATTAATTTAAATAAAAAAACGTAAAGTTTAACTATAAAAAATATTAATTAGGAGGAAAAATGAACAACTTTAGAATTTTCGTTGAGAAAAAAGATGAGTTTAGGATTGAGTCTCAAAGTCTTTTAAGTGACTTAAAAGAAAATTTACAAATTCAATCTTTAAATAATTTAAGATTGATTAATATTTATGAGGTTTTTGATATTAGTGATGAAGATTTATCAAAAGCAAAACAGTTTGTTTTTTCAGAACCTGCAACGGATATTATTTTTGATTCTATCGACCTTTCAGAAGAAAATTACTTTTCTACAGAGTATTTACCAGGACAATTTGACCAAAGATCAGATTCAGCTATGCAATGTTTAAAGCTTCTTATTCCGGAAAACAGAAGCACAATAAAAAGTGGAAAACTAATTATACTTGAAGGGAATTTATCAAAAGAAGAAATTCAGAAAATAAAAGATTATTATATCAATCCTGTTGAATCAAGAGAAAAAGATCTGTCTTTAGATCCAATAGAAGAAGATATAAATGCTCCTTTTGAAGTTGAAATTCATACAAATTTTATTAATTTAACATCTGAAGAACTTGAGTCATTTAGAATTCAAAATGGGCTAGCTATGAGTTTTAAGGATATTGAATTTGTTCAAAACTATTTTAAAAATGAAGAAAAAAGAGATCCTAGCGAAACAGAGATAAAAGTGCTGGATACATATTGGTCTGATCATTGTAGACATACGACTTTTGAAACAGAAATTAAAAATGTTATTTTTCCAAAAGGAAATTTTAATGAAGTTTTACAAAATACATATAATGAATATCTAAAATCAAGAGAATTTGCACATGGCAGTAAAAAACCAATGTGTTTAATGGATATGGCAACTATTTCTGCAAGGGAACAAAGGAAATTAGGTGTTCTTGATGACCTTGAAATAAGTGATGAAGTAAACGCATGCAGCGTAAGAATAAAAGTAGATGTAAATGGAAATAAAGAAAACTGGCTTCTTATGTTTAAAAATGAAACTCACAATCATCCAACAGAGATAGAACCTTTTGGAGGAGCTTCAACTTGTATAGGTGGAGCAATTAGAGATCCTTTATCTGGTAGATCATATGTTTATCAAGCTATGAGAGTAACTGGAGCTGCAAATATTAATGAAAAAATAGAAAATACAATAGAAGGGAAATTGCCACAAAAAGTTATATCTAAAACTGCTGCACATGGTTATAGTTCATATGGAAATCAAATAGGACTTTCTACTTCATTTGTAAAAGAGATTTTTCATGAGGGATATAAAGCTAAGAGAATGGAAGTTGGAGCTGTTGTTGGGGCTGTAAAAGAGGAGTATGTAAGAAGAGAAAAGCCATTAGCTGGAGATATTGTTATTATGCTTGGTGGTAAAACTGGAAGAGATGGATGTGGAGGAGCTACAGGTTCTTCAAAAGAGCATACGACAGAATCTCTTGTTACTTGTTCAGCAGAAGTCCAAAAAGGAAATGCACCAGAAGAAAGAAAAATACAAAGACTTTTTAGAAATCCAAATGTAACAAAATTAATAAAGAAAAGTAATGATTTTGGAGCAGGTGGAGTAGCTGTAGCTATTGGAGAATTATCAGATGGATTAATTATTAATTTAGATAAAGTACCTGTTAAATATTTAGGATTAAATGGGACAGAACTTGCTATTTCAGAATCTCAGGAGAGAATGTCAGTTGTAGTGGCAAAAGAAGATGTTCAATTATTCATAAAATTAGCAGAAGAAGAAAATATAGAATCTGTAGTAGTTGCTGAAATTACTGAAGAAGCTAGACTTATTATGAAATGGAAAGGCAAAGATATTGTTAATCTTTCAAGAGCTTTTTTAGATACTAATGGAGTTCGTTCAGAAACAGAAGTTGAAATTGAAGAATTTGAAAAAATAGATATTTTTAAAAATAAAATTTCAGGAAATAGTATAAAAGAGAAGTTTTTAAACAATCTTTCGAAAGATAATGTAGCTTCACAAAAAGGTATGGTTGAAATGTTTGATGCTACTATTGGTGCTACTACTGTACTTATGCCTTATGGAGGTAAATATCAATTAACTGAAACAGAAGCTAGTGTGCAAAAAATACCTTATTTAAATGGAGAAACTAATACTGCTAGTATTATGAGCTTTGGTTTTAATCCAAATATAAGTTCTTGGAGTCCTTTTCATGGTGCAGCATATGCAATGGTTGAATCTATATCTAAAATAGTTGCTGTAGGTGGAAAATGGCAAGGTATTAGATTTAGTTTTCAAGAGTATTTTCAAAGATTAGGAAATAATAAGAAAAATTGGGGAAAACCATTTTCAGCTCTTTTAGGAACTCTTTTTGTACAAAAAGGTTTTGAGCTTCCTGCAATTGGTGGGAAAGATAGTATGAGTGGTAGTTTTAATGATATTAACGTTCCACCAACACTTATATCTTTTGCTGTTAATACTGAAAATGCGGATAAAATTATATCAAATGAATTTAAAAAAGAGAATAACTATATTTATTTAATTAAGCATAATCCAACAGAAGATTTTATGCCTAATATAGAAGAATTAAAAGAAAATTATGATTATATATACAAAAATATTTCTGAAGGTAATATTATTTCTGCTTCAACAATTAAATTTGGTGGAGTTGCAGAAGCAGTTGCGAAAATGTCTTTTGGAAATAAAATAGGTTCACAATTAGATGAACAGTTTGTAGATAACATCTTTGATTTGGATTATGGTTCTATTCTTGTAGAATCGAAAATAGAATTAAAATATAAAAACGGATTGTTAATAGGAAAAACAACTAATTCTAACTTTATATCTATAGGCAATGAGAAAATAACTTTAGATGAAGCTTTAGAAGCTTGGACAAAAACTTATAAGAAAGTTTATCCAAGTGAAGTAGATTTAGAAAAAGGAAGATTAGAGATTAAAGATTATAGAAAAGATATTAATATTATATCAAAACCTATAGAAGGTAAGCCAAAAGTTTTTGTTCCTGTATTTCCAGGTACAAATTGTGAATATGATTCTATAAACTCTTTTGTAAAAGCAGGAGCAATAGCTGATTCAATGGTATTTAGAAATCAAAATTCACAGCAAATAATAGAGTCAATAAACGAAATGAAATCACATATAGATAGTTCACAAATAATTATGCTTTCTGGTGGATTTTCAGCTGGAGATGAACCTGATGGTTCTGGTAAATTTATAGCTAATATATTAACTAATAATCTTATTAAAGATGCTATTGAAAAGTTTTTAAAAAGAGATGGTTTGATACTTGGAATATGTAATGGATTTCAAGCTCTTATAAAAAGCGGATTACTTCCATATGGTAAAATTGGAGAAGTGAATTCTGAATCTCCTACATTAGCTAAAAATAATATAAATAGACATATTTCTAAAATAGTAAATACTAGAATTACATCTAATAAATCTCCATGGTTAAATGGAATTGAACTTGGTACAATACATAGCATACCAGTTTCGCATGGCGAAGGGAAATTTGTAGCAAATGAAAAACTTTTAAAATCGTTATTTGAAAATGGACAAGTTGCAACACAATATGTAGATTTTGAAGGTTATCCTAGTATGAATGGAACTTTTAATCCAAACGGCTCATATCAAGCAATAGAAGGTATTACAAGCTTAGATGGACGTATCTTAGGTAAAATGGGACATTCTGAAAGAGTAGGAACAAATGTTCATAAGAATATTTATGGAGAAAAAGAGCAAGGTTTATTTATTAATGGTGTAAAATATTTTAAATAATTAAAGAAACTACTTCTTTGTTAAGAGGTAGTTTTTTTATGTGGTCCTTTGTAGGGGCAATTCATGAATTGCCCTTACGATAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAGTGAACTTTATTGTAAGAATACAGAAGTATATGTAATATAATGTTATGAAAAAAATATTCTTTTAAAATTTATAATTTTAAGGTATAATAGAAAAATCTAAATAGTTTAATATTAGTTAATATAAATTTAGGAGAAGAAAATGAAAATATCAATTATTTCTGATGATTTTACAGGAGCAAATGACGTAGGAATTCAAGTTAAAGAATATGGAGTAAAAGTATGCTCTACAATAAATATAAACAAAAATAGTTGTGATGTAAATGTTATTAGTACGGAAACTAGGAATGCAAAAGAAGAAGAGGCTTATAATAAAATTAAAAAAACATTTATAAAATTAAAATCAAATGGATTTGATAAATTTTATAAAAAGATAGATTCTACATTAAGAGGAAATATAAAATCTGAAATAGATGCTATTTTAGAAAATTTAGAAGATGAAGAACAAATATGTTTAGTTGCAGCATTTCCTAAAATGGGGAGAAAAATTTTAAATGGAATTCACTATTTATGGGATGAACCATTAATAAAAACAGAATTTGCAAAAGACCCAGTAGCGCCAGTGAAAGATGGAAATTTATTATCAAGAATAGGTAATAAAAAAAAAGAATTGATCAAACATTTTAAGTTAGATGATATTAGAAGTGAAGGATTTGCAAAAGAGATTAGAGAGTCAAAAAATAAAATTTTAATTTTTGACAGTGAAGTAGAAGAAGATTTGGAAAAAATATCTAAAATATTAGTAAATGAAAAAAAAGATAAATATGTAGTAGGTTCAGCAGGAGCTATAGAATATTTAATGAAATATTGGGGATATAAAAAAAGTAAAGTGTTAATTGTATCTGGGAGTTGCTCAAACAAAAGTATAAAACAAATAAATTATTTTGAGATAAAATATAAAAATAGTTTAGATATAATAAATTTAGATGTATTTAAAAGAGAAAATTTAAAATTAGATTTAAAAAAAGATATTTTAATAAAATCTTTAAGAAAAAGAGAAGAAATGGATTATGTATTAGAAAAATATAAAATTAATGGAATAGATAAAAAAGAAGCTACAAATATTATAAGTGATTATATTGCAAAAGAAACTATAAAAATAGTAAAAAAATATAATATAACAAAAATTATAATATTAGGTGGAGAAACATCCCTTAAAATAATAAAAAGTTTAAATATAAACGGTTTAGAGATAAGATTTAAAATAGATACAGGAGTTGTAATTTCAGAGAGTTTTAATAAAAAATATATGATAATAACAAAGCCAGGAGCATTTGGAGAAGAAGATGTACTGGAAAGAGGTTATAATGTATTAAAAAGTGTATAAAAATAAGACTATTTTAAGAGAAAAAACAAATAATTTAGTATAAATTTAAAAAAAGTGTAATGAAATTTAACAAAGTGCCGAGAATATAGATGTTAAATTTTTTTAGAGAGGGGTGATGTTTTGAGAAGAGCAGTTGTTGCAGCACTGTTAGTAGTACTTTTTAGTTACAGTTATTCAGGGATAAGTCAAGAAACTTTTAATAATATTTCATCTAGATTACTAGAAATGAAATCAGATTTAAAAGTAGACTTACATAAGAAAAATTATGGAAATGAAGTAGTTGGTACTTTTGAATTAAAAGGAGATAAAATAAAATTGTCATCTTTTATGTTACCTGTAAAAGGTAGAAAAAATCAAAAAAACTATAACATTACAGAAGAAAGAGATTTAAACAGTTTTAAATTGTTATCTTCTAATCAACTATTACCTAAATATTCTTATGGAAAAGAAAAAAATATGTTGCTAAAAGATATTGCTAAAACTACTGGCAAAGGATTAGCAGTTTTATTAGGGTTATTATTTGGAATGAAAATGTTTTTTTCAAAGAAAAAGAAAAAGAGAAAATCAAGAAAAACAGAAGAGAAAAAATCAAAAAAAGCAGCATAAAAAAAGAGAAGAAATTGATTTTAATCAATCTCTTCCTTTTTTTATGCAATTTTTTAATATTTTATTGTTTTTTCTCTTGAAATATTAACAATTTCTTCAATTGTTAAATCTTTAGGATAAACAGTATCAACATAATTAAAACTTATATTTCCAGGTCTAGGTATAATTATTCCTCTTGGATAAGCTTTATATGCACCATCTATTTTAGTTATTACAACTGGAATATCAAGTTCCTTACTTAATATAGCAAAACTTTTTTTATATTCTTTAATAGAGCCATCATTTGTTCTAGTTCCTTCTGGGAAAATAACAACATTTTTACCAGCTTTTAATATTGATGCAAGAGATTGTAAAGTTTCTTTTAATCCTTTATTAACATCAATAGGAATAATATTACTATGATCTTTAAAAAATATCATAAATTTAGATTTAAAATAATTTGATTTAGAGACAAAATATGTATTTTTTAATATTTTATCAGGCAAACTTCCAACTAATATGAAACCATCAAGAAAACTTTGATGATTTGCAATTAAAACAAACTGTTTATCTGTTGGGATATTTTTAATATTTTTATTTTTTAATCTAAAATATAACTTTAATATAGGCATAGAAAGCCATTTCGTTGCAAAAAGTAAAAATGGATTTTTAGGCAAATCATAATTTGGAGTGTTTTTTAATATATTTCCCCAATTTACAGTTGTATTTGTAATTTCTCCCTGTTTCCCTTCTATATATAAATATAATTTTTCAAGTGTAGGGTTATCAAATATTTCATCTTGCTCCATTTTTATTCCAAATGAAGTTTCTATAAATACTTGTAATTCTACTATATCCAATGAATCAAGTCCTAAATCAAGTTCTAAATGATTTTGTGGAAAAGGTTCTATATTTTTGTTTTCTTTTATATATTCTTTTAAAAGTTTATAATATTCAGATTCAGGTTCTTTTATCTCTATATTATCATCTCTTTTTATAAATTTATTTAAAAAGCTTTCAAGCTGAAATCTTCTAATTTTTCCAAGCCTAGTTTTAGGTAGTTCTTCTTGAACAATATCAAATTTCAAAATCTTTTTATAATTTGGAGCATCTTGGTTGTATTTATCTATAATTTTCCATTTTATAGTTTCATTTATATTAGTAACTCCATTCTGTACTAATTTTCCAAAGTCAGGAAAGATAATTGCATGTAAAATATTATTTTTTTCAATTACACCAATTTCTTTTATAAAATCTGATATTTTTAATATCTTTTTTTCTATATCTTCAGGATTTATATTTTTACCATTAGGAAGAACTATCATTTCTTTTTTTCTTCCAGTTATAAAGATAAAGTTTTCTTTATCTATATATCCTAAATCTCCTGTTTTTATCCATCCATCTTCTGTGATTGTATTTTTGGTAGCTTCTGGTTTATTATAATATCCTTTCATAGTATTGTTACCTTTATAATAAATTTCTCCATCAACTATTTTTATAGAGCTTCCAATTACTGGCTGTCCAACAGAACCTATTTTTATGTTATTTCTTCTATTATATGACATTATAGGACAAGTTTCAGTCATTCCATATCCTTCTGTAAGTGGAAATCCAAGGGTATAAAAGTCTTGAGCAACAGTTTTATCAATTTTAGCTCCACCAGAAACCATAATTTTAATATTTCCGCCAAAATTATCATGTACTTTTGAAAAGATTTTTTTTCTAATTTTAATAGAATTTATATTTTTAGCTAAGTTAAACATTGATTTAGCAATAAAGCTTTCATCTATTTTTTTCATAATACTATTATGAAAAAGTTCTAATAAACGAGGAACTCCAATAAATATAGTTACTCTGTTTTTTTGTAATGCTTCTAAAATATCAGTTGAAGCTAGACTTTTAGAAAAAACTATTGTAGCTCCAACATAAATAGGACCTAATAATGTTCCAGCAAGAGGTAGTATATGATGTAAAGGAAGTAGTGCTAAAAAAGTATCTTCTTTTTCAAACATTTTATCTTTTATTAATGAGTTCATTAAAAATTTAAAATTATTAACGGTAAGCATAACACCTTTTGGATCTCCAGTAGTTCCAGAAGTGTATAAAATCATCGCAGTATTATCCAACTTTGGAGTTTTAATATTTATAAAGTTAGATTTTTTTTCTATATTTAATTCATCAACATTTATAATATTTAACTTGTCTTTAAATTTTTCAGCTTTAGCTAAAGAACTGTTTGATACAAAAATAGTTTTGGCATTAGAGTCATTCATAACATATTCTAACTCTTTTTCATTAGAATTAAAATCAACAGGAATAGAAACTCCTTTACAATTCCAGATTGAAAAAAACGAATAAATCCATTCAGGCCTATTTTCCATAAAAATAATAGCTTTTTCATCAGTAGATAATTTTGTTAATTTAGAGTATTCATTAATAAAATTAGTAAGTTCAGAGTAATTAATTTTTAAATCTCCATAAACTATAGCAGTTTTATTATAATCTTTTATAAATTCCATATTTGTTTCCCCTTTCTTAAAAAACATATTTTTTAAAGCAATCATTATATTATACACAAAAAACAAAATATTTTCTACAATTACATTTTTCACAATATAATTTTTCCTGAATATGGTTATATAATATGAATAAAAGACGATAATTAAATTAGAACTGTATTTAAAAATACACAAGGGGGAGATTGAGATGTCAAATATCAACAGTCTTAATTCAACACAAATTGATACTTTGTTAAAATCAACAGAGTTAAAAGGAGGTGATAAGAGTAGTAATAATGAAAAAGAAGATATATCAAATTTTACAAAAAAAGATTTTTTAGATATTTCTAATCAAATTGATATAATAAATCAGCAAAATAGTAAAGTGAATAAAAAATATAGTGATTTAGAGAAAAAATTAGGAATAGATTCAAATAAATGGGGAGTAGATGCAGTATCAGATGATATTTTTAATTTTGCAAAAATAGTATATGATAAATATAAAATAAACCACAGTGAAGAAGAAAGTCAAAAAGTTTTGGACGATTTTTATAATTTAGCTAAAAAATCAATTACACAAGGGTATAATGAAGCAAAAGATTTTTTAGGTGCAGTATCAGAAGATGTAGCAGCATTAGGAAAAGCTACATATGATAGAACAATAGAAAAACTTGACAATTGGTATAAAAATGGTGGAGTTGAAAGTACAGATAAAACAGAAGAAAACAAAACAGAAAATTCAGAAACTAATAAAATTAAAAATAAAAACACAGAAGAAACTAAAAAAACATATGAAGATTATGACAAGAAAACAAAACAAATGTTAAAGGAATCAGAAATAATAAAAAATCAAGTTGTAGAATTATTGAAACAGAGTGGATTATATGCAAAAGAGACAGAAACAAAAAAATCTACTATAGATTATGAAGGATAATATTAATAAAAAATAATATTCCCATTTTCTTCTAAAAGGCTCAAGGTTCTTTTATGAAAATCATATAAAAAATTATGCCAAATGTATGCAATGTTTTAAGCAGTTTTATAACAAAATATGATAACATTATTTTTTAAACGTTCCTAAATAAAAAAATTAGCTTGACACTTAAATAAAGTTGTGATAAAATATTCTCCAACGCCGAGGTGGTGAAATTGGTAGACGCACTGGACTCAAAATCCAGCGGGGGTGACCTCGTGCGGGTTCAAGTCCCGCTCTCGGCACCATAAAAGAGATTAAAAATTGTATAGTATAAAAAGAGATACCTTAAGGTATCTCTTTTTATGTTAGAATAGGAAAAGTATAAATTTATTATTGTGACTATATTTGAGTTATAATAGTTGAACACTATCTTTTTTTATAAATTTAATTGGAAGTTTTTTTTAGATGTGATATAATTGAGTAGTAAAGAAAAAATGATAATTGACACTAGGGAAAAAATATTTATGTTTCATAAGCTAAACCGTATCTTATTTTTTTATTATAAAAAAGATTAAAAAAATTTTAAAATGTAATTAATATTTTATGAAAAGGGGTTATAGATGGCAGAGGGAAAAAGAGAATTAATAATGGATATAGCAGAAGAGATATTGATTAAAGCAAATTATAAAAGTATGACTACTTTACAAATAGCTAAAATTGGAAAGATTTCAGAAGCGACTTTATATAAATACTTTAAAGGGAAAAAATATATTTTTTTATCTGTATTAGAGAGATTTTATGATAATATATATAATAATTTTTTTGAAGGTGTAAATAGTGGGAATACAATTTCTAAAAATTTTTATTTTATAGGAGAAAATTTATATAACATGTTGAAAAATGAGAATATGTCATATAAGATCGTATATAAAGCATACTCTGAAATAGATGATGAAAAAATAAAAGAAGTTTTGAAAAGAATATTCAATGAGATATTATCTGGTATAAGAGAAGTTATTAATTGGGGAATCGAAAAGCATGAGATAGACATTAAAGAGATTGATGCAGAAATATTAGCAATGTCAATGTGGGGAGTAATAGATAGTATATTAAGAAAGCATATAGTAGATGATGAATGCGACATGGAAAGCGATTACTTTTTAAATTTAGGAGCTATCTTTTTTAATCTTTTGATAAAATAATTTTTTGGAAACGACTTAAAAATAATAAGAAATAACAAAAGAACGTTTAAAAAATAATATTCTAAAATAGGCAAGGTGTTTTTTTTTAATTTTTTTAAATAAAATATGGAGGTTTTGTAATATGAAAAAAATTAATTTATTAGTAATAGTAATTTTGTTGGTGATAGTTGGTGGATGTTTTAGTAGTGAAAATATTAATATTAATGATGGAACGATAACGTTAAATGAAAAAATAGAAGTTGCAAAAGAAGAAGTAGAATTAAAGATAGAAGGAATAGTAGAAGGTAAATATTATATAGAAACAATAGGAGATGTGTACTGTAATATTTATAATGAAACGGGGGAAGAAATTTCTGGTTTAAATTTAATGAATACATTAAAATCCGGATATTATATAAAAACTCATAATTCGGGAACAATAGAAATAAAATCAAAAGAGTATGTGCCATTAATAGAATTAAATGAAATAAAAACAGTATCAGGAAACAAATTATTTAAAATAAGAGAAGGCGTATCAGAAGACCAATATTATATAGAAACGACGAAAGATGTATGTTATGGAATATATGATGAATCTGGGGATAGAGTTGATTTTAATTTAATGGATAAATTAAAACCTGGCTATTACATAAAAACTTATAATTCAGGAACAATAGAAATAAAATCCAAAGATTATACACCATTAATAGGATTAAATGAAATAAAAACAGTATCAGGAGACAAATTATTTAAAATAAGTGAAGGTATATCAGAGGGCCAATATTATATAGAAACGACGAAAGATGTGATTTATGGAATATATGATGAATCTGGAAATAGAGTTGATTCTAATTTAATGGATAAATTAAAATCTGGCTATTACATAAAAATTTATAATTCAGGAACAATAGAAATAAAATCCAAAGATTATACACCATTAATAGGATTAAATGAAATAAAAACAGTATCAGGAAAAAAATCATTTAAAATAAGAGAAGGCGTATCAGAGGAGCAATATTATATAGAAACGACGAAAGATGTAGGTTATGAAATATATGATGAATCTGGGGATAGAGTTGATTCTAATTTAATGGATAAATTAAAATCTGGCTATTACATAAAAACTTATAATTCAGGAACAATAGAAATAAAATCCAAAGAGTATACACCATTAATAGGATTAAATGAAATAAAAACAGTATCAGGAAAAAAATCATTTAAAATAAGAGAAGGCGTATCAGAGGAGCAATATTATATAGAAACGACGAAAGATGTATTTTATGAAATATATGACGAATCTGGAAATAGAGTTGAGTCAGCAATGAATATATTAAAATCTGGCTATTACATAAAAACTTATAATTCAGGAACAATAGAAATAAAAGAGAGATAAAAATTTATTTTTCACCTCAATTTAAGCAAACCTATATTAAATCAAAATTGAGTTATAAAAAGTTATGACTTTTTATAACTCAATGGCTATTCTTTAAACTTAATTGTAAAATAATTTTATAAAAAGTATTGACTTTTAATCAAAAATGTAGTAATACTTATATTAGAAAAAGGGAATAAAAAAATTCCCTTTTAAATTTTAAAGATGTTGCCCCAAAATGGAAATCAAATTTAGTTTTGGAACAATATTTTTTTAAAGTTTTGTGTTCTGAAATTAAATTCAAATTCAAAAATGGAATAAAAAAGAAGCGGGGGGTGCTTAAAATGAAAAATGAAGAGAAAGAAGTTACAAATGAGAATGAAGAGGATATTTTATATTTATTACAACTATTTGAAGCGTATTGCTAAGGGGGAGAGAAAAATGAAAAAAGTAATAATTGGATTGCTAATGGTATTTTTTCTAGTAGTGGAGACTTTTGCTGCAACTGGTGAATCTTACTTAAATAAATATATGATGATGGCTGTAAAAAAAGGAGATATTGCAACAATTAGATTATTGAAAGAAAAAGGCGCTAATCTGAATATAAAAGATAGAAAAGGGAATTCTTTGCTAATGCTTTCTATATATTTAGGGTATGATGATATTTTTGAATATTTAGTAAAAAACGGAGCAAATTATTTATTAACAGATAATAGTGGAAGAAGTCCATTAATACTTTCTATATATTTAGACAGAGGAAACATGATTAATTATATGCTTGATAGTGGACTATTAGAAGGATTAAATATAAAAGATATAAGTGGAAAAACAGCATTAATGATTGCAGTTGCAAAAGGAGATAAAAAATTAGTAACTAAACTATTGAAACTTGGAGCAAATCCTAATGAAAAAGATAAATTAGGGAGAACGCCTCTTGCAGAAGCAATGGATTTAAATCTTCCAGAAATAACTAAAATTTTATTAGAAAATCAAGGAAAAGCAAATCATTCTATAGACAAAGAGAGAGACTTGCTTAGATATGCAACTTTTTCTGGAGATGCTGGTATAATAAGAAATATGCTTGCGGAAAAAAGAGAAACTACAGAGTCAGATAGTAAATATGCAATAGTAATAATAGAAAGAAATATATTTTTGAAAAAATATTAAGGAGTGTCTTAAAAAAATTATAAGTGGGGGTGTAATATAATGAAGAAAAATTCGATTAATTTAATCGTGATAATATGTATATTTGTAATTATTAACTTAGTGATTTATCCTGTGGATACCCCTAAAAAAATTAAATCGATAGAAAAATATAAAGTTATAAATGGAGAAAATATTCGAAAAGAGATAGATGACTATTTAGAAAAAGCATTTAAAGATATAGAAGGAGAATATAAAAAAATAGATGAATTAAAATTAGAAACTGAAAATTATTTAGAAAAAGCTAAACAGGATGCCCAAAATGCTAGAAGAGAAAGGCAATTAGCTGAAAAAGAGAGAATAAGTTTACAGGAAGAGAGAAAAAAAGCTGAAGAAGAGAGAATTAAAGCTGAAGAAGAGAGGCTCAAAGCAGAAAGAGAAAGAATAAAAATTGAAGAAGAAAAAAGAATGTTTGATGTGCGAAAGAAAGAAAATATTATCTATGAATATAATGATTATAAAATGCAAAAATATATTAATAAAATAATATCAAGAATGGTTACAAATCCTAACATTATAAAAGATGTTATAAAATATTTTGAAGAAGGAAAAATTGTTGAAAGTGAAGCAAAAGTAATAGTTTTAAATAAATTAAAAGAAATTTTAAAAGAGAATAGGGGAAAAGAAATTAATCCAAAAGCTGAAAGAGAATATCAAAGTTATTTGCAATGGAAAACAGTTAAAAATAATTTGATAAATATAATTGAAAGAAAAGATTTTGATATTAAAAAATTAAAAGATGCTATAAATTATATAAAAAATGATGTAGATGTTGAATATAAAAAAAATATAGAAAATATAATGGAAGAAGAGCTAAAACAGTTAAAAATTGAAAAAAATATTGGAGAGAAAAAATAATAAATTTAGTGTGGGAATTAATAAAAAAAGAAAGGTGCTTAAATTTAAGCACCTTTCTTTTTTAACTTTATATTGTCCTATTTAATTTTTCTAAACTAATTTTAGCATATTTTAAAAGTATCTCATTATTATTAGATTTAATAAATTTTTCTAATAAATCTATATATTTTTTATTATTAGAGTTTCCAATTATAATAAGTGCATTTCTTTTTAAAGTATTAGCTCCAGTCCAACCAATTGGAGTGTTAGAATAAAATTTTTTCAATTTTTTATTGGACATGAATAAAATTTTCTCAATAGAAATATATAAATTATTTAAAATTTTAAACTCTTTTATTGGAGAAGAAGATATATTTTTATTCATAGGACATACATCTTGGCAGATATCGCATCCCCAATAATTATTATAAATCAATTCAGGCGAAATATTATTTTTAGTAGTTGTTAGATATGCAATACATTTTGTAGCCTCAAGTTTAAAATCGCCTAAAATAGCAGAATTAGGACAACTAGTTTTGCATAAATTACATTTATTACAGAGTAAATTAAATTCTTCAGATAATTCAGTAGGCGCTAATTCTAAATCAGTTAAAATTTCTCCTAAAAAGATAAAAGAACCATATTTTTTTGTATATATTAAAGAATTTTTTCCATAAAGTCCAATTCCGCTATTTTTCGCTATCTCTTTTTCAAAAAGTGGATTTGAGTCTACATATATTTCAAATTTATTATTAGGATATATATTTTTTAATTCAATTATTATTTTTTCTAAAATATTATTTGCAACATGATGATAGTCTAATCTTAAAGCATATTTTGATATTTTATATTCTTTGTATTCTGGAATATTTCCATTGTTATATGGAAATGCAATTGAAATAATAGATTTGATATTTGGAAAAATATTATTTAAATTAGATCTTTTGTTAAAATCTTTTTCATCAAATTCAACAATATGATTATCAGCTAATTTTGAATTAAAAATATTTTTTAAATATGAAAAGTCAGTTATATTTGTTATTCCATATACGTCTATATTATAATTTGATAAAATTTTATTTAACATAACGATTACCTCTAAATTTTAAATTCCCCATCATCATTAAAAAAATTTAAAATGATAATGGGGTTCATATTTTATTTTGATTTTTTCAAATCATTTCTAAATCATTGTGTATTTTAAAACAAAATCGGAAGGTTATTTTTAAGCCGTTTCTTAGTAAATATTTCCAACTAATCCGACAGCTTTTTTTACTTCTATAATTTTTTCTGTTGCAACACTACGAGCTTTTTCAGCACCATCTTTTAAAACTTTTTTTACATAATCCATATTATTAACTAATTCTTCTCTTCTTTCTCTATATGGTTTAAAATATTCTAAAATTATTTCTAAAAGTTCTTTTTTAGCATGACCATATCCATAATTTCCACCTAAATATTTTCGTCTCATCTCTTCAAGTTGAGTTTCTGTTGCAAACAATTTATATAAAGCAAAAACATTACAGATGTCAGGATTTTTAGGTTCTTCTAATGGAGTGCTGTCAGTTACTATTTTCATAATTTGCTTTTTCAAAGATTTTTTAGGAGCAAACATCTCTATTGTATTGTTATAACTTTTTGACATTTTTTGCCCATCTATTCCAGGAACGACAGCCATTGTATCTTTTATTAATTCTTTTGGAAGCTTGAAAATATCCCCATAAATACTATTAAATTTAATTGCAATATCTCTTGCCATCTCCACATGTTGCTTTTGATCTTTCCCAACAGGTACTATATCAGAATTATAAATTAAAATATCAGAAGCCATTAATATAGGGTAAGTAAATAGCCCGTGATTTGCAGCAATTCCTTTTGCTACTTTATCTTTATAAGAATGAGCTCTTTCTAAAAGTGCTATTGGAGTTACATTACTTAAAATCCAAGTTAATTCTGTAACCTCTGGTACATCTGATTGTAAAAATAGTGTAGATTTTTCTGGATCAAGTCCAAAAGCTAAATAATCTAAGACTACATCATATGTGTTTTTAGTTAATTGTGCTGGACTTGGATGAGATGTAAGCGCATGGTAATCAGCAATAAAATAAAATCCATCATATTTAGATTGAAAATCAATAAATTGTTTGATTGCACCAAAGTAATTGCCTATATGTAAAGTCCCACTTGGTTGAATTCCTGATAAACTTCTCATAATTAAATCCTCCTAATTGTTATATTTTTTACTCTAATTATTATTGTGATTTATTTTAACATTTTAAATAAAAATTTTCAATAAATAAAAAGGAAAATAAAAATTTTATTGTATAATATATTGTAAAAAATGAAAAATTAGTATAATATATGTAATGAAATACGAAAATGGGAAAAATGAAGACAAATAGGGGGGCTTTATGGGGAAAAAGACAGTAGCTTTAATTTTAGCAGGTGGAGCAGGAACTAGGTTGGATATTTTATCAAAGCATAGAGCAAAGCCGGCAGTACCATTTGGTGGAAAATATAGGATAATAGATTTTGCTTTAAGCAATTGTGTGAATTCTGGGATTTATACAGTTGGAATTTTAACACAATATTTGCCTAGATCATTAAGCGAACATATTGGAATAGGTAGACCATGGGATTTGGATAGGTCATTTGGCGGAGTAACTTTATTACCACCATATCAAAGATCAGAAGGGGATTGGTACAATGGTACAGCTAATTCGGTATACCAAAATTTAAATTATGTAATGGATCATAAAAGTAAAAATACTTTAATTCTAGCAGGAGACCATATTTACAAAATGAATTATCAAAAAATGATTCGTAATCATGAAAAAACAGGTGCTGATTTAACAGTTGCAGTAAAGGAAGTTCCAATGGAAAATACGAGTCAATTTGGTATATTAGAGGTTGATTCGGAAAATAAAATTATAGAATTTCAAGAAAAACCAAAAGAAGCAAAAAGTAATTTAGCTTCTATGGGAATATATATATTTAAAACAGAATTATTAAAAGAGTTATTATTGAAATATTGTGGTCCAAATGGTGGAGAAGATTTTGGAAAACATATAATACCTAAAATGATAGGAGAATATAAGGTTTTTGCATATAAATTTAAAGGATATTGGAGAGATGTTGGAACAATAGAAGAATATTGGAAAGCTAATATAGAACTTGTAAGTGATTATCCGCCAGTAGATTTATATGAGGAAGATTTTAAAATTCATACAAAAAGTGAAGAGTTGCCACCAGTTAAATTTGGAAAAGAAGGTTCAGCAGTAAGAAGTCTTATATCGAATGGGTGTAGAATTAATGGGAAAGTAGAAAATAGTGTAATATCTCCAGGAGTTGTTGTGGAAAAAGGAGCTGTTGTAAGAAATTCTATTATTTTTAATGGAACAATAATAAATAAAGATACTATAATAGATAGAAGTATAATAGATAAAAAAGTTGTTATTGGAAAAAATTGTAGAATAGGGATAGGAACGGATTATACTCCAAATAAAGAAATTTCGGAAAAACTTTATAGTGGAATAAATTTAATAGGAAAATTTGCTTGTGTTCCTGACTCTACATATATAGAAAGAAATTGTAGGATTATGTCAAGAGTAGAAGAGAGTGAATACAAATCTAATAGAGTAAGAAGTGGTGGGAATATTCATTCTGAAAAAGAAGGTGGGATTTTTGATATGTTTTTGATATAAGATGAAGCATAGCTCATTTTTTATTTGTTAGGAGAGTATAAATTTGTCCAGAAAATAAGCTACGCCATTTTTTTGAAATATGAGATTTTTCAAGGCAAAATTTTTCAGAAGCCAAAAATTTAGAAAAATATTTATACTCTACCAGATTAAAGCGTAGCTTATTTTTTTATATATGAAGAGAGAATAATTTATAATTGGAAATGAAAAAATAGTCGATGAATAAAAATAGTTGATATAAATTTTGAAATTGTATATAATAATTTTGAGATATTAAAAAACTAAAATATGGAGGTATAAAAAAATATGTTAAAGTATGTTGTAGGAATTGATGTGGGTGGAACAAATATAAAAGCTGGAATATTAAAAAATAATGGAGAAATATTAAAGACTTATTCTATTAAGACAGAAGCTTTTAATGGTGCAGAGGATGTTTTGAATAGAATAAAAAATCTTGTGGAGAAAATGTTAGATGAAAATAATGTTTATAAAGCAGATGTTTTGGGAATAGGGATGGGAATACCTGGTCCAGTAAATACTGATACAGGTGTTGTTAATTTTTGTGCAAATATGGTTGGATGGGAAAATTTTCCAGCAGCAGAAAAATTGGAAAAATTAACAGGATTAAAAGTAAAAGTTGGAAATGATGTAAACGTAATAACACTTGGAGAAGATTGGCTTGGTGCTGCAAAAGGGTATAAAAATGTATTAGGAATAACATTAGGGACAGGAATAGGTGGAGGAATAATTTTAAATGGACACCTTATATCAGGGACAAATGGAGCAGCAGGAGAAATTGGACATATGAAAGTAATTGAAGATGGAAAGCTTTGTGGTTGTGGACAAAAAGGATGTTGGGAAGCTTACGCATCTGCAACAGGATTAGAAAGAGAAGCAGTATCAAGATTAAGAGTGAATAGAGATACTTTAATTTGGGAAGTTGTAAATGGAAATTTTTCAAAAGTAAATGCAAAAGTTATATTTGATGCTGCTAAGAAAGGCGATAAGTTTGCACTTGATTTAGTTGACTATGAAGTTAAATATTTATCTATAGGATTGTCTAATCTTATAAATATACTTAATCCTGAAATAGTTGTAATAGGCGGCGGAGTTAGTTTAGCAGGAGATATATTATTTAACAAATTAAACAAAGCTTTAGAAAAAGATACGTTAAAAGTATCATTAGATGCTGTGAAAATAGTACCAGCAAAACTTGGAAATAGTGCAGGCCTTGTAGGAGCAGCTGCATTAATTGTTTTGGGATAAATTTTTTTAAATATATAGTAATATTAAGAAAAGACGAGAATTTAATTTTATTCTCGTCTTTTTCTAATTTAGTGGTAAAGCATAAATTTATTCAGAAAATAAGCTATGCTGTTTTGTTAATTGTACTTTTCATAAACTTATAAGACTATATTTTATATTACCTATTGTTTCACCTGTAAGGGCAATTCACGAATTGCCCATCTTTACAATCTGGAGCTTTATTTTTAATCTTAATACAAGAGATTTCTTTTAACTTTTAACTTTTAACTTTGAACAGCCCTGTTTACTAAAATCCCTGAAAAAAACTATAATGTTTTTTTGAAATGTACAATTTTTCGAGACAAAATTTTCTTAAAATCCAAGAATTTAGAAAATATTTATAATTTGTAAAACGAAATATATCTTTTTTTTAAATGTTTTTGCAAAAAAACAATTAAAAAAAGATATAAAATAGGATAAAAAATTACCATTTATATATTTTTTTAAAGCTGGAGCCTATATTTTTCAATACTTGGCTGATAATGTGTCTAATAATGGTAAAAAAATACTCAATAAGTGTTGACAAAACGAATTCTATGTTGTATAATCTATAACAACAAGAAGTTAGTTAGGAGAGATAACAATGGAGAAGGTTGTTGATGAACTACAAAAATTTAATTTATCAAAAATAGAAGCGACAGTGTATTTAACACTTGTTAGGTATTCTGGTTTGAACGGTTCTCAAATTTCAAAACTATTAAATGCGAATAGAGGTTCTGTATATTCAGCATTAAATAGTTTATATGATAAGGGTGCTGTTTATTTAATGCCAGGAGAAAAAAAAGTATATAAAGCTAAAAAACCTGAAATTTTTATTGAAAACTTAAAAAATAAATATATAGAAGATTATAAAAATTCTGCGGAAGTGTTAAAAGATGAGTTTTCAAAATTTGAATCAGTAAAAACGCAAGAACAAGAGTATTGGAATATAAAAGGGCAGAATAATTTTATATTAAAAGCAAAAGAGCTATTATTTTCTGCTCAAGAAGAGATCTATATAAATACTAACTATAATTTAAGAGCTTTTAGTGAAGAGTTTAAGGAATTGAATTCTAGAGGAGTAAAAATAATTATGTTTTCTCCAGAAAAAATTGAGACAGAGTTTAAATTTATAGAGCTTTATTCGTTAGGACAAGAACCAGATGTAATAAATAAAAAAATGATGTTAGTTGTAGATGATAGCGTGGCTTTGATTATGAGTGGGAAGGCTACTGGAGAATTTATAGGAACTTTTACAAGTAATAAATATTTGGTAGAAATAGTTTCGGAGCATATTCACTATGATATATATATGTTGAAAATTGGTCAAAAATTTGGCTCTAGTTTATTTAAAGATATCAAATTGAAGACGCACCATGAAGAAAATTTTATAAATAAAATAATAGATGGTGTTAAGAATGCGGAAAAAAATAAAAAAAAATTAAAACTTAAAAAATAAATTTTGGAATCTATTTTAAGAAGGGAGTGGTGTTATAAGAAGAAGATATTTTTTACCATAGTATCAAAGTTTACATACAAAAAAAGAGGAGGTAGAAAGGATGAAAAAAAGTATTTTAATGGGAGTATTGGCAGTTTTTTTGATTGGTGTATTTGGAGTAGAGGCTCAAGGTGGAGTATTTGATTTCTTATTTAAAAAGAAAGCAAATAATGGTGCTGTAAAAATAGGATTTTTATTAAAAACAATGCAAGAAGAAAGATATCAAAAAGATAAAAGGTACTTTATAGAAAAAATAAAAGCATTAGATCCAAAAGTAGAAGTAGTATTTGATTCAGCAAATAATGATGAACAAGCACAAATGGCAAAATTTGAAAATATGCTTGCAAAAGGTGTTAAAGTTATAGTATTACAACCAGTTAATACAGGTACAGCAGGAAATATGGTTAAAAAAGCACATGAAGAGGGAGTAAAAGTAGTAGGATATGATTCTATGCTTGTAAATGGACCTTTAGATGTTCATATTACACAAGATAGTTGGGCTGTTGGTAAATTACAAGGTGAAGCAATGGTTGAATGGTTAAAAGCTAAAAAAGGATCAGTAACAGGAAATGTAGCATTAATTATGGGACAACCTGGAGATTCTAATGCAGCAGCAATGAGTTCAGGAGCATTAACAATAATAAACGAAAATCCTGGATTAAAATTAGTTGCAAAACAATCACATGAAGGATGGGCTCCAGATAAAGCAATGGCTACTGCAGAAAATGTATTGGCAAAATATAATAATAATGTAGATGCTTTTATTTGTAACAATAGTGGAATGGCAAGAGGAGTAATAGCAGCATTAAAAGCTCAAGGATTAGCAGATGCTTCAAAAGTATTTGTAGCAGGTTCTGATGCGGATCTTCCAAACCTTAGATATGTGGCTCAAGGTGTACAAGCAGTAGAAATATTTAAAGCAGTAAAACCTTTGGCAGAAACAGCAGCTGAAGTTGCATATAAATTAGCAATGAATCCTAAAGGTAGTGTAGAATCTACTATTAAATATGATAAAAAAATAAACAATGGATATATGGATGTTCCTGTAATAGTAACTCCAGTATACAGAATAACAAAAGATAACTTAGATGTAGTAGAAAAATCAGGATTTCACACTCATGCTGAAATCTTTGGAAAATAAGATATAAAAAAGTAAAAAAAATGTCCTGTTGTCAACTATTTGGCAACAGGATAATTTAAAACTTGTGCAATATAAATCAAGACATAAGATTCGAACTATAAAACAGATGTTTTGTATTGCAAAGGTAATAAATTATAAAAAACTAAAAAAGAAGGTGAGAATGTGTCTGAAGTAGTGTTACAAATGAAAAATATCATTAAAGATTTTCCAGGAGTAAGAGCATTAGATAAAGTTAATTTTGAGGCAAGTAAAGGCGAAGTTTTAGTGCTAGCAGGAGAAAATGGTGCAGGAAAATCTACACTTATGAAAGTTCTTAGTGGAGTATGGGCATATCCTAGTTACGAAGGGGATATTTATCTAAAAGGTCAATTAGTAAGATTTAAAAACACGAAAGAGGCTGAAGCAGCTGGAGTGGCTATAATTCATCAAGAATTAAATCTTATTCAAGATTTAACAGTTGCGGAAAATGTTTTTTTAGGAAGGCAACCAGGTAAATTTGGAACAGTTAATTGGAATGAAGTAAACTCTAGAGCTGAAGAAATTTTAGAGAGATTAAATATTAAAGGAATTAAAGCATCAGATAAAGTTGGGTCTTTGACTGTAGGACAACAACAAATGGTTGAAATTGCCAAAGCTTTATCAATTAATGCTGAAGTTTTGGTATTTGATGAACCTACATCAGCACTTACAACAAGAGAAACAAAAGAGCTATTTAGAGTTATAAATGATCTAAAAAAACGAGATGTATGTATGATATATATTTCTCATAAAATGGATGAATTTGAAATTGTAGGAGATAGAGTTCAAGTATTAAGGGATGGGCAAACAATAGGTGAAGCTACTAAAATAAAAGATACAACTTTGGATGAGATAATAACAAAAATGGTTGGAAGAGACATAAAAGATATGTTCCCAAAAGTTGAATCTAAGATAGGAGGCAAAGTTTTAGAAGTTAAAAACTACGATGTTGATCATACATATTTACCAGGAGAGAAAAAAGTAAAAAATGCTAATTTCGAAGTACATGCAGGAGAAGTAGTTGGAATGGCAGGGCTTATGGGAGCTGGTAGAACAGAATTAGTAACAGCAATATTTGGTGGAACTCCAGAATTAGGTAGAGGTGAAGTATATTTAGATGGGAAAAAATTAAATATAAAATCACCAAAAGATGCTATAGAAGCAGGAATTGCTCTTGTTACGGAAGATAGAAAATTATTTGGATTATTTCTTGATAAAGATATAATGTTTAATACTACAACTTCTTCTAGGACATTAGGTAATATTTCAAATTCTTTAGGTATGATAAATTTTTTAGAAGCAAGAAAAATAACAGAGAAATATGTAAAAGAAATAAATGTTAAGACACCAGGAATAGATGTTCCTATTAGTAACTTAAGCGGAGGAAATCAACAAAAAGTTATAATTGGGAAATGGCTTGCAACAAAGCCTAAAGTTTTAATACTAGATGAGCCAACAAGAGGGATAGATGTAGGAGCTAAAGTTGAAATATATAAACTTATAAATAAGCTAGCAGCAGAAGGAGTAGCAATTATAATGATATCTTCTGAATTGCCAGAAGTAATGGGGATGAGTGATAGAATTTTGGTAATGACAGAAGGAGAGATAGTTGCAAATATAAAAAGAGAAGAAGTAACAAAAGAAAAAGTAATGGCTTATGCTACAGGAAATTTTAGAGAGGAGATGTGAGATGAAAAAATTTTTAAAAAGTAATGCAACTTTAATAGCTTTGTTAGTGATGTGGGTGATTTTAGCAGGAATATCAGATGTATTTTTTACACCAAGAAATTTAAGTAACTTGACACTACAAGTAACAACTATAGGGATAATAGCAGTTGGGATGACAATGGTAATATTATTAGGAGGTATTGATTTATCGGTTGGATCTTTAGTTGGATTATCAGCGATAATAGTTACCTTATTAATGCATCATGGAGTTAATGTATGGTTAGCAATAATAATTGATATTTTAATAGTTGGAGTATTAGTAGGGCTTTGGAATGGATTTTGGATTGCAAAATATAAAATGCCGCCATTTATAGTAACACTTGCCATGATGACAGTAGCAAGAGGAACTGCAATGGTGTTATCAAATGGAAGTTCTGTACCAGTAACTGATTCAGTTTTTCCATTAATTGGAGGAGCATTTATTTCAAAATCTTTATCAAGTATTTTATTATTAATAGGAGTAGTGTTTGCAATATATGGGATTATGAATGGTGTTAAGCAAAAAAAGAAATACAATATAAAGGTTAATAATGGAGAAATTATATATAATATAGTTTTAACAATATTAGGATTTGGATTTGCATTTATGGTATTTGAGGGATATAAAGGTATACCTTTTGCAGTTGCGATATTTATAGCAGTAGTCTTTGCAGGAGTGTTTATATTAAGAAAAACAAAATTTGGAAGAAATATTTATGCTACTGGTGGAAATGAAGAAGCTGCTAGATTATCAGGAATTAATATATTTGGAGTTAATTTAAGTGTATATACATTAATAGCTATACTATCAGCTATATCAGGAATAATATTAGCTTCTAGACTTAATGGAGCATCTCCAAATTTGGGAACTATGTTTGAGCTAGATGCCATAGCATCAGTTGCAATTGGAGGTACAAGTTTAAGTGGTGGTTCTGGAACAATTACAGGAACAATAATAGGAACACTTATAATAGGAACATTAAATAATGGAATGAGTTTAATGGGAATAAGTTCATTTTATCAATTAATTGTAAAAGGATTAATAATCTTATTAGCAGTTTGGTTTGATGTAGCAAGTAAAAAGAAAAAAGCGTAAATTTTAAAAGATAATATTTTCAAAGGCAATACATTTGATGTATTGCCTTTAAAAATTTAAGAAAATTAAAAAAAATATTGAAAAAGAGTTTCCTGTGTAGTATAATTGGATTAACACACTACAGAAATAGAACAGGAGGGGTAATTTTATGGAGATGTTAGGAATTATTTTAGCAGGTGGAAGAGGTTCAAGACTTGATATTTTATCATATCATAGAGCGAAACCGGGGGTACCTTTTGCAGGGAAATTTAGAATTATTGATTTTGCATTAAGTAATTGTGTTAATTCAGGCATTTATGATATTGCAATTTTAACTCAATATTTACCATTGTCTTTAAATGAACATATTGGAATGGGAAATCCGTGGGATTTAGACAGGAAAAATGCAGGAGTAACATTATTACAGCCATATACAGGATTAAGTAAAAAAGGTTGGTATATGGGAACTGCAGATGCAGTATTACAAAATCTTCGTTATCTTAAAAGAAAAAATCCAAAGTATACTTTGATATTATCAGGAGATCATGTTTATAAAATGGATTATAAAAAAATGTTGGATTTTCATAAAAAAAATGGTGCTTCTCTTACAATAGCTTCTCAAAGAGTTCCAATGGAAGATGCTCATAGATTTGGACTGTTGGAATATAATGATAATATGAAAATAGAAGCGTTCAAAGAAAAGCCAGAGAATCCTACTACTAATTTGGCTTCTATGGGGATATATATATTTAATACAGATGTATTAATAAAAAAATTAGAAGAGAATAGAGATATTCCAGAATTGGACTTTGGAAAACATATAATACCTGGAATGATAAATGAAGATGAAGTATATGCATATGAATTTGAAGGATATTGGCAAGATGTAGGGACTTATGATTCTTATTGGGAAGCGAATTTGGCATTAACAGAATCATATGAAAAGATAGAATTAGATATGTATGATAAGGATTGGCTTATACAAACTAGAAGTGAAGAGAAACCTGGAGTAAAATTTGGAATTAATACTAAAGCTGTACAAAGTATAATCTGTAATGGATGTATAATTACAGGAGAAGTAGAAAAAAGTGTATTAGGACCAGGAGTAGTTGTAGAGCCAGGAGCAGTAGTAAAAAATTCAATAATATTTAATGATACAGTTATAAAAAAAGGCGCAATAATAGATAGAGCGATAATAGATAAAGAAGTTGTGATTGGTGAAAATTGTAAAATAGGTTATGGTGACGATATGACACCAAATGAAGAAAAACCAAAATTATTAAGTAGTGGATTAACTGTAATAGCAAAAGGAGTAAAAGTTCCATCTAATACAATAATAGGTAGAAACTGTAGGATATTTTCAAAAGTTAAAGAAGAGGCTTTTTCTTCAGGAAATATTAAAAGTGGAACTACAATAGAACCGTTAGAAAAAACAGAAGATTAGAAAATTACGCAGCTTAAAAGAGCTGCGTTTTTTTGAAAAAAAATTGATTTCTTGTAAATGACAAGGTATAATTTGCATTAGAAGAGGTTAAAGAATTGAAAATGGAGGGATTTTATGAAAATTTTATATGTTGCATCAGAAGTAGTGCCATTTATAAAAACAGGTGGATTAGCAGATGTAGCGGGAGCATTACCAAAAGCATTAAAAAAATTAGGGAATGATGTAAGAGTTATATTGCCATTATATAAACAAATTAATGAAGATTATAAAAAAGATATGAAAGTGGTAGCAGAGTTTAATATGGAATTTGGAGGAAAACAAGAAAAAACTATAATAAAAAAAATTGATAACTATGATTTTCCAGTTTACTTTTTAGAAAATAGTTACTTTTTTGAAAGAGAAAATTTATATGAAAATGATGATAGAGATATACAGTTTTCTTATTTTTCGAAAGTAGTATTGGAAATATTAGATAAAATAGATTTTATTCCTAATGTTATTCATGCGAATGATTGGCAAACTGGATTAATAAGTTTAATTTTGAAAAAAGAATATCCACAATATAAAGAGATTAAAACAGTATATACAATACATAATTTGAGGTATCAAGGTTTTTTTGAAAATAATATTAGTGATTATTTTAATTATGAAGAAATAAAAGATAAAAAATATTTGAATTTTATGAAACTCGGAATATTAAATTCTGATATATTAAATACAGTTAGTAAAACATATGCTAAAGAAATTCAAACAGATTATTTTGGAGAAGGGTTAAATAATATACTGAAAAGCAGAGCAAAGGATTTATATGGAATTGTAAATGGGATTGATATGGATTATTTTAATCCAGCAACGGATAAAACAATATTTAAAAATTATGATAGTAAAAGTATAAATGACAAATATGAAAATAAACTAGGTATGCAAAAAGAAGTTGGATTAAAAGAAGACAAAAATACTCCTATTATAGGTTTAGTATCGAGATTAGTTCCAGAAAAAGGATTGGATTTAATAGTTCATGTTTTTGATGAAATTTTAAAAGATGATGTTCAATTTATAGTTTTAGGTTCTGGAATGGATAAATATGAGGATTATTTTTTAGATTTACAAGAGAAATATCCAGATAAAGTTAGAGTAAAAATAGGATATGATGCGAATTTTGCAAATAAAATTTATGCATGTAGTGATATGTTTCTTATGCCTTCGTTGTTTGAACCATGCGGACTTAGTCAATTAATAAGTTTAAGATATGGAACATTGCCAATAGTAAGAGAAACGGGTGGATTAAATGACACAGTGTTATCTTATAATGAAGATACGGATGAGGGAAATGGATTTAGTTTTACAAATATAAACGCTCACGATATGATGTATACAATAAAAAGAGCAATAGATTTTTATAAAAACAGAAAAGATATATGGAACAAATTACTGTTAAGAGCAATGGAAGGAGATTATAGCTGGGAAAATTCTGCAAGTGAATATATGAAGCTATATGAAAAGTTAATACTAGAGAATAATAAAAATTAATAAGTGATTTATTTGAAAAACCAGAACGTTTCTATTTATTTTAGCAAACAACTTTAAATAGTTTATTTTTTCTAGAAAAACAATGTAATAATAGGAGGTATGAATTATGGAGAAAAATATTAAATTGGAAAAATTAAAAAAAAGTAAAAAAGCAAAGAAGAAAGTAAAAAAAGTAAAAAAAGAGAATAGGCTTAGAGACAAAATGGCAACAAAATTTATTCTATTTTTATCATTGATAATTATAGTTGTAATGGCAACTATGAGTGTATCAATAACAGGTATATTTAATAATTTTGCAAAAAATACAATAGAAGGGCAGTTAATGGATAAAATATTAGATGAAGCAAAATCAACATATCTTGCAAATGAAGAAGGTAGAAAAGGTTTATATACAAAACTAATGAATAATAAGAGGAATAATTTAGAATCATTAAATTCTCTTGTAAAAGGAACAATAAATAATTATGTGGAAGAGGAAAAAAATGGTATTTTAACTCACGAAGAAGCAATTAATAGAACGAAAGAAATAATTAGAAATATGAGATATGGAAAAAATGGATATTATTTTATTTATGATACAAATGGAACAAGAATTCTTTTACCAACGGCACCAGAAACTGAGGGTAAAAATTATATTGATTTGAAAGATAAAAAAGGAAAATTTTTAATTAAAGAAATAATAGAAAAAACAACCCAAGGGGATAAAATAGGAAAAAGTGGAGTTGTAGAATATTATTGGAATAAACCTAAATTTCCAACTGCGCAATTTAAAAAATTAAGTGTATGTTTTTATATTCCAGAATGGAATTGGGTAGTAGGTACAGGGATATATTTAGATGATGTAAATGATGAGTTAAATAGATACCAACATGAAAATTTTAACAAATTAAGAACTTTAATGTTAGCAAAGCCATTTTATGGAAAAAATAATTATCCAATGGTAATAACAGAAAATGGAAATATATTAGTAACAAAAAAAGAAACATTATTAAATACTTATATTGAAAAAGATGGAAAAACAGGTGTTCCAATTTTAGATTTAATGAAAAAACAAGATAGTGGAGTAATTAGGTATTTTTATGGAAAAGAAGGATATAAAATATTAAAATATGAAAAAATAGGTGATAAATATTTTATGGTTTCAGTTCCTGAACAAGAACTTTTTGCACAAAGTAAAGCAATGGTTAAAAGTATGATAATAATAACAATTATTGTAATCATATCTATAATTTTTATAGTTGGAGTATATTTTAAATTCATGATAGAAAATAGAGTTGCTAAAATTTTGGAAAAAGTCCAAATGGCTTATAAAGGGGATTTGACAACTAGAGTTAATATTAAAGGAAAAGATGAAGTTGGGCGTATAGGGAAAGTTGTAGATGATTTTATAGTAACGATGGAAAAAATAATTATAAATGTAAAAGAATTATCAAAAGTTGTTTATTTTGATAATAAAAAAATAACAGGTGAATTTAATGAGATAGTGGTAGGTAGTGATAATAACAAAGAGGATTCATTGGAAGGAATGGAAGAAATGCTTTTAAAAACATTAGATAATGTTAGAGAGCAAACTGCTGCGACAGAACAAAGTTTAGCGTCATTAGAAGAAATATCAGCTACAACAGAATCTGTAATGGAAAAAGCTAAAGATACAATAAATATATCAAAAGAAACAGTTGATGAGACTCGAATAGGTAAAGAAAATATAAATTTATTGACAAATGAAATGGAAAAAATCCAAGTAAGCTTTTTAGATTTAGAAGGAAAAACTGTAGAGCTAGTTGATTTTTCTAATAATATAGAAAGTATATTAAGTGCTATAAGTGGAGTTGCAGATCAAACTAATCTGTTAGCATTAAACGCAGCAATAGAAGCAGCAAGAGCTGGCGAAGCAGGAAAAGGATTTGCAGTTGTGGCAAGTGAAATAAGAAAATTAGCTGAAGTAACGGGAAAAGAAGCTGAAAAAATAGCGGATATTACAGTTAAAATAAAAGATAAAGTTAAAGATACACAAAATGCGGCTAATAACTCGGTTGAAATGGTAAAATATGGTGTTGATTATGCAGAAAATGTGGAAAAAGTTGTAGAAAATATATTTGAAAAAGCAAATGGTACTAATGAAAAAGTGGCAGAAATTGTAACTTCAATGGAAGAACAAGCTTTAGCAAGTAATGAAATAATGAAAGCAGTTCAAAATATAACAGATAATTCTGCTGGAATAGAGAGTTTTTCTAGTGATACTTATGAAATAGCTAAAAAATCAGTGGAAAAGATAAAATCGGAATTAATTACAATAGAAAAGTTAAAAGATATGTCAAAAAGATTGTATGATGATACGGAGAAAATAAAAACAGACAAAATTTCTGATATAAATGAAAGCAAGGGAATAAAAACAAAAAGTTAGTGATTCTTGAAAAATAATGTTATCATGTTTGTTCTTAATAGGAAAGTAAAAAAATTGTCCAGAAATTAATAAAGCGTAGCTTATTTTTTAAATAAAAAAGCTAAAAACATTACTTGTTTTATAAACGAATGTGTAAGTGCTTTTTAACTCATTCCTTATAGAGAGAAAGAAATACCCCATCTAAAATTTATTGATTGTTTAGATGGGGTATTTTTAGCAATTTTTTTAAATATCTTATATAAAAAACTTAATAACTTTTTGTAAAAATGTAGAATTCATTTTTTCCATCATCCAATCTTCAGCAACCATTTTATTCAGCATAGAAATAGTTGGAAATGAATGTTGTGTCATTAAAATATCAAACATTGTAAGATTTTTTTGGATAGCTAAAATCCACTCATGTATCATTTCGCTAGCTGCTTCTCCAATAATGGTAACTCCATAAATCTTTCCTTTTTTATTTGTTATAACTTTTATAAACCCATCTGGTTGACCATCTGCAACAGTTCTACCATAAGAAGAAAAATCTTTTTTTATAACAATATATTTTAAGTTTTTGTTTTTAGCTGCTTTTTCTGTAAGTCCAACTTGAGCTACTTCAGGTTTTGTAAATACAGACCAAGGTACAAAATATTTACTTCTTTTAAATTTAAGTGGTAAAGGGTTAATAGCATTCATAAGAGCTAACATTCCTTGATGCATAGCAGCGTGAGATAATAGAGCGTATCCATTACAATCTCCAATAGCGTAGATATTTTTGATGTTAGTTCTCATATATTCATCTATTAAAATTCCTTTTCTATTGTATTTTATACCGGCATTTTCAAGTTTTAGTTCTTCTAATACAGGTTTTCTACCAGTTGCAATAAGAATTTTTTCAGCTTCAAATACTCCATTGCTGGTATGAGTATAAATAATATTATCTTTAACTTCTATTTTTTCTATTTTAGTACTGTTATAAACTCCTATATTTTCTTTTTTGAATTTTTTTTCTAAAAGAATTCCGGCATCTTTATCTCCTGCAGGAAGTAAATGTTCATCCATTTGTATAAGATTTATTTTGCTTCCAAGTCTTGAAAAAGCTTGAGCCATTTCTGTTCCAATAGCTCCACCACCAATTATTGTTAGTGTAGCTGGAATATTTTCTTGTTCGAAAATATTTAAATTAGTAAGCATATTTTGTTCGGTTAAAGTTTCTACTCCTGGAATAGGTGGTATAAATGGTTCAGTTCCTGTTCCTATAAATATTTTTTTGGCAGAATATTCTTTTCCATTTACTTTAATGGTGTTTTTATTAACAAATTCAGCAGAACCTTCATTTAATAATAAGGTTACTTTCTCAAAAGCTTTCATCATTTTTTTTCCGTTAATTCTACCTACTTTTTCTCTAACAATTCCTAAAGTTTCTTTTGTATCTGTAAAAACTTTTGCGTTAATGCCATACTTTTTTAAATTTTGTGCTATTTGGTTAGCCTCTCCCGCTTTCAAAAGTGCCTTACTTGGAATACATCCACAATTTAAACATTCTCCGCCAACTTTTCTTTTTTCTACTGCTAAAATATCAAGTCCCATAGCAGCCCCCATAGCAGATACAGCCATCCCGGCTGGCCCCATACCAATTACAATTGCATCAAATTTTTTCATATTACGCCTCCTTAAAAAGTATATAAATTAAATATTTATATTTATAATTAAACAAAAAAGAATAACTGCTTTATCTTTTTTAATCTAAACATTTTATTATTATAATGTTTAGATATTATACATCTTTTTACTTATAATGTCAATAATTGTAAAATTGATGATAAGAGATTTGCTTCTAAAATAGAACGTTATTATAAATAAAAAAAGTTATTCAAAGTAGCTTAAATAATGTATAGTTATATATATAAATTTAGCGTTATGAAAAAAATATAATTTATAGTAAGATAAAGGATTTTGAATTGTATTTAAAAAATGTTTATTTTTATTTCTGATAATATAGTGTTTTAATCTTTAGTATAAAATATAGATATTTATAGTAACATAACTTAAAAAATATTTATTTTTGGAATCGGAAATGTGAAGAATGGTATAAAATTATATTATAGAAATAAATTATATATTAAAATATATATTGATTTTAAAGGAGTTAAGGCACAAATATAAAAAATGCAAAAAAAGTATTTGACAAAATGAGACAAGTGTGGTAATATTAATCTCGTCCTCGAGAGAGGGCAAAGGACATTGAAAACTTAATAGAGAGAAGTAAAGCAAACCAAGAAAAAGACAAAAAGGTGTAAAAAAATATAGATTGAAGAGTTTGATCCTGGCTCAGGATGAACGCTGGCGGAATGCTTAACACATGCAAGTCTACCACAAAGGCTCTTCGGAGCTGAGTAAGGTGGCGGACGGGTGAGTAACGCGTGAATAACCTGCCCATTAGAGGGGGATAACTTCTGGAAACGGGAGCTAAAACCGCATAATCTTATTGATAGGCATCTATTGATAAGTAAATGCTATATGCGCTAATGGAGGGGTTCGCGTCCTATTAGCTAGTTGGTGAGGTAATGGCTCACCAAGGCGACGATAGGTAGCCGGCCTGAGAGGGTGAACGGCCACAAGGGAACTGAGACACGGTCCTTACTCCTACGGGAGGCAGCAGTGGGGAATATTGGACAATGGGCGAGAGCCTGATCCAGCAATTCCGCGTGAATGATGAAGGCCTTCGGGTTGTAAAGTTCTTTCAGCAGGGAAGAAGCAAGTGACGGTACCTGCAGAAGAAGCCACGGCTAATTACGTGCCAGCAGCCGCGGTAAGACGTAAGTGGCAAGCGTTATCCGGAATCACTGGGCGTAAAGGGCATCTAGGCGGCCTATAAAGTCAGAGGTGAAAATTCATGGCTCAACCATGTCCTTGCCTTTGAAACTAATAAGCTAGAGTACGGGAGAGGAGGGCGGAACTACAAGTGTAGCGGTGGAATGCGTAGATATTTGTAGGAATGCCGATGACGAAGGTAGCTCTCTGGACCGATACTGACGCTGAAGTGCGAAAGCTAGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCTAGCTGTAAACGATGGATACTGGGTGTGGGGGGTCGAACCTCTGTGCCGAAGCTAACGCGATAAGTATCCCGCCTGGGGAGTACGTTCGCAAGAATGAAACTCAAAGGAATTGACGGGGACCCGCACAAGTGGTGGAGCATGTGGTTTAATTCGACGCAACGCGAGGAACCTTACCAGGTCTTGACATCGTGAGAATTCTGTAGAGATATGGAAGTGCCTCTTTGAGGAACTCATAGACAGGTGGTGCATGGCTGTCGTCAGCTCGTGCCGTGAGGTGTTGGGTTAAGTCCCGCAACGAGCGCAACCCCTATTGTTAGTTACCATCATTAAGTTGGGGACTCTAGCAAGACAGCCTACGACGAGTAGGAGGAAGGTGGGGATGACGTCAAGTCATCATGCCCCTTATGACCTGGGCTACACACGTGCTACAATGGGATGTACAGAGGGCAGCGAAAGGGCGACCTGAAGCGAAACTCAGAAAGCATTTCGTAGTTCGGATTGCAGTCTGCAACTCGACTGCATGAAGTTGGAATCACTAGTAATCGCGAATCAGCAATGTCGCGGTGAATACGTTCTCGGGTCTTGTACACACCGCCCGTCACACCACGAGAGTTTGTTGCACCTGAAGTAGCTGGCCTAACCCGTAAGGGAGGGAGGTTCCTAAGGTGTGGTGAGCGATTGGGGTGAAGTCGTAACAAGGTAGCCGTACCGGAAGGTGTGGCTGGATCACCTCCTTTCTAAGGAGTATAATAGCTTCTCTCTATTAAGCAAGTCTTTTAGAAATAAAAGGACATTGGGAATTGTATAGTAGTAATAATAAGCAGAAGAAAAGAAGAAAAATAAGGTTAAGATATTAAGGGCACACGGTGGATGCCTAGGTAATAAGAGCCGAAGAAGGACGTGGTAAGCTGCGAAAAGGTAGGAGGAGCTGCAAACGAGCGTTGATCCCTATATATCCGAATGGGCAAACCTATACATTTGAAGGATGTATACGAAAGAGGTAAGTGGGTGAACTGAAACATCTAAGTAACCCGAGGAAAAGAAAGTAAAAACGATTTCCTAAGTAGCGGCGAGCGAACGGGAAAGAGCCTAAACCAATATAGTGTTAAAGGATGCAGCCGTTGCTGTATTGGGGTAGCGGGACCGAATCCGAGAGAACTGCAAGGTATCTATTTATGGATGTGTATAAAGTCGAATAGTTTGGGAAAGCTAACCGAAGATGGTGAGAGTCCAGTAGATGAACTGTATGCATAAGTAAAGAATCGGCACCCAAGTAGCACCGAACACGAGAAATTTGGTGTGAATCAGCGTGGACCAGATCACGTAAGGCTAAATACTCTTATTAACCGATAGTGAATAGTACCGTGAGGGAAAGGTGAAAAGGACCCTTGTTAAGGGAGTGAAATAGAACCTGAAACCGTGTGCTTACAAGCGGTCGGAGCATTTTTAGGAATGTGACGGCGTGCCTTTTGGAGAATGATCCTGCGAGTTACCGTTAGTGGCGAGGTTAAGGAAACGGAGCCGAAGGGAAACCGAGTCTGAATAGGGCGACGAGTCGCTAGCGGTAGACGCGAAACTTGGTGATCTATGCCTGTCCAGGTTGAAGCTGTGGTAAGACACAGTGGAGGACCGAACCCACCGTCGTTGAAAAGCCGGGGGATGAGGTAGGTATAGGGGTGAAAAGCCAATCGAACCAAGAGATAGCTCGTTCTCTCCGAAATGCATTTAGGTGCAGCCTTAATTAGTAATCTGCGGAGGTAGAGCACTGATTGTCGTAGGGGGCGTATAGCTTACTGAACACATTCAAACTCCGAATGCCGTAGATGATAGATTAGGAGTGAGACTATGGGTAATAAGATTCATAGTCGAGAGGGAAACAGCCCAGACCACCAGCTAAGGTCCCAAAGTAATATCTAAGTGGGAAAGGATGTGTCGATTCAGAAACAACCAGGAGGTTGGCTCAGAAGCAGCCATTCCTTTAAAGAGTGCGTAATAGCTCACTGGTCGAGAGTCGATGCGCCGACAATGTAACGGGGCTAAGATATTCACCGAAGCTGTGGAACATGCGTAAGTATGTTGGTAGGAGAGCGTTCTGTAGGCCGGCGAAGGAGAACTGATAAGGTTTTCTGGAGGTATCAGAAGTGAGAATGCAGGAATGAGTAGCGAGAAGGTAGGTGAGAATCCTACCCGCCGAAAGCTCAAGGTTTCCAGGGGAAGGCTCGTCCTCCCTGGGTAAGTCGGGTCCTAAGTTGAGGCTAAGAAGCGTAGGCGAAAGGAAAACAGGTTAATATTCCTGTACCGCTAATAACTGATAGTGATGGAGGGACACAGAAGGGTATAATAGCTTACTGACGGAATAGTAAGTATAAGCATGTAGGATGTCTGTATAGGAAAATCCGTATGGATAGATCTGAGGTGTGATGAGGAGTTCCATTAGGAACGAAGTATTAAATCCCATGCTGTCGAGAAAAGCTTCTAAACTAGTTGTTAGCGCCCGTACTGCAAACCGACACAGGTGAGCGGGGTGAGAAACCCAAGGCGCGCAGGCGAACCATCGTTAAGGAACTCTGCAAAATGGCCCCGTAACTTCGGGAGAAGGGGTGCCTAAAGTATGTGAAATTCTAAGCGGATGGAGCAGAAATAGGCCGCAGTGAAAAGGTCCGGGCAACTGTTTACCAAAAACACAGGTCTATGCTAAGCTGGAAGGCGACGTATATGGGCTGACACCTGCCCAGTGCCGGAAGGTTAAGAGGAGGAGTGAGAGCTCCGAATTGAAGCCCCGGTGAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAAAGGTGTAATGATCCGGACGCTGTCTTGACGGTGGGCCTGGTGAAGTTGTATTACCGGTGAAGATACCGGTTACCCGCAGCAGGACGGAAAGACCCCATGGAGCTTTACTATAGCTTGGTATTGGGTTTTGGTATTATATGTATAGGATAGTTGGGAGACATTGATTATATGACGTCAGTTGTATATGAGTCGTTGTTGGAATACCAACCATGTGATATTGAGATTCTAATCTGTCGTGTGTAACGATGGAGACAGTGCTAGGTGGGTAGTTTGACTGGGGCGGTCGCCTCCTAAAAGGTAACGGAGGCGCCCAAAGGTTCCCTCAGGCTGTATGGAAAGCAGCCAAAGAGTGTAAAGGCATAAGGGAGCTTGACTGTGAGACAGACATGTCGAGCAGGGTCGAAAGACGGGCTTAGTGATCCGGTGGTTCTGAATGGAAAGGCCATCGCTCAACGGATAAAAGCTACCCTGGGGATAACAGGCTAATTCTGCCCGAGAGTCCATATCGACGGCAGAGTTTGGCACCTCGATGTCGGCTCATCGCATCCTGGGGCTGGAGAAGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGTACGTGAGCTGGGTTCAAAACGTCGTGAGACAGTTTGGTCCCTATCCGCTGCGGGCGCAGGAATATTGAAGAGAGCTGTCCTTAGTACGAGAGGACCGGGATGGACAAACCGCTGATGTACCAGTTGTTACGCCAGTAGCATAGCTGGGTAGTTACGTTTGGACAGGATAAACGCTGAAAGCATCTAAGCGTGAAGCCCCCTTTAAGATAAGTATTCCTATAGCGTATGCTAGTAAGGCACCTTCGAGACTAGGAGGTCGATAGGTTAGGGGTGTAAGTGTAGTGATACATTTAGCTGACTAATACTAATCAGCCGAGGTCTTAACCTTTAAATAGTTTCTTTGATTAAAACTGCTTGTAATATTACTATACAATTTTGAATCTCTTTTTAAAAAAAGAATATTAAAGAACTGTTTAAAGAATAACGTAAGTTTATTTTTAAACGTTCATAAACCAATTATTATTTAGCTTGGTGGGTATAGCTAAAGGGGTACACCCAGTTTACATTTCGAACCTGGTAGTTAAGCCTTTATGCGCCGAAAGTACTTGACTGGTAGCGGTCTGGGAGGATAGGTCCCTGCCAAGCTTTAATTTATACATACTGGTTTCCCTGATAGCTCAGTTGGTAGAGCAGGTGGCTGTTAACCACCTTGTCACTGGTTCGAATCCGGTTCAGGGAGCCATTTTTTTATTTAATGTGGAAAGAAGAAGCAATATTGATAAAATAGAGAAATATTTATAACTTATGAAATGAAGCCTAGCTTCTTTTTTTTATTTTACTTGATTTTTATTAAAAAATAAATTATAATTAAGTTAATTTAAATAAATTTGAAATATTTGAAATTTTGATTATAGTTTATTTTGGAGGATTATATGGAAATTCTAAAAGAAATAAATGTGGTAAAAGAGGTTATAAAAAAAATTAAATCGAATAATCAAAGTATAGGATTTGTTCCTACTATGGGGTATTTACATGAAGGACATTTATCTTTGTTAAAGAAAGCAAAGGAAAAATCAGATGTCCTATTTTTGAGTATATTTGTAAATCCAATCCAATTTGGACCAAATGAAGATTTAGATAAGTATCCAAGAGATTTGGAAAGAGATGTTGAGTTGGCAAAAAAAGCTGGAGTTGACTATATATTTTTCCCAAATGAATTAAAAATGTATCCACCTGGATATAGCACTTATGTAATGGTAGAAAAGTTTACGGAAGGTTTATGTGGTGCAAAACGCTTAGGGCATTTTAAAGGAGTAAGTACAATTGTATTGAAATTATTTAATATTATTAGGCCTGATATAGCTGTTTTTGGAAAAAAAGATGCTCAACAATTAAGAGTTATTGAAAAAATGGTAGAAGATTTAAATCTAGATATTGAAATTTTGGGTGGAGAGATTGTAAGAGAAAAAGATGGATTAGCATTAAGTTCTAGAAATAAATATTTGACTTTAGAAGAAAGAAAAGAAGCTGTAGTTTTGAATAAATCTTTAGAATTAGCAGAGTTATTAATTTATAAAGGTGAAAAAAATAGCAATGTTATAATTGAAAAAGTAGAAGAATTTATAAATAGTAATTCTAATTTTGGAAAAATTGATTATGTTGAAATTGTAGATTATAAAAACTTTGAAAAAATATCAGAATTGAGTGGAGAAATTTTAATAGCAATAGCAGTATATATTGGAAATACGAGACTAATCGATAATAGAATCTTAAATCTATAAGTAAAGAAGGTATTTTTATGATAAAATTAAAAGGAAATTCAATCTTTGAAGGTGTTATAATAGCTAAAGCGAGAATGATAAAAAGAGAAATTAAAGAAATAAAAATACATTCTATCTCTTCTGAAGAGATAGAATATGAAATTATTAGATTTGAGACTGCATTAGATAATGTAAAAAACGATTTGAAGCATTTAATAGATTCGTTAAATGGAAAAGTAAAAAAAGCAGATTTAAAAATATTAAACGCACATAAAATGATGCTAGAAGATCCAGTATTTTTATCAGATATTACAACAAAAATAAGAATAGAGAAGATTAATGCAGAAAAAGTTATAGACTTAGTTGTAAAGAAATATGCTGGAATGTTTAGAAGTTTAAGTGATGCTACATATAGGCAAAGAGCGATAGATGTAGAAGATGTTGGGGAAAAATTAATATTAGCATTGCAGGGAGAGAAAAAAAATTATAAATATTTAAATAATAAAATCCTTATTACAAAAGATTTAAAACCTTCAGATATTTTAAGATATCATAATGAAGGAATTAAAATATTAGGGATTGTTACAGAAATAGCAGGAGAAACTTCTCATTCTGCTATTTTAGCAAAAACATTAGGGATACCAACTCTAATGGAAGTTAAAAATTTAGATAGTTATAATTGGGAAAAATATGGAGATGTAATTTTAGATACAAGGGGAACTAGTGAACATCTGTTAATAAATCCAGATACAGAAATAAAGAAATGGTATATAAAAGAGTTAGAAGAATTAAAATTGAAAAACGAATTATTAAAAAAACTTATAGGAAAACCTGCTAAAACTAAAGATAATAAAAGGATATTTCTTAATGCAAATATAGGTGGAGTAGCAGAAATTGAGGAGATAAATAAATATAAACCTGATGGGGTTGGATTGTTAAGAACAGAGTTTTTATATATGGATTCTAATGATTTTCCAACAGAAGATGAACAATTCGAAATATATAAAAAAATTAGTGAAGAGTTAGGAAAAGATAAATATCTTACAGTTAGAACTTTGGATATTGGGGCAGACAAAAAACTAAAATATTTTACTATACCAGAAGAAGAAAACCCAGCTTTAGGATTACGTGCTATACGTATTTCTTTGAAATATAAAGATATTTTTAAAACACAGCTAAAAGCTATACTAAGAGCATCGAATTATGGAAATATAAAAATAATGTATCCTATGATAGCAAGTTTAGACGAGATTTTAGCTGCTAATACTATATTAGAAGAAGCAAAATTAGAACTTAGAAATGCGAAGATTGGATTTGATGATAATATTAAAGTTGGAATTATGATTGAGATACCATCCATTGCTATTTTAGCAGATTTCATAGTAAATGAAGTAGATTTTTTTAGTGTTGGAACTAATGACTTGACACAATATTTACTAGCAGCAGATAGATTAAGTCATGAAGTTGCAAATGTATATACAAATTATCATCCAGCAGTTCTCAGGATAATAAATTCTGTAGCAGAAATTGCAATAAAAAATGGAAAAAAAATTAGTATTTGTGGTGAAATGGGTGGAGAATCTATGGGAGTTTTGGCATTTTTAAGTTTTGGAATAACAGAATTTAGTATGCTACCATCTTTAATTCCCAAAGTTAAAATGCTTATACAAAATATAGATGAAAAAGCTTTAAAAGGATTAAAAGAAAAGTTGCTATCTTCAATGACTACAGAAGAAATTAAAAGAAATTTAAATGATTATATTTTAGGAGTGATGTAAATTGAAAAAAATAGAAGTGAAAATAAGAAACAAAGCTGGATTACATGCAAGACCATCAGCTCTTTTTGTTCAAACTGCAAATGAGTATTTATCAGATGTAATGATAAAAAGTGGAACTGAAGAAGTAAATGGGAAAAGTATTATGGGGCTAATGCTTTTAGCAGCTGAAAAAGGAAGAAAAATAGAGATAACTGCAGATGGAGAAGATGAAGAAAAAGTTTTAGAAGCTTTAAAAAAATTAGTAGAAGAGGATAAATTTGGGGAAGAATAGAGGGGTTAAAAATGAAACTTTTACAAACTCAAAAATTAGAGCAAAAATTAATGATGACTCAGGATATGAGGTTATCATTAGAAATATTGCAAATGTCTGTATTAGAAATAGAAGAGCTCATTTCTAATGAAGAGCAGGAAAATCCACTTATAGAAGTTGAAAATGTAGAAGAATTAGACATTGATGCAGAAAATTCTGATAATGAGTTTGAAATAGAAGAATTATATAGAGATGATGATAAATATGAAGAGATAAAACATTCAAATGAACGTGATAAAATTAATATTATAGAAAAGACGTATAGTTTGGAAGAAACAGTTATGGATAAATATTATAGTGAAATTCAATCTATTTCAAATGAAGAAATAAAAAAAAATGGATACTATATTCTAGAAAATTTAGATGATAAAGGTTATTATAGAAGTAAAATTAATGATGAAATAGATGTAATAAGAAAAAAAATTATGCATATAGACGATTTTGGAATTGGGGCAAAAAATTTCGAAGAATTTTTAATTTTTCAAATTGAAAATGATTTTAAATTTGAGAATAGTGAGTTATTAAAAGAGATGATTGAAAGAAATTTTCAAGAAATTTTCAGAAAAAAGTATAAAGAATTAAAAAAAATATATAATATTGAAGATTTAATTTTAGAAAAAATTTATAAAGAACTAGAAAAATATAGACCATACCCAACTTTTGGATTATTTTGGAATAATAGCAATGAAAATATAATTATTCCTGAAGTTGTCGTAGAAAAAGAAAATGGAGTATATGAAGTATATTTAAAAGATAAAATGTTTCCAGATATAAAATTAAATAATGAGTATTATAAAGAATTGAGTAAGGATAAATCAGCTATACAATTTTTAAAAGAAAAGGCAATGAAAGTCAGAAATTTAAAAAGAAGTATTGAACAAAGAAATTTTACTTTATATAGAGTTTCGAAAGCTATTGTAGATAATCAAGAAATATTTTTTGAAAAAGGGATGAAATATTTAAAACCAATGACATTATCTGAAATAGGGAATGAATTAAATTTACATGAGTCAACTATTAGTAGAGTTGTAAATAATAAGTATATGAGTACTCCTAGAGGTGTATTTGAGTTAAAGTTCTTTTTCTCTGGAAAAGTAAAAACTGAAAATAGAGAGGATGTTTCTATTATTGGTGTTCAAGAAAGAATAAAAGAGATATTAGAATTTGAAGATAAAAAGAAACCTTTTAATGATGGTGAAATAAGCCAAGTGTTAAGTCAAGAAGGGATAAATGTTTCTTCTAGAACTGTAAAAAATTATAGGGAAAATTTGGGGATTTTACCTGGATATTTAAGGAAGGGGCTTTGAATTTTGAAAATAGTATATGCAGATAAGTTAGGATTTTGTTTTGGAGTGAATGAAGCATTAACAAAAATAGATACAGTTATAGAAAAAGAAAAAGGTAAAAATATATTTATGCTTGGAATGATTGTGCACAATAAAACAGTAATTGATGATTTGTTAGAAAAAGGGATAAAAATTATAAATAACAATAATAATATAGAAAATTTAAATTCAAATGATATTGTGATAATAAGAGCACATGGAGTTTCGAAAGAAATATATAAGCTTTTAGATGAAAAACGAGTTAAATATTATGATGCTACTTGTATTTTTGTTAAACGTTCTAGAGAAATACTTGTAAAAAAAGAAAAAGAGGGATATCAAATTATTTTTATAGGAGATAGAGATCATCCAGAAGTAAAAGGAATAGTTAGTTTTGGGAAAAATGTAATAATATATAAAGATTTTGAAGATATGAAAAATAATATAAAAGAACTTAATAAAAAATATTTTATAATAGCTCAAACAACATTAAATAAAAATATGTATTTAGATATTATTGAATACAGAAAAAAATATTTGTTAAATTCAGAAATTGCAGACACAGTATGTGGAGCAACTTATGAGAGACAAAAAGCAGTAGAAAAGTTAGCTAAAATAGTAGATATAGTTATTATAGTAGGAGGACATAATAGTTCTAATACAAAAAAATTATATAATGTTTCAAAAAATATCAACAAAAGTAGTTATCATATAGAGAGAATAGAAGAAATAAAAAAAGAATGGTTTGAAAATTGTGAAACTGTAGGAATTACAGCAGGAGCATCTACACCTGAAAAAGTTATAAAACAAGTTGAAAAATATATAAAGGAGGCAATATGATGGAAAACGTGGAAAATTTTGAAGAGCTATTAGAACAATATTTACCAAATATTGAAAATGGAGAGGTTGTAAAAGGTCATATTTTAAGAAAAGATACTGACTATGGGTATATGGATATAGGGGCAAAAGGAGAAGCTAAAGTAAGAGTTAATGAAATAAATAATTTTGAAATTGGAGAAGATATTGAAGTGGTTGTTACAAGCAAATCAGAAGATAGAGATGGATATTTAAAAGTATCTAGATTGGCATATGATTTGGAAAAAAATTGGGCAATAATTAATGAAAAATTTGAAAGTAAAGAGGTTTTAGAAGGAGTAGTTACTAAAAAAGTAAATGGTGGATATATTGTTGATATATTTAAATATAAAACATTTTTACCTGGATCTTTGTCTTTATTTAAAGACAGCGAAGAAGTTTTAAACAAAAAAATAAATGTAATTATTAAAGATGTGAAAGATGGAAAAAGAAAAAAAATTATAGTATCAAGAAAAGAGGCAGAAAATAGAAAAATAGAAGAAGAGATGAAAAGCGTTAATATAGGAGACATAGTAAAAGGAAATGTGAAAGAAATTTTAGATTTTGGAATAATTGTAAAAATAGGGAATTTAAGTGGACTTGTTCATTTTTCAGAAATTTCTTGGAAAAAAGGGATGAAATTTAAAGAAAAATATTCAGTAGGGGATGAAATAGAAGTAAAAATAATAGATATAAATAGATCAAAAAAGAATTTGAAATTATCAATAAAACAATTGACAACTGATCCTTGGGAGAATATAGAAGAAAAATATCCTGTAGGAAAAGAGGTAGAAGGAACAGTTGAAAATATAGAAAAATATGGAGCTTTTATAGAAGTTGAAGAAGGAATAGAAGGATTATTGCATATTAGTGATTTAAGTTGGGGGAAAAAATTAGGGAATATAGAGAAATTCATAAAAATAGGTGATAAAGTAACTGTAAAAATTATAGAATTAGATAAAGAAAATAAGAAAATAAAATTAGGATTAAAGCAATTAACAGAAGATCCTTGGAAAAGTGCAGGTGAAAAATATACAATAGGAAAAGTTGTAGATTCAAAAATTGAGAGTATTCAAAACTATGGATTATTTGTGAAATTAGAAGAAGGAGTAGATGCTTTTGTTCATATTGCAGATATAGCATGGTTAAATCCATCTGTTAAAGGATATAATAAAGGAGATATGGTAAAAGTAAAAATATTAGAATTTAATGAAGCTGATAAAAGAATAAAAGCAGGAATTAAACAATTAGAAGTAAATCCTTGGGATGAAATCTTTGAAAAATATAAAGTTGGAGACAGAGTAAAAAGAAAAATAAAAGAAATAAGTAAATTTGGATTATTTGTAGAAATCGAATCTGGTATTGATGGGATGATTCATATATCACAAGCATCAAAAGATTTTATAAAAAACCTAGAAGAAAATTATAAAATCGGTGATGAAGTTGAAGCTGAAATAATAGATTTAGATAAAGAAAATAAAAAAATAAAATTATCTATAAAAAAATTAGAATTAAAAAGAGTAAAAGAAGAAGAAAAAGAGATGATTGAAAAATATGGAACTACAGAGTAAGGGTTTTTTCCCTTACTCGCTTTTTTATGTGATAAAATATGAATTTAATGTTTACAAATTCAGGAGGATGTTTTATGGAAAAAAAATATGGATATGGAAAACAATGGATTTTTGAAGAGGATATTAATGAAGTGGTTAAAGTTTTAAAAAGTGATTTTTTAACTCAAGGACCTAAAGTAGAAGAATTCGAAAAAAAAATAGCTGATTATATAGGAACGAAATATGCAGTAGTTTTTTCAAATGGTACAGCAGCTCTTCATGGAGCATATTTTGCAGGTGGATTAAAAAAAGATGATGAAGTAATAACAACTCCAATTACATTTCTGGCTACTTCAAATGCAGCTATATATTTAGGAGGAATTCCTAAATTTGTAGATATTGATATTAATAGTTACAATATTGATGTTAATAAAATAGAAGAAAAGATAACTAATAAAACTAAAATGATTGTACCTGTTAGTTATGGTGGATATCCTGTAAATATTTTAAAAATAAAAGATATTGCTAAAAAATATAATTTGATTGTAATAGAGGATGCAGCACATGCGTTAGGAGCAACTAGAAATGGAATAAAAGTAGGAAAAGAAGCAGATATGACTATGTTCTCTTTTCATCCTATAAAACATATTACAACAGGAGAAGGTGGAGTAATAGTAACAGATAATAAAGATTATTTTGAAAAATTAAAAATTTTTAGAAATCATGGAATAGTAAAAGATAAAAAAAAATTAATTAATATTGGCGAAGAGTGGTATTATGAAATGCAATATTTAGGATATAATTATAGAATGACAGATTTTCAAGCTGCATTAGGAGTGTCACAATTAAAAAAAATAGATAATTTTGTAAAAAGAAGAAGAGAAATAGCTAATATTTATGGAGAAGCGTTTAAAAATATAGACAATATAAAATTGCCACCTGATAGTGAGAAAAATAAAAATGTATATCATCTCTATCCAATTTTAGTTGATAAAAGAGATGAACTTTATAGAGAATTAAAAAAAGTGGGAATAAACTGCCAAATTAATTATATTCCTATTTATAAACAACCATATTATAAAGAAAAATTTGAGTATAATATAGATGAATTTAAAAATTCAGAACTGTTTTATTTAAAAGAACTATCGATACCAATGTATCCAAAATTAAAAGATGAGGATATAAACTATATTATTGAAATCATTATTGAAAAAATAAAGAAATTATGATAGAATATTAAAATAGGATTATAATGTTCTATTTTAATTGCTAGACTGAGAGTAGGAGGTAAATATGTTAGAATTATTAATAATGGTTTTTGTAGGAGCATTAATTGGATGGTTTACAAATTATTTAGCTATAAAGCTTTTGTTTAAACCGTATAATGAGATAAATATTTTAGGATTTAAATTACAGGGAGTAATACCTAAAAGGCAAAAAGAGATAGCTGAAAATATATCTGTTACAGTAAATGAGCATTTAATTTCAATGAAAGATATTAAAAATTCTGTAAACAGTATTGAAATAGAAAATGAAATAGAAAAGATTGTAGATAAAATTGTAGATGAAAAATTAAAATCGGAATTATTAGAAAAAATTCCTATGGTTGGAATGTTTTTGAATGATAAGATTTTAGGTAAAATAAAAGAGTATATAAAAGATGTTTTAGAAGATAATAAAGAAGAGCTTCTTGGAATGTTTTTGGAGAAAGTAGAGGAGAAAGTAGATTTTAAAGAGATTGTGAGAGAAAAGATAGAAAATTTTTCCTTAGAAGAGATTGAAGCTTTAGTTTTAGGAATTGCAAAAGAAGAATTAAAACATATAGAAATTATTGGAGGAATTTTAGGAGCAATAATTGGACTTGTTCAGTTTTTTATAACACGGGTGATAATATGAAAAAATTAAATTTATTATTAATATTTTTTATTATAACGGTGGCTTCTTCAGGGGCGATGTTAAAAGGTATTGTTACTGTAGAAGGTAGTGATAATTTTGGAGTTTTTGTATATTTAGATAAAACAACAAATTATGATATAAGTGATAGAGACGGAAAATTTGAGTTAAATGGTTTTAAAATTGGTAAAACGTATAATCTGATTTTTCAAAAAGAGGATTATCCTGAAATTAAAAAAAAAATTAAAATTGATAGAGAAATAAATTTTATAGATATTAAAATTGTAAAAACACAATATAAAAAGGTTATAAAACAAAAAGTTTTAGGGAAAATAAATTCTGCAATAAAAAAAGATATATTTATAAATTTTGTAAATAAAGGATATGGAATTATTGTAAAACCTAATAAAAAATTTACTGAAGAATTGGAAGAAGGAAAATATACAGCTAAGATAATTCAAGAGGGTTCTAAAATAAAAAAAATTAAATTTACAGTAAAAAATAGTAAAACTAATTTAGGAACAATGAAACTGTTCCCAGAAAAGGATACTAAAAGATTAGAGTTGATTTTTAATCAAAAGATAAAGCATGGATATTTATATTTGTATAAAGATAGTTTGCTAGTTTATTCAAATAAATTAATAAATAATAGATTTTTAAGAATTAATAATCTGGAAAAAGGGAGTTACAATTTAGAAATTAGAAGTTTAAATTATAAGCTTTATTCTACAGAAATTAATTTGATGAAAAATAATAGTTTAAAAATAAATTTGAATAGATTACTAGATAAAGATAGCATATATTTAGAGCTATTTCCTGAAAATAAAAAAATGGAAGCTAAAATATATTTAAATAATATAATATTAGAAAAAGTTAAAAATATAAAAAATTTATATTCATTCACAGGGCTTCAAAAAAATAAAAAATATGATATAGAAATCAGTTCACCAAAATATAAAAAGTTTATTTCAAAGGGAATAAGGCCTGGAGAAACACTAGAAGTTAATTTGAAACGAGATATAAAAGGTGCGATTTTAGCAGGAACAGTGTATCCATTTAATAAAAAAGCTAAAATTATGATTTTAGATATTGATAAAAGGGAAATATTAGCTAAAACAACTTCTAATGAAAATGGAAATTATGAAATTGAATTAAATAAATTAGATAATTCTGGGAGGAAAATGATAAGGTTTTACTCTGATGGATTTAAAGAGTTAAAAAGATATATCTCTTTAAAAAAAGGGGAATATATAAAGGAATATAATGTTGGATTAGAGCCTTTAAAAACTTCTATTAAAGGGGAAGTAACTTTAAAAAAAGAAGATAAAGGAGAAGTTCTAGTAATAATAAAAGAGTTGAATTTATGGCAGTATACTAAAAATAAAAAATATTATTTTAATAATATACCAAAGGGAAAATATACGTTACAGTTTAAAAAAGTAGGGTATTTAAGTGTAGAAAAAACTATAAATTTAAAAAATAAAGAAGAAATCAAATCAAATGTAAAGTTAGTAGGTATAGGAAAAATAGTTGTAACTAGTAATGTTAAGAATTATAAATTATCAATTAATGGGAAAAATTATCAATCGAAAGAATATGTATTTAATTTGGATACAGGCTTAGGAAAAAAAATAATAGGAATAAGCAAAAGCGGGTATAAAATATATCAAACTAAATTAACATTAGAAAATCCAAATCAAGTAAAAATGGTTAAAGTTAATTTAATTAAAAAATCTGATTATGTTTTGGGTATAAAAAATAGATTATTAGAAATAGATAAAATGATTAAAGAATCAAGAATTGACAGTGCAGAATTAAAGATATATGAATTAGAGCATATGAATTTGAATAAAGAGTATATGAAAAAATTAAATAGTAGAAAAGTTAATCTTAAAAAAATAAAAAATAGAATTTTTGATTCTGATAGAAAAATAATCAAAAATATTAAGAACGTAAAAGAAGAAATTGATAAAATGGAAAAATTGGATATAAGTTATTATGAAAAAAGAAAAAGACTAGAAGAAAAATATAAAATGTCTTTAGAATATTTAGAAAACATAATTAAAGATAATCCACATACAACATTGAGAAAAAAAATATATAAGTTAGAGGGCGATATTTATAAAAAGCTAGGAATGACTCAAACTGCTAAAATATATTATGAGAAATAATAAGGAATGGCTTAAAAATAACCTTCCGATTTTGTTTTAAAATACGCAACGATTTAAGCGTTTTTATAACAAAAAAAGAGAAACTTATTTTTTAAACGTTCCTAAGAATTATAAGTGAGAAGGTGATATTAATGGAAGAGAGAGTTCTTTCTACAAAAGAATTTTATGGAGAAGGAGATTTTCAAAAAAGTTTGAGACCGAAGCGGTTTTCAGAATATATTGGACAAGAAAAATTAAAAGAAAAATTAGGGATATTTATAGAAGCTGCAAAAAAAAGAGGAGAACCAGTAGACCATATATTAATTTATGGAGCACCAGGGTTAGGGAAAACAACATTAGCTGGAGTTATTGCAACTGAAATGGGTGTTAATTTGAAAATAACATCTGGTCCAGTTTTAGAAAAAGCAGGAGATTTAGCTGCAATATTAACTTCTTTAGAAGAGAATGATGTTTTGTTTATAGATGAAATCCACAGATTGAATTCTGCAGTAGAAGAGATATTATATCCAGCAATGGAAGATGGAGAATTGGATATAATAATAGGAAAAGGACCGTCAGCAAGGTCAATTAGAATAGAATTACCACCATTTACATTAATAGGAGCTACAACAAGAGCTGGATTATTAACTTCACCTTTAAGAGATAGATTTGGTGTAGTGCATAGAATGGAATATTATAAAATGGAAGAGCTTATAAAGATTATAAAAAGAGGAAGTAATATTTTAGGGGTTAAAGTAGAGGAGAGAGGAGCTTTAGAGATAGCTTCTAGAAGTAGAGGAACACCAAGAATATCAAATAGATTCTTAAAAAGAGTTAGAGATTATGCTCAAATAAGAGGAGATGGAATTATTACTAAAAGAATAGCTGATGAAGCTTTAGAACTTTTAGAAGTTGATAAATTAGGATTGGATGAATTGGATAGAGGTATTTTAAAAGGGATAATAGAAAAATATAATGGTGGTCCAGTAGGGATAGAAACATTATCTCTTTTGTTAGGAGAAGATAGAAGGACTTTAGAAGAGGTATATGAGCCATATTTAGTAAAAATTGGATTTATAAAAAGAACAAACAGGGGAAGAGTTGTAACAGATTTAGCATATGAACATTTAGGGCTAGAAATAGCGGCAAATAGAAAGAATGAGAAATTATTTTAAAAAAACAGATGGAGGGGATAAATTATGAATAATAAAAAAGAGGAATTAAAATTATTTTTAAAAGTTTTAGGAGGAAGTTTTTTACTATTGTTTATATTTAATTTTGGAGAACATATGTTGTTGCCAATGGCACTAATGGAAAATAAATTGATTTTATTCTTTTATACATTAGTTTTGTCATTAATATTAGCTGGAGCACTATATTTTATAACAGTAAAAAGTTTAAAATTATCTAAAAAGGTTGAAGAGAATTTAGTAGAGATGTCAAATGGAAATTTTAACGTTGAAGTGGAAGATTTTGGAAAAGGAAAATTAGCTGAAAATGTGAAAAAAAGAATAGAAACAGTATTATATAATATTTCTGATGTAATAAATAAAATAAAAATTATATACAATGGAGTCTCAACAAGTAAAGGAGAGATATTTAAATCATTAGATGGATTTTTTGAAGTTATATCAAAATTAAAAGATAATTTAGAAGAACAAAATCATATTTATATGAATGTAATATCGAATATAGAAAAAACAACTGGTGGAATACAAGAGATAGCGGCATCAGCTAATGTAGCAGCAGAAACATCACAAAAAACATTGGAATTAACAACAACAACAGTTGAATTAGCAAGTATGGGAATGCAAAATGTAGAAGAGTCTTTAAGCAAAATGGGAGAAATAAAAGAAAATACTGATAAAACAGCAGAGTCAGTAGCAAAACTAGAAGAGTTAGCGAATCAAATTGGTGGAATAATAGCATCAATAACAAAAGTATCAGAACAAACTAATTTATTGGCACTAAATGCGGCAATAGAAGCAGCAAGAGCGGGAGAAGCAGGAAAAGGTTTTGCAGTAGTTGCACAAGAAATAAGAGGACTTGCAGATGAAAGTAGAAAAGCAGCAGATAATATAAGTAGCATAGTGGAAGTTATACAAGGGCAAACAAAACAAGCTGTTGAGAAAATGACAAAAACTTCTGAAGTGGTAACACAAGGGTCTGAAATATCTATTTCAGTGGGAGATAGTTTAAACACTATATTAGATTCTGTAAGTCAAATAAATAACATGATGCATGATGTAGCAGCAGGTTCACAAGAACAATCAGCAAATACTCATGAAATAGCAGAACAAATGGATAAAATAACAGGTTTAGTAAATGAAGAATTAACAAATAGAAAAGTAGTTGGGGAATATGTAAATCAAGGAAAAGTATCAGCAGAGGAGATAAGAAATGAAATGGGAGTTCTTGAATATAAGTTTGAAGGGCTTACAAATGAGCTAACAAAACTAAAAACAAAAGACAATGGGAATAACAAAGAGATTAAGGAGAGATAATGAAAATAACTACAAAGACAAGATATGGGATAAGAGCATTAATTCATATTGCAGAAGAAACAAAAGTAGATGGAGAAAAACTAATTAGAATAAAGGATATTGCAGAATCACAAAAAATTACAGTACAATATTTAGAACAAATATTGTATAAATTAAAAAAAGGAAAAATTATAGAAGGGAAAAGAGGACCTAGCGGTGGATATAAAATAGCGATAGACCCTTCTAATATAACAATGGAAGAGATTTTTAAAATTTTAGAATCAGATATAAAAGTTATAAATTGTAATTTGTCAGAGGATAAATGTATGGGACATGATTGTGCAACTGTTTATTTGTGGAATAAAATAAATAGTGCAATAGAGGATGTATTGAAAAATATGACACTAAATGATTTATTGAAAAATCATAGTTTAATCATGTTGGGTAAGTAAAATGATAACTGTTGTTATAGATAAAAATAATATAGAAGATAATGTTGTTAGAATAAAAGAAAAAAGTGAAATAAATCATTTGAAAAATGTATTAAGAGGAAAAGTAGGAGCTGAAGTTAGATTAATTGATGGAGAAAAAGAATATTTTTCTAAAATAAGTGATATTTCTAAAAAGGAGATAAAATTAGAAATATATAGCGAAAATAAGGAGGATAACTATTCTGTAGAAAGAGATATAACAGCTGCAATATCTATTATAAAATCAGATAATATGGATTTGATAATTCAAAAATTAACAGAAATAGGAATAAAGAAAATAGTACCTATTATTACAAATAGAGTAGTAGTAAAATTAAAAAAGAAAAAAGAGAGATGGGGAAAAATTTCTAAAGAAGCATTAAAACAATGTAGAGGTATAAAATTTGTAGAGATAGAAGAACCTAAATTGTTAAAAGAGTTTGATTTTGAAAATTATAATAGAATAATAGTTCCATATGAAAAAGAAAAAGAAAATAAGATAAAAAATTTAGAGATAAAAAAAGATGAAAAATTACTGTATTTTATAGGACCAGAAGGTGGATTTGAAGAGGAGGAAATTCTTTTCTTAAAAGAAAAAGGAGCAGAAACTTTTACATTAGGAAAAAGAATATTAAGAGCAGAAACAGCTGCAATTGTTGTTGGAGGAATATTATCAAATGAATTTTAAAAAAAAAGTTGCATTCTTCACATTAGGATGTAAAGTTAATCAATATGAAACAGAAAGTATAAAAAAAAGTTTTATAGAAAGAGGATATGTGGAAGAAAAGTTTGAAAATTCTGCTGATATATATATTGTAAATAGCTGTACAGTAACAAGTATAGCTGATAGAAAAACAAGAAATATGTTAAGAAGAGCGAAAAAGATAAATCCAAAAAGTACTGTTGTGGTAACTGGATGTTATGCACAAACGAACAGTAAAGATTTGGAAAAAATAGAAGAAATAGATATGATTATTGGTAACGATAAGAAAAATAAGATAGTAGAAATAATAGAAGATTCAAATGAAGAAGTAATTGTTGGAAATATATTTAACGAAAACAAATATCTGGAGTTAAATTTTTCTACATATCGAGAAATGACAAGAGCTTATATAAAAATACAAGATGGATGTGAAAATTTTTGCTCTTATTGTAAAATTCCATTTGCAAGAGGGAAAAATAGAAGCCGTAAATTGGAAAATATTATAAAAGAAGTTAAACTTTTAGCTGATTCTGGATATAAAGAAATTATATTAATTGGAATAAATTTAGGAGCATATGGAGAAGATTTTGAAGAGAAAATTAAACTTGAAGATGTAATAGAAAAAGTATCAAGAATAGATGGGATAGAAAGAATAAGATTAGGTTCTATATATCCTGATAAAATTAGTGATAGGTTTATAGATATTTTAAAAAATAATAAAAAATTGATGAATCATTTGCATATTTCTCTGCAATCAGGCGATGATAAAGTATTAAATTTGATGAAGAGGAAATACAATGCAAAAGAGGCTATTGATGTATTGAAAAAGATAAAAAGAGAAATACCAGAAATAGCATTTTCTGGAGATGTAATTGTAGGTTTTCCACAAGAAGAAGAAAAAAACTTTGAAAATACATATAATTTTATTAAAGAAATCGGTTTTTCTGATTTACATATTTTTCCATATTCAGATAGAGAAAACAGTTTGGCAACTAGTTTTACAGGGAAAATATCATCTTTAAAGAAAAAAGAAAGAGCTAAAAAATTAGAAGAACTAAGAGAAAAAATGTTTTTAGAATTTAGAGAAAAATATATTGGAAAAGAAGTAGATGTTTTAATAGAAAAAATAGATAATGTAAAGAATATAGCAGAAGGATATACAAAAAATTATTTGAAAGTTGAGATTGAGGCTAATAATGTAAATGATAGCTTTAAAGTAAATGATATTGTAAAAACAAAGATAAAAAAAATAAAAAAGGGGATGCTTATAGGTGGTCCGAAAAAAGAGGAAGATTAAGCCAAGATTTTTTATAATTTTGTCAATATTATCGGGGATAGTTTTTTATTTTTTGTTTTTGGATGAGCCATTAAAAATAAAAAAAGTTCATAATATAATAACAACTGATAACTTTATTCTTATTAAAAATAATGAATTATATTTAGTTTATGATAAAAAAATAGGTTTTAAGTTGCCAAAAGATACAATTTTTTCAAAAACAGAAGAGATAAATAAATTAATAAAAAGAAAAGAATATAGAAAATTACTATTAGAAATAAATTATTTTTTGCCAGAAAAATTAGATGATTATTTTATATTAAATGAGTATAATATGAAAAATATAGATATAAAAAATATACCTAGAATAAAAATCGGGGACAAATTATATTTTGATAGCTATAGTTTTTCTAAAATATTAAATGGGCATAGTTCTAATACAGTAAATTTAAAGAATAAAAATATTATTGTAGACGTTTTAAATGGAAATGGAAAATCTGGATATGCAAAAAAAATAGGAGAATTATTAAAAAAGAAACTGGGTTATAGATATAATCCAGCTAATTATGAAAAATATACAGAATATAGTTATATAATTAATAAAAATTTAAGTAAAGATGAATTAGAAAAAATTGCAATAAATTTACCAGAAAAATATATAAAAAAAATGAAAAACTATTCTGTAGATACATTAGCAAATTCAATAGTTATTTTAGGAAGAGAAAAAAAAATAGGATTTAGTATATGGATTTATACAAATAAAATTTTAGATAGAAAGTATTATAACAAATTAAAAGAAAAAAAATATGTTAGAGTTCATAGAAGTAAAAAAAACAGAAAAATAATTAAAACTTATTTAGAATATAATTCAGAAGATTATTTTACTGCATATAAAATGGGTAAAGTTTTAGGAGTAGATAATTTGGTGGAAAACAACAATATTAAAAATAAAATAAATATATACGTGGAGGAGTAAAAAAGATGAATGATAAATTAAAAGCAATAGTAGAAGGTATCGAAAGTAAAAAAGGGAAGGATGCGGTTGTATTAGATTTGGCAGGGAAAAATAGCGTAGCAGAGTATTTTGTTATATGTACAGGGAGCTCAGAACCTAATTTAAAAGCAATTGTAGATGAAGTAGAGGATAAAATGGAAGGATTAAAAGAAACAAGATTAAGAATAGAGGGGTATAATGAAGGAAAATGGGCTATATTAGATTATGGAGATATAATGGTACATGTATTTTTAGAAGAAACAAGAAAATTTTATAATTTAGAAAATTTGTGGAATCAATCAGAAATTTTATATAGAGGTTAATAAATGGCTGCTATTTTTTATCCAATAATAATATTAATGATATTTATAGAAATGTCTATTTATGTAGATTTTCCATATTTTGCATTGGGATTAACTTTTATTGGGTATTTGACATATAAAGAAGGAAAAAGAGCAATTATATATAGCATGATAATAGCTTTTTTTACAGATTTTAGTTCATATGGAATAATATTTTTTATGTTTTATACATTTTTATTATATCAAATATATAAACATATAAATTTTACTAGAATAAATATAGTTATAGTATCAATATTGGAAATATTATTATATTTTTTATATTTGGGGATATTTAAAATGAATACATTTGATATTTTAATTATAATTAAAGAATTTATATTTGTATTTATTTATAATTCATTATTTTTTGAGTTAGAAAAATTAGATGCGTTTAAGAAAAAATAAGATTTGTATATAAAAAAATAAAATTCTGAGAATTGTTTGAGAAAATATATATTTATTTATATTTTTAAAATAAATTTATTTTAAATTATTTATAAACTGGAGTAAAGATGAAATTAAATAGAGAAAATGATACAAGAGTATATATATTTATTGGGTTTGTAATATTATTTTTTACAATATTGTTAATTAGACTTTTTTTTATGCAGGTTGTGGAATGGAAATATTATAAAAAATTATCTAAAAATAATAGAACTAAAATAAGAGAAATAGAAGCTCCTAGAGGGAAAATTTACGATAGAAATGGCAAGCTTTTAGTTACTAATGTTGCAGGTTATAAATTGGTTTATTTAAATAAAAGAAAATATACTCCTGAAATATTAAAGAAGATAGGAGAAATATTAAATAGATCCCAAAAACAAATTATAAAATTAATAAAAAACGGATATATTTATGGATATACTGGCGAAAATGTATTGGTAGAGGATTTGAATAGAAATATAGCATTAAAACTTATGGAAAACATTGACAATTTCCCATATTTAGATGTAATAACATATCCTAAAAGAAAATATTTATATAATGATTTAGCTTCTCATGTATTGGGATATATAAGGAGTATTAATACGAAAGAGTTTGATAAATTAAGAAAATTAGGGTACAATCAAGGAGATAAAATAGGAAAAAAAGGAATAGAAAAAAAATATGAAAATTTATTAAAAGGTAAAAATGGGTTAGAATACATTGAGGTAAACGCACTTAATAAATTAGTAAATAGATTAGATACAAATGTTGCAACTCCTGGAAAAGATTTAAAATTATCTATTGATATAGAATTAGAAAAAGATATGTCTAATTATCTAAAAGGGAAAAAAGCAGCATTTATTGCAATGGAAGCTAAAACTGGAAGAATTATAACTTTTGTTAGCTCTCCAGGATATGATTTAAATAAGTTTACTGGTAAAATGACACAAAAAGAATGGAATAGTATCTTGAAAAATCCAAATAGGCCATTAGAAAACAGAGGAAGCGTAGGAACTTATCCACCAGGCTCTATTTTTAAACCAATTGTTGCAATGGCGGTTTTAAATTCTGGGATTTCACCGGATAAAACAATTTTTGATCCAGGCTATTATAAAATAGGTAAATGGAGATGGAACGATTGGAAACTAAGTGGGCATGGGATAGTTAATTTAGAAGATGCAATTGTACATTCATGTGATACTTATTTTTATACAATGGGAGATAAAATAGGATATAAAAAAATTGTAGATATGTCAAAACAATTTGGAATAGGAAGAAAAACAGGGATTGATATTCCAGAAGAGAGAGCCGGAAACTTACCAGATGAGAAATGGAAGAGAAGAGTTGTAAATGAACCGTGGTATGGAGGAGATACTATAAATTTATCAATAGGACAGGGATATTTGACAACTACTCCACTTCAGATGTTAGAAGCGTATGATATACTAGCAAATAAAGGAGTTGGATATAAGCCTCATTTTGTAGAAGAAATAGACGGAAAAGAAGTGAAAAAAGTAATAAAATACAAAGTTAATTTAAAAAAGGAATATTTTGATATTATAAACTTAGCATTAAGAAAAGTTGTGAAAGAGGGTACAGCAGCTAATATTAATATGAAAAATATTGAAATAGCTGGGAAAACAGGTTCAGCTGAAAATTCTCATTATAAGATTACACATGCTTGGTTTGCTGGATTTGCTCCATATGATAATCCAGAAATTGTTTTTGTGTCTTTTATAGAAGGAGGAGGGCATGGAGGAAGTCATGCAGCTCCAGCGGCAAAAGAGTTTGTAAAAAAATATTTTGAAAATAGGATGGTGAAATAATTGCTAAAAGGGGTAAAAGAAGGAATTAGTATAGAAATTAATAATTATAATGAGGATATAAAAGAATTAAAAGATAAACTTAAAAACAAAGATTTTTTAGGTGAAGATGTAGATTTTATATTAAGAAGAAAAGATAAAAAATATTTTAGAGAAATTTATGATTTGGTAAATGAGTATGGATATGATGCATATATTCTAAAAGATGAAGAAGAAAAAGAAGAAGTTGAGGAAGAAAAAACCTTGATAGTTAAAAAGACTGTTAGATCGGGAACTAGAATAGAATTTGATGGAAATATAGTTATCGTAGGAGATGTAAATCCAGGCTCAGAAATTTTTGCTGATGGAGATGTATATATCTATGGAAGAGCAAGAGGGATAATTCATGCTGGAAGAAAAGGAGATATTACAAGAAGAATATTAGCTCTAGGAATGGAAGTGAATCAAATTAGAATTGGGAATATATATGCAAAAGGTGACGGTGGATTAAAAAAAGGAGTATCAGAAACAGCATATGTTGAAGATGGAAGAATAGTATTACAAGAGTATAAATGGATATAGGAGGAAATAAAATGTTAAAAGTAGGAGTAATTGGAGCATTAGGGAAAATGGGACAAGAAACAATAAAAGCGGTCTCTAATGAAGATGAAATGAAAGTTGTAGCTGCATTAGATGTGGTTAAAACAGGCGAAGAAATAAAAATAGGTGAAAACAGTTATAAAATTAGTGATAGCATTGAAAAAGCCTCTAAAAATGTTGATGTATTTATTGATTTTACAGGTCCAAAATCAGTGAAAGAAAATGCGAAACAAATAATTGGATTAGGAAAAAATTTGATTATAGGGGCAACAGGTATTTTAGAAGCTGAAATTAACGAATTAAGAGTTTTAGCTTTGGAAAATAAAGTAAATGTTATGATTATACCTAATTTTGCAATTGGAGCAGTTTTGATGATGGAATTTTCAAAAAGAGCAGCTAAATATTTTAATGAAGTAGAAATATTGGAATATCATCATCCATATAAATTGGATGCTCCGTCTGGAACGGCAATAAAAACTGCAAAGCTAATTCAAGAAACTAAAGAATCTAGAGAAAAATTAAAGGGAAAAGAGATTATAGAAGGAGCAAGAGGAGCAAATGTTGGAGATATAAATATCCATAGTATTAGATTAAATGGGTTTGTAGCATCACAAGAAGTAATATTTGGTGGAGCGGGACAGACATTAAAAATAAGGCATGATTCAATAAATAGAGAATCTTTTATGCCGGGAGTTATATTAGCACTTAAAAATATTAATGAAATAGAGGGGGTAATTTATGGAATGGAAGCCATTTTATAATAATAATAAAGAAGGGAAGTTATATGTTATACCTTTAGGAGGAATTGGAGAAATAGGGAAAAATATGACATTGATTCAATATAAAGATGAAATTATTTCAATAGATGTAGGATTAACTTTTCCTGGAGAAGATATGTTGGGAATAGATTTAGTGATACCAGATTTTAATTATGTGATTAAAAATTCTTCGAAATTAAAAGGAATAGTATTAACTCACGGGCATGAAGATCATATTGGAGCTTTGCCATACTTATATAAAGAGATACCAGCAGACATTCCTATGTATGGAAGTAAATTAACATTAGCATTAGCAAAAGAAAAATTTGAAAGATTTGATGAAAATGTAAAACATAATTTTAAAGAGGTAAAAGGAAGAGATAAAGTAAAAATTGGGAAATATTTTGAAGCTGAATTTATAAAAACGACTCATAGTATTTCAGATACTTTTGCTATTGCAATACATACTCCTATAGGAACTATAGTTCATACTGGAGATTTTAAAATAGATTTAACACCAATTAATAATGAATCTACAGACTTTTTTAAATTAGCAGAATTAGGAGAAAAGGGAGTTTTATTTTTAATGTCTGACAGTACCAATGCTGAAAGAGAAGGGTACACTATGTCAGAAAGAAGTGTTGGAGAGGCATTGCAACAAGAGTGTGAAAAGGCAAAAGGGAGAATAGTTGTAGCAGCTTTTGCAAGTCATATACATAGATTGCAACAAATTATAGAGGTAGCTACAAATTTAGGAAGAAAAATAGCTATTGATGGAAGAAGTATGATTAGAGTTGTGGAACTAGCTTCTAGATTAGGCTATTTAAAGATAGAAGATAATGTATTAATTGATCTGAAATCAGTAGATAATTATAAAGATGAAGAGATAGTTTTATTGTGTACAGGAACTCAAGGAGAACCAATGGCTGCATTATCTAGAATAGCTAATAGAACACATAAACATATAAATATAAAAGAAGGGGATACTGTAATAATATCTGCTACACCTATTCCTGGGAATGAAAAAGCAGTATATAAAACAATAAATAGATTAATAAAAAATAATGCTGAAGTTATTTATGAAAAAATATCAGGAATTCATGTATCTGGACATGGAAGTCAAGATGAATTAAAGTTAATGTTAAATTTAGTTAAACCTAAATTTTTTATGCCAGTTCATGGAGAGTATAAACATTTAAAAAAACATAAAGATATGGCATTAGCAGTTGGAATTCCTGAAGAAAATATTATAATCTCTGAAAATGGATTGAAAATTGAAATAACTAAAAATAATGCTAAAATATCAGGTAAAGTACCATCAGGAATAACATTAATAGATGGGCTTGGAATAGGTGATATTGGAAACATTGTATTAAGAGATAGACAACATTTAGCTCAAGATGGTATAGTGATAGTAGTTATAACTATTTCAAAAAAAGATGGAGAAATTCTTGCAGGACCAGATATAATTACAAGAGGATTTGTATATGCAAGAGAGTCTGGAGATCTTATTCGTGGTACTGAAAGTTTGATAAAAGAGGAACTTTCAAAATATAAAAAAGTAACAGAATGGGCAGTATTAAAAAGCGCTGTAAGAGATATAACAAGAGGATATTTATATGAACAGACAAAAAGAAATCCAATAATTTTACCTATAATAATGGAGGTTTAAAATGAAAATAACAAGCAAAAGAAGAGCATATTTAAGAAAACTAGCAAATAAAGAAGTAGCGATAATAAGAGTTGGTAAAGATGGAATAAGTGAAAATTTAATAGAAGCATTAAACAAAGCTTTAACAGCTAGAGAATTGGTTAAAATAAAAGTTTTAAATAATTCAGAGGAAGATATAAAAAAAGTTGGGTATGAAATAGCTGAAAAAGTAAAAGCAGAGTTAATCCATATCTTAGGAAAAACTGCAGTTTTTTTTAGAGAAAATGAAGAAAAACCTATCATTTCAACTGAGTTAAAGGGGATATAAAAAGATGAGTTATAAAGGAATTTTTTTTGGAAATGGAATTTTAGACATAGTTTTTGTAGCTTGGTTTATAGCACAAGGATATAAAGTCATAAGTTCTGTATTTAAAGAAAAAAAATTGAATTTTAAAAGATTTATAGAAACAGGCGGTATGCCAAGTTCGCATACTGCTTCTGTAGTATCTTTGCTAACAGCTATAGGAATAAAAAATGGAATTAGTTCAACAGAATTTGCAATTACATTTGTTTTTGCTATGATTGTAATGTATGATTCTTCAGGAGTAAGAAGAGCTGCAGGAAAACAAGCCTCTGTATTAAATAGAATAGTAGATGATTTATGGAAAAAAGATGGAAAAAGAATTATGGAAAATGATTTAAAAGAACTTTTAGGGCATACGCCTGTAGAAGTTTTTGCAGGAGCAATTTTAGGAGTAGTAGTGGCATTTATTATGAGTTAATAAATATTAGAAAATAATATTTTTATATTTTTTATTTACTAGGAAAGTATAAATTTATTCAGAAAATAAGCTACGCCGTTTTTTTGAAATATGCGATTTTTCAAAGCAAAATTTTTCAGAAACCAAAAATTTAAAAAAATATTTATGTTTTACCAGATGAAGCGTAACTTATTTTTTTATAAACAAATAGGGAATTAATTTTTTAGTCATTCGTAAGGAGAAGTTTTTATTATGAAAATAAAAGATAAAAATTTAGAAGAGTTAAAAGATATAGCAAAAGAGATAAGAGAACTTCTTATAGATGTTGTGAGTAAAAATGGTGGTCATTTAGCATCTAATTTAGGAGTGGTAGAGCTTACAATAGCACTCCATTATATATTTAATTCTCCAGAAGATATAATGCTTTGGGATGTAGGGCATCAAGCTTATGTACATAAAATATTGACAGGAAGAGAAGAAAGATTTCCTACGATTAGAAAAAAAGGTGGTTTAACACCTTTTACTAATCCTAATGAGAGTATTCATGATGGATTTATATCGGGACATGCTGGGAATACATTGTCAGCAGCACTTGGAATACATGAGGCTAAAAAGAATAACAAAGTAATAGCTATAATAGGAGATGCAGCATTAGCAAATGGAGAAAGTTTAGAAGCTATAAATAATATTAGTGAAAAAGATAAAAATTTAATAATAGTATTAAATGACAATGAACATTCTATAGGTGAAAATGTAGGAGCTTTGTCAAAATATATGAGTAAAATAATGGGTAAGAAAAGTTATAATGACTTTAAAAATGAAGTAGAATTATTAGTTAGAAAAGTAATATTTGGGAATTCTGTAGCTGATTTTATAAAAAGATTAGAACATACGGTAAAATATTTTTTTAACCCTGGGAATTTTTTTGAAGAATTAGGTATTCATTATATAGGACCTGTTGATGGGCATAATTTAAAAGAGTTAATATCTACTTTTGAAGATGTAAAAGATATGGAAGGACCTGTAATTGTACATATAAAAACAGAAAAAGGGAAAGGGTATAAATTTGCAGAACAAAACAGAGAAAAATTTCACGGTATATCTCCATTTGATATAAAAACAGGAGAAACTTGTAAAAAAAATGAATCTTATTCACAACTGTTTGGAAATAAACTTGTAGAATTAGGAGAAAAAAATTCAGAAATAATTGCTATAACTGCGGGAATGATAAAAGGGACAGGTTTAGATAAATTTTTTGAAAAATATCCTAAAAGATCATATGATGTTGGAATAGCAGAAATGCATGCTGTAACTTTTGCAGGAGGGCTTGCTATAAAAGGGAAAAAACCAGTAGTGGCAATATATTCTACATTTTTACAAAGAGCTTATGATCAATTAATTCACGATATTGCATTGCAAAATTTACCAGTTTTATTTATTTTGGATAGAGCAGGAATAGTTGGAGAAGATGGGCCTACTCATAATGGGATATTTGATATTGCCTATTTACAATCTATACCTAATATTAGAATTATGGCACCATTTTCAAAAGAAGATTTAGAAAAATCATTGGAATTTGCAGTAAATGATAAATCAGGACCTATTGCAATAAGAATTCCAAGAGATTCAAGCTTTTGTTTGAATGTAGGTTTTGAATATGGTAAATGGCAAGAAATAAAAAAAGGTAATGAATATTTAGTTATAGCAGTTGGAAGTATGTTAAAAGAGCTGTTAATTATAGAAAAAGAATTGAATAAAAATAATGTTTATCCAACTATTGTAGGAGTTAATTTTATAAATCCATTAGATGAAAAATATATCTTAGAAAATTTTGTTAAATATGAAAAGATATTTATATTAGAAGAAGGAATATTACATGGTGGGTTTAGTAGTAAAATATTAGAATTTTTAAATGATAAAAATATTAATAAAATTATACACAGAATAGGAATAGAAGGATTTGTAGAGCATGGAAAAAGAGATGAAATATTGACAGATTTAGGATTAAAGGGAAAAAAATTAGTGGATAGGTTATTAAAGAAATAAGTTGAAATATAAAGAATAAGGATAAAACCTTATATGACAGACAGGAGGAAGTTTGATTGGCAGATAAAAACGTGAGGGTTTTTGTTAATGGTATTTTATTACATCCAGTTATTCAAAAATTAAAATTAGTAGATGATAAGGGGATAACAGTTTCAACTCATACTTATGATGTATTAAGGGTGGCAATAAAACAGATAAAAAGCAGGTATTTTGACAATTTAGAAGAGGCTTCAGAAGATTTGGACTTTTTTGCAATTTTAATAGGGATATTAATACATGATACAACTAAGGGGACATTAAGATTAAGTGGATCTAAAAATTCTCATAGTTATATAATGAGAAATAATCCAGATATTGTAATGAAAGAGGCAGAATCTATAATAGAAGAAGTGGAAAATTTTACAAAATTAAATATAAAGAAGGAAACTAGAGATCATATTATTCATATTGTTGCTTCGCACCATGGAAGATGGGGAAGAATAAAACCACAAACAAAAGAAGCACATATAGTTCATGAGGCAGATAAATATTCTGCTATGTATCACAGAATAACTCCAATTGGAGCTAAAAAGATTATAAAATTAATGTCAGATGGTTTTTCAAAAGATGAAGTGGTAAAAATAACAGGTTATACAAGTGGGATAATAGATAATAGATTAAAAAGAGCAAAACAAGAATTAAATATAAAAACAAATAGAGGATTACTTAGCTATTATAATAAATATAAATCAATACCAGATGGAGATGAATTTTTTAGTAGAAGAATTAGAGAAACTGAAAAATTAATAAAAAAAGTTGAAGTGATTGGTTTTGAAGATCTTGTATTGAAAAATATTTTAATTGATTATATTTATAGAGAAGATATTTTTGAATGAAAATAGATTAATATTAGAAATAGAGTGATTTTGATTTAAAATTAATTTATAAAATACGAAAAATTATTTTTAATATTTAGGTACATTAAAAAAATAAATTCGTCAAAATTGTTTGAGAAAATCTGTAGATACGTTCATATTTTTCAAACAAATGACTCATTAATTTTTTTAAAGTCCCTTATTATAGAAAGGTTGTTTTTTATGAAAGAAAGATTAGATGTACTTTTAGTGGAAAAGGGATTTTTTGAGAGTAGAGAAAAAGCTAAAAGAGCAATTATGGCAGGGATAATAGTAGTTAATGATAAAAAAGTAGATAAAGCAGGAACTAAAGTTAAAGTAGAGTCAGAATTAAGAATAAAAGGGACACCTCTAAAGTATGTAGGGAGAGGTGGATTAAAATTAGAAAAATCAATAGAAGCGTTTGAATTAGATTTTAAAGATAAATTGGTTTTGGATATTGGAGCTTCTACTGGCGGTTTTACTGACTGTGCATTACAAAATGGAGCAAGATATGTGTACAGTGTAGATGTTGGAACTAATCAATTAGCATGGAAATTAAGACAAGATAGTAGAGTAAAATCTCTTGAAAATATGCATATAAAAAATTTAGAATTAAAAGAGTTAGATAATAATTTGGTAGACTATATAGTAATTGATGTTTCTTTTATATCATTGACAATGGTATTTAATTATTTAAAAAAATTTTTAAATGATTCAGGTCAAGTTGTTGCTTTAATAAAACCACAATTTGAGGTTGGAACTGCAAATATTTCAAAAGGTGGAATAGTAAAAGATTTTTCTAAACATATTATGGCAATAGAAAAAGTTATTAATTCAGCATATGAAAATGGATTGTTTATAAAAAAATTAGACACATCTCCAATAACAGGAACTAAAGGAAATGTAGAATATATTTCATTATTTGACATAGAAAATAAAAATATTAATATAGATATAGAAAATATAGTAGAAAAAGGAAAAAAACTAAAAAAAGGAGATGGAAAAAAGTGAAAAATAGGAAAATATTTTCAATTGGAGTATTGACTTTAATATTATTATTAGCATTTACTTCACTATATGCAAAAAGTAATAGTAATAAATCAAGTAAAGATGAAAGTAAAGAAACAGTTAAAGTAGGATTTATGTCACATATAAAGGAATTAAGAGAAATTTCTGAAGTTATGGATTTAATTCAAACTAATTTTGTAGGTGATAAAAAAATAGATAGTAAAGTTCTTTTACATGGAGCGTTAAAAGGAATGGTAGAATCTTTAGATGATCCACATACAAATTATTTTCCTCCTAAAGAGCTTAATTCATTTACTGAAGATATAAAAGGAGAATATGCAGGAGTAGGAATGGTTGTTAGTAAAAAAGATAATGTATTAATAGTAGTTTCTCCAATAGAAGATACTCCAGCATATAAGGCTGGGATGAGACCAAAAGATAAAATAATAGCAATAGAAAAAGATTCAACATTAAATTTAAGTTTAGAAGAGTGTGTAAAAAAATTAAAAGGAAAAGCTGGAACAACAGTTAAAATAACTGTTTTAAGAGAAGGAGTAGAAAAACCTTTTGAGGTAAAATTAACAAGAGCTATAATAAAATTAAAATATGTTAAAAGCAGAATGTTAGAAAACAAAATAGGATATGTTAGATTAACACAATTTGGAGAACATGTAGCACCTGATGTGAGAAAAGCAGTAGAAAATTTAAGAAAAGATGGTATGAAAGGTTTAGTATTTGATTTAAGAACTAATCCTGGTGGAGCTTTGTCACAAGCTGTAAAAATAGCTTCAATATTTATAGATGAAGATCCAATTGTTACAGTAAAAGATAAAGCAGGAAGAGTAGAAACATATAATCATGAAGGTACTGCATATACAGATTTCCCAATGGTTGTACTTGTAAATGGTGGAAGTGCATCAGCTTCGGAAATAGTATCAGGAGCTATAAAAGATCATAAAAGAGGAATATTAATAGGAGAAAAAACATATGGGAAAGGCTCTGTTCAAAATATAGTACCTTTACCAGATGGAGATGGAATAAAATTAACAATAGCAAAATATTATACACCTTCTGGAGTATGTATAAATGGAATAGGAATAAATCCTGATATAGAAGTAAAAGAAAAATATATGTTTTTTAATGGATTTATTACAAATATAGTAAAAGAAAAAACAGAAAAAAAATCTGACACTAAAAAAGATGTAAATAATGTAAAAGATACAAAAGATACAAAAAATGCAAAAGATACAAAGAAAAAAGAAGAAAAAAAATCTGATGATATACAATTAGATACTGCAATAAATGTTTTAAAAGGAATAATGTTTTATAAAAAATAGAAAGGGGTTTATACCCCTTCTATCTTTTTTATGTGATAAGAGAGATTAAAGAAATAAAAATTAGTAAGGAGATGGGAAATGTTATATATAGTAACAACTCCAATAGGAAATTTAGAAGATATAACTATGAGAGCATTGAGGATATTAAAAGAAGTAAACTATATTTTTGCAGAAGATACAAGGCAAACAAAAAAACTTTTAAGAAATTTTGAAATAGAAAATATTGTATATCAATATCATGAACATAATAAATTACAACAAATTGGAAACATAATTAGTTTATTAAAAAATGGAAAAGATATAGCATTAGTTACAGATGCAGGAGTTCCTTGTATTTCAGATCCTGGATATGAAGTTGTAGATGAAGCATTAAAAGAAGGAGTTGAAGTTACTTCAGTACCTGGACCAAGTGCATTGACAGCAGCAGCTTCTATTAGTGGAGTAAGTATGAGAAGATTTGTATTTGAAGGTTTTTTACCGAAAAAGAAAGGAAGACAAACTTTATTTAAAAAATTAGTCGAAGAAGAGAGAGCTATTATAATTTTTGAATCGCCAAATAGGATATTAAAAACTTTAAAAGATATAAATGGGTATTTGGGTAATAGATCAATAGTAATAGTTAGAGAGATAACAAAAGTATATGAAGAGATAATCAGAGGAAAAACTTTAGAAGTGATAGATAAACTTGAAAAAAAGCCTATAAAAGGTGAGATAGTATTAATAATACGAGGAAAAGGTGAAGATAAAAATGACAGTAAATAATATAAATTGGTATCCAGGACATATGAAAAAAACAAAAGAGTTGATAAAAGAAAATTTGAAAATAGTGGATTTAGTTTTAGAAGTTGTAGATGCTAGGATACCAATAAGTAGTAAAAATCCAGATATTTTAGACTTAACAAAGCATAAAAAAAGAATATTATTATTAAACAAATCAGATTTGGTTTCTAAAGAAAATTTAAATGAATGGAAAGAATATTTTATAAATAAAAAATTTGCAGATGAAGTTATAGAAGTTAGTGCAAGAACAGGGTATAATTTGAAAAAATTATATAAGATAATGGATGTAATGTTAAAAGAGAAAAGTGAGAGAATGAAAAAAAGAGGAATAATAAAGACTAATTTAAGACTACTAGTTGTGGGAATTCCTAATGTAGGAAAATCACAATTAATAAACAAAATTGTTGGGAAAAAAGCAGCTGGAGTTGGGAATAAACCTGGATTTACAAGAGGGAAACAATGGGTTAGAATAAGAGATGGAGTAGAACTTTTGGATACACCTGGTATTTTATGGCCAAAATTTGAAAGCAAAGAAGTAGGGATGAATTTAGCTATAACAGGCTCTATAAGAGATGAAATATTAAATATAGAGGAAATAGCTGCAGGATTTATAAAAAAATCAATAGAAAAAGGACAAGAAGATATTTTAATATCTAAGTATAAGATAAAAAAAGAAGATTTGAATGAGATTCCAGAAGTTGTTATTGAGAGAATGGCGTTTAGTTTAGGAATGATAATGAAAGGTCAAAAACCTAATATAGCTAAAATAGTATCTTTAATTTTAAGAGATTATAGAAGTGGAAAACTAGGTAAATTTGCTTTAGATAATATTGAAAAAGAGATAGACAATATATAAATATGAGGTGAAAAAATGAAAAATTTAGATATAAACTTGGAATTTACAGAAAAAATATTAGTAGGATTTATAAAAGAGGAAGTTAAAAAATCTGGATTTAATAAAGTTGTATTAGGACTATCAGGAGGAATAGATTCTTCATTAGTAGCATATTTAGCAGCAAAGGCATTAGGTAAAGAAAATGTATTGGGAGTTATGATGCCATATAAAACTTCAAGTAAAGGAAGTTTGGATCATGCAGAATTAGTGGCTATTGGAAGTGGGATAAGAACAGAAGTAGTAGAAATTACAGATATGTTAGATGCTTATTTTAAAAAATTTCCAGATATGACCGATTTGAGAAAAGGGAATAAAATGGCTAGAGAAAGAATGACAATATTATATGATTTTTCTGCAAAGGAAAATGCCCTTGTATTAGGAACAAGCAATAAAACAGAACTTTTATTGGGATATGGGACGCAACATGGTGATATGGCTTCTGCTATAAATCCAATTGGAGATTTATATAAAACTCAAGTTTGGGATTTATCAAGATATATGGGAGTTCCTAAAGAGGTAATAGAAAAAAAACCAAGTGCTGACCTTTGGGAAGGTCAAAGTGATGAGCAAGACCTTGGATTTACTTATGCAGAAGCAGATAAGCTTTTATATCTATTAATAGATGAAAGATATACTATAGAAGAATTAAAAAACATTGGATATAGTGAAAGCTTTGTAAAAGAGATATATAGAAAAATAAAGATGTCTCAATATAAAAGAAAATTACCATTAATAGCAAAAGTATCTAAAAGGACAATTGATAAAGATTTCAGATATCCAAGAGATTGGGAGATATAAAAAATGAGGAATATTATTATTTTTACATTTTTTTCTGTAATAATTCTTTTTTTTGAATATAGTGATTATTTTGAATATAAAAAATATATAATTAGTGTCGAAGAAAAAAATGAACTTAATTTTATTGAAAATTTAAATAAAGATTCAATTAATAAAGTAAAAAATAGAGAAGTATATAATTTAAATGAAAAATATTCATTAAAGGAAGTCGATTTTTATTTAGGAAAGTCATTAAGTTATAAAAATAATAGAGTTAAATATGTAAAGAATAAACTGTTTAGTAAGAGATGGAATTATATTTTTGTTAGAGATATAAGAGAAAGTTTAAAAAAATTAAATCAAAATATTATAACTAAAAGTTTTGAAACAGTTCTTTTCTTTATACTGTTTTTAATGTTTGTGTTGGTTGATTCGAAAAACAAAACATATTTATTAGAAATAAAGCATAAAGAAGATTTAGAAAAAGATTTGAATAAAGCAAAAGCTATTCAAGATAAACTTTTTAAAGAGATAAATATATCAAAAGAGAGGTATCAGATAAAATCTTTTTATAAGTCTTATAGGGAAGTTGGTGGAGATTTTTATGGAATAGAAGAGATCTCAAAGGGAAAATATTTTATTTATGTAGGGGATTCTGCAGGGCATGGATTACATGCAGCATTAATAAGTTCTTTTTCTAAAATTACAATTGAAAATTTGAGGAATAAAGGTTATAATATATTAGAAATAGTCGAAGAATTAAATAATAACTTTTTGACAATAGAGGGATTTGAAGATTATTATGTAACTTTATTTTTAGGAATATTTGATTTTAATTTAATGGAATTAGAGTATTTATCTTGTGGGCATGAAATTCCATTTGCTTTAAAGGATAATAAAATTAAAGATTTATTTACTGCAAAAGAGAATAATATGGTAATTGGAATGTTAGAAGAAGTTCCATTTATAAAAAACAAAGTAAAAATAGAAGCTGGGGTAAATTATTTGATTTATACAGATGGGATTTTGGATACAATAGGAGAAGATGAACTGAAAAGAGTATTAACCAAATATGGAGAAGAAGGAGTAAAAGAGATTTTGAAAAATAGTGAACCAAAAGATGATATGAGCTATATAGAAGTTTCAATAAAATAACTTTAGGAGTAGCTTAAAAATAACTTAGGAGGTGTTTCTGATGAGTGGAAATAAGTTCAGAGTGATTGAAATTGATGATTTTAAGGATGCAAAAAAAAGGGTTAAAGATGTAGTTAGTGGAATTGAAAATATTAAAAGGTTGCAAGAAAAGACACTTTTTAGAGCAATTGAAATTAAAAATTTAGATGCACGAGCTGCAAATATCCTAAATTATGAAGCATTATCTTGTAATGTAGAGGCAATAATTTCAGAAGATGTATTTAATTTTTCAGTAAAAACTACAGATATAATATTATTAGGTACAATTAGAAATTATGAAAAACTATATTATAGATTAAAAACTAAAAAATTTGGACTTTCTAAATTAAGTGAAGAATTAAAAGATACTTTGTTAAAATATGATAGCAATTATGAAGAGGTAACAGTAGGAGATTACACTTTTAATTTTAATGAAAAAACTTATATTATGGGGATTTTAAATATAACTCCAGATTCATTTTCAGATGGAGGGAATTTTTTAACTCCAGAATTAGCAATAAAAAGAGCCATAGAAATGAAAAAGAATGGTGCAGATATTATTGATATAGGAGCAGAATCTTCAAGACCTGGAGCAACTCCTGTAACTGCAGAGCAAGAATTAGAAAGGTTGATTCCAGTTGTAGAAGAATTAAGAAAAGAGATAGATTTACCTATTTCAATTGATACATATAAATCGGAAGTGGCGAAAGAGATGTTAGAAAGAGGAGTACATATAATAAATGATATAACAGGATTAAAGGGAGATCCAAAACTTTCTGAAGTGATATCTGATTATGAAGCTTTGGCAGTAATAATGCATATGCAGGGGACTCCGCAAAATATGCAAAAAAATCCAGAATATGAAGATGTAGTTGCTGATGTAATAGAAGAATTAAGAAAAAGTATTCAAATAGCAGAAATTTCTGGAATAAGAGATAAAAATATTATAGTAGATCCTGGAATAGGATTTGGGAAAACAGTTAAACATAATCTTGAGATATTTAAAAGATTAAAAGAGTTTAAATCATTAGGAATGCCAATATTAATTGGAGCTTCTAGAAAATCAATGATAGGTGAAATATTAGATCTACCAATAGGTGAAAGAATAGAAGGCAGTGTAGCTTTAGCAGTAGCAGCAAGTTTAAAAGGAGCATCTATTCTTAGGGTTCATGATGTAAAAGAAACATATAGGGCTTTAAAGATGATAGATGCAATAAAAAATATTTAGGAACGTTTAAAAATAATGTTCTTATATTTTGTTATAAAAATTGATAGTGTAAAGTTTTTGTAGGAAAAATAATTTCAGCACAAAGAAAGAAGAACTCAAAGTTACACAAAGAAAAATTTTTTTAAAAACATGGGATAAACATAGATTAAAACTGATGAATAAAAATTGGTGGATAATTATCTTTGTTTATCTGAAGATGAAATCCTACAATTATTTTACACTATATAAAAATGGAGGAAATATTGAAAGAAAATTATAATAGAGCATTAAAATTTATTTTTAAAAGATTTTCAGTTTTAGGATTAGTATTAATAGTGAATATTATTAATTCACCATTAAAATCAAATCAGTTCACTTTTTTAGGGGCGAACTTTTTAACAATTTTTTTTATAGGAGGTTTTTTAGGCTTATATGATAAAAATAAAGAAGTAAATGTTAATATAAAAAATTATTTTATAGAAAGTGCAAAATATTTTTCGAGAATTGTATTAAATTTATTTGAACTTTCTATTATAGTTTTAATAGACTTCTTAATAGTATTGTTTTTTGGAAGTTTGCCGATAATAATTACGCAGGTATATCCAAATCCTAGGATGTCAACAGTATTTTTAACAATTATGGTATTAATGGTAGGAATTTATAGATTACCTATATTTATATCATCTTTTTTCACACCTATTTTAGATATAAAAATATATGGTAAAATAGGGATAGTAAGTGCAAAAGAAACAATATATAAATATAAAGTAATATGGATAACAGCAATATTACAGTTGTTAATTTATATGATAATATTTTATCTCAAAATGATTTTTATGAAATCATTATTAATGTATAGTATATTTGATATTTTAGGTGGGATTTTATTTTTAATATTTATTATAGCTGATTTTGATAAATATAAAGAAATTAAAGACATGCAAGAAGAAATTGATTATAATAATTATACAGGAAGATATAGTAAATTAATCGGAAGATTTATAATGTAATAAATTAGGAGGAAAAAGATGGCTTTTAATAATAATCCTTACGATAAGTATAAAAATACACAAATACAAACAGCAACGCCTGGACAGTTAATATTAATGTTATATGAGGGAGCTATTAAATTTTGTAAATTTTCTAAAAATGCAATATTAGAAAAGAATATATCAGATTCAAATAAATATTTGATAAAAACACAAGATATAGTAACAGAATTAATGATATCTTTAGATATGAAATCTGGTGGAGATATAGCTAAAAATTTATATAGTATTTACGATTATATGCTTCGGACTTTGGTTACTGCAAATATGAAAAAAGATATAAGCAAAATCACAGAAGTACAGGAATTATTAGAGGATTTAAAATTAGCTTGGATGGAAGCAGTAAAAAAAACAGGCGGAGTTAAGCCAAGAAGATAAACTATGGAGAAATAATTTTAGGTACAATAAAAAAATGAATTTGTCAAAATTGTTTGGGAAAATTTGTAGATCTATTCATATTTTTCAAATAGATGACTTATTATTTTTTTTAGTTCCCTGTTATGAGGTGTTTTAATGAGAATTATAGAACTTTATTTAAAATTGAAAGAAGCAACAAAAAAAGAACAAGAATATATTTCTGAAAATATTGAATATGATGATAAAATATTAGGAGATTTAGTTACTAATAAAAGAATTTTAAGAGATAAAATAGAAAAAGAGCAGAAACAGAATAAGATATTAGAATCTCAATTAGATGAAGTGAAATCATTAATAGAAGATATAATAGTAATAGAAGAAGAAAATAGGAAAATATATTTCGAAAAATTAAATAATACAAAAAATAATATTGAGAATACAGTAAAAGAGAAGCAGCTTAAAAATACTTATTTTAAAAAAGGAATTATATTTAATAAAATAGATAAAAAACAATAAAACTGTTGAAAAAACCTAAAAAAAATAGTATACTATTAATGAAGGAGTGTTTTTTCTTTACAAGGAGGTGAGAAAGGTGAAAATATCAGGTGCTTATGGAGGAGCATTATATAACATTTTAGCAGACAAAGACAAAAGTATGAAGGAACTATCAAGTGGTAAAAAATTAAATAGTGCTTCAGATGATGCTGCAGGATTAGGGATTTCTAAAAAATTAGAAGCACAATCAAAGGAATTTGCAGCAAAAATTAAAAATTATCAAACGCAAATGTCATTTTATCAAGTTGGAGATTCTGCATTAGAGCAAACAACAGATAATTTGAATAAATTAAGAGAATTGGCAGTACAATATAATAACGATACATTAAGTGATAGCGATAAAAATATAATAAAAGAACAAGCAAAACAAATTTTAGAGGATATAGATACAACTGCAAATTCTACTGAATTTAATTCTAAAAAAGTTGTAGAAGATTTTTCAAGTAATAATCTTGGAATAGAAAAAAAATCACTTTTTTCAGAAGGATTTTTGAAAAAATTGGATGAGGCATTGCAAAAAGTTACAGATAAAAGAAGTGAATTTGGAAGTGAAGTTAATAAGCTTCAAAGTGAAGTAGCAAGAACAAGAGTTGCTCATGAAAATAGTGTAGCTGCAAATTCTAGGATTGAAGATACAGATATGTTGGCTTCTATGCTAAATAATACAAAATCTCAAATATTAGAACAATCAAACTTGGCGGTAACAGCTCAAGCAAATTTATCACAACAAAGAATATTGGATATATTAAAAGATTAAGAAAAAGCAGATATTATATCTGCTTTTTTTATTTGTTAGAAAAGGATAGTGTAAATTTTTTGTAATGGAAAGAATTTCAGCATAAAGACGCAAAGGACACAGAGGTTCACAAAGAAAAAAATTTGAAACCACAGGATAAACAAAGATTAACACTGATGAATAAAAATTGTTGGATGATTATATGCATTTATCTGTGGCTAAATCCTATAATTATTTCACACTATTTTATGAAAGTATAAATTTATTCAGAAGATAAGCTACGCCATTTTTTTGAAATATGAGATTTTTCAAAGCTAAATTTTTCAGAAACCAAAAATTTAGAAAAATATTTATGCTCTACTAGATTAAAGCGTATCTTATTTTTTTATTGTTATGGAATTCTATTACTATATAATTTTTTCTTTGTGATACTTTGAGCTCTCCTTTCTTTGTGCTGAATATTATAAGTAATTTTAGTTTATCCATCTATAATATAAAAAGGAAATATGGATGTTTTGGAGTATAATATTAGTATGAAGGTTGTTATTTTGTATTAATTTAAATAGAGGTGATAAATATGTTGAAAAAAGAATTAGGATTTTGGGGAATATATTCAATGGCACTAGGAGCTATGATTAGTTCTGGATTATTTGTATTACCTGGTATAGCATATAGAGAAGTTGGGCCTATGATGATTTCATCATATATAGTAGCATCTATAATGATGATTCCAACTCTATTTAGTGAAGCAGAACTTTCTACAGCAATGCCAAAAGCTGGAGGAGATTATTTTTTTATAGATAGAAGTTTAGGAGTATTTGGAGGTACAATAGGTGGATTTGCAAATTGGTTTTTTATAAGTTTAAAAACTTCATTTGCATTTGTAGGGATAGGAGCTTTTTATGAACTTATTAATCCAAATACAAATGAATTTCAAATGAGATTAATTGCTATTAGTTTTGCAGTAGTATTTGTAATTATAAATTTATTAAGTGTAAAATTTGTAGGGAAAATAGAAGTCTTTTTAGTGTTTTGGTTGATCTTAATTTTACTCATATTTATAGTAAAAGGAGTTAATATTGTTGAAATTAATAATTTTAAAATTAATAGAGCAATAAATTTTTTTGATATAATATCTACAGCTGGGTTAGTATTTATATCATTTGGAGGAATTACTAAAATAACTAGTGTAGCAGAAGAAGTTAAAAATCCTACTAGAAATATTCCACTGGGAATGTTTTGGGCATTTATTTCAGCTACAATTTTATATATACTTAGTATTACTATAACTGTAGGAATAATGGATCCAGTAAAGTTAGCTAAGAGTTATGCTCCGTTGTCAGAAGCTTCTAAATATTTTATGGGAAATATTGGAGAAATTGTTTTATCAGTAGGAGCATTATTAGCATTTATAACAACTGGAAATGCAGGAATAATGGCAGCATCTAGATTTCCAATAGCAATGAGCAGAGATAGTATATTACCACCATATTTTTCTAATATAAGTAAAAAATTTGGGACTCCATATATTGCTATAATATCTACAGGGTTATTTATTATATCAGTTGTTCTGTTTTTAGATATAAAATCATTAGCAAAAGCAGCATCTACAATTATGTTATTATCATTTATATTTGTAAATATAGCTGTTATAATAATGAGAGAGAGTAATTTGACTAGTTATAGACCTAAATCAAAGACAAAATTATATCCATATTTACAAATAGTAGGGATTTTAGCATATATTTACGTTATTATGGAGATGGGACAAGAATCTATTGCTATATCTTTATTAGTTTTGGGCGGAGCGGCTATTTGGTATTTTGTATATGTAAAAGATAGAGCAAAACGTGAATCTGCATTAATGTATATAGTAAAAAGAACAACTTCAAAAGAATTGATAACAAGTAGTTTAGATACAGAATTAAAAGATATATTATTTGAAAGAGATAATATTATAGAGGATAGATTTGATAAGTTAATAAAAAATATGGATGTTTTAGATATTGAAGGGAAAATGGAAATGTTACCATTTTTTGAGATAGTTGCAAAAGATATGGCGGAAAAATGTAAAATTTCAGAAGAAAAAATGGTGGATTTATTAATAAAAAGAGAGGAAGAATCCCCAACTGTCATAAAAGAAGGAATTGCAATACCGCATTTAATAATACCAGGAGAAAAAGATTTTAATATGTTAGTGGTAAGGTGTAAAGAGGGAATAAATTTTTCATTAGAGAAAAAAAAGGTAAATGTTGTATTCGTTTTAGCAGGAACAAAAGATGAAAGAAACTTCCATTTAAAAGTATTAATGAATATTGCACAAATTATATCAAATGATATTTTTTTAGAAAATTTTATAAAATCTAGAAGTAAAGAAGAATTAAGAAATATATTATTGCTTTCGGAGAGAAAGAGGGGATAAAAATGAAATTTCATTTATATAAAAATGAATATAGAACTATATTAGTTATATCTATCATATCATTTATAGGAATGATGCTTATTTTAATGTTACATTTAAAATCAATGCAAGAAAGTATTAGTATAGAAGAATCACATTATTTTGAAAAAATATGGGATGATTATTTGAAAAGTGATAGTGAAAAAACTAAAAATATAAAAGATGATTTAAGGTTTTTTTATTTTATAAGAGATGGAATATATTTTAATGAAAAAAGTAAAATTTCAAAAGAAGCTGGAAAATACAAATGTTTTAAATTTAGAATTCAAAAAATAAACAGGTATAGATTAGAGTCATATTTAAAAAGTAAATATTATAAAGACGATATTTATATATCTGTATATAATAAAAATTATAAAAATATTTTTACTAATTCTAAAATAAAATATTATGATAAGTTTTTAAAAAATTTGAAATTTAAGAATGACTTTGGAGTGGTTAAAAGTTTTTTTATATTTAATAATGAATTTTATGTTAGAAACTATATATTATCATTAGATAGAAATAATATAATTGTAGTTGACTATAAAGTATCAACTTCCATATTAGAAGAGTTTTCAAATAGATATAATGTAGGTTTATTAATAGAAGATATAAATAATAAAAAAATAGTTTCTTCTATATCTAAAAATGTAAAATATAATAAAAAAAATTTAAAGGATAAATGGAATAAAGGAGAATTATTAAAGATTGAAGGAGAATGGTATTTTTTTAAAAAAGTTTCAATAAAAAATATATTAAAAAAAGAAATCGGATATTTTGTGATATTTGATTTGAAAAAAGATATAAAAAATATGAGATATGACTTAATTATGCGAACACTAATAATGCTGGCACTAATAATATTAGTAGTTATTATAATTAATAATGCTAATATTAAACTTATAAAAGATATAAAGGAAATTTTATTATATGAAGATATGAATCAAAATTATTTAAAAACAGAAGGTGAAGGGTTATTATCTATTGTTAAAAACTATAAAAATATGAGAGATAATATTGAAAAAATAATAACAGAAGAGGTTAATAAAAAGACAAAAGAGATTTCTGAGGTAAACAAAGAACTTGATATTGAAAATAATTTTTTAATAAGTCTTATAAAGTTAAAAACAGTTGAAGAAATATTATATAAATCTTATGAAATTTTGCATAATAATTGTAATATAAAAGAGATTAGATTTGTAAGTTTATTAAAAGGAAATGAACAAGCTGCAAGTTGTAAAATTGACCAAGAGGGAAAAATTATAAATGAAACTGTTTTTAATAGAGAAGAAGGGAAATTTTTAGAAGGTAATATATCTAATGGGTCAGTAATGTCTTTTAATTTAGAAAAAACGGGATTTGTATATAACTTTTTTTCTACAGAAAATATTTCTGGAGCAATGTTAAGTATTATATATAATTATGAAAATGAAGATAAAGAAAAAAGAATAGAAGAATTTGCATCTATTATAGCATTAACATTAAAAAGTGCAAAATTATATGAAATATCAATTACAGATCCTCTTACAGGAGTTAATAATAGAAGTACAATGAATTTTTATTTGAAAAAATTATTTAAAAAATCTAATAGATATAATAAAATATTTTCACTATTAATGATTGATATAGATCATTTTAAAAGAATAAATGATTCATATGGACATTTAACAGGGGATTATGTTTTGAAAGCTATTACAAAAGAGATAGATAAAGTTATTAGAGATGTGGATTCTATATTTAGATATGGAGGAGAAGAATTTTTGGTGGCAATGCCTGAAACAGAAATAAAAGAAGCTGTAATTGTAGCAGATAGAATAAGAGAAAATATAGAGAAATCTAAAATAAAATTAGAAAAATTCGTTCATGAAGATATAAGAATAACAGTAAGCATAGGTGCTGTAGAATATAATGATAAATTTAAAACGATAAAGGATGTAATAAGTGAATCAGATAAAAAGATGTATGAGGCGAAAAAAAGCGGAAGAAATAACGTTAAATATTAGTTGAATTAATAAAAACAATGTGTTATAATTTGGCTGATAATAGTAGTATTAATTTTGAATATAATTAAAATAAATATAGGGGGTAATTATGAATAAAGGATATTTGGCAATGGTATTACACGCACATCTTCCGTATGTAAGACATCCAGAATACAATGATTTTTTGGAAGAAGATTGGCTTTATGAAGCTATAACAGAAACATATATACCACTTTTAGATATGTTTGAAAAATTAACAAATGATAACATACCATGGAAAATAACTTTAACAATGTCTGGAACACTTCTAAATATGCTTGCTGATGAACTTTTACAAAATAGATATTTAAGACATTTAGATAAAATAATAGAATTAACAGAAAAAGAGGTAACAAGAGTTCAATTTCAACCTGAATTTTTAAAAACAGCACTACACAATGAAGAATATTATAAAAAAGCAAGATATTATTTTAAAGAGAAGTATAACAGAAATATAATACAAGGATTTAAGAAATTTCAAGATATAGGAAATTTAGAAATTATACCTGTAACAGCTACTCATGGATTTTTGCCTTTAATGAAAGATTATCCAGAAGCAGTAAATGCACAAGTAGAAATGGCTAAAATTGATTATAAAAGATTTTTTGATAAAGATCCAAAAGGTATGTGGCTAGCAGAGTGCGCATATTATCCTGGACAAGATAAATATTTGGAAAAACATGGGATAAGATACTTTTTTGTAGATTCTCATGGAATATTATTTGGAGATCCTAAACCTGCATATGGAGTATATTCTCCTGTGTATACTAAAAATGGAGTAGCAGCATTTGGTAGAGATATAGAATCATCAGAGCAAGTATGGAGTTCCGAAATTGGATATCCTGGCGATGGAAATTATAGAGAGTTTCATAAAGATGCTGGCTATGAATTAGAATATGAGTATATAAAGCCATATTTACATGAAGATGGAGTAAGAAGAAATATTGGAATAAAATATTACGCAATTACAGACAAAACAGGAAAAGAGAAACAACCTTATGATCCTGAAAAAGCGGCTAATAGAGCAAAGGAACACGCATATAATTTCGTAGAAAATAGAGGAAAGCAGATAGAATATTTATCACAATTTATGGAAGATAGGAAACCTATAATTGTGTCGCCATATGATGCAGAATTATACGGTCATTGGTGGTATGAAGGACCTATATTTTTAGAATGGATATTTAGAGCTATGGCAGAACAAAGTATAAGTGCTCCAATAACACCATATGGATATTTAAAAGAATATCCAAAAAACCAAGTGGTAACACCAGCAGAATCAAGTTGGGGAGCTAATGGATATTATGATGTTTGGGTAGATGAAAGCAATCATCATATTTATAGACATATACATAAGGGAATAGAAAGAATGATAGAATTAGCAAACACATATGAAAATCCAGAAGGGATATTACTTAGAGCTCTAAATCAAGCTGCAAGAGAATTAATGATGTCTCAAACATCTTGTTGGCCATTTATAATGTTTACTGGAACTATGGTAGGGTATGCAGAAAAGAAAATAAGAGATCATATAAATAGATTATACAAAATATATTTTGATATTAGAAATGGTAAAGTTGATGAAAATTGGCTTGCAGAAATAGAATATAGAGATAATATTTTCCCTGAAATAGATTATAAAGTATATAGAACAGATAGATTAAATTAAAAAAAGTAAGGGTGTTCCCTTACTTTTTGTGCTGTAAAAAATAAAGTTAAATTTTTAAAAATGGGGGCTAAATCATGGATAATATAAAAATATTAATTGTTGAAGATGATGACTTATTAAGAAGGACAATAGGGAAAATTCTAAAAAGAGAAAAATTAAATTATGGAGAGGCTTCAAATGGAAATGAGGCCATAGAGAAAGTAAATGAAGAAAATTTTGATATAGTTATTAGTGATGTTAGAATGCCAGGTATAGATGGAATAGAAACAATAACAGAGATAAAAAAATTATCACCAAATATAAAATCAATTATAATGACAGGGTTTGCTAGTGATGATACTCCTATAAAAGCTTTAAGATTAGGAGTTAATGACTATTTATATAAACCATTTGAATTAGAAGAGTTTTTACATTGTATTAATAGAAATATTGATATGATAAAATTAGAAAGAAATAATAAACAATTAAATGAGGAAAAACTGCAAAAAGAAAAATTAGCATTAATAGGAAATATGACAAGTGTAATAGTACATGATGTCAAAAATAGTTTGACTCCAATTTTAGGATTTGCAAAATTATTAGAATCAAATGAAAGTTTAGATGAGAAAGGTAAGAGATTTGCAGAAATAATTTATAATCAATCAGTAAACGTTTTGGATAAATTAAAAGAGATGCTTCAATTTGCAAGAGGTGAAATAAATATAGAGCAAAAAGAAACAGATGTAAAAGAAATTTATTTAGAGATTTTAAAAGAAAAAGAAAAAATTATTATTGATTCAGAAGTAAATTTTATTTCTAATTTTAGTGATGAATTAGAAGGAATAAAAATAAAAGTAGATATAGAAAGATTAAAGCAAGCAATAACTAATATTTTAGGAAATGCACAAGATGCAGTATCTAAATCGGAAGATAAAAATATAGAGTTGAATTTTCATAAAGAAGATGACAAATATTGTATAATAGAGATAAAAGATAGTGGAAAAGGAATACCAGATGATATAATAAATTCTATATTCATTCCATTTAAAACTTTTGGAAAGGCATATGGAACAGGGTTAGGACTTGCAATAGTAAAAGATGTAATCGATAAACATGATGGCGAAATAAAAGTAGAATCTAAAAAAGATGAATTTACAAAATTTATTATTAAGTTAAAATTAGTGTAGTGTAGGGGTGGAATATGAAAAAAATATTATTTCTATTTTTGATTTTAATATGTTCAAATATTTTTGCAAGTATAGATATATCTAATAATTGGAAATATCATTTTGAAGGTGAAGATAGTTGGAGTCAAAAAAATAGAGTGCCAATTACAGTAGTGGATAAAAAAAATAGACCTCTTATTTTAGAAAAAGAGGTAATATTTAAAAATGAGATTTTAGAAAATCAAGTGATAAATTTAGGTAAAATAGATGATGAAGATGAGGTTTATTTTAATAATATAAAAATAGGTGAAACAAAAACAAAATATTATTCTAAATATAATTATAGAAGTTATTATAATATAGATAGAACTTATCTTATACCTAAAAAGTTAATAAAGAAAAAAAATATTATAAAAATAGTTGTATATAATATGATAAATGATTATGGATTGAGAGCAGATAAAATATATATTGAAGATGAAACTGATTTTTTTAATAATGAACTTATTAACTATAAATCTAGAATAAACTTGAAAGATATGATATATTTTGTTTTAATGGGGGTATTTTTTGCTCTATTTATAAAATATATAATAGAATTTTTAGTTGACAAAAGAGAAAAATCTGATTTATATTTATCAATTATTATGTTATTATTAATGATTACAAGTTTTCTTAGATTGCCTGAAAGAGATTATGTAAGTGCACTAACATCATATTTTTATTCTAAAACAGATTTTATAGTACCTGTATTATTAATGATGGGAATTGATATTTATCTGTTTGAATTTTTCAAAATAAAACAATATAAAATAATTAGGATTGTAATATGGTCTTTAAATATTGTTACATTAAGTTTGTTAATATTTGTAAAAGATATAAAAACTATGATAATGATATTTTCTAATTGGAACATATTATTGATATTAATTTTAGGAATATATAGCTTTATTTTATTAAAGATGAAAGATAAAAACTTTGAAATGCAAATTGCAATTTTAGGGTTTATGCTTTGGATTTTGACTATTTTTATAGATATATTAAGTTTTCAAAAAATATTAGTAATTTTTAACAGTTATATAAATATTTATGGATATTTTATATTTGGAATTACTATTATAATTGGTAAAAGTAAAAATCATTATTATTTAAAAAAGATTGAAGAGAAATATAAAAAGAATTTAGAAGAAGAAGTTGAAAGGCGAACAGGAGAAATAAGGAAAGCAAATAAAAAAATTATTGAAAATTTAGAAAAATTAAGAGAAAAAGATAAACAATTAATTAAAAGTGAAAAATTAGCAACAATTGGAGAAATGGCAGGGCAAATAACACATGAAATAAAAAATCCATTAGGAGCTATATTAACAAATGTCCAATTATTAAAATTGGATATGGAAGATATAAAAGAGGTAGAAACAAAAGAAGAGTTAGAGGAAAGTGTAATAATAATAGAAAAAGCTACTAAACAAGCTAGAGAAATAATAGTTAATATGTTAGATTATGTAAGAGGAACAGGAGATAAAAAAGTTATTGATTTGAATCATTCAATAAAATCAGCAATAGCAATTTTGAAAAAAGATTTTGAAAAAAGCAATGTAGTTATAGAGACAGAATTTGAAAAAGATTTACAGATACTTGCAAAATCAGGAGAAATAATACAGGTAATATTAAATATATTATTAAATGCTAAAGATGCAATATTGGAAAAAAATAAAAAAGGTGGAAAAATAATAATAAAAAATTATAAAAAAGATGATAGTGTAATACTAGAAATATCTGATAATGGAATTGGAATGAGTGATGAAATAAAAGAAAAAATGTTTGAACAATATTTTACTACAAAAGAAGAAGGGCAAGGAACTGGAATCGGAATGGCTGTCACAAAAATAATATTAGATAATCATAATGCAAAAGTAAAAATAGAGAGTGAATATGGAGAAGGAACGAAGTTTGTAATAGAATTTGAAAAGATAATGGATAATTAAAATTGATAATTTACAATAAAAAAAAGAAATAAATAATAGAAAGGGTGATTTTTAATTGGAGACAAAAGTTTATGTAAACCCTCTTGTTGAGAGGTATGGCTCAAAAGAGATGCTTTATAATTTTTCACATGACAAGAAATTTTCTACATGGAGAAAATTATGGATTGTACTTGCAGAAGGAGAAAAAGAGTTAGGATTACAAATTACAGATGAGCAAATAAGTGAAATGAAAAAGTATGAAAAGAAGATTAATTATGATGTAGCAAGAGCAAGAGAGAAAGAGGTGCGTCATGATGTAATGGCACATGTACATGCATTTGGAGAGCAAGTTCCAAACGCTCGTGGAATAATTCATTTAGGTGCTACTAGTGCTTACGTTGGAGATAATACAGATTTAGTGCAAATAGCTGATGGATTAAAAATTGTAAAGAAAAAAATGATTAATGTAATGAATTATCTAAAAAAAGTTGCGTTAGATTATAAAGATATGCCAACGCTTGGATTTACACATTTTCAACCAGCACAACTTACAACAGTTGGGAAAAGGGCAACTTTATGGTTACAAAGTATTATGCTTGATTTTGAAGAGCTTGAATTTAGAGAAAAAACATTAAGATTTAGAGGAGTAAAAGGTACAACTGGAACACAAGCTAGTTTTTTAGAACTGTTTAATGGCGATGAAGAAAAAGTAAAAGAATTAGATAAAAAAGTATCTGAAAAGATGGGATTTGAAAATAGATTTGGTGTATCTGGTCAAACATATGATAGGAAAGTGGATAGTCAAACATTGGCTCTTTTATCTCAAATTGCACAATCAGCACATAAGTTTAGTAATGATTTAAGATTATTACAACATTTAAAAGAAGTAGAAGAACCATTTGAAAAGAAACAAATTGGATCTAGCGCAATGGCATACAAAAGGAATCCTATGAGAAGTGAGAGAATAGCCTCTCTTAGTAGATTTGTAATGACATTAGTAGAAGGATTATCTTTTACTGCATCAACACAATGGTTTGAAAGAACTTTAGATGATTCAGCAAATAAGAGATTGTCAATCCCGCAAGCATTTTTAGCTGTGGATTCAATACTTACAATTTGGGCTAATATACTTGATGGAATAGTAATATATCCAAAAATGATAGAAAAACATATAAATGCAGAGCTTCCATTTATGGCTACTGAATATATAATAATGGAAGGTGTGAAAAAAGGTGGAGATAGACAAGAATTACATGAGAGAATAAGAGTTCATTCTATGGAAGCTGCAAAACAAGTTAAGATAGAAGGAAAAGAAAATGATCTAATAGAGAGAATATTAAAAGATGATTATTTTAATATTGATAAAAAAAGATTGGTAGATATACTAGATCCTAAGAATTTTATAGGAATGGCACAAAAACAAACAGAAGATTTTATAAAAAATGAGGTTGATCCAATTCTTGAAGCAAATAAAGAGCTTATAGGAATGGAATTTGATCTAAAAGTTTAGGAGTGATTTTTTATGGAAAATATAAAAACTCTTTTAGATACTATGGAATTAATACATTACATAGAAAAATATAAAAATAAAATATTAATATTTGTAGTAACAGGTAAAGTTTATATCAGGGATATTATCCCTGATATAATTATTTTGCAAAGTTTTAATATAAAAGTAATGTTAGTTATAGGCTATAGTGAGAAGATTAAAAAATATAATATAAGTGAGCTAAAGAATGAAATGTCAGAGATAGTTTTGGAAATATCTTCAATGTTAAAAAAGAATAATTTGGATCCAATGCCTTCAATAGGGACAGAGGTATTTGCAAAAGATATAAAAACTTCTGAATATAAAAAAGTAAGTGGATTTGACATAGAGACTTTTGAATTTGCATTAAAAAATAATAAAATTCCAATTATTGCACCAATAGGTATGAATGCTAGAGGTAAATATTTGAAATTAGATGAAAAAGATGTAGCAATGGAATTAGGAATTTCATTTAAAGCGAGCACAGTTTTTTTTATAAGTGAAGTTGATGGAGTGATTTTAAATGGTAATAGAATGCAATTTTTAACATATAAGGATGCAAAGAAAATTTTAGCAAACGGTGTTATTGATAAAAATATAAAAGAAATTATGTCGTATGGTGTACAATTGATAGAAAAAGGTATAAAAGAATTTTCCATATTAGAAGGGAAAACTGGAAATATATATAAAGAGGTATTAACTTATGATATATCGGGGACTTTAATTAGTAAAGGCGATGATGAAATTATAAGATTTGCAGATATAGAAGATGTACCTTCAATATATTTGTTAATAAAGAATGAAATGACTAAAAATAATATATTACCGATTACAGAAGATAATATAGAAAATGCAGTAGATGATTATATTGTGTATGAAATAGATAGTAGTATAGTTGCAGCTGGAAAGTTGAATTATTATGAAAATGTAGGAGAAATTGCTAAAATAGTAACATTACCAAGATATCAAGGTGGGAAAAAAGCAAAATCAGTATGTTTAGCTTTAATAGAAAAGGCGAAATCAGAAAAACTTGATTATGTTTTTGGACTTACAGTAAATGAAAGTATGATGAAACTTTTTAGAAAATTAGGATTTGTTGAAGTGAAAAGAGAGAGTTTTCCAGAAGAGTGGAAAAGGCAATATGACTTTGAAAGGCCATCGAAAGGATTTAGATTAAATTTGAATTTGTGAGAAAGTTTTGGTTAAGATTATAAGGAGATATAGTGTGATTAATTATGAAAAAAAGTGAGAAAAAGAGAGTAGCATATCAAATAACTTTAATATTAATGGCACTATATTTTTCCTTATTAGAAAGTATGATTCCAAAGCCATTTCCGTGGATGAGAATAGGTTTATCTAATATAGCTACATTAATTGGAATAGAAAAATTTGGTGTTAATTTTGGAATAGAAATAGTTATACTTAGAATATTTATAAATAGTTTTATGTTAGGGACTATGTTTACTCCAAATTTTTTTATTAGTTTAGGAGCTGGATTTGTTACTGTGATTATAATGGGCGGATTATTTAAATTTAGGAAATATCTATCATTAATATCCATAAGTGGAGTAGCAGGATTAGTTCACAATTTCATTCAATTAATAATAGTTTATTTTTTACTTTTTAGAAATATATCTATTTTTGAAAGAGAAATTTTTATATTTATACTATTTTTTATTGTAATGGGATTTATTTCAGGAGCAATAGTTGGGTTTTTTGCTGAAAAATATAGGGTGTAATTTTTTTACTTTTTAAAGTTTGGGAACGTTTAAAAAATAATGTTCTCATATTTGTTCATAAAAAGGCTAGAAACATTGCCTATTTTATAAACAAATGGGTAAGTTATTTTTAAGCCGTTCCTTGGTAATATTTTATAATAGGAGGGACAATAAAATGGCAGCAGTTAGAAAAATAAAAGAAAAATATACATATGAAAATTATAAAAATTGGAAAGATAGTGAAGATTGGGAAATAATAGGCGGGAAAGTATATTCAATGTCGCCAAGCCCAAATAGAAAGCATCAAGAAATTGCTAGTAAAATACATGGGAAAATATTTAGATATTTGGAAGGTAAAAAATGTAAAGTATATTACGAATTAGATGTATTGTTGTCAGAAGAAGATATAGTAAAACCAGATATATTAGTAGTTTGTGATGAAAATAAATTAACAGATAAAAATATAAATGGAGCACCTGATTTGGTGATAGAAATATTATCTCCAAGTACAGCTAAAAGAGATAAAGTTTTAAAATATGAATTATACAAAAAAAGTGGAGTAAAAGAATATTGGATAGTAGATCCATATAATTTATCAATAGATGTACACAATTTTAAAGATGAAAAAGTTTCTCATTATTTTTATGAAGATACTCTTGAAAATTTTAAAGAGAAAGAGCAAGAATGTGAAAATGAGAAAGAAAAAAAAGAAAATATTTTAGAAGTAGGAATATTTAATGGAGAACTAAAATTAGATGTAAATTATCTATTTGAAGATTAAAAAATTAAAAAAATAAAAGCAGATATAAAAAACAAAAACATTGGAGGAAAAATATAAGATGGGTAGAAAATATTTTGGAACAGACGGAATAAGAGGAGAAGCAAATATAGAATTAACTCCGGAATTAGCAATGGATTTAGGATTTGCATTAGGGTATTATTTAACAAAAAAATCAAATGGAAAAACCCCTAAAGTTATATTAGGGACAGATACAAGAGTTTCTGGATATATGTTAAGATCATCAATTTTTGCAGGATTAACTTCAATGGGAGTTAATATAGATTTTGTAGGAGTATTGCCAACTCCTGGAGTAGCATATATTACAAAGCAATCAAAAGCAGATGCAGGAATTATGATATCAGCTTCTCATAATCCAGCAAAAGATAATGGAATAAAAATATTTAGTAGTGATGGGTATAAATTACCTGATAGTGTAGAGGAAGAGTTAGAAAATTTAATAGATAGTGCTAGTGAATTAAAAAAATATAGAAAATCAGGAGATGAAGTTGGGAAATTTAGATATTCAGAAGATGATTTTTATATTTATCAAGATTTTTTATTATCTACAGTAAAAAATAATTTTAAAGGGATGAAAATAATTTTGGATACTGCTAATGGAGCTTCTTATAGAATTGCACCGAGAGTATTTTATGAACTTGGAGCAGAAATAGTTGCTATAAATAATATTCCAAATGGTAGAAATATAAATGTAAAATGTGGCTCTACAGATATGGGGATTTTGCAAAAAGTTGTTTTGGGATATAATGCAGATTTAGGATTAGCTTTTGATGGAGATGCTGATAGACTATTAGCAGTAGATCATACAGGAAAAATAATTGATGGAGATAAAATAATTGCAGCAATAGTTAAGAAATTTAAAGCAGAGGGTAAATTAAATAAAAATAAAGTGGTAACAACAACAATGAGTAACATGGGATTTGAAAAACATTTAAAAGATAATGGAATAGAGTTAATAAGAGCACAAGTTGGAGATAGATATGTATTAGAAAAAATGAAAGAGGATAATTTGAATATAGGTGGAGAACAATCAGGGCATATAATATTTTTAGACTATAATACTACTGGAGACGGTATTCTTACAGCATTACAACTTGTGGATGCTTTGAAAGAACAAAAAAAGAGTTTACATGATTTGGTAAAAGATATAGAAGAATACCCTCAAACAATGATAAATGTAAAAGTATCAAATGAAAAAAAGAGAAGTTGGCATGAAAATAAAGATATAATAGAATTTATAGATAAAAAAGAGAAAGAGATGAATGGAAATGGAAGGGTTATAGTAAGGCCATCTGGAACAGAACCATTAATAAGAGTTATGGTAGAAGGGAATAGTATGGATATGGTTGTAACTGTGGCTCAAGAAATTGCGGATTTAATAGAGAATAAGTTGAGTTGAAAAATAATTGAAGAAAAAGGAGACAACGCAGAGGCGCAGAGTTATCAGAGTGACACAGAGATAACAGTATTATTGAAGCAAATAATATTGTTTAGGAATAGCTTTAAAAAGAACTTTCCAATTTTATTTATTTTATACACAGAATTGTAACAGTTTTTTTAGGAGATGTTAAAATGAGATTTTCAAAAGAATTCTATTTAGATAATGCAGTAAGTTTAGCTAAAAAATTATTAGGGCAATATATTGTAAGAAGAATAGATGGGAAAGAGATTATAGTAAAGATAGTGGAAACAGAGGCATATGTAGGACCTGAAGATAAAGGATGTCATGCGTATAATAATAGGAGAACAAAGAGAACAGAATCAATGTTTTTAGAAGGTGGATATGCTTATGTGTATATTATTTATGGGATGTATTATTGCTTAAATATTGTAACGGCCAAAGAGGATAAACCCGAGGCAGTATTAATAAGAGCAGTAGAACCCATAAGCGGTCTAGAATACATAAAAGAGAATAGAAAAATAAAATCAACAAAGATTGAAGAGTTAACAAATGGGCCTGGTAAATTGTGTAAGGCTTTAAATATAAATAAATCATTAGATAAGTATAATTTAGTAACTGGCGAAGAACTGTTTGTTATGAAAAATGAAAATATTGAAAAAGAAAAAGTAGTGGAAAAAATAGCTGAAAGTAAAAGAATTAATATTGATTATGCAGAAGAGTATACAGAAAAATTATGGAGATTTTATATAAAAGGAAATAAGTTTGTTTCTAAAAATAAGGTTAAAAATTAGATAATTTTGTCTAATGGTAACTTAGAAATAGCTTTAAAATACGCAAAATTCCTAAAAATATATTGACAGACTATTCGTATTGTGATATTATAATATTCGAATGACGTAATATAAAAAAATAGGAGGAATCAAATGAAAAAAGCAGTTATAGTAGAAGCAAGATGTGACAGATCACCATTTTGTCCAGCTAAGAGAGCTTGTCCAACAAAAGCAATTGAAGCAAAAAAAAATAGTAATAAAGAATCAGGATTTTTCGGATTATTTGGAGGTTCGCCTTCAGGATATGAAGTTAATTCAGAAAAGTGTACTGGATGTAGCATTTGTTTAAATTATTGTCCAATGGGAGCAATAGATATAAAATAATTATTAAAAGGTTTTAAAAAAATGGGAGATGAAATTTATCATCTCCCATTTTTTTAATTTACTAGGAAAGTATAAATTTGTCTAGAAAATAAGCTACGCCATTTTTTTGAAATATGCGATTTTTCAAAGCGAAATTTTTCAGAAGCCAAAAATTTTGAAAAACATTTATGTTCTACCAGATGAAGCGTAGCTTATTTTTTAATAAAATTTTTTATATTGCATTTTCATCCTTTTCACCAGTTCTAATCCTAACTACATTTTCAATATTAGAAATGAAAATTTTTCCATCTCCTATTTGACCAGTTTTAGAATTGGACATGATTATTTTTGTTATTTTATTAACTGCTAAATCATTTGCAACTATTTCTAATTTTATTTTAGGTAAAAAATCAATTTTGTATTCTGCACCCCTAAATATTTCAGTTTGACCTTTCTGTCTTCCGAAACCTCTTACTTCTGTAATTGTAATACCTTTTACTCCTGCTTCGCTTAAAGCTTCTTTTACATCAGTTAATTTTACAGGTTTGATAATAGCTTCAATTTTTTTCATTTAAAATCCACTCCTTTTTTTAATCTTTAGCCACTAATTTACACTACTCTTCACTTATAAATTATATGAATTTTATTAGTGTTAATTGGTGGCTAATTTTTATTTTTTATTTTTGATCACATCTTATTATATAATCCTAAATTTTTATTTTCTATTTAAATAGGTCACTTGTATAATGTGATTGGAATTCTGGATAAGCAGAATATCCATGTTCAGCTTTATCAAGTCCAATTAATTCATCTTCAGCACTAACTCTAAGTCCTGCTATTTTGTCTATTAAAATAAATAGAATGAATCCAGTAATTAAAGCATATGTAACAACAGAAACAGCTCCAATTAGTTGAGTTAAAAAACTATATTCTTTAGTGAATAATCCAACGGCTAAAGTTCCCCATACTCCATTTATTCCATGAACTGAAACAGCCCCAACAGGATCATCTATTTTTAATTTATCAAAGAACGGTACTGCAAGTGATACAAATAAACCTGCAAACAGTCCAACTATTATAGCACTTCCAGGAGACAAAGCATCTGCTCCAGCAGTTACTGCTACAAGTCCAGCTAATGCACCATTAAGAGTCATACCTAAATCGACAAGTTTTGTTCTAAATGCTGAATATAACATAGCCATAACTGTTCCAGCAGCACCACCTAAAGTGGTATTTAAAAATACTATTGCAATACTTCCATCACCAGTTAAAGTAGAACCTCCATTAAATCCATACCATCCAAACCAAAGAATAAATGTTCCAAGTACAGCTAAAGGGATATTGTGTCCTGGTATCGCATTAACAGTTCCATCTTTTTTAAATTTACCAAATCTTGGTCCAAGTACAACTGCTCCAGTAAATGCTAACCATCCACCTAAAGCATGTATGACTGTAGAACCTGCAAAATCATGAAAATTCATTGCTGCAAGCCAACCATCACTGCTCCAAGCCCAATGTCCAAATATAGGATAAATAAATCCTGCAATAACAGCACTTGCTATTACATATCCAGTTAATTTTATTCTTTCTGCGACTGCTCCAGATACAATTGTTGCTGCTGCTCCAGCAAACATAACTTGGAATACCCAAAACATAATTCCAGCATTATCTCCATTTGTAATATAATCACTTAATAAAAAATTTGTAGTTCCAATAAAACTACCTTTTCCAAACATAAATGCAAATCCAAACATAAAAAAGATTAAACTTCCAACTGCAAAATCTAAAATTCCTTTTGTAGCAACATTAACAGAATTTTTGGCTCTTGTAAATCCTGATTCTAATGCAATAAATCCAACTTGCATAAACATAACTAAACCACTAGCTACTCCTAACCATACTAAATTCAAATTACTTTGCGTTGTAGGTGCTTGTGCAGCACTAGCGACGTTTGATAAAAAAATAAAAACTCCTAAACTACTAAATACTTTTTTCATTGTAAAAACCTCCTGATATTTATTAAGAATGTTTAAAAAATAATTTTTTCATGATAAACATCTCTGTAAAATTGATACTTGAATTATAGCAAGAAATATTGTATAATTCAAATATATCTTTTTAATAATTAACATATACGAAATATATAGGAGGCTGATGAAATGGATTTACATCATTTAAAAATTTTTTATTATGTGGCAACAGAAAAAAGCTTTACTAAAGCAGCTAATAAATTATATATAAACCAATCTGCAGTATCTATTCAAATAAAAAAATTTGAAGATAATTTAGGGGTTAAGCTTTTTGACAGAAGTGAAAAAAAAATAAAATTAACTTATGCAGGAGATACATTATTTAAAATAGCAGATGATATATTTAAAAATGTAAAAAGGGCAGAAAAAGAGATAGAAAAAGTTGTATCGGACCAAAAAGGTAAATTAGTTATAGGGGCTACCCATATAATAGGAGAACCATTATTACCTAAAATTATTATGGAAATTAAAGAAAGTTACCCTGGTATGGAATTTGAAATACATATACAAGAAAGAGATATTTTATTAGATATGTTAAAAGAGGGGAATGTGGATATTGTTTTAATGGGAGATTTTTTTATAAATGATAAAAGTTATTCTATAATCCCAATAGCAGATTATCCATTTATATTGATAAATAAATATAATATTGAAGATAAAAATGATTTGGAGAAAATACCTTTAATAAGTAGAGATGACAGTTTAATTTTGGAAAAAAATCTTGTTACTTTAGAAAGGAAATACAATATTCAGATAAAAAATAGATTTAAAGTTAATGGAAGTATAGAAACAGTTAAAAATCTTGTGATAGAGGGAATCGGATATACAATATTACCATATTATTGTGTATATAAAGAGATAAAAAATAAAGAATTACAAGTTGTAGAAAATTTTGATAAATTTAAAATAGGATATCAAGCTGTAATATTAAGAGATAGAATGAAAGATATAGATTTGATAAAGTTTATTGATTTTATAAAATTGTTTAAGATAGAAAAAGAGTTATAGAGTGAGGGGAGAATTTAGGTTGTCTCATTAAATTAAGAATATTTAAAAAAATAAAAGATTCAGCACAAAGAAAGGAGAACGCAAAGTATCTCAAAGAGTAATTCATATAGAAATAGAATTCATTTTTACCAAAATAAGAACAAATTTATACTTTATTAATTAGCAAAAAAAATATTTTCTTACTGTTTCTTAGTGAACTTTGAGTCTTTGTGCTGAGTGAATTAGTGTTTATAGCATTTATTCTGTATTGTCAGTTTTTCTTAACTTGATAATATTAAGGAGTTTGTTATATTTAAGAATGGAAAGCATAGACATAATTTTTTAATGTATTTAAGTAGTGATAGTATTGTGAAAAAAGCTACCTTGAAAAATAGATAAAATTATGATAAAATATAAAAATTAGAGGATAGTTAAAAAAATAGATTTTAAATGTTTTTAAGAGTATCTGTTTTTTATTTTGAAATAACTATTTAAAAAATATTTTAGGAGGGATGAAATTGTCAGGACATAGTAAATGGGCGAATATTCAACATAGAAAAGGTAGACAAGATGCTAAGAGAGGTAAAATGTTTACTAAAATGGCAAAAGAGTTGACAATTGCAGCTAAAGAAGCAGGGGGAAATATAGAATTTAACCCTAGACTAAGATTAGCGGTAGATAAAGCAAAAGGTGCAAATATGCCAAAAGATAATATAGAGAGAGCTATAAAAAAAGGAACTGGTGAATTAGAAGGGGTAGAATATCTTGAAATAAGATATGAAGGTTATGGTCCAGCAGGAGTGGCTATAATTGTAGATGCAGTTACAGATAATAAAAATAGAACAGCTTCTTCTGTAAGAAGTATTTTTTCTAAAAGTGGTGGAAACTTAGGAGAAACAGGAGTAGTAGGTTGGATGTTTGATAGAAAAGGTGTTATAACTTTTGATGCAAGTAAAGTAACAGAAGATGAAGTTATGGAAGTAGCCTTAGATGCAGGGGCAGAGGATGTAGTTACTGAAGAAACAGAAATTACAGTATTGACAGAACCAGATGATTATGAAAATGTAAAAAAAGCTATTGATGATGCTGGATTAAAATATGAAGATGCAGAATTAACATTTCATCCACAAAATACAGTAGATGTGACAGATGAAGAAAATGCAACTAAAGTATTAAAACTTATAGATAAACTTGAAGAAGATGATGATGTACAAGAGGTTTATTCTAATTTTAATATATCAGATGAATTATTAGAAAAAATAGTATTTTAATAAATAAAAAAAAAAAGAATGTCAGGATAATATATATTATCCTGACATTCTTTTTTTTTGCAATAGGAAAATATAAGTCTATTCAGAAAATAAGCTACATCTTTTTTTTGAAATATGCGATTTTGTTAAATTTTTTAGAAATTAAAAATTTAGAAAAACATTTATGCGTTATCAGAGGAAGCTTAGTTTATTTTAAACATTCTAAAGATTATTTTATCCCTTTGTTTATCTCTTCATTTCTTTGTCTTGATACAAAGAAACGAAGCAAAGAAAAATCAAGAAGCTAAAAAACTCGTTCGCTTTAGAGGAGGACGCTCTCTCAGACAGTTTTAGCTTCGGGAGATTTTATGAGAAAAAAGCTATAAATCTCTTAATAGATTTATCTTTAAAGTTATATTGATTATATTGGGAACGTTTAAAAAATAAGTTTCTCATTTTTTGTTATAAAAACGCTTAAACCATTGTGTATTTTAAAACAAAATCGGAAGGTTATTTTTAAGCCGTTCCTTATTAATTTCTATTGTTTTCTTTTTCGCTTTTTTCTCATAAAATCTTTTTTATTTTTATTTTGAAGAAACTTTATGATTTTGAGTTTTTTTGGTATTCATTTGAGATAGTCATACACCTTTATATCATAATTGGATAAATCACTTTGTTTCTTTAATTTTTATAAAGTTCATTAATAAGATAAATAAAATATAAAATTAAGGAAAAATTAAGAATTAGTTAAAATTAAATTAATATGAATAGAGTATAATTAGTTTAAGAAAAAATAAAAAAAGGAGGAAAAACAAAATGAAGAAAAAAATACTATTTTTACTATTTACATTTATGGTAGGGAATTTGTATTCAATGGAAATAACTTTACAAGAAGCAATTAGAAAAGGGGTGAGTGAAAATGTAAATGTTAAAAATGAAAAAATAACACAAGAAAATACAGAAATAATGAAAAAACAAGCAATCAAAACTGCATTACCAAAAGTGAAATTGACAAGTAGTTATACAAAATTTGAAAATCCAATGAATCCAATGGATAAAAATTCAGATAATATGTATGGAAATAAAATATCAATAGAGCAACCTATTTTTACTGGTGGTAAAATATTAATTGGAATAGATACAGCAGATTTATTAGGAAAACAAGGTAATTATTTATTGGAGAAAAAAGAAAAAGATGCAGAGTTAGAGATAACAAAATCATATATAACAATTTTAAAATTAGAAAAAAATAGAGAGGTTTTAAAGGATTCGTTGGAACAATTAAAAGAAACATATAAAATGATTAATGCACAATATAAATTGAATTTGATAACAAAGACTCCACTATTGGAGATTGATTATACAATGACAAATTTAGATAGTCAATTATTAGAATTAGAAAAAGGGATAAAAATATCTAAAGCAAATTTAAAAAGATTAATTGGAATGGCTAATAGTGAAACTATAGAATTAAAAGATATTTCAATAAAAGAAAATCAAGAAAAAATATTAAATATAGATGAAGGGATAAAAATCGCTAAAGAAAATGGAACAGATGTAAAGCTTGTAAAAATAGGAACAGAATTTCAAGAGATGAATACAAAATTAAAAAGAGCGGATCTATTTCCAACAATAGCTTTTAATTTTGGAATAGAAAATAGTTCTACAGATATAGAAGGAATAAAAGATAAATGGAATTGGTCAGGAACAATTATGTTTAGTTATAATCTATTTGATTTTGGAAATAGTCAAGATGAATATAGGAAATCAAAAAATGAGCTGAAAATTTCTAAAAATAGTGAAAAGAACAGCTTAGAACAATTAGAAATTGGAATTAGAAACAGTTATTATGAATTGGAAATTTCTAAAAAGTTAATTAAAGCAAAAGAACAAGCATTGGCGAGTTCAAAAGAACAATATGAATTAGATAAAGGGCGTCATATAGCAGGATTAATAACTACAACAGATTTTTTGAAATCAGAAAATAATTTAAGACAATCAGAAATTAATTTGATAAATGCAAGATTAGATTATTATTTAGCTGAAAAAACATATGAAAATAAAATAAAATAAAAAATAGGAGGATGTTAAAAATGAAAAAAAGTAAATTAATTATAGGAGCAATATTAATAATATCTATAGGTGTAGTGTCAAGTGGATTTGGGAAAAAAGCTCCAGCAACTACAGCTGTAGTGAAAAAGGAAACTAAAAAATCGGTAAAAGTAGAAATAGTAAAAACACAAAAAATACAAAAAAAAGTTGTTACAAATGGGCAAACAGAACCACTATTAGAAGTGAAACAATCATCTAAGATTGGCGGAGAAATTTCAGATATTTTAGTGAAAAATGGAGATTATGTAAAAAAAGATGATGTGATTTTAAAATTAGATAATGATAGAATAGAGGCAAATTATAAAACAGCTAAAGCAAACTATTTAATGGCTAAAAGTAATTATGAAAGAGTAAATCTTTTTTCTAAATCTGAAAATATAAGAAAATTAGAACAAGCAGAAGCAGGGGTTACAAGTGCAAAAATGAAACTTGAAAAAGCTTTAAAAGGAGCAGATAAAGAAGAGATATCAAATGCAGAATCAAGAGTAAAAATAGCTGAAAGTAATTATAATTTAATAAAAAATTTATATGAAAAAAACAGACAATTATATAAAGAAAATTTAATTTCAGAGCAAGGTTTTATGGACATTGAAAATAAATATGAAAATGCTAAAAATTCATATGAAACAGCTAAAAGGAATTTGATTTTAATTAAAAAAGGAGCAGATGAGGAGGATATTACCTCTTTAAGGGCTAATTTACAAAATGCAGAACAATCATATGAGCTGTTAAAGAAATATGTTGATAATAAAATTTGGGAATATGAAATTACAAATAGTAGAGCTAGTTATTTAACAGCAAAAGCAAATTATGAATTAATGCAAAAACAATATGATGATTTAACTGTAAATGCTAAAATAAGTGGAGTAATTACTAATATGAATTTGGATAAGTATGGTCAAGTAAAGGCAGAAGGCAAAATTCCAATGTTTAGTGTAATTAATACAAGTGAAATGATAGTAGAAGTAGGAATTTCGGGGAAAGATTTTATGGATTTGGAGAAAAAAGATAAAGTTAGAATTTATATAGAAGATTTAGATAAATGGTATAATGGAGAAGTTTATGAGATGAATCCATCAGCTTCAGAAGGAACAGATAAATTTAAAGTGAAAATTAAATTAAAAAATCCTGATAATAGAATTCAAGTGGGAATGTATGTAAAAGCAGAAATTGATACAAAAACAATAAATGGAATATTAGTTCCGAAAAAAGCAATTGTAATTGATAATTTATCTAAATATATATTTATAAGTGAAAATGGAAAAGCTAAAAAAATGAGAGTTGAAACAGGAATAGAAAATGGAAATAATATTGAAATTTTGTCAAAGAATATTAAAGCTGGAGATGAAATTATAATAGAAGGTCAATATACATTAGAGAACAATAGTTTAATAAATGAGGTGAAATAGATGAAATTAGTAGAATTTTCAATAAAAAGACCTGTTGCTATGACAATGATTATAATAACAATGTTAGTAGCAGGAGTTATAGCAATGTTAAATATGTCTGCTGAATTAATGCCAGATTTTGATATGCCAATTGTTTCAGTAAAAACAACTTGGGTAGGAGCTTCTCCTGAAGATATGGATAAATTAGTAACAGAAAAAATTGAAGATGCTCTTTCTGGAATAGATGGAGTAGATAAAGTTACTTCATATTCAGGTCAAAATTATTCATATGTAATTGTAGAATTTGATTATGGAGTAGATACTGATAAAAAAGTTGATTTAATTCAAAATGAAGTTAGCAAAATAAGAGGCAAGTTACCAAGTGATATAACTGATCCATATGTAACAAAGATGGATGTAACTGGTGGAACTGGAGTAGCAACAGTTGAAATGAGTGGAGCAGATTTGATGGAATTAAAAGGAATTGCGGACAATACAATAAAGCCTAGATTACAGCAAATTAAAGGAGTCGGAAGTGTAGAAGTAAGTGGCGGATTGGAAAAACGGATATTAATAGAGATTGATCCAAATAGATTAGCAAATTACAATATGGATGTTAGCAGTGTTGTAAATATATTAAAAGCTTCAAATATAAATATCCCTGGTGGAATGGTTTATGAAGGGGATAAAGAGATGTTAATTAGAGTAATGGGAGAAATTAAAACTTTAGAACAAGTAAAAAATATAGTGATTAGCAACAAAAATAATGAGATATTGAGATTAAAAGATATATGTAATGTAAATTTAACTACTAAAAAAAGAGAAACTTATAGTAGATTAAATGGAAAAACAGTATTATCTTTAAATATTAAAAAGACAAAAGATGGAAATGCAGTTGAAATTGTTAAAAAGTTAAAAGAAGAATTAAAAGATATGAAAAATTATATATCGTCGGATATAGATTTAAAAATAAGTTATGATTCTTCAAAAGAGATAGGAGATTCTATTAATACTGTGGTAAATAATGGATTAACTGGATTAGTTTTGGCTGCGATTATATTATTACTATTCTTAAAAAATATGAGAACAAGTGGAATTGTAGCAATGGCTATACCAACTTCGATAATCTTTGCAGTTTTTTTATTAAAGGTAAAAGGGGTATCATTAAATAGAATATCACTACTTGGATTAGCTTTGGGCGTTGGAATGGTTGTGGATAATTCTATAGTTGTTATTGATAATATATATAGGAAAATAACAGAAGAGGGAGAAAAAGTATTTGAAGCTGTAAGAGATGGAGCTTCTGAAATGGCTGTGCCTATAATTGCTTCTACAGCAACTTCAGTGGCAGTATTTGCTCCAATATTATTTACAAATGGAATGGCAAAAGAGATATTTCAAGATTTAGCTTATTCAATAATATTTTCATTATTAGCTTCTATAATAATAGCATTAACTTTTGTACCTATGGTAGCTTCTAAAATATTAAAAAGTGGAGAGAAAAAAGATTTTGATGGTAAATTATTTACAAAAGTGAAATTTGGATATCATAAGTTACTGGATAGTGCATTAAAACATAAAGCTATAACATTATTTATAACAGGAATAGTTTTCTTTGGAGCTATATTTTTCGGAGTTAAAAATATAGAGATGGAGTTTATGCCAAAAGTTGATAATGCTCAATATAATGTTACAGCTGAATTACCAAAAGGGTTAGATATAGAAAAAGCAAATAGAATAGCTTATCAAATGGAAAAAATAGTAAAAAATGATAAAAATACAATACAATATGCAACAGTAGTAAAAAAAGATGAAGTTAATATAAATGTTGATGTAATTAAGAAAAATAAAAGAAGAGAATCAATAGATGAAATAACTAAAAGAATGAGAGAAAAGTTAAAAGTGATTCCAGATGCAAAAATGAAATTTAGTTTAGGTTTTGGACCAAGTGGTGGAGATATTCAATTACAATTATTAGGAAGAAATCAAAAAATATTAGTTGATGTTTCAAATGAAATAAAAAATAAGATGAGATCAATTGATGGATTTACAGATGTAAAATCTTCTTTTGAAGGTGGAAATCCAGAAGGTAAAATAGTAATAGATAGAACAAAAGCACAATATTATGGATTAAGAGTTGCTCAAATTAACCAGATAATAAGTTATCAAATTTTGGGAACAGAACCATTTACAATAAAAACAGATGATGAAGAGGTAGATGTTAGCGTACAATTAATGAAGAAGTATAAAAATTCAAGTGAAAAATTAATGGAGATGAGAATAAAAACTCCAACTGGAAAAACAATACAATTAAAAGATATAGCAGAGCTAAAAGTAGAAGAAGGTCCATCTGAAATAGTAAAAGAAAATAAAATAAAAAAAATTACTCTATCTGCAAATAGCTCTACAATGGCATTAAAAACAGCTGAAAAACAGATAAAAGAAGTGATAAATAATATGGAACTTCCTAAAGGAGTTACTTATAAATTTGGTGGAGAAAGTGAACAATTTTCAAAAGTGATGAAAGACTTAACCATAGCATTAGCATTAGCTATATTCTTAATATATTTCATTTTGGCTACACAATTTGAATCATTTATATTACCGCTTATAGTAATGGGAACTTTGCCACTATCTGTAATTGGGATAATAATAGGACTTGTAATAACTGGAACTAATTTTAGTATGATGGTAATGATTGGAATAATAATGTTAGCGGGAATAGTTGTAAATAATGCAATAGTATTAATAGACTATATACATTCGTTAAGGGAAAAAGGGGTAGAATTAGTAGAAGCTATTAAAAAAGGTGGAGAAACTAGACTAAGACCTATACTAATGACAACATTTACAACAATATTTGGGATGATTCCATTAGCTTTAGGAATAGGAGAAGGTTCAGAATTTTTTAAAGGAATGGCAATTTCAGTAATATTTGGATTAGGGTTTGCAACGTTATTGACATTAGTAGTGATTCCTGTAATGTATTCAATAGTTGAAGGGATTAAGGAAAAAAGGAAAATAAGAAAAGAAATAAAATAAATTTACACACACTCTCTCCCTTTTTCCGATTTGGGTTTCCATTTTGGAGGAAGGGAGTTTTTATTTGAGATATTTAATTAGAAAATAAAGATAGAAAAAATTAGAAAAATAAGCTAGAATAGTAGTAAGGGCAATTCGTGAATTGCCCTTACAGCAGAGGTGTTAGATGCTATAAATGAAATAAATTTGTTTAGAATTTTTTTATTTAAAATAACAAATAGTAGGGGCGTTGCCGTTGGCACGCCCAAACATATAAAAATACATTTAAAATTTTGTATACAAATGGAATTTACGAAATGGATAATATATGGGGAAATGAGATGTAAAAAAATAGGGTTTGCCACCGGCAAACCCCTACGGGTCATGTGTATTCAATGCTATATTTGTTTAAAATGTAACATTGAACAGGGGAAATATTATAAAGTAAAATTATCATTATCAAAAAAGAAAGGGGGACAAATGGAAAAAATATTAATAGTTGAAGATGAAAAAAGAATTTCCAGATTTATTGAATTACAATTAAAACATGAAGGATATAAAATAGATAGTGCTTTTGATGGACGAGAGGCTTTGGATAAAATTAAAAATGGAGATTATGATTTGGTATTATTGGATATAATGATTCCTAAAATTAATGGAATAGAAGTATGCAGAAGAGTGCGGGAATATTCAAATATTCCTATAATTATGGTAACTGCAAAAGATGAAATGACAGATAAAGTTATTGGATTGGATTTGGGGGCAAATGACTACATAACAAAGCCTTTTGAGATAGAAGAACTTTTAGCAAGAATAAGAGTTCAATTAAGAGGTAAAACAAGTGGGGGAAAAACGGAAGGAAATATATTAAAAGCAGAAGATTTAATTATGAATATAGAACAATGTATTGTAAAAAGAGGAGAGATAGAGATTGAATTGTCAAAAAAAGAGTTTGAACTGTTAGAATATCTTTTGATAAATAAAGGAATTGTAGCAACAAGAGATAAAATTTTAAATAATGTATGGGGATATGATTATTTTGGAAATGATAATATTTTGGATGTTCATATAAAACATTTGAGAGATAAAATTGATAAGCCATTTGAGAAGAAGCTTATTAAAACTGTGAGGGGATTTGGATTTACTATAAAAAAATAGAAGAATTAAAAAGAGAAAGGAGCTTAGATAATGAAAATTTTTAAAAAATGGAAATTATCCAATAAATTGGCATTTACATATGGATTTGTATTTTTAATTACTTTTGCTACAATAAATTTTGTTATTTTTAGAACTATTTTTGTATTTGGGGAGAAAGAGGCAAATGCACAGATGTCAGAAGTAAAAGAAATGGTAAAAAATGAGATAAATAATATGGTTGAATTAAACAAAGGAGAAATGGAAAATAGAAAAAGAACTTATCAAATAGCAGAAAATATTTTGAAAAAAGGATTTGATACATATATTAGAATTTATAATGATGATAAAATTATTGTTAATTCATTGGATAAAAATATTCCCAAATTTGATTATAAAAAAGATATTGAAAAATCAAAATTAGAAAAAATTGGAGATAAAGTTTATTCTGTATATAATTTAAAATTAGATTTTAAAGGAAAAGAGATGTATATTCAATTTATAATGGATATAACAAGACAGTATGGATTTATAAAATTATTAAGAAAAAATATGATAATTGGAGAATTAATAGGACTTTTGATATCTATATTAGTGGGGAAATATTTAAGTAAGAGTTTATTAAAACCTATAAAAGAGATAACTAAAAATGCTAAATATATTACAATTAATGATTTGAGTAAAAGAGTATATTTGTCAAATAAACATGATGAAATATATGAATTGGGGAAGGTGCTTAATGAGATGATTAGTAGATTAGAAGAGTCGTTTAAAAATCAGAATAAATTTATATCAGATGCTTCACATGAACTTAGGACACCGTTATCTGTAATGCAGGGATATTTAGAAATAATAGATGGATGGGGAAAAAATGAAAAAGAAGTTTTGGATGAATCTATAATTGCATTAAAAGAAGAAGTGACTAATATGAAAAATTTAGTGGAAAAATTATTGTTTTTGGCAAAAGGTGAAAGTGGGAATATAAAGCTAAATAAAGAAAAAGTTATGCTTAATAAATTAGTAGAAAAGGTGATTAGAGATACAGAGATAATGGTGCCAGATTATAAAATTATTAATAATATTAATGATGAAATAGAGGTGGAAATAGATTCAAATTTAATACAACAATGTATGAGAGGAATTATAGACAACAGTATAAAATATAGTCAAGTCGATAAAAAAATAGAAATTAATTCGATAAATAAAGAGGGTATTGCTAAAATATCTATTAAGGATAATGGGATTGGAATGGAAAAAGAGGAATTAGATAAAGTTTTTGATAGATTTTATAGAATTGATGAATCTAGGACAAAAGATACAGGTGGGACAGGGCTTGGATTATCAATTGTAAAAACAATAATGGATCTGCATAATGGAGATATAAAAATAGATAGTCAGATGGGGAATGGGACTGAGATAACTATGATTTTTAAGTTGGATGTGAATAGGGATGGGGGGGATTAAGTAAAATAAAAGTTAGATGTAATTTTTTTGATAATTGAATAAAAAGATGGTATACTTATAATAAGAAACTGATTTGAAGATAATTTATATATTTTTTAATACTCTTAAAAAACTTATGATAGGGTTGGAATTACTTAGGAATGGCTTAAAAATAACCTTCCGATTTTGTTTTAAAATACGCAATGGTTTAGGAATGATTTAAAAACAACCTTTTTATTTTGTTTTAAAATACGTAATGGTTCAAGCGTTTTTATAACAAAATGTATAAAATTATTTTTAAACATTCTTTAAGCGTTTTTATAACAAAAATGAGAAACTTATTTTTTAAACGTTCCTTAAATTAATTTTTTTGTATCTGGAATCTATAAGGGAGAGTGAATTCTCATGATAAAAAAAGAGTTTATAGCAAGATTATCAGCAAAGCTTGGAGAAAGAAGAGACAGAACTTATGAAGTGGTAGAAAGTTTCTGGGAAACTTTGGGGGAGTGTTTAGAGGAGGATGGGGAATTAAAATTATCAAGTTATGGAGTATTTAAAGTAAAAGAAACTGTAGAAAGAAATGTAAAACATCCAACAACTAAAGAGATAATAATAATTCCAAAGAAAAATGTTATAAAATTTTATGCAAGTAATAAATTAAAGATGAAAATAAATAATGATAGTAAAAAATCTAACTCTAAAAAGAGATTTTCGATAAAAGATGTTATGAAAAAAATCCCTAATATTTTTGGAAAAAAAATATAAAGTTTTTGATAAAATAATCGATAATAAATATGTGATTAACATTTTTTAACCCTATCCATAAAAATAGAGAACTAACCTGGTTCTCTATTTTTATTTTTTTGGATTTATAAAATTATTATTTCAATTTATATTTATAACCATATTCTTCATAAATTCTATTAATTGTACCATCTTTTTCCAGTTTTTCTATAATTCGATCATATTGTTTTAGAAATTTTTTGATTTTTTCTTCTCTTGTTGTATTTTCATGTGAAGTAGGTTTAAAAAAATCAGAATGAATACAAATAGGATCATAATATAGTTTATCTTTAAGAGGTTTTTTTAAATAATCAATTTTATCTAGAACACCAGCTTCTTTTGATTCATAAAGAGTTGAACGTGTATTTAATGGAACTAAATCAAATCTTTTTCCAATTAATTTTTTTATTTGTAAGTTATTTTTGCTAGCATAATCAAATTTTAAAAATTTTTCAGCTTTCCAAAATTCTTCAGTATAAGAGGTTCCTCTAGTAACTCCTATTGTGTAATTTTTTAGATCTTCTAATTTATTATAGAATATTTTGTTTTTGTCTTCTTTTCGAATAAAAAAGTTCCATTTTATTCTTCTATATGATTTTTGAGGATATGCTAAAAATGAGAGTCTACTTTTTTTTATAGAATATCCTATTAACATTGAACATCTTCCTCTTTTTGCATATTCAACAGCTCTTTTAACTGCAGCAACAAACTTAAATTTATAGTTACTGATTTTCATATCTTTCATAACAAGTTGTAAAATTTCAATTGAAATTCCTTTTGTTGGACTAATTTTAAAAGGTTTTGTTGGTGTAGCATATATAATAAATTCTTTTCCATCATTTCCTAAAATGACATTGTTGAAAATAAGGCTTAAACTTATAATAAATAGTATTTTTTTTAACATTTTTATCACTCCTTTTTAAGATATTTTAAAAATAACATTCCAATTTTGTTATAAAATACGCAACGATTTAAGTACTTTTATAACAAAATACACAAAATTTATTTTTTAAACGTTCCATAAGAAAAAACTAGTCATCTTTTTTTGATTAAATCTTTCTATAAAATATATACAATAAAAATTTTTATTTCCTTTTTTTTAGTATGCGATTTTTCAAATTGAAATTTTTCAGAATCCCAAAATTTAGAAAAATATTTATACTCTACCAGATAAAAGCGTAGCTTATTTTTTTCTTTTCAATAAAAGCAATTGACAATTTATCTTTTTTGTAGTACAATAAATTAAGTAAATAGTTAATTAGTTAAAGGAGGAAAATTATGTTTGGATGGTTAGATAATTTAGTTAGGTATATTGTAGAAAATATTTTTAATATATCTATGGATACAAGGCTTGGAGGAAGTGTTCATTTTTTTATATATGATACTGTGAAAATTTTAATTTTATTATCTTTTATGATTTTTATAATATCTTATGTTAGAAGTTATTTTCCTGCAGAGCGAACTAAGAAAATTTTAGAAAGATTTAGCGGTATTACAGCAAATATAATGGCATCGTTATTGGGAATAGTTACGCCATTTTGTTCTTGTTCATCAGTTCCATTGTTTATAGGATTTGTAGAGGCAGAGGTTTCCTTAGGGGTTACATTTTCATTTTTAATAACATCACCTATTGTGAATGAAGCGGCATTTGCTATTTTATTAGCATCATTTGGTTGGAAAATTGCTACTATTTATGTTATAACAGGAGTAGTAGTTGGAGTAATAGGAGGAATTATTATTGACAAACTACATATGGAAAAATATGTAGAAGAGTATGTGTATCAAATGAAAGTTGGAGATGTAGATATAGTTAAGATGAGTCAAAATGAGAGAGTAAACTTTGCAAAAGATAATGTAATAGAAATAGTAAAAAAAGTTTGGTTGTTTTTATTAATAGGAATAGGATTAGGAGCTCTAATACATGGATGGGCACCGCAAGAGATGTTAGCAAAATATGCAGGGCCTAATAATCCATTTGCAGTATTAGTAGCAGTAATATTAGGAGTTCCACTTTATTCAAATGCTTTAGGAACAATACCAATAGCAGAAGCTCTTATTAATAAAGGAGTAGGAATTGGAACAGCTCTTGCATTTATGATGGCAGTAACAGCAATGTCAATGCCAGAAATGATATTATTAAGAAAAGTAATAAAACCTAAGTTAATAGCAACTTTTGTAACAATAACTGGAATAGGGATTGTATTGGTAGGGTATTTATTTAACTGGTTATTGTAAAGCTATAGAAAAAACAAAAATTATAATGGGAGGTAATGAAAATGGGAAAAAAATTACCAGAAAAATTTGCTAAATGGCATGGAGTGGATAGGACTAAAATTCCTTGGTATCCAATAGTTGATACAGAAAAATGTATTGGATGTAAATTATGTTTTGTATCTTGTGGTAGGGGTGTTTATAACTTTGATATGAAGAGTAATAAAGCAATAGTTGAAAACAAATTTCAATGTCTTGTGGGTTGTACAACTTGTGCAGCAATATGTCCAGTTGAAGCTATATCATTTCCAGATAAGGAAATAGTACATGAAATAGAAAAAGAGGAAAAAATATTAGTAAAAATACAAAAAATAGCAAAAGAGAAAAAAATTAAAATGGATATAGATAAAATAGAAAAAGAAGTATTGGAAAATATATCTAAAGCTAAAATTTCAAAAGAATATGAGATAGCTGGGCTTATAATAGGTAAAGAAATATTTAAAGAAATTTATTCAGAAATTAAAGATTGCTCTGTTGATATTGTAGATATTAATATTAAAACTTCATCATTAAGAGGAACTATAGATTTAGATGCTCCAACTGTAGCTACATTTAAAATTATATCAACAGAGATGGAGGATATAACTAAATGTGAAGATAAGATAGCAAAGTTAATAGTAAAAAATGGTATTGTAATTCTAAAAAAAGATTAAATAATATTAAAAAAATAAAAAAGAAAGAAGGGTAATAAAATGATTAAAAAAATTCAAAAGAATTTGTCAGGAAATATGTTGATATACACATTTTTAGTTATGATTGGAGGATTTGGTGTTGGATATATTTTTCCAAATGCTAAAAAATTATCTACATATATATTGCCAATAGTATTTATTATGATATATCCAATGATGATAAATATTTCATTAGCTTCTTTGAAAAAGATAAAAGGATCGACTAAACCTTTAATAGAAGCAACAATATTAAATTTTATTTATGCACCAGCTTTTTTATATATTTTGACTAGTATATTTATAGCAGATCCAAGAATAAAATTAGCTTTAATGCTTTTAGCAGTAGCACCAGCATCTAGTATGGGATTAGGATATATTGGGCTTGCAGAAGGACATATGGTAACAGGAGCTATAATTGTAGCAGTAGCATTTATCCTTTCAATTTTTGTTTATCCAATTGCAGGGAGTTATTTTGCAGCAGGAGCAAACATAGTATTGCCATTACCATTAATGTTAAAAAATTTAGGAGTAATATTAATTTTACCTTTAGCCTTAGGTATAATAACTAGAGAATTAATAATGAAAAAGCATGATGAAAAAGTATATAATAGTAAATTTAAACCTGTATTTTCAGTAGTAACATTGGCATCTTTATATCTTTTAATGTTTACAATATTTGCTTCGAAAGCAGATTTAATAATAAAAAATTACAAAGCTATAATTATGATAGCTCCAGTAGCTATAATTTATTATACTGTTACTATATTTTTTACAATATACATGAATAAAACAGTTTTAAAATTTGAATATGGTCATCATCAAGCTGTAGTATTCACAAGTGTTAGTAAAAATATTGCATTAACAATAGCAATTATAATAGCTATTTTTGGAAAAGATGGACAATATATGGCAATAGCACCAGCAATAATGTCATTATTTCAGCCAATATTTTTAATGACATATTTAAAATCAAGTGGAAAAGTAAAAAAACATTTTAATGTGTCTAAAAATTAAAGGATATTTTTTTAATTTTATCATAAGCTTGAAGTTGAGAAAAATATTCAGAATAAAGTTAGATTTGAGAGGTAAAAAAATAAAAAAAGGAGAGATTTATTATGAAAAAGAAAGAATTAAGTGAAATTAAAACAGAGGCAGCTAAAAAAACAATTACTATGCAACATGAAAAATTTGGAAAAACAATAGGAGTTAATGGATGTGCAGGAAGCTCTAATTTAGGACAAAAAAGTTTTTTCATATCAAGAGAATTGACTAAAAGATTTCCAAATGCTTTTATGAGATGTCCATTAGGATTATATCCAGAGGTAGAAGGACCAAGTCAAGTACTAATGTATGATGATTATCAAATTGTAATAGATGGGTGTAAAGGAGCTTGTCTTAGAAAAAGTTTAGAAAAGGCAGGAATAAAAATAGATTTAGCTTATGAATTAGATCATGAAGATTATATGACAGAGAAAAAAGCTGGACCACATTTTGATGAAAAGAAAATGTTGGAATTAACAGATATTATAGAAAGAGATATTAAAAAATTAATAGAAAAAGAAAATAAATGATTTTTTAAAGATTAATTAGTTTGTGATACAATAAAGGGGTGAATAAAATTGGATATAACAATATTAGGAGTTGAAAGTAGAGAATTATTAGATCTGGAAATAAATTTACTAAAAGTAATTAATAAAATAGAGAAAGATATTAATATAAAAAAAATATCTGATCCAAAAAAAATTGCTGAACGTGGAATAATGTCTGTGCCAGCTCTTATAATAAATGGAGAGCTGAAATTTTCTGGTGAGATTCCAACAGTGCATGAATTAAAAATAATTTTAAAAAATTTAAAATAGGAAGTGATTAGAGTGAATTTGAAGATTTTAGGGACTGGGTGTCCAAATTGTATTAAGTTAGAGAAAAATGTAATAGAAGCTGTAGAAAAATTAGGAATAGAGGCAGAAATAGAAAAAGTAACTGAGATAAAGGATATAATGGCATTTGGAGTAATGATGACACCAACTTTAGTTGTAGATGGAGAAGTGAAAATTATGGGAAAAATTGCAAAAGTTGATGAGATTATAAAAGTTTTGCAAAAATAAGGAAAGTAGTTTATGAAGAGGCGTGATTTATTGCGTCTCTTTTTGTATTGTGAGATTTTAGGTATATTAAATTAACAATTTATGCTTATAATATAAATAATTTAATGAAAATATAGCACTAAATATCAAGCAACTATTTTAAAATTAAAGTATAATTTCTTTATAATTAATTAAAAAAAGGAGAAATTATTATGAATAAAACAGCGATTTTTCACGAAATAGATTCAAATTATTGTTATGGAGTATCCAAAGATGAATTGTTAATAAAAATAAGAACAGAAAAAAATAATATAAAAGAGGTTGAATTATTATATGTGGATAAATTTAAATATCTATTTGCTAAGAAAAAAGAATTTAGAAATGTAAAAATGAAAAAAAGATATACAGATGATATGTTTGATTATTATGAGACAGTTATAAAATTTGATGTCTTAAGTTTAAGCTATATTTTTAAATTAAAAGATGAGAAAGAAGAAATTTTTTATGGAAATTATAAATTTTATAACGAGATAAATAAAGAAGAGGGAATAGCTTATATTCCAGAAATGTTTACAATGCCTGTTTTAGATTTTACAGATCTTTTTATTACTCCAAAATGGGCAGAAGAATCAATTGTATATCAAATTTTTCCAGAGAGATTTTATCGTGGAGATAATTATATAGAAAATAAAAACCATTTAGATTGGAATGGAAATGTAGAAAATGACAGTTATTTAGGTGGAAATTTATTAGGAATTATAGATAAAATGGAATATATTTCAGAATTAGGAGTTAATACAATTTATCTAAATCCAATATTTAAAGCAGGATATAATCATAAATATTGTACATTTGATTATTTTGAGATAGATCCTGATTTTGGGACATTAGAGCTGTTTAAAAAATTAGTAAAAAAAGCTCATAAAAAAGGAATAAAAATAATTTTAGATGGAGCATTTAGCAGTACAGGAGTTGAATTTGAACCTTTTACAGATATTTTAGAAAAAAATGAAAAATCAAAATATAGTTCTTGGTATAAGATAGATAGATATCCAGTAGAAGTAAAATCACCAGCTAATTATAAATGTTTTGCACATTTTCCGCTACTTCCAAAATTGAATTATAGCTCTTTGGAGATGCAGGAGTATATACTAAAAGTATTAAAATATTGGATAGAAGAAGCGGATATAGATGGGTGGAGATTGGATGTGGCTGATGAGATACCACATTCTTTTTGGAAAAAAGCTAGAAAAGTTATAAAAGAAGTAAAATCGGAAGCTATAATAATTGGAGAAGTTTGGTATGATAGCTCTTCTTGGTTAAATGGAGATGAATTTGATACAGTTATGAATTATCAATTTTATACAGCTACTTTAGATTATATTGCAAAAAATAAGATTAATTCTAAAGAATATGGAGAAGCAATATCTAAATATTTGGCAAAATATAAAAAACAAACTCATAAATTATTATGGAATTTAATAGGGACTCATGATACTGCAAGATTTAGTTTTTTGGCTAATGAAAGAAAAGATAAAAAGATATTAGCTTTGATTCTGCAATTTACAATGATTGGAACTCCATTAATATATTATGGAGATGAAGTAGGGCTTACAGGAGGAGAAGACCCTGATAATAGAAGGGGAATGCTTTGGGGAGATAGCCAAGATAAAGAATTATTAGAATTTTACAAAAAGATAATAAAGATAAGAAAAAATGAAAAAGCTTTATTTTTAGGAGAGATTGAGATTGAAGATAGTGAAGATAATGTTTTTCATTTTAGAAGAAAATATAATAATGATGTAATTGAAATTTATATAAATAATAGTGATAAAAATATAAATAAAATTATAGAAGGGAAATATATTGATATTTTTGATGAAAAAGAGGTTTTAGGAGAGATTGATATTCTAAAATTTGGATTTAAAATATTAAAAAAATAGAGTTGTTTTATGTGTAAAATAAAGTTATAATAAAAAATAAGCTACGCTTTATACAGTAGAGTATAAAAATTTTATCTTGAAAAATTGCATGTTTTAAAAAATGGAGTAGCTTATTTTCTGAACAAATTTATATTTACCTAATTGGGTACAATAAAAAAATAAATTTGTCAAAATTGTTTGAGAAAATCTGTAGATTCGTTCATATTTTTCAAACAAATGACTCATTAATTTTTTTAAAGTCCCTTGATAAAAAAGATGATTTGTTTCAAGAAAAATTATTTTTAAGTATACCAAAAAGGAGTTTTTTATGAACTATTTTGATGAAATTTCAAAGGTTATTGATTATATAGAGGATAATTTGAGAAATGATATTACAATTGATGATTTATGTAATTATATATATATTTCAAAATATCATTTTCAAAGATTATTTAAAAGTATAGTTGGAGAGTCTGTTATATCCTATATAAAAAAGAGAAGAGTTTATGAAGCGGCATTAGAATTAAAAACTTCTAATAAAAATATTTTAGAGATAGCTATTGAATTTAATTTTAATTCTAATGAAGTTTTTTCGAGAAGTTTTAAAAAAATATATGGAATAACTCCTAAAAAATATAGAGATTCAAAGATGATAATAAACAAATATCCCAAAATAGATTTAGTAGCAAGAAAATTATTTATTAATAGCTTGGGATATTTAATATCTTGGGAATTAGTAGAGATGCCAGAACTAAAATTAATTGGATTGCAGGGCGTTTCTACTGGAAAAAATGATATTGAGATTACTAGAAAAATTTGGAATGAATTACTAAAAGAGCTACCTAAATTAAAAAATATAGAAAATTCTAATTTACATTATAATTTTTTGATTAATGGTTTTTCTGATGACTTAAATATTTTTTTTGGAGGATTTAAAGTTAAAAATTTTGATTTCATCCCTTCAAAATTTATTTTGAGAAAGATTAATTCTCAAAAATATGTAAAATTTATGCATAAAAGTGAAAGTAAAAATGGGATAACGAAATCTCTTGATAAAACAATAGATCTTATTTATGATACTTGGCTACCTAATACAAATTATAAAATAGATGATATAGGATTTGATTTGCTTGTTGTTAGTAATGAAGAAAATTTAAATACAGAAGGAGAAAATACAATTATAGAACTGTATTTGCCTTTGAAAAGATAGTATTAAATAGGGTGATATAGAAGAATCTATATTATCCTATTTTTATATTTAAATTTCATCTTTTTAACTATTCTAATAAGATAAATATTTTTAAAAATACTTTTTAAAATACTTTTTAAAAGAAAGAGTTTTATATTGAATTAGGCTAAATTACTTATAATTTAGTCTTTTTGTTATGTTTATATATGAAATGTATCTATTGTTGACAAAACAGTATATAAAAATATTTGACATTGTACTAGTATTTTGATATAATTCTTACCCGCGGAATTTAAATTACTAAAAAATTGGAGGAGGTATTAAGTTATGAAGAAGTATTGGAAGTTTTTGTTAGGATTAGTGTTATTAGGAAGTTTTTTTGGTTGTGAAAGTTTATTGGATGGTGGTAACAAATTAGTAGAGGTAAAAGTAATAGCTACTTCTGAAAATCAAGTTGTAGTAAGAGATATAAAAATTGATGAAGATAATATAGATTTATCGAATAATCAAGCAACTGAAATGATTGAATCAGGTGATAAGAGTGTAAGTTGGAATACTGTAGAGGTAATTAATGGAGCAGCAACATTTGTAAAACATGAAGATGAAATTGATATTAATGAAGATGGAACTTTAAAAGTTTATGAAGATAAAGTAAAATTTATAACAAAATAATTAGATGGGAGAAGATATTATGAAAAAAATATTAAGAGTTTTGCTTTTAATTACTATTTCCATCTCTTTTTTTGGATGTTTTAATGAAAATAGTGATGATAGTAATAATTTAAAAAGAGATTTAGAAAATAAGATTAGTATAAAAGTAAAAGTATTAAATAGTGTAGCAGGAAATAATATAAGTAATTCTGCTATTAAAGTATATATGGGAGAAGAGATATTAGGAGAAGCTAAAACAGATAAAAATGGAGATGCTACAATTTATTTAGACAAGGATTTAAATGGAAATTATATAGATGTAGTAGCAACTAAAAAAGGGTATGGAACATCTAAATTTCAAGATTTAAAATTAGGAAGAGATAATGAAGGAACTATTACATTATATAATTTTAAATCTTTATTAAAAGAGTATCAAGATAGATTAGAAGCACCTACAATAGAAAAAGTAGAAGTTTTATCTAATGATGATAAAGATGGATCTTATAAAACATTATTTGATGAACAAAATTATGAAAATAAGAGTATTGATAGTGTGAAAATACAGGCAAAAGCTAAAATAGCTATGGAAAAAACAGAATGGGGAACACAAGGTATCAGACTAGATATAAATAGTAATGTTACAAGAAATTCTTATAAGGTTTCAAATTATCAAGTTAGAAGTGAAGAGATAAAAGGTTCGAATCCGAAAGAGTATTTAACAGTAGCCGAATTTGACACAGGATATAATTTGATAAAAGGTGAAAATTATATAAAAATTCATGTACAAGATTTAGCAGGAAATAATACTACTAAATATGTATACTTAACTGCTTTAAAAGGTGTAGAATTAAAAAGCTCTGAAATAAAAGAAACAACAGCAAAATTATTTAGTTATGAATTTATGATGTATGCAAAATCATATGTACAATATTTACCAAGAACAATAAAATATGCAGAAATAAATAGAGGTTTTTCAAATTTTGATTTAGAACCAACTATTGGATATGTAAGTTTAAAATTTTCAGTAAGAGATAAAGATAATACTTATATACCTATAAAAGGATTCGAAGTATATAGATCAGAAGATAACAAAAATTTCACAAAAGTAGGAGAAAAATTTTATACTGAAGCTACAATTGGAGAATTGGACACTGATATAAATGATTTGTATAAAGGTGTTGACTCTAAAGATAAACCAAAACATGATGAATATGGACATAAATATATAGATTCTGATTCTACATTAGAAGAAGGAAAAGTATATTATTATAAAATTAAGGCCTTTAGTGAAAAAGGTGTATTAATGACAAATGTAGTAAAAGGAAGATTTTTATCAAGCTTTAAAGTTGTTCTTGAAGGTCCAGAAAATAATGGGAAAGTAGATAAAATTTCTCCAACATTTAAATTTAAAATAGATGGGATGCCTTCATTAAAAGAGATAGCAACTAATTTAGCAGATAAAATAACATCAAGAAGTGCTATAGAAGTAGAGATAAGTAATTTAGAAACTGAAATAAAAAGTATAACTGATGAAACAGAATTAAAAAGTAAACAAGCAGATTTAGAAAATAAAAAAGCAGAATTAAAATCAATAAAAGATGAAATATTTGATACAAAAAAAGGTATAGGAGATCAGTTTAGGTTTAAAATGGCAATAGAAGATAAATTAGGAGACAAATTTGGTTCTTATGCTATAAATAAAGGACCTACTTACAACTATTCTTGGCATTCATTTGTTTATAATGTGGAAACAGGAAAATTTTATTGGATAACAGATTGGAAATACACAGGTTGGTGGTATAAAGATGCAGGATATAAACAAGGAGTTGAACCTGATTTAGAAAATTCAATAGAAATAGATAGTTTTAGACAACTTTTAGCAGGTTATGGAGTAAATATAGGAGAAGTATTTACTATAAATGATGATAATGAAATAGAGTTTAATTTAGAAAATTTTGCACAAGTTTATAAGGATCAGATATGGATAAAATATGGTGGACCATTAGATTTAACATTGTTTGAAAAAGGGAAAACATATGAATGGGATGTATTTGGATATCCAACATATAGCGGATATCAAACGGCACCACAATTTATAGAAGATTATAGTACAGATGATGTATATGGTAGATCTATAATTTATACTAATAAAGGTGCAGGAAACAATGCTGACAACGGAAGATATACGTTTATAGTGTCAGAAGATGCTAATTAAGGAGGTTTAATATGAAAAAAGGATTAATTGGATTACTTCTATTAATATCTATGGTAGGATGTTTTTCTAATAATAATGAAAGTGATAAAGATAAAGTTATTGAAAAAAAACAGACAATAGAGAAAGTAGGGTATAATTTTTATAATGTAAAAGATAAAACAGAATCAGATTTAATAAATGAAACTCATTATGGGACTGTAATAGTAAGAGCAAAAAAGGAATTAACTGAAGATTATTTAAAGAATATGAATGTGGAAGTATCTAAAAAGTTTGAAATGAATGGTAAATTATACTATTTTTTAAAAACAAATGATAGCGAGAAAACTACAATAGAAAAATTAAATAATAGTAAGTTAATAGATTATGCAGAACCAGATATTAGAATGGAGATACCAGAAGATAAATTAAATGAAGCTATAAATAGAGCACCAAAAAGAGCAAGTGAAGTTGTAGATGAAAAAGAACTTAATGATAAGTTGGTAGATCAAGAATATTCTTTAAAGAATACAGAATGGTATAAGGCTTACAAAGAGTTTGGATTTGGAGACTATACACCATATGTAGCAGTAATAGATAGTGGAATAAATATGCCACATAAAGAGTTTGATGGAGTATTCTATAAAGGATACACAAATTTTAAAAAGAATAAAGAAAATGAATATGAATTTACTAATGGAAAGATATTATCTATGATAGAAGATTTTGATTTTGAAGGTAAAGAATTAAATTGGGATCATAATCATGAAGAAGGTCATGGAACTCATGTATCAGGTACAATTGCTGCAAGAGGAGATAATGGAATAGGAGTAGCAGGAGTATGTTGGCAAGTAAAACTAATAATGTATAAAGTATTTGCTGATAATCCAGATGATACAAAAGTAGATGGTAGTGGAAGCACAACAGCAGTATATGGTTCTTTAAAACATTTAGCTGATTGGAAAAAAGATAATGGAATAGATTATACAATACCAGTTAATATGTCATTAGGTGGATCTTATGCAAGTAATTTTGCATTGGACACAATAAGTTATGCACTTAAAAATAATATAGTTGTAATAGCAGCTTCTGGGAATGATGGTGCTTTTCAAGAAGCAAATTATCCTTCAAGTTATGCAGGAGTAATAACAATAGGAGCTTCTGATGGGAATGATAAAAAAGTGTCATTTTCAAATTCATCAAGAAATTTATCAGTTGTTGCTCCAGGAAAAATGATATTATCCGTTGGAAATGCTGATGAAGGAGTTAATTATTATAGATATATGAGTGGAACTTCTATGGCAACGCCTTTTGTTACAGGATTAGCTGGATATGTATTGACATTTAATCCATATTTAACACCTGCGGAATTAAAAGAAGTAATAGAACAAAATGCAGATGATATATATCCAGAAATTTATGGAAAAGGGTATGATGTAGATACAGGATATGGAAGAGTAAATGTTTATAAAACAATAAAAGCAGTTATAAATAATGATATAACACCAGTGTATAGTGAACATAGCTTAAAAATAACATTACAAAATATACATCCATATTTTGCTTCAAAAGGTTTGCCTAACCCAGTAATTCCTAATAATGGAGTATATTTATATACTAAAGAAGGAAAATTTGTAGCAACAGGACAAACGAATGATGATGGAGTTATATCATTTAATATGCTAAAACCGGGAGAATATAGAGCAGTATCAACAATTCAAGGGGAACTAGTTGCAAAAGATATAACATTTGATGGGACAAAAGATTTAGCAGAACAATTGGATATAAGTAAATTAATTTGGTATATACAAACTTTAAAAAATGAGAGTGGAAATTGTGAAAAGACAGATACAATTATATCGATACTTGATAGTACTGGAACTGAATTAAAAACATATGATCAAAATACACTTGATACATTAGCATATGAATTTCCAAAAGCAGGAACATATTATATAAAAATATCTAAATATGAAAATGCAGTTGGAGAATATGCGTTAAAGATATCTACAAATCCAGAAAAGAAAGATGCAGTAGTATCAGGGGCAGCAATAATGGTTAGTGGTGATGATAATTATGAAGATAATGATGATATTGCAAATGCAACATCAGTTGAAGTAGAAAAAGTATATAATTTATATTTAGATGATGATGATTATTTTAAATTGGATATAACAGCTGACCAAGCTAAAAATTAAAAAAAGGAGAGTGGGACATTGAAAAAGAATAGTTTGATAATATTTATAATGATAATATTCTCTCTTGTATCTTTTGCAGATGAAAATAAGTTAAAATTAAATGGTTATATAGAATATAATCTATTAAATTATACAACAGAAGATGATAAAATAGGAGTAGGAGATATAGGAGATAGTGATTTTAGTTTTCAATTAAATTATAAATTTAATGAAAATTTAAATATGAATACAGTTTTAGAAACAGGAAATAAAGTTAGTTTATCTATATTTGGAAAAGTTAGTGATAAAATATCTGCTAATACTAAATTAGGTTTATATCCTACAGGAAAAGATGAGGATATGAATGATATAAATTTTCTTAATATAATTGAAGATGAAGATACTTATTTTAATTATGCTTCAAAATTAGGAAAATTAACTTTTTATCCATATAAAGCACCTATTAATATAGGAAATAATTTAACTTTAAGTGTAGTAGAAGATGCCCCAGGAGTAAAATATGGAATATCTAAAAATGGAGTAAATTTAGAGTCTATTATAGCAATAAATAACAGCCAAAAAGATTTAACTGGAGATGAATCAGATGCATATCAAATGAAAGTTAGTGGAGACTATACAGGGAAAAAACTAAATGTCAAATTAAGTGGATATTATAATACAAGAGAATATAATGCAGATTTATTTGACAATAAAAATATATATTCTAAATATGCGATTAATGGAGATGTAAAATATAATTATAATGAAAAAATAAATTTAGAAGTAGAAGGTTTATATAATTATATAGATTTATCAATGTTGAATAATAAAGTAATAGATGATAATAAACTAAAAGAAGATTTAAAAGGCTTAGCTTTATATGGAAAAGTAACAATAGATAAATTATATGGGACTTTAAAATATATAGGGAAAAATAGTGTTTTAGATGATGATTTTTCTTGGGAAAAAGTAAGAGCTTCATCAATATTAACAACAGTAGGATTAAAAACTAATATAGAAAAAAATATGTATTTGAATTTGGAATATGGTTATGATATAACTGGACATAATAAATATTTTAAAGATGAAAAGGGAAAAGTAACAAGATATGATAGATATACTTTAAGTAGTATAGTAGGAATAAAGTTTTAGTTTTAAAGAGTAGCTATTTAGCTACTCTTTTTTTCTGTTATAAAAATTTAAAATTTATGACAAAATAAAAATAATTTGAAACTTTTCTTTAATATGGTATAATTGATAAATAGAAAATCAAAAGAAAAAAAGATTAGCTGAAGATAATAAAATAAGAATAAGAAAAATTAAAAAGATATTATATTAATCAATGCTATGATATGATATTTCTTTAAAAGAATTACATCCTAAAAGGAGATAATAGGTGAATAATATGAAAAAAATTATAATTATATGTTTTTATATACTATTTTCAATATTAAGTTTTGGGACAGAAAACTATATTCATGGAAAAGTAATATTAAAAAATATGAATGATAGTAGTGAAATATCAGTTAAATTATATTCTGAAAATAAAACAGTATATAAAACTTATACAAATTCAAGAGGAATATTTTTTATGAAAAACATTCCAAATGGAGATTATAAATTAAAAATTAATTACAGAGATATAAAAATAGAAAAAGATATAAAGAAAATAATTTCAAAGCAGAACATAGGAACTATTTTTATAAAACCAATTTCAAAAGATTATAATATCTATTTTTTCTCATATTTTATAGTCTTTATAACAATTATTTTGAATTTTTTTATTAGATATTATATAAAAAAAGGTGTAACTATTCCTAAAAAAAATATAATTCTAATTTCAATAGATTTTTTTAATTTTTATTTTATACTTAGTTTATCAAGTATGATAGTGGCCTTTTTTAATGAAAAGATTGCTGTGAAAATCAATTCAATTGAATCTATTGGGACTATTTTTATAATTTTATTTATGTATAAATTTTTTATAAATTATCCAGTAGAGAGAGGAAATAAATTTACAAAATTAATATTTAATTTAGCTTTAATATCACTATTTTATGTTTGTATAACTCAATTAGCATTAATTTTTTCAAAAGTAAATATCATAAAATTTGAATTTAATGATATTTATAATAGAGTGTATAATGCTGCATTTTTCTTATGGGATATTGTACCACTTTTTTTAATATTGGTTTTACTTATATATATGATTAAAAATATTAGAGAATATAAAAATAAAAAAGAAGCTGAAATTAGTAAATTTTTTATTAAAATAGGTGTTGTGATTTTTTCTTTAATATTTTTTGGAAGTGCTTTAATGAATAGAGTTTTTAATGTTCCTTTTAACGATTTTTCGAGATTTATATTTCCGTTGGTAGATATAATTTTATTTTGGGGAATATTAACAGGTGCATTTGGATTTAGATATCAAAAAAGATATAAAATGTTTACAAAAATATTTTATGAAGTTTTAAATTATTTGATTATATTGTTATTTCTTTTATATATTATGAACTACATAAAATTGGATTTAGTAATAATTGTAATGTTAATATTTATTTTAAAAGGTGCATTAGATTATATCAAATATTTTTTTGAAAAAAGAGCATATATAGAGCATAAAAAATTAATAAGAAAACTTGAAGTGGCAGAAAATATATTAATATTTAAGAAAATATTAGAAAAAGATTTATTTAAAATATTAAAAGTAAATAAAATAAAAATAGTAACTAAAGATGAGATAAATAAAAAAACATTAGAAAATATATACAATAATGAAAAACTAATTAATTTAGAAAAAAGTGATGATGATTTTTCATTATTATTAAAAATAGGAGATACAACTAATACAGTAGGTGCAATATATTTTGGAGATAAATTAAATGGTGATTTTTTTAAGAGAAGAGAGATAGATTTTTTGGAGGAATTAGGAGAAGAGATAGAGATATTATTGAATAATCTGCTTTTAAATAATGAAAAAAACATTATAGAAAAATCAAGAATAGAAAAAGAGATAAAAAAAGAGCTGTTAGATTTTAAAGATATAATTTTTTATATTAAATCATATGTTAAATTAATAAAAAAAGAGAGTAAAAATCCAAAAATAGCAAAATACTGTGAAATAATACTGGAAAAAATTGAAAAAAATAATAGTTAAAGGTAGTGAAATTCTATGGGAAAAATTGGAATAATAAAAGATATACAATTTTATTTACTTTTGGAAAATATAAATATTAAGTTATCTTTTTTTGAATTTGAAAAGGGAGATAGTTTTTTTTATGAAATTGATAATAGCGATATTGAAGTTTTATTAATTCCAGAAAATTTAGATAATCTATATTTTATATTATCAAAATTAAAAGAGATGGGAATTATATTAATTGTATTTGGAAATAATATTGATGGAAAAATTTTAAGAGATCTTTATAATTTCGGATTAATAAATAACTATATTGAGAAAGAGGAATATTTGAGTATTGAAAAAGTTATTGAAAATGAAAAAAAGAAAATAAAGAGAAAAAAGAATTTTTTTGTAAAAGTAGATGATGGAAAAGAGGTTTTAATAGAAATAGATAAAATTGAATATATAATTTATGATAGAAACAGGAGAAAAAGTATATTGTATTTTGGAAATGAAGAGTATTATATTGGAAAAAATTTATCTGAATTAGAAAAGTATTTTCAACTTTTCAATTTTTTAATAAGAATAGATAGAGGAACAATAGCAAATATAAACAGAATAAAATTTATAGATTATTATGATGAATCTATTATATTTAATTCAGGGAGAAAAGTATATTATACAAAGAAAAAACTAAGAGAGATAAGAGAAAATTTGAAGAATAGAAAAGTTATAAGTTGTTTTGATAATTAATAATTATAGTTCGCTCAAGAAAAAGACCTTTTTGCGTATGAAAAAGGTCTTTTTGTGAAAGTTTTGAAAAAAATATTAATTTATATGGTAAAATATTTTGTGTGAAGCAAATAAAAAATTCAATTTTCATATGATATATACATTTCAACTTTCTCAAAGAATATACAATTCAAAATTATTCAAAATTCAAAATTCATATGAAAATTGAACTAAAAAAAGGAGATGGCTATGAAAAAAATATTATATATTTTATTCTTTTTAATTGGGACGTTTGCATATAGCTTAGAAATCGGATTTGGTTACAAAGCGGATTCACGTAATAGCTTAAATACAGTAGTGAATGGAAATGTAGTTGGATACAGTGAACAGACAGATACAGCTGATTACAAATTGTCAATAGAGGAAATTAAAAGATTTAGATATTTTGATTTAGGGATAGGTGTAGATGTAGATTTTAATGAAATAGGGGATGTTGTAAATATACCGGGATATTTGATTGTGAGATATGGAATGTTAAAAAAAACTAATTTTTCACCTTATTGTTATTTGAATTTAGGTGCAGTGAAGGTAGATTCATACAAAGAACCTGGAATTTATACTTCTTGTGGGTACGGTATTACCATTTTTAAAAGGTTAGAAGTTGAAGCTTTTTATGATTTTATATTAATAGAAAGAGAAAATGATTATTCACGAAAAATTGAATTTGGAGAAGAGACAGAATATCAAATAGAACACTCAAAAGAAAGTATAGGGATATTTATAAAATATAGATTGTAAAGGGGAGGAAGATAACTATGAAAAAATTAAAGTTTTATAAAATAGTTTTTATTTTTATATTTTTACTGTTACTGGGAGGATGTTTTGTTGTTTCTGAGTATGTTCATTTAGAAGGAATAGCAGTTTTTCCTAATGAAAAAATTGTAATGCAAAAAGGAGACACTTTAAAATTATCTGTAAATCAGATTTGTAATGGAGAATTAAGTGGTTCTTATAGTAGTGATTCTGGGGTAGCTTCAACAGTAGAAGCTGGAGCTAATAATGTAGAGTTAGTAGGCGATATTTTAAAAACCAAAAAAAATGGTATAGTTAAAATGAAATTTGCCTATAATGATAGAGAGGATTATTGTGATGTTCCAGATATAACTATTAAAGATAATATATATATATCGAAAAATATGTTAAAATTAAAAAAGATGCCTAAAAAAATTTTTTCCAGAAATAGAAGTATATATATAATTGATGATGAAGATTTTAATTTGAAAATGAAAGAATATAATGAGAATTTAGATGTTATATCTGAAGAAAATTTAGATACAGGATATAGCAATTTATTTTTTGATGAAGATTCTATGCAATATGTATATGAAAAAGGAGTATTGAAAAATAAAAAAACAGGAGAGGAATTAGAATTATCTGACAAAGGTGGTATATCTTTTTATTCTAAAAGTAAAAATAATAATTATCTATTTTATATAGATAGTATTAGAGATAAAATAGGTGTAATTGATCTTAAAAATATGAAAAAAGTTACAGAAATAAATTTTGATTACGATTATTGTAATAATTTATTGAATATATATATTGAAAAAGATATGTTTTATTTAATATATAAAAATGATGAGTTGGCAGAGAATATAGTTATATTAGAAAAATATAATTATAATGGTGAAAAAGTCAAATCAACTTCATATTTTATAGATAAATTAATTGAAAAAATATCAGATTATATTTATGATACAGATGTATATGATGAAGAGGGATTGATGTTAAGAGGAGATGAAAACAATTTATATCTTGGATATAATACAGAAATATTAAAATATCCAGGTGGCGATATTTTAACAATAGATAAGAATAGTTTGAAAGTAAAATCACATAAACATATAGATGGTTATTTTATAAATAAATTTGAATTGGTTGGAAATACTATTGCAATATTAGGAAAAACTATAAAAGAAAGAGTTCGGTTAGCTGGGAAAGATTATAGAGATGTTTTGATATGTTATGATAAAAATAGTTATAATATGAAGTTTATAAAAACAATAACAAAAGAAAAAATAGAACTTTTTACTGATAATAGATATTTATATCTATTAAGCTCTAATTTAGATGATTATAATTGTGAAATAGAGCAAATGGAAATTTATTAAATAAAGATATTTTAGATTATATTTCCGGTAATAGCAAAGGAGCGGAAATAAAAAGAGTTTTATTTTTTTGCAAAATATAAATTATAGAAAGGGTAAGGTGGTAATTATGAAAATTAGAAATGATAAAATGAGAAAGATAAAAAGAACCACAATAGTTTTAGGGTTAGTTTTTTCATTAATAGGATGTTTTTCTAGTGAAGACGGATGTGCAAATCCAAAATTAGTAACGGTTTTTCCAAAAGATAAAACAATTATTCAAACTGGTGATAGTGTGGAATTATTAGTAGCAGCAGTAGGAGCAGATAATAGATTAAAGACCTGGCAATGGGGCAGAGATTATAAAATATTTTCGATAATAGATTATGGAACTGAAAATATAGATATAATAGGAGATGTAATAAAAGCTAAAAAAAGAGGGCTAGCTAGAATTAAAGTTGGGTATAAGCCAAAACATTCCACAAGGTATTACGATAGTCCTATTTTAGAAATAAAAGATAATTTATATAAAATAAGAAAAAATAAACAATTAAATAAAAAACCAAAAAAAGTAATTTTTTCAAATAATAAGCTTTATATGGTTGAGACAGATAATTTTATACTTAAATTAAAAGAATATGATGATGATCTAATTGTAAAATCTGAAGAAGATGTTGTAGAGGAGAAAAATATATTTTTTGATAATGATTTAGAAAAATATACAGTTGAAAATGGTATTTTAAAAAATATTTCAAATGGGAAAGAATTAGAAATTTCGAAAACAGAAGCAGTAAATTATTATTTGAATGATGACAATAAAAATTATTTGTTATATAAATTTAAAGAGAATAAAAATAAACTAGGAGAAGTTGAAAATTATGTTGATAAAGTTGGAATTATAAGTTTAAAAAATATGAGTAAGATATTAGAACTTGATGATATGCCAGTAAGAATTTATTATGGAAAAGAAAAAATTTATTTAATTTCTAATATTCTAGAATTAGAAGAAGGCTTTGTGATAAAAACTTATGATTATAGCGGAAATTTTCTAGAAAAGAATTTATATAGTACAGGGAAATTAATAAGCGATAAAGTGGAAACTGAATATAAGGGTAAGCCAAGATCTATAGGAGAGAAAATTTTAATAATTAAAAGTGATGGTGAAAATTTATATGTAGCTTTTAATACAGATGAGGATAGATATCCAGGTGGAAATATTTTGTGTATAGATAAAAATAGTCTAGTTGTAAAAAGTCATAAACATATAAATGGATATTTTATAAGTGATTTTAAAATTTTAAAAGATAATATTATATTTTCAACAAAAACAACAGTTAGACGAATTTTAAATGTTGGAATTGATAATAGAAATACTATATTTGTTTATGATAAAAATAGTTATAACATGAAATTTATGAAAAATGTAACAAGTGAAAAAATAGATATTTATAATAATGATAACTATTTATATATATTAGGTTATAGTTTAGATGATTATAATTGTGAAATAGAGCAAATAGAAATTTATTAAATTAGGGAAATTAAAAGTTAATGACAAAAGTTTATTTTGACAGACCTCATTCCTTGTTGTCGTTTTCTCCTAACTTAGGAGAAAACTATAGCGTGGATATTGGGTTTATTGTTTTGCACCATTCTCCTAAGATAGGAGAAGGGCTGGGGATGAGGTCTGATTAAAATTAAGGAGTCGTATTATGAAAAAATTTTTAATATTTGGATTTTTTATACTAAATTTAACAATTGCATTTTCTAAAGATACAAATTTTTACAATCTAGAGTTTTGGAAAAAGTTAGAAAAAGTAGATTATCCAATTGTTTTTATACATGGGATAGGTGGAGGATTTAAAAACTGGGATATAGCAGCAACTTTAGTTTCAAATGAAAATTATTATGAGATGAGATATTTAGATGGTAAAGGATTATTTCATAACTATTTCCCAGAAAATCAAAATAAAAGTAAAAAGCCATGGGTTTGGAATGTATCATATTATACAATGAATCCACTAAAAGAATCTATAGAAGGAGATTTAACTACTTATGCAAAACGATTAGAAGAGATTATTGAAAAAATAAAGCTAATAACTGGAAAAGAAAAAGTAGTTTTAATTGCTCACAGTATGGGCGGCCTTGTAGCTAGGAAATATATGACATTAAACGATAAAAACTGGGATAGTGTATATAAAATATTAACGGTAGGAACACCAAATATAGGAGTTTCTACATCTGTTCCAATAGTTGGACAATTGAGAGATTTAGGTATGAATAATAGTTTTCAAAAAGATATGAATAAAGTTTGGTATTCCAAAGATTATAAGAAAAAATGGGGAGTAGTTGGAGGAGTAGAAACAAAATTATGGATTAATTATAAAAATAATAAGTTTGCAACTGACTTAGCTGGAATTGGATATGTAGAAATAAGATCTTCAATACCAAATGGCGAATGGAAAGAAGCGGTAAGAGAGTTAAATAGAGCAAAGTATAATACAAAGAATTATGGATTTAGAATAGCGGTATCAGATAACCATATGGGACTGTTATATAACAAAGGAACTTTAGAAGGAATAGTTTGGGCTATAAAAAAATAAAAGCAAAAAAACAGTTGACAATGCAACTGTTTTTTTGCTACAATAGTTGCATACACAACTAAAGGAGGGCAAGATGAATATTGCAAAAAATTCTCTTGGCAGACAAATATCAAGAATAGCTTTTAAATTAAGAGAGTATATTAATAGTGAATTGAAGGATTATAATATTAGTGGAGGAAAAATCCATTTTTTAATGAAAATTCAAAATGAAGATGGAATGTGTCAAGAAAAGTTAACAGAGATTTTAAAAGTGGATAAAGCAACAACAGGTAGAGCGATAAAAAAACTTGTAGATTTAGGATATGTCACAAGAATAAAAGATGAAAAGGATAAAAGATATTATAGATTACATCTAACTGAATCAGGAAAAAACATTGCGAATATAGGTAAAAAAGTATTAAAAGAAACAAGCGAGATGTTAGAGAGTGGATTTGAAGATGAGGAAAAAATAGTCATTCGAAAATTACTAAGTAAAATAAATATTAATTTAGAGACAGCACGAGGAGGACAAAATGAATAAAAGAAAAGAGATGTTAGCAAAAGAAAATATAGGGAAATTACTTTTTAAATTATCTATGCCAGCTACAATAGGAATGATAGTTCAAGCGTTATATAATGTTGTAGATACAATATTTGTAGGAAGAGGAGTTGGTACTTTAGGAATAGGAGCATTAACAATAGCATTTCCAATACAGATGTTAATAATGGCAATTGCCCAAACATTTGGGATAGGTGGAGCTTCCATGATCTCAAGAGCTTTAGGAGCTCATGAAGATGAAAAAGCAGAAAATATATTTGGTACAATGATATCTTCGCTAGTTATAATAAGTGTTGTAATAACTGGAGTTGGGTTACTATTTATTAATGATATATTAAAAATATTTGGAGCTACAACAACAATTCTTCCATATGCAAGAGATTATATTGGAGTTATTTTTGTTGGAGTTATATTTTCTAATTTTGCAATGAGTGTTAATAATATAGTAAGATCAGAAGGAAATGCAAAAGTGGCAATGAAGTCTATGTTAATCTCTGCAATAATGAATACGATATTAGATCCTATTTTTATATTTGGATTTCATATGGGAGTAAAAGGAGCGGCAATAGCTACAGTTTTATCTCAAATTTTTGTTGTGATTTATTTGATTTATTATTTTTATTCAGGAAAAAGTATGTTAAGGATTGATTTAAAACATTTTAGAGTTAAATTTGATATATTAAAAGAGATGGTATCTGTAGGAGTAGCATCATTTGCAAGACAGGTAGCAGGAAGTGTTATGGCGATTATATTAAATAATGAGCTTGGATTTTATGGTGGAGATACATCTATTGCAGCATTTGGTATTGTAAATAGATTTATGATGTTTGTATTTATGCCAATGTTTGGAGTAGTGCAAGGAGTACAACCAATAGTTGGATTTAATTATGGTTCTAAAGATTATACAAGAGTAAAAAATGTATTAAGGCTAGCTATAAAAGTAGTAACTCTTTTTTCAATAGTAGGATTTTTAGTATCTCAACTGTTTTCAGTACAAATTTCCTCTATTTTTACAAAGGATATAGATCTAATTAATTCTTCTGCATTTGCAGTGAAAATAATTGTAATTGCATTTCCTTTAATAGGTTTTCAAATAATAGGAGGAGGATTTTTCCAATCAATTGGGAAAGCAAAACCAGCACTGTTTTTAGCTTTAAGTAGACAAGTACTATTTTTAATTCCTCTAGTTATTGTTTTACCAATGTTTTTTAAATTAAATGGAGTTTGGATTTCGTTTCCACTAGCAGATACAATGGGGTTTATAGTAACTTTTTTTATGTATAAAAGAGAAATTAAAGTGATGACAAAATTAGAAAAAATAAAAATATAAAAAAAAAGTTTGACAAGATAAAGTTTTTATGATATACTTCTTTTGCCTTGAGCGGGAATAGCTCAGATGGTAGAGCGTCAGCCTTCCAAGCTGAATGTCGCGAGTTCGACCCTCGTTTCCCGCTCCAAGTAAATTGCGCTATTAGCTCAGTTGGTAGAGCACACGACTTTTAATCGTGTTGTCACAGGTTCGACCCCTGTATAGCGCACCATTTTTAAAATATTGAAAAAGTATTGAAAGAATCTTTTAAAAGTGTTATAATAGAATAAATTCTTATTAAAGTGGGTGAAAACCCACTTTTTATTTTAGGGGGTGAATTTATGGAAATACAAGAACAAATTTTTGCAATTATAGAACCAATTACAGAAGAGATGAAATTAGAACTTGTAGATGTTGAGTATGTGCAAGATGGAAGTCATCTATTTATAAGAGTTTACATAGACAAAGATGGTGGAGTAGATCTTGATGATTGTGAAAAAGTAAGTAGAGCAGTGGAAGAAAAAGTTGATTCTATTGTGAAAGATAAGTTTTTTTTAGAAGTATCTTCACCTGGACTAGAGAGACCTTTAAAAAAAGAAAAAGATTTTTCTAGATTTGAAGGGGAAAAAGCTTTAATTAGAACAAGACAAAAGATAATGGATAAAAGGAAATTTGAAGGAAGAATAAAAAAATATGAAAATGGAATAATAAATTTAGAAGTAGAAAATGAAATTATAGAGATAGAATTTAAAAATGTAAAAAAAGCCAATTTGATATTTGAATTTGAAGAAATTTAGCAGGAGGGAATGATGAAAGAAAAAGATTTTAAGGCTTTTTTAAATGCCTTATCACAATTAGAAGAAGAAAAAGGTATTGAAAAAGAAAAAATGATAGAAACAGTAGAACAAGCTCTTTTAGCAGCATATAAAAAAAATTATGGTGAAGAGAAAGAGGCTACTATTAGGATTGACAGAAAAAAAGGGTATGTAAAAGTTTATGCTATAAAAAGAGTTGTAGACGAATTACCTTCTAATCATGATGAGATTTCTTTGAAAGAAGCAAGGTCTTATGATAAGACAGTCGAAATTGGTGATGAAATTGAGATTGAAGAGAAATGTGAAGCGTTTAAAAGAAATGCAATTCAAAATGCAAAACAAATAGTTATCCAAAAAGTAAGAGAGGCAGAAAGAGAAACTCTTTTTTCAGATTTTAAAGAAAAAGAAGATAGTATTATAACTGGAACAATAAGAAGAATTGATGAAAGAGGAAATGTTTTTATAGAAATTGGATTAAATGAAATATTATTACCAACAATAGAACAATCAATAGGAGATGTTTATAGAGTTGGAGAAAGAATAAAAGTATATGTAGCAGGAGTAGAAAAAACTACAAAACATCCTAAAATAATCATATCAAGAAAAAGACCAGAATTGGTAAAAAAATTATTTGAAATAGAAATTCCAGAGATAGAAGATGGAGTAATAGAAGTGAAATCAATAGCTAGAGAAGCAGGAAATAGAAGCAAAGTCGCAGTATATTCAGAAGATATTAATGTTGATACGGTTGGGGCATGTATAGGTCAAAACGGAATGAGAATTAAAGAGGTCGTAAGGGAACTAAATGGAGAAAAAATAGATATAGTAAAATGGGTGGAAGATAAAGAGGAATATGTAGCAAATGCTTTAAGTCCGGCGAAAGTAAAATCAGTAAAAATTATAGCAGGAGAAGGGGCAAGAGTGATTGTGACACCAGACCAATTATCATTAGCTATTGGGAAAAGTGGTCAAAATGCAAGACTTGCAGCAAAATTAACAGGAATAAGAGTAGATATAAAAACAGAAGAAAAAAAAGAGGATATAGTGAAAGAAGATGAAGAGTAATCCAATAAGAACTTGCGTAGCTTGTAAAGAAACAGCAGAGAAGGCAACTCTTTTTAAATTAGTAGAGCGAGAAGGAAAATATGTATTAGATGAAAAACATAAAATGGATGGTAGAAGTATATATATATGCAAATCACCACTTTGTGTAAAAAAGATTTCAAAAAATAAAAAATATAATATTGATACAGAACTATTATTATTACTTATGAACAAAATAAAAATAGCGAGAAAAGAGCCAATAAAAGCTTTGAAATCTATAATAAACTCAGGAAAAGTAACATTTGGAATAAAACTTGTACAAGAGCAAGTGGCTAGAAATAAAGCTTCTTTACTTGTGTTAGCTGAAGATATAAGTAAAAAAAATGAAGAAAAAATAAAATTTGGAATAAAGGATAAAAAAATTCCTATTGTAAAATTTTCGACAAAAGAAGAATTAGGAGAGTTGTTTGGAAAAGACGAAGTTACTGTTATTGCAATTTTAAATAAAAAAATTGCAGGAGGTTTTTTTAAAGCGTTAGGGAGGTAATAACATGACACATAAAATAAGAGTGCATGAATTAGCAAAAGAATATGGGATTTCAAATAAAGATTTTTTAGAAAAATTAAATGAGTGGGATATTGCAGTTTCATCTCATTTATCAGGATTGACAGAGGAGCAGGTTGAAATAATTAAGAAAAAATTAGATGTTAAAAAAAGTAAAAAAGAAAAAATGAAAGAACAAAAAGAGGAACAAAGAAAAGCTAAAGAGATGAAAAAAGCCAAAATAGCAGAAGAAAAAGCCAAGGAAGAAGAGTTAAAAGTTATAAACATTTTAAGTGAAATAACAATAAAAGAGTTAGCAGAAAAAATGAATATTTCGCCTACTGAAATAATTAAAACTTTATTTCTTCAAGGTAAAGCATTTACAATAAATAGTAATATAGAGTTTGAATTAGTAGAAGAGATAGCAGAATCATATGGATATTTAGTAGAACAAGAAGAAAAAGAAGAAGAAACATATGGTGAGAAATTTAGTTTGGAAATAGAAGATAAAGAAGAAGAGTTATTAGATAGACCGCCAGTAATAACTGTAATGGGGCATGTTGATCATGGTAAAACTTCGTTATTAGATGCAATAAAAGAGACAACAGTTGCTGAAGGAGAAGCTGGAGGAATCACTCAAAGAATAGGTGCATATCAAATAATAAAAGATGGACAAAAAATAACATTTATAGATACTCCAGGTCATGAAGCTTTTACGGAAATGAGAGCTCGTGGAGCAAAAGTTACAGATATAGCAGTATTAGTAGTAGCTGCTGATGATGGAGTTATGCCACAAACAATAGAGGCAATAGCTCATGCTAAGGAAGCAGAAGTACCTATAATTGTAGCAGTAAATAAAATAGATAAAGATGGAGCTAATCCAATGAGAGTGAAACAAGAACTTTCAGAATATGATTTGTTACCAGCTGAATGGGGAGGAACTACAGATTTTGTAGAAATTTCTGCGAAAAAAAGAATTAATTTACAAGATTTATTAGATACAATTGTAGTAACAGCTGAAATTTTAGAATTAAAAGCTAATCCTAAAAAAAGAGCAAAAGCAGTTGTTTTAGAATCAAGATTAGACCAACAAAGAGGTCCAGTTGCAGATATTTTGATGCAAGAAGGGACTTTGAAAGTAGGAGATACAGTTATAGCAGGAGAATCATATGGTAAAGTAAGAGCTATGACAGATGATAAAGGAAAAAGAATAAAAGAAGCATTACCATCTCAACCAGTAGAAATTATAGGGTTTGATAAAGTTCCTGAAGCTGGAGATGTAGTTTATGCAGTTCAAAATGATAAACAAGGTAAAAAAATAGTTGAACAAATGCAATTAGAAAATAAAGCAAGAGATTATCAACAAAGAGGTCATATAAGTCTTGATAGACTTCATGATAAAATAGAAGGCGAAGAATTTAAAGAGTTAAAATTAATAATAAAAGCTGATACAAGAGGTTCTGTAGAAGTATTAAAAGAATCTATTTCAAAGTTATCAAATGAAGAAGTTGCAGTAAAAATAATTTATGCAGCAGCAGGAGCTATATCAGAAGGAGATGTAAAATTAGCAGAAGCATCAGATGCTATTATTATAGGATTTAATGTAAGACCTTCTACAAAAGCTAGATTAGAAGCTGAAAAAGAAGAAGTTGAAATTAGAAATTATAATGTTATTTATCATTTAACTGAAGAGCTAGCAGAAGCTATAAAAGGTATGCTTTCGCCTAAATTTAAAGAGGTTTATCAAGGAAGAGTTGAAATAAAAAAAGTATTTAAAATAACAAATGTAGGAAATATAGGTGGAGCAGTTGTAGTAGATGGATTAATAAAAAGAAATTCTGAAATTAGAGTTTTGAGGAATGGAATAATTGTATATACAGGAGAATTATCTTCATTAAAAAGATTTACTAGTGATGCAAAAGATGCAATAGTAGGTCAAGAATGTGGAATTGGAATAGCAAACTTTAATGATATAAAAGAGGGCGACATTATAGAAGCTTATATGATGGAAGAAATTCCTAGATAGGAAGTGAAAAAAGATGAATAAAAGAAGATTAGCAGGAATAGAAAAAGAGATGGCTAGATTTATAAGTAAGCTATTTTATGAAGAAGTGAAAAATCCTAAAATAAAAGGATTAGTATCTATTACAAAAGTAAAAGTTACAGAAGATATGAAATTTGCAGATGTATATGTAAGTGTTTTTAATGCAGATGCAAAAGAAGTTTTGAAGGGTGTGGAAGAAGTAAAAAGATTTTTAAGAAAAAGAGTAAGCGAAGAGATGAGACTTAGATATGTTCCAGAACTTAGAATAAAACATGATGATAGTATGGAATATGGAGCTAAAATAGATAAAATATTAAATGATTTGAAACATTAAACTGTTTGTAAAGTTTAGTTTTGAAAATATATATAATAATAGAAAAAATAAATAAGGGCGAACACAGGGGTTCGCCCCTACGGAGATGAAAATATAAAAAACATTTTATATTAGTAATAATTGTTTTGGGGAGAATAAAATGGAATGGGATTGTGTGAATGCAGATATAGATAAAGTTAGGGATATATCTAAAAAATATAATATCTCTCAAAGACTGGGAACTATATTAAATGTAAGGAATATAACTTTAGATAATGAAATAAAATTGTTATTAGATGTTGACTATAAAAATTTTAATTCTCCATTTGATTTTGAAGATATGGAAGAAGTGGTAAAATGTATATTAGAAAAAAGAGAAGAAGGAAAAAAAATTTTTATATATGGAGATTATGATGTAGATGGAATAACCTCTGTAGCATTTCTCGTTATTGCTCTTAGAAATATAGGGTTTGATGTTGGATATTATATTCCAAATAGAATGGAAGAGGGATATGGTTTAAATAAAAAATCTATTGAGTATATAAAAGCTAATAATGGAAATTTAATTATCACAGTTGATATTGGAATAAATTCTGAGGAAGAGATTAATCACGCAAGAAAATTAGGTATGGATATAATTGTAACTGACCATCATAAAGTGTTGGAAACTGATAATTATAAAGTACTAACTATAAATCCTAAAATAAGTAAAAATTATAAATTTGAGTTTCTTGCAGGAGCAGGAGTTGCTCTAAAATTAGCTCAAGCAATATATATTTATGATGATAAAAAATTAGAAGATTTATATAAATTTATAGATATAGTTATGATTGGGACAGTTGCAGATGTAATGCCCTTATCTGGAGAAAATAGAATAATAGTAAAAAAAGGGCTTGAACTTATAAATAATAGTAATATAAAAGGGTTAAAATATTTAATACACTATTTAAGATTAGACCATAAAAAAATCAGCACAAGTGATATTAGTTTTAATATTTCACCAATGTTAAATGCTTTAGGTAGAATCAAAGATTCTAAAATAGGAGTAGATTTTTTTCTTGAAGAAGATGAGTTTAAAATTTATAATATTATAGAAGAGATGAAAGAAGCAAATAAAACAAGACGTTCTTTAGAACGAAAAATATATCAAGATGTAGAAAAAAAATTAAAAACATTAGGTAGTAAGAAATATATTTTTTATTCTAGCAGCGAGTGGCATCCTGGTGTAATAGGTGTAGTAGCAGCTAGAATTTCATTAAAATATAAATTACCTACAATATTAATTTCTATTAATGGGGATTATGGCAAAGCATCTTGTAGAAGTGTTAAAGGAATAAATATTTTTGAGATACTAAATCAAAAGTCAGATAAATTTATTAGATTTGGAGGACATGATTTTGCAGTTGGATTTATAGCAAAAAAAGATAATTTAGAGGAACTGGAAAATCATTTAAAAAATAGGTTGGAAAATTTTGATGTTTGTACTCTAAAAAAACGACAAAAATTAGATATGGAAATAAAAAGCTTAGAGGAAATTAATGAAGATTTTTTTGAAGATATGGATAAATTAGCACCTTTTGGATTAGAAAATGAACAACCTGTTTTTTTAACAAAAGGAGTGTATTTTGATTCAATAAGATATTTTGGAGTTGATATGCAGCACTTTAAGTGTTATATAAGAAAAGATAATATGTTATTGGCTTCTATATCCTTTAATATTGCACATAAATTAAAAGAAATATTGTCATTAGCTCAAAAATTTGATATAATTTATTATCCAGAAAAAATATGGAATAAAGGTGAGGAAATAGTACAGCTAAAAATAAAAGATTTTAAAGAAAGTATAGATGAAAATAAAATGTTTTAAGCTGTTTCTAAATTAAAAAAAACAAAAATTAAAATATCAAGGAGGAAGTAAAATTATGAATTATGAAGTAAAAAAATTAGAGAATTCAAGAGTAGAAATTTTAATTAAATTAGAGGGAGAAGAAGTAAAAAAATATACTAAAGAAGTTGTGAATAAAATAAGAGGAAAAGCTGAAATACCTGGCTTCAGAAAAGGGAAAGCTCCTGATTCAGTTATTCTTAAACAATTTGAAGAAGCAGTAAAAGAAGAATTAGCAGAAAAAGCAGTTAATAGCAATTATGGGACAATATTAGATAAAGAAGGATTAAAACCAATAGATTATGCTAATATAATGAAAGTAGAGAGTACAGAAGATAAAATAGAAGTAGTATTAACAGTTGATGTTATGCCAGAAGTAAAAGTAGGACAATATAAAGGATTAGAGATAGAAAAAGAAAAATTTGAATTAAAAGATGAACATGTAGAAGAAGAGTTAAGAAAATTACAAGATAAAAGTGGAAAATTAAAAGAAGTTGCAGAAGGTGAAGAAGCAAAATTAGATGATACTGTATCAATAAATTTTGAAGGATTTGTTGATGGAGTTGCTTTCGAAGGTGGAAAAGGAGAAAATTATGATCTTAAATTAGGAAGTCATAGTTTTATAGATAATTTTGAAGATCAAATAGTGGGACATAAAGTTGGAGATGAATTTGATGTAAGCGTAAATTTTCCTGAACAATATAAAGAAGATCTTGCAGGAAAAGCAGCAATTTTCAAAGTAAAAGTTAATGCAATAAAAAGAATGGAGCTTCCAGAACTTAATGATGAATTTGCTAAAGAGGCTGGGTTTGAAACTTTAGCAGATTTGAAAGAAAAAAAAGAGATAGAAATTAGAGAAAGAGAAAATTCTAAAATAGAAAATGGATTTATAAATACTATATTAGAAAAAATAAAAGCTGGATCAGAAATAGAAATTCCAGAAGCATTAATAAAACAAGAGGTTAAAGCAAGAATTGCAGAATATGAAGCTCAATTGCAATCACAAGGAATTTCAATTGATTTATACTTATCAATGAATCAAATGAAAAAAGAGGATTTAGAAGCTCAATTGAGACCAATTGCAGCAGATAAAGTAAAAGTTGATTTAATCATAAATGAAATTGCAAAACTTGAAAATGTAGAAGTAAAAGAAGAAGAGATAGAAGAAAGAATGGCAGAAGTTGCTAAATATTATGGAATGGAAATAGAAAAATTAAGAGCTGAGTTAAAAGCAAAAGGAAATTATGAAAATTTCTTAGAAAGTTTAAAACTTGAAAAAATAACTCAAAAAACTATAGATTTATTAGTAAGTGAAACAATAGAAAAATAAAAAAAGGGCCACAACTTATGTTGTGGCCTAATAAATATTTAGGAATGGTTTAAAAATAACAAAATTATTTTTAAAATATTTTTTAGGAGGTATAATATGTATAGTCCAGTAGTTATTGAAAATACAGGGAATTCAGAGAGAGCTTATGATATATATTCAAGATTATTAAAAGATAGAATTATATTTTTAGGAACAGAAATAAATGATCAAGTTTCTAATGCTATAGTTGCACAATTGCTATTTTTAGAGGCACAAGATCCAGATAAAGATATTATTATGTATATAAATAGTCCAGGAGGAGTAGTTACTTCAGGGCTTGCAATATACGATACAATGCAATATATAAAACCAGATGTATCAACTGTTTGTATTGGGCAAGCAGCAAGTATGGGTTCTTTATTATTAACAGCGGGAGCAAAAGGAAAAAGATATTCTTTAGCAACTTCTAGAATAATGATACATCAACCACTTGGAGGAGCACAAGGTCAAGCTACAGATATAGAGATTCATACAAAAGAGATATTGAGAATTAGAAATATTACAGAAAATATTTTAGTAAAACATACAGGTCAAACTTTGAAAAAAATAAAAAAAGATACTGAAAGAGATAACTTTATGTCAGCAGAAGAAGCAGTAAAATATGGATTGATTGATAAAGTTTTTTATAAAAAAAGAGGTGAAAATTAATGGCTAAAAAAGCATCTTGTTCATTTTGTGGAAAATCAGAAGATGAAGTTTATAGATTAATAGCAGGTCCTAATGTATATATATGTGATGAATGCGTAGAAGCTTGTTATGATATGATAGATATAGAAGGAGAAAAATTTTCTAGTAATGTTTCAGATATAAATTTATTAAAACCACAAGAATTAAAAAATAAATTAGATGAATATGTAATAGGGCAAGATGAGACTAAAAGAGTTTTGTCTGTAGCTGTATATAATCATTATAAGAGAATATTAAGTAAGAAAAAGAATTCAAATAAAGAAGATGATGTAGAACTTCAAAAAAGTAATGTTTTAGTAATAGGGCCTACAGGTAGTGGAAAAACTTTATTAGCAGAAACATTAGCAAAAATATTAAAAGTTCCATTTGCAATTGCAGATGCAACAACATTAACAGAAGCAGGGTATGTAGGAGAAGACGTTGAAAATGTATTGGTAAGATTAGTTCAAAATGCTAATATGGATGAAAAAGCAGCAGAAACTGGGATAATATATATAGATGAAATAGATAAAATTGCAAGAAAATCAGAAAACACTTCTATCACAAGAGATGTATCAGGTGAAGGAGTACAGCAATCTTTGTTAAAAATAATTGAAGGAACAAAATCTAATATTCCACCTAATGGAGGAAGAAAGCACCCAAATCAAGAATTTTTAGAAATTGATACTAAAAATATTTTGTTTATAGTTGGTGGAGCTTTTGATGGATTAGAGGGGATAATAAAACATAGAACTAATGAAAAATCAATAGGATTTGGGGCAGATATAAAATCAAAGAAAGAAAATGAAAAAGAAAATATGTTAGGAAAAGTATTACCAGAAGATTTAACTAGATACGGGCTTATTCCAGAATTAATTGGAAGATTACCTATAATAACAGTTTTAGAATCTTTGGATGAAAAAGCTTTGATAAATATTCTTACAGAGCCAAAAAATGCACTTGTAAAACAATATGAGAAATTTTTTGATATGGAAAATGTAGAAATAGAAATTGAAAAAGAAGCATTAGAAGAGATAGCTAAACAAGCAATAAAAAGAAAAACAGGAGCAAGAGGACTTCGTTCAATAATGGAAGCATCTATGCTTGATTTAATGTATAAAATACCATCTATGGATAATGTAGAAAAAGTAATTATAACAAAAGAATCAATTAGTGATAGTAGTAAAGTAATTATAAAAAAGACTGATGAAAAATCAGCATAAAACAGGAGGGAATTATGAAGCAAGCACCACTTATTCCTGCAAGAGATTTATTACTTTTTCCAGGTGTAATAGCACCAATATTTATAGGAAGAAAAAAAAGTATTGGTAGTTTACAAAAATCTTTATTAGATAATAATCAAATGATATTATTTATGCAAAAAGAAAAAACAAAAGAAAAAATAAAATTACCAGAAGATATATATGATATAGGATTGCTTGTAAATATTGTGCAAACAGTTAAAATGCCTGATTCCACAATAAAAACTCTTGTAGAAGTTAAAAATAGAGTAAGATTATTAGAAGTTATAGAAAATAAAGATGAAATTTCAGGAAAATATGAAAATATAAATTTTGAAACAGTTGATGAAGAACAATTAGAAGCAACTAAAAGAAAAGTTATTACTATATTTGAAAAATATGCAAGAATTACAAATAAAGTTTCTCCAGAGTTGGTTTTAAATTTAAGAGGTATAGATTCAACTTCAAAAATGTTTGATTTAATTAGTGCTAATTTAAATATTTCAACTCAAAGAAAGCAAGAACTTTTAGAGATTTTTACTTTAGAAGATTATGGATATAAATTAATTGAAGTTTTAACTCATGAAGTAGAAATTTTAGAATTAGAAAGAGAAATAGATAAAAAAGTAAAAGAACAAATGACAAATATTCAAAAAAATTATTATTTAAGAGAAAAAGTGAAAGCAATTCAAGAAGAATTAGGGGAAAAGAAATCAGGAGATGAACTTGCAGAATTAAAAGAAAAAATTGAAAAATCTAACTTGCCAAAATATGCAAGAGAAAAACTAGAAAAAGAATTATCAAGACTTATGAAAATGCCTTCTCATTCATCAGAAGCATCATTAACAAGAGTATATATAGAAATTATATTAGAGCTACCTTGGAATGAAGCGACAAAAGATACATTAAATATAAAAAAAGCAAAAAAAATTCTAGATGAAGACCATTATGGATTAGAAGAAGTAAAAGAAAGAATATTAGAATTTTTGGCTGTAAAGAAATTAAATAATAAATTATCAGGAACAATTTTATGTTTAGTTGGACCTCCTGGTATAGGAAAAACATCACTTGCGAAATCAATAGCTAGATCACTAGGTAGAAAATTCAGCAGAATTTCATTAGGTGGAGTTAGAGATGAAGCAGAAATAAGAGGGCATAGAAGAACATATATTGGGGCAATGCCTGGAAGAATTATAAAGGAATTAAAACATGTAGGTACAAATAATCCACTTATATTATTTGATGAAATAGATAAAATGGCAACTGATTTTAGAGGAGATCCATCTTCTGCACTGTTAGAAGTATTAGATCCTGAACAAAATAGAGAATTTACTGACCATTATGTAGATATGCCATTTGATTTGTCAAATATATTTTTTATAACCACAGCAAATAATCTTGGAGAAATTCCAGGACCTTTAAGAGATAGACTTGAAATAATTACATTAGATAGTTATACAGAATTTGAAAAATTAAATATAGCGAAAAAACATCTTTTGAAAAAATCTCAAGAAGAAAATGGATTAAAAGATTATAAAGTAAAAGTTTCAGATAAAGCTTTATTGCGTATAATTAATGAATATACTAGAGAAGCTGGAGTGAGAGGATTAAAAAGAGAACTAGATAGAATTTTTAGAAAAGGTGCTAAAAATATATTAGAATTTGATAAAAAAGATGTAATAGTAAATTTAAAAAATCTAAAAAGTTATTTAGGAAATGCTAAATATAGACCTGATAAAATGAGAATAAAAGAGGGGAAAATTGGGGTAGTAAATGGATTAGCATGGACATCAGTTGGAGGAACAACTTTAGAAGTTCAGTCTATAAAAATGCAAGGGAAAGGAAAACTTCTTCTAACTGGGAAATTAGGAGATGTGATGAAGGAATCTGCACAAGTAGCACATAGTTTTGTAAAGTCAAAAGCAGAAGATTTTAAAATATCAATAGATTGTTATGAAAAATCTGATGTGCATTTACATTTTCCAGAGGGTGCTGTTCCAAAAGATGGTCCATCTGCAGGGATAACAATAACAACTGCAATAGTGTCTATTCTAAGTAATAGAAAAGTTCGACAAGATATTGCAATGACAGGAGAAATAACAATTACAGGAGAAGTTTTACCTGTTGGTGGAATAAAAGAAAAAGTGATTGGAGCTCATAGAGTTGGAATAAGAGAAGTTATTTTACCAATAGATAACGAGGTCGATACAGAAAAATTGCCTTCTGAAATAAAAAAAGATATGAAATTTTATTTTGCAAAGGTATATGATGATGTGGAAAAAATAGTTTTTGAAAAATAATATAAAATAATATATGAATGGATTAGAAACAATTTTTTTATAATAAAATATGAAAAACTTATTTTTAAAACGTTCCATAATTTTAGGAATAAAGGAGCAAAAAATGGAAATAAAGAGAGCTGATTTTGTAAAGTCAGCAGTTTATTCAAAAGATTATCCAGAAAAGACAAAAATAGAGTTAGCTTTTGTTGGAAAATCAAATGTTGGGAAATCTTCTTTGATAAATAGTTTAACTAATAGAAGAAAATTAGCCAAAACCAGTAAAACACCAGGAAGAACTCAACTTATTAATTTCTTTTTGATAAATAATGAGTTTCATTTTGTTGATTTACCTGGATATGGTTTTGCCAAAATAGCAAAAGTTATAAAAGATACATGGGGAAAAATAATAGAAGATTATTTGACTTCAGAAAGAAATAAATTAGTTTTTGTATTATTAGATATAAGAAGAACTTTATCAGAAGAGGATGCAAATTTATTAAGATGGTTAGAACATTATGATATTGATTATAAAATAATATTTACTAAAACAGACAAATTGTCAAATAATGAAAGATTTAGACAATTAAAAAAGATTAGGGAAAAAATGGAATTTTCTAATGAGGATGTGTTCTTTTATTCTTCAGTTACAAGAGAAGGAAGAGATAAACTATTAGAATTTATAGAAAGTATAAAATAGTGGATAATGCCCTATTGATTTTGTAGGGGCGAACCTATGTGTTCGTCCTTATGATATTAGTGTCGCAATTAAAAATTAGTAATAATTTTTAGGATGTTTCTTGTAGGTATCCAATAAAAATAAGGGCAATCACAGGGGATTGCCCCTACAAAATTTTAAAAACATATCATGATTAGACCCCAAAAAGGTAGTTTTCTAAAATCATACCACTACATATAGTTTCGTAAAAACTTTCGAACACTATATATAGTGGTATGAAGAAAACTAAATACCTTTTTGTGGGTCAATCATATTATTATATCAAAAATTAGTATTGTGACGTAGTTTGATTTAATGATAGGAATTATAAAGATATAAATTTATGGGAGGCGAAAATATGTCAAATTTAGAAGGTAAGTATTCTCCTAAGGATATAGAGGAAAAATGGTATAAAACTTGGGAAGAAAATGGATATTTTCATACAGAACCAAAAGAAGGTCAACCTAAATACACAGTTGTGATACCACCACCAAATGTAACTGGAGTATTGCATATTGGACATGTATTAAATAATTCGATTCAAGATACATTAATTAGATGGAAAAGAATGCAAGGATTTAATACTTTATGGATGCCTGGAACTGATCATGCTGGAATTGCTACGCAAAATAAAGTAGAAAGAAAATTGGCAGAAGAAGGAAAAACAAGAGAAGATATAGGTAGAGAAAAATTTATTGAAGAGGTATGGGATTGGAAAGAAAAACATGGTGGAATAATAACAAAACAGCTTAGAAGACTAGGAGCTTCTCTTGATTGGGATAGAGAAAGATTTACCATGGATGATAAATTAGCAGATTCTGTAAAAGAAATTTTTGTAAAATTATATAAAGATGAAATGATTTACCAAGGAGAATATATAGTAAACTGGTGTCCTAGATGTGGGACTGCATTATCAGATGATGAAGTAGAACATGAAGATTTGGGGAGCTTTTTATGGGAAATAAAATATCCAATAAAAGATAGTGATGAATTTATAGTTGTAGCAACTACTCGTCCAGAAACAATGTTTGGTGATACTGGAATTGCAGTAAATCCAAATGATGAAAGATATAAACATTTAATAGGTAAAAAAGTAATATTACCTATTGTAAATAGAGAAATACCAATAATAGCAGATGATTATGTAGATTTAGAATTTGGTACTGGTATTGTGAAAATGACTCCAGCACATGATCCCAATGATTTTAAAATAGGTTTAAAGCATAATTTAGAATTTATAAATGTATTAAATGAAAATGGGACTATGAATGAAAATGCAACTTCAGAATATGAAGGAATGGATAGATTTGAGGCTAGAGAAAAAGTTTTAGCTGATTTAAAGGATAGAAAACTGTTTGTAGGAGAAAAAAAGATAAATCATTCTGTAGGACATTGTTATAGATGTAATACTGTAATAGAGCCAAGAGTTAGTAAACAATGGTTTGTAAAAATGGGACCTTTAGCTGAAAGAGCTATTGAGGTTGTAAAAAATGGAAAAGTAAAGATATTACCTGAAAAATGGGAAAAAGTTTATTATAATTGGCTTGATAATATAAGAGACTGGTGTATATCTAGACAAATTTGGTGGGGACATAGAATACCTGCATATTATTGCGAGAGTTGTGGAGAAATGGTAGTGTCAAAAGAAGCTCCACACAGCTGTCCAAAATGTGGTGGGGAGAAATTCAGACAAGAAACTGATGTATTAGATACATGGTTTTCATCTTGGCTGTGGCCTTTTTCTACTTTAGGATGGCCAGAAAACACAGAAGAATTAAAATATTATTATCCAACTGATACTTTAGTAACAGGTGCTGATATATTATTTTTCTGGGTGGCAAGAATGATAATGGCAGGATTATATGTAATGGATGAAATACCATTTGAAAATGTATTTTTACATGGTATAGTTAGAGATGAACAAGGTAGAAAAATGAGTAAATCTTTAGGAAATTCGCCAGATCCTATAGAAGTAATTAATAAGCATGGAGCAGACGCACTTAGATTTAGTATGTTATATAATACTTCTCAAGGGCAAGATGTATTTTACTCTGAAAAATTAATAGAAATGGGTAGTAATTTTGCTAATAAAATTTGGAATGTATCTAAATTTGTATTGATGAATTTAGAAGGATTTTCTCCTGCTGATTTAGATGTAGATAATTTAGAGTTTGAACTTGCTGATAATTGGATTCTTTCTAAATTAAATCAAACTATACTTGAAGTAAATAGACATTTAGAAAAATTTGCATTAAATGACGCAGCTAAAGAAATTTATGAATTTTTATGGAGAGATTTTTGTGATTGGTATGTAGAGATTGCAAAAGAGAGATTATATAAAGCACAAACAAATAATGAAAAAGAAACAGCTCAATTTGTATCTTGGTATGTACTAGAACAAGGACTTAGATTATTACATCCATTTATGCCATTTATAACAGAAGAGATATGGCAAACATTACCAGGAACAGGAGAAACTATAATGCTTAGTGATTATCCAGAAGCAAACCCTGAGATGATAAGTATTACAGTAGATAAAAATTTTGATTTCATACAAAGAGTGATTAGAGCTATAAGAAATATTAGGACAGAAATGAATATATCACTAGGAAAAAAATTAACAGGGATATTTAAATCTTCTGATGGAGAAGAAGAAGTTACATTAGAACAAAATAAAAAATATCTAATAAAATTAGCTAATTTAGATGAGACATTAATAAGCTGTGAAATAGAAAAACCAGAAATGGCTTCTGTAGCAGTTGTTGATAATACAGAAATATTTATACCTTTGGATGGAGTTATTGACCTTGAAGAGGAAAAAGAAAAATTAAAAAAAGAGATTTTAAAATTTGAAAAAGAATTAGATAGAGTAACTAAGAAATTAAGTAATGAAAAGTTCTTAGGAAAAGCCCCAGCAGATATTGTAGAAAAAGAGAAAAATAAAGAGAAAGAATTTATAGAAAAATTGGATAAATTGAAAAAAAGTTTAGAGGAGATTTTATAATTCATGAATATTGATAAAAATTTGCAAGAAAAAATTTTGAAAATATTAGAAAAACATGATAATTATATATCAACTAAAATTTTATATGAAGAGATACCTGATTTAGATGAAAAAAAGCTTAATGGTAATATAGTTTTTTTAGAAAAAGAGGATAAAATTTGCGTTAAGGTTGGAGTAGATAATAAAAACTTTAAAGTTAAGATGAAAAGATAGGTTTAGAAAATATGTATAATATAAAGGAAGTCCTCTGATTTAGAGGACTTCTTTTTTGTTTTATGATAAAATTAAAAGAAAGAATTATGTTATTTTTCAAGGTGAAATTATTTCAATAAAATAAATTTAATCTGAGTTTTATATAATTTTGTAATAATCCATAAAATTTAAAAAATTTTTTTCAAATTGGATTTAATTAAAAGAGTGAATGAAAAATTAGGACAAAGTAGTAGAAAAAATAGACATCAAAATATTATAAAATAGAAATAATAAAAGAAGAAGATGGCAGAAATGCAATAGACATAAAAAGGACAGTATCTGATATAATATTCTAAATATATCTTATTGACAAATATGAAACAGAAATTAAAACTCATCTAAAAATGTGAAGCGGTTATCTTTTTTATTGACAAACATATATATAAGTTGTATAATAAAAATTGTGAAAGTTAAAACTATCACAATAAAATTTTCTTTTATAGAAAATTAACAAAATAAGGGAGGATTATATTATGTCATTTATGTTTTTTATGCCACCAATGAGTCTTATGGGTGGAGGATGTTTAGAAGATGCAGGGAAAGAGGTTAAAAAATTAGGGTTAAAAAAAGCATTAGTAGTTACAGATAAGGTATTAGTTAAAATTAATTTAGTTGATAATCTTACAAAAGTATTAGAAAAAAATGGGATAGAATTTGTTATATATGATGAAACAAAACCGAATCCTACAGTTACAAATGTAAATAATGGATTAAAAATATTAAAAGATAATAATTGTGATTTTGTTATCTCATTTGGTGGAGGATCGCCTCACGATTGTGCAAAAGGTATTGCTTTATTAGCTACAAATGGAGGAGATATTAAAGATTATGAAGGTGTAAACAGATCAGCAAAACCGCAATTACCGTTAGTTGCAGTAAATACAACAGCTGGAACAGCTTCTGAAATGACTATTTTTTCAATAATAACAAATGAAGATACACATGTAAAAATGGCGTTAGTAGATAAACATATGACTCCAATTATAGCAGTAAATGATCCTAATTTAATGGAGGCTATGCCAAAAGGATTAACAGCTGCAACAGGTATGGATGCATTGACTCATGCGATAGAAGCTTATGTATCAACAGCTGCTACTCCAATAACAGATGCTTGTGCGATTCAAGCTATAAAATTAATTGTGAAAAATTTAAAAAACGCTGTAGATAATGGAAAAGATAAAGAAGCTAGAGATAAAATGGCATATGCTGAATATTTAGCAGGAATGGCTTTTAATAATGCAAGTTTAGGGTATGTTCATGCAATGGCACATCAATTAGGTGGTTTTTATGATTTACCGCACGGAGTATGTAATGCAATATTATTACCACATGTAGAGGAATATAATTCTCAAGTAGTTTCTGGAAAATTATCAGAAATAGCAGGTTTTATGGGGGAAGATACTAAAGGATTATCTGAGAAAGAGGGAGCAAAAAAAGCAATAGAAGCTATAAAAAAATTATCGAAATCTGTAAATATTCCAAAAGGGCTAGCTGAGTTAGACGTAAAAGAAAAAGATTTTAAAGTGTTAGCAGAAAATGCTTTAAAAGATGCATGTGGATTAACAAATCCTAAACAACCAACTTTAGAGGATGTAATTGAAATATTTAAAAGATCTATGTAGTGAAAAGATTAGATTGTAAAAAGATAGAAATATAATAAAGGAAGTCCTCTGATTTAGAGGACTTCTTTTTGTTTTATGATAAAAATATAAATTTAATTTAGGAAAAAAATCATTAATTTTCCAACCATTCATAATAAACTTCAGGGAATGGTTTTAATGCCCTATCCAATATTCCATGTAAAAATACTATAGCAACTCCATAATTTATAATAGGTATTCCTTCTACTTCACTTGCTTCAATTCTACTTAACATCTCTTTTCTATTTAATACACAACCAGCACAATGAATTACAACTTTATATTCTTTAAGATTATCAGGATAATCTCTTCCAGAATAAAAATCAAAATGAACATCTGGCTCAATATTTTGTCTAATCCAACGTGGGATTTTTACACTTCCAATATCATCAGGTTGTTGATGATGTGTACAAGCTTCAGCAATTAAAATTTTATCACCTGGCTTCAAATCTCTTAAAGCTTTTGCTCCTTTGACAAGTTTAAATAGGTCACCTTTATATCTTGCAAATAAAATTGAAAATGATGTTAATAAAATATCGTTAGGAGTATCAGCAGAAACCTTCATAAAAGCTTGCGAGTCTGTGATTACTATTTTTGGTTTTTGTTTTAAATTAGATAATGCTAATCGCAATTCTCTTTCTTTTGTTATATGAACAATAGCATCATTATCTAATATATCTCTAATAGTTTGAACTTGTGGTAATATGAGTCGTCCTTTTGGCATTCCTGTATCAATAGGTATAACTAAAACTACAGTATCTCCTGGTTGAATTAAATCTCCAACAATAGAAGGTTGTTCAAAAGTTTTGGGCGAATATTTTATGATTACTTTTTTTAAATCTTCTATTCCAATTTTTTTTAAAGCACTTACTTTAATATATGGAACTTTTAATGATTTTATCTCATTTTCCAATTTTAAATTTAAATCATTTATATCAATTTTATTAATTACAATAATAAATGGAGTTTCAGATTTTTTTAATTTATCAATTACTTCATAATCAAAAGTTGTAATTCCATCATCACTAGAGATTACAATAAGAGCAATATCAGTTTTTTTTATGACATCTATACTTTTTTTTATTCTAAGTTCTCCAAGTTCACCTTCGTCATCAATTCCAGCAGTATCAATCAAAACAACAGGACCTATTGGAAGAATTTCCATAGCTTTATATACTGGGTCAGTTGTAGTTCCTGCAAAACCGGATACTATTGCAAGATTTTGATTTGTTATAGCATTTATAAGACTTGATTTACCAGCGTTTCTTTTCCCAAAGATAGCTATATGCAGTCTGTTAGCTGTAGGGGTTTTATTTAATGACATAATTAGAATCTCCTTTTTTTAATTTTTACAATAACAATATTTTATGATAAAATTTTATCATAAAACTAAAAAAAATAAAAGCTTAAATTGAAAAAGAGATATACATATGGTATAATAAATAAAATGGGAGGGAATTATGAAATTTGCAGGAATAATAAAAAGTTCTTTTGTTGATTATCCAAAAAAGGTTGTAGCAACTATATTTACTGGTGGATGTAATTTTAGATGTGAATATTGTCATAATGGAGTGTTAATAGAGCCAAAAGATGTTGATTTATATTTAACAGAAGATGAGATTATAAAATTTTTAAAAAAAAGAAAAAATGTTTTAGATGGATTATGTATTACAGGAGGAGAACCAACTCTTTGGAATGGAGAATTGGTAAATTTTATAAGAAAAATAAAATTAGAATTAGGAGAAAAATTTTTAATAAAAATAGATACTAATGGAAGTAATCCAAAATTTATATATGATAATAAAAAATTAATAGATTTTTTTGCGATGGATTTTAAATCATTAAACTATAATAAATTTTCAAAAATAAATTTGGATACAATTAAAGAAAGTTTAAAACAATTAGAGTCAACAAAAGATTATGAAGTTAGGATAACAATGTATCCTAATTATATAAAAGAAGAAGATTTTAATAAAATTGCAGAAATATTAAAAGATGTAAAAAAAATTGCAATACAACAATTTAATAATAAAGAAGTATATATGGATAAAAATATGGAGCCATATAAAAAAGAGGTTTTGTATAAATTAAAAACTGAAATTGAAAATAGGGGTGTATTAGTTGAAATACGAGGTGAATAGTAAAAAAGGAATATTAATATCATTAGAAAATAATTACTTAGATGAATTAGAAGAGTTAGTTAATAATATTGGAATAGAAGTTGTGGAAAGAGCTGTTCAAATTAGAAAAAAACCAGATCCAAAATATTATGTTGGAAAAGGTAAAATAGAAGAAATATTGAATATAATAGAAGAAAATGAGATTGAATTTGCAATTTTTGATGATGAGATTAGAACTATTCAGAGAAAAAATATAAAAAATAAGTTAGGAATAACTATATTAGATAGAACAGATGTTATTTTAAATATTTTTTCAAAAAATGCTCAGACAAAAGAGGCTAAATTACAAATAGAGTTAGCAAAATTAAAGTATAAATTACCTGAAATCGTTGGATTAGGAAAAGCAATGTCTAGACTTGGTGGTGGAATAGGGACTAGAGGTCCAGGAGAAAAAGAAAAAGAGTATAAAAAAAGAGCAATATTAGATAAAATAAAAAAAATTGAAGATGAACTAAAAAAGATTCAAAGAACTAGAGGAGAACAAAGTAAAAATAGAAAAAGACGAAAAGCAAAACAAGTGATTCTTGTTGGATATACAAATGCAGGGAAATCAACATTAATGAATAATTTAACAGGTGCTGATGTTACATCTGAAGATAGATTATTTGTGACATTAGATACTAAGATGAAGAAAATTTATGCACTTAGAGAAAAAAATATAGTATTAGGAGATACAGTAGGATTTATAAGAAAATTACCTCATGTATTAGTTGCTTCATTTAAATCAACATTAGAAGTTGTGAAAGAAGCTGATATTTTATTAAAAATAATAGATATTTCAAAAGAAGCTTTTGAAGAAGATATAAAGGTAATAGATGAAGTGTTAGAAGAAATTGGGGATAGTGATATAAAGAATATATATGTATTTAATAAAGTTGATTTATATGCAAATTATGAAAATGAAATAAAAAAACTAGAAGAAAAATATAAAAATGTAGCATTTATATCAGCGCAAAATAATATAAACATTGAAGAACTTTTAGAAAAATTAGTGATAGAACTAAGGGGATGATAATATGTTTAATAAAATAAGTCAAAAGTTAATATTGTTAGCTCTTGGGCCAGTGATATTCTTTTCATTAATTTTATTTGTTCTTATTAATTTCATTTTTGTTAATACTATAGAAAAAAATTTCAAGCAGAAATTAAATGATTCATCAATTTATGTGAATCAAACAATTAATGGAATAATAGAAAGAGAGACAAGTAAAGTTTCAATATTAGCAAGAGAAACAGAATTAAATATACTTATAAAGGAAGGATATAAAAAAACAGGGATTCCTTATAAAATTTATAAAACAAAAAATGGAGTTCCATATGTAAAATTCAAAAAAGTAAAAACAAAATTTGATTATCTAGTTTCTTTGACATATTGGAAAGAAGCTATGTATAATCAAGCTAATAATAGATATAGAGGGCTTGAATTATTTAATGAAGATGGGAAAATAATTGGAAGAAGTTCTGGAAAAAAGAAAATGTTAAAAACGAAAGATTATGATAATATGGTTATGGCAGTTTTGAATAAAAATACAGTTTTTAAAAGGAAAAAAATTGTAAGTAGAATAGAAGTAAATGAAGGGCTTTTATATTTAAAAATATTTGTCCCTGTGCCAACTGATTCTAATAATCCATATGGTGGTATTATATTAAGCTATCCATTAGATAGAGATGCGTTATTAGAGATAAAGGGAAAAACAGAAAGTGAATTAAAATTTTTAGATGAAGATTTTAATAGTAAATATAGTACTATATTATTTAAATCAAATAATGAAATATTAAATTATAAAGACTATAAAGAACTTATAAAAAAAGGTATACCATTTAAAATAAAAAATAGAGGGGAATATGCAATAGCAATACCATTTACAAATGTAAAAGATAAAAATATTGGTTATATATTAATTATAAAAAGAATTAAAGAACTACAAGAGTTAGAAGATAAATTTCAAAATATAATTATAATTGTATCTATAATATTAATAATTTTAATATCTTTTGTTATATTATTAGAAGCACATAAAATAATAGAACAAATTAATAAATTGGTATTAGGAATAGAGAATATAGAAAATGAAGAATATGAAGTTATTGAAGATGGTGAATTTGATATTTATGAATTTGAACTTCTTAGGAAAAAATATAATGCAATGATTCTAAATTTAAAAAGGAATATAGAAGGGATTAATTATAGAGATGAAGCACTAACAAGGATGAATGAAGAGTTAATGATGGTAATAAAGGAAAAAGAAAAAGCATATAAAATGTCTATTAGAGATGGATTAACAAAACTATATAATCACAAATATTTTCAAGAAAAACTTTTAGAAGAGATAAAAAAATCCAAAAGATATGGTGCAAGTTTATCTTTAATAATGTTAGATATAGATTATTTCAAAAAATTCAACGATGATTATGGACATCAAGTAGGAGATAAAGTTTTGATTAATTTATCCAAAGTATTAAGAGACACAATTAGAGAATATGATATAGCTGCTAGATATGGTGGCGAGGAATTTATGGTTATTTTACCAAATACTGACCAAATTGGGGTAAGAGTATTAGCCGAAAGAGTAAGGCAGGTGGTAGAAAAGACGAAAGTTGAAAATTTAAAAGTGACCATTAGTTTAGGAATAACTACATTTCCAGTAGGATGTAAAGAGATAAAAGAGAATGAAGATCCAGTGAAAATTAGAGATATAATGATAAAACAAGTTGATGAAGCATTATATAAATCAAAAGAAAAAGGAAGAAATAGAGTTACAGAATATATTGGAGGGGAAAGTTGAAAATATTTATAGCACCAATAGCGGGAGTTACTGATTATACATATAGAAAAATATTAAAAGAATTTAATCCAGATATGATGTTTACTGAAATGATAAGCACAAATGCTATTACTAGAGAAAATAAAAAAACTTTAGGAATGTTAAAAAGATTACCAGGTGATTCAGTTCAACTATTTGGAAAAGATATTGATATAATGGTAAAAGCAGCAAAATTTATAGAAAGTATAGGAGTGAAACATATTGATATAAATATGGGATGTCCTGTAACAAAAGTTGTGAAAAATGGATATGGTTCAGCAATGTTAGGAGATCCTGATTTAATAGAAAAACTTTTAATAAAATTAAAAGAAAATGTAAATGTTAGTTTATCAATAAAAATTAGGATAGGGTATAAAAATTTTAAAAATCCCCTGTTAATTGCAAAAATAGCTGATAAATTAAACTTAGAATTTATTACAATACATGGAAGAACAAGAGAACAGATGTATTCAGGTGTTGCCAATTGGGATATTATAAAAGAGATAAAAGAAAATGTATCTATTCCAGTAATAGGAAATGGTGATATATTTACAGCAGAAGATGCTTGGGAAAAAGCAAAATATTCAAATGTAGATGGAATTATGTTAGCTAGAGGGATCTTTGGAAATCCTTGGTTAATAAAACAGATAAGAGAGAGATTTGAATTTGGAAAAGTTATAACAATACCAAGTGAAAGAGAAAAAATAGAAATGGCGTTATTACATTTAAAAATGTCAATAGAAGATAAAGGAGAAAAAAGAGGTATATTTGAATCGAGAAAACATATATGTTGGTATATAAAAGGGTTAAAGAATGGGACAAATATAAAAAATATAATAAATAAAATAGAAAACTATGAAGAGGTAGTGGAAATATTAAAAAAATATGAATCAACATTCTAAGGAGGAACTGTATATGAAAAAGTTTGATGAAATATTAAAAGATAAAAAATTTCCATGTAAAATATCAAAAGAGGATGGAGGAATATTAAAAAAACAATTTGAATTAGATAAAAAATCATTAAATAATCCCAAAGATAAAACTGATATTGAATATATTTATTATAAAGAGTATAATAAAAGAAAATATGTTTTAATAGAAGAATATATGTTTAGAGATGGAGAAACGGTTTTGGAGGTAGAAAGAGCTATAGATGTAAATTATTTTTTAAATGTTCTGTAAGTATTACAAATAAAAAAAGAAGAGGTATAAATGAAGAAAGTTTTAATTATAATTTTTATTTTTTCTATTACTTTAGTAAGCACAGCGTTATATTTTTACAATTATATATATAATAATCCGATTAGTATAAAAAAAGTTTTAGAGATAAAAAAAGGAGAAACTGTAAATGAAATTTTAAATAAAATTGGGGGATTAAATAAAAATATTATAAAATTATATTTAAAGATTACAGGACTTGATAGTGAAATAAAAACTGGGCACTATACATTTAAAGGAAATAAAATAACTATAGATAAATTAATAAAAAAATTTGTGTCTGGGGAAGTGTCTGTAGTTAGGGTATCTATTCCAGAAGGATATACAGTTAATCAAATAGTAAATTTATTAGAAAAAAATAATTTGATAAAAAAAGATGATTTTTATAAGAAATTAAATGAAATGAAAAATGTAGGATTATTTACCAAAACTAATGATTATGAGGGATATTTTTTTCCAGATACATATTATTTTTATTTGGGAGAGTCAAGCACAGAGATTATAGAACAATTTTTTAATAGATTTAAAGAAAAAACATCAAATTATAGGAATATGTTTACAAAAAAAGAGTTTTATAATAAATTAATTTTAGCATCTATTATAGAAAAAGAAGCATATTATAATAAAGAAAAGCCTATAATGGCATCTGTATTTTATAATAGATTAAAAATAAATATGAAATTACAGTCTTGTGCTACTGTAGAATTTTTATATAATTATAAGAAAAAAAAATTATATTATAAAGATTTGAAAATAAAATCAAAATATAATACATATTTATATAATGGATTACCTTATGGAGCGATATCAAATCCAGGGATTAAATCAATAGAAGCTGCAATATTTCCTAAAGAAACTAGTTATTATTATTTTAGATTAGGAGAGGAAAGACATCATATTTTTTCCGAAAAATTTTATAGAAGGGGGAGTTTTAATGGAAACAATTGATATAGTGAAAGAAAAAGGGGATATACTTTTTATAAAGCTGACAGATAGTATAGTAATAAATAATATTGAACTATTTGAAAGAGAAGTTTATAGTATATTAAGTGATAAAAAATTTAATATAATTGTAGATATATCAAAATCAGAATTTATTATAAGTCAAGGATTAGGAATATTAATTAAACTTAATAAAAAATGTAAAGATAATGGAGGGAAAATTGTTATTATGAATCCAAATGATAGATTAAAAAGAATTTTAAAAGTTGTTCATATGGATAAAATAATAGATGTAGAATTTAATGAAGAAAATGCTATAAAGAAAATGCTATAAAAAATAAATGGATGAGGAGAGTAAATAATGGATAACTTATATAAGAAAGAATTAACTGAAGAGGAATTTAAAAAATTTAGAGATTATATATATAAAAAAAGTGGTATAAATTATACTATAAATAAAAAAATAATTTTACAAAATAGGATTAGACGAAGATTGAGAGATTTAGGATTAAATTCATATTTAGAATATTTTAATTTAATAAAAAATAAACCTATAGACTCGCCAGAAATGATAAAATTTTTTGATGAAGTTACAACTAATGAAACATCTTTTTTTAGACATGAAAGACAGTTTGTAGCTTTAAAATCTATGATTATTCCGGAACTATTAGAAATAAAGAGAAATAAGGACCTTAATGTATGGAGTGCCGCAGCATCAATGGGAAAGGAAGCTTATACAATTTCAATGGTATTAAAAGAAACTGTTGGATTACATAATTATAAAATGAAAATATTAGGAACAGATTTGAATAATAAAGTGTTGAATATGGCAAAACTTGGAGAATATGATATAAAAGATGGAAAAGATATTCCAAGAGAATATGAAAAATATGTGATTAGAGATAAAGAAAATGGAATATTAAAAATAAAAGAAGATTTAAAAAAAATGATAGAATTTAAGAGATTTAATTTGAAAGAAAGTTATTCTTTCTTTCCTAAAATGGATGTTATATTTTGTAGAAATGTGTTTATTTATTTTGAGAAAAAAACTCAAAAAGAGATGGTGGATAAATTTTATGATAGACTTATTCCAGGCGGATTTTTTATATTAGGGCATTCAGAAACTTTAAATGGCGTATCAGATAAATTTATATATAGAAAATTTAATGGAGAAAATTTAATGATATATCAAAAACCATTAAAATAATAAATTAAAACTTGAAAAATAAGTTTATATAAATTAATTCTAGGAATAGATTATTTATTGAAGAACGTTATTTTTAAATTGTTTCTAAATAAAAAAGTATGGAGGTAATAATGTTTAAAAAATGTAAGTATATATTTTTTATAGTTATAATGTTATCAAATATATCATATGCAAAAGAACTTCCTATAGATAAAGAAAATTATCTATTTAGAAATGTAAGCGTCGAAGATATTGGAATGGGTTATACCTCAATTGCAAACAAAATATTGGATGGATTAACAGTAAATCCTGCTTCAGTATATTTTTTGAAAAATAGTTATTTTACAATAGGATATAGTTATGCAGCACCTAAAAATATATATTATTATCAGAGTGTAAATGATATTATTACGAAATCAGACATTAATTATATCTCATTAACTTCAGATAAAGGTGGAATGTATTGGAAAAAATATTCGGATGAAAAGGAGTTATCTTTAAAACATAAATATAATTTTAATATAAATGAAATAGGATTATCTATTACTCAAAAAAGTACCACTACAAAAGGATTAAGTAGCGGTCTTACATTAAAAATTTATGAAGGCGGAATTCTAGAAGGAAGAACAGATAATGGAATTGATTTGACAGTAGATAAAGGATTAGGATATGGAATTGATTTAGGGTTTTTATTAAAAAGAAATTTTGTGTATGCAGGAGTGGTATGGGAAAATATATTAGGAAAAATATATTGGAAAAAATATGATGACGTATTAGTGAATGGCCGAATAAGAGGAGGAATAGGAGTAAATTTTGGATTTGTGAAATATGGATTAAGCTTTGATAAGGTATTATTGGATACTGTTAGTATTAAATATGGACAAGGAATAGAAATGTTAGTTTTGAATTTTCCAAAAGAATATTCTAATTTTATGTTAAAAGGATTAACAGCGAAATTTAGAGCTGGAAATTATGGTGAAAATTTATTTACAAATTCAAAAATTAATACTTATGGTTTAGAAATAGGGAATAATAAATATATATTAAATTTTGGAGTGGCTTCAGAGAAGATAAATCCTTTTGAAGATCAGAATATGATTTTAAAAAGCTCAATTAGTTATAAACTTAAATAATAAAAATAAGCAGGATCTTTTCCTGCTTATTTTTATTATTTAATCTATCTAATTTTATAAACCACAAAATAGAGAAACTTAATGAGCCTCTTTTTTTATTGAAGAATATATTGATATATGATATAATTTAATAATAAAAAATGGAGGTAAAATGAAAAAAATATTATTTGTTGGAATTAATTCTAAATTTATTCATACTAATTTAGCTTTAAGATATATAATTAAATATGCTGAAAAAAATATAAAAGATGAGAAATATAGTATGAAATTAGTAGAATATACTATAAATAATACAATTTATAGTATTATTAAAAATATATATAAAGAAAAAGCAGAAATTATTTTATTTTCAATGTATATATGGAATAGGGAATATACATTAAAAGTTATAAAAGAGGTAAAAAAAGTTTTACCAAATAGTAAAATTATATTAGGCGGACCAGAAGCAGCGTATGATGCAGTTGATATTATGAATGAGAATCAAGAGATAGATTTTATAATATTTGGAGAAGGTGAAAAAGTTGTATTGAATTTTTTGAAGGAAGATAATGCAAAGAGTATAAAAGGTATCTATTATAGAGAAAATGGTGTAATATTATCAAATAAACCAGAAAAATTAATAGAAAATTTAGATGATGTTCCTTTTCCTTATACAGAAGAAGAGATAAAAGAATTAATAGCAGAAAGAAAAATTATATATTATGAGTCTTCTAGAGGATGTCCGTTCAATTGTTCTTATTGTATGTCTTCTATAGAAAAAAGTGTTAGATTTTTCTCATTAGATAGAGTAAAAAAAGATCTGAAATTTTTTATAGAAAACAGTGTTAATTTAGTGAAATTTGTAGATAGAACATATAATCTTAAAAAAGATAGATATTTGGAAATTTGGAGATACATTGTAGATAATTATAAAGAGGGAATTAGATTTCATTTTGAAATAACTTTAGATCTTTTTGATGAGGAAGTTTTGGAGTTTTTAGAGACAGTTCCAAAAGGGCTTTTTCAATTTGAGATAGGTATTCAAACAATAAATAAGAAAACATTAAAAGCAATAAATAGGAAAAATGATTTAGAAAGAATAAGTAAAAATATATCACTTTTAAAAAAGAATATACATTTACATTTAGATCTAATAGCAGGGCTTCCTTATGAAGATTACAAAACATTTGGCAATTCTTTTAATTATGTATATGGATTAAACCCTGAAATGTTGCAATTAGGATTTCTTAAAATATTAAAAGGAACGCAAATTTCTACTGAAATAGAAAAATACGGGTATAAATATTTAAATTTTCAACCATATGAAGTGTTGGAAAATAAATTTATTTGTTATGGTGAGATAGTAAAATTAAAAAATATAGAAAAATTAGTAGATTTTTATTTTAATTCAAATGAATTTAATGTATCAGTTCCATTTATTATTAATAATTTTTATGATTCATCATTTGAATTTTATGAAGATTTTTCTGAATGGTGGGATAATAAAAAATATTTTGAAGTAGCTCATAAAAAAATAGCTGTATTTGATTTTTTATATGATTTTTATTTGGAAAAAGAGTTTGACAAATTGGATATGTTTAAAGATTATTTGAAATTTGATTATATAAAAATGGAAAAGCCTAGATTTTTTCATGAATGGTATAAGAAAAATGTAACGAAAAATGAATATGAAAATATAATTTCAAATAGTAAACTTAATATTGAATTTAAAAGTGTAAGAGAAAAATATAAAAAAACAGAGGTTGAAATTTTTAATTATGATATATTAAATGGTGAAAAGGATAATTATAGCAATAATAAAAATGGAAGTGAAAATATAAAAATTTTGTTTATTTATAAAAATAATGAAACAGAGATAAGGTGTGTATAGATGTTTTTTGAATTAATAAAACAAATAAGTAAAAAAAAATTAATCTTATTATTTATTTTAATAGGAAGTTTCAACTTGTTTTCTCAAGATTTATTAACAGAAAGTTTTGGGAAAAAGTTAAGAGTAGGAATAAAAAGGATTTCAAATAATGTAGTCTATATTAAAAGTTATAATGGAGAATTTAATATAGAATTAGAAAATGGTAAAATAATAAAAAAATCTGCTTTAAGATTAATAAGAAAAAATAAAAAAATATATTTCGAGAATAAAAGTATAGATATATTAAAAATAAGAAGAAGTAATGTGGTTACAATAATAGGCATTGGGAAATCAGAAGAGAAATACCATAAATATAGAGGAGATTTTGATTTCATTATATATAAGGGGAAAATATTGCCAATAAATATAATATTGGCAGAAGAGTATTTGTATAGTGTAGTCCCTTCTGAAATAGGAATTAATTTTCCAGATGAAGCTATTAAATCTCAAATCGTAGCTGCAAGAACTTATCTGTATTATGGTTTGAAAAATAAAAAATATGAAAAATTTGATTTATTAGATGGAACATCTTCGCAAATGTATTTAGGTTATGAAAGAGAAAATAGTAAAATAAATAATTTGATAAATCTTACTTCTCATGAAATTATGGTATATAAGGATAAAACTATAAATGCACTTTATTATGCAGATAGTGGAGGTTGGACAGCTAATAATGAAGATGTATGGAGTGGAGGGAAGCCAATTCCATATTTGAGAGCAGTGGATGACAAAGATAACTGTAAAAATTCTCCAAGGAGTAATTGGAGTTATAGAATAAGTAAAAAAAGAGTTTCAAAAATATTTGGATTTAATATAAATAAAATAAAAATTATAGATAAAAAAAATAGGAGAGTAAAAAAAGTTTTAATATATGGAAATAAAAAAAAGATAATTTCCGGCAATGAATTAAGAAGAAAATTAGGGTATACAAATGTATTTAGTACAGTTTTGAAAATTTTGGACACAGGAAGTTATTTTATATTTAAAGGACATGGGTCAGGACATGGTGTAGGAATGCCTCAATGGGGGGCTTATGGACTTGCTAAAAAGGGTTATGACTATAAAAAAATATTGAAATATTATTATACAGGAGTAAAAATAAAAAAGATTGAAAATTTTGATAAATATGTTATAATAAAAAAATAACGAGGTGAATTTTATGAGAATAGGTATTTTTACAGACACATATAAACCTAATATAAATGGAGTAGTGACATCTATAGAGATAAAAAAAAGAGAATTGGAGAAATTAGGACATAAAGTTTATATAATAGCACCTACAGAACCAAATTATGAAGAGATTGATCCAGATATTATAAGACTAAAATCTTTTAAATTGGTTTTTCAACCAGAATACCGTTTGACATATCCGCCCAAACTAGAAACGTTAAAACGAATAGAAGTATTAAATTTAGATATTATACATGCAGAAACTCCATTTTCGTTGGGGTTATTAGGTGCTTATATTGCAAAAAAAACAGGGAAACCGTTAGTACATACATATCATACTTTATTCCCTGAATATGTACATTATTTAAAGTTGCCTAAAACTGGAACAAAAAAAATGGCAGAATCAATAAGTGCCATCTATTGTAATGCTTGTAATTATATTATATCGCCATCAAATCAAGTAAAAGAAAAACTTTTAGAATATGGGGTGAAAAGAAATATATCAGTTATTCCAACAGGAATAGATGTGTGTAAATTTAAAAATAGTAAAAAAATAGGAATTAGAAAGAAGTTAAATATAAAAGAAGAGGAAAAAGTATTAATATTTGTTGGAAGATTAGGAGAAGAAAAAAATATAGATTTTTTATTGGATTCTTTGAAATTATTAAAAGAAAAAGATGATAATATTAAATTGATGTTGGTTGGAGATGGGCCATATAGAGAAAAATTAAAAAATAGATGTAAAGAGTTAAATATAGAAGAGAATGTGGTTTTTGCGGGATATGTACAAAGAGAAAATATAGCAGAATATTATAGAGAATCAGATATATTTGTATTTTCATCACTTACAGAAACACAAGGATTAGTTGTGTTAGAAGCAATGGCAACAGGAATTCCTGTAGTAGCAGTAAAAGCAAGTGGAGTAGAAGATATGGTAGAAAATGGTGTTTCTGGTTTTTTAACTTCATTAGATGAAAAAGAATTTGTAGAAAAAATAGATTTAATTCTAAATGATGAAGAATTATATAAAGAAATATCAAAAAAAAGTATGGAAGAAGCTGAAAAATTTACACCTGAAAACACATTTGCAAAAATGGCAGATATATATATAGAACTAAGTGAAAAAAGAAGAATGAAAATAATAAAAAAAGCATTAAAACTTAGAAGAAGTAGAGCAGCTAGAATTATAGCTAGATTTGGTAAAAGGAGGAGAAAAAATAAAAAATAAAGTTCTTTTAAATTTAAAAGAAAACAGTTTGATAAATAAAAAAGATAAAATTGTAATAGGAATATCAGGAGGAGCAGATTCTGTAGCTTTATTTCATTTGTTAATGGAATTAAAAGAAGAACTTCAAATAAATTTTATTTTTGCTCACGTTAATCATATGTTAAGAGGAACAGCTGATAGGGATCAGAGGTTTGTAGAGGAGTTAGGAAAAAAATATAATGTGCCTGTGTATGTATTAAAAAAAAATATAAAAAAATATGCTAAAGAAAATAAAATAGGTGGAGAAGAAGCAGGAAGAGAGATAAGATATAGTTTTTTTAAAGAAATATTAAATAAAACTGATGCAGATAAAATTGCACTTGCACATAATCTAAATGATGTAGTTGAAACTTTCATGTTTAGATTAATGAGAGGGACATCTTTAAATGGATTGTCATCTATCCCTATAAAAAGAGGTAAGTTTATAAGACCTATTTTAAATATAAGTAAAGAAAAAATTTATAACTATTTAAATGAAAAAGGTTATAAATATGTAACAGATGAGACAAATTTTCAAGATATATACACAAGAAATAAAATTAGGCTTAATTTAATACCATATATAAAAGAAAGTTTTAACGTAAAATTTGAAGAAAAAATTATTAAACTGGTTTCAGAAATAGATGAAACTAATAGATATTTTGAAGGAATTATTTCAAAAATAAATTTAGAGAATGAAATTTATATAAGCGAATTAAAAAAATATGATGAATTTATTCAAAGAAAAATTATAAATAAATTTTTATCTAATAAAGAAATAGAAATAAATAGTAATAAAATATATGAAATATTAAATATATTAAATAGCGGTGGTACATTGAAGTTAGATTTAACTAAAGAGTTTATATTAGTAAAAGAGTATGATATTATAAAAATTGTAAAAAGAAATAAAATTTTTAAGAATAACCTAAATGGTATTATAGAAAATTTAGAAAAAGAATTAAAAATAGGGGAGGAGATATTATATAAAAATAAACTTATAACAACTGAAGTAGTAGAAATTTCTAAAATGCAAAAAGATTCTGGAAAAAGAGTGGTATATTTAGATTATAATAAATTAAAAGATAAAGAAAAATTTGTTATAAGAAGTAGAAAAAATGGGGATTATTTTTATCCTAATGGAATGAATGGAAAGAAAAAATTAAAAAATTTTTTTATAGATATGAAAATTCCAAAAGATGAAAGAGATAATATTATAATTATATTAAATGAAAATGAGATAATATCTGTAGAAAATTTAAGATATAATAAAAAATATCAAATAACAGAAGAGACAAAATATGTAGTAATGTTAATAATAAGGGAGGTTTAAATGGAAAATAATAAAAATTTAAATGAAGAAAATTTAGAAGAAAAAAAAGGCATAAAAAAAGAAAAAGAAGAAAAAGATAGTTTAGAAGAGCAAAAAGAAAAAAAAGGTATAAATGAAGAAAAAGAGAGTGAAGAAGATAAAAAAGAAGATAAAAAAGAAGATAAAAAGAATATAAAAGATGAAATTGATTTCAATTTTTTAAATGATGTTAAAAATAAAAAGATAAATTTTAAAAATGTTGTATTACTTTTATTTTTAATTACAATAATTATATCGTTGCCAAGTTTATTTAGTAAAAATAATTTTAAGCAAGAAAAAATAGTTAGTTATACATCTTTTGAAAGCCTTATAAATAGTGGAGCAATAAAAGAGGTAGAAGAAAAAGGCTCGTATATATATGCTATGGTTCCTGGAATGGATAATAAAAATGAAACTATAAAAGCTAGGATGATAGGTTATAGATTAGCAGACGATAAACATTTAATGGACCAATTAATAAAAAATAAAGTTAAAATAAAATCAGACGAACCTGATAAAATGCCTTTTTGGGCAAATATTTTAATATCTTGGTTTCCAATGCTATTATTAATAGGAATATGGCTATATATGTTAAATCAAATGAATAAAGGACCTGGTGGTTCAGGAGGGCAAATATTTAATATTGGAAAATCAAAAGCTAAAGATAACAATGAAAATGGGCCTAAAGTTACATTCGAAGAGGTAGCTGGAGTAGATGAAGCAAAAGAAGAGTTGCAAGAAGTAGTTGAATTTTTAAAAGAGCCAAGTAAATTTTTGAAAATAGGAGCAAGAATACCAAAAGGTGTTTTATTATTAGGATCTCCTGGTACTGGAAAAACTCTTTTAGCAAAAGCTGTAGCAGGAGAAGCAGGAGTACCATTTTTTAGTATTTCAGGATCTGAATTTGTAGAAATGTTTGTTGGAGTTGGAGCTTCAAGAGTAAGGGATCTGTTTAATAAAGCAAGAAAAAATTCACCTTGTATAGTATTTATTGATGAGATAGATGCAGTAGCTAGACAAAGAGGAGCTGGGCTTGGTGGTGGAAATGATGAAAGAGAACAAACGTTGAATCAGCTATTAGTAGAAATGGATGGATTTGGAACTGATGAAAATATAATTATAATTGCAGCAACTAATAGGCCAGATGTACTTGATCCAGCTATTATGAGACCAGGAAGATTTGATAGACAAGTTGTAGTAGATAGACCAGATATAAAGGGAAGAGAAGAGATATTAGTAGTGCATTCAAAAGGGAAAAAATTTAACGCAGATGTAGATTTAAGTATAATTGCTAGAAAAACACCAGGATTTTCAGGGGCAGATTTGGCAAATGTATTAAATGAAGCAGCTATATTGTCAGCACGTCATAATAGCGAAACAATAATGATGGACGATGTGGAAGAAGCTGTAGAAAAAGTAATGGCTGGACCAGAAAGAAAAAGTAGAGTTATTAATGAAAAAGAAAAAAGGATAATTGCTTATCATGAATCAGGACATGCATTAGTTAGATGGTTACTACCGGATACTGATCCAGTGCATAAAATATCAATAGTTCCAAGAGGAGTTGGAGCATTAGGATATACAATGCATTTGCCTACAGAAGATAGATTTTTAGTAAGTAAATCAGAATTTTATAAAGAGATAAAAACTTTATTAGGTGGAAGAGCAGCAGAAGAAATTATATTTAAAGATATAACTTCTGGAGCTTCAAACGATATAGAAAGATCAACTGATATAGCTAGAAAAATGATAACTAAATATGGAATGAGTGAAAAGGTAGGTCCATTAACATTAGGTAAAACAGATGAACAACCTTTCTTAGGAAAAGAGATGGTAAAATCTGGTAATTATAGCGATGAAACAGCTAGAACAATAGATAAAGAAATTTTTGAAATAATTAATGGTTCATATGCTGTTGTAAAAAAAATGTTAACTGATAATATGGATAAATTAGATAAATTAGCAGAAACATTATTAGAAAAAGAGGTTGTTTCAGGTAAAGAGATGGAAGAATTATTTATTGAGGAGGTAGTAGTAAATGAATAGTAAATTTGATAAAGAAAAAATAGAAAAAGCAGTTAGAATGATTTTAGAAGCTGTAGGAGAAAACCCAGATAGAGAAGGGTTAGTAGATACACCAAAAAGAGTGGCAAGAATGTACGAAGAGATATTTGCAGGGATTCATAAAGATCCTGCAGATGAAGTTTCAGTATTTTTTACTGAAGAACATGATGAGATGGTTTTAGTAAAAGACATTGATATCTATTCTATGTGTGAACATCATCTGATACCATTTTTTGGAAAAGCTCATATAGCATATATTCCTAAGAATGGAAAAGTTACTGGACTTAGTAAACTAGCTAGAGTAGTAGATGTAGTTTCTAAAAGGCCTCAATTGCAAGAAAGATTAACAACTACAATAGCAGATGTATTAATGAAAAAACTTGATGCAGAAGGAGTAGTTGTAGTTATAGAAGCACAACATTTATGTATGGTAATGAGGGGAATAAAAAAAGCAGGTTCAAAAACTATAACATCAGCTGTAAGAGGAATATTTAAAGAGGATCAAGGTGCTAGAGCAGAGGCATTTGCATTAATAAGATAATAAAGTTTGTAAGGGGAATATTATGAAAAGGTTGGGGATAAAATATTTAAAAGAAGGAATGGAAATAGCAAGACCTATTTATAGAGCAGACGGAAGAATAGTATTAGGTGTAAATGTAGAATTAACCGAAGACTATATTTTAAGGCTGCCTACCCAAGGAATAACTTCTATATATGTAAAAGATGATAGAACTACTGATATAGAGGTAATAGATATTCTTTCAGATAATATGAGAACTTTAGCATTAACAGAAGCAAAAAAAATAAATGATAAATTATTAGAAATATACAATAAATCTAAAGATAAAAAAATAAATGAAAAAATAATGAAAAATGAGCTTGAAATTGTACATGAAAGATTAAATAAATTAGGGAAAGAGATGGTAGAGGATTTTATGAGAATAAGAAACCCTCTAATAAATCTTATTGATACAAGATTAAATGAAGATTATATATACGCTCATATGGTTAATGTAGCAGCAGTATCTATATTAATAGGAAGAGCTTTGGGGTATAATTTTGAAAAATTGGTTGATTTAGCAAAAGGGGCATTAATACATGATATTGGGATAATAATTGGAATTCCTTATGAAGTAAGAAATAAAAGTGGAAAATTAACAGAAGAAGAATTGGTTATGATGAAATTACATCCAAAAATAGGTTATGATTTTATAAGGAAAATGACAGGTATAAATATATTATCAGCTCATGTAGCTTATCAACATCATGAGAGGTATAATGGTCATGGTTATCCAAGAGGGTTAAGTGATGGGAATATAAGTGAATATGGATATGTAGCAGGGATTGCTGATGTTTATGATGCAATAACTAATAATAAAAGTTATAAATTGAGAGTTTTACCTGATAAAGCAAGAGAATTTTTTATGGTAGCTAGGGATAAATTTTTTCCGGCATATATTGTAGATTCTTTTTTAAATAAAGTACCAGCATATCCAAATGGAACAACTTTAATACTATCAGACGGCAGTGAAGCCGTGGTATTAAAACAGAATAAAGATAACTTATCAAGGCCTTGGGTAAGAATATTAAATAGTAATGGAAAAGATTGGGCAGATGTAAATTTGATAAATGAACTGAATATAGGTATAGAAAAAATATTGGATTAAATATTTACAAAAAATGGTAGTTATGATATAATATAGAAGAATTTAGTCTAAGTTTTGCGTTTGTCAGCGTATTACTTTGATTAGATAATAAAATCAGGAGGTATTTAGACATGGCAATGAGATCAAAAGAAGAAATAGTAAAAGAATTTGGGAAAAAAGAAGGAGATACAGGTTCTACAGAAGTACAAGTAGCTTTATTAACTGAGAGAGTAAAACATTTAACAGAACATTTGAAATCTCACAAAAAAGATTACCATTCAAGATTAGGTTTATTAAAATTAGTAGGAAAAAGAAGAAGATTATTAAACTATTTAAAATCAAAAGATATTGAAGGATATAGAGCACTTATCCAAAAATTAGGAATAAGAAAATAATTAAACGGGATTTTTATCCCGTTTTTTTTAAAGAGAAAGAAACGGAAAGGGAGGAAACTAAATGTTTAACGAAAAAATGGTAGAAATGGAATTAGCAGGAAGAAAATTAACATTTACTACTGGAAAAATGGCAAGACAAGCAGGAGGAGCAGTTATCCTTAGCTATGGAGAAACTGTATTATTAGCAACTGTTGTAGGGAAAAAGAAACCAAGAGAAGGGGCAGATTTTTTTCCATTAACAGTTAATTTTATAGAGAAAACATATTCTGCAGGTAAAATACCTGGAGGATTTTTCAAAAGAGAAGCAAGACCTTCAACAAATGCAACATTAACAGCAAGACTTATAGATAGACCAATAAGACCTTTATTTCCAGAAGGATTTAAAAATGAAGTACAAATAGATATAACAGTTTTATCATATGATGGAGAAAACACTACAGATTATCTTGGTATAATAGGTGCTTCAGCAGCACTTAGCATCTCAGATGTTCCATTTTTAGGACCAGTTGCAGGTGTTATAGTTGGTTATGTTGATGGAGAATATGTATTAAATCCATTGCCAGAACAATTAGAAAAAAGTGAAATAAACTTATCAGTGGCAGGAACTAAAGATGCAATTACAATGGTAGAATCTGGAGCAAAAGAAGTTTCAGAAGAGCTAATGTTAGGTGCAATTATGTTTGGACATGATGCTATAAAAACAATAGTAGCTATACAAGAAGAGTTTCAAAAATTGGCTGGGAAAGAAAAAATGGAATTTGAAGTAAAAGAGGTTCCAGTAGAGATTAAAGAGTTTGTAGACATAAATGGAAAAGAAAAATTAGAAAAAGCTGTTTTGGTTCATGGAAAATTAGAAAGAGAAGAAGCTGTAGACAGTTTAGAATTAGAATTAGAAGAGCTATTAGCTACAAAATATGAAGATGGTGAAATTCCAAAAGAGGATTTAAGTGAATTTAAAGGATATTTTCATGATTTAATGAAAAAAATGGTTAGAGATACTATTGTATATAAACATCACAGAGTTGATGGTAGAGCGATAGATGAAATCAGACCAATTAGTATAGATATAGATATATTACCAATTCCTCATGGAACAGCACTATTTACAAGAGGAGAAACTCAAGGATTGGTAATAACTACATTAGGAACAGCAGAAGATGAACAAATTATAGATGGACTTGATAAAGCAATTAGAAAACATTTTTATTTGCATTATAACTTCCCACCTTACAGTGTAGGTGAAACTGGATTTTTAAGAGGTCCTGGAAGAAGAGAATTAGGACATGGAGCTTTAGCAGAAAGAGCTTTAAGAGAGGTTATGCCTTCACAAGAAGAGTTCCCATATACAGTAAGAGTTGTATCTGAGATTTTAGAGTCAAATGGTTCTTCATCTATGGCAACAGTTTGTGGTGGTTCATTGTCGTTAATGGCAGCTGGAGTTCCAATAAAAAAACATGTTGCTGGAGTTGCAATGGGACTTATTAAACAAGGAGAAGATTTTGTTGTATTAACAGATATAATGGGATTAGAAGATCATATAGGGGATATGGATTTTAAAGTTACAGGAACTAGAAAAGGTATTACAGCTTTGCAAATGGATATAAAAATTACTGGAATAAGCAGAGAAATAATGGAGAAAGCATTAGAACAAGCTCTAAAAGGAAGATTATTTATATTAAATAAAATGGAAGCTGTAATTGATAAACCAAGAGTAGAATTTGCTCCAACTGTACCAAGATTAGCTACATTAACTATAGATAAAGAAAAAATTTCTGACTTAATTGGACCTGGTGGAAAAAATATTAAGGGAATAATAGAAAAAACAGAAGCAAAAATAGATATAAAAGATGATGGGAATGTTAGTATATTTGCTATTAATGAAGAAAAATTAAATGAAACATTAACTATGATAAAAGCATATACTCAAGATATTGAAGTAGGTGAAATATATACAGGAAAAGTTATCAAAATAATGAAATTTGGAGCTTTTGTAGAAGTATTACCTGGAAAAGAAGGGTTATTGCATGTATCAGAATTAGACCACAAAAGAGTTGCAAATGTAGAAGATGTATTAAAAGAAGGCGAAGAAGTTATGGTAAAAGTTATAGGAAAAGAAAAAGGTAAATTTAGTCTTAGTAGAAAAGCATTAATACCAAAAGAAGAAAAATAAAGGGAATTTATTCCCTTTTTTACTTACTAGGAAAGTATAAATTTGTCTAGAAAATAAGCTACGCTATTTTTTTGAAATATGCGATTTTTCAAAGCGAAATTTTTCAGAAGCCAAAAATTTTGAAAAACATTTATGTTCTACCAGATGAAGCGTAGCTTATTTTTTTACTTTAATGTTTTTTAAGAAAGGAGATTATAAAATTATGTGTAGAATAAATCCAAGAGTAGATTTCGTATTTAAAAAATTGTTTGGTTCGGAAGAGAATAAGGATTTATTGTTAGATTTTATAAATTCAGTAGTATCAGAAGATGATAGAGTAACAGAATTAGAACTAAAAAATCCATATAATGATAAGAATTTTAGAAATGATAAATTATCAATATTAGATATAAAAGCAGTAGATCAAAGAGGGCGTTGGTATAATATAGAGATGCAGATTATTGATCAAGAATATTTTGATAAGAGGGCTTTATATTATTGGGCTAGATTATATTCAGGTCAATTGTCAACAGGAATAAATTATGATAATTTAAAGAAAACAATAAGCATAAATATATTAAATTTTAAATGTTTAGATGAGGAAAATTATCATAATATTTATAAGATAATAAATATGGAAAGTAAAGAAGAGTTTATAGATCATCTAGAGATACATTTTATAGAGTTAGAAAAATATAACGAAAATTTTAGCACAATGTTAGATAGATGGGTAAATTTTCTGAAAAGAGCAGAAAAATATGAAGAAAATAAACTTCCAAAAGAATTAGCAGAAGTATCTACAATAAAAAAAGCAGTAGAGATATTAGAAGAGATGTCATTAAATAAGGATGAGCGAGAAAGTTATGAAGCTAGATTAAAATGGTTAAGAGATGAAGATGCAGCTTTAAAAAAAGCTGAAAAAAAAGGAAGAGAAAATGGGAAAGAAGAAGGAATAAAAGAAGGAATAGAAAAAATTGCTAGAGAAGCATTAAAAAATAAATTGGATTTAAAAACTATATCAAAAATAACAGGATTAAGTGAAGAAGATATTTTAAGATTAAAAAATTAGAGATACAAATCTTCTTTAGAAAGGAGAAAAATGAAATTAGCTTTAGTAAGTTTAGGATGTCATAAAAATTTAGTAGATAGTGAGAATTTAATTGGGATATTATCAAAACGAAAAGATGTTGAGATAATATCTAATATAGAAGAAGCTGATGTAGCTATAGTGAATACTTGTGGATTTATAGGAGATGCAAAAGAAGAATCTATAGAGACAATAATAGAAGTTGGAGAATTAAAAGAAACTGGTAATTTAAAAAAACTAATTGTGGCTGGATGTTTAGCACAGAGATATTCAGAGGATTTGATGGAAGAATTATCAGAAATAGATGGAATAATAGGAACAGGTGAAATAGATAAAATAGAAGAAGTTTTAGATGAAGTGATTGATGGGAAGAAAATAATCAAAAGTGAAAGTTTAGATTTTCTAGCTAATAGTGAAACAGAAAGAGTCATTACAACTATGCCACATACAGCATATATAAAAATTGCTGAAGGGTGCGATAATAGATGTGCTTTTTGTATAATACCTTATTTAAGAGGAAAATATAGAAGTAGAACAATAGAAGATATAATTAAAGAAATAGAAAATTTAGTATCAAACGGAGTAAGAGAAGTGAATATTATAGCCCAGGATACTACAGAATATGGAATTGATATATATGGAAAAAGAAGATTAGCAGACCTTTTAAGAGAAATTGCAAAAGTGGAGGAATTGGAAAGAATAAGAGTTTTTTATACATATCCTAGTAATTTTGATGACGAATTAATTAAAGTTATTAAAGAAGAAGATAAAATATGTAAATATATAGATATTCCTATTCAACATGTGTCAGATAAAATATTGACATCTATGAGAAGAAGAGGGACTGCAAAAGAGATGAAAGAACTACTTTATAAAATAAGAAGAGAAATACCAGAAGCAGTCTTTAGAACATCTTTAATTGTTGGATTTCCTGGAGAAACTGAAGAAGAATTTGAAGAGTTAAAAGATTTTGTAGAAGAATTTAAATTTAATTATGCAGGAATATTTAATTTTTCAAGAGAAGAAGACACACCTGCTTTTGATTTAGAAAATCAAATAGATGATGATACAAGACACAAGAGATGGGTAGAGCTTACCAATATACAAAGTAAAATAGCAGAAAATATAAATAGAAAATATATAGGAGAAGTTGTAGAAGTAATAATAGATGGCGTATCTGAAGAATCAGAGTATATGTTAGAAGGTAGAACTTGTGGACAAGCTCCAGAAATAGATGGAAAAGTTTTGATTAATGATGGAACTGGAGAAAGAGGAGAAATTGTAAAAGTTAAAATTGAACAAAATTTTGATTATGATTTATTAGGAGGGATAATAGAAAATGAATTTACCAAATAAATTAACTCTTTTAAGAATAGTATTAATAGTTCCATTTTTAATATTTTTAGAATTGGATATGCCAATTGCAGCAGTTTTAATATTTGCAATAGCTTCAATTACAGATTTTTTTGATGGATATATAGCTAGAAAAGATAATTTGATAACAAAATTTGGTAAATTAATGGATCCATTAGCAGATAAAATTTTAGTTTTATCTGCTTTGACGGTTTTTGTGGAATTACATTATATACCTTCTTGGATGGTAATTATTATATTTACAAGAGAATTTTTAGTGACAGGTTTGAGAATTTTGGCAGCTTCAGATGGAGTGGTTATAGCTGCTGCAAAAATTGGAAAATATAAAACAGCATCTCAAATGATAGTGATTATAATAGTTATTTTTACTAAAAATTCTATAATTAGTCAACTATTAATGTTGATCCCTGTGGTACTTACTATATGGTCTGGGTATGATTATGTAATAAAAGGTAAAAAATATTTTTTGGATGATTAATCTACAATAGGAAATTACATTTTTAGGGTTTAATCATTAGATGATTAGAAATTAAAATGATTTTATGAAATTTATAAAAATAATATAAGGAAGTGAGATAATTATGAAAATAGGATTTATTGGTGCTGGAAATATGGGTGAAGCTTATATAAGTGCTTTATATAAAGAAAAAGAAATTTTATTTTATGAATTAAATAATGATAGAAGAGAATATATAAAATCAAAGTATAATGTGGAATCAGCAAATACTATTTCAGATTTAATATTGGGTGTTGATATAATTTTCTTAGCAGTAAAGCCACAAGTTATGAAATATGTATTAGAAGAATTAGCAGAATTAAAGCTTGATAATAAAATTATAATTTCTATTGCAGCAGGAATAAATTTGAATTTTTATGAAAAATATCTTGGAAAAAATAAAAAAATAGTTAGAGTAATGCCAAATACTCCAGCATTAATAAGAAAAGGGATGTCAGGGGTAGTATTTAATGAAAATTTCAGCGAAAAATCTGAAAAAAATGAGATATTAGAACTATTGTCTGCAACGGGAGAAACTATAGAAATAGATGAAAAAGGATTAGATATATTAACTGCAATATCAGGAAGTGGGCCAGCATATGTTTTTGTATTGATAAATAGTTTAGCAGATGGTGGAGTTAAATTAGGACTTTCAAAAGAGGTGGCTTTAAAATTAGCTGTTGAAACATTTATTGGTTCAGCGGAGCTCATAAAACAAACAGGGAAGCATCCTGAGCAGTTAAAAGATATGGTAACTTCACCAGGTGGAACTACTGCAGCAGCACTTTTTGATATGGAGAAAAATGGAATTAGATATACAATGGAATCAGCTGTGGAGGCTTGTTATTTGAAAGTTAAGGAATTAGCTGGAAATAAATAAAATAAAAGAGATAAAAAGATTTTTTTAACCACAGGATTAAAACGGATAAAAGAGAACAGGGAGGATTAAAAGATGATTGTACTTATAATTAATTTAGCAGTTAGAGTAATAGAAGCGTTAATATTTATTAGGATAATATTGTCTTGGATTATGCCACGTGGTGGACAAAACAGTGATTTTGGAAGGTTTATTAATGATTTGACAGAACCATTACTTGCTCCTTTTAGAGTGGTTTTGCCACTAGGAAATATGGGAGGATTAGATTTATCACCAATTATATTGTTGTTTATTTTAGATATTGTTAGAAACTTTGTAGTGAGAATGCTTTAGAAATGGATTAAAAAAATAGGAGATAAAAATGTTTGAAGAAAAAGATGGGAAAATATATATAAATCTATATGTGCAGCCTAAAAGTCAAAAAAATGAGATAATTGGAGAATATAATGGTAGATTAAAAATAAAAATAAGAGGTCTGCCAGCTGACGGAGAAGCCAATAAAAATATAGTTAATTTTTTCTCTAAATATTTAAAGACTGCTAAAAAAAATATAGAAATCGTATCAGGAAGTACAGGAAGAAATAAAAAAATAGCAATATTAGGACTTAACTTGGACGAAATTAAAAATAAGATTTTATAGTTTAAAAGTAGGAGGGAAAATGAAATTAAAAGAGATAATGGAATTAATTGATGCGGAAATTATAGTTGGAGAGGAATATATAAAAGAGATGGATATAAAACATGTTGGTGCAGCTGATTTAATGAGTGAGGTTTTAGCATTTGCCAAAGAAGATTCGTTATTGCTAACAGGGCTAACAACACCTCAAATTATAAGAACAGCTCAAATGATGGATTTAGCAGTAATTGTTTTAGTAAGAGGGAAAATACCTCAACAAGATACTATAAATTTAGCGAAAGAGGTAGGAATACCAGTTCTTACTACAAAAGAACTTTTATATACTGCATGTGGTAAATTATATAACGAAAAACTTGAAAGTTGTTAAAATTTTTATCATAACAACATATTTTTAAATTATTAAGGAACGGCTTAAAAACAACCTTTTTATTTTGTTTTAAAATACGCAACGGTTCAAGCGTTTTTATAACAAAATATATAAAATTATTTTTAAACATTCTTCAAGCGTTTTTATAACAAAAAATGAGAAACTTATTTTTTAAACGTTCTTAAATGGGGGATGTTAGTTTTAAGCCATTCACAACTGGAGGTTAAAATGGATGTAAAAAATATGGATATTTTGCAGAAATATAAAGATTTTTTTAAAGATTTAACTGCAAAAAATGTAATGAATAGTATGCTAATAGTACTAAAAGAAGAAAATACATTTAAAGAAGCTCAAGAGATAATGAAGAATAAAAAAATATCTGGGATACCAATTGTAGATGATAATTACCAAGTTATAAATATTATAACAATGGAAGATATAATAAATGCACTTTCTAACAATCAAATTGATATGAAAATATCAGTTAAACAAAGGAAAAAAGTTGTGGCTTTAAAAATGGAGGATGATTTTGAAAAAATAGTAGAATTTTTAAGTACTTATGGATTTGGAAGATATCCTGTAGTTTCAGAAAACAATACTTTAATTGGAATAATAACAAAACAAGACCTGTTATTTTCAGTAGTTAGTAAATTGTCAGTATTATATTTGCATGATGAAAGAAGAAAAGAGATATTGGATTCTCCACTTTCTGTTTTTGTTAAAAATAATATTAATAAAAATGAACCTCAATTTTGCTATTCTATAAATAATAGTAATGTTAATAACGCAGGAGAAGGTTCAGCATTATTAAAAAATTTCTTAAAAGAAAAAGGGATAGAGACTAAATTAATAAGAAAAATAAGTATATCAACATATGAAGCAGAAGTGAATGTGGTTATTCATGGTGGCGGAATAGGAAAAATAGTTGCTGAAATTACTGATGAAAGTATAGTGGTATTTGTAGAAGATATTGGTCCTGGAATAGAAAGTATAGAAAAGGCTATGACAGCTGGATTTTCAACTGCTCCTGAATATATAAGGGCACTTGGATTTGGTGCTGGAATGGGAATACCGAATATAAAAAGATTTGCTGACAAATTAATAATCACTTCTGAAAAAGGGAATGGAGTAAAAATGGAAATGATATTTTGGAGGGAGAAATTATGATGAAATTGGGGAATAGATATGAATTTCATACGCATACTTTATTAAGTGATGGAGAACTTTTAATTAGTGAACATGTAAGAAGAGCCGAAAATTTAGGTTATGAGGTTATTTCAATAACAGACCATGCAGATGTTACAAATATAGATGAAATTTTGTCAAAAATAGGTGAATTTATAAAATCAGAAGGACAATATTATAAAATAAAAGTTTTGCCAGGAGTGGAATTAACTCATGTACCACCTCAAATGATAAATGAATTAGCAGAATATTCAAAAGCAAAAGGTGCAAAAATTGTTGTAGTCCATGGAGAAACAATTGTAGAACCAGTAGCTTTAAAAACAAATTTATATGCTGTTAAATCAAAATATGTAGATATATTGGCACATCCTGGATTGATTACAGAAGAAGAAGTAAAATTAGCTGTAGAAAACAATGTATATTTAGAACTGTCAGCAAGAAAAGGACATTCTTTAACTAATGGACATGTCGCAAAATTGGCTAGCAAATTTGGAGCAAATATGTTAGTTGATACTGATGCACATTCGCCAGATGATTTTATATCACAAGAATTTGCATATAAAGTGGCACTTGCTAGTGGATTAAATAGTGAGCAGGCATATAAAGTAGTATCATTAAATCCTTTGAATTTTATAAAGAAAATTTTAGATTTATAATAAGGGACTTTAAAAAAATTAATGAGTCATTTGTTTGAAAAATATGAACGAATCTACAGATTTTCTCAAACAATTTTGACGAATTTATTTTTTATTGTACCTAACAAAAAGAATAGCAATTTTTAGCTATTCTTTTTTTATAATTATGGTAAAATATAGATAAGGGTCGTAAAAATAAAAAAGAGAGTGAATTTTATGATTAATATAAATTTAGATAAAAAATTAATTAATATGTTTAATGAAATAATAAAAAATGGTGGGAAGCCTTATATTTGTGGCGGATATATAAGAGATTATATATTAAATATTAAAAATAAGGATATTGATATTGAGGTTTTTAATGTAGAATTTCAAAAGTTATATGATATATTAAATAAATTTGGAAAAGCTAGAATCGTTGGAGAAAGTTATAAAATAATTTTAATTGGAGATTATGAATTTTCTGTTCCAAAAGAAAATTTAGATATAAAATCAGCAGGAAGAAGAAGAGATTTTACAATGAATTCTATATATTATGATTTTGAAAGTAAAAAAATAATAGATTTTTTTAATGGAATAGAAGATATAAAAAATGGTATAATTAGATTAGTTGATGATAAAAATATAGATGATGACCCTTTAAGGATTTTAAGGATAGCACAATTTTTAGCGAGATTAAATTTTAAAGTAGATGAAAAAACAGAAAAGATAGCAATAAAAAATAGAGAAAAAATTTTAAACATAGCAAAAGAAAGAATATTTATAGAATTTGAAAAAATATTGTTGAAGGCAAAAAAACCTTCGTTAGCATTTCAATGGATGAAAAAAATTGGATTATTAAAGTTATTATTTCCTGAATTGGATAGATTAAGCGAAATCGAACAAGGAGACAAATTTCATCCTGAAGGGGATGCATTCACACATACAATGTTAACATTAGATGTGTTAGAAATTAATGAAAGGAATATAGAGGTTATGTTGGCTATATTATTTCACGACATAGGAAAGGCAATTGTAAAAACTAATAAAATAGGGAATCATATTACATTTTATAGACATGAAATAGAAGGAGCTAAATTATCAAAAAAAAGTATAAAAAAAATGACTAGTTCTAAAGAGTTAGCTAAAAATGTTTTTAGTTTAATAAAATATCATATGGTACCATTTAATTTTTCAAAATCAATAAATAGAAAAACTATAAAAAAATTATCAGTAAAAGTTGATTTTTTAAATTTGATGTTACTGCATAAAGCAGATTATTTAGGGAGAAAGAATATAGATGAAAATATTTTATACGTTAAGGAATCAATTGAAATATACGAAAATATAAAAGAAGAGACAAAACCTATAATTAAAGGGAAGGACGTTATAAAACTAGGTATAAAACCTGGTCCTGAAATAGGTAAAATATTAAAATTAATATATATAGCTCAATTAGAAGAAAAGTTTTCAGATTATGAAAGTGGGATTAAATATTTGGAAAACTATATTTCAAAATGGAATAAAAATATAAATAAGGAGATGTAAAAATGGCAACATATACAAAAAAGATAAAAGTAGGAGATATATTTATAGGTGGGACAGAAAATGTAATAATTCAATCAATGACAAATACAGACACAAGAGATATAGAGGCAACTGTAAATCAAATTTTAGAACTTGAAGAAGCAGGTTGTGAATTAGTGAGAGTTACAGTTCAAGATATAGAAGCAGGAAATGCTATAAAAGAGATAAAGAAAAAAATTAATATTCCTCTTATAGCAGATATACATTTTGACTATAGATTAGCAATATTAGCAATAGAAAATGGGATAGATAAGTTAAGAATAAATCCAGGGAACATTGGAGAAGATTGGAAAGTAGAAAAAGTTGTAGAAAAAGCAAAAGAAAAAAATATTCCAATTAGAATAGGTGTAAATGGTGGTTCATTAGAAAAACATATATTAGAAAAATTTGGACATCCTACAGCTGAAGCTATGGTGGAAAGTGCAATGTATCATATAAAATTATTAGAAAAATTTAATTTTAAAGATATATTAATTTCGTTAAAATCAAGTGATGTAAGAGTGATGAATAAAGCATATAGAATGATAAAAGAAAAAGTTGATTATCCACTTCATCTTGGAGTAACAGAAGCTGGGACTTTCTTTCAAGGAACTGTAAAATCAGCAATTGGAATAGGAAGTTTATTATTAGATAATATTGGTGATACAATGAGAGTATCATTAACAGAAAATCCTGTTGAAGAGATAAAAGTGGCAAAAGAGATTCTAAAAGTTTTAGGTATAAGGAAAAATGGAATAGAGATAATATCTTGTCCAACTTGTGGAAGAACAGAAATTGATTTAATTGGACTTGCAAAAAAAGTGGAAAAAGAGTTTAGTAATATAGAAAAGCCATTAAAAATTGCTGTAATGGGGTGTATTGTAAATGGTCCTGGGGAAGCCAAAGAAGCAGATTTTGGAGTAGCAGGAGGAAAAGGTGTGGGAATAATATTTAAAAAAGGGGAAATAGTTAAAAAAGTAAAAGAGGCGGATATACTTAAAGAGCTAAGGGAAATTGTGAATAGGGGATGATATGAATGAAAAGTAGTAAATTAAAAATGATATATGCTTTAATAACTATTTTATTTATATTTATAATTGTTGAATTAAATATAAATAGCGGGATTGAAGATATAAAAAACAATAAAAAGATTTTAAAAAATATAAATTCTGAATTAAATGAAAGATATTTTATGAAAATAGAAAGATTATTAGATAAATTATCTAATAATAAAAATATATTTAATAAAAATGTAGGAGAAAATATTTTTGAAATTTTAAAAGAAAATTTAGATTTAGGTATAATTTATATATTGGATAAAGATGGAAACGTTTTTATATCTACAACAAAAGGGATGTACGGAAAAAATTATAAGTTTAGAGATTATTATAAAAAAATAATATTGGATGGGAAAGATAAATATATTGATTATGCAGTAGGAAATGTTACAAAAAAAAGAGGAATGTACTTTAGCAAATTAATAGTTAATAATAAAGATAAATTCGTATTAGTAATAAAATTAAATTTGAAAAAAGTTGATAGTTTTTTAAAAAAATATAAAGAAAATATAAATTTAATATTAAGTGATGGAGTAATAATAGCTTCAAATCGAGAAGAAAATATATTAAAAACAACTGGAAAAAATATGAAAAAAGATTATAAAAAATATAATGGAATAAATATTATAAGTATAAAAAATAAATTAGATAAAAAATATAATATGATACTATATAAAAATCATACCAATGATAAAATAGTAATGTTTGAAGAAAAAAATATAATAAATTTAAAAGAAAAAGACTATAAAATTATATTGATAATTTTCATTATAATGTTTTTATTTATTATAATTATATATTTTATTTTAAAGAAACTTAATGAAATAGAGGAAATAAAAGAAAATTTAAAAAAATATCTTTGGGTAATAGAGCAAAATCCTCTTTCTATTATTTTAACAGATAAAGAGTTTAATATCGAGTATGTAAATGTTGAGTATCTAAAAAGATATAAGATATATAAACCTATAGTTGGAGAAAAATTTGAATTAAAAGAGGATTGGAATGAGATACATAAATTTTTAAAAAGTGATAATGTTTGGCAAGATGAAAGAAGAAATACTAAAAATGGAAATTGGGAAAAATTAATAATGTCAACATTAAGAGATGAAAATGGTGAAATAGTAAATCATGTAATAACAGAAGAGGATATAACAGAAAGAAAATTATTAGAAGAGAAATTAAAAAAATTAGCAACAATAGATGAAATGACAAAAACATATAATAGAAGAGCAGGTTTGGAAATTTTAGATAGAAAGATATTAATGGCAAATAGAGAACATATAGGAATATCTGTGATATATGTAGATGTTGATAATTTGAAATCAACAAATGATATATATAGTCATAAAGAGGGTGATAATCTTATATTAACAGTAGTAAAAATAATGAAAGAAAGCATAAGAGAAGAGGATATAATAACTAGATTAGGTGGAGATGAATTTTTAATTGTTTTAATAGATTGTAAATTAGAAGATATAAATTTAGTATTAAATAGAATGGAAGAAAAAAGAAAAATATATAATAATAATTCAAATAAAGAATATGAAATTTCTTTTAGTTGTGGAACTGCTAATTATAATAAAAAAAGACATAAAAATAGTATGAAATTAATTAATGAAGCTGATAGTAAAATGTATATTGAAAAATCAAAACATAAAAATTGCGAGGAGTGAAAAGATGAATTTTAAATATTTTCCAAAATTAAACGGATTAAATAAAATAACAATGGAAACAACAGCTTTAAAACTTATGGAAGAAGCTGGAGAATTGTCACAAGCTATTTCTAAATTTAGAGGATTAAATGGAGAAAAAGTTAATATGACAGAAGAAGAGGTATTGGAAAAAATAACAGGAGAACTTTTGGATGTAATGCAAGTGTGTGCAACAATGACATATGTTATAGAGGAAAAATATGATATTAACTTAGATGATGCTTTAGTAAAACATTTGAAAAAACTAAAAGATAGAGGTTATGTAAAATAGTTTTTGGAGTATGATTATATATTATAATAGGGAGGTAACTGTGAGTAAAGTAGCTTTGATGAAATGTGATGATTATAAATTTGATAATTTATATAAAGTTATAAAAGAAGGATTAGAATTAACAGGAGGAATCAAATTTGTTAAAGATAAAAAAGTTTTATTAAAACCTAATTTACTTTCACCTGAAAAGCCAGAAAAAGCAGTTACCACTCATCCAGAAGTTGTAAGAGCTGTGATAAGAATATTACATGAAGCTGGAGCGAAAGTTTATGTTGGAGATAGTCCAGGAACAGGAACTCAGGAGATAATTTATAATGTAACTGGTATGAAAAAAGTTATTGAAGAAGAAGGCGCAGAATTTGCTGATTTTAAAAATAAAGTTGAAGTATTAGTAGATGGAAAAGTAGTGAAAAAATTTATATTTGCTAAAGCAGTAAAAGATGTAGATTATATATTTTCATTGCCCAAATTAAAAACTCATGCAATGACATATTATACAGGTGTTATAAAAAATTTATTTGGGACAGTACCAGGCATATTAAAACCTAAATTTCATTATACTTTTTCAGAAAAAGATAAATTTTCTGAAATGTTAATAGATTTAAATATTGCATTAAAACCAATTTATGGTATAATGGATGCAGTAGTTGGAATGGAAGGGAATGGTCCTAGAAATGGAGACCCTAAAAAAATAGGAGCTATTTTAATATCAAAAGATTTTATAGCCTTGGATGCGACAGCTTGTAGATTGGTAAATATATCGCCGTATGATGTAATGCCAATAGTAAAAGGATTTGAAAGAGGATTAGGAGAAATAGATAAAGATAAAATAGAGATATTAGGAGAAAAAATAGAAAAATTAGAAGTAAAAGATTTTAAAAAAGTAAAAAAAGAGCTTAAAGTTGGAATGCTTATACCTGTTCCAAATTTTATAAACAAATTTATAAAAAATATATTGGTGCCAAAGCCATATTTTGATGAGAAAAAATGTATTTTATGTGGTGAATGTGTAAAAGTATGTCCACCAACTCCAAAAGCTTTAAAAATAGAAGATGGAAAAGTAAAAATCAATAGAGAAAGATGTATAAGATGTTTTTGTTGTCAAGAGATGTGTCCTGTAAATGCAATAGAGCCTAGAAGAATAACAGGGAATAAAAATACATTTAAATAATTTTTTAAAGGTTTATTATGATAAAAAAATATTAAGGAATGGCTTAAAAATAACCTTCCGATTTTGTTTTAAAACACGCAATGGTTTAGGAACGCTTTAAAAACAACCTTATCCTTTTGTTTTAAAATACGCAACGATTCAAGCGTTTTTATAACAAAATATATAAAATTATTTTTAAACATTCTTTAAGCGTTTTTATAACAAAAAATGAGAAACTTATTTTTTAAACGTTCTTAAAAGAGATGAGGTATAAAATGCATTCTGAATTTGCGTATATTTATGATGAGGTTATGGAAATAGCGAACTATAACGAATGGTATGATTTTTTAAAATTAATGTTAAAAGACATAAATTTTAATGGAACAGATATAATGGATTTGGGTTGTGGAACAGGAGAGATATTGATAAGGTTATATAAAGATGGGTATAAAGTATTAGGGGTTGATATATCTTCAGATATGTTATCAGTGGCACAAGATAAAATGGTAGAAGATGGCATTAGTATACCTTTAGTAAATATGGATATGAGAGAACTAAGATTACCTGTTGAAGTAGATTTGGTAGTCTCATTTTTTGATACAATAAATTATCTAACTTCAGAAAATGAGTTGGAAACAACTTTGGAAAATATATATAAACATTTGCCTAAAAATGGATTTTTTATATTTGATATTGTAACAAGAAAATTAATAGATGATATGTTTGAAAATAATATATTTTTGGATGAAAGAGAAGAAATAACAATTATTTGGAGACATTTTTATAATGAAGAGGAAGGATTAGATGATTTTCATACAGTTTATTTTGTGGAATTTGAAAAAAATTATTATAAAAAAATAGAAGAATTTCATCAAAAAAAGATTTTTGAAATAGGAGTTGTGGAAAAAATAGCAGAAAAAGTTGGATTTAAAATTGCCAAAAAATATGAAAATATAGAATTAGCTGGGGAAAGAATATTTTTTGTACTAGAGAAAGTTTAGGAAAACGGGAGGAAAATTTGAAAAAGATTGCTAGAATTAGTTACATAAATTTTTTATTAATTGGATTAACTTTTAATTTATTAGGAGTAAGTTTAATTTATATTGCAAAACATTTTAGTGTTGATACAGCAATAATAGGGTATCAATTTGGATTTTTTACTATTGGAAGTACTAGTGGAATATTTTTTACTAATTTTTTATTAAAAAAAATGGATATGAAAAAAATCTATATATTTGATTATGTTTTGTTAATTATAGGTATTTTAATTATAGGAAATACATTAAGTTTAGATGTTTTTAGAATTGGATTAATTATATATGGATTAGGTCTTGGAGGGCTTGTATCTAGTTCTAATTTTTTAATAATAGCTGGATTTAAAGAAAATAGAGCATCTATTTTAACAATGGCTAATTTTTTTTATAGCTTTGGAGCAATATTATCTCCATTAATAGCTGGATACATTTTAAAAATAAATATTAATTGGGTATGGATATATAGAGGAACAATTTTATTGATTATTATATTATTTTATTTAGTGATAAAATCTGATTTTAAATTTTTAAAAGATAGTAATGAAGATAAGAGTGAAAATGAAGAAAAAGAAAAATGGGGAATAACAATTTATTTAGTAGCTTTTGCAATATTTTGCTATGTTTTAGCAGAAATGGTTTTTTCATATTGGATAGTAACATATTTAAAAATGGATACAGGATTTAAAATAGAGATAGCAAGTTTTGGATTATCTTTATTTTGGATATTTATGGCAATTGGAAGATTTTTTTCAAGTTATATAGTAAAGAAAATGAAAATAGAAAGTTATATTATTTTGTCAGCTGGAATAGGATTTTTAGGATATATACTAATATCACAATTTAATTCTATAATTTTAATTTATGTTTTAATTGCTATTACAGGATTAGGATTTTCTGGAGTATACGCAGCTGTTTTAGATTTTGGAACAAAACAATTAAGAAATACTTCTGCAAATTTAATGACATTTATAATAGTATCAGGTTCCTTTGGTGGAATTATGTCATCTCCTATTTCAAGTTTTCTTAAAGAAAGAGTTTCTATAAAATATTCATTTTTTTCAGGTGCAATTGCAATTTTATTAGTACTTGTATTAATAGTAATTGCAGAAATTTTACAAAAAAGAAGGGGAAGAAATGAGAGATGATTTTAATGCAAATATTGCAGGATATAGACGAAAAGGAAAAAAAATATTTATTCAAATAGATGCATTACCATATGAAATGTTATTAAGAGCTATAGATAGAGGATATACCCCTTTTTTGAAAAAATTAATAAATAAAAAAGGGTATACAGTGAATAAAATATTTTCAGAATTGCCAAGTAATACTCCAGCAGCTGAAATGAAAATAATGTATGGTATAAAAAATTGGATAAAAGGTTTTAGATGGTATAATAAAAAAGAGAAGAGACATTACAATTTTAAAAATCCTTTGACAGCAAATTATTTTGAAGAAAAAGCTGAAAAATTCACAGAAAAACCTATTTTAAAAAATGGGGCTAGTTACATTACATTTTATTCTGCAGGAGCGAAAAGGACAATACTTACATTTAGCAGAGGTTTAAAAATAGATGTAAACAAATCAATTACAAATAATAAAATTTGGCAATTTATACTTATAAATACAGATTTTTTAATAAAAGTAACAATTGATGTAGTTGAAGAACTATTAAAAGAAGGATTAAAATTTATAAAATATATTTTAATAAAAAAAAGAAAGATAAGAGGTTTATTATTTCCTTATGTTAGAATAGTTAATAATGTATTATTTAGACATATTGCTACAATGGGCTCTATTTTAGAAATGAATGAAGGTGTAGAAAGAATATATTTAGTGTATAATGGATATGATGAAGTGGCTCATCAACTTGGAGCAGATGCAACAGAATCTTTAAAAACATTAAAGAAAATAGACAAATCTATAATGAATATTTATAAAACAGCTACAAAAAAAGGATATGAACTGTATATTTTTTCAGACCATGGTCAAACTAATAGTATACCTTTTGAAGAATATTATGGAATATTATTAACAAATTATATAAAGCAAGAAATTTCCAAAGATATAGGAATTTCTGAATATAGTTCTGATAATGAAAATAGAAAAGAATTACATTTATATTTTTTAGATAAAATTTTTAAAACTGTTTCAGAGCTAAATCATAAAATTATAAATAAAATCATAAAAAAGTTTTTAAAAAAAACGAATGAAAACATAAAAAATGAAAATGAAATTATAGAAAATGATATTATAGTTACAAATTCAGGGCCTCTATCTCACATATATTTTTTAGAAGAAGAGAATAGGATGTTAAAAGATGAAATTATAGAATATTTTCCTGAAATAATAGACAAGATTTTTTTACATAATGGGATTGAATTTGGAGTAGTTAAAACTAAATATGGATTTGAGATAAAAGGTAGAAAAGGAAAAATAGAGTTAAACAATGAGTTTGAAATTGTAAATGAAACAGGGAATCTGTTTAAAAATATATTAAGAAATATAAAAAAAGAGACTATAATATCTAGTTTAAAGGAAATTAGTTGTGGTGAAAATGTAGGAGATTTAATAATTTTTGGAGCTTTATTAAAAAATAATTTAATTATAAATTTTGAAAATCAATATGGCGGACACGGTGGAATTGGTGGAATGCAAAATTTTCCTTTTTTAATAGCTAATAAGGAGTTAGAAAAAGATAAAAAATCGATTTCAAATTTATATGAAATTTTCAAATAAAAACTATAAAGGAACGGCTTAAAAATAACCTTCCGATTTTGTTATAAAATACGCAATGGTTTAAGCGTTTTTATAACAAAAAATGAGAAACTTATTTTTTAAACGTTCCAAAGGGAGAATTTAAATGAGAAGGTTAATATTATCGGTACTGTTTTTTGACAAATTTTTAAAATTTTGGGGACCTGGGATACATTTACATCTTGGGAATAAACTTTTAAATTCAGATAAAGATTTTGAGGGAAAAGATATAATAAAAAATTACAAAAAAGAGTTTTTATATGGGAATATTGCACCAGATATTACGTTAGGAAAAAAATATATAAAAGATTTGGAAAAACATTCACATAGTTGGAATGTGGGGTTTGAAATACTAAATAAAGCTAACAGTGATAAAAATAAAGCTCTTGCCTATGGATATTTATCTCATTTAGCATCAGATATTATTGCACATAATTTTTTTATTCCAAAAAATTTACTAGTTTCAAAAGGAATGAGAAGCTTTTCTCATATGATACTTGAGATAAAATCAGATATGATGTTATATAAGGATACTTATGAACTTGTTTATAAAATGTCAAAAGTTAATTTAAAAGATGAAGACCTATTTTTGAAATCTGTTATTTCAGAATCTTTTTTACCATTTAAAGCAAATAGAAAAATATTTGAATATTCATTAAAAGCAATGAAAAGTAAATATATGTATTCAGGTATAAGAATTTTTACCAATTATGAAAATTGGATTCAAGAAAATAAAAAAATACTGGAAAAATACCATAAAATATCTTATAATCTAATAGAGAATATTTTAGAAAAAAAAGAAAGGTCTATTTTGTTGAAATATGACCCAAATGGCGAAAAAAATATAGGAATATTAAATGAATTAAAAAAAGAGTATAAATTATTTAAAATGAAAGATTATGAAACTAATATTTTTAACATACCTGAAGAATTAAGGGGGATTTAATATGGGAAAAAGAAGAAGTAGTATTTTAATAGATTTTTTATTGGGAGTTATTATATCAGTAGCTGTTTTAATTTCTATAATTACATTCTTCAATATAAAATCCACACAAAAAGCAGCTTTAAAATCAGCATCTCAATCAACTAGATATTTAACTTTAGCATTAGAAAACAATGCTAAAAAATCAATTTTATATGATGACACTACAGATTTTATAAATTCTATAAATTCAATATTAAAAACAGAAAAAGATAAAATATATGAAATAGATTTATATAAACTAAGCACAAAAGACAGTTTAAAAATATTATATTCAACTTCTAAAGATAAAACAGGGAAAACTTTAAAAAGTATTGGAGTAAAAGATACTTTAGAAAAAAGCAGTTTATTAGAGGGAGCAGGAGAACATGAAGGATTAAGAACATATGATTATATTTTAACTATAAAAAATAGAAATAAAGCAATAGGAGCGTTAAACATAAGTCTATCATTGGATTATTTGAATAAAGCAAGTGGAAATATGTTGAAAGTAGATATAATTTTAGCTATTATATCTATATTATTTATTGTGGCTATAACTTCTCTTATGTTATACAAAAGAATTTATAAACCTATAAATCAATTAATAAAAGAAGTTGGGAAAATAAGAGAGGGAGAAGTTACATATGAAGTAGATGTAAAAGTTAATAATGAACTTAAATCTCTTGCAGAAGAGATAAATGAAATGAAATCTTCTATTTGGGAAAATAATTTAGAAGATAGATTTGCAAATCCAATTACTGGATTGCCAGGATTGATTCATGCAATTGAAATAATAGAAGATAAAATAGATAACGATGAATTTTTTGCAGTGTTATCAATAAGTATAAAAAATGTAGAACCATATGTATTATATTATGGATTGGCAAATGGAGAAAATATTTTGAGATTTGCAACTCAATTAATAAAAGAACTCTTAATTGAGAAAAAAATAGATGGTTATTCATTGGCACAAATGAGAGAAAATCATTATATGTTAGTAACAAAACCTGAAGTTGTAGATGATATAGCACAAGAGTTATTAGAAAAATTTGATAATGAAGTTTTTTCTTTGTATAGAGAAGATGAAAATCAAGGATATATAAAATTTACAAATAAAAACGGAGATGAAATCCATTATTCAATGATGAGTGTAACGATGGTTTCTGTAAATAATAAAATAAGAGGCGAGATAAATACTTACAAAGATATTGAAGATAGAATATTAAAAGTAGAAAAATCATATTATGATACAAAAGAAGGAAGTGTATATATACCTTATGATGAATATTTGAAAACAGATAATGTTTCTACAAAAAAAGAAAATGAATTAGCAGAAGATATAACAGAAGAGCCTAAAGAAAAGACAGAAGAAGATTTAGAAACAGACGATTTATTAGAAGGGTTAGAAGATTTAGGAGGAGATTTTGAATGACAAGGCCTAGTTGGGATAAATATTTTATGGAAATAACAGAACTGGTAGCAAGTCGTTCAACTTGCTTAAGGAGAAAAGTAGGAGCAGTAATAATAAAAGATAAAAGAATATTAGCTACAGGATATAACGGAGCTCCTAGTGGATTAAATCATTGTTTAGATATTGGATGTTTGAGAGATAAATTAAATATACCCAGTGGAGAAAGGCAAGAACTTTGTAGAGGAATACATGCAGAACAAAATGCAATAGTACAAGCAGCAAAATTTGGAATAAGCTTAGATGGTGGGGAAATATATGTAACAAATCAACCTTGTATAACTTGTAGCAAACTTTTAATTAATTCAGGGATAAAAAAAATTGTATATAAAAATCCATATCCTGACGAATTGGCAATAGAATTATTGGAGGAAGCAAAAATAATATTAGAAAGATATGAAGATGAAAACAGATAGAGAGAACAGAAAATTGGAATCTAACTTTTTCTTGACATTAGAACTAATTAGGAGTATGATTAATTATGGATAAAGTATTAAAAAATGTAATAAAAAAGGCAGTTGTAGTAACATTAGTATTAATTATATATGGGTTAATAATTAAAGAACCTTCAATTTATTTTGGAATGGCAAGTGGTTGTATTATATCAATATTAAATTTTTATTTATTGATAAATGATACTAAAAAATATATTGCCATTTCAAATAAAGTTCAAAGAATTGCTTTTGCAGGATATTTAAAGAGATATGCTATTAGTGGAATTCTTTTATTTATAATGATAAAAATAGGAATTGATTATTTTTTTGGAGCAGTTTTAGGAATTTTATTAGTGAAATTTATAATTTTATTTACACAATTTTATAATATTGCAAAAGAAAGATTGAAAATGATTTTTAATAAGAGATAATATAGATTTAAAGTAAGTAATATAGAAAAAAGTTATTGGGAAAAAGTAAAAAAAGATATAGTTTAAGGAACGTTTAAAAAATAAGTTTCTTATATTTTGTTATTTTTAAGACGTTCCTAAGTATAAAAAAGAATTTAGATAGATCGCTTTCAAAGGGTTAGTCATAATTGGCAAGTTATTTTTAAGCCATTTTTTAATAGAAAAGTATAAATTTATTCAGAAAAGAAGTTACACTATTTTTTAAGTATGGAATTTTTCAGAAACAAAAGATTTAGAAAAATATTTATACTCTACGAAATGCAGCGTAACTTCTTTTTAATATAGATAACTAAAAATTAATGAAAGGAGGTAAATTCATGTTTAAATTTGTAGCACCACCCTTAGTTGAAGGACCACATGTAATGTTTGCCATTCATACTAGCGAACATTTTCCTTTTGCTATGAAATTAGCAGATGGAAGTTTCGGATTACCTGTAACTAATACAGTAACCACAACATGGTTTATTATTGTATTTCTTGCTGTATTATTTTGGTGGGGACTAAAAGATTTAAAACTCAAACCAACCAAGAAGCAGGTATTTTTTGAAATATTATTTTCGTTTTATGACAGCTTGGTAGAAAGTACTTTTGGAAAGAAGAGGAAGAAGAAGTATGTTTTGTATATATCTACATTAATAACTTTTTTATTAATAGCAAATACAATAACTTTTTTCCCAATACCAGGAATATCATTTGAGAATGGTGGAATATCAATTGCACCACTATTTAGAGGTCCAACAGCAGATATGAACACAACAGTTGGATTAGCTTTAATAACAACTATGACTTTCTTATTTGCTTCAATATCAACAAGAGGCTTCTTAGGGTATTTAAAGGGATTAGCAGAACCTAATATATTGATGTTTCCATTAAATGTAATAGGCGAATTTGCAAAACCAATTAATATTTCTATGAGACTTTTTGGAAATATGTTTGCAGGAATGGTGATACTTGGGTTACTTTATATGGTGGCTCCAGCAATAATTCCAGCACCATTACATTTGTATTTTGATCTTTTTTCAGGAGTGGTACAAAGTTATGTATTTACAATGCTAACAATGGTATACATAAGTTCAGCTTTAAAAGAAGAAGAAGCAGAAATTTAAAAATTTTAGAAAATCTGTAAATGAAACAAAAAAATTATAATCTTATGAGGAGGTAAAGAAAATGGTAGAAATTGGAAGTAATTTAGCAGTAACAATAGTATTAGCAGCATCAGCAATAGGAGCAGGTACAGCAATGATAGCAGGAGTTGGACCAGGGATAGGAGAAGGTTATGCAGCAGGTAAAGCAGTAGAATCTGTAGCAAGACAACCAGAAGCAAAAGGAGATATAATTAGTACAATGGTAATGGGGCAAGCAATATCAGAATCAACTGGAATTTATAGTTTGGTAATAGCTCTAATTCTTCTTTATGCTAATCCTATTTTAGGTTCTTTGACAAAATTATTAGCAAAATAAAAAAATTAAAGATAGTAAAAATCAAAGATAGAAATATGTGAAGCAGAGAGGAGGTTAGAAATGGGTGGTAATATGCCTGCGGTATCTTTAGATGTGAATATGCTTTTTCAAATGGGAAATTTTATCTTGTTACTTTATGTATTCGCAAGATTTATGTTTAAACCTATGTCAAAATTTTTAGAAGAAAGAAGACAACAAATTACAGATGATATAGAAACAGCAAAATCAAATAGAGAAAAAGCAATTGAAATGGAAAAAGAGATGGAAAAAGAGTTGAAAAGTGCTAAAATGAAATCTCAAGATATATTAAATGAAGCAATAAGAAAAACTGAGGATATAAAAGATGACATTTTGAAAGAAACACATGCTACAAGAGAAAAAATGTTAAAAGCAGCAGAAGCTGACATAGTGAAAATGAAAGAACAAGTAAAAAGAGAATTACGTGATGAAATGACGATAATTGCTATAAAACTTGCTGAAAAAATGATAGAAAAGAAAATGAGTGGAGATATTGAAAAGAACCTACTTGACCAATTTATAGAAGAGGTAGGCGATGCAGAATGATAGATAATATTATAGGGAAAAGATATGCAGAAGCTATTTATGAATTAGTAGAAAGCGAAAATTTATTAGCTGTATATGAAGATTTAGAAAATGTAGTTGAAATTTATACAACTAATAAAAATTTTAATGAATTGATGAATCATCCAAAATTAAATTCAGAAGAGAAGAAAAAGATATTACAAGATACTTTTTCTAATAAAATTAGTGAATTTAGTTTTGAGATGTTAAATTATTTATTAGATAAAGATAGATTTTCTTATTTGAAATCAATAGCAGATGAGTATTTGATTATATATAATGAAAGAAATAATCTAATGGAAGTAGAAGCAACTTTTGCAATTGAGCCAAGTGAAGAACAAAAGGCAAAATTGGAGAAAAATTTAGAAAAAACAACAGGGAAAAAAGTAAAAATAGATGTGAAAATAGACAAATCTATTATTGGTGGAGGAATATTAAGAATAGGAGACAGAATAATAGATGGTTCATTAAAAAGACAATTTGAAATGTTGAGAGCAAACTTATAAGCGGGAGGTGTAAAAGTTTTGAAGATAAAACCTGAGGAAATAAGCAGTATTATAAAAACGGAAATAGAAAATTATAAAAAAACATTAGATGTAAAAAATATAGGAACAGTTCTTCAAATAGGAGATGGTATTGCTAGAATATATGGTTTGAAAAATGCAATGGCAGGAGAACTACTTGAATTTCCTGGTGGAGTATATGGTATGACTCTTAACCTTGAGGAAAATAATGTAGGAGCGGTTCTACTTGGAGATTATAAAGGAATAAAAGAAGGAGATACAGTAAGATCTACAGGAAGAATAGTAGAAGTTCCTGTTGGAGAAGAACTTTTAGGAAGAGTTGTAGATCCATTAGGAAAACCAATAGATGGAAAAGGTGAAATAAAAGCTTCTAAATTTATGCCTGTGGAAAAGAAAGCACCAGGTATTGTAAAAAGAAAATCAGTTCATGAACCATTACAAACTGGAATAAAATCAATTGATGGAATGATTCCAATTGGAAAAGGGCAAAGAGAACTTATAATTGGAGATAGACAAACAGGAAAAACAGCTGTTGCAATTGATACAATATTAAATCAAAAAGGAAAAGAAGTTTATTGTATTTATGTAGCAATTGGTCAAAAAAGATCTACAGTTGCAAGACTTGTAAAAAAATTGGAAGATGAAGGAGCAATGGAATATACAACAGTTGTAGCTGCTACAGCTTCTGATCCAGCACCACTTCAATATCTTTCACCATATTCTGGTTGTACAATGGGTGAATATTTTATGGAAAATGGAAAACATGCTTTGATAATTTATGATGATTTATCAAAACATGCGGTAGCTTATAGAGAAATTTCATTATTATTAAGGAGACCACCAGGTCGAGAAGCTTATCCTGGAGATGTATTCTATTTACATTCAAGATTATTAGAAAGAGCATCAAAATTAAGAGATGAAGATGGAGCAGGATCATTAACAGCTCTTCCTATAATAGAAACTCAAGCAGGAGATGTATCAGCATATATTCCTACAAATGTTATTTCTATTACAGATGGACAAATTTATTTGGAATCAGATCTATTTAATGCTGGATTTAGACCTGCTATTAATGCTGGTATATCAGTATCAAGGGTTGGAGGAGCAGCACAAATAAAAGCAATGAAACAAGTTGCTTCAAAAGTAAAAATAGAACTTGCTCAATATAATGAATTGGCAGCATTTGCACAATTTGGTTCTGACTTAGATAAAGCTACAAAAGCTCAATTAGAAAGAGGAGCAAGAATTATGGAAGTTCTAAAACAAGAACAATATAGTCCTTATCCTGTAGAAGAGCAAGTAGTATCTTTTTATGGTGTTACAAATGGATATTTTGATGATGTTAAATTAAAAAATGTTAAAAGATTTGAAAAAGAATTATTAGAATCTTTAAAATTAAATAAAAAAGATCTTATGGATGAGATAAATGCTAAACAAAAAGTTGATGATGAGTTATCAGAAAAATTAAGTAGTGCTATAAAAGAATTTAAAGATGGATTTGACAATGAATAAAAGAGGTGAGATAGATGGCCGTTAATATCCGAGAAATAAAGCAAAGGATAAAAAGTGTAAAAAATACACATCAAATAACAAAAGCCATGGAAATGGTTTCATCTGCTAAATTTAAAAAATACAATAAATTTGTATTAGATTCTAGACCATATTCAGAGAATCTTGAGAATATTCTAGCACATATTGCAGCAGGTGTAGAAAATGAACATCATCCACTTTTTGATGGAAAAAAAGAAGTTAAAAAAATAGGAATTATAGCAATTGCTTCTGATAGAGGTCTTTGTGGAAGTTATAATCACTCAATTACAAAAGAGCTTGAAAAATTTATAAAAGAAAATCCTGATAAAGAAGTATCAGTGATTTCTGTAGGAAGAAAAGTAAGAGATTTTTGTAAAAAGAAAGATTATGATATGAAGGCTGAATATATTCAAATTGTTCCTGAAATAATGTTTACTAAAGCAAAAGAGATAAGTGAAAACATAGTAGATTTCTTTTATGAAGATATTTTTGATGAAGTTTATTTATTATACACAAAATTTTATTCAGTTGTAAATTATCAAGTTAAATTAAATAAAATTTTGCCTATAGAAAAGGTTGAGACAAAAGAAAATATTAGTTATATTTTTGAACCTTCAGAAGAGGCTATATTAGATACTTTACTTCCAAAATATTTAAATATTAATTTATATCAATCATTATTAGAATCAACAGCAAGTGAACATGCTTCTAGAATGAGAGCAATGAAAAGTGCATCTGATAATGCAGAAGATATGACAGGAAAATTAACTTTATCATTTAACAGAGCAAGGCAAGCTAATATTACTCAAGAAATATCAGAAATAGTATCTGGAGTAGAAGCATTAAAATAGAAAAAATAAAAAGAGGAATAATTATAGAAAAATAGTAAAAATTAGCAAGAAGGAGGGAAGAGCGTGGAAAATAAAGGTACGGTTATACAGATTATAGGACCGGTAATGGATGTTAAGTTCGATGAAAAATTACCAAATATCTATAATGCTTTAACAATAAAAGATGAAACAAAAGGGATAGATCTAACAATGGAAGTTCAACAACATCTTGGAAATAATGTAGTAAGAGCTGTTGCAATGGATTCTACAGATGGACTTGTAAGAGGAACAGAAGTTATAGATACTGGAGCTCCAATTAGTGTGCCAGTTGGGAAGTCAACTCTTGGAAGAATTATGAATGTATTAGGTAAACCTGTGGATGAAATGGGTTCTATTGAATCAGAAGAATATAACCCAATACATAGAGAAGCTCCAAGTTTTGAAGAACAAGGGACAGAAACAGAAATATTGGAAACAGGAATAAAAGTAGTTGATCTTTTAGCGCCATACTCTAAAGGAGGAAAAGTTGGACTTTTCGGAGGTGCTGGAGTTGGTAAAACAGTACTAATAATGGAACTTATAAATAATATAGCAAAAGAACATGGAGGACTTTCAGTATTTGCTGGAGTTGGAGAAAGAACAAGAGAAGGAAATGATTTATGGAATGAAATGAAAGAATCAGGAGTAATCAGTAAAACGGCCTTAGTTTATGGGCAAATGAATGAGCCACCTGGTGCAAGACAAAGAGTAGCATTATCAGCTCTTACAATGGCAGAATATTTTAGAGATAAAGAGGGACAAGATGTGTTACTGTTTATAGATAATATATTTAGATTTACACAAGCTGGTTCTGAAGTATCGGCACTGCTTGGAAGAATGCCTTCAGCTGTTGGTTATCAACCAAACTTAGCAACTGAAATGGGAACTCTTCAAGAGAGAATTACATCTACAAAAACTGGTTCGATTACATCAGTGCAAGCAATATATGTACCAGCGGATGATTTAACTGATCCGGCTCCTGCTACAACTTTTGCACATTTGGATGCAACAACAGTATTATCAAGACAAATATCTTCACTAGGAATATATCCTGCGGTTGATCCATTGGATTCAACTTCAAGAATACTTGAGCCACAAGTAGTAGGGCATGAACATTATGCTACAGCTCAAGAAGTGAAACAAGTATTGCAAAGATATAAAGAACTACAAGATATAATAGCAATATTGGGTATGGATGAATTATCAGATGAAGATAAAATAACAGTAAATAGAGCAAGAAAAATACAAAGATTTATGTCACAACCATTCTTTGTTGCAGAACAATTTACAGGAATGAATGGTAAATATGTGCCATTAAAAGAAACAATAAGAGGATTTAAAGAAATATTAGAAGGAAAACATGATGAATTACCAGAACAAGCATTTCTTTATGTTGGTACAATAGACGAGGCGGTGGCTAAGGCAAGGGATCTAATGAAAGGGGCTGAATAAGAATGGCAACTTTTAAACTTGAGATAATAACTCCTCAAAAAGTGATTTACAGTAATGATGTAGATATGCTTATTACTAGAACAACAGAAGGGGATATGGGAATATTAGCAAATCATGCTCCTTTAGTTACAGAATTAGCAATTGGTGAAATGAAAATAAAAATCGGAAAAGATGAAGAGAAATATTTCGTTTCAAGTGGATTTTTAGAAGTATCAAAAGAAAAAGTATTGATTTTAGCAGATAAAGCAATGAAAGCTGATGAAATTGATATAGAAAAAGCTAAAAAAGAAAAAGAAGTTCTTGAAGCTAAATTGAAAAAACTTAATGAAGATAGAGATATAGCTGCAACAGAACATTCTTTAAAAGAAGCACTTACTAAAATAAAAATAGGTGAAACGCTTTAGAATTAATTATAGTCAGGTGATGGAAATTTTCCATCACCTGTTTTGTAATGTATTGGATAAATAAAATATAAAAAAAGAATTATAATTTTGTGTATTATGTATTTAAATTTAATAGAAACAGTTGAATTTTTAGACTTTGAAGAATTTTAAAAATGTATTGAAAGTGATTTTAGAAGTGTAAAAATAAATTTGGTAGAGGTGATAAAATGATAGTCGGATTAACAGGCGGAGTAGCAACAGGGAAAAGCGAAGTGTCAAAAATGTTTAATAGATATGGAGCAATTATTATTGATGCGGACAAAATATCAAGAGATGTTGTAAATAAAAAAGAGGTATTAAGCAATATAACAGAATATTTTGGAAAAGATATTATGAAAAAAGGAAAATTAGATAGAAAAAAATTAGGAAAAATAGTATTTTCAGATGAGGAAAAAAAGAAAAAATTAAATGAGATAACACACCCTTTAATAATAGAAGAATTGAAAAAATATATTGACAAATATAAAGAAAGTAAGGAGCTAATAATTTTTGACATTCCATTATTATTTGAAGTTAATTTTGAAAAATATTTGAATAAAGTTATAGTTGTATATTGTGGATTTGAAATTGAGTTAAATAGATTAATGAAAAGGGAAAATATAAATTATTCTGAAGCAGTAAATATTATAAAATCACAAATGGATCTAAAAGAAAAACTTGAAAAAGGAGATATATTAATAGAGAACAGTGGAACAATAGAAGAGTTAGAAGAAAAAGTATTTAGGTTATATAGTAAATTAAAACGAGACTAAATATTTAGTCTCGTTTTAATTTTAATTTAGTTTTGAGTTTTTACAATAAACTTAATAGCAGTTCTTTTTTCTTCGTTGATCATAACATCAACAAAAGCAGGAACACAAACAAGATTTTCTCCTGTTGGAGCTACAAAACCTCTTGCGATTGCAATAGCTTTTACAGCTTGATTTACAGCTCCTGCACCAATAGATTGAATCTCTACTGAAGGGTTATCTTTTAAGATACCTGCTATAGCACCTGCTACAGAATTTGGATTAGATTTTGTTGAGACTTTTAAAACATCCATTAATATTACCTCCTTATAATGTTTTTTAGTAAGTTTGTAAAACCCTAATAATCGAAAAAGAACCATCCTATTTTTTAAACATTTTACAGCTTGATTTTGTTATAAAGAATAAGTTGGTTTTTAATTACGATACATATATTATACGAAGATTTTTTTTATTTCCTTCTTTTTTTTAAAAATTTTTTTGGATCAATTTTTATAACCCCTTTTTTTGTTTGTTTTCTTAATTCAAAATGGAAATTTTTGTCAGCATATGCTATAATAGCTGTGTTCTTTTTTATATAGTCACCTTTGGTAACTTTTAATTTTTTTAGATTATAATAAATAGAAACATAACCACTGTCGTGATATATAAAAATAGTATTTCCTAATGAATTTCTAGTTCCTGAAAATATAACTATTCCAGGGGCAATAGGAAATATAGGAGAATTACTTTTTATAGATAAATTTAAAGTAGAGTTTTCAGCTTCAGAAACTGAAAATAAATTTTTTGGTTCTATTGGATATAAAAAATTCATATTATTTAATGTTAATTGTTTTTTTCTAATTTTTTTTATATTGCTCACTTTAGGTTTTGAGGGAGATATATTTTTTTTTACATAATTGATTTTGTTATTTTTAATTATTTTTACAGTTTTTTTAGGTTTTATATTATTTTTATCAATAGGGTTTCTCGATTTAATATTATTTTTTAATGCAGTATCATTATTTTTAGATTTTAATAAATTTGGATTTGTTTTGTTGGTACCATCATCATAAATAGCAGGATATTGTTTGCCTTTAGAATACATATTACTGCCATCATCTTTAAATGAAGAATTTGTACAACCAACTATTAAAATGGAAATAATTAATAACAATATATTTTTCATAGTCATCACTCCTTAAAAATATTATAACATATAAATAAGAAATGTAAAAGGAAAAGAGGTGGATTTTTTGAAAACAAGGATAATTTCTATAGCTAGTGGAAAAGGTGGAGTAGGGAAAAGTTTTGTTACTTTAAATTTAGCGGTAGAGTTAGCAGTTCAAAGAAAAAAAGTGTTGTTAATAGATGCAGATGTTGGATTAGGCAATATACATATACTTGTAGGAAAAAATCCAAAATATAGTATAGCAGATTTAATGGAAGGAAATTGTAAATTAGAAGATAGTTTAATGGAATTAGTAAAAGGGAATTTGAAAATTCTTGCTGGTGGAACAGGCTTTAAAAAAATGTTTCATATGTCAAAAGAAAAAAGAAGTAATTTATTCAAAGAATTAAAAAAGATACAAAATAAATTTGATATAGTTTTAATAGATATAGGTGCGGGAATAAATAAAGATGTAATATCGTTTTTAGAATTGGGAGATGAAGTAATATTAGTTACTAATCCAGATATTACAGCAGTTGCAGATGCATATTCTCTGCTGAAATCTATAGTAAATGTACATACTATTACTAAAAATATAGGCGTTATAATAAATAAAGCAGACATAGATTTAGGAGAAAAAGTATTTGAAAAATTAAAAAATGTATCAGAAAAGTTTTTGAAAACAAAATTAAAGCATATTGGTTCTATAGATGAAAATAGGAAAATGGCATATGATTCCACACAAAAAAGATTGCCAATATATTATTTAAGTCCATCATCAAAATTTAGAAAAGAATTTTATAATTTAAGTGTAAAAATTTTTTATAATAAAGAGTTACATGATTCGAAAAATGTAAGTATTGTTACAAAATTTATGCGATTTTTAGGAGTGGATGGGTAATGATGGAACGAGATATAGAAGTTTTAATTGAAGAAGAAAAGATTAATTTAGAAAATATAAAATTAAAAAAATTAAAACAAAGTTTTGAAGGAACATTTTTTGTAAGCCTATTTTTAATATTTACTTTAATATTTTTTAATGTGAAAGAGGTAAAATTAGTAGATAAAAAGCAGAAGCCTTTTAAATCAAAATATAGATATAATAATAACATAAAAATGAATTATTTGAGAAAATTTAAAACAATGAAAAAAATTAAAATAAATAAAGGGGACACAATATATTCTCTGTTTAGAGATAATAAAATTCCATATAGCAAAAAAAATATAGAGAAATTTAAAATTATAAATAGAATAAATAAGAGATTAAGAAGCTTAAAAATAGGTAAAGAGATATATTTGCCTATAAAAATAGGAATGGAGGAATAGATGGGAATAAAAACAATGTTAGCAATAGGGACAGGTGGATTTATTGGAGCTAATCTGAGAAGCTATATTAATGGAGTGGTTAATGAAAAAATTGTACATCATTTACCCTTAGGGACGTTGACAGTAAACTTATTAGGAAGTTTGACATTAGGAGTATTATTTGCATTTTTTACATACACACATATATTTTCTCCAAGGATGAAATCATTATTGTCAACAGGAATGATGGGAGCATTAACTACATATTCTACATTTGCAATGGAGACATTTTTTTTGATAGAAGGAGAAAGTTATGCACTTGCTATCTTAAATATGGGATTTAATGTAATAGGAACAGTTATGTTTGCAGGAATAGGATTTAAAGTTACAGAAATGTTATTAAAAGCACATTAAAAGAGTTGGGAATGTTATTTTTAAGCCATTCCAAGGTAATTGATTTTAAGTTTTGTGAAAGAATAAAATAGTAGAAGGAGAAGTTAAATGACAGATTTATTAATAGCACCTGAAAATTATATTTCAGGATATGATATTATAGATGAACTAGGTGCTAAAGTAAAAAAAATAGCAAAAAAAGTTCTTGTATTATCAGATGAAAAAGTGTATAAAATAGTTGAAAAAGGATTAAATTCATTAGAAAATTCAGAAATTATATATACAAAAGAATATTTTAATGGAGAATGTTGTTTTACAGAAATAGATAGAATTTCAAATATATTAAAAGAAAATGGTTATGATGCAATAGTAGGTATTGGCGGTGGTAAAATTTTAGATACTGTAAAGACGGCGGGTTATAAAGCTGGAGTTAAAATAATTACTGTTCCAACAATAGCTGCAACTTGTGCGGCGTGGTCCTCGCATTCAGCTATATATACTGATGATGGAATTTCATATGAATATTTTAATATTCATAAAAATGCAGATCTGCTGTTTTTAGATAAAAAAATTGTTTTTGAAGCTCCAGTTAGATATATAAAAGCAGGAATATTAGATACATTAGCAAAATGGGTTGAGACAAAATCATCAACTTTGAATTTAGAAAATAAAAATGTTGCAACTGAAATAGCAATATATTTAGCTAAAAAGACATATAAAGATATGTTCGAATTTTCAAAAATAGCATTGGAAAATATAGAAAAAAAAGAGTATACTAAAGATATTGATATTGTAATTGAAGATATTATATTTACAGCAGGACTTGTAGGCGGAATTGGTGGAGAAGCTTGTAGAGCAGTTGCAGCACATGCTATAAATAATGGTTTTACGATTTATCCCGATACTTATAATAAAAATTTACATGGTGAAGTTGTAGGATTTGGAAATGTAGTTCAAATGATAATGGACAAAAGAGATAATAAGGAAATAAATGATTTGGTAAAATTATATAAAGAGATAGAAGCTGATGTTAGTTTAAAAGGTATGGGATTTGAAGATTTAAGTGATATAATGTTGGAAAAAATTGTAAATAAATCTTTATATAAAGGAGATACCATTTGGAATGCACCTTATAAAGTGGAATTTGAAATGGTAAAAGAGGCTATATTAAAAGCAAATGAAATTATTTTGAAAGGAGAATATAAATGAGTTTGAGAGAAAAAGCATTAAAATTACACAGAGAAGGAAGAGGTAAATTAGAGGTAAAAAGTAAATTTAAATTGGAGACAAAAGATGATTTAGCACTTTTATATACACCAGGAGTAGCGGAACCTTGTAAAGAAATAGCAAAAGATAAAGAAAAAGTATATGAATATACAACAAAAGGGAATACAGTAGCTGTAGTTACTGATGGGACAGCAGTTCTTGGATTAGGGGATATTGGACCAGAAGCAGCACTACCTGTAATGGAAGGTAAAGCAATTTTATTTAAAGAATTTGCTGATATTGATGCAATACCTATATGTTTGGATTCTAAAGATGTAGAGGATATTGTAAAAACAGTAAAACTATTATCACCATCTTTTGGAGGAATTAATTTAGAAGATATATCTGCACCAAGATGTTTTGAAATAGAAGCAAGATTAATAAAAGAATTAGATATTCCTGTATTTCATGATGATCAACATGGGACTGGAATTGTTGTATTAGCTGGGATTTTAAATAGTTTGAAATTAGTAAAGAAAAAAATAGAAGATGTAAAAATTGTTATTAATGGAGGAGGAGCAGCTGGAACTTCTATTGCAAAGCATATATTAAGTGCAGGAGCTAAAAATTTAATTGTATGTGATTTAAATGGAGCTATATCTTCAGATGATGAAAATAGCTTGGTAAAATCTCATCATAGAGATTTAGCAAAGATAACAAATCCAAATAATGAAAAAGGAAATTTGAAAGAAATATTAAAAGGGGCAGATGTTTTCGTAGGAGTTTCAAGAGGAAATTTATTAAATGAAGAGATGGTAAAGAGTATGGCAAAAGGAAGTATAGTTTTTGCAATGGCAAATCCTGTACCAGAAATTATGCCAGATGTTGCTAAAAAAGCAGGAGCTACAGTTGTGGGAAGTGGAAGATCAGATTTTCCAAATCAAATAAATAATATATTGGCTTTTCCTGGTATTTTTAGAGGTGCTTTAGATGCAAGAGTAGGGGATATAACAGAAGAGATGAAATTAGCTGCATCATATGCAATAGCTGGAATAATAGAAGAAAATGAGATAACAGAAGAGTATGTAATACCTTCACCATTTGACAGAAGAGTAGCAAATGCAGTGGCAGAAGCAGTAAAAAAAATAGCTAAAAAATAGTTAGGGGGAATTAAAATGAATTTTGATGATAGAGTAATTAGAATGATTAGAGTGAAAATTTTGAATAAACCCGGAACTTTTGGAAAATTAGCAGATGTTATAGGAACTAACGAAGGAAGTATGGGTGATATAAAAGTAATTAGAGTGGGGACAAAATATATAACAAGAGATATTAAGATTTATACAAAAACATTAGATAAATTTAATAGTATAATGAAGGAATTAAAAAATATAAAAGGTATAAAACTTATAAAAGATTTTGATGAAATTTATCAAGCACATGAAGGTGGATTATTAGAAACAAAAAGTAAAGTAAAAATAGAAACAATATCAGATTTGGAAAAATATTATATACCTGGAATTGTAAAAGTAGCAAGGACAATAAATAAAGATCATAATAAAAAATTTGAATATACTAATATAGGAAATACAGTTGGAATAATTACAAATGGAACAGCAATATTAAATTTTAAAAGTTGTAAAGTGGAAGCAGCATATTCTGTAATGGAATCTGCAGGAGCAGTATTAAATGAAATATCAGGTATATCGGCTACACCACTTGTAGTAGATACAGAAAATAAAGATGAATTTATATCAACCATAAAAAATATTTATAAAAATTTTGGGATGATAATATTAGAAGATATATCTTCACCAAGTAGTTTGGGAATAGAAAGAGAATTACAAGGATTAGAGATTCCAATAATAGATACAAATAAATATGGAAATGCAATAGTTGTGTTGGCAGCTCTTATAAATATATCAAAAAGAGTTGGAATTAATTTGAAAAAAAGCAAAGTTGGATTATTAGGTTTTGGAAGTAAAGCTTGCGGAATTAATGAAATTTTAAAGGATTATGGTGTCGAAAAAATAATTGGATTTGATATTAGAGAAGAGGCTATAGCAAGAATGGAAGATGGAAATATAGAAAAGAAAGAAAATATAAATAATTTAATGGAAGAATCCGATATTATAATAGGGACATCAAGAGTAGAGGGGCTTATAAAATTTGGAATGGTACAAAAAGATCAAATAATAATATCATTATCAAAACCAGAACCGGAAATAAAAGCAGCAATAGCATTAAAAGCAGGAGCTAAATATGCTGTAGATGGTAGAATCGTAAATCCATTATTAGTAATTCCTGGATTAATAAAAGGAGCATTAGAGGCAAAAGCAAGTGAAGTAACATTAAATATGATGATAAATGCTGCTGAAACATTAGCCGAATTAAGCAAAGAAGGAGAAATATTACCTAATGTATTTGATAAAGGATTACATAAAAAAGTATCTGAGAATGTAAAGAAAATAGCAATAGAAGATGGTGTAGCTCATCTATTTGAACAAGAAATAGAAGAGGATATAACAGAACCAGAAGATGAAATATTTAATAAAATAAAAGGAATAAATGAATGGATGTCAAATTGATGGAAATAGTGGCTCCAGCAGGGAGTCCTTCTAGTTTGAAAGCAGCAATAAAAGCTGGAGCAGATGCGGTATATTTAGGAATAAAAGGATTTGGAGCAAGAAGAAATGCAGTTAATTTTGGAGTAGATGAAATAGTAGAATATATAGATTATGCACATTTAAGAGGTGTAAAAATATACTTGACATTAAATAGTATTATGAGTGATAATGAAATAGAGAGTATTTACAGAAATGTAAAAAAATTATATTTGGCTGGGATAGATGCTATTATTGTTCAAGATTTTGGAGTATTTAAATTTTTAAAAGAAAATTTTAAAAATTTAAATTTACATGCAAGTACACAAATGACAATTACAAACAATTTAGAAGCTAAATTCCTAAAAGAAAATGGGTTTGATAGAGCTGTTTTGGCAAGAGAACTTAGTTTTGAAGAGATAAAAAAAATACAAAATAGTAGTAAAATAGATTTAGAAATATTTGTATCAGGAGCTTTATGTATTTCATATTCTGGGAAATGTTATATGAGTAGTTTTATTGGTGGACGAAGTGGAAATAGAGGAATGTGTGCACAGCCATGTAGAAAACTATATAATAAAGATGGAGAAGAAAAATATTTTCTCAGTCCAAAAGATCAATTATTGGGAAAAGAAGAGATAAATCTATTGAAAAGTATAAATATATCTTCTATAAAAATAGAAGGTAGAATGAAAAATGAAAAATATGTATATGAAATTGTTAAATATTATAGAAAATTAGTAGATGAAAGTTATTCGGATGATATTGGAAATAAAAATATATTGAAGATATTTAATAGAGGCTATAGTAAAGGATATTTTTATGGTGTAGATAAAGAAAATATATTAAATAGAGAAAATTCTGCAGATTTTGGATATGAAATTGGTAAAATATTCGAAAATAATAGAATAGAAATAAAAGATAAGATAAAACTAGGTGATGGAATAACTTTTGTGGATAAAGATAATAAAGTTATAGAAGGAAGATATGTTAATAAAATATTTTTAGAAAATAATAGAGAAGTAAAAGAAGCGGAAAAAACAATTATAAAATTAAATAAAATTCCTGAAGGAAGTAAATATATTTTTAAGACTTACGATAAAGAATTAGATGATAATATAGAAAAAGATTTGAAAAATATAACAAAGAGAATAAATATATATGCAGAAATAATTATAGAAAAAGGTAAAAAGTTAAGTTTAAAATTTATTTATAAAAATAGAGGGAAAGAGATAAAAAGCGAAGTTTTGGGGGAAGTAATAACTGAAAAGGCTAAAAAAAGCATAGATAAAAAAATTATATTAGAAAAAATATCTGAATTAGGAGAAACAACATTTAAAATTAACAATAGTAGAATAAAATATGATGGGGAATCATTTGTAAGTTTTAAAGAATTGAAAAATTTGAAAAGAGAATGTGCTGAGAAATTAGAAAAAAATATAATTGATTTTTATAAAAGAAAAGATGATTATGAGGATATAAAAAAAATATCTGAAGAGGATAATTTAAAAAATAAATCAGATAAATCAGAAGAGTTAGTAATATCTGCAACTGTTTTTAATGAAAATCAAGAAAATTTTTTAAGAAAATTAGGAATAGAAAAAATTTATAAAAAAGGATATTCTATTATAAATGAAGATGAATTAACTAAAATTAATTTTGAAGAAAAAAATAAAATCGAAGATGAAGATGATATTAAATTATCTAAAAATATAACACAATTAGTTATTAATAAGGATAAATTAACAGTTGATTATAGTATGAATATATTTAATTCATATGCTCTAAGATTTTATGAAAATTTAGGGAATATAGATACAATATTTTTATCGCAAGAGATGTCAGAAAAACAGATAATGAATTTAAAAAAAGGAAAAAATAGATTAGGAATTGTAGTATATGGTTGCCCAAAAGTTATGGAGGTTAGAGTTCCTTTATTTGAGGAAAAAGTATCTGAATTAACAAATGAATTTAAAGATAAATATTTTGTAAAAATAAATGATTTGGGACATAGCGAATTATACTTAAAAAAACCATTAAATTTAATAAGGCAAATAGACGATTTGGAAAGTTATGGAATTAATGAAGTTAGATTAGATTTTACTTTTGAAGATGAATTTGAGATTAGCAGAATTATTAAAAACTTAAAAGATAGAACAGGGGAATATATTCCATATAACTATGAAAAAGGAGTTTTTTAATTATGAGTGGAAAAGTTATGAATGATAATACAATAAAATTATTGGCAACTTGGTTTAAATTAGGAGATATAAAAAAAGCTCCAGGAACATTTGGAACTTTAGGGGCAATACCTTTAGGGATATTAATTGGATTAATACCAAGTAATAATTTAAAATTTTTAATTATTATGGGATTTCTATTTTTTTCTATATATATATCAGATAAAGCAGAAGCTATATATAAAGAAAAAGATTGCCAAAATATAGTTATAGATGAGGTTTTAGGATATATTGTAACAATAGGATTTTTACCAATAAATTTTATTACTGTAATAGGAGCATTTATATTGTTTAGAATATTCGATATAACTAAAATATATCCAATAAACAAATTACAAGATTTAAAAGGTGGGATAGGTGTTGTGTCTGATGATTTCGCAGCTGGATTAATAGCTAATGGTATATTATGGATTATTAGTTTAATCATTTTTAGAGGGTGAGAATATGGGAATAGAATATGATTTGAAAAAAGCTTATGAGGATGTCATAACTGTATTTTATGATATTTCAAAAGATATGAATTCCACTTTTGATAAAGGTGAAATAATTGATATCTCTTTTTCTCTGCTAAAAAAAGTTGTTAATTATGATGCAATATCTTTATTTAAATATTCTAAAGATAAAGATATGTATTTGGTAGAAAAAGCTCAAGGGTATAATTCAACTTTAAAATCTAGTTTATTTAATATAGTGAATGATGGATTGATAAAATGGGCTGCAAAATTAGGAAAGCCTTTTGTAAATATAGAAAAAGTAGGAGAAATAAAAACTACAATTATTGTACCTCTAATATCAAAAGATGAATTAATGGGTGCAATTATATTACATACAAAAGAAGATGAAAATTATTTTGATCAAAATAGATTAAAAATATTAACTATATTATCAAGTCAGTTATCAATAAGTTTTGAAAATCTGAATTTATATGAAAATTTGGAAAAAAGAAACGGAAAATTAAAAGCATTAAAAAATTATATGGATAATATAATAAAAAGTATGATAAATGGGATAATTGTTATAGATAATGAAAACAAAATAAGAGTTTTTAATAATATGGCAGAACAACTTTTAAAAAAAAGAAAAAGAAAAGTTATGTATAAATCAATAATAGATACAGATTTAAACAAAAAATTTATAAACGAAATGGTTAGATTAAAAGTTTTAACTGAAAAAGGGAAAAAAGTAAATGAAGTTGAATTTGAATATGAAATAGATGAAGATACAACATATCCTTTAGGAATTAGTACAACATTATTGAAAGAAGAAAATAAAATATTAGGAATAATTTTTAGCTTAAGAGATTTAAGAGAAAGTAAAGAGCTACAAGAATTAAGAAGAGTAGATAAATTAAAAGATGAATTTTTATCAATGGTTTCTCATGAATTAAGAACTCCTCTTACTTCAATAAAAGCATATACAGAGACACTAATGTTTATGGTTGAAGATAATGATCCTGAAACTCAATTAGAATTTTTAACTATAATTAATGAAGAAAGTGAAAGATTAACTAGATTGATAAATGATGTATTAGATTTATCTAAAATAGAAGCTGGAAAAATGAGTTTTATATTAAAAGCAGAAGATATTGGTGCTATAATTAGAAGGATTGTAAAAAATATGACAGGTTTTGCAGAAACTAAAAATATTGAATTAATAGAGAATATTAAAGAAAATTTACCCGAAGTTATGATAGATAAAGATAGAGTTATGCAGGTTTTGACAAATTTAATAAATAATGCAGTAAAATTTACACCAGAAAACGGGAAAATTTTTGTAAATGCAGATTTTGAAAATGATAAATTTTTAAGAATATCAGTAAAAGATACAGGGATAGGAATAAAAGAGGAAGATAAAGGAAAAGTATTTGAGAAGTTTAAACAAGTTGATGATATATTGGTAAGAGAAGCTGGTGGAACAGGATTAGGATTGCCTATTTGTAAAAATATAATAGAATATTTTGGAGGAAAAATTTGGGTTGATTCAGTTCATGGAGAAGGTTCAACATTTCAGTTTACATTGCCAATTGTAGAAGTTTAAAATTATTTTTAGGAACGTTTAAGAAATAGAAAAGATGTTGCATAAGGAGGCAGTAAAAATGGGAAAAAAAGTACTTGTTGTAGATGATGAGGTACATATAGTTCAAATAGTAAAGTTTAATTTGGAAAAAAGAGGCGGATACACTGTAGTTACGGCTAAAAATGGAGCTGAAGGTTTAAAAGTTGCAAAAGAACAAAATCCAGATATGATTCTTTCTGATGTAATGATGCCTAAAATGTCAGGATTTGAATTTTGTAAAGCTGTAAAAAGTGATGAAGAATTAAAAGATATACCATTTATAATATTAACTGCAAAAGGACAAGAAGCGGATATAAAAGATGGAGAAACTTCAGGGGCAGATGATTACATAACAAAACCATTTAGTCCAAAATCTTTACTTACCAAAGTTGCAGAAATTTTAGGAGAGTGAAAAATGAAGTGTTATATTATTTTAGTTGGGACAGAACTTTTAAATGGAATGATGGTAGATACAAATAGTATATATATGGCAGAAAATCTTAATAGATATGGAGTTGAAATAGTAGGAAAATCAGTTGTAGGGGATAAAATTAAAGATATAGAAAAAACAATAAAATATGGAAAAGAAATTTCTGATTTTGTAGTAATATCAGGAGGATTAGGGCCTACAATTGATGATTTAACTAGAGATGCTGTAGCAAAATTTTTGGATAAACCATTAACATTATATAAAGAAGAATTTGAAAAAATAAAAGAGAAATTTAAAAGAGTAAATATAAAAATGGCAGAAAATAATATAAGGCAGGCAAAATTTCCAGAAGGAGCTATAATAATAGACAATAAAAGTGGTGCTGCTCCTGCATTTTTAATAGATGATATAGCGGTATTTCCAGGAGTTCCAAGTGAAGTAAAGGAAACTTTTCCAAAATTTTTGAATATGTATTTTAAAGATAAAGAAAAAAAAGAGATGTATATAAAAGATATATTAGTTTGGGGATTGCCTGAATCAGAATTAGAAGAAAAAATTTATGATATTATTTTAAATGAAAAGGGTATTTTTGTAGAGTTTTTAGTTAAAAATTATGGAATTATAATAAGATTTTTAGCAGAAAAAAATAAAAAAGAAGAAATAGATATATTAAAAGAAAAAATATATAGTAGAATCGGAAAATATATCTTTGGAGAAGATGAAGATAGAATAGAGAGGTTAGTATTAAAAGGGTTAGAAAATAATAACTATACGATTTCTACTGCTGAGTCATGTACAGGCGGAATGGTAGCTACAAAATTAATAGGATTATCTGGTATTTCCAAATATTACAAAGAGGGTTTAATCACATATAGCAATGAATCTAAGATATATAGATTAGGAGTAGAAGAAGAAATAATTGTAAAATATGGTGCAGTAAGTGAGCAAACAGTAAATGAAATGTTAGATGGATTAAAAACAGATGTGAAAATTGCAATTTCTGGAATAGCAGGGCCTACAGGTGGGACAAAAGAAAAACCAGTTGGGACAGTATATATAGGTATCGAAGTTGCAGGTGAAAAAGAGATTAAAAAATATCTTTTTAGAGGCGATAGAGAAGTAGTTAGAGAAAGAGCCGCTTTGACCGCACTTAATATGGTGAGGGAAAAATTATAAACAAATACAAAACACAGAGCGTATAAATAATAGAGGCTCTGTGTTTTGTTTAATATAAAATTATTGGAGGAATATATGACTAAGGAAGAGAAGTCTATAAAAGAGATGTGGAAAAATTATTTAATATTTGCAGGAGAAGATTTAAAAAGTGTAGATAAAATTTGTGATTCTTGGTATTTTGGAGATAATAAAGATATGGCTGATAATTTAGCAAAGTTAGTAAAGCAAGGGATTAAAAAAGCTACAACTGGTTTACTTTATTTTTATGAAAGTGAAAAATATCCACTTCCAAAATTGGGAGAACTTAATATAGTTACAGATTATAATGGAGTAGCTCAATGTGTAGTAAAAACTACTAAAGTTAATATCAAACCATTTAAAGATGTAACAGAGGATTTTGCAAGAACAGAAGGTGAAGGAGATAAATCTTTAGAATATTGGAGGAAAGCACATATAGATTTTTTTTCTAGAGAGTTAAAAGAGGTGGGAAAAGAATTTAATGAGGATATGTTAGTGGTACTTGAAGAGTTTGAAGTGGTTTATAAAGATGAGTGATTAGAAATTTTTAAAGAGGTAATTTAGTTTTATAAAAACGGAGATACCAAGGAGGAAGAAGTGAGAAAAATATCATTAAACATTATGTTATATATTATAATTCCTTTTTTATTAGGAATAACATTTAAGTTTAAAATTAAAAGTTTTAATATAGAAAAAATATATTCTGTTTTTTTTATAACTGTATTCTGCTTTTTAATTTTTATATTTATTTATAAAAATAAAGAAGAAATATGTTCTATTTTCATTAAAATATTGAAATTTTATTCTATTTTGTTATTTTTATTTTTTAGTAATGAAATGACTTTGGATTTTTTTAAAAATATTTACGAATATACTATTATAATTATGCAACCAATAATATTAAGCTTTGTGATAATTATAATATTACTAGTTGTAGTTAGTATTATTGCTTTTATTTATAAAAAATTAAAAAAAAGAAAACATAAAAAAGAAACAAAATTAATTAAAAGTAGAGAAGTAAAGTTCATTTTTTTAAAAAATTCTTTAAAAATTAATAAAACTATACTAATTGATGGAGAATGGGGAATTGGTAAAACAACTTTTTTAAATATCGCGTTGAAGAAATTAAATGATGAATATCATCAAATAAAGATTGATGTATTAATATTTAATAATAGAAAAGCTATAAAAGAAGAATTTACAAATCAATTAAAAAACATTTTTAAACAAGAAAATATATTTTTTAAAATTCCAGATGAGTTTAGTCATTTTATAGACTCTTTAGGAAATAACATTTTTTCTTTCTTTAAAAAAATATTGTTTGAAACTAGTTCTTTTCAAGAAGCAAAAGATAAATTAAATAATGATTTAAAGATATTAGATAGAGAAATAATTATAGTTTTTGATAATTTAGAAAGAATTATGAATACAGATTTCACTAATGATTCTATTTGGAAAGAAGTTATTTCTTTTATACATGAACTATCAGAATTAGAAAATATACGAATTATATTAGTTGCGGATTATAAAAAATTAGTAGGAGAGAATAAAGAAGAAAATTTAAACCTGCATAAGGAATATTTTGATAAATTTTATGATGAAATAATAAGTATAAAAAAAGCAGAGGTTGATAATATTATAGATGCACTTGATGAAGAGTATAAAAGTGAGAATGATGAAGAGTTGAATTATTTTAAAGAAATAGAAATGATATTACGTATAAATATATCTGCACAAATATCGAGTGATAATGATGATAAATCAGATAAATATAATAAATTGAAAAAATATGAAGATAGAAAGAAAAACCCAAGAGTAATAGAAAAAATTATAAAAAAATATAAAATGTTAAAAGAAGGTTTTAAAGATATAAAAAAAATAGAAAAGATCGATTTAATGAGAGCAGCAATATTTGAAATAATATATTTTGAAGAGTTACAAAATTATAATTTAGATAATTTTGAAGAAATTAAGAATATTAAATTTTTCGAAATATTTTTAGATGTTGTAGGAAAAAAAGATAGAATTAATATTTTTAAACAAATATTTTTTATTGAAAAGAAAACAATTTTAAGAAGTAAAATGGAGTTAGAAAAATTAGAAAAAAGTAAAAAAATAAATGAAATACGTTTAGAAAAAATAAATGAATATATAGAATATATTGAAGTATATAATGTAATTGAAAATAATATAAATAATTTATATAAGCCATATGATATTGTAATTAAAAATTTAGAAAAACTATATGAAGATGGTAAGATAAATGGAGAAGCATTTTATAAAACTATAAATAAAAAAATAATCTGGGAGATAGAGAGTAAAAAATCAAAGGATGAAATTGGGGATTTGTGTGAATTTATAAAAGTTAATAAAATTAATCCTAAATATGCTAATTCAGGAATTGATTTTTATGTTATGAATTTTTTTGAAGATGTTTTTAAAGATTTTATACGGATATTTTCAGATAAATATGATAATTTTTTTAAAACAGATGATTTTGGCTTTATGGTAAAGGCTGAAGGAGATCAAATGTTTCCAAATTATGATTTATTCATATCTTGGATAGAAGAAAAATTTGAAATTGAAATAAAAGAAAAGTATAATTTTGATGAGATATTAAAAGATATAAATAAACAAATATTAGATAAAAGTTTAAAAGAATTTCCTGATAGTGAGAAAATTGTGAAATTTTTTAAGAATAAATTTAAAATTTTATTTGGGAGATTAAAGATTTTATGTAATAATGATATGGTTGATAATGAAGATAAACTTGGATATAAAGCTATGGCTGAGCATGAAAAACAGTATATAGAAAGCTTAGAGAAGAAATCTGTAGAGGAGTTAACTAATAAATATTATATTTCAGTTCAGACAGAAGATAGTTTAAAGGAAATAGAAAAAATTTGTAGAAAAAGAATAGAAAAAGAGGAAGATATAGAAAATATAGTTAAACTATATGGTGTAGTTAGAGTAATAGAAAAAAATTTAAAAATAAGAAAATGATTGAAGAAGATGAAATGAAAAAGTTAAAAATGTTTTTAGATGAAAAAGATAAATGTAAAAAGATGAAGGATGTAATATTGCGTGAAAAATTAAGAAAGTATTTACTTAGTAAAGGTGAAACAAAAGATGAAATAAATAATATGTTAAGGCAAATAGATTTTGTATTATTATAAAAATGAAAAACTAGCCACATTGTGGCTAGTTTTATCTTGAATACAAAATAGAACTATTTTTTCTAGATGTAAAAGTGATGAAGTTTCTAAATAGTTTTATACTTCATATATCGTATTGGAGTATAGAGTTAAGATAATATCTCAAGAGAGGCGTTGAAATTTAAGATGAATTAACTTTATGATGCTTTAGAGAAAAGATAAATCTATAATAATTGAAAATAGGAAAATTTTGAAAGAGTAACTATAAATTTAAATTCACCTGAAAAGCGTAAGAGCAAAGAAATTCAAGGGTTTATGATAAAGATGCTTGAGAGTTGGTTTAATAGGAAAAAAATATTAAAAATTCTATTGACAAATACCTATAAATATTATATACTTTAATTGTGAGTGAGAGCTCACTTTTTTAAAACTGAATTAATGAGTGTTTGCTCACTCATTCGCAAAATTTAAATGGAGGACATATAAATGGACAAAAAAAGTGAAATTTTACAGGCTGCAATAAAAGTTTTTATGAGAGAAAATTATCAAAATATGAAAACTGCTATTATTGCAAAAGAAGCAGGAGTTGCTGAAGGAACAATTTATAGATATTTTAAAAATAAAAAAGAAATATTTGTAGAGATACTAAATTATTATAGTAAATATATACCAGAATATTTATTTGAAAATATAAAACAAAAAAATGATTTTGAAACAAACTTAAATATATTAATTGATAATTATGATAAATTAAGCAAAGAACATAAAAATTTCAAAAAAGCTTATTATAAAGGGCTTTCAGAAATAGAAGATGAAAGAATAAAGAATATATTAAAATTTACTTTAGAAGACAGTTTTAAAAGATTGGAAAATATATTTATTTGGGCTAACAATAAAAAAGAAGGAAATTTCACAAAAACTAGTATAGAAGTAATAACTAACACTTTATGGGGATTAGCAGAAGTGATAATGAAAAAAGAAATTTTAGGTTGTGAAGATGTAATGGAAAAAGATGAAATTAGTAAAATGGTAAAATTAATAATAAAATTAAAATGAGGAGGAGATGAGAATGAAAAAGTTTTTTAAACACCCTTGGATTATAATAAGTATAATCTTAATTGCAACAGGATTTTTTACAATTCAACTGCCAAAGTTGAAAATTAATAATGAGGTAAAGATATTTTTACCTAAAAATCATCAATCAAGAATAGCAAATGATAAAATGGAAGAGGTTTATGGAAGTGCTGAAGTAATGGCAGTAGCTCTTCATGTAAAGAGTGGGAATATTTTTCAATTAAATATAATAAATACAATTAAAAATTTAGAAGACAGAATTGAAAAGTTAGATAATGTAGAAAAGGTAGATGGTTTAACAAGTACTGATTATATTGATGGAACAGCTGATGGAATGAAGGTAGCATCTATTGTAAAAGAACTTCCTAAAACAGAAGCAGATTTGAATGTTATAAAAGGAAAATTACTTGATTGGAAATTGTATAGAGGTAATTTATATTCGAAAGATTTAAAATCTACACAAATTTTAGTTAAATTAAAAAAAGGAATAAAAATAGAAGAACAAGAAAAAATATATTTTGAAATAAAAGATATTTTAAAAGATAATTCTTCTAGCAACATAGAATATTATGTAGCAGGTACACCAGTAATAACAGTATTAATGGGGAAATATATGAAAAGTGATATGAAACATTTAATACCATTTGTATTGATAATAGTGTTACTTTCACTATATCTATCATTTAAAAATTTGGGTGGTGTATTATTACCATCAATAACAGTTTTAGTAAGTACAATTTGGACACTTGGACTTATGGCAATGTTAAATATAAATTTAACTCTGGTCTCAACGGTAATTCCAGTACTATTAATAGCAGTTGGAAGTGCATATGGAATACATATAATAAGTCATTATTATGATGAGATTAAAAGTATGGGTAAATGTGGAATAACGGAAGAAGAACATAGAGAATTAATATTTGAAACATTGCATAAAGTAGGAAAACCAGTATTATTAGCAGGACTTACAACAATAGCGGGATTTGGTTCACTAGCTACAAGTTCAATAATTCCAATAAAGAATTTCGGGATATTTACTGCAATTGGAGTTACGTCAGCATTAATTGTAGCATTAACTTTGATTCCAGCATTGTTATTGCTTAGACATAAAAATTTAAAATGTAGTGAAGAAGAAGATGATGATGGATTAATTAGCAGAATGCTTATTGGGTTTTATCACTATTTTGGGAAAAAAGCAATTAGAATATTGACTTTAACAGCTATAATAGTAATTGTTTCAATAGTTGGAATGTCAAAAGTAGTAATAGATAGTCCGTTAATAGATATGTTTAAAAGCACTACAGAGATTAAAGTATCAGATAAATTTGATAATAATAATTTTAATGGAACAACAGTTTTAAATGTATTGATAGATGGACCAAAAGATAAAAAAGGGAAATATATTAAAGGAAGTATGGTTAATCCTGAAATTTTAAAAGGGATGGATAATTTAAAAATATATTTAAAAGAAAACTATAAGGATGTTGGAGAAGTTACATCATTTGCAGATTTTATAAAAAGAATGAATAAAGTTATGAATTATCCACAAGAAGATACTGCGGATAGTATGGCAACAGATTCTGGAATTGTAGATGACAGCTCATCATTTGCAGATGATAGCTTTGGGGATAGTACAGATGATTCCTCATTTTCAGATGATAGTTTTGCAACTGAAGACACAACAAAACCAGAAATAGTTACAGAAACAGCAAAGGTAACACCCAAAAAAAGCATAGATAAAACAGATATGGTAGCATTAATGAATAATGCGATATTAAGTGCCAATAAAACAGATTTAACTGCAGAAGAGTTAATAGAAATCATAAATAGAGAGCTAAATTATAAAGGAGAAGCTTATAATGAAGTACCGTATGATATTTCAAAATATCCTGCAACTACAAGAGCTGAACTAAAGAATCTTATATCACAATATTTACTATTGTATTCAGGGAATTTAAATGATTTTATAGATGATCAATTAGAACCATCTAGATCAAGAATGATGATACAAATAAGAACAGGTAGTAATATAGTTACAGAAAAGATAGAGAAAGCTGTATATAAATATGCAAAAGAATATTTCCCTAAAGGGTATACAGTATCAGTTGCAGGTTCAGCAGATATGGGATTAGCGGTAAATAAGTTAATAATATCAAGTCAAATAATGAGTATAATATCATCATTAATAATAGTATTTATAATTGTGGCATTTTCATATAAATCATTAGTTGCTGGAATATATGGAACTATACCATTAGGAATAGCTTTACTTATAAACTTTGGATTAATGGGATTTTTGGGAATAAAACTTGATATAGGAACAGCAATGGTGGCATCAATAGCCATTGGAATAGGGGTAGATTATACAATTCACTTTTTATCTACATACAATTATGAAAGAAAAAGAAGTGATGATTTGGAAGAAGTAACAAAGAAAACATTACTTACTTCAGGGAAAGCAATAATATTTAATGCAGTTTCAGTAGCGTTGGGATTTGCAGTTTTATTGTTCTCAAACTTTATGCCATTAGTAAATTTGGGATTATTAATAAGTATAACAATGGTAACATCTTCAGCAGCTTCAATGACAGTATTGCCAGCGTTACTTAATATATTTAAACCTAAATTTATAAGCAAGTGATAATGGAATTGATAATTAATAATTGAAAATATACAATTAAAAGATAAAAAAATTAGGAGGAGATAAGAGATGAAAAGAAAGTTAATAGCAGTAATAATGATGGTAATGGTAGCAAGCTTTAGTTTTGCAATGACAGGTAAAGAGATTATGCAAAAAGCACATGATAGAGATACTGGGAACAGTATTCATGGATTAATGGGGATGGATTTAATAGACAAAGATGGAAATGTAAGTCCTCGTACAATTGAAATGTGGGGAGAAACTTATGATGTGAAAAATGATTTATCAAGAACAGTTATGGTATTTAAAGCACCAGCAGCGGTAAAAGGTACTAGATTTTTACAAATTCAAAATAAAGGAAGAGATGATGATAAATGGATATATTTACCAGCATTAGGTAGAGTAAGAAGAATATCATCTTCAGAAGGAAGTAGTTCTTTTATGGGGTCTGATTTCACTTATGATGATATGTCAAGTAGAGATGTAGATAAAGATACTCACAAATTATTAAAAGAAGAAAAATTAGGAAACTATGATTGTTATGTAGTAGAATCACAAGCTAAAAATCCTGAGGATTCACAATACAAAAAAATTATATCGTGGATAACAAAAGATAGTTATATAGCAGTAAAAATAGATATGTATAGCAAAAAAACAGGAAAAATTCAAAAAGAAGCTTCTGTGAAACAAAATATAAAAAAAATTGGTAAAATTTGGACAATATTTGAAACAACAATGAAAGATATGGAAAACGGACATAGTACTAAGTTATATATTAAACAAAGTAAAAAAACAAAAGCTTACTATATAAAATATAATTCAAGAATGAATCCAAAAAGATTTACTCAAAGATATTTAAAGAATGGTAGATAAAAAATAGGAAAAAATTAATATACTTGCAACAACTTTATATATGGCAAGGGTTTATAGGTTTCACACTCCTTTTTCCCTTGCTTTAAAAAAATTAATTAGGAGAGGTGATTATAGATGAAAAAGATATCAATAATATTAATGGCTTTATTATTAGCGTTTAATGTGACAGTTATGGCAGATGGTTTTGATGATGAAGGATTTGGAGATGACACAGTAACAACTGCAACAGATACTGCTCAAGATAGTTCAAATTTTGGAGATGATATATCATCTAATTCTGAAAAAAGTGTAAAAACAGAGTTTAGCGGTAAATTGAAATTTGATAATAGATTAATCTTAGGAGATAACAATAGAGCTAATTCAAATCCAAATTTAGATTTGAATTTAAAGGTTACAAAAGCAAATTCAGAGCTTAATGCTACAATGAAATTTAATGAAGATGCAAAAACAGGAGAATTAAGTGAAGGATATTTAAAACTATATTATGATAATTTTGATATATCAGCAGGTAAAATGAAGGTAGTATGGGGAAAAGGGGATAAACTTCATGTTGTAGATAATTTGAATTCTGAAAATCTAACTGATTTTATAAATCAAGACTATTTAGATAGAAAAGTAGCAGAAAAAATGATAAAAATTAATTATTACATTGGAAATGGTAATTTAGAATTAGTTTATACACCAGAATTTACTCCAAATGCAATGCCTGTAGAAGATACTTGGAAAACTAATCAACAAAAAAGTATGGAGTCAATTTTAGAAAAAAAAGTATTTGATGATGAGTATGCAGACTTTACAGGTAAAATAGATGATGCTGTAAATTATATAGTTTCAAATAATCCATATATAAGTGATAAAACACAAGTTCCATTTAGTGCAGTTATGGATGTATTAAAAACTCAAAATAGTGCAATTTATGACGATATGAAAGCTAAAATAGATGATATGAAAGCTAAGTTTCAAAAACCACAAAAAATTGAAGATGGACAATTTGCAGCAAGATTTACAGATTCTATAAGTGGATTTGATTTTGGAGCATCATATTATTATGGAAAATTAAGAACTCCTTCATTTAATCCAACTACATTAGATATAAATTATGATAAAGTTCAAGTAATTGGAGCAGAATTAGGGAAAGTGTTATTAACATTTAATACTAGAGCAGAATTAGCATATTACTTAACTGAAGATACAGATGGAACAGATCCGTTAGTACATAATAATAAGATAGCTTGGATAGTTGGAGCTGATAGAGATTTACCTATTCATAATATGAATATTAATTTTCAAGTTAAAAGTGAAAAAATATTAAATGATGATAAAATAAGTGCATCTGATGTGGATTACAATAAAGATGGTTATTTTACAGATATGATAGTTGGTAAAATTGGAGATAAATTTAAAAATGAAACAATATTACCAGAAGTACAATTTGTATATAATGTAGAATCAAAAGATTATATGGTTAATACACAAGTTGAATATAAATTAAAAGATGATACAAGTATGACTGCTATGTATAAGATATTTGGTGGAGATAACAATACTATATTTGGTGAATTTGATAAAAACGATTATGCAGCATTAAATTTTGAATATGATTTTTAAAAAAAATGGGGTTTGCTAGTGGCAAGCCCCATTTTTTTATTCATAAAATAATGAATTATAACCTAAAAAAATATTTTTTAAAAAAATAAAAAAAAACGGTTGACAAATTAAAAGAAATGATATATAATAAGCTTCGTCAACGGGGGAAACCCAAATGACGAAAAGTGCCGCCTTAGCTCAGTTTGGCCAGAGCAGCTGACTTGTAATCAGCAGGTCATCCGTTCGAATCGGATAGGCGGCTCCATAATAAATTGGTGAGGTTCCCGAGTGGCTAAAGGGAGCAGACTGTAAATCTGCCGGCTCCGCCTTCGAAGGTTCGAATCCTTCTCTCACCACCATTTATATGACAATAATTCAAATTTATGCCTTCTATATGATTATAGAAGGTATTTTTGAATATGAATTTAAAGATAAATAAAATGTTGTAGAGTAAATATAATTTAATTGTATTTGAGTTTTAAGTTGGGAAACTTATTTTTAAACATCTTTAATTTTTAATGGTAGGATTGACTCACAAAACGGTATATAGAAAACTATCTTTTGTGATATAATCATAGTATTTTTAAAATTAATAAAAATAGGAGGTAATAAAGAAATGGCAAAAGAAAAATATGAGAGAACGAAACCGCATGTAAACATTGGTACAATAGGTCATGTTGATCATGGTAAGACAACAACAACAGCTGCTATATCAAAAATATTAGCAGATAAAGGGTTAGCAGAAAAAGTGGATTTTGAAAATATAGATCAAGCTCCAGAAGAAAGAGAAAGAGGAATAACAATAAATACAGCTCATGTGGAATATGAAACAGAAGCAAGACATTATGCTCATGTGGATTGTCCAGGCCATGCTGATTATGTAAAAAACATGATCACAGGAGCAGCTCAAATGGATGGAGCTATATTAGTAGTATCAGCAGCAGATGGTCCAATGCCTCAAACAAGAGAACATATATTACTAGCAAGACAAGTAGGGGTTCCTTACATAGTAGTATACTTAAATAAAGCAGATATGGTAGAAGATGAAGAATTATTAGAATTGGTAGAAATGGAAGTAAGAGAACTATTAAGTGAATATCAATACCCAGGAGATGATGTGCCAGTAATAATAGGATCATCATTAAAAGCATTAGAAGGGGATAAAAAATATGAAGATAAAATAATGGAATTAATGGCTGCAGTGGATGAATATATTCCAACACCAACAAGACCATTAGATCAACCATTCTTGATGCCAATAGAAGATGTATTTACAATAACAGGAAGAGGAACAGTTGTAACAGGAAGAGTAGAAAGAGGAATAGTAAAAGTAGGAGAAGAAATTTCAATAATAGGAATAAAAGATACAGTAAAAACAACAGTAACAGGAGTAGAAATGTTTAGAAAACTGTTAGATCAAGGTCAAGCAGGAGATAACATAGGAGTATTATTAAGAGGAATAAAAAAAGAAGATGTGGAAAGAGGACAAGTATTAGCAAAACCAGGAAGTATAACACCACATACAAAATTTAAATCAGAAGTATATGTATTGAAAAAAGAAGAGGGTGGAAGACATACACCATTCTTTGCAGGATATAGACCACAATTTTATTTCAGAACAACAGATATAACTGGATCAATCAAATTACCTGAAGGAGTAGAAATGGTAATGCCAGGAGATAATATAGAAATGGAAATAGAATTAATTCATCCAATTGCAATGGAAAAAGGATTAAAATTTGCAATTAGAGAGGGTGGAAGAACTGTAGGAGCTGGAGTAGTTGCTACTATAATGGAATAATTTTATAGATTAAAAATATAAAAACAGCAGGCTTTTGCCTGCTGTTTTTATTTGAAACAAATAGTTGACATATACTGTTTAAAAAGATATAATTATATTACAAAACGTAATGAGAGGAGAGCATAATATGTCAAAGAATCAAATTTTACAAGAAAAAGCTACAGAAGTTAGAAGAGACATTATCAAAATGATTACAGAAGCTAGTTCAGGGCATCCAGGAGGATCTTTATCAGCTGCAGATATAGTGACAGCACTTTATTTTGAAGTTATGAATATTGATCCAAAGAATCCTAAAAAAGAGGATAGAGATAGATTCGTTCTTAGTAAGGGGCATGCTTCACCTTTATTATATTCTGTTTTAGCAGAAAGAGGATATATAGCAAAAGATAGTTTGAAATCTTTTAGAAGATATGGATCTAAATTACAAGGACATCCAGATATGAATAAAGTTCCAGGAGTTGAAATTTCAACAGGATCATTAGGGCAAGGATTATCTGTTGCAAATGGAATGGCTATATCAGGAAAATTATATAATAATAATTATAGAGTTTATGCTTTATTAGGAGATGGAGAATTACAAGAAGGGCAAGTTTGGGAAGCTGCAATGACATCTGCTCAGTATAAGTTAGATAATCTAACTATATTCATTGATAACAATGGATTACAAATAGATGGAAATGTAAGTGATGTAATGAATGTTGCACCAATAGATGAAAAATTTAAAGCTTTTGGATGGAATGTAATAAGTATAGATGGACATAATTTTGATGAAATATTAGCTGCTGTAGAAAAAGCAAAATCAGTAAAAGGGATGCCTACAGCAATAGTAGCAAAAACTATAAAAGGAAAAGGAGTATCATTTATGGAAAATGTAGCAGGATTCCATGGCCAAGCTCCAACTAAAGAACAAGAAGAGATAGCATTAAAAGAACTTGGAGAATAAGAATTATAAATTTAAATTTTTTAGTTTAAACTAGGGAGGTTACTATAGATGAAAAAAGCAACACGTGAGGCATACGGGGAAGCATTAGCAGAATTAGGAAGAAAAAATAAAGATATAGTTGTGTTAGATGCAGATTTATCAAAATCTACAAAGACAGCAACATTTAGAGCAGAATTTCCAGAAAGACATATTAATGTTGGAATTTCAGAACAAGATTTAATGGGAACAGCAGCAGGAATTTCTACAACAGGGAAAATACCTTTTGCATCTACATTTGCAGTATTTGCAGCAGGAAGAGCATTTGAACAAATAAGAAATACAATAGGATATCCACATTTAAATGTAAAAATATGTCCAACACATGCAGGAATATCTGTTGGAGAAGATGGTGGTTCTCATCAATCAATAGAAGATATAGCACTTATGAGAACAATACCAGGAATGACTGTAATATGTCCAGCTGATGCAGTAGAAACAAAAAAAGCTGTATTTGCAGCAGCAGAATATAATGGGCCTGTTTATATAAGACTTGGAAGACTTGCTACAGAAGTTTTATATGATGAAAATTATAAATTTGAAATAGGAAAAGCAAATGTATTAAAAGATGGAAAAGATATATCAATTTTAGCAACTGGTTTAATGGTTCCAGAAGCAGTAGAAGCATCTAAAATATTAGAAGCTGAGGGAGTTTCTGTAAGAGTGATAAATATATCAACAATAAAACCACTTGATGAGGCTACAGTTTTAGCAGCTGCAAAAGAAACAAAATTCTTAGTAACTGCAGAAGAACATTCTGTAATAGGAGGACTTGGAGGAGCTGTAGCAGAATTAGTTACAGATAAATATCCAACAAAAGTAGTTAAAGTAGGAATTTATGATAGATTTGGTGAAAGTGGAAAAGGTGAAGAGTTATTGGAAAAATTCAACTTAAAAGCAAAAGATATTGTAGCTAAAATAAAAGAAAATTTATAAAAAATAGGGTGAACATGTAAGTCACAATATTATCAAGCTAAGAACTGGGCTTGCCAACGGCAAGCCCCTACAGTATTAATTTATTTTATAATGTAGGGGTTTTGCCGTTGGCAAACCCGATATAAAATTATAAATTATCCTTAACTTGACGACATTGACATGTAGGTTTGACCCTACAAATATTAATAAAGTCAAAAGTTATTTATTGATTTAGAAATATATTGAGATTAGTATAGGAGTGACTTAAAAATAAGATTTTAATTTTGTTTTAAAATATGAAAATCTTATTTTTTTGAAATTCAATAGGAGAGAAAAATGATAGAATTTATAAATGTAACTAAAAGAAAAACAAAAGGAAGAAGAATAATATTAAATAATATAAATTTTAAAATTAATGAAGGCGATTTTGTATATCTTGTTGGAGAATCAGGGTCTGGAAAAACAACCTTACTTGAGATGATTTATGGAAAATCAATAGCTAATAATGGAACTATTATAATAAATGGGAAAAAAATCTCTGAATTAAAATCGAAAGAATTGCAAAAGTTAAGAAAAAATATAGGAATAATATTTCAAGATATGAAATTATTTGAAAAGAAAAGTGTAAAAAAAAATATAGAATATAGATTAAAAATAACTAATGATTATTCAGAAGAAGAGATTAACGATAGAATAGATGGAATCTTAGATTTTTTAAAGCTAAAAGATAAAAAGTATGAAATAGTGAATGAATTATCAAAAGGAGAAAAACAAAGAGTTGCAATAGCAAGAGGATTGGTAACAAATCCAGATATAATTTTATGTGATGAAATAACTGCAAACATAGATTATGATAATAGTTTGAATATTATGAAAATATTATATGCTATGCAAAAACAAAGAGGCTGCACAATAATATTCTCTACTCATAACAAAAATATTATAAAAGATTTCCCAAATAGAGTTATAGAAATAAAACAAGGAGAAATTAATAATGAGGATTAAAAATAAATTTTTAGAAGAAACTGGTGGAAATATTCGAAGTGAAAAAGAACTATTTTTATTTACTACAATAACTTTATTTGTTATTATTTTTATTATTGATTTTTTTTCAGTTTCCATATTGAATTTAGTTGACATAAATAGTTATGTAAAGAAAAATTTACAGATAAGAGCTTATTTAGAAGATAGCTTAACAGATTCTGGAATAAAATCTGTGATTAGAGATATTCAAAATTTAAAAGATGTGAAATCTATAAAGTATATATCAAAAGAAACAGCTTTGAAAAATGTAGAAAAAAGTTTAGAGACAAAACTTAATTATTCTGAAAATCCTTTACCAAATGCTTTGCAAATAGAAATTTATTCTATTGAAAATATAGATAAAATTTCATCATTTATAAGAAATGAACCTGGAATTGTTGAGGTAGATGTTAAGAGTAATTTTTTAAAAAAAATTAGTAAGTTTATAGATGAAATAAATGGAAGTTTTATATTTATATTTATTTTTTTATTATTAATAATATTTATATTAATTGTAAACCTAATTCACACGACTATAAGGCAAAGAAAAAAAGATATAGGGCTAATGTATTGGTTAGGTGCAGAACTGTTATATATTAAAATTCCATTTATAATAGAATCTATGATAGCTACAGTTATAGCAACTATATTTTCAAGTGCAATATTTTTAGTTGGATATATATATATAAAAAATAAAATTGAACAATTGGGGATGTTTATAGTACTTCCAGAAATATCTAAAATAGGATTTGGACTATTTTTAGTTTTTTTATTAACATTATTAGTAACAGGAATAGCTAGTTATTTTTCTATAATATTATATTTGAGAAGTTGTGAGGATTAGTATGAAAAAAATAATATTTATATTTATAATATGTATTAACTATATATTTTATGCAGATACAATAGAAAATATGAACAGCAGGATAAAAGTGATAAACAGTAAAATAAAAAAAAGTAAAATTAAAGTAACTGGTTTGAAAAAAGAGGAAAAAAATATTATAAAAAAAATAAAAAAAATAGATTTAGAATTGAAAAAAGTTAAAAGAGAATACTATGAAGTTGAAAGTAAATATGTAGGTTTAAATAGAAAAATAGATTATTCTCATATAAACATAAAATTTATGGAAAAAGAAATTTGGAGTAAAAATGAGAATATAAAAAAATATATTACTTCTTGGTATAAATATGGGGGAAAATTAAAATTAGAATATATACTCTCAGGAAATACTATTTATGATGTAATTAATAGAGAGGGAAATTTAAAAAAAATACTTAATTTTAATAAAAAATATATATCAAATGTAATGGAAAAACAACAAAAAGTTAAAATTCAAAAAAGTAAGATAGAAATGGAAAGAAATGAAGTATCTAAATTAAAAAAAGATTTGAGAGCAAAAAAAAATGAGATATCTAAAAAGCAATATGAAAAGAAAAAATTAATAAACAGTTTGAAGAATAAAGAAAATTATTATAATTCTTTAGTTAAAGATTTAAGAAATGAAAAAAAACAGATAGAAAAAGAGATAAGTGATATAATAAAAAGTAAAACAGATATGAAAAAAAATAAAAATTTAAAATATATAAAAAATAAAATTAAAGAATTGAAATATCCTATAAATGGGAAAATTTTAGTTAGATATGGAGAATATAAAAATATAGGAAATGGAAATAAGATAAAAAGTTCAAGGATAGAGATAAAAGGTAAAATAGGCGATAGGGTTAAAGCATCTGGAAAAGGGAGAGTTATATTTTCTGGTAAATTAGAACATATGGGAACTGTTATAATAGTTGACCATGGATATGGATTAACTACAATGTATGCTAATCTAATAGCTTCATACGTCCATGAAGGGAGTATTGTAATTTCAGGAGAGAAAATAGGAGTATTAGGATTATCGGAAACAGGAGAAGCAGTCTTATATTTTGAAACAAGATTGGGAGTTAGTATGATAAATCCAATGATATTTTTAAAAAAGTAATCTGAAATATCAGTTGCTTTTTTGTAGGTCAAATAATAATTGATGAAAGAGAATAAAAAACTATGAAAAAATATTACTATAATATATTGTTTTTTTTATTGGGAGTATCTATTTTTTATATAATATATAAATTAAAAAAAAAATGGTTAAAGTATAAAAGGAATAAAAAGTTTAAACATGGATTTGAAGAGGAAAAAAAAGCGGAATACTTTTTAAAAAATAGTGGGTATAAAACATTAGAATATCAAAAAGAAATAATTATAAAAGTAAAATCTAATAAAGATGAAATAGAGATGAAAATCAGACCTGATTATATTGTGAAAAAGGGATTTGAAAAATATATAGCAGAAATCAAGACAGGAGAATTTGCTCCAAAATTAACCAATAAATCAACAAGAAGACAGTTGTTAGAATATTATTTTATGACAGAATATAATGGGATTTTATTGGTAGATATGGATAAAAAAACAATAGAGAAAATAAAATTTTTTAGTCCAAAAATTGAGAGATTGAAATATAAAGTTTTTCTATTAAGAGTAATTTTAATATTTCTTTTAATTTTAATCGGTGGTGTGATTTTAAATTATATAGGAACGTCTTAAAAATATAAGAAATTTATTTTTAAGACGTTCCATAAATGGATAGGTGTATAATATGAAAATAGGTATAATATATAATAAAAATAAAATTAATGCAGTTGAATTTTACGAAATACTTATAAAATTTTTAAAAGATAAAAATATAAATTTTACCGAAGATATTAATGATGAAAAAATAAAATATTTAATAACAATAGGTGGCGATGGAACATTACTAAACGCAAGTAAAAAAATTATAGGAAGAGATATATTGGTTTTTGCTGTTAATATGGGTAAATTAGGTTTTTTAACTGAGATAAAAGAGGAAGAAGCATTTGAAATTATAGAAAATGTTTTTAATAATAATTTTTCAATAGAAGAAAGAGAATTTTTAGAAATAAAAATAAACGATAAGCTATATTATGCTTTGAATGATGCAGTTTTGGCAAAAGGGGATATATTAGCAAGATTGATAAAAATTAGCGTATTTGCAGATCTGAATTTTGTAAATACTTATAGAGCTGATGGAATTATTATTTCTACTGCAACAGGCTCAACAGCGTATTCATTATCTGCAGGAGGTCCTATTTTGACGCCTGATTTAAGTGCTTTAATAGTTAATCCTATTGCACCACATACTTTAAGTGCTAGACCAATAGTTATGTCAGGAGATAAAAAATTATCATTTTCATTTATAGAAGATGAAAGTGATATATATATTACAATTGATGGACAAGAAAGTATAAAAATAAATAATGATGATAATTTAAGAATTACATTGTCAAACAAAAAATTAAGATTAATAAGACCAAATAAAAGAGATTATTTTGCAGTGTTAAGAGAAAAATTAAAGTGGGGAGACGAATTATGTTAAGAGAATTAAAAATAGAAAACTTAGCAATAATAAAAAGTCTTGATTTAGAGCTAGAGAATGGATTGGTAGTGCTAACAGGGGAAACAGGAGCTGGAAAATCAATTATATTAGACGGTATAAATATGCTTATAGGAGAAAAAATCTCTACAGAAATGATAAGAAGCGATGAGAAATATGTGGCATCAGAAGGAGTATTTGAAATTTCTAAAGATACAGAGATAGAATTAAAAGAGATGGGAATAGATATGGAAGATGGGGAAATAATAGTAAGAAGAGAACTATATAAAAATGGAAGAGGAAAAATATTTTTAAATGGGAAAAGAGTTCCTGCTTCTACATTAAAAAAAATCATGAATTCAGTTATAGATTTAGTTGGGCAACATGAACATCAAGCTTTATTAGATAAAAAATATCATATAAAATTAATTGATAAATTTTTAGATGAAGATGGAGTGAAATTAAAAAAAGAGGTAGAGGATATATATTTTAGCTATAAAGAGATTATAAAAAAAATAGAAAATAATGAATTAATTCAAAAAGAATTGAAAGATAAAAAAGAATTATATGAATTTCAATATAATGAAATTGAAGAAGTAGACCCAAAGGAAAATGAAGATGAAGTTTTAGAAGAAGAGTATAAAAAACTTTTTAATGCTGGAAAAATAAAAGAAAGCTTATCATTATCAAGAATTCTCTTGAAAGATGGAGAAAAAAATGTAATGGGGATGATATCAAAATCTAAAAATGCAATATCAAACATATCTAGGTATGGAAAGGAATTTAAAGAAATTCTTGAAAAACTTGCAAATATCTATTATGATATAGAAGAAGCTGTGTATGGGATAGAAAATAGTGAAGCAGATGTTGAAATTGATGAGTATAGATTAAACAAAGTAGTAGAAAGATTGGATAAAATAAATAATCTGAAAAAAAAATATGGATATGATATTAAAGAACTATTGATTTATAAACAAGAAATAGAAGAAAAACTAAATAAAATAGATAATAATACAATTAATGAAACTGAATTGTTAAAAGAAAAAAGCAGGACAGAAGAGAAATATGAAAAAAAATCAAAAGAATTAACAGAAAAAAGAAGGAAAATAGGTGAATACATAGTATATAAACTAATAGAAGAGCTTAGTGATTTAAATATGAAAGGTATAAAATTTGAAGTTGAAATTAAATCAAAAAAAGAAATTTCTAAAACAGGTAGAGATAATGTAGAGTTTTTAGTTTCGACTAATATAGGAGAAGAGCTAAAATCATTATCTAAAATAGTATCAGGAGGAGAAGTTTCTAGAATTATGCTTGCATTAAAAGCTATTTTTTCAAAAGTAGATAATATTCCAATATTAATATTTGATGAAATTGATACAGGAATAGGAGGCGAGACAGTAAGGAAAGTTTCTGAAAAATTAAGAGGGATTGCAGACAATGTACAAGTTGTGTGTATAACTCATTCGCCACAAATAGCAGCAGTGGCAAATCAACATTTTTATATAGAAAAAAATATATTGGATGAAAAAACTTCAACTAACGTTACAAAATTAAATTATGAAGCTAGAGTTAATGAAATATCAAGAATGCTTGGGGGAGAAGCTATTTCAGAAGCAGTAAAAAATCATGCAAAGGAATTATTAAAGGAGGGGTTAAAGTGAACTATGAAAAAATTGCAGTAGATACAATATCGGATATATCAGAAAAGATAATAGGAGTCAAAGGAGAGGCATCTTATGTATGTGAGGAGATATCACCAATTTCTGTGGAAAATACTACAATAATAATTGGTATAGCAGGTCAAATAAAAGGTCAGCTTATTTTTGGTTTTACGGAGGAAACGGTAAGAGCTATAGCTTCTAAAATGATAGGTCAAAAAGTAGAAATGATAGATGAGCTTGCAATGAGTGCTATTGCTGAATTTGCAAACGTTTTATCAGGTAATGTAACTATAAATTTGGTGGAATCAGGGTCAAAAAGATTGGGAGTTTCACCGCCTTCTATAGTAACAGGAAAACATATGAAAATTTCAACAAAGATAAAGCCAATACATAAATTTAAAATTGAATATAGTGGAATTGGGGATATAACACTAAATATTGCATTAAAAGAGAAAACCAATAAATAGAGAGGAGGAATAAAATGAGAGTTGAATATATAAATCCTTTTGTTGCAGCAACTTTTGAGATATTAAAAACAGTAGCTAATGTGACTCCTAAAAAAGGAAAAGTAATTTTAAAAAATGAGCCTGTACCAAGTTATGGAGTATCAGTATTGGTTGGAGTAGTAGGAGAAGTAAAGGGACAAATAGCATATAGTTTATCTGAAGAAGCAGCAATGAAAATAGCATCAGCAATGATGATGGGAATGCCAGTTGAAGAGTTTGATGAAATGGCAAAAAGTGCTATTTCAGAATTAGCAAATATGATAACAGGAAATGCAAGTACACAAATATCAGCACAAGGTTTAGTTGTGGATATTTCACCACCTACTTTAGTAACTGGAAGCAATGTACATATTAGTACTGGAAATATGCAAACAATAGTTATTCCTGTGGAGACTGAATTAGGAATATTTGAGATAAATATTGCATTGGAATAGTAATGGGAATAAAAGAGGATATTGAGGAATATGTTGACTATATAAAATTTGAAAAAGGATTATCTGAAAACACGGTATTAGCATATAACTCTGATTTGAAAGAATTTTTTAAATCTCTTGAGTGGGTTGATTATAAAAATGTTACAGAAGATGATATATTAAGATATATCGAAAAACTAAAGCAAGGAAAAGAATCTACTTTATTAAGAAAAGTTACTTCAATAAGAACTTTTTATACATATTTATTTAAGTCAGGAAAAATTGATGAAATTCCAACAGAAAATTTAGATAATTTGAAAAAAAGTAGTTATATGCCAGAAGTTTTATCGTTAGATGAGATAAAATCAATAATATTAGCAATTGATAGTAGCTTAAGAGGAAAAAGGGATAAACTAATATTACAGCTTTTAGTAGCAACTGGAGCTAGAATTTCTGAAATATTAGGATTGAAAATAGAAGATATAGATGAAAATATGCAATTTATAAAAATAAAAGGAAAAGGGAATAAATTAAGAATTATTCCTTTATATAAAGAGATTTCGGAAGAAGTTTATTTTTATTTAAAAAATATTAGAAACAAAATTGCAAAAGATCCTTTATCTTTTTTATTGTTTGATGGAGTATCAAGAACAACATTTTGGAAAAGAGTAAAAATATATGCTAAAAATGCAGGTATAAAAAAAAATGTATATCCGCATATTTTTAGACATTCAATGGCTACACTTATGATAAAAAATGGAGCTGATTTGAGAATTGTTCAAGAAATATTAGGACATAGTAGTATTTCAACAACAGAAATTTATACTCATATTGGTAATAGTGACTTGAAAAATATTTACAATAGAATTGGTATAGGAGAAGATTTGGATGTTTGATAAAATTTTTAGTATGTTAGATCCAAAATATTTGGAAGTGAAAGCATTAATAAAAAAAAGAAATTTATATGAAGCATATCAAAAATTAAAATATGAAGAAGATGATAATTCTAATTTTTTAAAAGGAATAATATTTCAACTTTTAAAAAATTATAAAAGGTCATTAAAAGAGCTATTGAAAATAGATGAAATGAAAGAGGAAGAATTAGAAGAAATATATTATGAAATATTAGGAACAGCATATTTAGAAGAAAAAAATTATTTAGATGCAACTAAAAATTATTTGAAAGCTTTAAATATGAATAAAAATAATTTTTATTGTAAGTATAACTTGGCTAATATATATATTTTTCAAAAAAATTATAATAGAGCATATGTTATATATGAAGAACTAATAAAAGAAAAACCTGAAGATAAAATTATAGAAAATAATTTTAATCTGCTTAAAGAGAAAGTGAATAAATAAAAAAGTTAGAGGTATTAAAAAATAATTAACCAATTCATCTAAGAATCTAATATCAAGAATAACAAAAAACTTGATATTAGATTCAAGGTAATTCTCAAAATAATTTGTACCGCTTTTAATATTCAAAAAAATTCTTAGAATTAAATTTAAAAGGATTATATTTATAAAATCGTATAGTTAAAGAATATAAAGGAAATAAATTATTTTTAAATAATTGTTAAATACAAAAACAAAAATATATTGGAGGTAAAAAATGAAAAAAATTATGTTAGGCGTTAGTTTGTTAATAATGATGTTTATAAGTGGGTGTTCATCAACTCCTAATTATAATAGTATGTTATTTAAAGCTATAAAAACAAGAAATAGTCAAGGAGTCAAAGAAAACCTTTCAAAAATTGAAAATGTTGAAAAGAAAAATTTTTGGGGTGATACTCCTTTAACTTATGCAATAAAAAAAGGAAATGTGGAAATTGTTAAATTATTGGTTGAAGGTGGAGCGAATGTTTTTTATGTAGATAAAAACAACAAAACAACTTTTTATATTGCAGTAGAAAGCAACAAAACTGATATTGCTAAATATTTTATAGAAAAAGGTGTTGATGTTAAACAAGAAGATAAATCAGGAAAGTTCCCATTAATTAAAGCTGTGAAAAATAAAAATGTTGAACTTGTTGAAGCTATTTTAAAAAAAGGTGAAAATGCAAATAGAAAAAATAAGAAATTAGAAAAACCAATTACATTTGCAATTAAAAATGGAAATGAAAAGATTGTTGAGCTATTAATAAAATATGGTGCTGATGTTAACTCTATATGTGATAAAAATGAGGATTATCCATTACATTTATCAGTTAGGAAAAAGAATTATAAAATTTCTGAGTTATTAATTAATAATGGAGCTCTTGTGAATGCAAAAAATAAGAAATTAGAAAATCCAATTATACTTGCAATTAAAGGCGAAGATGAGAAGATTGTAGAACTTCTAATAAATCATAATGCTGTTATTAATTCAGATGACTATTATCCATTACATTTATCAGTTAGAGAAAAGAATTATAAAATTTCTGAATTGTTGATTAATAATGGAGCACTTGTAAATGTGAAAAATAACTTAGGAATAACTCCAATTGAAATTTCAAGTGAAAAAGGAGATTTAAAAATAACAAATTTATTACTTGATAATAAAGGGAAAGTTACAGGAAGAGTATTAGAAAGTGTAATATTTAATAATGATGGCAATATGTTTAAACTATTATTAGAAAAAAGGAAGTTAGATATAAAAAATGCACAAGTATTTCTAACGCCTTTCAAGGTTTCGCTTAGAGGTGATGAATCTCGAAATAATAGTTTAAGTTTTCTTGAATATATGTTTGAAAGAGATAGTGATAAGATATTAAAAGTGTTATTGGAAAAAAATTATAATCTTAATTTTAAAGAGATGTATATTAAAGCATTGGACAAAAATAAATTATCAATAATGAGATTATTATTAGATAATAGAAAAGTTTCAATAAATGATAAAATAGATACAGATGGTTTTAAATTTTCTATTGGAAAATTTAAATTTGATTCTGCTAAATATTATTCGCAATTGTATTATTTAATAAATAAGCCTAAAGCAGTTAAAATAAGAGAAGATAGCAAAAGTATAACTTATTCTCTTTATGATTATAAAAAAAGGCTACCTTTAATAAGAGAATTAGTTAGAAGAGGTGCTAATGTTGATGAAAAAATATCTGGAAAAACATTAAAAGAAATTGCAACGCAAAAAAAAATGAAAGCAGTTGTAAATATATTAAATAGTAAATAGAAAAAATAAATGGGTGTAATCATAACGCCCATTTTATTTTTTTCTATATAAGGAATTAAAAGTAATTCCTTATATTATGGTAATATATCTTTTTAAAATATGAAAACTTATAATTAAAAATAGTTTTATTTAGTATTATAAATATGGTATAATTAAATAGAAAAGAATAAATATGAAATTGGAAGGATAGAAAGATGAAAGGAAAATTTGCACATTTACATTTACATACAGAATATAGTCTTTTAGATGGAGTGGGTAAAATAGATGAATATTTAAATAGAGCTAAAGAATTAGGGATGGATGCTATAGCTATAACAGATCACGGGAATATGTTTGGAGCTATGGAATTTTATAAAAAAGCTCTAAAAGCAGGAATAAAACCTATAGTAGGAATAGAAAGTTATATTGCAGAGGGAAGTGCATTAGAAAGAAAAGGCGAGATTTTTCATCTTATTTTATTAGCTAAAAATAAAGAGGGATATAAAAATCTTATAAAATTATCATCATTTGGGTATATAAATGGGTTTTATCGTAAGCCTAGAATTGATAAAGAAATTTTGAAAAAACATAGCAATGGAATAATAGCATTATCTGCTTGTATGAAAGGTGAAATTCCATATTATTTATTAAATAATAAAGAGGAAAAAGCTAGAAATAGTTTAAAAGATTATATTGAAATTTTTGGAAAAGATAATTTTTATATAGAACTACAGGATAATGGAGTTATTGGGCAAAAAGAGTTAAATGATAAATTATATAGTCTAGCACAAGAGTTTGAAATTAAAGTAGTTGCTACTAATGATGTTCATTATGTAAATACAGGAGATGAAGCACTACAAGATATTGTAATATGTATTCAAACAGGAGCGAAATTGACAGATGCCAAGAGAATGAGGATAAATACAAACGAATTATATTTAAAAAGTTATGAACAAATGTATGAAAGACTAGGAAGATATGAAGGGGCAATTGAAAATAGTATTGAGATAGCTAAAAAATGTAATTTAGAATTAAATTTAGGTGGGTTTAAATTTCCTCATTATGAAATTCCAGAAGATGAAAAAAATATAGATACATTTTTAGAAAAGCTTATAAAAAAAGGGATTGTAAGACGCTATGGAGAAAATATTAAAAGAGAAATTTTAGAAAGAGTTAATTATGAACTTGAAGTTATAAAGAAAATGGGATATTCTGGATATTTTGTAGTTGTATGGGATTTTATAAATTATGCTAAAAGTCAAAAAATTCCAATTGGACCTGGAAGAGGTTCTGCTGCAGGAAGTATAGTTGCATATCTTTTAGGAATTACAGAAATTGATCCAATAAAATATAATCTTATTTTTGAAAGATTTTTGAATCCTGAAAGGGTAAGTATGCCAGATATAGATATTGATATTTGCCAAGAAAGAAGGCAAGAATTGATAAATTATGTTGTAAATAAATATGGAAAGGATAGAGTTGCACAAATCACTACATTTGGGACAATGAAAGCAAGAGCTGCTATTAGAGATATTGGAAGAGTTATGGGTGTGCCACTATCTAAAATAGATAAAGTAGCAAAGCTTATACCTCATAATATGACTATAGGAAAAGCATTAAAAGAAAATGAAAAATTAAGAGAATTTTATCAAAAAGATATAGAAATAGAAAAAGTATTAGAATATTCAAAAAGAATAGAAGGAAAGGTTAGGCATGTATCAATACATGCAGCAGGAATAGTTATTTCTAAAAATCCATTAGATGAAGAAGTTCCACTTTATTCTGATAAAAAAACTGGAACTGTAGCTACACAATATCAAATGAAAGAATTGGAAGAAATCGGACTTTTAAAAATGGATTTTTTAGGTCTTAGAAATCTTACAATAATTCAAAGAACAATTGATTATATTAAAATGAATAAGAAAATAAATATTGTTTTAGAAAATATAGATATAAAAAATGAAAAAAGCTATAAAATATTACAAAATGGGAATACATTAGGAGTATTTCAATTAGAATCAGAAGGAATTAGACGACTTACAATGAAATTAATTCCAGAAAGATTTGAGGACATAACAGCAATACTTGCATTATACAGACCAGGTCCATTAGGAAGTGGAATGGTAGATGATTTTATAAAATCAAAACATGGAGAGCAAGCTATAAAATATCCACATCCTATGTTAGAAGAAGTATTAAAAGAGACATATGGGGTTATATTGTATCAAGAGCAAGTTATGAAAATAGCTAATTTAATGGGGGATTATTCATTAGGAGAAGCAGATATTTTAAGAAGAGCTATTGGAAAAAAGATTCCAGAAATAATGGAAGAAAATAGAGCTAAATTTGTAAGAAGGGCAAAAGAAAATGGAGTAAAAGCGGAAAAAGCAGAAGAGATATTTAACTTAATTGATAAATTTGCTGGATATGGATTTAATAAATCACATTCAGCTGCTTATGCAATGATTGCATATTGGACAGCTTATTTTAAAGCAAACTTTCCAGTTGAATTTTATGCAGCACTTATGACTTCTGAGAAAAATAATATTGAGAAATTAGCAATATATATAGAAGATGCAAAAAAAAATGGAGTGAAAGTATTACAACCTGATGTTAATCACTCATTTTCAAATTTTGCGATTGAAAATAATAATGTTAGATTTGGAATAGCAGCAGTAAAAAATATAGGTGAAGGTATAGTCAATAAAATTACAGAAGAACGAGAAAAAAATGGAGAATATACAAATTATGAAGAGTTTGTATATAGAACTAAAAAAATTGGTATGAATAAAAAAAGTTTAGAAGCTTTAATTATATCGGGCTGTTTGGATGGTATGCCTGGAAATAGAAAAGAAAAATTTGAATCTGTAGAGGATGTTTTGTCAAAAGTTGGGAAAAGAATAGCAAGAGATGAAAATTTGCAAATATCTTTATTTGGTGGCGGAACTATTTTAGATAAGTTTATTATGCCACATTTAGATGATTATTCAGATGAAGAAAAATTAAATGGAGAAAAAGAATATTTAGGATTATATTTTACTGGTCATCCATTAGATAAATATAAAGAGATATTTGAAGTTTTTAAATTTAAAAAATTAAAATCGATTCTTGAAGAAGATATAAATAGATTTAAAACTGTTGGGATAATTAGAGAATTAGTAAGAAAAGTTACAAAGTCCGGGCAAGTAATGGCATTTTTTCTATTAGAAGATTATAGTGGAACTGCAAAGACAATGATATTTCCGAAAAGCTACATGAGATATAGTCACAATTTATTAGAAAATAAAGTTGTTATTATAGATGGAGTTTTAACTGTAGATTCATTTGGAAATATTGAAGAGAAAAAAATTATTGCAAATGAAGTATATGATATAGGAGATTTGGAAGAGATATCAGGTATGAATGTTTATATATTAATAGAAGAAGAAGATAAATATAAGATAGATCAATTAAAAGCAATATTACTAAGACATCTTGGAAAAAATCAAGTTATATTAGCGTTAAAAAAAGAAAAAGAAAAAAGATTATTAAGATTAGGAAGAGGATTTTATGTGTTGCCATCTATGGCGTTGGTAAATGATATAAAAAAATTGTTAGGAGAAGGAAAAGTAGTTATAAAATAGATATTTTAGTTTTTGGAATGTTTAAAAAATAAGTTTCTCATTTTTTGTTATAAAAACGCTTAAATGGTTATGTATTTTATAACAAAATAGGAAGGTTATTTTTAGCTGTTCCTTAGGTACAATAAAAAAATAAATTTGTCAAAATTGTTTGAGAAAATCTGTAGATACGTTCATATTTTTTAAACAAACGACTCATTAATTTTTTTAAAGTCCATTAGTAAAGAATATTTGAAAAATTTGGAGGTGTTATAAATGTTAAGAAAGTCTAAATTAGAATTTCCAGAGGAGATATTATTTGCTTTGAGAGAAAATGAGAACTTTTTTTTGAAAGAGATAAAAGTAATTGCAGCAGTTAACTATTATAAAGAAAAAAGATTATCAGTAGGACAAGCAGCTGAATTAGCAGAAATGAGCGAGGAAGAGTTTATAAAATATTTAGGTGGAAAAAAAATTTCAATATTTCAATTTGAAAATGAAGAAGAATTATTGGAGGATATAAAAAATGCGTAAAGTTATAGTAAATTCAACACCGATAATATCTTTATCATTAATAGATAGTTTATATATTTTAAAAGAGCTTTATGGAACTGTATTTATACCAAAAGCTGTATATGATGAAGTAGTAATAAAAGGAAAATCTAAAATCGGCTCTAATAATTTATTAGAGTGTGAATATATAAAAATTTTAGAAATAAAAAATAAAGAAGCTGAAAAACTTTTTAAAACAAATTTACATAGCGGAGAAGTAGAGGTTATGATTTTATATGATGAATTAAATGCAGATTTATGTATATTAGATGATTTGTTAGCAAGAAAATATGCAAAATATCTAAATTATAATATTACTGGAACAATCGGAGTATTATTAAAAGCTAAAGAGGTTGGATTAGTAAAAAATATAAAGCAATTACTTTTTGAGCTGATTAAGAATGGAATTTATATAGATAGAAAATTAATGAAAAAAGTTTTAGAATTAGCAAATGAAAATTAAAAATATAAAAAAATTATTAGGAGAAGGGAAAGTAGTTATAAAATAAACATTTTGTACAAAAGAGTAGTACAATTATAACAAAAAAGTTGCGATTACTTAAAAAATGTGGTAAAATGAAAGAAAAATAATTAAAGTTATAGGAGGGATATAAAGATGGAAGTAACTGAAATAAAGAAATTAATGGAGATACTAAATACTACAGATGTAACAGAAATTACTTTAGAAGCAGATGGAACAAAAGTATTATTAAAAAAAGATATGAACAAACAAAAGGTGGTAACAAAACCTGTGCCAGCAAAAGTAGAAAAAAAAGAGGAAGTTAAAGAAGAAAGCGAATATTTGTATTCTCTTAACATTGGAAAAATCTTTTATAAAAAAGATATAAAAGAAGGAACTGCTATTTCTGAAAATGAAATAATAGGATATATAGAAGCAATTGGAGTAAAAACAGATATAATAAGTGATAAATCAGGAATAATTAAAGAATTATTAGTTAAAACTGGAGAAAATGTAGAATTTGGGAAAGCTATAATAAGCTTAGCCAAAAAATAAGGAGGTTTCTAAATGTTTAAAAAAATACTTATTGCCAATAGAGGTGAAATAGCGGTAAGAATAATAAGGGCAGCAAGAGAATTAGGAATAAAAAGTGTTGCAGTTTACTCTGAAGCAGATAAAAGTTCTCTACATGTAAGATTAGCTGATGAATCAGTTTGTATTGGTTCTGCTATGAGTACAGAAAGTTATTTGAAAGTTCCAAATATAATAGCTGCAGCAGAAATAACTAATGCAGATGCCATTCATCCTGGATATGGTTTTTTAGCGGAAAATGCTGAGTTTGCAAAAATATGTGCAAGTCATAATATTGTATTTATAGGACCTAGTCCTGAAATTATAATTAGTATGGGAGATAAAGCTACAGCAAAAGAAACAGCTGTAAAAAATAATGTGCCAGTTGTACCAGGAACAAAAGGAGTAGTAAAAGGAGTAGAAGCAGCAAAAAAAATAGTAAAAGAAGAAATAGGATATCCTGTAATGATAAAAGCTACTGCTGGTGGTGGTGGTAAAGGGATGAGAATAGCAAGAGATGAAAAAGAATTAGAAAAAAATATGGTTGCAGCAGAAAATGAAGCAAAAGCTGCATTTGGAAATCCAGATGTATATATAGAAAGATATGTAGAGCAACCAAAACATATAGAGGTACAAATTATTGGAGACAAGCATGGAAATGTAGTGCATTTAGGAGAAAGAGATTGTTCTATACAAAGAAGACATCAAAAATTAATAGAAGAATCACCTTCAATAGCGATTTCAGAAGATGTAAGGCAAAAAATGGGAGAAGCAGCAGTTAGACTTGCAAAAGCAATAGGATATGATAGTGCTGGGACTATTGAATTTTTATTAGATAAAGATAAAAATTTCTATTTTATGGAAATGAATACTAGAGCACAAGTAGAGCATACAGTTACAGAGATGGTAACAGGTGTGGACATAATTAAAGAACAAATATTAGCAGCAGCAGGAGAGAATTTAACAGTAAAACAAGAAGATATACAAATAAGAGGTCATGTAATAGAGTGTAGAATAAATGCAGAAGATCCTGATATGAATTTTATGCCTTCAGCTGGAACAATAACAAACTATATTCCATCAGGTGGGATAGGAGTTAGGGTTGATAGCCATATATATTCTGGATATGATATACCACCATATTATGATTCTATGATAGGAAAATTAATAGTATGGGGAGAAAATAGAGAAGAAGCTATAAGAAGAATGGATAGAGCTTTAAGAGAGCATATAGTGGAAGGGATAAAAACAACTATACCTTTCCATTTGAGAGTTTTAGATAACGAGTATTATCAAAGAGGAGAAATATATACTGATTTTATAGAAAAAAGAATGTCTGAGGAGAAAAAATAATTTTTTCATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTAAAACAAAATAATAAGGTTATTTTTAATCCGTTCTTTGATAGAAAAAGACTAACATAAGGAGGGGAATAAAATGGCAGAATTAGGAAATGTAAAAATTGCAAATGAAGTAGTAAGTATTATCGCAGGAATTGCAGCTTCAGAAGTAGAAGGTGTATATGAAATGAATGGTGGAGTTGTAGAAGGTCTTACAGGTATACTTGGGAAAAAGAACCTTACAAAAGGTGTGAAGGTAGAAGTAGGAGAAAAAGAGTGTTCTGTAGATGTATATTTAACAATGGAATATGGAGTTTCTATTCCTGATGTGTCAGAAAAGGTTCAAGAAAATGTAATAAAATCAATTAATACAATGACTGGATTAAAAGTAGTAGAAGTTAATATTTTTGTACAGGGAGTATATATAAAAAAAGATGAACCTGTAGTTAAAGTTCAAGAAGAGGTAAGTGAAACTGATATAGAATTAAAATAATATAAATGTTCATACAGGCGAGATTTTTCTCGCCTGTATGAATTATATAGGAATGTTTTTAAAATAAAGTACTCATTATTTTTTAAACATTTTACAGGGAGGGATAATTATGTGGAGTTTATTATTTGGAATAGGTTGGATAGGTATTTTTATAATGTCGCTTGGAACCATTTTTTTAGCATTAGTTCCAGAATATTTGCAAGAAATTAATTTTTTATCGATGAATCTTAGAATTTGGATTATTTCTATATCAGTTTTTTATTTTATTCTTTTTATTAAGAAAATATCTGAAATATCAAAAGGAAAAGAAGAAAAATCATTTATGATAGAGACAGAGACAGGTAGATTGGAAATAACATTAGGCTCTATTGAAAATATAATACAGGGATTATTAAAAAAGAGTACATTTATAAAAGATATTAAAATTAAAAGTGATTTAGAGGATGAAGGAGTAAAAATAGGCTTAAAAGTAAGTGTAGAGTCAATAGAAAATTTAAATCAAGAATTACAAAAATTACAAGCTTATTTAATTAGTTATACAGAAAAGTTAGCAGGAATAAAAATAGTAGGAATAGATATAAAAATAGTAAAAGTTCACTATAGTGAAAAAAATATAGTAGAACTAGGAGATGAATAAAAATGGAAGAGATATTAAATTGGATATTAAATAATTTTAAAAAAATATTAGGTGCTTTAATTGGATTTATATTGGGATATTTTTATATAAAATATGGCTTTTTAAAAACTTTGATACTTGTAATTTTTGTAGTAATAGGATATACTTTAGGAGCAGGAAAAGATTTTAATTTAAAATCTTGGATAATAGAAAAACTTACAAAAGGAGAGGACTATAAATAATGGCAAGAAAGAAATCAAGAGAAGATTTTTTTAAATTAATGTTTGAAGCGGACTCAAAAGGAGTTATGCCTATAGAGCTATATGAGGATTTTATAAATAGAGAAGAAAAATTTGTAGAGGATGAAAAAGAATTTATTATTAGTTATAGTAAAAATATTTCTGAAAATATGGATAATATAGATAAAAAAATTCAAGAAAATATGAAAAATTGGAGATTAGGCAGAATAGGAATAGTAGAAAGAGCATTATTGAGACTAGCTATATATGAAATAGTATATGAAAAAATAGGGATAGAAATAGTTATAAATGAAGTAATAGAAATTGCTAAAGTGTATGGAGATGAAAAATCTCATGAATTTATAAATGGAGTGCTAGCTAATATAGTAAATTAAGGAGTGTTATCCATGAAAAAAAATAGAATTGGAATGATTATGGCAAAAAGTTCATTGAGAAATAATGTTGTAATTAATCTTCAAAAAAAAGGATATCGTGTATATATTATAGATGACGACGAATATATGTTTGATTATATAAAAAGTCTTTCGTTAGATTTAATTTTAATTGATTCAAATGAAAATAAAAATATTTATGAATATTTAACTAAATTTTTTGAGTTAAATATTCCATCAATAGCTTTAATTGAAAAACATTTAGGGCATAGAAATGCTGTAGAATTATTAAAAAGTGGAGCGTTAGATATTGTTTATTTTAGTGATGAAAAAGTATTATCAGTTTTAGATTCTGTTGAAAATTTCTTTGGGAATAAGTCTTCAGAATTTGAATTAAAAATGGAGGAAACAGATAAATATATTATTTTTAAAATTTATGGTGAATTAGATATGAGTACAACCTTTAAAACTAAAGGGAGATTTGATGGAATTATAAAAAATATTAATAAAGATTTTATACTTGATATAAGTGGAGTTGGATATCTGGAATCAGTGGGAATTGGATTTTTAATATATATAAAAAAGATGATAACAGCAGCAAACAAAGAGCTTAAGATTGTTATTAAATCAGATAAAATAAAAAAACTATTAAAAATGACTAAATTGGACAAATATTTTAATATATATAGTAGTTTAGATGAAATAACAGTGATAAAAAAAGGGAAAAAGTATGAAAAAGCTGTTGTTATAGACGATGCGAGATTTATGAGGAAATTAATATCTACAATTTTAATAGATGAGGGATTTGAAGTAAAAACATTTGAAAATCCAATTTTGGCATTAAAAGAACTAGATGAGATAAAACCAGATATAATATTAGTTGATCATGAAATGCCAGAAATGAACGGGTTAGAATTTATAAAAGAGTTTAAACCGCAACAAAAAGAGATACCTACAATAATGCTTACAACAGTTGAAGATATTAATTTGGCATTAACAGCAATAAGAGCAGGAGCTTCAGATTTTTTGAACAAACCATTTAAAAAAGAGGAATTAGTTCATACAATAAGAAAAGTGATAAAAGAAAATGAATTGAGAAAAGAAAATGAATCATTAATGCTAGAATTGCAAAAAAGAGAATTTGAACTTAAAAATAAAAATAAAGAACTATACAGCTTATATAATAATTTAGAAGAAGAGTTAGAAATGGCTTCTGAAATACAAAATAATTTACTGCCCAAAAGTTCTGTAGAATTAGATAATTTTATTATTAATAGTAAATATCTTCCTTCACTAGATATTGGCGGAGATTTTTATGATTTTTTTAGAATGAGTAACAATTTTTTTGGGATAGCATTTGCGGATATTTCAGGGCATGGGATTCCAGCTGCATTATTATCAAGCATGTTAAAAGTATATATGATGACATATATAAAAGATATAATAAATCCGTCAGAAGCAATGGAAATTTTAAATGATGTAATAGCAGAAAGTTATCCTGATGGAAAATTTGTAAGCTTATTTTATATGATATTAAATGATCAAAAAGGTACAATTAGTTACTGCAAAGCTGCACAAGAACCTGGATTATATGTAAAAGAAAATGGGGATGTAGAGGAATTATTAACAGAAGGGCAAGTGTTAGGATTGTTTTCTATAGAAGATTTTCCTGAAATGATAAATTTTGAAGAAAAAGAGATAGAAATGAAAATAGGAGAAAAAATATTTCTTTATACAGATGGAATTGTTGAAGCTAGAAATTCTGAGAATGAATTTTATGGATTAGACAGATTAAAAGATGTTCTTTCAAAAAATGCTTCAAAAACAGGAGAAGAGTTGATAAAAATTGTATATGATGATTTACTTGAATTTATAGAAGGGCTTCCAATATTAGATGATTTGACATTTATGTCAATAGAAAAAAAATAGAAGAGTTTTTTTTAAAATTCTCTTCTATTTTTTTTAATAATTTGATAAAATATTGTGATTAAATTTTAGAAAGTTATTATTTTAATTGTGATTTTGATTTACTGAGGAATGGCTTAAAAATAACATTCCCATTTTGCTTTGAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACATTCTTGAGTAAATATTTTAATGAAAAATGGAGGTGTAAATATTGTTTTCTATAGTACCTATGTGGGAAAATATTTTTAATAAAAAAAATAAAATAGATAAAAATAATATAAAATTACTATCAGAAATTCCAATTTTAGAAAATCTGAAAAAAAAAGAACTTGAAAAAGTATCAGATATAATTCATGAAAGAAAATATAAGTCAGAAGAAAATCTTTTTGAAGATGGAAATCCTGGTTCAGCAATGTTTGTTTTAGTAGAAGGAACAATTGAAATAGAAAAATTAATGAGTAATGGAGAGGTTGTAAATTTAGCAGTTTTAGGTAGAGGAGATTTTTTGGGAGAGCTTGCATTATTAAACAGTTCTAAAAGGACGGCATCTGCTAAGTGTATAACGGAAACAAAAGTATTAGTGTTATTTAGAGATGATTTGTTTGAATTTATCAAAAGAGAAGAAAAAATTGGAGTTAAAATTTTAAAAAAATTAGCTGAGATTATAGGTGAAAGATTAGTTGCTACAAATAAAATATTATTAGAATACAAATTAATGATGGAGATCAAAAAAGATGGAGATTAAAAAGAGTTATTTTCAAATAAATTTTTCTAAGTTATTTTTTTATCTATTTTTAATATTTGTAATGGTTGTTTCAATATATGCGACAATTCCTCTTCTTAGATCCACATTAATAGGATTTATAATTGCTTATTTATTAGAACCATTAGTATTATATTTAGAAAGAAAAAATATAAACAGGTTATTATCTGTAATTGTAATTTTTTCAATATTTATAATTGGTATTTGGTATTTGATTATAGGGATAAAATCTTTTTTTCCTTCACCAAAAGAGATTATAAATTTTATTGATTATATTGTAAAAAATACAGAAAAATTAAAATATATATTAATTGAAAAATATAACTATATAAATTGGAATATTATTTTTGACAATATAATAAGTAGTATAAATACAAGCTCAGAAATAACTTCAAAAATACCAAAAATTTTATCAAGTATAGCAGGTCTATCTTCACTGTTTTTTATTATACCATTTACAACTTTTTTCTTTTTATTAGATGGAAGTAGATTTAAAAAATGGTTATTAAAATTAATACCAAACAGGTATTTTGAAATAACATACACCACTTTAAAAGAGGTGGACAGTGTTTTTGGAAATTATATAAGAGGAACCTTATTAGAATCTTTAATAATTGGAGTTATGACTTTTATAGGTTTTTTTATTATAGGCTTTCCATTTAATATAGCTTTAATAACTGGAGCTGTATCAGGATTAGCAAATGCAGTTCCATATATAGGGCCTTTATTAGGAGCGGTAATAGGAGTAATATTACATATATTAAAAATTATCCCAAAAGATTATGTTCCAGTGTTTGGAATATCAGTTAGTATATTAGGGGTTCTTGTTGTAGTTGGAATTGTTCAAATTTTTGATAATATAGCAGTTAAGCCAACTGTAATAGGGAAATCAGTTGATTTACATCCTTTAGTAGTAGTTTTAGGAATATTAGCTGGAGGAAAAATGTTTGGATTCGTGGGAATAATTGCAGCAATACCAGTTATAGCAATAATAAAAGTTATTGTAGAAACATTATATAATCAATTATCTGGGTATAATATGTTGTCTAAAAATTTGGCCGCAGTTGTGACAGAAGAGTTAAAAGAGATAGACTGAAAAAATAGAAATATAGGAGGAAACTGTGGAATTTGGAAATCTTTCAAAACTTTTAGCAGATACTTTGGCACTAATGGCAATAATGAACCCTTTTGGCAATCTTCCGATATTTATAGGAATGACAGAAGATTTGCCAAAACCATTAAAAAAAGAGATATTTAAAGTTATAATTTATGCAGGAATAGGTATAACTTTAATATTTGGTATAATTGGAGATTTCTTGATGAAATATTTTTTTCATCTTGAAATAAATGAATTAAGGATAGCAGGTGGATTGCTTTTAATAATAGTTGGATTAAAAAACATGTTGTTTTCGAAGGATAAGAAGAAACTTGATGGTAGTTCAGATTATGGGAAAGAAGAAATTGAACAAGGAATAATACCAATGGCTTTTCCTTTATTAGTAGGACCTGGAGCTATGGCAACGGTTTTACTTATAAAAAGAGAACATGGGATTTTAAATGTAATATTCGCAACTTTAGTAGTATTTTTAATAATTAAAATATTATTTAAATTTGAAGAATTAATAGCAAAAATATTTGGAAAAGTGGTTTTATTGATATTATCTCGTGTAATGCAACTGTTTATAGTAGCAATTGGAGTTAGTTTTATGATACATGGTATAAAGTCTGTATTTTAGACTTATAACATAGATAAAAAAATAAAAAACAGGAGGAAAAAAAAATGAAAAAAGTGTTTTTAGTGTTTGTGGCAACAATAGTTTTATTAGTAATGGGAGGGTGCGATTTTAAAGTAACAGTTAAAAAAAGTGATGAGGTTTCTAAAGTTGTAATTTCATCAACAAGCGATGTTATTAATGCTGATAATAATAATGCAGTTTCATTTTCAGTAAAAGTATTTAATTCGGATGATGAAGAAATATTAAATAAAACTGTTGATATTTACAAAGATGGAGTGAAATTTACAGAAGATTCTTTCTATACAACTACATCAGGAGAGTATATATTTTTAGCAAAAGTAGATGGAGTAGAGAGTAATTCAATAGTTGTTACTGTAAATAATGATGGTAAAATGACAGTGGAAAACAATTCTGCTGGTGCTATGCATGGAGTAGAATGGATTTCTGGAGATAAATCATATTATTTTTCTGAAACAGAAGAAGATTCTATTTGGACAGAGAGTGGTAAAATCGATTCATTATTAGTTGGAGATTCTAATACAAAATTAGTAAATCCTGGAGAAAGTTTTTTATATTTTAGTATTTCAGGACAAAATGGATTTGCATATTTCAGGACAAAAGATAAAATTACTATAAGCGATTTTGATATTAAAAATGTAGAAATAGTAATAGATACTCCAGTTCAAGAAACAGATGAAAATCAAAATGATCTTACAAGAAAATTTGCTGTAATAATAACTAGCGTTAATAAAAGCGGGAAGAGAGCTATTAATAGATATGAAGTTATAAACGTAATTAAGGGGGAATAAAGAGATGAAAAAAATAATAATAGTACTTTTATCTGTTATTTTATCAATAACAATATTTGCTGGGACTATTGTTGTGGATATAAACAGTAATATAAAAATATTTCTAAAAGATAGTGGAACATATACAGTACATTATAATGGAAATATCGTAAAAGATAAAAATGGAAGAAGAATACTTTTAAAACCTAATAAAACATGGGATTATTTAGGAAATATAAGAAATCAAATTGTTAATAATGGAGAAATATATATTAATAGAAATGGAAGATGGGGATATTTAAGAAAAAACAAGAGCGACAATTTCCCATATATGCAAGTTAGTTTAACTAGAATAAATAGATCCAAAACATTAATTGAAGGTAAAATTTTAAATAATTCAAAATTTAACTATAAAAATTCAACTTTTAATATAGTAGTTTTTGATAAAAAAAGTTTTGAATATAAAGTTGTAGGAAGAATTTCTACAAATAGATTTTTGAAAAAATCTAAAGTAAGATTTTCTAAATATATAAATATAAACAAAAGTGACATTTTAGAATATTATATTGAATATGTAGATGGTGAAAAATTTAAATTTTTAAAAACTAGAAAGATAAAAAGAACAAAAGCTAAAACTCTTGGAGATTATCAAAAAGAATTGAATGATTAGAATTTAGGGATATTTTAAAAATTACTTGCTCTTATCATGACAAAAAAACTATATCTAGGAATGGCTTAAAAATAACCTTCCGTTTTTGTTATAAAATACGTAATGATTTAAGCGTTTTTATGACAAAATATAAGAAATTTATTTTTTAAACGTTCATAAATGCAGTAATGGTTGTAGTGGTTTTGTTATGAATTTGGGGCAAGTTATTTTTTTTTGAATTTTTTCAAAAAAATAGTTGACAAAAATACAAAAAAAATGTATATTATTAACATAAGTTAGCACTCTTTGTGAGTGAGTGCTGATAAAAGGTGGTGAAATATATGAATGATAGAGAAAAAACAATATTAGGTGCTGTAATTGATTATTATATTACAAATGGTGAAAGTGTAGGCTCAAGAACAATTACTAAAAAATATGATATCAGTTTATCATCAGCCACAATAAGAAATGTAATGGCAGATTTAGAAGAAGCAGGTTATATAGAGAAAACTCATACATCTTCTGGAAGAGTTCCAACTAATAAAGGATATAAATTTTATTTAGAAACTTTATTAAAAATAAAAAAATTGTCAGAAGATGAAATTACAAAAATAAATATTGCTTACGAAAAAAGAGTTGGAGAATTAGAAGAAGTATTAGAAAAAACATCAATGTTGTTATCTAAGATGACTAATTATGCTAGTCTTGCAATAGAGCTTAACTATAAAGCTGAAAAATTAAAAAAGTTAGAGCTTATATATGTAAATAGTTATACAATAATGGCAGTTATTATATTAGAAAATGATTCGGTTAGAACGAAACGAATAAATTTGGATTATAGAATAGATGAAGAGGAATTAAAAGATATCTCTAAAATATTAAATAATAAATTTAAAGGTTCAAAATTGGGAGAGATATTACCAAAATTAGAAAAAATAATAAATAAAAGAAGAGATGATGCATTTGAAGGAGTAGTAAAAGAGTGCTTTGGAGAAATAGAAGGTAGTTTCTATTTAGAAGGGGCTACTAATATGATAAATGTATTGGAAAATGAAAATTCAAAAGAGGTTGCAAATGTAGTAAAATTTTTAGATGATAAAAAAGATATTAGAAAATTTTTTGAAGATATGGTAAAAAAAAGAAATTATGAAGATGGAAAAGTAAATGTTATACTAGGAGAAGAATTAGGTATAGAAGGATTAAAGGATTTAAGCTTTATATTTTCAGTATATACATTAGATGATGCAAAAGGTATAGTTGGAATAATAGGTCCTAAAAGAATGGAATATTCTAAAAACTTAGGATTGGTAGAGTATGTAACAAAAGAGGTAAATATAGCAATGAATAAAATTAAAAACAGGAGGGAATAATTATGGAAAATTTATTTTTAGGATTGGTTTATAGTTTACAAATGCAAACAATGATGAGCTTAGGGAAGTTAGCAAACCCAGTAAGTGGAAAAATAGAAAAAAATTTAGAAATAGCAAAAATGAACATAGATATGTTAGAAATGTTAGAAGAAAAAACAAAAGGAAATCTTACTGATGAAGAAAGTAAATTTATTACAAATCTATTAACCGATTTAAGGCTTAATTATGTAGAAGAAATTAAAACTAAAGATAAGGATGAGAATGAGGATAAGGAGAGTGAAAAAAAAGATGAGCAAATCGAAGAAAAATAAAAAGGATATAGATGTTGAGGAAGAAAAAATGGTATCAGAAAATAACACAGAAGAATTAGAAAATGAAGAGAAAAAAGAAGAAGGAAAAAAAGAGGAAAAAGAGATAACTTCAGAGGATAAAATAGTAGAATTAGAAGCAGAAGTTGCAAAATGGAAAGATAGTTATATTAGAAAAGTTGCAGAATTTGAAAATATAAAAAAAAGAATGGAAAAAGAAAAAGAAGAATTTTTAAAATTTTCAACAGAAAAGTTAATATTAAAACTTTTAGAAGTTGTAGATAATTTAGAAAGAGCAGTAAGTTCTTCAAAAACAACAGAAGATTTTAATTCTTTAGTAAAAGGTGTAGAAATGACATTAAATCAAATTAATAGAGTTTTAACTGAAGAAGGAGTCGTAGCTTTAGATGCAAAAGGAAAAGAATTTAATCCTTATGAACATCATGCAATGATGCAAGAAGAATCAGAAGAACATGATGATAATATAGTTATAGATGAGTTTCAAAAAGGGTATAAAATGAAAGAAAAAGTTATAAGACCAGCATTAGTAAAAGTTTCAAAAAATAAAAAATAATTTTTAGGAGGATGATAAAAATGGGAAAAATAATAGGAATTGATTTAGGAACAACAAATTCATGTGTATCAGTAATGGAAGGTGGAGCTGTAAAAGTAATAGCTAATGCAGAAGGAGCTAGAACTACACCATCAGTTGTAAACTTTAAAGAAAGTGGAGAAATAATTGTAGGAGAAATAGCAAAAAGACAAGCTATAACAAATCCAGAACATACAGTTTATTCTATAAAAAGACATATGGGAGAAGATCATACTGAAAAAATGTTTGGAAAAGATTATAGTCCACAACAAATATCAGCATTTATTTTACAAAAATTAAAAAAAGATGCTGAAAGTTATTTAGGGGAAAAAGTAGAAGAAGCAGTTATAACTGTACCAGCTTACTTTACAGATTCTCAAAGACAAGCTACAAAAGATGCAGGAAGAATAGCTGGATTTGAAGTTAAAAGAATAATTAATGAACCTACAGCAGCAGCACTTGCTTATGGATTGGATAAAAAAGGAAAAGAAGAAAAAGTATTAGTATTTGACCTTGGTGGTGGAACATTTGATGTATCAGTATTAGAAATAGGTGATGGAGTAGTAGAAGTAAAAGCAACAAACGGAAATAACCATTTAGGTGGAGATGATTTTGATAATAAAATAATGAATTGGTTAATAGAAGAATTTAAAAAAGAAGAAGGAGTAGATCTTTCAAAAGATAAAATGGCAGATCAAAGATTAAAAGATGCTTCTGAAAAAGCTAAAATGGAACTTTCTACAATGTTAGAAACAACAATAAGCTTACCATTTATTACAGCTACAGAAACTGGACCAAAACATTTAGAGAAAAAACTTACAAGAGCATTGTTTGACGAATTAACAAAAGATTTAGTAGAAGCAACTCAAGGTCCTGCAAGAAAAGCTTTGGAAGATGCTAAATTATCGCCAGCAGATATAGATGAAATAATTCTAGTTGGAGGTTCTACAAGAATACCAGCAGTTCAAAATTGGGTTAAAAATTATTTTGGAAAAGATCCTAATAAAAGTATAAATCCTGATGAAGTTGTTGCAAGTGGAGCAGCTATTCAAGGTGGAGTATTAATGGGAGATGTAAAAGATGTATTGTTGCTTGATGTAACTCCATTATCACTTGGAATAGAAACTTTAGGTGGAGTTGCTACTAAAATGATAGATAGAAATACAACAATACCAGTTAAGAAAAGTCAAGTTTATTCAACAGCAGAAAATAATCAACCTGCAGTTACTATACATGTAGTTCAAGGAGAAAGACCTTTAGCAAAAGATAATACTTCATTAGGAAGATTTGATCTTACAGGAATTCCAGCAGCACCAAGAGGAGTGCCTCAAATTGAAGTAACATTTGATATAGATGCAAATGGAATAGTTCACGTATCAGCAAAAGATCTTGGAACAGGTAAAGAAAATAAAATAGTAATATCTGGAAGTAAGAATCTTAGTGAAGAAGAGATTGAAAAAATGGTAAAAGAAGCTCAATCTCATGAAGCAGAAGATAAAAAAATAAAAGAACTTATAGAAGAAAGAAATAAAGCTGATCAATTAATTTATAGTGCAGAAAAAACATTAAAAGATAATGCTGATAAAGTTTCTGAAGAAGATAAGAAAAATATAGAAGATGCAATTGCTAAATTAAAAGAAGTGAAAGATAAAGATGATTTAGAAGCAATTAAAAAAGGTGCTGAAGAATTAGAAAAAGCTTCTTACAAATTAGCAGAAGAGATATATAAAGAAGCTCAAGCGGCTCAAGCAGCGGCAGGTGCTCAAGATGGCGGAGCTGAAAAAGAAGCAAAGCAAGATGATGATATAGTAGATGCAGAAGTTGTAGATAACGAATAAAGATATTAATGTGGGAATAGAGCTTGACTCTATTCCCATAATTTGCGAAAAGAAAGGAGTAGCAAATTGGAATATAAATTAAGTAATGGAACAGTTGAAATAGTAGTGAAATCAAAAGGTGCTGAATTAAAAAGTGCAAAATTAATTAAAAATAAAACAGAATTTATGTGGGATGCAAATCCAAAATTTTGGGCAAAAAGTTCACCAGTGCTGTTTCCATTTGTGGGAGGATTAAAAGATAATAAATATTTTTATAAAAATAAAGAGTATAAAAGTGGAAGGCATGGTTTTGCAAGAGATAATGAGTTCAATATTTTTGCACAAGATGAAAATAGCATAACATTTATATTTAGTTCAAATGAGGAGACTTTAATAAAATATCCATTTGAATTTGATTTTTTTGTAAAATATGTACTTGAAAAAAATAAAATAATATTAGAATATAAGGTTATTAATAAAACTGATGGGGAAATCTATTTTTCATTAGGAGGGCATCCAGCATTTGCAACTCCTACTTCAGATGAAATAAAATTTGAAGACTATTATTTAGAATTTGAAAAAGAAGAAACATCAAAATTATTAGTATTAGATGGGATGTATGTATCAGATAAACAATTGAACTATTTTAATAATGAAAAAATTATAAATTTAAAAAGAGATATGTTTGATAATGATGCTTTAATATTTGAAGGGTTAAATTCTACAAAAGTGTCTTTGAAAAATAAAATTAATAATAGAAAGATAGTTTTTGATTTTGAAGGATTTCCATTTATTGCATTTTGGTCTGCTCCAGGAGCTGATTATATATGTATAGAGCCTTGGCATGGAATAGCAGATACAATAAATCATAATGGAAATATAGAGGAGAAAAAAGGGATAGAGAAACTTGAAAAGGGAGAATCTTTTGAGACATCATTTTCAATAGAATTAGAAGCATAACTTTATATAGAAAGGAGTAGTGAGAAAATTGTCTAAAAGAGATTATTATGAAATACTAGGTGTCGAAAAGGGAGCTAGTCAAGATGAAATAAAAAAAGCTTATAGAAAATTAGCAATGAAACATCATCCAGATAGAAATGCAGGCAATAGTGAGGCAGAAGAAAAATTTAAAGAAGCAAGTGAAGCTTATCAAATACTATCTGATCCTGAAAAAAGATCTAAATATGATAGATTTGGAAGTTCAGCATTTGATGGTAATGCAGGTGGAGGAGGCTTCAATTATAATAATTTTGGAGACTTTGGAGATTTAGGAGATATATTTGGAAGCTTTTTTGGTGGAGGATTTGGTGGAGGTAGAAACAGCAGATCTAGAAGTAGAGCTAGAAAAGGATCAGATTTAAGATATAATATGGAAATAACTTTAGAAGAATCTGCTGAAGGAGTAGAAAAAGAGGTTTCTTATACAAGAGAAGCAAAATGTTCTACTTGTAATGGAACTGGAGCAGAACCTGGAAGTAAGATGAAAACATGTCCAAAATGTAATGGAACTGGAGAAATAAAACAAATTTCAAGAAGTTTATTTGGACAATTTGAAAATATAGAAGAGTGTGATAATTGTAATGGAACTGGAAAAGTACCAGAAAAAAAATGTCATACTTGTGGTGGAACAGGGGTAGTTAAAGAAAAAGTTAAAAAGAAAGTAAAAATACCAGCAGGAATAGAGTCAGGGCAAAGAGTAAGAGTTAGTGGCTTTGGTGAAGTTGGAGAAAATGGTGGACCGTACGGGGATCTATATATTTATGTATTTATAAAAGAACATGAAATATTTGAAAGAGTGGATAATAACATAGTTTGTGAAATGCCAATAAGTTTTACAACGGCAACTTTAGGAGGAGAAATAGAAGTACCTACTCTTACTGGAACAATAAAAATGAAAATACCATCAGGAACACAAACAGGAAAAGTATTTAGATTGAGAGAAAAAGGAATTCCTTATATTAGAGGATATGGCAAAGGTGATGAAATGGTAAAAGTTATAGTAGAGATACCTACAAATTTATCAGAAAAGCAAAAAGATTTATTAAAAGAATTTGATTCGGCGCTGCATGAAAAGAATAATTCTATGGCAAAATCTTTTTTTGATAAAATAGCTAAGAAATTTAAAAAATAATAAAACCAACTCTTCTTTATATTTATGAAGAGTTGGTTTTATTATTTTTATTTTAAATTAGGAGTAAAAAAACATAATATAGATCATCAAATAATTTTGATATAATTTTAAATATGGATTTTGTAATTATACTATATTAGTAAAAAATTTAAAATATAAAATTTTCGAGCAATTAGTTTTTAGAATTCCTGAGCTGCTATTTCTAATACAGAATAAAGTGACTGCATATAAAACTAGAGACAGGTTTTTCGTTTACAAGCATGAATTTTTATGATATAATATATTCTTAACAAAATTAAAAAATTAGGAGGTAATATTATTGAAAAAGAGAGTAATAATATTAATGTTATTCATTGTAATATTTTCTGAATTTAGTTTTTCACAAGGAGAAATATTTAATTCTAAAAATAAAAGTAAAAAGAATATAAATTTACTAAATTTTGAATACAAAGAAGATAATGGTGGAATTATAATAACAAAGTATATAGGAAAATCAAAAGAGATAAAAATACCGAGAGAAATAGATGATAAACCAGTGCTAAAGATAGGGAAACTAGCTTTTAATAATAAAAAAATAAGGAAAGTAGAACTACCTAATACAATAATTGAGATAGGAGAAGAAGCATTTTCATATAATCAACTAAAAGAGATATTAATTCCAAACTCAGTAAAGAAAATAGGAGAATCAGCATTTCTTGTTAATGAATTAAAAAGTTTAGTAATTCCAGATTCAGTACTAGAAATAAAGGCGGAAGCTTTTGGAAATAACAATTTAGAAAGAGTAAAACTTCCAAAGAGATTAAAAGTAATAGAACATAGTGTTTTTTACAACAATAGATTAGAAGAGGTATTAATTCCAAAAACAGTAACTAAAATAGGGTATGGTGCATTTTTAGTTAACAAGTTAAAAGAGATATCTATACCAGATGGGGTAACAGAAATAGGAGCATATAGTTTTGGAAATAATAAATTAACAAGTGTATATATACCAGATACAGTAAAAAAAATGGGCAATGGTGTATTTGTGGAGAATAAATTAAAAAAAGTAAGAATATCAAATTCTTTATCAATAATAAGATGGAGAGCTTTTGCAGAAAATGAACTAACAAATGTAAAGATCCCAAATTCAGTAAAAGTGATAAGAGGAAGTGCTTTTAAAGAGAATAAATTAGAAGAGATAGTAATTCCAGATTCAGTAGAAGAGATAAGAGGAAATGCATTTTCAAAAAATGAATTAAAAAAAGTAGTTTTATCAAAATCATTAAAAAAAATAGGATATAGAGTTTTTGGAGAAAATAAATTAACAAGTATATATATTCCTAGTTCAGTAGAAGATATAGGGAAAGAGGCTTTTTATAGAAATAAATTAATAAGACTAAAAATTCCAGATACAGTAAAAAAAATAGGAGAAGGTGCTTTTACAAGCAACAATTTAATTAGTGTAGAATTTCCAAAGTTTATAGAGAAAATAGGAAAAATGGCTTTTGAGAGAAATAAATTAACAAGATTAATAATTCCAAGTTCAGTAAAAGAGATAGGAATATTTGCATTTTCAAATAATAAATTAGAAAAAGTAGTTTTACCAAAATCACTAAAAAAAATAGAAGGCAAAGTTTTTTCAGGAAATAATTTAACGAGTATATATATTCCAAGTTCAGTAAAAGAGATAGAAGGTGGTGCTTTTGAATATAATAATTTAAAAAAAATAGTAATACCAGATTCAGTTGAAGAGATAGTATGGGAGGCATTTGCACATAATAATTTAAGTGAATTAAAAATAGGGAAGTCAGTAAAAAAAATAGGAGGAAGAGTATTTTCTCATAACAAACTAAGTAGAATAACAATTCCTAATACAGTAAAAGAGATAGGAGAAGAAGCATTTTCTCACAACAAACTAAATAGAGTAACAATTCCTAATTCAGTAAAAAAAATAGGAGAAGGAGCATTTTCTTACAACAAACTAAGTAGAGTAACAATTCCTAATTCAATAAAAATAATTGATAAAGATGCATTTTTAGGGAATGATTTCAAAAAATTAGAAGACATTAAATTAGGGGAAGGGTATAAAAGTTATTGGGTTTTTAACAAGTCAAAAGGAGAATTAGATGGAATTATAGGATTACCAAGAAATTATGATTTAGTAATTCCTAAAAAAATAGATAATACTCCTGTAAAAAGCATAGGAGAAGATGCTTTTGTATATTCGAAGTTAAAAAGTGTGATTATTCCAAATTCAGTAGAAAAAATAGGAGGAGGAGCTTTTATGGAAAATAACTTAACTAGCATAGTAATTCCTAATGGTATAGAAAGAATAGAAAGTTATACTTTTCAAGATAATAGATTAAAAACTATAGTAATTCCAAAATCTGTGACATATATAAGGTTTGATGCTTTTAGTGAACATTTAAAAGCAACAATTTATGGAGAACCTGGCTCAGAAGCAGAAGAGTATGCAAAAGATATGGGAGTAGAATTTAAACCTATAAAAGAATTAAAGAAAGAAAAAAAGTAAATGTAAATATATTTGAATAATAGAAATTAGGAGGTAATATTATTGAAAAAGAGATTAATTTTATGGATGGTATTATTAATTATGCTATCATTTAATTTATATTCACAGGTAGAAAAAATAGATCCAAAATTATATAATACAGTTTGGGAAAGAGAGTTTTTAAATTATACCAGTGATAAAATATCTTATTACTTATTAGATACAGGAGAAGTTGTAGTTTCTCAGTATTATAAGGTAGATAAAAATAATGAACATAGAGATTTGATTGACCTAAAAAAAGATATGTTGTTTTATTCAGGAAAAGAAATCAAAAAAGAATATTTTGAGAATAAATTAAGAAAACGAATAGTTATTCCTAAAACTACAGAAGAGTCTTATAATGTTAGCTCAGGGGAAAAAGAGAAAGAATACTCTAAAATTGTATATGATAACTTAGGAAATAAATATAGATGGGTAAATGGTTTGGCAGTATATTATGATAAAAGATACGAAGATAATAAAAAATATATAATTGATAAGATAGCAATTAATAGAAGTAGAATTAACGGAACATATTTTTCAGATTTAAAGAGGTTTTCGTCGGTTTTAGATAAATGTGTAATAGTACTTGAAAAATTAAATGAAAATAATAAAATATTGTGGCAAAAAGTTTATTTTTATAATTTGCCAATATGGAGATCGTATTTTGATAGAGCAGAGATAGAATATGATTATTATTTTTATTATTTAAGACGAGGGTATATAACTCTATTAAATGCAGATAATATATTTTTGAATTTTCCTGGGACGAAAATGATATATAGAGTGGATAAAAATGGAAATCCAGTTACGCAAGATAAAAATGTGATAGTATTAGATTATAAAAATTATGTAAAATTTTATGAAAGTGAATATAATAGGTTAAATATTAAATATCTGATGGAAGATGAAGAAGGAGTTGATTTTAATCCGATTGATTACGAGGTGTTTGATTATGATTATATAGGAGAGAGACTTTTGAAGAAGTATAAATTTAATTTAAATGATAAGAAAATTATAGACAGTATAAATGAACATCCTTCTGTGAAACATCTAATGAAAATTTATAAATTAATGGATGAGTATTATAAAAAAGAGGTGGGAATAGATAAAAATAATTTTTATCCAGTATTTTTAGAAAGAAGATGGAATCTAAGTGTTATAGAGACAGAAAAGTGGAGTGAAAAATAAAATAATAGATAGTTGTAAAAATAAAATAAAATTAGGAGGTAATATTATTGAAAAAGAGAGTAATAGTATTAATGCTATTCATTGTAATATTTTCTGAATTTAGTTTTTCACAAGGAGAAATATTTAATTCTAAAAATAAAAGTAAAAAGAATATAAATTTACTAAACTTTGAATATAAAGAATATAATGGTGGAATTATAATAACAAAGTATATAGGAAAATCAAAAGAGATAAAAATACCGAGAGAAATAGATGATAAACCAGTGCTAAAGATAGGGAAACTAGCTTTTAATAATAAAAAAATAAGGAAAGTAGAACTACCTAATACAATAATTGAGATAGGAGAAGAAGCATTTTCATATAATCAACTAAAAGAGATATTAATTCCAAACTCAGTAAAGAAAATAGGAGAATCAGCATTTCTTGTTAATGAATTAAAAAGTTTAGTAATTCCAGATTCAGTACTAGAAATAAAGGCGGAAGCTTTTGGAAATAACAATTTAGAAAGAGTAAAACTTCCAAAGAGATTAAAAGTAATAGAACATAGTGTTTTTTACAACAATAGATTAGAAGAGGTATCAATTCCAAAAACAGTAACTAAAATAGGGTATGGTGCATTTTTAGTTAACAAGTTAAAAGAGATATCTATACCAGATGGGGTAACTGAAATAGGAGCATATAGTTTTGGAAATAATAAATTAACAAGTGTATATATACCAGATACAGTAAAAAAAATGGGCAATGGTGTATTTGTGGAGAATAAATTAAAAAAAGTAAGAATATCAAATTCTTTATCAATAATAAGATGGAGAGCTTTTGCAGAAAATGAACTAACAAATGTAAAGATCCCAAATTCAGTAAAAGTGATAAGAGGAAGTGCTTTTAAAGAGAATAAATTAGAAGAGATAGTAATTCCAGATTCAGTAGAAGAGATAAGAGGAAATGCATTTTCAAAAAATGAATTAAAAAAAGTAGTTTTATCAAAATCATTAAAAAAAATAGGATATAGAGTTTTTGGAGAAAATAAATTAACAAGTATATATATTCCTAGTTCAGTAGAAGATATAGGGAAAGAGGCTTTTTATAGAAATAAATTAATAAGACTAAAAATTCCAGATTCAGTAAAAAAAATAGGAGAAGGTGCTTTTCAAAGCAACAATTTAATTAGTGTAGCACTCCCAACTTCATTAGAAGAGATAGATAAAGATGCTTTCTATAGAAATAAATTAAAAAGATTAATAATTCCAAATTCAGTAAAAGAGATAGGAGAATTTGCATTTTCAAAGAATAAATTAGAAAAAGTAGTTTTACCAAAATCACTAAAAAAAATAGAAGGTAATGTTTTTTCAGGAAATAATTTAACGAGTATATACATCCCAAGTTCAGTAAAAGAGATAGGAGGTGGTGCTTTTGCATATAATAATTTAAAAAAAATAGTAATACCAGATTCAGTTGAAGGTATAGTAATAGAGGCATTTGCATATAATAATTTAAGCGAATTAAAAATAGGGGAGTCAGTAAAAAAAATAGGAGCAGGAGTCTTTTCTCATAACAAACTAAGTAGAATAACAATTCCTAATACAGTAAAAGAGATAGGAGCATTTGCATTTTCTCACAACAAACTAAATAGAGTAACAATTCCTAATTCAGTAAAAAAAATAGGAGAAGGAGCATTTTCTTACAACAAACTAAGTAGAGTAATAATTCCTAATTCAGTAAAAAAAATAGGAGAAGGAGCATTTTCATTGAATGATTTCAAAAAATTAGAAGACATTAAATTAGGAGAAGGGTATAAAAGTTATTGGGTTTTTAACAAGTCAAAAGGAGAATTAGATGGAATTATAGGATTACCAAGAAATTATGATTTAGTAATCCCTAAAAAAATAGATAATACACCTGTAAGAAGCATAGGAGAAGATGCTTTTGGAGATTCGAAGTTAAAAAGTGTGATTATTCCAAATTCAGTAAAAGAAATAGGAGGAGGAGCTTTTATGGGAAATAACTTAACTAGCATAGTAATTCCTAATGGTATAGAAAGAATAGAAAGCTATACTTTTCAAGATAATAAATTAAAAACTATAGTAATTCCAAAATCTGTGACATATATAAGAGTTGATGCTTTTAGTGAAGATTTAAAAGCAATAATTTATGGAGAACCTGGCTCACGAGCAGAAAATCAGGCAAAATATATGGGAGTGGAATTTAAACCTATAAAAGAATTAGAGAAGGAAAAAAAGTAAATGTAAATATATTTGAATAATAGAAATTAGGAGGTAATATTATTGAAAAAGAGATTAGTGCTATGGATGGTATTATTAATTATGCTATCATTTAATTTATATTCACAGGTAGAAAAAATAGATCCGAAATTATATAATACAGTTTGGCAAAGAGAGTTTTTAAATTATACCAGTGATAAAATATCTTATTACTTATTAGATACAGGAGAAGTTGTAGTTTCTCAGTATTATAAGGTAGATAAAAATAATGAATATAGAGATTTGATTGACCTTAAAAAGGATATGTTGTTTTATTCAGGAAAAGAAATCAAAAAGGAATATTTTGAGAATAAATTAAAAAAACGAATAGTTGTTCCTAAAACTACAGAAGAGTCTTATAATGTTAGCTCAGGGGAAAAAGAGAAAGAATATTCTAAAATTGTATATGATAACTTAGGAAATAAATATAGATGGGTAAATGGTTTGGCAGTATATTATGATAAAAGATACGAAGATAATAAAAAATATATAATTGATAAGATAGCAATTAATGACAGTGTTACTACTGAAGCGTATTCTTCAGAAATTTTATACCAATATGTAATAGTATTAGAAAAGCTAGATAAAAAGAACAAAATATTGTGGCAAAAAGTTTATTTTTATAATTTACCAGTATGGAGATCGCAGTGGTCTGGAGAAGAGCAGGAATACATATATTATTTTAGTTATTTAAGGAGAGGATATATAACTATATTGAATGCAGATAATATATTTTTGAATTTTCCTGGGATAAAAATGATATATAGATTGGATAAAAATGGGAATCTGGTCACACAAGATAAAGATGTAGTAGTATTAGATTATAAAAAATATGTAAAATTTTATGAAAGTACATATAGCAGATTAAATATGAAATATATGATTGAAGATGAAGTAGGGGTTAAATTTACTCAATTTAATGGTGCAGTAGGCTATGATTATATAGGCGAGAGATTTTTAAAGAAATATAAATTTGATTTAAATGATAAGAGGATTATAGATAGTATAAATGAGCATCCTTCAATAAAAGTCTTAATGAAAAGTTATAAATTAATAGATAAGTATTATAAAGAAGAGATTGGAACTGATAAATAGATTTTTTTTTAGAAAGAAGATGGAATCTAAGTGTTATAGAGACAGAAAAGTGGAGTGAAAGATAAACAAAAATAAAATAAAAAAAGGAGAGAAAAAGATGAAAAGAATATTAATTGGAGTAATAATGGTAATGACAGTTTTAAATTTTGGAGGATGTTTTTCTAATAAAAGCGATACAAATAGTGTAGTAGCCAAAACGATAGAATGGGAAAAAAATGACAATGGAGAATTAGAATTTTATACAAATGATACAGATTATAAAAATGCGAGTTATTGGTTTGTTTTGAATTCTCCTTATGAAGATCCAATGAAGTCATTTGAAGTGTACGCTAAAAAGGTATCAGGATATAAAGATGGTGGATATGGTATAATATTTGGAGTTCAAGATAATAGTAATTTTTATAGATTATTAATTACAGAAACAGGGTTCTATCAAGTTTCAAAGAAAGTTCAAGATGAAAATACAGTTATTTTAAACTGGAATAGAGGAAATAATTTACAAACTGGATATGGAGTATATAATAAAATTAAAGTAACTTATAATGCGGGAGAATTTAAGATATATTTTAATGATAAATTTGAAAATAATTTTACAGATTATCAATTTACTAAAGGAAAATATGGCATGTATTTAGGAGTTTTTGATGAAAATTTTCCAAAAGAAAGTGTTGATATTTTGTTTGCGAGATAAGAAGAATGGGGGAATCAATGGAAAAAGTGTGTAGTAATAGTAGAAAATTGGGAAAAGTTTAAAAAGAGTATAACAGTAACTGCATCAAAGAAAAATTTTAAAAAATAATTGAAAAAAACGGGTGGATATGATATACTTAGGAAAAGTTTAAAAATAACATTCCAATTTTGTTTTTAAAGGCTCAAGGTTCTTTTATGAAAATTACATAAAAAACTACGTCCAACGGATGCAATGTTTCAAGCATTTTTATAACAAAAGATAAGAAAATTATTTTTTAAACTTTTTTTAAAGTAATAAAATTAGGAGGTAGAAGAGATGTTTTCAAATATATTATATGCAGCAGGAGCAGCGACAGCACCAACTAGCACAAATGGTATAGTTACACTAGTAATAACAGTAGTTCTTTGGGGTGGGATATTTTATCTATTGCTAGTAAGACCACAAAAGAAAAGAACGGCAGCACATAAGCAATTAATGGATTCGTTAAAACCAGGAGATGTTGTATTTACCACTGGAGGAATTAAAGGAGAAATAATTTCTAAAAATGATGAATTTATAGAATTAAGAGTAGATAAAGGTGTGAAATTAACTGTTAAAAAGAATGTTATTTCATCTATATATAAGAACAAATAAGCGACGATTTTTAATTGTCGCTTTTTTCAAAAGAGGGGTGTATTAATGAAGAGATATAGTTTAGCTCTCTTTTTTTTAATATATATAATTAGTTTTGGAACGACTACTAATAAAATAGAAAAATATAGTTTTAATTCTAATAGCATAATTTTTAATATTTCTGGAAACAGTTTCCCTAAATATTTATCAAATTATGATTCCGAAAGTAAAATTATTTTTTTAGAATTTAGTAATACTACTCCAAATAAAAATATTAAAAATAAGATTTTAAATGGAAATTATATATCAAAAATAGAGACAGTGAGTTTTGATAAAACAACAGATTTTTTTATAACTTTAAAAAGCGGAGTAGAATTTTTAGAGAAAAAATTAAAAAATCCTAATAGATTTCAAATTATTTTTAGCAAAAAAACAGTTAAAAATAGATATACTATTGTTATAGATCCAGGACATGGTGGTAAAGATCCAGGTGCAACAGGATATAGAGGATTACATGAAAAAGATATAGTATTAAAAGTGGGAAAATTATTAAAAAAAAAGTTATCTAAAGTTAAAAAATTTAATGTTATTATGACAAGGAATAAAGATGTTTTTATACCACTTGGAAAAAGAGCTGATATTGGGAATAAAAACAGTTGTGACCTATTTATAAGTATTCATGCAAATGCAAATAAAAAAAAGAGTGCTAATGGAGTAGAAGTATTTTATTTTTCTAAAAAATCATCTAAATATGCACAAAATATAGCTAATTTTGAAAATAGTGTAGATGATAAATATGGGATAAAGTCTGATTATGCAAAATTAATAGTGAATGATATATTTTATCATATGAATCAAGAAAAAAGTATTGATTTATCAAGTAGAATAGAAAATAAGATAAATAAATTAACAGGACTACCAAAGAGGGGAACATTTGGAGCAAATTTTGCAGTATTAAGGCTTTCAAATTCTCCAGCATTATTAGTAGAGCTTGGATTTATAACAAATAAAAGTGATGCTTTAAAATTAAAAAATTCAAGATATCAAGTAGCATTAGCTAATGCAATATATTATTCAATAGTAAATTATTTTAATTAAGGAGTTCTTTATGAAAAAAGCAATTTTGATAATATTTTTAGTTTTAGATATAATAATGTTTTTTCTATATTATAAATATTATATAAAAACTCCCGAAATTATAAAATATAATGCTAAAACAGTGTCTAATATTGAAAAGAATAAAAAGGAAACAATGAAAATATATATACCAGATGATAAATATAAATATTTGAAAGGGATAGATGTAGAAATTCCATATTACAAGGATAAAGAAAAGAAAATAAAAGCAATATTAGAGAAGATTTTACCTTTTGAAGTAAAAGTGTTAAATATATATATAGAAAAAGAAAATTTATATATAAATTTAAATAGTAAATTTAAAGAGATAGTTAATGATAGTGAAAAAGAATTATATATAGTTTATTCAATAGTTAATACAGTAACGCAAGTAGAAAATATAAAAAAAGTTAAAATACTTATTGACAATGAGGAGATAAAAACTGTTACAGGATATTTAAATTATAACAAGTTTTTTAAACAAGATGATTTGTTAATAGAAGGAGAATAAATATATGATTATTTTTATTGTTTTTATATTATTAATAATAGGTATAGGAATATTTTTATATATGTATTATAGTAGAGAAAGTAAACTAGCAGAAGGAATTGCATATTATGATAATGATGATTATGAAAAAGCATTAGAGGTTTTAAAGTCTTATATAGTAGCAAAACCATATGATATAAGAGCTAGAAAATATTTGGCAGAACTGTATTTAAAACAAAATGAATATATATTAGCTTTAAAAGAGTGCATAGCGATAACAGTTAGTAGTTATGCAACATTTAAAGAGAAAGCAGATGCTTATGCAAAAATGGCAGAAATATATATTGAGCAAGGGATATTAGATAAAGCTACAAAAGTAGCTGTAAAAGGATTTAAGTTAGAACCTAAAAATGCGGAAATTCATTATAGTTTAGGAAAAATATATTTATTAACAGATAAATTAAATAGTGCAATAAAAGAATTTAATTTGGTATTATCAGTAGATAGAACTCATATTCCAGCAAGGCTAAAATTAGCAGAAATACATTTTAAGAATAGAAATGATATTAAGGCAATATTTCAGTATAAAAAAATAATAGAATTAGAGCCAAATAATAAAGAGGCTCATTTTGAATTAGCAAAACTTTATTATGAAAATGGTGAATATGAAAATGCTAAAAATGAGATAGAAAAGATAAAAGATAGAAAAGGTATAGAAATTGATTGCGATTATATACTTGTAAATTATTATTTAAAAGTAAAAAACAAGGAAAAAGCAAAGGAAATAATGGAGAAAGCTATATTAGGAAATGATATTAAAAATGAAAAGCTAACATCTTTAAGATATGAACTTGGAGTGATTTATGAAGAAGAAGGGAATTTTGAAGGGGCTTACGAGCTATATGAAAAAATAAAATTAGATATATTGAGATATAGGGATATAGAAAAAAGAATGCAAAAAATAAAAAAAGTTCTTTTTCCAGAAGAACATGCAAAGATGGTTCAACAAATAGATTATAATAAATTGCCAACATTGGAATTTGAAGATCTATTTTATAAAGTTATAGATTCATTAGGATATAAAGAAGCAAAATTAATAAAGAAAAATAGAAATTTAATATCTATTATTGCTGTAGAAAAGTTTAAAACTTTATTACAGGGAAAATATTTAATAGAGATGGGAAGAAATTTTGAAAGTGTAAGTAGACATGAAGTAGAAAAGTTTTTAATTAAAATAAAAGATGAAGGAGCAAAGAAAGGAATACTTATATCAACATCTACTTTTAATGATGCAGCTATAAAACTTTTGGAAGAAGTTAGTAATTTAGAATTGGTTGATAAAGTGAATATTTATGAATTAGCATAGGTTTGCATAGAAGAGTAACCATTTTTTATCAAAATAGGAGGAGAAATCATGGGAGATAGATATCATGGACATTTTGGAGATACAAAAATATTAAAAGATGAATTTTCAAAACTATTAGATGATTTTTTTGATTTAAAAAAAGAGGGGCTTCAAGAATATGATTTTTTGCCTGCTATGGATGTTTATGAAGCTGAAAGTAATGTTGTAATAGAAATAGAACTTCCAGGAGTAAAAAGAGAGAATATAGATATTGAATTTAATAATGGTATAATAACTATTAGTGGAATAAAAGAATCTAAAAAGGTTAATGAAAATGCTTTATTTCACAGAATAGAAAGAAATTATGGTAAATTTCAAAGAAATATTAAAGTTGAAAGTAAAATTATTGAAGATAAAATTGATGCAAAATTAGAAAATGGTATTTTAATGGTATTTTTGCCAAAAAAAGAAGATAATAAGATAATAATTAATTTGAATGATTAACCGGAAAAACTATTTTTCCGGTATTTTTTTGAGATAAAATCAAATCTTTAATATGAAAATGAGAAAAATTAAACATAATTATAATTTTATAAAATTTATAAAGGAGAGTGAATAATGGCAAAGAGAACAGATATTAAAAAAATTCTAGTAATAGGTGCAGGACCTATCGTTATAGGACAGGCATGTGAATTCGATTATTCTGGGACACAAGCTTGTAAAGCTTTAAAAGAGGAAGGATATGAAATTGTATTAATAAATTCAAATCCAGCAACTATAATGACAGATCCAGAAATGGCAGATGCTACTTATATTGAACCAATAAGAGCAGACATAATTGAAAAAATTATAGCTAAAGAGAGACCTGATGCAATCTTACCAACTATTGGAGGACAAACTGCACTTAATATGGCAGTAGAACTTGCAGAAAAAGGGATATTGGAAAAATATAATGTAGAATTAATAGGAGCAAAATTAGAAACAATAAATAAAGCAGAAGATAGAGAACTATTTAAGGAAGCTATGGAAAAATTAGGATATAAAATGCCAAAATCAGGATTTGCAAATAATTTGGATATGGCACATAAATTATTAGAGATGGTAGGATTTCCGGCAATTATTAGACCTTCATTTACATTAGGGGGAACAGGTGGTGGAATAGCATATAATATAGATGAATTTAATGAAATAGTTTTGGATGGAATTGACTCAAGTCCAATAAATCAAGTCTTAATAGATCAATCTATATTAGGATGGAAAGAATATGAACTTGAGATGATGAGAGATAAAAATGATAATGTAGTGGTAATATGTTCTATTGAAAATATAGATCCAATGGGAGTGCATACAGGAGATAGTATTACTGTTGCACCAGCACAAACATTAACAGATAAAGAATATCAAAATTTAAGAAATATGTCTATTGAGATTTTAAGAGAGATAGGAGTAGATACTGGTGGTTGTAATGTTCAATTTTCTGTAAATCCTGAAAATGGAGAAGTTATGATAGTAGAAATGAACCCTCGTGTTTCGAGATCATCAGCACTTGCCTCAAAAGCGACAGGATTCCCTATTGCAAAGATAGCAGCAAAATTAGCTGTTGGATATACTCTTGATGAGATAAAAAATGATATAACAAAAGAAACTTATGCGGCATTTGAACCAACAATAGATTACGTTGTAACTAAAATACCAAGATGGGCATTTGAAAAATTTAAAGGTGCTAATGAGATATTAACTACAAAAATGAAATCTGTTGGAGAAGTAATGGCAATAGGTAGAACATTTAAAGAATCATTACAAAAAGCTTTAAGAGGCCTTGAAATAGGAAGATTTGGGTTAGGAGCAGATGGAAAAGATGTTATTCCTACTGAAAGTGAATTGGTAGAAAATTTAGTAGTGCCTAATAAAGATAGAATTTTTTATTTGAGATATGGATTTAAATTTTTTAATAAAACAGTAGAAGATCTGTATAATCTTACAAAAATAGATAGATGGTATTTATATCAAATTAGAGATATAGTTAGATTAGAAGAAGAGATAGAAAAGTTTGATTTGGATAATATGTCTGTAGAATTAATGAGAAAAGCAAAAGAATATGGATTTTCAGATGTACAATTGGCATATTTATTAGAAACAGATGAAGATAAAGTTAGAGCTAAAAGAAAAGATATGAAGATAGATGTAACTTATAAAATGGTAGATACTTGTGCAGCAGAATTTAAAGCATATACTCCATATTTATATTCAAGTTATGAAAGTGAATGTGAGGCTAATCCAACAAAAAATAAAAAAATAATGATTTTAGGTGGAGGGCCAAATAGAATTGGACAAGGTATAGAATTTGATTATTGTTGTTGTCATGCTTCATTTGCATTACAAGAAGATGGATATGAAACTATAATGGTAAATTCAAATCCAGAGACAGTTTCAACTGATTATGATACATCAGATAGATTGTATTTTGAGCCATTAACAAAAGAAGATGTACTTAATATAATAGAAACAGAAAAACCAGATGGAATAATTGTACAATTTGGGGGACAAACTCCATTAAATTTATCAGGAAAAATAAATGATATATCTGGAGTTAAAATAATAGGGACTTCGCCTGATAGTATTGATATGGCAGAAGATAGAGATAGATTTGGAGAAATGTTAAATAAATTGGGAGTATTACAACCTAAAAATGGTATTGCAAAATCAGTAAGAGAAGCAGAAAATGTAGCTGGTATAATAGGATTTCCGATTATAGTTAGGCCATCATATGTATTGGGTGGAAGAGCAATGCAAGTAGTGTATGATATGAGTTCTTTGAGACACTATATGGAAACAGCAGTTTCAGTATCGCCAGAGCATCCAGTATTGATAGATAGTTTTTTAGAGGGAGCAATAGAAGTTGATGTTGATGCTTTATGTGATGGAGATGATGTAGTTATTGGTGGAATAATGGAACATATAGAAGAAGCTGGAATACATTCTGGAGATAGTGCTTGTATGTTGCCAACTCAAAATTTAACTGAAAATGTTTTAGATACAATTAAAGATTATACAAAAAAAATGGCATTAGAATTAAACGTAGTTGGGCTTATGAATGTACAATATGCAGTGAAAGATGAAAAAGTATATGTATTGGAAGTAAATCCAAGAGCAAGTAGAACAGTACCATTTGTAAGTAAAGCCACAGGAAGACCTTTAGCTAAAATAGCTTCAAGATTAATGGTAGGGAAAAAATTAAAAGAATTAGGGATTACAGAAGAGATTATTCCAAAACATGTAGCAGTAAAAGAAGCAGTTTTTCCATTTGTAAAATTCCCAGAAGTTGATCCTAAATTAGGGCCTGAAATGAGATCTACAGGAGAAGTAATGGGAATTGATCTAAGTGTAGGAAGAAGTTTTTATAAAGCACAATATGCAATTAATGAAAATTTTCCACTTAGTGGTTCTGTATATGTCAGTGTAGCTGATGAAGATAAAGCAGGAATATTAGAAGTAGTTAAACAGTTTTCGGCACTTAATTTTAAAATATATGCTTCAAGAGGAACAGCTAGATATTTAATAGAAAATGGAATAAATAAGCTTGAAGTTATAAATAAATTAAAAGAAGGAAGACCAAATATAGTAGATTATATTAAAAATAATAAAATTAATTTAATAATAAACACAACAAAAGGTAAAAATGCAAGAGGAGATGGAGAAATAATTAGAAAAAATGCTGTTACAAATGGAATTTTTTATGCAACAACAATAGCAGGAGCGAAAGAAACAATTGATGCTATAAAAGAAAAAGTTGAAAAAGGGATAAATGTATTTTCGCTACAAGAATATTATAAGAGATAAAGATAAAAAAATAAATAAAAAGAGCAATTCGTGATGGAATTGCTCTTTTGTTTGTAATTTAATATTAAAAAATAAATTTATTTTTTATAAATGATAGTGTAAAATAATTGTAGGGAAAAAAGATATTCAACGCAGAGTCACAGAGAACGCAAAGCTACGCAGAGATATTTATAAGAGAATGTATATGAATTTGAATAAAAGATTTTTTTATTATCAATTATTATATTTCTCTGCGAACCTCTGGTTACTCTACCGGCTCTGCGTTGCAATTTTTTATAAATTTTAAGGTTGACTTTAATATTATAATATGCTAATATATATTCATAATAAAAGTTGACTAAGGAGGTAAAGAAATGAAAAAGTATGATGTTACAGAAAAATGTATAGGGTGTAGGGCTTGTTTAGGAGTTGCAGAATTAAATTTCGATATAAATGATAAGAACAAAGCATTTATATTAAAACAGCCAGATTCAAAAGATGAAGAAGAAAAATGTGAAAAGGCAAAAAATATATGTCCAGTAGATGCAATAATAGAAAAAATAAAGGAAAATAAAGAGGAAGTAAGAAATTTAGAAAAGAATGATTTAGTATTTGCTAATGCAAATATTAAAGAGACTTTAGATAAATATCCAGAGTTAAAAAGAGTTTTAGTTAAATTATCTCCCAAATTTAAAAGAATGCAAAATCCAATTATGTATAATACATTAGCAAGATTTGCTACTTTTAAAGATGCGTCTAAAATAACAGGAGTATCCATTTGTGAAATTTTACATACTATAAATGAATATTTAGGAATAGAGAAAAAATTAGTAGAAAATATGCCTGAATGTGTGGCTGCAATGAAAGAGGATAATGGATTTGAAAAAGAAAGTAGTCCGATAAACTGGGAAGAGAGTAATGAAAGATATATTTATAATAACAATTCTATTGAAGAATTAATAGATAAAGTATCAAAATTAAAACCTCAAGAAAATATTGTTATGTTATCAGTAGAATTACCTTTGGAACTATTAAAATTAGTTGTTGGATTAAAATTTAAATATAACATTGAAAAAAATAGAGAATATAGATTATCTATTTTTAATTCTAAATCTGAAGAAATAGTAGATTGGAAAGATAGAAAAGATGAATTTGAGATTTTAGATGTAAGGACAATGGAAAGTGACCCATTTGATATAATAATAAAAAAAGCTTATTCTTTGGAGGAAGATAGTGGATTTATATTAATTCAAAAGTTTAATCCTATACCTATGATAAATATGTTAAATGAAATGGGATTTGAAAGTATTGTAGATGAAAAAAGAAGAAATGAAGTATGGATATACTTTCATAAAAAAGTATTAATCGAAGAAGAAAAAACTGCAATAGAGGATAAAATAGATGTGGTAATACAATCAGCAACACCAGTTGCGTATCCTGTAATGATGAGATTATTGCAATCGAAAAAGATAAGAAAATCTGTGAATATAAAAGAATTAAAAGTATGGGAAGAAACAGAAAAGCATTTAGGGTGGATTGTTAATGGAAAGGCGGATATAAGTTTTTCTGCATTAATTACATCTGGTAAATTAAAAAATAGTGATGTAAAAATACCAGCTTTATTTGTGTGGGATAATTTTGTGATACTTACAAGATATAAAGCTAATGGATTGGAAGATATAAAAGGAAAAGAGATATATGCTCCGTTATTTGAAGATGCTCCACCAGCAAAAATAACTAAATATTTAATACAAGCAAGTGGATTTGATATAGATGATTTTAAATTTAAATATGGAGAACCTTTTGGAAGGCCAGAAAAAATATATTCAGATTTTGTAACTGGAAAGGCTGATACTGTTATATTAAGAGAACCAGAAGCTGCATATGCAATAAAAGCAATGAAAGATAGAGGAGAAAAGATTTCTATTATATCATATAATAAAATTTGGAATGAAATTAATAAAGGGTTTGGAAGTTTTCCAAATGCAGGGATATTATTAAAAGGAGAATTTACAAGAAAATATCCAGAATTAACAAAAGTTTTGTTAGAAGAATTAAAAGAAGCTATAAATTGGGTAAATAATAATAGAAAAGCAGCAGCAGAATTATCATTTGATATGATGAGACAACCTGTTGATAGAATAGAAGAATTCTTGGATAGAGTTAATTTTAAATATGTTGAAGGAGATGAACTTGTAGATAAAGTGAAACAATATTTTGATATTCTGGTTAAAGAAGATATAGTAAATGATGTTGTAGATGATAAATTTTTAAATATGTTTAAGTTAGATTAAAAACTCCCGAAAGGGAGTTTTTTTAATTTACTAGAGAAGTATAAATTTATTCAGAAAATAAGTTACGCCGTTTTTTGAAATATGCGATTTTTCAAAATAAAATTTTTCATAAGCCAAAATCGCAGAAAAATATTTATATTTTATGAGATGAAGCGTAGCTTATTTTTTTTATAAAAAATTGTCATAACAATTTAAAATGTGGTATAATTAAACCAAGGTATAAATTTATTTTGTTGGAGGAAGCAATGGAAATTTTAGAAGAAAAAGCAAAAAATGGACAAAATACATATATAATAGAAAATAATAGTAAAAAAATATATTTATATAGTAAATATGACCCGAATAAAGATGTAGAAAGAGCTATAAAAAATATTGATTTTAATGAGGAGCAGATATTTATATTATTAGGGTTTGGGAAATATCATATAGAAAAAATAAAAAAAAACATGACAGAAAATTCTAATTTGATAATATTTGATTTGGAAGAAAATATAAAAAAATTAAAAAAATATTATATGAAGGATGAAAAGGTATTTTCTGAAAAAAATTTTAATGAAATTTTAAAATATGTATCTTTAAATTCAAAAAAAACTTATACATTTATAAAAGTAAACTCTTTATACAGAATAAATAGAGCAACTTATGATACAGTACAAAATGAAATAGAAAAACTGTTTAATTTATATAGAAAAGTGCCAGATGATTTTCTAAAGGAATATAATGGCAATTTTTTAGAGAATTGTAAATTATCTGAAGCTAAAATTAATTATGAATTTAAAGATTATATGTATCTTTTAACTAAGGAGATATTAGTTACATATACAAGGAGAGATAATAATTATGGGAATAAAAAAAGTAATATTAGTTAGAATGGGAGCTTTAGGAGATTTAATAAAAATAACTCCAATTATAGAAAGATTTTATGAATTAGGGATAAAAGTAGATGTGATAACAGATAGTGAATATAGTATAGTTTTATCAGAATATTCTAAGATAAATAAAATTTATTCAATAGATAGAAAAGATATTAGAGATATTTTTAATAAAAATGATAATTTAATATATTATGAAATGTATGATAAGTTATATAAAATTTTTCAAGAAATAAATAGTTCTGAATACGATTTGGTTATAAATTTGGGAGTTGCAAAATATCCGATAATTATAGCAAGTATGATCAAAGCAAAAGATAGAAAAGGTATATTTTTAAAAGGAAAAGATTTATTAGAATTTTATGGAGATGAAAAAGGGTATTTTGCTTATAAAACTCAATCAACTCCTAGTGAAAATTTAAAATTAAATAGAAAAGAAAATATCTGCGATTATTTTTTTGATGTAGCAGGTATAAAAAATAATTTTCATAGTGTGAGTATAGAAATTAAAAAAAATATAGAGATAAATAGCAATAATTTAATAGGAATACATATTGGGGCAGGTTGGAAAACAAAAAAATATATTTTAGAAAAATGGGGAAATGTTTGTAGTGGATTATTGGAAAGAGGATTTGATATATTATTAAATGGAGTAGAACAAGAAAAAGATGAAATTGAATTTTTAAGGAAAAGCGTATTGGAGAAAAGAGAAAAAAATTTAAAAAACAGAGGAGAACTCTTTGTAAATTATAATATGAGCGAATTTGACAAATTTGTAACATTAAAAAATATAAAATTATTAATTAGCACAGATAGTGGGCCTGCATCAGTTGCGGCAGCATTAGGGAAACCAGTTATAACTTTATTTGGAGCTACAGATATGTATAATGTAGCACCATATTCTGAAAATAGTTTTATAATAAATTCAAAAGAGAGATGCACTCCTTGTCTCAAAGAAACTTGTGATAAAAATATGGAATGTATGAGAAATATAAGTGGAGAATTAATTTTAGAAACAGTGGAATATATATTAGAAGGAAAGAGAAAGAAGATTAATAGCAAAGATGTTTATAGATGTAAATTTAATAAAGAGAGCAGGTTGGAAATAGTTAGTATGTATTGAAAAAATTAAAAAACTAGATGGTTAATTCTATGAAAAGAGGGGAATATTATGTTAGTTAAACTTGCATTTAGGAATATTTTCAGGAAAAAAACTAGAACAATTTTAACTTTAACAGTTTTAATTTTTGGAGTATATCTTGCTATATTTTATGATGGAATTTTAAAAGGATATACACGAGAAATGATAAATACATATATTAATACTGATATTGGAGAATTTAAAATTTATAAAAAAGGATATTATAAAAATAAAGATGATGATGAACGGTTGAAATATTTGATAGATAAAAAAGAGGTTGAAAAAGATTTAGATAAATTAAATATTGATAGATATTCTAGCCGATTACTATTTGATGGAACTATTGCAATTGATGAAAATGAATTGCCAATAAAAATTTTAGGAATAAATCCTAAAGTAGAAAATAAAATTTTTAAAAGAGATAAAGCAACAGTATCAGGAAATTTTTTAAGTGGTAATAAAGGAATAGTAATTGGGATTGGATTAGCTAAAGCTTTAAAATTAAAAGTTGGAGATATTGTAACTATTTTAGCAAGAGGAGTAGAGAAAACTATTAATGCAGATGATTTGAAAATAGTTGGAATAATTGAAACTAAAAATAATATATTAGATGAAAGTTCATGTTTTATAAATTTAAATTATGCGCAAAACTTTGTAAATACAAAAAAAATAAATGATATAGTTATAATGAATAAATTAAATAGAAAAGATATTAAAATTTTAGGAAAAAACTATGATGTAATATCTTGGAAAAAAGATTTAGGAAATTTAATAGAATTAATGGAATTTAAAGCAAAAGCTTCAAATCAAGTTGTATTTTTGATATTGATAATGGCAGGAGTAGGTATAGCAAGTACAATGTTAATGTCAATGTTAGAGAGAAAAAAAGAGATTGGAATAATGCTTGCAGATGGAATGAAGAGGAAAAATATTTTGTTACTTTTTTTAATAGAAGGTGGATTTATAGGAGTAATAGGAAGTTTTATAGGAGCTGTTTTAGGAGTGATAACAAATTATTTTTTGCATATTTATGGGATACCTCTTCCAATAGAAACATATAAAAAAATGCAGTTAAATATGGTTATACCTGAAAAAATGCATGCAGATTTGGATATGAAAACTGTTTTATTATTTTTTTTATTGGGAATTTTAATTGCATTGATTTCTTCTTTTTATACAGCATATGAGGCATCTAAAAGTAATCCTGTAGAAGCTTTAAAAAATATGTAAAAAATAGATTAAATGGTGGATCATATTTGTAAGAGTATAAAAGGATGATTAGGAGGGAATTTTTATGAAAAATAAAGGGATATCTATAAAAAGAGAGATAATATATATAACTACTTTTTTAACAATATTTATTTTAGTAGTTTTTGGAGCATTTTTCTTTTATAAATTTTGGGAATTGAATTTAGATAAAGCAAAAAATATAATAAAAGGAAAAAATAGAGAAATATCCATATTTACAGAAAGTTTTTTTAATAACATATTTAAAGATATAGATATTATTGTTAAAGATGAAAATACCTCATTAGCATTTAAAAATAAAAAATATAAAAAGAAAGTTTTGAAACTATTAAAAAATATATCAGAAACAGATAAATATATATCATATGTATATATAGGATACAAAAATAAAAAAATGATAATAAATAATTGGGAACCACCAAAAGGATTTGATTTGACTAAAAGACCTTGGTATATTTCAGCAAAAAAGAGTGCATATAAGATTTCAATAGGAAATCCATATAAGGAGATAAAAACAAAAGAATGGCTACTTTCTCAGTCGATTGCATTAAAAGATAAAGAAAATAAATTTGTTGGAGTCTTATCAATTGATTGCAATATAGAAAATATTGTAAAATCATTAGCTAGAGATAAAGAATATAAAACTCAAAGGACATATATAATAGATGAAAGTGGAAAAATTTTAATTCATCCAGATAAATTTTATATAAATAAATTTTATCCCAACATTAGAAAAAAACTTTTAAAAAATAATGGATATATTAATTATAGTTTAAGTGGAAATAGAAAAGTTATGGGGTATTATAGTAAGATAAAATCAACTGATTGGTATATAGTAACCTCAATAGATAGCAAAGAAATAGTTGATCCAATAATTTATAATATGGCATTAGATTTTATAATAATGATATTAATGGCGTTGTTAATAGGAAATATATTTAATATTATATTTTATAAAAGATTTGCAAAACCAATAATAGAATTAGAGGATAGAGTGTTAAAGATATTAAATGAGGAAAAAATAGAAAAAGGAGATTATAAAAATTCAAACAAAGAGATTATTAGGATAATAGAAGCGATAGAAACTATGACATCTAATTCATTAAAAGAGAAAAATAAAGAGTTAGAGGCTATAATAGAATCAACAAATAGAGGAATTGTAGTTGTAGATAAAGATGGGAAATCATTTTATATAAATAATAATTTTAAAAAAATTTGGGGAGAAGATTTAGAGTTAGGAAAATTAAATTCAAAAAATATACAAAAGATAGTATTTAGTAAAGTAAAAAGTGAAAAAATAGAAGAAGCTAAACAAAGATTTTTAAAATTTTTAAAAGAGAATAAAAGTTCTAAAGATATAATAGAATTAAATGATGGGAGAAGTATTGAGGTTTATTTTACAAATATAGATAACAATAGTAAAAGAGTTTGGAGTTTTAGTGATATAACAGAAGATAAAATGAAAGAATTGGAATTAAATATTGCTAAAGAAAAAGCAGAAGCAGCCAATAAGGCAAAATCAGAATTTTTAGCAAATATGAGTCATGAGATAAGAACACCATTAAATGGAATAATAGGATTTACAGAGTTAGTATCCAAAACACCTTTAAATAAATTACAGTTACAATATTTAGAAAATATAAAAGTTTCAGGAGAGGCATTACTTGGAATAATAAATGATATATTAGATTTTTCAAAAATAGAAGCTGGGAAATTGGAATTAGAATTTATAGAAGGAGATATAATAGATTTATCAGAAGCAGCAACAGAGATAACAAAATACAATGCAGATAAAAAGAATTTGGAAATATTATTAAATATAAAACCAGATGTACCAAGATATGCTAAGATAGATGTTGTAAGATTAAAACAGATACTAATAAATTTATTAGGAAATGCAATTAAATTTACAGAAAAGGGAGAAGTTGAATTAGAGCTAAAATTTATGCCAAAAGATAAAAAAATTGGATTTTTTACATTTTCAATAAGAGATACAGGAATAGGGATAACAGAAGAACAGCAGAAAAAACTTTTTAAAGCATTTTCACAAGCGGATAGTTCTACAACAAGAAAATTTGGAGGTACAGGATTAGGATTAATAATCTCAAATATGTTAGCAAAAAAAATGGGAGGGAAAATAGAGTTAGAGAGTAAATCTGGTAAAGGAACAAAATTTTATTTTACAATAGAAACAGAGTATGAAGAGGAGAATGATTTATTATTAAGAGATATATCAAAAGAGATAAAAAGGGTAATGATAGTAGATGATAATAAAAAAAATAGAGAGATACTAAGTGAAAATTTAAAATATTTCGGGATAGAGAGTAGAGGAATATCAAATGGATATGACGCAATAGAAATTTTAAAAGATGGTTATAAAGTAGATTTGGTAATAATGGATTATCATATGCCAAAATTAGATGGGTTGTCAACGATAAAGGAGATAAGAAAACTATTTAGTAAAGAAAAGTTACCAATAATATTATTACATAGTTCATCAGATGATTTTAAATTAAATGAGAAGTGTAAAGAGTTAGGAGTAAGATTTAATTTGCAAAAACCAATAAACTCACGAGAGCTAATTAGTTATTTGAAAAATATAAAAATGGAACAAGTATATAATAAACCTAAAACAGAAGATAAAAGAGGGAAGAGGCAAGAAGATATAATAACAAAAGATAAAGTAACCATATTAATAGCAGAGGATGTGGAGATAAATATGCTATTAATAGAAACAATGGTAACAATGTATATACCAAATTCTAATATATTAAAAGCTAAAAATGGAGAAGAGGTATTAGAAATAGTAAAAAATAATAAAGTGGATTTAATATTAATGGATGTGCATATGCCTGAAAAAGATGGGATAGAAGCAACAATAGAAATAAGAAAAAGGGAAAAAGATAGTGAACATATTTTTATAATAGCATTAACAGCAGGAGGAACAACTGAAGATAGGGAAAAGGCTCTATCTGCAGGAATGGATGACTTTATAACAAAGCCTATAGATAAAGATGAGTTAAAATCTACTTTAGGTAAATATTTAAATAAAATTATGAAAGAAAAAATGGAAAAAGATGAAAATAATTATCCAACCTATATAGAGGGAGTAGATATAAAAAGTGGAGTAGAGAGGATATTAGGAAATAAAGAGCTCTATTTTAAATTTATTTATGATTTTATTGATAAAAGTCAGAAGTATGTTGAAGAGATTAAAGGGTATCTATATAAAAATGATATTGAAAACGCAAGAAAAGTAGCACATGCTTTAAAAGGAGTATCTGGTAATTTATCAGCAAAAGATATTCAAGAAAAATCAACTAAATTAGAAAAAATATTGAAAGATAATGGCGATTATAAAGAAGAATTAGTTGAATTAGAAAAAGTTGTTGGAATCTTTGTGCATTCAGCTAATGAAAATAAAAAGTAATATGTTTTAATAGAAATAGTTCAAGATAGAAGCTTTTGACTCGTAAAAAAAGGGATATTTAAGATATCAGAATCTTAAATAAATCTTTTATCTTTAAAGTATAACTTATAAAGAGGTGATAAATATGATTAAGATGGCTTTTAGAAATATTTTTAGAAATAAAAAAAGAACTGTACTTGCTATTATTTCAGTTGCTCTTGGAATAGGTGGGTTGATTTTTGGACTTAGTTACATAAAGGGACTTGAACTGTTATTTCAAAAAGAAAATACTAAAGTAATGGGAGAAGTTAGAGTTACTGTGAAAAATTATGAACTAAAATCTAAACTTATGGATGTATCATCATCTATTTCAGTAAATTTAAAAAAGAAAATATTAAAAATTGAGGGAGTAAAAAGAGTAGATGGAATAATAAACTTTGGAGCATATATTTTTTCTGATAATGATGATTCAAAAGGTCTTGGATTTGGAGTTGAAAAAAACAGTTATATAAAAGATAAAGTATATAGAGGAAAATTTCTCACAAAAATTGGAGATATAGTTGTAGGGAAAAAAATACAAGAAAAATTAAATTTAAAAATTGGAGATAAAATAACTGTACTTACTGCAACAAAAGGAGCTTCAACTTTTGCGTTAAATTATAAAATAAGTGGATTTTATAATATTGGTGGACCTTTAAATAACAGTTTTTCAATATTATTAAATGATGCAATGTATCTTTTGGATATGGAGGGAGAAGTTACAGAATTACATGTATATGGAGAAAATATAAAGTTGGCAAATACAATAAAACTAAAACTAATGGATATATTAAAAACAGATAATGTTGAGATAAAAAAATGGGATGAAATTGGAGCAGCTTCTATTACTCAAGTATGGAACGCTACAAAAGCAGTTATGATAATAATTTTAGGATTACTCTCTGCAGTAGTAATTGTTAATACAATGGTAATGTCAGTTTTTGAAAGGAAAAAAGAGATAGGTGTAATGAAAGCATTTGGAATGAGTCGTATAAAAATAATAAAATTAATTTGTACAGAAGGGTTATTTATGGGAGTAATTGGAAGCTTATTAGGAATTTTAATAGGTGGCTTTGCAGGATATTATTTTTCTGTTAATGGAATTTTTTTGGGAAGTTCTATGAATGGAGTAATGGGAAATATAGATATTGGAGATACACTATACACAAAATTAGCAATATCTGATATAATAGTTAGCGGAATAACTGGAATTATAGTTGGAATATTTGCAAGTTTTATACCTGCGGTAATTGAAATAAGAAAAAGAGTTGTACGAAATTTATACGAATGATTAAAACAGTATTAATATTAATGATTAGACCCCAAAAAGGTAGTTTTCTAAAATCATACCACTACATATAGTTTCGTAAAAGCTTTCGAACACTATATGTAGTGGTATGAAGAAAACTAAATACCTTTTTGTGGGTCAAACATATTAATAAAAAAAGTTAAATATAGGCATACAAATGGAGGTAAAAATGAAAGAATTTAATATAACAGGAACTTGTATTCCAGAAGAGCATTATATGGTAGATACGTCTTTAAAATTAAATAAAATAATGAAATTAATAGAAAAAAGAAACTATTTCACAATAAATAGGCCAAGACAATATGGAAAAACAACAACGATGTATTTGTTAGATAAAAGATTGAAAAATAATAAAGAATATTTATTAATAAGAATTAGCTTTGAAGGAATAGGGGATGAATCTTTTGGAAATGAAGAAAGTTTGTCAGAAGTTTTCATTAGCTTAATAGAAAGAGAGATTAAATTCAAAAAAGAAAAACAATTGTTAGAATTTATCAAAAAAAATAAAAAGTTAAGAAAATTTAGAGAATTAGATGAATTTATAACAGATTTAATATTAGAAACAAATAAAAAGTTAATATTAATGATAGATGAAGTGGATAAAAGTAGTAATAATCAATTATTTTTAAATTTTATAGGAATACTTAGAGATAAATATTTGAGAAGAAATGAAGGGAGAGACTATACATTTCATAGTGTGATATTGGCAGGAGTACATGATGTTAAAAATCTAAAGCTAAAATTAAGAGCAGATGAAAATAGAACTTTAAATAGTCCGTGGAATATAGCAGTGAAATTTAATATAGATATGAGCTTTAATCCAGAAGAGATATCAACAATGTTAATAGAATATGAATCAGATGCAAAGACAGGTATGGATATAAAAAATATGTCAGAAAAAATATATATGTATACGAATGGCTATCCTTTTTTGGTAAGTTGTTTATGCAAAATAATAGATGAAGAATTAGATAGAAATTTCACTGAGAAAGGATTAGAAGAAGCAATAAAAATATTATTGAATGAAGAAAATACACTATTTGATGACATAATAAAAAATATAGAAAATAATAGAGATTTTTATAAATTTATAGAAAAAGTTATATTAGGAAATGATAAAGTTGATTATGTACATACAGATATAATGGCTTCATTAGGTAAGATGTATGGAATAATAAAAGAAAAAAATAAGAAAGTAGAGATAGATAATAAAATATTTGAAATATTACTTTATAATCATATGATAGCAAAACGAGAAAGAGTAAAAGGAGTAGTGCTAACTTATGAATTTAGGACAAAATTTATAGATAATAATGGGAATTTAGATATGGAATTGGTATTAACTAAATTTCAAGAACTAATGAAAGCAGAATATAGAAAAATAGATGAAAAATTTGTAGAGAGAGAAGGACGGCTTCTATTTTTAGCATTTTTGAAACCAATAATAAATGGGACAGGATTTTATTTTGTAGAATCGGAAACACGAGAATCCAATAGAATGGATATAGTTGTTACATATAATATGAAAAAATTTGTAATAGAATTAAAAATATGGCGTGGTGGACAATATGAGCAAGAAGGAAGAGAACAGTTGTGTAGATATTTAGAAGCACAAAATTTAAATAAAGGTTATATGGTATTTTACAATTTTAATAAGGGAAAAGAATATGTAAAGGATAGCGTTATGGTTGAAGGAAAAGAAATTTTTGAGATAATTGTTTAGGAGAGATAAAATATAATGTTTTGACACTAAAAATGTAAAGAACTGCAAAAAGAAGAATAGTTATAGAGTTTATGAGATGAATTAAACGATTCAAGGAGGAGAAATGGAAAAAATTAGTAATATAACATTTTCAAATTTAATAGATTTTTTTCCTGAAATGATTTTTATTTTTAATAAATCTGGAGAGATAATATTTAAAAATAAAAGTATAAATGATATACTTGAAAAAAATTATGATTCAGTTTATATATTAAACAAAGATAAAATAGTGAATCATTGTAAACTGAATTTAGGAAGCAAAATAAAAAACAGCAAAGATATTATATTTTATAGAGACTGTTTTTTAAATGAAATTGTAGAGGATGTTTTTGAAAAAAAGGAGAATATTCATAATTTAGAGGGAGAAATGAAATTATTTGTAGGAGAACAGGAAGAAAAACTTGATATTATTTTAAATGTAGTTTATTTTACAGATAATAACAAAGAATATGTATTGGTTTCTATTAGAAATATAACTGATGTAAAAGAATTTGAAAGAAGAAAAATAGCAGAATATGAAAAATTAGCTTTAATAGGCTCAACGGTAGCATCTATAATACATGATTTGAGAAATCCACTAACTGGAATATCTGGATATAATTATATATTAAGTACAAAAGCTAAAAATGAAAAAGAAGAAAAAATGTTTAAAAGAATAGATAGAAATATTAATAAAATAAATAATATGTTAGAAGAAGTTATGAGCTTTGCAAACGGGAAAGAAAAAATAGAAATAATTAAAAACAGAGTAAAAGTTCATGATTTTATAAATTATGTTTTAGAAGATTTTCATTTTAATGATATTGAAATAGAGTTTGATTTAGGAGATATAAATATAGAAATTGAAATAGATGAAAATAAGATGCAACATGTATTTTGGAATTTAATAAAAAATGCAAGTGAAGCTATAGTAGATAGTGGATATATTAAAATAAAATTTAGAGAAACAGAAGATAAATATATATTTGAAGTAGAAGACAATGGAAAAGGGATTCCTGAAAATTTAAAAGATAAATTATTTACACCAGGAGCTACATTTGGTAAAAAAAATGGTAATGGATTTGGTTTGTTAAGTTGCAAAACAATAGTACATAGTCACAATGGAGAAATTTATTTTGAGAGTGAAGAAAAAAAAGGCACTAAATTTATAATAGAGTTGCCCAAGAAATAATATATTTTAGGAAGGAAGTTAAAAAATGATTGATTTACATATTCATACTACATGTTCTGATGGAACTTATACTCCAGAGGAAGTTGTAGAATTATGCAAAGAAAAAAACATAGAGGTTATGGCAATAACGGACCATGACACAGTAGAAGGGTTAAAAGAAGGGAGAAAAAAAGCTGAAGAGTTAGGGATAACATTTATAAATGGAATAGAATTTTCAACAGATTATTATGGAAAAGAAGTTCATATACTAGGGTATTTTTTAAATATTGAAGATGAGGCTTTTTTAAAAGAAATAAAATTATTAGGAGAAGAAAGAGAAAAAAGAACAGAATTAATGTTAGAAAAATTAAAAAGATATGGAATAAATATAACAATGGAAGATGTACTAGAAGAAGTAAAAGGAAATCTTATAAGCAGAACTCATATAGCAGGAGCAATGTATAAAAAAGGTTATATAAGAAGTAGAAAAGAGGCTTTTATTAATTATATAGGAAGTGGAAAAGGAGCTTATATTCCAAAAGAAAATTTATCCCCAGCAAGAGCAGTAAAGTTAATAAAAGATAATGGTGGATTAGCATTTGTAGCACATCCCAAATTAATATCATTAGGAGAAAAAAGAACCTTGGAATTATTAGATATATTGCAAGAAGTGGGGCTAGATGGATTAGAAATATATTATCCAAGTTTTTCATCTATAGATATTGCATATTATAGTAGAATAGCAAAAGAGAGAGGGTTAATTGCCAGCGGAGGCTCTGATTTTCATGGAGGGAATAGAATTGAAATTTCTATTGGAGTATCTAATGTAAAGAATGATATTTATGAAGCAATGCTAGAGAGACTAGAAAGTCAAAAAAATGAAAAAGTGAGGAGAAATAATGAAAAAGTTAACAAAATTTTTAAAAAATAATATTATAAGTGGATTTTTAGTGTTTTTACCAATAGGAATAATAATATTTGTTTTTAAATTTGCATATAATTCAATATATAATTTAGTATTACCATTGGCAACAACTATTTCAAAAACTTCAAAAATACAGACAAGTTTTTCGGTTATTATAACAATAACATTAATATTAGCAGTTTGTTTAATAATAGGTATAATAGTTCAGACAAGTATAGGAGAAATTTTTAGAGAAAGAATAGAAAATAGAATATTAAAAAAAATACCTGGATATAATGTAGTGAATGAAACAATAAAACAGATATTTCAAGGAGAAGAAACGCCATTTTCAAAAGTAGCATTAGCAGATGTATATTCAAAAGGAGCTTATTCAACATGCTTTATAACTGATGAGACAGACAATATGGTAACAGTATTTGTACCAGCAGCATTAAATCCAACATCAGGGAATATATTTCATTTGCCAAAAGATAGAGTTACAATTTTGGATGTATCAATAGATGATGCAATGAGGTCAATAATAGGATGTGGAATAGGTTCTGATAAATTAATAAAAGAGTTTGAAAAAAATAAAATTGAATACAAGGAGAGAATATAGTAATGAAAAAGAATAAGAGTGATATTATTAAAGCAGCTGATGAAAAGAAAGAAAATACTCAAAGTATTATAAAATTATTACCAATATTAATTATATTAGCAATAGTTCCGTTAATAGTATTTTTGAAAGTAGTTAAATTAACAGGTGCAAGGCATGACTTTTGGACAGGAGAACCAAGAAATTGGGATTTCTTTTCATATTATAAAGTTATATGGATATATGTATTAACGGTTATATCTCTTGGTTCAAGTTATTTTGTAAAAAGAATAAAAAAATCTAATTTCTACATACCTTTATTGGCATATGGAATATTAATAAGCCTTTCTTCTATGGTTTCTAAATACAAAATTATATCTCTTTATGGATTTGTAGATAGATATGAAGGAGCATTTGTATTAATATGTTATCTTTTTTTAACATTTATAACTTTTAATTTGATAAAAAATAAATTTGATATAAAATTGATATTTTTTGCTTTAGGAATTGGTGCATTTATAATGTCTCTTATTGGAATATTTCAATTTTTTGGAATGGATATATTTAGAACGTATCAAGGCAAATTATGGATATTACCTCCTGACTGGGAGAAGTTGGCGGATAGTTTAAAATTTACTTTTGCCCCAGGCACAATTTATGCAACTCTTTATAATACAAATTATGTTGGAAGTTATATGTCAATGCTATTTTTATTAAGTATAATTGCAGTAATATATACTAAAAATAAAGTTAAACTAAGTATAATAATAATATTTAATCTGCTTATGTACTCAAATTGGATAGGATGTCGTTCAAGAGCTGGAATGGTTGGAGGAACTGCAGGATTAATATTGTTAATTATAATTTTTAGAAAAAAACTTTTAAAAAAATGGATGTTGATTTTAGGATTAGTAGTTTCATATATAGTTATAGCACTTTTAATGAATTTATATACAATAAAAGCAGAGTATAGTTCTGGACCGTTATTAGCAAAAATAGCCTCATTAGGAAGTGCAGCAAAACAAGTAGTAGAAGGAAGTAATGTTGCTCTTAAAGATATAGTTATGAAGAAAAATAGGATAGAAATAAGAACTAAAAAAGAAACGTTTATAATGGAAATAGATAAAGAGAAAATTAAATTTTATGATACTATTAATAATGTTTTGGAGTATAAAATTATAAAAGATGAAAATAAAGATAAAGTTATAATTTTTAAAAATGAAAAATATAGTAAATATAAAGTTAAATTATCAGAAAATAATATATTTACTCTATATTTTAATGGTATGAAATTAAATTTTATTTATATGAAAAATGGATTTAAATTAATTAATTCAAAAGGTAAATTGGATACTTTTCACAATATAGATAGAATAAAGTTTTTTGATGGAAAAGAAAAAGCTGGGAGTATGAGATTTTATATTTGGTCAAGAAGTATACCACTTCTTAAAAAAACTCTGTTTTTAGGATTTGGACCTGATACATTTGCAATATATTTTCCTCAAAATGATTATATAGGAAAATTAAAAGCATTTGGAACAATTTATGAAGTAGTGGATAAACCGCATGATATGTATTTGCAAATAGCAATAAATACAGGAGTTTTATCATTGATAGCATTTTTAGTTTTAGTAATAGGATATATATATCAGAGCTTAAATATATATTTAAAGAGAAACCTAAATGAATTTGAAATTATATCTGGTGGAGCAATAGCAGTAGCAATTTTTGCATACTTAGTAACAGCAACTTTTAATGATAGTTTGGTATCAGTTGCACCGGTATTTTGGGTATTATTAGGAGCAGGATTAGGGATAAATAGATTGAATGAAGAGAAAAAACAAAAATTGGAGGATGAATAAAATGAAAAAAACATGTTTAGTAACAGGTGGAGCAGGATATATAGGAAGTCACACTTGTGTAGAGTTATTAAATGCAGGATATGATGTTATTGTAGCTGATAATTTTAGCAATAGTAAAATGGAATCATTAAATAGAGTAAAAGAAATTACAGGAAAAGATTTTAAATTTTATGAAGTAGATATATTGGATTATGAAAAAACAGAAAGAATTTTTAAAGAAAATAAAATAGATGGCGTAATCCATTTTGCAGGTTTAAAAGCTGTAGGAGAATCAGTAGAAATTCCACTTAGATATTATCATAATAACATAACAACTACTTTAATATTATGTGAAATTATGCAAAAATATAATGTCAAAAATTTAGTATTTAGTTCATCGGCAACAGTATATGGTGATCCTGAAAGGGTTCCAATAACAGAGGATTTTTCATTACACGCAACTAATCCATATGGTAGAACAAAACTTATGATAGAGGAGATATTACAGGATTTATATGTAGCAGAAAAATCTTTTAATATAGCGATTTTAAGATATTTTAATCCAATTGGAGCACATAAAAGTGGAAAAATTGGAGAAGATCCAAATGGAATTCCAAATAATTTATTGCCTTATATTGCACAAGTAGCAGTTGGGAAATTAAAAGAGGTAAGGGTATTTGGGAATGATTATCCTACAATAGATGGGACAGGTGTAAGAGATTATATTCATGTTGTAGATTTGGCTAAGGGACATTTAAAAGCTTTGGAAAAATTAGAAGGGAAGCCAGGTATTGTAACTTATAATTTAGGAACAGGAAAAGGGACAACTGTTTTAGAGATGATATCCGCTTTTGAAAAAGCTTGTAATAAAAAAATACCGTATAAGATTATTGAGAGAAGAGCTGGAGATATTGCTAAATGTTATGCAGATCCTGAAAAAGCAGAAAAAGAATTAAATTGGAAAGCAGAAAAAGGGATAGAAGAGATGTGTAAAGATAGCTGGAATTGGCAATCTAAAAATCCTAATGGGTATGGGAAATAGACAATAAGTGATAAATAACAATTGCTAGTGATAGGTGGTTTCAAAAGTTTATGAAAGCTATAATGTAAATTTTGATGATAATTTATTTTGACAGACCTCATTTCTTGTTGTCGTTTTCTCCTAACTTAGGAGAAAACTATAGCGTGGATATTTGGTTTGTTGTTTTACGTCCTTGAGCAGGGTCAATGTCATCAAGCTAAGAACTGGGCTTGCCAACGGCAAGCCCCTACAGTATTAATTTATTTTATAATGTAGGGGTTTTGCCGTTGGCAAACCCGATATAAAATTATAAATTATCGTTAACTTGACGACATTGGGAGAAGGGTTGGGGATGAGGTCTGAAAAGTATTTAAAATTACATTAGAAATTATTGTATAGAAATAAAATTTAGCATTAAATAGTCATTTTGGATAAGGAGTCAAATATAACGTGCAAATATAATGAATGTAAAGGATAGTGACTTAAAAAGGCAACTTTATTTGACACTACCCCTAAAAAAGAGGAGAATATAGATGAGTTTAGAAATTATATATAATAAATTAATAAGGGATAATATACCTAAAATAATAGAAAAAAGCGGAGTTGAATATAAGGTTCATATTGCAGAAGAAAAAGAATATATTGAAAAATTAATTGAAAAAGTTTCCGAGGAGTTAGAAGAGTTTGTAGAAAAACCTTGTGAAGAAGAAATGGCGGATATTTTAGAAGTTTTAGAAACGTTATCAAAGGTATATAAATTAGATGAACAAAAAATAATTGATATTAAAAAAGATAAAAAGAACAAACGTGGAGGCTTTTTAGAAAGAATAATTTTAGAAAAAACAATTAAAAAATAATGTTGTAATTGGAGTAAAGTGAATGAATAATATAAAAGTTTCTAATGATGAATTATGGAATTTAGTTCCTACAACAAGAGAAATAAACAGTAGTAAAAGTGACAGATTACCGAATTCAGATATTTTTATTATTGGATAAAACAACTTAAAGAATCTACATTTTTTGTAGATTCTTTTTTATGCTTGACTAAAAAAACATACAAAATTCTCAAGCAATATAAAAACTAATTAAAAATTAAAATAAATTGATTGAATATTCTCTTAAAAGTATGATAAAATGTATTAATAAATAGAGAAATCGAAGGAGAGACTAATAATGGTAAACATAGAAAAATATTTATTAAAAGCAGAAAAACCAGCACAATATCTTGGAAATGAATTAAATGTAGCATACAAAGATGATTATGATTTTCATATGTGCTTAATATATCCTGATTTATATGAAATAGGGATGTCAAGTATAGGAATACAAATATTATATTTTTTATTAAATGAACAAAAAGGAGTTTATTTAGAAAGAGCATTTGCTCCTAATATAGATATGGAAAAAGTTATGAGAGAAAACAGTGTTCCTATGTTCTCATTAGAAAGTAAAACGGCATTAAAAGATTTTGATATTATAGCATTTTCATTATCATATGAAATGACATACACAAATGTTTTAAATATAATAAATTTATCTCAAATAGAGATTGAAAGAGAAAAAAGAGGAGAAGCAGACCCGATTATATTAGCAGGTGGAACTGGCTCATATAATCCAAAAGTTTTAGAAAAATTCATTGATGTTTTTGCAGTTGGAGAAGGAGAGGATGTCTCTGTAGAAATAGCAAATCTAATGAAGAAATTAAAAGGAAAAACAAAAGATGAAAAATTAGAAGCACTATCTAAAATAGAAGGAGTTTACGTTCCTAAATTTTATAATGGTGGAAAAATAAAAAAAAGAGTAGTTAAAGATTTAAATAATTCATATTTTCCAGAGAAATGGCTTGTACCATATATTAGAACTGTACATCATAGATTAAGTGTGGAGATTCAAAGAGGTTGTACAAGAGGATGTAGATTTTGTCAAGCGGGAATGATTTATAGATCAGTTAGAGAAAGAAGTTTGGAGAATAATTTTAATTTAATAAAAAATTGTTTGGATAAAACAGGGTTTGGAGAAGTTTCGTTATCTTCGTTAAGCAGTAGTGATTATACACAAATAGAAGGATTAGTTGATAAATTACAAGAAGAATATAAAGATGAAAATTTAGCAGTAGCACTTCCTTCTTTAAGAATAGATAAATTTTCGTTAAATTTAGCAAAGAAAATAGAACAAGTTAGAAAAACTGGATTTACATTCGCACCAGAAGCAGGGTCTCAAAGAATGAGAGATGTAATAAATAAAGGGATTAATGAAGAAGATATTATAGAAACTGCAAAAGGAGCATTTCAAGCAGGATGGAGACACATAAAGTTTTATTTTATGATAGGATTGCCATTTGAAACAGATGAAGATGTAAAAGAGATATATAATTTAACTAAAAGAGTGTTGTTAGAAGGTCTAAAAATAAGAAGAGATATAGAAATCACTGTAAGTGTTTCGAATTATGTACCTAAATCTCATACACCATTTCAAGGGATGGAACAAATGGGAATAGAAGAGATGATTAGGAAACATAATATATTAAGGGGAGCATTTTATAAAGAGAAAAAATTAAAATTGAAAATACATAGAAGAGAGCTATCTTATCTTGAAGGCTTTTTATCAAGAGGAGATGAAAAAATAGGGGATTTAATAAAATTAGCTTGGGAAAAAGGGGCTAAATTTGATGGATGGAAAGAGCATTTTAATTTCGAGGCTTGGAAAGAAGCAATAAGTGAGTTAGGGATAAATGAAAATGATTATTTTAAAGAAAAAAGTTTAGATGACAAATTTTCTTGGGATTTAATAGATGCAGGAATAGAAAAAGAATATTTTAAAACAGAACTAGAAAAAGCAAAAAATAAAGCATTAACAAAAGATTGTAGAGAAGGCTGTACAAATTGTGGGGTTTGTTGGAATTTAGGTGTTAAAATGGAGATAGAGAAAAGAGGTAATAAAAATGGTTAATATAATTTTATTAGTAATTGGTTTTATTTTATTAATAAAAGGTGCTGATTTACTTGTTGATGGTTCTGTAAAAATTTCTAGAAAATTAAGTATACCAGAATTAATAATAGGATTAACATTGGTATCGGCTGGAACAAGTGCACCAGAATTAGTAGTTAGCATATTAGCTTCAGTTAGAGGAGATGGCGGAATTGCTATAAGTAATGTTTTAGGGAGCAATATTGCTAATATATCATTAGTAATGGGGATATCATTGGTTTTGGCAACAATAACAATTGGAATATCAACATTAAAATATGAAATACCATTTTTATTAGTAATATCAATGTCATTATTGGCAATGTTAAGAAATAATAGTGGGACAATAACGAAATATGATGGATTTGTATTATTAGGATTTTTGACAATATTTGTGTCTTATCTTTTTGCATTGTCTAAATCTAATAAAGATATGGAAAAACAAATTTTAAGTGAACTTGAAGAGATAGAAAAAAATGAAAGTAGCTGGAGAGATATAATTATATTTACTGGAATAGGGTTAGTAATTCTTTCTATAGGAGGAGAATTAACAGTTAGTAATGCTGTTGCAATAGCAAAAAAACTTGGAGTTTCTCAAGTATTAATTGGAGCAACAATTGTAGCACTTGGGACATCGCTTCCAGAATTAGTTACTTCGATAATTGCTGCAAAAAAAGGAAGTGCAGATATGATGGTTGGTAATATTATCGGCTCAAATATATTTAATATATTAACAGTTTTAGGGATATCTTCTCTTTTTAATAATTTAGTACCAGATAGAGCTCCATATTTTGATTCCATTTATGGAATTTCTATTATAATTTTGGTATATATTTTATCAAAATTAAGAAAATCTAAATTAGGGATAGGAACAGGGATATTATTATTAATAAGCTATGTTGTGTATGTATATATAGGAGTGAAAATTGGATGATCAAAAACGAAAAAATAGTAATAGGAATGAGTGGCGGTGTTGATAGCAGTGTAGCAGCATTTTTATTAAAAGAACAAGGTTATGAAGTTATAGGAGTAACAATAAAATTATGGGAAAATTCAGGTTTGGAAAGTAAAGAAAAAGTATGTTGTTCATTAGAAGATGTGTATGATGCTAAAAGAATATGTGATAAACTTGACATACCTCATTATACAGTTAATTTTAAAAATGATTTTCAAAAAGAAGTGATTGATTATTTTATAACGGAATATAGATTAGGTAACACACCTTCACCTTGTATAATGTGTAATGAAAAAATAAAATTTGGGAAATTATTGGAATTTGCGAAAAGTATAGGAGCTGATTATATTGCCAGTGGTCATTACTCTAAAGTGAAATATTTAGAAAAACAGAACAAATATGTATTAGAAAAAGGTGTAGATGAAAAAAAAGACCAAACTTATATGTTATACAGACTTTCAAGCGAGCAATTGAAATATTGCAAGTTTCCACTTGAAAATTATAAAAAAGATGAGATTAGAGAAATTGCAAAAAATAATAATTTGATAACTTATAATAAAAAAGATAGTCAGGGGATATGTTTTGCTCCAGAAGGATATTATAAATTTTTAGAAAATAATTTAAAGAATGAAATATCAAAGGGAAATATTAAAGATGAAAATGGAGAAATATTAGGAGAACATAATGGATATCAATTGTATACAATTGGGCAAAGGAGAAACTTGGGACTAAATTTAGGGAAGCCATATTTTATAATAGATATTTTGCCAGATAAAAACGAGATTATCGTTGGGAAATTTGAGAAATTATTTAAAAAAGAGGTAGAAGTGATTAATTATAAATTCATATATTTATCTGAAAATGAGATAGATGGAAAAGCTGTTATTGCAAGACCTAGATTTTCAAGTAAAGGTCATATAGCTAAATTGAAAAAAGAAGGAGGAAGATTATTTTTAATATATGAAAGTGAAAATGCTGAAAATAGTAGAGGACAGCATATAGTTTTTTATGATAAAAATTTAGTAATAGGTGGCGGAATAATTTTTTAAAAAAAATTAAATTTGTGGTTTCAAGCCGGAATAGTATCTGTTTAGGCAGCAAAAGTATCTTTATAGGTCGGAATAGTATCTGTTCAGGCCAAAAAACTGGTTTGACATAGGAGAATGAAAAGAGTATAATCCAATTATTCCATTTCTTCTTAAATCTCTTTTTATAATAAAAGACACAGGTTCTCAATTCTGCCTGTGTCTTTTATTATGTTAATTTCTGGATATATCATAAAAATAAAAAAATAGGAGGAGTAAAGTGAAAAACAAAATTTATATTTTATTAGTAATAGTTATGATGATTTTAGGAGGTTGTAAAAGCAATAAGATAACAGAGGTATCGAAAATAGTTATATCATCAAATAAATCAAATATTAGAGCAGATGGAATAGAAGAGGTGACATTTAATGTTAAGTTTTATAATAAAAATGATGAAGATTTAGATGAAAATAAAGCTGATATATATATTAATGGAAAAAAAATATCTAATAATATATTTAAAACCTCAGAAGTTGGAGACTATGTTGTTCAAGCAAAATTTGAAAGTAAGGATAGCAATAAAATAATTATAAAAGCTGATGGAAAAAATAAAAAAGTTTTTATGGTTTATCTAACAGGAGATAGTAATTTAAACGGCGAAGAGACAGATGATAATGGAAACAATTATTATAGTAGTAGCAGTGATGATGTGACAAGAGATCTTGAGGAGATAAAAAGTAGCATAATAGATAAAAACAATATAGATGTTTATGTTTATATAGATACAAAATATAGTGAAAGCGGATATAGTGAAGGAATTTATCATAAAGAGGGAAATGAGTTAATAAAGAAAAAAACTTTATCAGAAGTGAATACAGGCGATGAGGAATCATTAAAGGGGTTTATTAATTTTGTTTTTGATAATACCAATGGAATGACATATATTTTAGATGTCTGGGGTCACGGTTCTGGATGGTGGGATGATAAATTTGGAAATGAGAATAATACAAGAGCAATAGGATATGATGATAGTTCTGATGGAGATAGTTTAGATTTGTGGGAATTAGAAAGAGCGATAAAAAATAGTAAAATAAAGAAGGTCGATATTTTATATTTTGATGCTTGTTTAATGGGAAGCATTGAAGTTGGATATCAATTAAAAGATGTTAGTAACTATATAGTTGGTTCTCCAGAATTAACACCTGGAAGAGGTGGAGCATATAAAGAGATTATAGAAAGCGTATCAAATAGTGGAAGTGATTTAAAAGAGGTTTCTAAAGATATAGCGATAATAAATTTAAATAGCTATAAAATTGGTGGATCTCAATATGAAAATTTTAAAAACAGTGTAGTTTTTTCAGCGTATGATGAAAAAGAAGTAGAAGGATTAGTTAATAAGTTAAATGATATATCGTTGATATTAAGCGAAAATACAGGATTACTAAAACAAATTGCAGATGAACTAAAAGAAAAAGTTATAAATTATATAAATCAGAATTTTAATGTAGATGCTAATTTTAATTTAGTAGAAAGTAGTAATAAGTTTGATTTTGGTTTAACTAGTTATGGTTCTGGAGATTTGTGGATATATGATGAAAATGAAAAATATTTAGGAAATGGATCAATTGATTTTTTACCAACAAGTTATATTGATTTAGGAAATTTATTGGAAAAAATAGAAAAATCTTCAAATTGTCCATTAGAGTTAAAAAATAAAATAGATGATTTTTTAATTACATATAAAAAATATGTATATTATGTTGGGGACCAAGATGGAGAAGATAATGATATAATGTCAGATATAGAAAGATATAGTACTGGAATGTCAATATTTTTAAATCTATATAATGATAAGGATGTAATATTGAGCCAAAAAAATACAGGAAATTATATTGGAGTTTTTTTATCGGGTTATGCTACCCAAATAAGTGGATTTAATAAGAATGATGAAATAGATACAAATTCTGTATTAGAAGAATACAAAACAGCATCAAAATTTGGTCAAACGGATTGGGTAAAAGTTTTAGATTCGTATGGGAATAATAAATAATAGATTAAATTTTTTATAGTAATTTAAACAAAAAAATCGGAATATTTTCCGATTTTTTTGTTTTATAAATCAAAATAAAAATTTTAAATTTATAGAAATATTGATATAGATATGATATAATGATTTGATATTAAAAAAAATCGATTATTTTTTAGAGACTAATATATAAATTAAAATCAATCTTAGATAGAAGGAGATATTTATGAAAATAGAAGCGGTTGCTATAGATTTAGATGGGACATTATTAAATTCCAATCACGAAATAAGTGATTTTACTAAAAAAACTTTATTTAAAGTAAGAAAAAAAGGAATAAAATTATATATTGCAACAGGTAGATTATATAAATCTTTATATAGATATAAAGAAGAATTGAAAATAGATACTCCTGTAATTTGTTATAATGGAGCAATGGCTGTAGATGGGAAAACAGATGAAAAAATATTTGAAATACCATTAAAAAATTCTGTTGTGAATAGATTAATAGAGATATCTAGAGAAAAAGAAGTACATTTAAACTTATTTAGTGATGAAAAGTGGTATGTAGAATGTACTGGTGGAGAACTAGAAAGATATGAAAAAAGTTCAGGATTAAGATCACATTTAGTTAATTTTGATAAAATAAAAGAATTGAAAATAACAAAAGGTATGTATGTTGGAGAAAATAAAGAATTATTAGAAATAGATAGTATGTTAGAAAAAGAGTTTGACAAAAAAATTTATAAAGCTTTTTCAAAACCATATTTTTTAGAAATTTTAAATGAAAATGTATCAAAAGGAGATACGTTAATAAAAATTTTAGAAAAAGAAGGAATTGATCCACAAAAAACAGTAGCTTTTGGAGATGGATTTAATGATTTGGAAATGATTAATTTAGTTGGAATTGGAGTTGCAATGGAAAATGCTCCGGAAGAATTAAAAAGTAAGGTTGATAATATAACAGTATCAAATGATGAAGATGGAGTAGCAAAATTTTTAATTGATTTATTGAAAATATAATAGATAGTTGCAAAAATAAAAAGGAAAAAGATTGAAACCACGAATGAAACGAGTGTAAACGAATTAGGAAAAATACTGTATTCGAGGTAATTTGAATATATTTGTGGTTAAAAAGATATAAATATAGTGAAGCGGTGGGATAGTCAAAAAACATATTAATTTAACTCAATAAAAATAAGGGTTGCAGAGTTATGCAATTGACTAATTGGAAATATAATTTTAGGAGGAAAAATGAGGTCAGGATTTATAGCGTTAGTAGGACGTCCAAATGTTGGGAAATCAACATTAATGAATTGGATTGTAAAAGAAAAAGTTGCAATAGTTTCAAGTAAAGCACAAACGACAAGAGATAGAATAAAAGGTATTTTAACCAAAACTGATACACAGTATATATTTGTAGATACGCCTGGTATACATAAGCCGCAACATTTATTAGGTGAGTATATGACTAAAACTGCTATTGATACATTAAAAGAGGTAGATTTAATAGTTATGGTTATTGATGGAAAAGCGGAAATTGGAAAAGGAGATAAGTTTGTACGTGAAAGAATAGAAGAAGCTGGAGGTACTCCTAGAGTAGCTGTAATTAATAAAATAGATGATTTGACAGATGAGGATATTGAGAAGAAAAAAATAGAAATAAAAGAGAAACTTGGGAAATTTAATGAAATATATACAATTTCCGGAGAATATGGAATAAATGTAGATGAATTTCTAAAAGGAATAAAAAAATATTTAGAAGATGGAGTTATGTATTATCCAGAAGATATGTATACAGATATGCCAATGTATAAAGTTATTACAGAGATAGTAAGAGAAAAAATACTTTGGAATACTAGAGAAGAAATTCCGCATAGTGTAGCAATTGAGATTACAGATGTAAAGCGTAGAGAGAATGGAAAGGATTGTTATAATATAAATATTTATGTAGAAAGAGATTCTCAAAAAGGCATAATAATTGGGAATAAAGGTAAAATGTTAAAAAAAATAGGGATAGAAGCTAGAAAAGATATAGAACAAGTATTAGAAAGAGGTATATATTTAAATTTATGGGTTAAAGTAAAAGATAAATGGAGAAAAAAGAAACCATTTTTAAAGGAGATGGGATATATTATAGAATAAAATGTGAGGTGATAATATGATGAAGAGTATAATATTGATAAAACTTATAAAAGAATTTGTGAAAAATGAAAATTATAAAAAATTAAAAGAGCTTTTAGGAACAATGCATGTACCAGATATTGCAGATATATTAGAAAAATTAGATATTGTAGATAGAAAAATGATTTATGAAAATATGGATGTAGAAGATGTTGCAATTTTAATAACTGAAATAAATTCTGAATATCAAGAAGAGATGATTACTCTTTTAGAAAATCACAGATTAAAAGAAGTATTGGAAAATATGTCAAATGATGATATTGCTGATATATTTGGAGAAGTTTCAGAAGAAGAAGTGAAACATTTGATGAAATTAATGGATGATGAAGATCGGGAAGAGGTAAAAAAATTAGTGAAACATGAAAGTGATAGTGCAGGTGGTCTTATGACTACAGAGTATTTCACTGTTTTTACTGGAGTTAAAATAAAAGAGGTAATTGCTCAGTTAAAAAGAAAAGGGGAAGATGCAGAACTTATTTATTATATTTACATAATAGATAAATCAAATAAGTTAAAAGGTGTTGTTTCTTTAAGAGATATCATTATAAATAATGGGGATATTGTAATTGATAAAATTATGAAGAAAAATTTAATATCAGTTAATGTAGAAACTGACCAAGAAGATGTAGCTTCAATTTTTTCGAAGTATGATCTTTTTGCTGTACCAGTTGTAGATGAAGGAAATAAATTAATTGGAATAATAACAGTAGATGATATTATAGACGTTATGGAAGAGGAAGCAACAGAAGATTTATATGCTATGGCAGGTCTTACAGAAAATGAAAGCGAAAAAAATAACATTATTTCATCTGTAAAAATAAGATTCCCATGGTTAATGGTAAGTCTTTTTGGAGAACTTATATCAGCGACTATTATGCAAGAATTTGGATACGCATTAAATAAAATAGTTGCTTTAGCATTTTTTATACCGCTTATAATGGCAATGGGTGGAAATTCGGGAAGTCAGTCATCTGCTATGATGGTTAGAAAAATAGCACTTGGAGAAGATGAAAAAAGTAAATTATTAAAACATATTTGGAAAGAAACTGTAGCTGGAGTAATAGTGGGAATAATATCAGGAGTCTTAGTAGGAATAATTTCATATTTATGGCAAGGGAATATTTTATTAAGTTTCATAATATCTTTTTCATTGTTTGTAGCAATGACTTGGGCTGCTTGGTTTGGATCAATAATACCATTAACATTTGAGAAATTTAAAATAGATCCTGCAGTTGCTTCAGGTCCGTTTATAACAACTGCTAATGATGTTGGAGGAATATTAATATATTTTGGATTGGCGACTGTTTTAATGAAGGTGTTAAAAGTTTGAATATTGATAAAAATGATAAGGGTGGACAATAGTCCGCCTTTATTTAATAAAAAAGTATAAATTGAATAAAATAAAAAAGAGGGGAATTAAAAAAATGAAAAAAACAGTTAGTTTAATATTTTTATTACTTTTTACACATATGTTTAGTTATGAATTTAATTATGAAAAAAAAATGGTTAATTATGATTATAATAAGCTGAAGAGTATTAATTTGAAATTAGATAAAAAATTAGTATATACAAGTGGTGGTGTTTTAGCTGGAAGTTTTCTTTTGGATGAAACAATTAGAAGAGTGGTGAAAAAAAATAAAAATAGTTTTTCGGATAACTATTTTGAAACAATGAATATTTTTGGTGGGGATTACGCAATTCTTTTATTAATGGGAACCTATGGAAGTTCTATTTTAACACAGGATGAAAAATTAAGAAAAACAAGTTTTACCTCAATAGAATCACTAACAGTTGCAGGAACTTTAACATTAGGAGTTAAAATGTTATTAGGAAGAGCTAGACCATATATGGATAAAGGTGCTTTTGAATTTAAATCAATTTTAAATTTTGGAACAGATTATTGGGCTTTTCCATCAGGACATAGTACTGTAGCTTGGGCAATATTTACTCCTTATGCAGAAGAATATAGTAAATGGATATATATTATTCCAGCATCTGTTTCATTAGCTAGAGTTTATAAAGATCGTCATTGGAGTTCAGATGTAATAGCAGGTGGATTAATAGGATTTTCTGTTGGATATATATTGCATAAGTGGAATAATAATATTAAATTTACAGGCAATGGAATTAAAATAGAATTTTAAATCAACAATAATCAAATACAGGACACTTTTTCATGGTATGTTCTATTTAAGGGCCTAACGCTTTGATTGCGAAGTGTAGTGACTTTTTTGGAGTTTTTCTCAAAAAAAAATTGACAAATGTAAAAAAATAGGTTATAATTTCATAGTAGAAAGTATAGAACTGAATTAGTACATATATTTCAAAAAGAGGAGGTAGTTAAGTAATGAAAAGATTATTAGTAGTGTCTACTTTGGTAGCTGGAATTTTATTAGCTGGAGGTTGCGGAAAAACTGCATCACCTGCTGGAGGGACTAAAGTAGTTAAAGCAGCAAAATCAGCAGTGTTATTTTCAAAAGAAGATGTAGCAGGGGATGATACGGGAGCAGGAACATATGTATATCCTACAGATAAGGTGTTTGTTCCAGGAGCATTTGATTTGTTAGGAGTAACAGTTAAAGATGCAGGGGATTCATATGCCATTTCTTTAAAAATAGCAACAGATTTTAAAAATGATTGGAAAAGTGCTGGTGGATGGGATGTACAAATGTTTGACGTATATTTCAACTTAGGGACAGGAAAACATCACCAAACTATTTCAGGAAGACATGTAAAAATAGCTGAAGGATGGGACGTAGCTGTTATGGTTGGGCCTGATAAACCAACAAGAATGAGAAAAGAAATAGATGATAAAAACAGTGATGTAGCTGATGATGTATCAGATCCAGAAAATTTAGTTGATGATGTGTTAATTCCTGATGAAATATCAATAGAAGGGGATACATTAACAGCAAAAATATCAAAAGATAAAATAGGAGATTTATCTAAATTAAATGGAGTTCAAGCATTTGTATTAGGTGCAGAAGGATATCCTTCAAAAGAAGATACATATAATAGAGTAGTAAATGAATATGCTGCACAATATAGATTTGGTGGAGGTTCTGATTATTTTGGAGATCCTAATGTAATGGATATTTTAGGAGATAATTCAAAACTTGCTGATTATAAATCAGATGAAGGAACAAGCGAATATCCAACTGTAGATTTAGTAAAATAAAAAAATGATTTTAATAAAATGAAAATAAAGCTCGCATATTGCGGGCTTTGTTTTTGGAATGTTATTTGTTAGGAAAGTATAAATTTATTCAGAAAATAAGCTACGCCGTTTTTTTTAATTAAATTAAAACTAGGGAGGGAATTGTGAAAAAAATTATTTTAGTAATGGCAACAATTAGTTTTTTAATAGCAGGTTGTAATTTTACGGTTAAAAAAGAGAAAAAAATCACAAAAATAGCAAAAAGACCATCTAGGCCTGCAAAAGGGGATTCTTATATTTTTATAAGAAGATTAGAACATAAGCCTAATAATGATTTTGTTGTAGTGAATAATGAAAAAAATATTAGAATAATGTTAAAATCTAGATCGAATGACGTAGAAAAAGTAAGTATAGTTTATGGAAATAAAGAAAAGGAAATGACAACTTTAGGTGCAGCCGGAATGTATGAGCATTATTATGTAAATATAGATCTAGATTCACCTGATATAAGTTATTATTTTAAATTAATTGATGGAAATGAAACTTATTATTATGGCAAAAAAAGTGGAAATTCTAAAGATAAAGTTACTAATTTTAAATATCATTTAAATAAAGATATGGTTCCAGCAATGCCAGAATGGGCAAAAAAAGTTGTTTGGTATCAAATATTTGCGGATAGATTTAGAAATGGTAATCCAGATAATGACCCTATTTATAATGAGTATGGACCACAAAGTTTTGAAAAACCAACAGGTGAGTTATCTGATGGGACTGCAAAAGCATCTTTGATTCCAGAAGAGAGATGGAATTCGAGAGCTGATGGGTGGAATGCAGGACAATTTACTATAAACAAATGGACATCTAATTGGAATAGTGATGAACCATGGGAAGTTAAAGGAAGAGAAAAATATGATTGGGATCATGGGAATACAAGACATTATGGTGGAGATTTACAAGGTGTAATAGAAAAATTAGATTATTTGAAATCTTTAGGAGTAACAGCTATATGGTTTAATCCAGTCTTTTATGCAGAGTCAGACCATAAATATGATGCAGCTGATTTTAGACATATTGCTCCATCATTTGGAGTTATAGAAGAAACAGGAGAAAAATATGGAATAGAAGTTAATAAGGATAATAAATACGGAGCAAAATTAAGTAACAAAAAAGGCAATAGTGAATATAAATTATTGAGTTATGATATAAAAACTGGTAAAAATGGATTAGGAGAAACAAGTGATCCATCAACATGGGTTTGGACAGAGTCCGATATTATAGCAGCAAAAATGATAAAAGAAGCTCATAAAAGAGGAATGAGAGTAATTTTTGATGGAGTATTTAATCATACTGGAAATGAATTCTGGGCATTTACTCAAGCTATAATAGAGGGGCCTACATCAAAATATGCCAGTTGGTATAAATTTACAGATTGGTCAAAAGTGAAAGAATATACAAAAGAAAATGTTGAAAAATGGAATCCAGGTGTAAAATATAATGGAAAATCTAAAATTGGAGTTTATGAAAAAGATAATATAAAATATAGAACTCGTTGGGTAGCAACTCCTAAAAATGCAACGCCAAAAGAAAAATGGGAAATTTATTTATGGAATAAAGATAATGTTAATTATAATTCTTGGTGGGGATTTAGATCGTTACCTAAATTAGATCATTTTAATAAAGAAGTTGGAAAACATATTATAAATATTAGTAAAAAATGGTTGTTAGGTCCAGATGGAAAAGTATCTTCAGATTTTAAGAATGATGATGGAATAGATGGATTTAGATTAGATGTACCGTTAGATATAGAAGATCAAAGTTTTTGGTTAAGATGGAAAAAAGCTATTAGAGAAGTTAAGAGTGATGTATATACGTCTGCAGAGATATGGGGTCAAGCAAGAGACCATGTATATGGTAAAAAATTTGATGCTGTGATGAATTATGAATTTGCGAAGTATTTATTAAACTATGTAGTTGATACAGGTAAAAGAAATAAATTAAAAGCATCTGAATTTAAAGCATCTGAAAATACTCTATTTTTAGGATATGCAGATTCTACTGCTAGAGGTATGCAAAATTTAATGGATTCTCATGACACAGATAGATTGTTCTCAATGATAATAAATCCTAATAGAGAATATGATAGAAATAATAGAATAAATGAAAATAGAAGTTATAGAGCTGTAAGACCTGATCTTTACGATACTATGGCAATAAATAAATTAAAATTAATATCATTAATACAGATGACATATGAAGGATCCCCTATGATATACTATGGAGATGAAGTTGGAATATGGGGACCAGATGATCCTATGGATAGAAAGCCTATGTTGTGGAAAGACTATATGCCGTATGAAAAAGAAACTGATGAGTATGGAAAATATAAAAAGAAAAACATACAATTTAGTAAAGATGTTGAAATTGATGAGGCAAATAATGTTATAAAATATAATGTTAAAATAAATAAAGATATATATAATTGGTATAAAAAACTTATGAATATTAGAGATGAAAATGTAGATTTATTTGGATTGGGAGAATTAAAATATATTTTGAGTGATGATTCGAATGATTCAATAGCATATGTTAGAAGCTATAAAAAGAAAAAAGCAATAGTTGTTGTTAATAATAGTTCTAAGGAAGAAACTTTAAAGCTAAAAATAGATGGAAAATATAAAGATTTGATTAATGGGAAAATGGTGGAAGATATTGATGGGATTTTAGAAATAAAATTACCAGCTAAAACTGGAACAATTTTAATGAAATAAAAATATTATTTTTTAAAAGGTTTTTAAGTCGTATGGCTTAAAAACCTTTTTTCATTCCTTATGAAATAAGTTGTTAACTTTTTTAAATTATCTTAATAAAATCTATAAAATGTCGATAATAATGTGAAGAGGAGGTGGGAAAATGGAGAAAACTATTGCAGCACAAAATGTTTTGCCAATTAAAATTGGGAAAAACAGTATAAAAGGAGGTGTGAAAAACAAGGAAGTAGTTGTATCTAAGTTAAAACAATTTAAAGAAATATTAAATGAAAATATGAAAAAAGAGAAAAAAAGTTTTAATTTAGCTGAAAAAGATATAAAAGAAGGAAAAACAATTGATAAAAAAACAACTGAATTATTAAAAAAAGTAAAAAAAAGAGAGAAAAAATTAGATGTAAATTCAGAAATGGATTTAAAAGGGGTAATCTTCAGTTTAACAAAAGGAGAAATTTCGAAAGAAGATTTTGTTAATAGAGTATCAAAATTATTAAATTCAGAAACGTCTAAAATAGGGGCAGAGGAACTATTAAAAGATGGGAACAAAAGAGATTTGTTAGGAAAAGAAGGAACTGTAAAAAATGGTAATTTAAAAGTGAAAAAAACCAGATCAAAAAAACAGAATGAAACAAAGGTAAAAGCCAAAAATGTTAATATTGAAAGAGAAGATTTGTCTATTGATCAAAAATTAAAAAGAGCATTAAAACTAGAAAAAATCAAAAAATCAAAGGATCAAATAAAAAATATTGATTTGAATCAAAAAGAAATAAAATTAAAAAACGGCTTAATTCCAAAAGAAAAAGAGATAAAAACAACGAAGAAAACAAAACAAACAGTAATTGAAAAGAAAAAACCAGTTCAAAACGAAATAAAATTAAAAAGTGACTTAATTCCAAAAGAAAAAGAGATAAAAACAGCAAAGAAATCAAAACAAACAGTAATTGAAAATAAAAAACCAGTTCAAAACGAACTGAAATTAAAAAGCGGCTTAATTCCAAAAGAAAAAGAGATAAAAACAAAGAAGAAATTAGAACAAACAGTAATTGAAAAGAAAAAACCAGTTCAAAACGAACTGAAATTAAAAAGTGGCTTAATTCCAAAAGAAAAAGAAATAAAAACAAAGAAGAAATTAGAACAAACAGTAATTGAAAAGAAAAAACCAGTTCAAAAAGAAATAAAATTAAAAAACAAATTAATTCCAAAAGAAAAAGAGATAAAAACAACAAAGAAACCAGAACAAGCAGTAATTGAAAAGAAAAAACCAGTTAAAAATGAAATAAAATTAAAAAGTGACTTAATTCCAAAAGAAAAAGAGATAAAAACAACAAAGAAACCAAAACAAACAGTAATTGAAAAGAGAAAACCAGTTAAAAACGAAATAAAATTAAAAAGTGACTTAATTTCAAAAGAAAAAGAGATAAAAACAACAAAGAAACCAGAACAAGCAGTAATTGAAAAGAAAAAAACAGTTAAAAATGAAATAAAATTAAAAAGTGACTTAATTCCAAAAGAAAAAGAGATAAAAACAACAAAGAAACCAAAACAAACAGTAATTGAAAAGAGAAAACCAGTTAAAAACGAAATAAAATTAAAAAGCGACTTAATTCCAAAAGAAAAAGAGATAAAAACAACAAAGAAACCAGAACAAACAGTAATTGAAAAGAAAAAACCAGTTAAAAACGAAATAAAATTAAAAAGCGACTTAATTCCAAAAGAAAAAGAGATAAAAACAAAGAAGAAATTAGAACAAACAGTAATTGAAAAGAAAAAACCAGTTCAAAAAGAAATAACATCTGAAAAGATATTGGAAGATGTAAAAGGGATAAAAGAGGGATTTAAACAAAACAATGTATCAGTAGCAGAGAAAAAATCAAAAGAGTCGCCTATTGCTATAGAAAATTTAGAAGTAATAAAAGGGACAGCTAATGAATCGATTGTTTTGAAAAATAATATCAATAATAAAGGCAATAAATTGAAACAAAAAAAAGAAACATATAATGGTTTTTTGAATGGAGAAATTAAAGAAGATAAATTAAATGTGTTAAAAGAAAAAATATTGGAAAATCCAAAAATAAATAATGAAAAAGATTTGGAAGTTAAATTTTCTGATGATAAAATAGAAAACAGATCAAATAAAATAAAATTTGATAGAAAAGTTTTTAATGCAGATATAAAAAAAGTTACATTAAAAAAATATGGTTTTAAAAAGATAGAAAGAAAAAAAATAGAAACAGATAATATTATTTCAAGAGATAATACGAATATAATGAAAGATAACAATATAAAAGCAGAGCCTAAAAAAGTTATTCAACAAAATACAAAATTAAATTATACAAATATATTAGAACAGGTTGAAAATGGAATAAAAATGAATTTTAATTCTTCAACAAAAGAGATGAAGATAAAATTACATCCAGAAGAATTAGGAGAGTTAGAAATAAAAATAAGAATAGAACATAATATAATGAAAGCAGAATTTGTTGTGGATAATCAAAAAGTAAAAGAGATATTAGAAAATAATTTTAATAATTTGAGAAATAATTTGAATGATAAAGGCTTTTCAGGAGCAGAAATTAATGTAACTATTTCTAATGGAAATTTTCAAGAGAATAGAAATGGAAAAAAAGAGAAAGTTAATGATTTTTTTAAGAAAAAAAATAAAATAAGTAGTTCAGAAATAGATATAAATTCCGAAAATATAGATGTAAACTCGAAATATGATTATATTACAAACGAAGGAATAAGTATTTTAGCGTAGGAAGGAGGTAAAGTTATGGATGCTATAAGTGGAGCAGTAAAAACACAAGAACAGTATAAGGATACAAGGGAAATAAAAAATAATACACAAACTCTAGGAAAAGATGCATTTATGAAATTGTTAGTAGCTCAAATGCAAAATCAAGATCCATTGAACCCAATGTCAAATACAGATTCAATTGCACAATTAGCACAGTTTAGTTCGCTAGAGCAAATGACAACATTGAATGAATCTTTTAATAGTTTGAGTACGAACCAAAAAATAGCGAATATATCAGCAGGTGCTCAATTTCTAGGAAAAGAAGTAGAAGGTTCGGCTGGAGATGATCAGATACAAGGTAAAGTTGTAGGAGCATCTTTTAAAGATGGAAATCCTATATTAAGAGTAGATTTAGGAGACGGGAGTTATAAAAGCATTGCTATGCAAGATATTACAAGTGTAAAATAGCCAAAATAGGCAGGTGATTAAAAATGGCAAATTTGTTCATAAAAAATTATGGTTTCGATATAAATAATTTACGAAAAGATTTAAATAAAGAGATAGCTAATAAAAAACAAGTAGATAAAAGTTCTAAATTTAAAGATTTATTAAATGAGAATATTGTAAAGTTTTCCGCACATGCACAAAAAAGACTACAAATGCGCAATATAAAAATTACGAATGAAGGAATAGATAAAATAAAAAATGGGATAGAAAAATTAAAAAATAAAGGTGGGAAAGATTCTGTGGTTATAATGGATGATAATGCCTTTGTAGTTAGTGTTAAGAATAATACGGTTATAACTGTAGTAGATGATAGAAATTTAAGAGAAAATGTTTTTACGAATATTGATAGTATGATAATTTTATAATTTAGGCTGGACCGAAAGGGAGCCTCTTGCCATTGAATGATTGATATGGTGTAATAAATAAATTTAGGAGGGTGAAAAAAATGATGCCATCGTTGTTTTCAGGAGTAACAGGGTTAAAAAATCATCAAGTGATGATGGATACAATAGGGAATAATATAGCGAATATAAATACTGTAGGATATAAAAGATCGAGAGTGGCATTTCAAGATCTAATGAGTAATACGTTATCAAATGCAAGTGCTCCGCAAAGTGGAGAACTTGGAGGCAGAAACCCTATTCAAGTTGGATTAGGAGCTAAAGTAGGGAGTATTGATACTATTTTTACAAATGGATCTCCACAGGTAACAGGAAGAGATTCTGATATAAGTATTGATGGTGAAGGGATGTTTATGGTTGGAGAAGGAAAAAACACTTATTATACTAGAGCTGGAAATTTTGGGCTTGATTCAGATGGGTTTCTTGTGGCAAGTAATGGAATGAAAGTTCAAGGTTGGCAAGCGACTAAAAAAAGTGATGGAACAACTGAAATAGCAGCAGGAGCTCCAATAGGAAATTTAGATATAAAATTAGGAGAAGTTTTACCTGCAAAAGCTACATCTGTTATAAGCTATGCTGGGAATTTAAATGCTGATGGTGGTCTTAGCGACATAAGACTTACAGTAGATGCAGATGGAAATGGTACAGGAACTAGCGATGTTGATGTGAGTATTAAGTTTACATATGATGTCGATAATGACAGATGGAATTGGAGTGCTAGTAATGCAGCTGGGAGTACATCGACACCTACAATATCTGGAAGTGGATATATGACATTAGATGCAGACGGGAATATAACTGGAAGTGTAACATCTGCTGAAATAAAAAATGATTCTAATGGAAAAGTATTGATTGATGTTCCTACTAATGGAAAGATAACTTTTAAAGAAAAAATAAAATCTGCAAATACTTCTACAAGTAAATTTGTCACAAATAAGATAGTTAATTCAAGTACTGTTTATGATTCGGAAGGAGCTACACATGCGTTAAGCATGGAATATACTAAAATTGATGAAAATATGTGGAAATTTAATGCTACAGAAGGAGATGGACTTGACGTAAATAATGGGAAAGGTTTTATGACTTTTGATTCATATGGACAGTTTAGAGGAGCGTATACATTTGCGGAAACAGATAGTGCAGATTCTACAAAATTAGGAACAATTACAGATTCTGATGGAACAAGTATAAATAGTTATCCTTCTCAAACGGCTTTAGGAATTACTACAGACAGTTCTGTAAAAGCTAATTATCTATTAGAAGGGGAAGATGCCTCTTCTAAAACAGCTCCTTATTATTTGGATAATAGAGGAGTTATAAAATATAGAGGAGCTACAGATTCTGATGGTAATGGAATACCGGATAAAGATAAATATGGAAATACAATTGATGAGATAACTTTAACATCGATTCCTGAAGAGGGAGAGATTATGAATAATGCTTATTCTGGAAGTTTTAGTTTTGATCCTGGGAATGCAGGAGGAGCTTTACCGCCAGATGAAGGTGCGGAATTAGTAAGTATTCAACCTGATTTTATTGGAGTAAATCAATTTCATTCAGATTATGGAGTTAAATTTACAGGACAAGATGGATATGGAATGGGAGAGTTATCAAATTTTAGATTTACAGATAATGGAGATATAATAGGAGAATATTCAAATGAATATAAACAAATAATAGGAAGAATTTCAATTGCAAAGTTTTTTAATCCAGCAGGATTGGCAAAAATAGGGAGTACAATGTTTACACAAACATCAAATTCTGGAGAGGCTCAAGTTGTAAGGCCGGGGACCTCAGCATCTGGAACGTTAGCACCTGGAAAATTGGAGATGTCAAATGTTGATTTAGCTCAAGAATTTACAGATATGATAATAGCTCAAAGAGGGTTTCAAGCTAATTCTAAAACTATTTCTACAGCGGATCAATTATTACAAGATTTGATAAGTTTAAAAAGATAAATGATTAGGCGAGGATAAAAACCTCGCCTATATTAAAAAGTATAGATTTTTTTTTAGTTTAATGATATAATTTATTTAATAGTAAAATATAAATTTATTCAGAAAATAAGCTACACTAATTTTTTTGAAATATGCGATTTTTCAAGTTGAAATTTTTCAGAAACCAAAAATTTAGAAAAATATTTATGTTTTACCATAGGAAGCGTAGCTTATTTTTTTATTATGGAGGTATATAATATGATCATATTAAATACAGTAGGAAAAAATAGCAAGGAGATAGTTGTTAATGCTGAGTTGATAGAAATAATAGAAGAGATTCCTGAAACTTTGATAACTTTAACAACAGGAAAAAAAATTTTAATTAAAGAAAAAAAAGAGGAAGTTATTAATTTTGTCGTAAATTATAAAAGAAGTATATTGATATAAAGGAATGGCTTAAAAATAACATTTCCATTTTGTTTTAAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCCAAAGATATGTAGATAGGAGGTTTTTTATATGGATATAGCTACAGTCATTGGATTTGTTGCTATTTTAATGTTAATGTTAATAGGGATGGGGTTTAATTTAGGGCCATTTGTAGATGTACAATCAGCAGCTATAGTTGTTGGTGGAACTGGCGGAGCACTTTTAATGTCATATCCATTGCCAGTTATATTAAAAATTGGTGGAATTATGAAAAATGCATTTTTTAATTCTTTGCCTGATACTGGAATAGTTATAACTACATTGGTAAGTTTTTCAGAAAAGGCAAGAAGAGAGGGACTTTTAGCATTGGAAGCTGATGTAGAGTCATTAGAAGATGAATTTATGAAAAAAGGAATTCAGTTAATAGTAGATGGAACAGATCCAGAATTGGTAAAAAGTATATTAGATACAGAAGTTTCGTTTGTGGATGAGAGGCATACTGTAGGGAAAGGAATGATGGATACTGGTGCTAGTTTAGGGCCTGCTTTTGGTATGCTAGGAACGCTAATAGGACTTATACTTATGTTAGGGAATTTAAGTGATCCAGGTTCATTAGGGCCATCAATGGCAATCGCATTAATTACGACTTTGTATGGTTCTTTTATAGCAAATGTAGTTTTTACTCCAATAGCTAATAAGTTGGGATATTATAATTCAAGAGAAGTTCTTAGTAAACAAATGGTAATAGAGGGGATTTTATCTATTCAAGCGGGAGATAATCCAAAAGTTTTAGAAGAAAAATTAAAATCATTTTTATCAGGTAGCGAAAGAGGAGCTGTTGCACCAAAAGAGGGGGAATAATCATGGGTGAAAAAAAATGTCCAGAATGTAAAGAAGGTGCGCCAGAGTACATGAACACTTATGGGGATATGATGACCCTATTAATGTGTTTTTTTGTATTATTGTTTGCGTTTTCATCTTTAGATTCTCAAAAATTTCAAACTATGATGAAAGCTTTTCAAGGGGCATTAGGAGTTATGAAAGGTGGAAAGACTGTTAGCCCAGAAAAGCTAATAACTGACAGCAGGATACAAAATAAAGGAACTGAAATGAAATTTGCAAAAATGGCAAAAGAGTTGCAAAAAGAATTACAAGATAGATTAAATGAAGAAAATAAAAAAACAGGAAAAAATAAAAAATTAAAAGATATTGCAGATATAAAATTAACTGAAAGAGGGCTGAAAATTAGTTTTGGAGATAGAGCTCTATTTGATATAGGAAAAGCAAAATTAAAAAAAGAATCAAAAGTGATGTTAGATAAGATAGCTGGATATATAGGGAGATTAGAAAATAATATAGTAGTGGAAGGTCATACTGATAATGTTCCAATACATAACAATGAGTTTCCGAGCAACTGGGAGCTTTCAACAACAAGAGCAACTAATGTTTTAAGAAATTTATTGAAAAAATCTCCTTCGTTAAAAGGGAGAATTTCAGCTTCTGGATATGGAGATACAAGACCTATAGCTACTAATGATACAGTTTCAGGAAGAAAAAAAAATAGAAGAGTTGATATAATTATATTGAAAAGTAAAGATGAGATAGTTAGTGAAGAGTTATTGAAAAGAAGTTTACAAGGAGGAAAATAGTATGCCAGATGAAGAGAAAAAAGAGATGCCTTTTATAACAAAAGCGTTAATTGTGGCGATATTAGCTGTTGTAATAATAATTTTAGCTGCAGGTATTTCATATTTTGTAGCTTCTAAAGCAATAAAAACTAGTTCTACAGCTCAAATTGAAGGTGGAGGAAAATCTAAAAAAGATTCAAAAAAAGATAAAGATAAAAATGTTTCTGGACCTATTGTTGATTTTGGAGGATTTACAGTAAATTTAAATGAGAAAGAAACAAGGTATTTAGTTTGCAAGATACAATTTGAAATAGATCCAACAGGAAAAGACAAAGGGAAAAATGGTCAACTGGAGGTTCCGGAAAAATTGGTTATATTGCAAGATAGAGTTTTAACAATTTTGAGAAGTAAAAGCATTATGGATTTGGCACAAGATCCAAGTTTGAAAAATTTAAAAAAAGAGATTATAAATGCAGTGAATAAAGTTTTAGAAAAAAGTAAAATTAGTGGTGTATATTTTACAAGTTGGATAATTCAATAGAGAGTTAGATAGAAGATTAGAATGTAAAAAGATTTTTGAAATATTTAAATAATATATATATAAATATGAAGAAAACTAAATACTGTTTTGAGAAACAAACAATAAATGATTTATTTCTCAAAAAGTAGTTTTCAAAAGTCACATTTATATATATAATTTCGTAGAGAGATTCGAACATTATATATATAAATATGAAGAAAACTAAACACTATTTTGAGAAACAAACAATAGGTGGTGATAAAATATGGCAGAAGTATTATCGCAGGACGAAATTGACGCACTGTTGTCAGCCATATCAACTGGAGAAGTAAATTTAGAAGAAGCAAAAAGTATAGAAGAAGAAAAAAAAGTAAAAGTTTATGACTTTAAAAGACCAGATAAATTATCTAAGGATCAGCTGAGAACAATTCAAATGATTCATGAAACTTTTGCTAGATTAAACACTACAATGCTTTCTGCTCAACTTAGATCGGCTATTCAAATACAAGTTATTTCTGTTGACCAAATAACTTATGAGGAATTTATTCGTTCTATACCAGAATTTACTATTTTAGGGATATTTGATGTTGGTAGTTTAGAGGGAAATGCTATATTAGAGATGAATCCCAATATAGTATATACAATAATAGATCGGTTATTTGGTGGACCTGGAGAAATGATAGATCTGTCAAGGGAACTTACTGATATTGAATTAACTGTTATAGAAAGAGTTATTTTAAAATTATTAAATAATTTAAAAGAGTCATGGTCAAATATAATAGAAGTTTCACCACGAATAGAACAAATAGAATCAAATCCACAATTTGTACAAGTAGTTGGGCCAAACGAAATGGTGGTGCTTGTAACATTTGAAGTGAAAATTGGAAGTGTGGAAGGGATGATGAATATATGTCTTCCTTATCCAATGATAGATCCAATTGTTTCTAAATTATCAGCACAATATTGGTTTTCATCTGTAAGAAAAGAGATGACAAAAGAGAATTTAGGAGCTTTAAAAAGTAGATTGAATAAAGTTAATGTACCACTTATAGCTAATCTTGGTAAAGCTATAGTTTCTCTTAATGATTTATTGAAACTAAAACAAGGGGATGTATTAAAATTAAATCAAAGTGCAAATAAAAATTTGGATATATCTGTGGGTAATAAATTGAAATTTAAAGCTACCCCAGGGACAGTAGGAAAAAAAATGGCGATAACTATAAAAGAAGTTTTAGAGGAAGGAAGTGATTAAACATGGAGGGAATTTTATCTCAGGAGGAGATAGATGCTTTGCTTGGTGGGGGAGATTCTGCAGGAACAGAACCAGAGCCTAAAGAATCTAATTTTGAAAAAAAAATACATTTAACTCAAGATGAAAAAGATGTTATAGGAGAGGTTGGGAATATCTCTTTAGGATCATCTTCAACAGCGTTATCAACGTTACTAGGGAAAAATGTTTCAATAACAACTCCAAAAGTAGAAGTTTGGAATTTGGAGGAATTAAAATCTAAATTAGCTGGAGAAGAAAAAGTAGTTATTCAAATAGAATATAAAAGTGGTTTTAGTGGATTAAATATGCTGATAATGGAAAGTAAAAACGCACTTATAATAGGGGATTTGATGATGGGAAACGATGGTAGTAACCCGCCAGATAAATTAGAAGATTTATATTTAAGTGCAGTTGTAGAATCGATGAATCAAATGATGGGAAGTTCAGCAACTTCATTAGCTGGGATGTTTAAAAAAGAGATAGATATAAATCCACCTTCAGTATCAGTAAGTAATATAGATGAAATTAATTCAAAAACAGATTTTTTTAATAAAAATAATGAATTTGTAATTGTAATATTTGATATGAAAATAGAAGGATTAATAGATACTAATATTTATCAAATTTTAAGCGCAGAATTTGCAAGAGAAATGGTTTCTGAAATGCATAAAATGAGTGGGGAAGAAGAGGAGCCTCAACAACCACAACCACAAATGCAACAGCAAACTATTCAACAGAATCCACAAATGCAACAACCACAAATAAATCAAAATATGGGGATGCAAATGCCACCGAATATGGGATGGCAACAACCACAAATGCAAAACATGGGAATGCCTCAACAGCCACAAATGATGGGAGGATATCAAAACTTTCAACAACCTGTAAATGTACAACCAGTACAATTTGCATCTTTTGGAAATTCAATTCAGCAAGAAATGCCTTCAAACATAGATTTGATAATGGATGTTCCATTGCAAGTTACTGTAGAATTGGGAAGAACAAAAATGCAGATAAAAGAAATACTTGACTTAGGGCCAGGTTCTATAGTAGAATTAGATAAGTTAGCAGGAGAGCCACTAAATATACTAGTTAATGGGAAATTGATTGCAAAAGGAGAAGTAGTTGTAATTGATGAAAGTTTTGGAGTTAGGGTAATAGATATTGTTAGTAAAATGGAAAGATTAAATAAAGTCCAATAAAAATAAGGAGGTATTATAAATGGGAACTAAAGTATTGATTGTTGATGATGCGGCGTTTATGAGAATGATGATTAAAAACATTTTATCAAAAGCAGGGTATGAAATAGTTGGTGAAGCTGAAAATGGTGCTCAAGCGGTATCGAAATTTAAAGAGGCAAAACCAGATTTAGTTACTATGGATATTACTATGCCAGAAATGGATGGGATTACTGCAGTAAAAGAAATAATGAAAATGGATGGAACTGCAAAAATAATAATGTGTAGTGCAATGGGACAACAAGCAATGGTTATAGATGCAATACAAGCAGGCGCAAAAGATTTTATAGTTAAACCATTCCAACCTAATAGAGTATTAGAAGCAGTAGGGAAAGTTGTAGGAAGTTAGTTATGGATAGATTACTTTTTCTTGAAATTTTTTCTTTTTTTGTTATTGCTATAATTTTAGCTGGAGCATTATATGTTTTAAGAGGAAAAAGAAAAAGTATATTTTTTAAAAATAGCAATATAGAAGAAATTGAGAGATTTTATTATATGCCTAAAGTATTTATTTCTATTGTAAAAATAGGAGAAAAATATTTTATGTTAGGAGTGACAGAAAATAGTATTAATAAGTTAGAAGAGATATTAAATATGGATGAAATTGAAGAATTGAAAAAAGTTTCAAGTAAAAATGAAATTGGAACTAAATTTAGTAGATTTTTTTCTGAAAGAAAAGATAATAATGTAGAAAATTTAAAAAGTAGATTGAAAAAAATGAGGCATGAAGATGAAGAGTAAATTAAAAGTTTTATTTTTTTTTATTATAATATCGTTTAGTTTGTATGCAGAGCAAAAAATTGCTATTCCAAAATTTAATTTTGGAATAGGTGCATCAAAGTCTCCAGACGATTTAGTTACAAGCTTGCAAATCTTAATGGGATTAACAATTTTAACAATTGCTCCATCTATAATAATAATGACTACTTCTTTTATAAGAATTATTATAGTATTACATTTTGTAAGGCAGGCTTTAGGAGTGCAACAAATGCCCCCAAATCAAGTTTTGGTTGGGCTAGCACTTTTTCTTACTTTTTTTATAATGGAGCCAACAGCTAACGATATTATGCAAAATGGAATTAATCCATATTTGAATAAAAAAATAAGTCAAGAGACACTATTTAAAAATATTGAGAATCCTCTTAAAAAATTTATGTTAAAGCAAACGAGAGTTAAGGATTTAGAATTATTTGTAAAACTATCTAAGACTAAAAAAGTAAAATCAAGAAAAGACTTGTCTGTATGGATAGTGACACCAGCATATATAATAAGCGAATTAACAAGAGGATTTGAAATTGGAATTTTAATTTTTATTCCTTTTATAATAATAGATATGATAGTGGCTACAGTTTTAATGTCTTTAGGGATGATGATGTTGCCGCCAGTTATGATATCTATCCCATTTAAGCTTCTGTTATTTGTAATGGTTGATGGGTGGAATTTAATAATTAATTCTTTAGTAAAAAGTTTTAATTAGGAATAGGTTAAAAATAACATTCCAATTTTGTTTTAAAACAACAAGATTCAACTGTTTTTATAATAAATTTTATAACAAAATATAACAAACTTATTTTTTAAATGTTATTTAGGAGAAAAAGATATGTCGGAAGAATTGATAATGAAATTAGTGACAGATGCATTGATGTTAATTTTGAAAATAACTTTGCCAGTTTTAATAGTTGGTTTAACAGTTGGTTTAATGGTAGGGATTTTTCAAGCAACTACACAAATTCAAGAAATGACGCTAAGTTTTATTCCTAAAATAATAGCAGTGTTTTTAGTTATTTTTTTGTTGGGACATTGGATGTTAATTACAATTGTAGAATATACAAAAAATTTATTTGAACTTATTTCAACACTAAGGTAGATGAAAATATGAACTTTTTATATAATAATGTAATATTTTTTTTGTTGATTTTTTTAAGGCTAAGCGGAATACTTTTTTTTACTCCTGTTTATAGCAGTAATAGTATAAACAGAAGAGTTAAGATAGGATTTCTTATTTTAATAGCTTTTTTAATTTATCCAGTTGTACCAAAAGATATATCTATTTTGAGAAATTTAACTTTTTTTAATTTGATACTAATAAGTATAAAAGAAGTTTTAATTGGCGCAATAATAGGTTTTTTTGTATTGTTGATTTTTTCTACAGTACAAACAGCATCTCAAATATATAGTATGGATATGGGATTTGGAATGGTAAATATATTTGATCCTGTTTCACAAATACAGGCACCTGTATTAGGGCAGTTAAACTATTTGTTTATATTGGGAATATTTTTAATAACTGGTGAATATAGAAGAATATTTGAAGTTTTAGTATCTACTTTTTATAAATATAAAATAGGCAATATTAGTTATCATTATGGTACTCTAGCTAAAAATATGGCAGATAGTTTTGCATATTATTTTATGGTTTCTGTGAAAATTGCATTACCTGTTTTAGGAATATTATTTATTGTAGATGTTACATTGGGGGTTATGGCAAGAATAGCTCCACAAATGAATGTTTTTTTTATAGGTATGCCATTGAAAATTTTGGTGGGGCTTTTGTTTTTAATCACGTTTATTCCGTATTTATTTACATATCTGAATCACTTATTGAATAACGGATATATAAAATTATTATATATTATACAAAAGGTTGTGACTTAATTGTTAGAGTATAAAATCGGTTATTCGATAAATTTACAGCTATTTGCGGAAGGCGAGAAAACAGAAGAAGCTACTCCAAGAAGAAGAGAAGAGTCTAGGAAAAAAGGGCAAGTCGCTAAAAGCCCAGATTTAGCTCAAACAGCAACATTATTAGTGGGTATAATTGTATTAAAAATAATGTTTAAATTTATGTATAAAATGTTATATGTGAATTTTAAAAATAGTTTTTATAATATGGATATAACAAAATTTACAATAGAAAAGTTAGAAGAAATTTTTTTAAAAGATGCTTTACTATTTTTCATAGTTATTTCTCCGATTTTATTAGCAATTTTAATATCTGGAGTTTTAGCTAATTATATTCAAGTTGGTTTTCTATTTACAACAGAACCTTTAAAACCTAGTTTTAGTAAGATAAATCCAATAAGTGGATTAAAAAACATGTTTTCATTAAAAAAACTAGTAGAACTAATAAAAACAATAATAAAATTAATAATAATAGGAATTTATGGATATTCAGTTGTTAAATCAAATTATAATAGCATTTTAAAAATACCGTTTTTAAATTTTTTCGACGGTTTTATATTAATTTTTAAAATAGTATATGATGTTGTTTTAAAAATAGCTATGGCATTATTTGTATTAGCTGTTGTAGATTATTTCTATCAAAAATGGGAATATGACAAAAGTTTAAAAATGTCAAAACAAGAAATAAAAGAAGAGATGAAACAAACAGAAGGGAATCCACAATTAAAAGCTAAGATGAGAGCAATGCAAAGAGATATGATAAGAAGACGAATGATAGAAGAGGTTCCAAAGGCTACTGTTATAATAACAAATCCAACACATTTGTCAGTAGCTTTAAAATATGATAATACAATGTCAGCACCAGTAGTAATTGCAAAAGGGGCTGATAATATAGCTTTTAGAATAAGAGAAATAGCTAAAGAAAATGATATACCAATAGTAGAGAACAAACCATTAGCTCGTGCTTTATATAAATCAGTTGAGATAGGGGATGAAGTTCCAGAAGAATATTACAAAGCAGTTGCTACAATATTACAACATATTTATTATAACTAGGAATGTTATTATTCCTAACTAAAGGAGTTCGAGTGAAATATGGCTCAAAATGAAAGATTAGGATTATTAGTACCAATATTTATGCTTGGTGTAATATTAATGTTTTTTATACCGTTACCAACATTTTTATTGGATACATTTCAAGCTTTAAATATTACTATATCCGTTACAGTATTTTTGTTATCAATGTATACTAAAGAGGCATTGGATTTTTCTATATTTCCAACTTTGCTATTGGTAACAACTCTTTTTAGATTAGCGTTAAATGTTTCTTCGACAAAATTAATTTTATCTTTGGGAACAGCATTTAATGGAAAAGTGGTTAGAAGTTTTGGTAATTTCGTAGTTGGGGGAAATTATATTATAGGGATTATACTTTTTTTGATACTTGTTATTATACAATTTATGGTTATTACGAAAGGGTCAGAAAGAGTTGCAGAGGTTGCTGCAAGATTTACATTAGATGCGATGCCTGGGAAACAAATGAGTATAGATGCTGATTATAATGCAGGACTTATTACAGAAGATGAAGCAAGGGATAGAAGAAAAAAAGTTCAAACGGAAGCAGATTTTTATGGAGCTATGGATGGAGCTTCTAAGTTTGTAAAAGGTGATGCAATAGCAGGAATAATTATAACTTTTATAAATGTTATAGGAGGATTGATTATTGGTGTTATAACAAGGGGAGAACCAATTGTAGATGCAGCAGCAACATATACAATATTAACAATTGGTGATGGTTTGGCTTCTCAAATACCTGCACTATTAATATCAGTAGCTACAGGTATTATTGTTACTAGAACAACTTCAGAAGCAGATTTCGGTTCAGATTTAATAAGACAATTTTTTCAAGAACCTAGGATCTTATATATGGTATCTGGAGTATTGGTCGTAATGGGAATTATTCCAGGAATGCCTAAAGTACCATTCTTCATATTATCTTTAAGTTTTGGAACTATAGGATATATAATGAATAAAAATATTTTAGAGGCAGAAAAAATTGCAGTAGAAGAAAAAAGAAGTTCTGAATCTAATGAAGAGATGAGTCAGCCAGAAGAGGTAAAAGATTTATTAAAAGTGGATGAAATGGAGTTAGAATTAGGATATAGTTTAATTCCAATTGTAGATACATCTCAAGGAGGAGACCTTCTAGAGAGAATTACTATTATAAGAAAACAATTAGCAATTGAATTAGGAATAATATTACCACCAATTAGAATAAGGGATAATATGCAGCTGAATCCTAATGAATATTCTATTAAAATAAAAGGAACAGCAGTAACAAAAGGGGAAATAATGATTGGCTATTATTTAGCTATGAATCCAGGTGGAGCAGAAGAGATAAATGGGATTCCAACAGTTGAACCAGCATTTGGATTGCCAGCAATATGGATAGGAGAAGAACAAAGAGAAAAAGCTGAAATGATAGGATATACAGTTGTAGACCCAACCTCAGTTTTGGCTACACATTTAACAGAGACTATAAAAAAATATGCACCTGAAATATTAAGTAGAGAAATGGTAAAAGAATTAATTGAAAATATAAAAACAGAATATAGTGTTGTTGTAGATGAAGTTTATCCTAAGAAATTTGAATTAGGAGAGATTCAAACTGTTTTACAAAATTTATTAAATGAAGGTGTATCAATAAGAAATTTACAACTTATTTTAGAAATAATGGCAGATGCTTCAAAAATAACTACAAATGTAGATATATTATCAGAGTATGTAAGAAGTGGATTGTCAAGGCAAATTTGCTCAACAATAGTTGCTCCAGATGATAAAATTCATGTAGTGACATTAAATCCAAATTTAGAAATAGAATTAAAAGAAAATATTCAAGAAACTGATTTTGGAAGTTATTTAAATATCGATCCAGAAAAAAGCAATAAAATAATAGTGAAAATAAGTGAAGAAGCTAAAAACAGTACAAATATGGGATATCAACCAATAGTATTAACAAGTCCAGAAATTAGGAAGCCTTTAAGGAGACTTATTGAAAGAGATTTAAAACAAGTAATGGTTATCTCATATAATGAAATAATATCTGAGATTGATTTAGAAGCAGTGGGGATGGTGAGCGTTGAATAATGTCAGCTGGGCAAATGAAAATAAAAAATATGAAAACTTATATAGAAGATGAATATACAATTGCATATAAAAAAGCTAGAAAAGAATTAGGTTCTGAACTAATAATGATAGAGAGAGAAAATGTAAAAGTTGGTGGCTTTTTTGGATTGTTTTCTAAGAAAAAAGTAAAAGTTACATTTGGAATAGAAGATGTTCCTAAAAAAAAATTTAAGCAAGAAAAAGATTCTGCTAATAAAGAAGTTATAGAATTACTAAAAAGTATGGGGTATATGGATAGTAATAATAATGTTATAAAAGGAAAAGTGGAAACCAGCATTACAACTAATGAAAATAATTCATTAAATAATATAGGAATATATAATCCATATAAAAATAATGTACAAAATATTAATAATATAAATAAACAAGAAGAAAAAATAGAAGACGTAAAAGAAAAAATAAAAAAAGAATTAACAGAAGAGTTGAAAAAAGAAATCTTTAAAGAAGGAATAGCAAAGGAAGAAGTAGTAACTAAGAATAAGGATAAAGATGAACTATTAAAAATATTAAGGGATAGTGAAATATCAGAAGAATATTGTGATGAAATAGTAGAATATTTTGTTAAAAATGAATTTAATTCTACAAATTATAAAAAAGGACTTATAAAATATTTTTATGAAAATATTTTGACAAATGGCGGAATAAAAGATGAGAAGTTTATTATGTTAGTTGGTCCAACTGGAGTAGGAAAAACTACTTCTTGTGCAAAAATAATTGCAAATTATTGGAATTCAGGAGAAGATGTTGCTTTTATAACATCAGATAATTATAGATTAGAAGCGGTAAGTCAATTAAAGGCATATGCTAATATAATGAGAGTTCCAGTAGAAGTTATAAAAAAATCAGATGAATTAAAAAATGCTATTGAGAAATTCAAAGAGAAAAAGTTAGTATTAATGGATACAGCAGGAAGAAGTCCTAAAAATACAGAACAAATAAAAGAGTTAGAGGAATATGTAACAAAAAATAATGGAAAAATGGCGGTATATTTAGTTCTTAGTGCTACGAGCAAGCTATCGGTAATGGTTGATACCATAGAAAAATTTAAATATTTAAACTTTTCTAGTATAATTTTCACAAAATTAGATGAAACTACTAATATTGGAGCACTATTAACGGTTTCTAAAAAGTATAATATAGCAATATCTTATATAACAACAGGACAAAAAGTACCAGATGATATTGAAGTTGCTTCAAATGATAGATTGGCAAAAATCTTTTCTGAGGAGTTAGACTAATATGGATCAAGCAGAAAAATTAAGAGAATTAGTAAGAAATAAAGAAAAAAATGTTGGTGATAAACTACAATATAAAAATGCAAAAGTATTTGCAATTACATCAGGTAAAGGAGGCGTGGGAAAAACTAGCCTAGCAGTTAATGTGGCTGCATTTTTATCTAAAATTGGAAAAAAAGTATTAATTATAGATGCAGATTTGGGATTATCTAATGTAGAAATAATGCTAGGAATAACTCCAAATCATACAATAAGAGATTTAATTAAAAATAATAAAGATATAAAAGAGGTAATAACAAAAGGACCATTTAATCTAGATTTTATATCAGGAGGAAATGGATTTTTAGAAATGGCAGAACTTTCAGATGTAGAAAGGGAAGAGATACTGATAAAATTACAAAAATTAGATGAAGAATATGATGTGATTTTAATAGATACTGGTGCAGGGATATCCAAAAATGTGATTTCATTTTTAATGGTAGCAGATGAAATTATTGTTATAACTACTTCTGAACCTACTTCGATTACAGATGCATATAGTGTTATAAAAATTGTAAAAGATAAAATAGAAAAACCAGATTTAGGTATTATAATAAATAGAGTTAAAAATATAATTGAATATAAAAAAGCTTCAAGTTTATTAATAAATACTTCAAAAGATTTTTTAGAAATGAATATAAAAAATATAGGTTTTATATATGAAGATAGTTGTGTTAGAAATACTATATTTAAAAAAACACCATTTGTTATATATTATCCAGATAGTCAAGCAACAGGGTGTATTAAATATATTGTGGAAAAGTTAGAATTTAACTATGAAGAAAAAACCAGTGGTTTAATAACAAAATTTAGAAGCTGGTTTAAAAATGTTGGTAGGTGATGATAATGATAAAAGTGTTAGTAGTTGATGATTCTATATTTATGAGAAATATTATATCTGATATGTTGGCAGAAGAACATGACATTGAAATAGTTGGTAAAGCCAGAAATGGGAAAGAAGCTATAAGATTAAACAGAGAGCTGTCTCCAGATGTAATAACTCTAGATGTAGAAATGCCTGTGATGAATGGATTAGAGGCTTTAAAAGAAATTATGAAGGATAAGCCTACAAAAGTTATTATGGTAAGTAGTTTAACATCTGAAGGAGCAATTGAGACAATAGAAGCTTTAGAAAATGGAGCATTTGATTTTGTACAAAAACCATCAGGAACAATCTCTTTAGATATAAGAACAGTAAAAAAAGACCTACTTGAAAAAATAAGAGTTTCATTAAAAGCGAATATAAAAATATTAGAAACAAGTGCAAAAGATGAAAAAGTAAAGCTTTCTAAATTTATGTTTAATAAACCTAAAAAAACAGTAGAAAAATTTCATAGGAACAGTAATAAAATTGTTGCAATAGGTATTTCTACTGGGGGTCCAAAAGCACTACAAAATATTATCCCTGAGTTACCTCAAAATATAAACGCAGGGATATTAATAGTACAACATATGCCACCTAAATTCACAAAATCTTTAGCAGATAGATTAGATTTATTAAGTAATATAAGAGTAAAGGAAGCAGAAGATGGAGATGAAGTTGTAAATGGGCAAGCTTATATTGCTCCAGGAAATTATCATATGGTTGTAAAAGATGAACGCGGAAAGAAAATAATAAGATTAAATCAAGAAGCGAACTATTCAGGGCATAGACCATCAGCGAATGTTTTATTTAAGTCTGTAGCAGAAATATATAAGAAAGAGGCTGTAGGAGTTATAATGACTGGAATGGGAGGGGACGGAGCAGAGTATTTAAAAGTTATGAAAGAGAATGGAGCAAAAACAATAGGTCAAAGTAAGGATACATGTGTTGTTTATGGTATGCCGCGTGTGGCAAATGAATTAGGAGCAGTTGATTATGTAGAGGATTTAATGAATATTCCACAGAGAATAGTAAAATTAGTAGGGGGGGATAGATAAATGGATATGTCACAATATATGTCAGTTTTTATTGACGAATCAAGGGAACATTTACAATTACTAAATGAATCATTATTAGAATTTGAAAAAGACAATGAGAATTTGTCTATAGTAGAGGTTATTTTTAGATCAGCTCATACTTTAAAAGGTATGGCAGCTACTATGAATTTTACAAGGACAGCTGAATTAACACATCATATGGAAAATGTGTTAGACCTTATTAGAAATAATAAATTGAAATCTAGCGCTACTATAGTAGATACTCTATTTGAATGTTTAGACACATTAACATTATTAATAGATGAAGTTATAGAAGATGGAGAAGAGACAACCGATATAGAGGATTTAAGTAATAGATTAGAAAAGTTGACAAAAGGAGAACCGTTAGAAGATTCAAAAGCAGAAAAAATTGAAGGACAAGGGAGTTCATTAAAAAGTAATAAAATAGAATTTAATGAATTTGAGAAACAGCTTTTAGACGAAGCAGAATCGAAAAAGATGAATGCATATGTTATTGAAGTGGTGTTGGACGAAGGATGTTTATTAAAAGCAGCAAGAACATATATGGTATTTAGAAATTTAGAAGAAATAGGGGAAATAATAAAATCAGAACCATCTGCACAAGATTTAGAAGAAGAAAAATTTGATAATTCATTTGAAGTTGTGCTATTAACAGATAAAAAAGAAGAAGAAGTAAAAGGATCGATTTTGTCTATAAGTGAAATATCAGAAGTGATAATAACTAATGTGAAAGATTTAGAAAAAGAGGGAAATAAAGAAATAAAAGTTAATGAAAAAAGCTCTAATAGTTCTAAAAAAGCGGAAAATTCTAAATCAACTAAAAAAGAAAAAAAATCTGCTAACAAAAAAATTGTTGTGAAAAAAACTCCAACAGTAAGAGTTGATACAGATAAATTAGATAAATTAATGAATTTAGTTGCAGAGTTAGTAATAAATAAAACTAGGCTATCTCAAATAGGTTTAGAATATAATTTACCAGATTTATCTGAAACATTAGCTCATGTAGATAGGGTTACATCAGATTTACAAGCTGTAGTAACAAAAGTAAGAATGGTACCAATTGAAAATGTGTTTAATAGATTTCCTAGAATGATAAGAGATTTATCAAAAGATTTGAATAAAGAGATAGAATTATTAATTGAAGGAAAAGAGACTGAATTAGATAGAACAGTAATAGATGAAATTGGGGACCCTTTAGTTCATTTGTTGAGAAATTCCCTTGATCATGGAATAGAATTACCAGAAGAAAGAGAAAAATCTGGAAAAATAAGGCAAGGTACCATTTTATTAAAAGCGGAACATGAAGGGAATAATGTTGTTATTACAATTGCTGATGATGGTAAAGGGATAGATACTAAAGTAATAGCAAGAAAAGCAATAGAAAAAGGACTTGTAAAAGAAGAAGAACTAGAACTAATGTCAAAAGAAGAAATTTTAAAGTTTATATTTGCAGCTGGATTTTCTACAATGGAAGCAGTTACAGAATTATCTGGACGTGGAGTTGGAATGGATGTTGTAAGAAATAAGATTGAAGGTTTAAATGGACAAATAGAACTCTCTAGTGAGGTAGGGGAAGGAACAACAACAAGAATAAAATTACCTTTGACGTTAGCCATAATAGAAGCTTTATTAATAAAATTACAAGAAGAAATTTATGCAATACCATTAGCTAACATAGTAGAAACAATTGATATCTCTCCAAAAGATATAAAAGGAGTTCAAAATGAAGATGTTATAGTTTTGAGAGGAGAGGTTGTTCCAATTATAAACTTAAATGAAGTATTAGATGTGCCAGGTTATAAAAAATTAGATGAAGAAACATATATAGTTGTAATTGTAAAAATAGGAAGTAAAAAAATAGGATTAATTGTAGATTCATTAATAGGGCAACAAGAGATAGTAATAAAATCTTTAGGAAAATTATTTACTGGAATAAGGGGAATAACAGGAGCTACAGTATTAGGAACTGGAGAAGTAGCAATAATATTAGATGTATTAACGCTTATATAGGAGGTGTAATTAATGAAAGATGTGTTAGAGGAGAAAGAAAATAATATTGATAAAATAATATTACAAATAATTGGATTTACATTAAATGGAGAAGAGTACGCTTTAGAGATAAAAAATGTAGAAAGTATAATAAAAGTTATAAAAATGACAAGAGTTCCAAGAGCTGAAAAATATATAATTGGAGTAATAAATTTAAGAGGTATTGTTATGCCAATAATAGATCTAAATAAGAAATTTAATTTAAATTCTAAGATTGAAAAATCTGATAGTCAAAGAATTATTATATTGAAAATTGATACAATATCTTTAGGAATTTTAGTGGATGGAGTTTCTGAAGTAATAGATTTAAAACAGAAAGAACTTAATTCAAATCCAACAATATCTTCTGCAATAAGCTCTGAATATATAAAAGGGGTTTGTAAGTTAGAAGAAGGAGATAGACTTTTAACTTTGTTAAGTATAGAAAAAATTCTAGATTTGAAAAGCTAAAGAACGTTTAAAAAGTTAGATACATTAGCTATAAAGATATTTAAATTTATTGTGTATTTAAAAATAGAAATATAATTTTTAAGTTATTTTTAAAATAATTTAATTTTTATAAAAGTATGACAGTTTTTAAGTAAATATAGTTTGGAGGGAAAGTATGTCAATGAAAATAGAAGCATTAACTGATTCAGAATTAGATGCATTAAAAGAAGTTGGGAATATTGGGGCTGGAAATGCTGCAACAGCATTATCACAAATATTGTCAAAAAGAGTAGATATGACAGTTCCAAGGGCAAGAGTTTTGGAATTAACAAAAGTTCCTGAGTTATTAGGTGGGGAGGAAAACTTAGTAATAGGGGTATATTTGCGTATTTTTGGAGATATACAAGGGAATATTATGTTTTTATTGCCAGTAAATAGTGCAGAAACATTAGTGGAAATGTTATTAGGAGCAGCTGAAGAAGAGGGGGTATTAGGAGAAATATCTCAATCTGCTATTACAGAAGTTGGGAATATTATTACCAGTTCTTATTTGAATGCTTTAAGTGCATTTTCTGGATTAACAGTGGTGCCATCAACACCATCACTAGCATATGATATGGCAGGAGCAATACTTAGCACTATTTTAATAGAACTAAGCGAAGTCAGTGATTATGCTTTATTAATTGAAACAGAATTCATGGGAGATGGAAAAACTATAGATGGGAACTTTTTTATGCTTCCAGATTTGGATTCTTTAAATGTACTATTAAAATCAATTGGAGCTAAAAAACATGACTGATACTATAAAAGTAGGAATGGCTGATTATAAAGTAGGAGAGAATCCTTCTAAAATAATCACGTTAGGATTAGGTTCGTGTGTGGGAATAACCATATATGATAAAGGGAAAAAAATAGGTGGGATGGCACATATTATGTTACCTAAAAATACTAATCCAGAGAAAAGGTCATTAAAATTTGCAGATGTGGCAATAGAAGAGATGATAGAAGAACTATTAAAGAAAGGTTCAAGATTATCAGGATTAGAAGCTAAAATTGCAGGTGGTTCTCAAATGTTTGCATTTAGTAGTTCAGATGAAAAGAAAAGCATAGGATATAGAAATGCAGTAGCAGTTAAACAAATTTTAAAAGAATTAAAAATAAATTTAATTGCAGAAGATACTGGAGGTAAGTTTGGAAGAACAATAGAACTAGATCTTTCAACAGGAGAATTGAAAATAAAAACAATAGGTCATGGTGAAAAATACATTTAAAGGTGATAAATAATGGGAAATGAAATTATTGAGATGATTTGTAAGAAAATTGGGGTAAATGAAAGAGTTGCAAGTAAATTATTTGAGTTGTCTAATAATGACCTAGATAAAGTGGATGAGATTTATAGTAAAAGTGAAATATCTGAATTTTTGCTGATTAGGGGGAAATTTTTAGGAAAAAGAAAAAATATTAACGGTTTATTTTATATTAGAATAGATATTAATCAAATGGAATTAGATAGCATAGATTTTTTTGTAACATATAATAAAAATATATATTCAACAGATATAAATATAGAGTTTCATATATTTGAAAAAATCTTAGGGCATTATAAAAATCAAACAGATTTAGAATATGAAGAAGAAACTAAAAATATTATAGATTTTTTCAAGCAATATTTTCATCCAGGAACAGTTTTAGAGTTGTTAAAAAACTTTAAAAGTTCTAGAAAAGATGAAGTTAAAAATCAAATTAATTCTCAAATGAATTTGGCGATAAATGAGATAGCTTCAATAGAGATAGTAACTGATTATGAGGTTATAATAAAATCTAAGCAAGAAGAGGATGAAAATTATCTTGAAGCCTCTTTGGAAATAGATCCTTTTAATGGGAAAAAAGTTGCGGAATTAAAAAAAAGTGATGAAATATATATAAAATTAACTGATAATAGTGAATATGGTAGATTTATAAGTAAAACTATTGGGGCAAAAGATTCGCCAGTATTAAGACAGGTAGAAAGTATAATAGAAGTTTCAAAAGGAGCTTTAGAAACTAAAGAATATAAAATAGTAGTTAATATAGTAGATGATATTTATGCTAAAATATATGCTTCTGGAGAGATAAAAGTAAAAACTGACAAAATAGTTTTAAATAAAAAATTAATAGAAGAAGAGTTAAAAGAGTATGAAAAAGATGAAGAAGAAAAATTAAATTATGAGAAAAAATCATCAGATTCATTAGTTCTAATTGTTTTCATGATTATAATTATTATCTTAATAATGTTAGGAATAATAATGCTAATTAGATAATAGTATCATAAAATTAAATAAAATAATATATATTATGACAATATAATAAAAAGCGTTTAGTTTTTTATCTTAATTGTGATATAATATGTATAATTGCTCTTATGAAAATTATAAATTAGGAAAAAAATAATTTAATTCTATTATTTTGTTAACTAATAGAATCAAATATAGTAATTGGGTTAGAAAAATATATTTTTAAAATTTAAGTTGTTAGTTATTTGAGTATGTTTTATAAATTTTAGATATTTTTTTGCTATTTTATCATTTATGTAATGGGTAAAAAATATTTTTATAAGTTTATATTATGATTTAAAAGTTTTGGAGGTAAAATTATGATAGAAAATAAATCTCTTTGGATAGAATATAAAAAGAGTGGAAGTTTAGAAATTCGAGAGAGAATAATTTTACAATATATTCCTTTAGTAAAATATGTCGTGGGGAAAATGATTGGGAAGTTGCCTAAAAACATAGAATATGAGGATTTAGTTGAATATGGAATTATTGGACTTTTGGATGCAATAGAAAAATATGATATAACAAAAGAGATAAATTTTAAAACTTATTCTATAACTAGGATTAGAGGTTCTATTTATGATGAGTTAAGAGTACAAGATTGGGTTCCACGTTCTGTTAGAAAAATGGCAAAAGATATAGAGAAAGCTTATGTATTTCTAGAGGTTAAAAATGGAGAAATACCAAAAGATAGCGAAATAGCAGATTATTTAGGAATTACAGAAAAGGAATTGAATATTGTATTTTCAAAAGTAAATATGGGGAATATATCATCATTAGATGATGTTATATATAATAGTGGGGAATCTCCAACATTTTTATCTGAAACAGTAGAAGATAAGAAAAGTGATGGGGCTCAAAAAAATATTGAAAAAAAAGAATTGAAAGCAGCGCTTATAGAAAGACTCAAAGAAATTACAGAAAAAGAGAGATTGGTAATAACTCTTTATTATTATGAAGATTTAACATTGAGAGAAATAGGTGAAATATTAGAAGTTTCAGAATCGAGAGTATCTCAAATACATTCAAAAGCTATAATAAAATTAAGATCCAAATTAATTGCAAAATTTGGGGAATATAAAGGAATTATATAAATATTATGAAAATTTTTAAATAAAGGTGGATAAAAATGAAAAAGTATAAAGTGGCAGGAAGAAACTTAGAAACATTATTAAAAAAAGTAGCTGAAAAATTTAAAGTAAATATAAATGAAGTTGGATATAATATTATAGATAAAACTAATGAAAAAATAAGTTTAGAAGTATGGAAGAAAAAAGAGAATATTACTGTAAAAAATGAGGATGAAATTAATAAGTTTAAATTAAATGTAAGCGAAGAGGGGGTCTTTTTAACAATTGCTGAAGGAAATATAGATTTTAATGAAGTTATAGAATTTATAGCAGAAAAAGATATAGAAGCTCCTGATATGGAACAATTAAGTCTTGCGTTTGAAAATAGAAGAAAAAAAGTAAAAATAGCTGAATTTTACGAAGGAATATATAAAGAATCAGAAATAGAAGTAGAAGTTTCTCCTGATAAAATGAAAGCTTATATTATACTTTCAGAACCCAAAGGAATGAATTTACCAGTAAAAGAAAAAATTAAAACTAAACTTTTAGAAAATAAAATAATTTATGGAATAAAGGATCAATATATAGATGAGCTTTTAAAAAATAAAAAATTTAATATACCGCATTTAGTTGCAGAAGGTGATATGCCAGAAGATGGAATTGATGGGTATATAGATTATAAAGTTAAATCTGTAAATAAACGTTCACTGTTAAAACCAATGGCTTTAGAAGATGGAAAAGTAGATTTTAAACAATTGGAAATAATAGAAAATGTGGTTGAAGGTCAAGTTTTAGCTGTAAAAATACCAGCAGAACTTGGAAAAAATGGAAAAAATATTTTTGCAGAAGAGATAAAATCAAAAAATGGGAAAGATGTACCAATAAAATTAGGAAAAAATACAAAATTGTCTGATTCTGGATTTGAAATTATTTCTAAAATAGACGGTATGGTTTCTTTTTCAGAAGGTAAATTAAGTGTTGCAAATGTATATGCTACACCAGAAGTTGGGGTATTAACTGGGAATATAGATTTTGTAGGAAGTGTGATAGTAAAAGGTGATGTAAAAGATGGATATGAAATAAAGGCTGACGGCAATATAGAAGTGGTTGGGAATGTAGAAAAAGCAAAACTTATTTCAACTGGAGATGTAGTTATAAGAGGAAGTTTTTTTGGAAAAAATATAGGGAAAATTGAATCTAAGGGTGATATAGTAGTAAATTTTGCAGAATCAGCTATTATAGAATCTGAAAAAGATGTAATAGGAAATGAAGCATTTATGAATTGCAAGATATTTGCACATGGAAAAATGAAGGTTATTGATAAAAAAGGAGTAATTATTGGAGGAAAAACTTCTGCTGGTGAGGGATTAGAAGCTATAAATATAGGCTCTCATTTAGCTGTAAAAACAGAGATTGAAGTGGGAAGCAATCCTAAAATAGTAGAAAAGATTAAAAAGTTAGAATTAGAATTAAAAGAGTCTGAAAAAAAGATGAGTCAAATAGATAAAAACATTAATTTGTTGAATAAATTAAAGATGGCTATGAAAGAAAGTATGCCACAAGATAAATTATTACTATTAAAACAGTTATCAACAGCAAAATTTTCTATGTCAAAACATGCAAAAGAAATAAAATATGATATAGAAGAGAACAGAAAATTATCTGAAAATATAAAAGATGCAACAGTAGATGTACATGGTATTTGTTATCCTGGTGTAAAAATAAAGATTAGAAAAGGGACATATTTTGTAAAAGAAAAAATACAAAATGTAAGATTTTATTATGAGAATGCAGAGGTAAAAATAACAGCACTAAAGTAGACAGGTTTTTTTACCTGTCTTTTTTTTAAAGGAGGCGAGAAAATGGTAAGACCAATAGACCTTCAAGTAATAGCAAAATCAATAGATGAAGTAGCTAAAACAAGTAGAGCAAAAGAACAAAATTTAGTGGGGCAACAGATGAATGCAAAAAATGAAATGGCAAAAGAGATAAAAAAAGATACTACGATAATAAGAGAAAGCAATGAAACAGAAGGGAAAATAATAGATAATGATAATAAAGAAAGAAATAAAGAGAGAAATAAAGAGAAAAATTTAAAGGATAAAAATGAAAGAAAAGATAAGAAAGAAAAGAAACATGGGAAAGATCCAAATAAGGGGAAATTCATAGATATGGAGGGATAAAATGAATAAAATAGGATATTTTAAAATTCATATTAAAGAAGAAAATTATTTAGGTGGAATATTAATTTCTGATGAAAGAGGAATACCAGTAGAATTTAAATATACTGAGCCAGTAAAACCTACAAAAGTTCAAAAAGTTTTATATGGAAAATCTTTAGAAAAATTTTTGATAGAAGAGATTATCATGGCTAATTTAATAGAAAAAATAGAGATAGAACCAGCAATCTATTTTATAGATGATAAAATTAATATAAATATAAAAAGGCTTTTAAAAACAGATGTTGTAATGTTAAAGAAGACTCAATTAAAACCATCAAAAGAACCATATAAGTATAAATTTATAAAAGAAAATGAAGCTATTGTACAATTAGAAGAAGGGACTAATCCTATTAGGGTAATTATATTAGATGAAGATATAGAAAAAAAAGATGAATTAGTTCAAAAAATTATAGAGTTGTCAAAAGAGAGTTATATTATAGAACCATTTTTTAGATTAGAAGAAGCATTAGAAATGATATTAAAAGGCGAAATATAATGTGGCAAGATCTTTTTCATACTATAAAAAATGAATTGAGAGGACCTAAAATATATTCAAAAAAATTAGACAAACCTATCTTATGTATAAAACAATCTAAATTAGAAAAGGTTAGTAATATTAACAATCTGAATCTATATGATAGGATAGATATTATTGATAAATCATTTTCTAAAAAAAAATGTGAAGTAAAATCTGCAATTGCAAACTGTAAAGTTAATAGTAGTAATGGTGTAATAAAACTAAAAGAGGATATTTCTATAGATACTAATAAAATTTATACAAAATTAGAAGCTGTAGATATAAAAAAAATTGATACAGAAAGAAGCTGGAATGAAGCTTCTAAGGTTATTAATAAAAGTACGAAAATGTTTGTTAAGGTATTAGAGGGAAAACGAAAAATATTTAAAGTTCCTAAAATTATATATAATAATTTTGAGAAATATAGTAGAGAGAAATTATTATTAAATGTAAAAAAAAGTTATTTAGAGGAAAATTATGTGATAGGTGTATTTGCTAATATCGAATTTGAAAATATATATAATCTAAATTATGATAAGGGGAAAAATATATTAAAAATATATTTAAAAGAAAAACAGCAGAAAGTTAAATCGCATACATTAATAATATTGAAAAATATGAAAACAAAGAAGATATCTAAAATAATTATTTGAAAAAAATTATCTTTTGTGATAAAATAGACAAAATTATAATTAATGAAGTAATAAGAAATTATTATAGATTTAATACATGAAAAAAGTATAAAATAGAATGTTTTTTAATTTTAGGAATAAAATATATCGAGGAGGAAATAGTAATGAGAAAATTAATAGTTGCAGGAAATTGGAAAATGAATAAAACTAACACAGAAGCAGTGAAGACAGTAAGTGAATTAAAAGAATTAGTAAAAGATGTAAAGAATGTAGAAGTTGTAGTTGGAGTTCCATTTACAGCATTATCAGATGTAGCAAAAGAATTGAAAGACTCAAATGTGAAAGTAGCAGCAGAAAATATGCATTGGGAAGAAAAAGGTGCTTTTACAGGAGAGATTTCTCCATTGATGTTAAAAGATATTAATGTTGAATATGTTATATTAGGACATTCAGAAAGAAGAGAATATTTTGGAGAAACAAATGAAATTGTAAATAAAAAAGTAAAATCAGCATTAGCTCATGATTTAAAACCAATATTGTGTGTTGGAGAACAATTAGAAGATAGAGAATCTGGAAATACAGAAAAAGTTGTAGAAGATCATGTGGTTGGGGGATTAAAAGATCTAACTAAAGAAGATATGTTAAATGTAGTTGTAGCTTATGAACCAGTTTGGGCAATAGGTACAGGAAAAACAGCTACTCCAGCACAAGCAGAAGAAGTTCATAAATTTATTAGAGGACTTATTGCAAAATTATATGATGAAGAGACAGCAAATGAAATTACAATTCAATATGGTGGAAGTATGAAACCGGCTAATGCAGAAGAATTAATCTCTCAAAAAAACATAGATGGAGGATTAGTTGGGGGAGCAAGCTTAATACCAGAAGATTTTTCAAAAATAGTTAAAAGTGCAAAATAATTTGGAGGTGTATTATGAAAAAACCAGTAATGTTAATGATATTGGATGGTTGGGGAATTAATAACAATTTAGATGAAAAAAATGCTATAAGAGAAAGTAATCCTGAAAATTTTAATAACTATTGGAATAGTTACCCTCATACAACTATCTTAGCTTCTGGAGAAGCTGTTGGACTACCAGAAGGGCAAATGGGAAACTCAGAAGTTGGCCATTTAAACATAGGATCGGGAAGAGTTATATATCAACCATTAGTGAAAATTTCAAAAGAAATAAAAGATGGGAATATACTAAAAAATGAAGCTTTGTTAAATGCAATGAATAGTGCAAAAGAAAATAATAAGACTTTACATTTAATGGGACTATTATCTGATGGTGGAGTTCATTCACATATAGAGCATCTATTTGGATTATTAGATATGGCAAAAACATTGGGAGTAGAAAGTGTTGCAGTGCATGCTATTTTGGATGGGAGGGATACACCACCAAAATCATCTGTAAATTATGTAAAAAAATTACAAGAAAAAATAAAAGAGATAGGCATAGGAGAAATAGCAACAATATCTGGAAGATATTATACAATGGATAGAGATAATAGATGGGATAGAATAGAAAAAGCTTATGATGCTATAGTAAATGGTGCAGGAGATAAAACATTTAATCCAGTTAAGTCTATAGAGCTTGCGTATGAAGATGATATTACAGATGAATTTATAAAACCAACAGTAGTATCAGATAAAGCAGGGAATCCTCTAAATCCAATAAAAAATGGTGATAGTGTAATATTTTTTAATTTTAGACCTGATAGAGCTAGAGAAATAACAAGAGCAATTAATGATAAAAAATTTGATAATTTTACAAGATTAAACAATCCAAAGGTTAATTTTGTATGTATGACTCAATATGATATAACAATAGAAGCACCGGTTGCATATACTCCAGAAAGTTTAGATAATGTTTTAGGAAAAGTAATAAGTGATAAAGGGTTAAAACAATTAAGAACTGCTGAAACAGAAAAGTATGCTCATGTAACATTTTTCTTTAATGGTGGAGTTGAAGAACCTTTTAAAAATGAAGATAGAAAATTAGTATCTTCTCCAAAAGTTGCAACATATGATATGAAACCAGAAATGAGTGCGTATGAGGTTACAGATGGTTTACTAGAAGCATTAGATGAAGATAAATATGATATGATTATAGTAAATTATGCAAATACAGATATGGTTGGACATACTGGAGTATTTGAAGCTGCAGAAAAAGCAGTGAAAGCAGTTGACGAATGTATTGCTAAAGTTATTGAAAAAGTAAAAAGTAAAGATGGAATAGTTTTTATAACTGCAGATCATGGGAACGCGGATTTAATGGAAGATCCTAAAACTCATATTCCGTTTACAGCACATACAATTAATCCAGTTCCATTTATAGTTGTATCTGATGAATTAAAAAATGTAAAATTAAGAAATGACGGAAAATTATCAGATATTGCACCAACTATGTTAGGTGTAATGGGAATAGAAAAGCCAAAAGAGATGACAGGAAAGAATTTAATAGAGAAATAGGAGGATGAAATAGAATGACTATATTTTTAACAGCAATATTGTTTATATTAGCGGTACTTTTAATAGTATTAGTTTTGATTCAACCAGATAAAAGCCATGGGTTAGCAAGTTCATTTGGTGGTGGAGCTGCAAGTTCATATTTTGGAGTTTCAAATGACGGCGGACCGTTAGCTAGAGCAACTGAAATCGTGGCAGCTTTATTTGTAATCGTGGCATTAGTATTATATGTTATGGGGAATAAATAAAAAGTGCTTTATTAGGTATGCTAATCATAGCATACCTACTTTTTTAATACTATATAATTAATTATATAGTATTAAAAAAGTAGGTGAGAAGTTATAAATAATTATGTTCAAAGTTTTAGAAAAAGAGGGAATAGACCATTTTTTTAAGATATAAACTTTTTTATAACAGATTATCACTAATTTTAAAATTTAAGGTGAATAAAATGGATTTGAAAAAAATTAGTATTAAAAATATAGTTGTTATTATTGTAGGAATAATATATTTTGTTATTTCATATTTTATGTTTACAAATATTAGGAATAACTATTATAAAGTTTTAAAATCTAAATTTATTGATGAGAATAAGTATTCAGAAAAAAGTGCAAAGGAATATGTTGAAAAAGAAAAAGAAAGATTACTTACAGGTGCGAGAATAATAGCTTCTGATGAACAAACATACCATGCTTTTAAAAATAATATATATTTAAAAAATAAATATGTTATTTTTCCAAAGAAAATAGAGATAAAAACAACAAAATTTACTAAATATTGGCAAATAAAACTTGCTAATTTTCAAAAAAATAAATTATATGGGACTGGCAGAGGTTCGGAACCAATAGGAGTTGCATTTTATAGTGTTACATATAAATTAATGGGTAATTCTAGTGATTTTGAAAGAAAATTTATAGATAATGGAAATGAAAAGTATATAAAAGATGTGATTGCATTAAAAAATTTAGGAGGAGTAGGAAATACTTTAATACAAAAAAAAGAAAATGAGTTTTATATAAAAGCTTTAGCTCCAATAGGAAAAGATTCTAGATATTTTTATTCTTCGCCGTATGGAATAGTTGCTGTAGGAGAAAGATTAAATGGAGATTTTTTAGAAAAATTAAAAAAAGCAATAAATAGAGAAGTTATATTGTTTAATAATAACTTAATATACAGTTCAACATTATTTTATGATACAAATAGGTATCAAAATATTAGAAAAAATTTAGAAAAAACAAAAGAAAATGGAGAGTCAGTAGTAACAATATTAGGGAAAAAATATATAATCGATTGTTTCCCAATATATAATTATGATAAAGTAGTAATAGGATATATAGGAGTTTTGGATGATTTTGAAGTGCTAAATAAATTGAATTTGGAAAATAAAAAATTATTTTTAAAAATAGAGATTATAACATTTATTATATTAATAATGATAATTTATTTTGTATTAACATCTGCCTTAAGACCGCTAAATAAAATAATAGAAGTTTTACATAATATAAAAGAAGGGAATTATAAAAGAAGAATTTCAAATAAAGGTAGTTTTGGAGAATATCGAGAGTTAGTCAAAGGGATTAATGAAATTACAAACGCTGTAGATATAAGAGAAAATTCGTTAAAAAAATTAAACAGAGAGTTAGAAAATAGAGTGATGAAGAGGACAAAAGAATTAAATAATAAGAATTATGAATTAGCAAAAGCAATTGTAGAACTTAGAAAAAAAAGTAGAAAAATAAATGATGAAATGGAAATAGCTAAAAAATTACATAAAGAAATGTCTAATTTTGAAAAGCCAAATTTAAAATGTATAAATTTTTTATATAAAAATTATTCGGTAAATGGAATTGGTGGGGATTTTATTGAAATTTTGTCTATTGATGAAAATAGATATGGAGTATTTTTTGGAGATATAGCAGGGCATGGAGTTTCTGCTGCATTAATGATTAGTGCTTTGAAATTTGTAATAAGAACATATTTTAGGGAGTACAGTTCTCCAAAAGAAGCTTTATATTCTTTAAATGATATTATAAATAAAAATTTTGTAGATGGGATAACCCTTAGTTGTAGTTATTTTATTTTTAATAAAAAGAACAGCGAGGTGTTAGGATCTTTTGCATCGCAAGAAAAAGTATATATTATTGGAAAGGATAGAATAGAAAATATAAAAAATGATGCTATTATATTAGGTGTATTATCAAGTTCAGAAATAAAAGAAAGAGAAAACTTGAGATTTGAAGATAAAAAAATAAATTTGAAATTGGGAGAAAAACTATTTTTATATACAGACGGTTTGGTAGAAAATGGATATATTGATAGAGATGACCTTGAAGAAAAATTAAGATTATTGAAAAAGAGAAGTGGAAATGAAATTTTAGAAAAATTTGATGAAGAAATAAAAGAAATTTTAAGTTTTGGGATAAAGGATGATACAACTATTTTAATAATAGAAAAAGAATGTTAAAAAAATAGAGTTTGGGAAAATTTTAGATAAAAAATATGTATAAATATAAAAGAAAAAAAGTTGAAGTATTGTTAAAAAAATAGAGTTATGGTATAATGGGAGAGGAAAAATGAACAATCTATTTTATTCTATTTATAAAAATAAAATGCCGTTGGCATTTAGATTTAGACCTAAAAAATTAGAGGATTATATTGGACAAAATGAGATATTATCTGAAAATAAAATATTATTTAAATTAATAAAAAAAAAAAACATAGTAAATTCTATTTTTTATGGACCGCCAGGTACAGGAAAAACTTCTCTTGCAGAAGTAATATCCAATGAAGTCAATGGATATTTTGAAAATTTAAATGCTACAACGGCAACAGTAAAAGATATAAAGAATATAGTAGAAAATGCAGAAAAAAAGCTTAAAATAGAAGGAAAACAAACTATTCTTTTTTTAGATGAAATACATAGGTTTAATAAATTACAACAGGATTCTTTGTTACCATCTACAGAAAAAGGAACAATAGTTCTCATTGGAGCAACTACTGAAAATCCATATTATACTTTAAATAATAGTTTGCTTTCAAGATGCCTGGTATTTGAATTTAATAAATTAAAAAATAAAGATATAAAACAAATAATTAGAAATGTTGAACAAAAAATAACTAATAATAATATTCAAAAAATAGATGATGAAATTATAGATTATATATCAAAATTATCAAATGGAGATGCAAGGCAAGCTATAAATTATTTGCAGTTAATTATAGATTTAGATTTAGAATTAGATATAAAAGAGATAAAAGAAATATTAGGAAAAAATCGAATTAGTTATGATAAAAAAGAAGATAAGTATAATATAATATCGGCATATATAAAGAGCATAAGAGGAAGCGACCCTGATTCATCTATATATTGGCTTGCTAAAATGTTGGTTGGAGGAGAAGACCCTAAATATATAGCAAGACGTTTAATGATTTTAGCAGCAGAAGATATAGGGTTAGCTAATCCAGATGCATTAGTAATCGCTAATGCTGCATTAAATGCTGCAAAAGAGATTGGAATGCCAGAGATAAGAATAATTTTATCAGAGGCTACAATATATTTAGCAATATCAACAAAAAGTAATAGTAGTTATGAAGCTATAAACAATGCAATTAAAGATGTTGAAAGTGGAATAAATTATGAAGTTCCAAAACATCTTTTAAATATACCTGATTCTGGATATAAATACCCTCATTCATTTGAAGGGAATTTTGTTAATCAAAAATATGTAGGAAATAAAGTTTTTTATTATAAAGCGGGGAATAATAAAAATGAGAATATGATAATGAAAAAATTAAAAAAAATGTGGGAGTGGGACAATGAATGATTTTTTTGGTGTTTATCTAAAGGAGGCAAGAGAAGCAAAAGGAATAACAATTGAAGAGATAGCAAAAGAGACAAAAATACAAAAAAGATATTTAGAGGCGTTAGAGGCAGAAGAGTTTGAAGAAATACCAGGGGAAACTTATATTAGGGGGTTTTTAAAAAATTATTCTACATTTGTAGGATTAGATGTAAAGGAAGTTATTCAGAAATATGAGGAAACAAAAAAAACTCATGTGGAGTTAGAAGAAGAAAAGATAGTAAAAACAATAGAAAATAATAAGAAAAATTTTATTATTGGTGGAATATTATTATTGGTAATATTGATTTTTATAATTTTATTTGAAATTTCAAATAAAAAGGAGATTAAAATTGGGAAAAAAGAGGTTGAAACTTCAAATATAATTAGTAAAAAAGTAGTTGAAAAAAAAAATAGTGAAAATGGTGGCAACATCAAATTTAAAATAGTCGCATTTAATTTGATAAAAATAAAAGCAGAAAAAAAAAGTTGGATAGTTATAATGGAAAATAAAAAAAATAAATTTTCTGGTTTTTTAGAAAAAAATAAAAGCATAAATCTAAAAACAAAAAATAAAGTTATTATTAAAGTATATAAAAAAGGCAAAATTATAGTTGATTATAATGGAAAAAGAGAAGATTTAGGAAATGATAAGAAAGATATTTGGAAGGAGTTTTAAATTGGGTAAAAAGTGTAGTGTATTAGAGATAATGGATATAAATGAAGTTTTAGAAAAATATGTAGAAAACATAGAGTTTGAAAATATGAAAAAAATAGAACAACATATGAAAAGATATTTTAAAGAATATTTAACTATGGAAAACATGAATATAATTGATTCGACATTATTAGAAAAATTATTATTAAAAGCTGTTAGGGAGGAGCAATAATGGCATTGAAAGCGGTTAGAGGAACGAAAGATATATATGGAATTGATTCTGAAAAATTTAGAGAAATAGTAAATAAAGCTGTAGAAATTTTTAATAATTATAATTATGAACAGATAATTACTCCAATTTTTGAAGAAACTTCTCTTTTTCAAAGAGGAATTGGAGAAGGAACAGATATTGTAGATAAAGAGATGTATACATTTATAGATAAAGGAAAAAGAAGTATCACTCTTAGGCCAGAAGGGACAGCTTCTGTTGTAAGGGCATTTTTAGAACATAAAATGTATGGGGAAAAAAAATTAAAAAGGTTCTTTTATTATGGACCAATGTTTAGATATGAAAGACCTCAAACAGGTAGATATAGAGAATTTAATCAAGTGGGAGTAGAGGCTATTGGAAGCTATTCACCAGTTTTAGATGCTGAGATTATTGCAATGGGATATGATTTTTTAAAAAAAATAGGTATAAATGATATAGAAGTGCAAATAAATTCAGTAGGATGTCCAGTTTGTAGGAAAATTTATAGGGATAAATTAAAATCATTTTTAGAAACTAAATATGATAATTTATGTGAAGATTGTAAAATTAGGTATGAAAAAAATCCTCTTAGAGTTTTGGATTGTAAAGTAGAATCTTGTAAAAAAGAAACTGCAGAAGCTCCTATTATAATCGATTATTTGGATAAAGATTGTAAAGAACATTTTGAGGAAGTAAAAAAATACTTAGATATATTTAAAGTACCATATAAAATAAATCCTAGATTAGTAAGAGGGCTAGATTATTATACAAATACAGTTTTTGAGATAGTGACAAATAAATTAGGTGCACAAGGGACTGTATTAGCTGGTGGGAGATATAACAATTTGATAAATGAAATGGGAAGTAAAGATGTTCCATCAGTAGGGTTTGCAGCTGGGATAGAAAGACTTATGATGCTTGTAGATAAAGAAGCAGATGAAATAGAAAAGGGTGTTTATTTAGCTTGGATAGGTGAAAATGTCAAAGAATATGCTTTTTTTATATCAAAAATTTTAAGAGAAAATGGTATAAAAGTTATTATAGATTTTGAAGAGAAAAGCATGAAAGCTAATATGAAAAAGGCTTCTAAATCTAAAGTTACACATGCTGTAATTATAGGAGAAGATGAAAAGAAAACGAAAAATATGATATTGAAAGATTTAGAAACAGGAGAACAAGAACTGTATGATTTAGAAAATATTATAATTAAACTGAAATAAATAATTTAAAAATAAGAATATAGGGGAGGAATGGTAATAAATGTATTATAGAACGCACGCTCTTAATGAATTGAGTAAAAAAAATATTGGAGAAAAAGTAACACTTTCAGGATGGATAAATACAAGAAGAGATCATGGAGGGGTAATATTTATTGATTTAAGAGATAGAACAGGAATGACGCAAATAGTTTTTAATCCTGAATACAATGCAGAAGTACATAGTAAAGCTCATGGACTTAGAAGTGAATATGTACTAAAAGTTCAAGGAGAAGTAAAAGCTAGAGATGAGATAAATATAAATCCTAATTTAAAAACAGGAGAGGTAGAAGTTTTTATAAATGAATTAGAAATTTTAAACAAATCAGAAGTTTTACCTTTTGAAATAGATGATAATACAACAGTTAATGAAAATATTAGATTAAAATATAGATATCTTGATATGAGAAAACCTAAAATGTATAATAATTTACTAAAAAGAAGCAAAATGATAAATTCTATGAGAAACTTTTTTATGGAAGAAGATTTTTTAGAAGTAGACACACCAGTATTAACTAAATCTACTCCAGAAGGAGCTAGAGATTTTTTAGTTCCAAGTAGAATGAATGAAGGGAAATTTTATGCATTACCTCAATCTCCACAACTATTTAAACAAATATTAATGGTTGGTGGAATAGAGAGATATTATCAAATAGCAAAATGTTTCAGAGATGAAGATTTAAGAGCAGATAGACAACCAGAATTTACACAAGTGGATGTAGAGCTGTCATTTGTTACAGAAAATGAGATTATGGATATGATGGAAAAATTATCTAAAAAAATAGCTAAAGATGTTGTTGATGTAGATATTGATTATAAATTTGAAAAATTAGATTATAATATAGCAATGGAAAAATATGGTTCAGATAAACCAGATACAAGATTTGGATTAGAATTAGTTGATTTAACAGATATAGCCAAAGAATGTGACTTTAAAGTATTTAGAACAGTTGCACAAAAAGGCGGATTAGTAAAAGGAATTAATGCAAAAGCTGGTTCAGGAAAATTATCAAGAAAAATAATAGATGATTTGACAAAATTTGTATCTATTTATGGAGCAAAAGGGTTAGCTTGGATAAAAATTAATGAAGATGGAAGTTATGCTTCTGTAATAACTAAATTTTTCTCTGAAGAACAAGTGGAACAACTTGTTAAGAGAATGAATGGAGAACCTGGAGATATATTATTTTTTGTTGCAGATAAACCAAAAGTTGTATATGATTCTTTAGGAAATTTAAGATTACAATTAGGAGAAAAATTAGATTTGATAAACAAAGATGAATATAAATTCTTATGGGTTGTAGATTTTCCTCTTTTAGAGTGGAGTGAAGAAGAAAAAAGATATAAAGCACAACATCATCCATTTACAGCAATAAAATCTGAAGATATGGATTTAATGGAAACAGCTCCAGAAAAAATAAGAACTGTAAGTTATGATTTAGTATTAAATGGAAATGAAGTTGGTGGAGGAAGTCTTAGAATTCATCAAGAAGAAACACAAGAAAAAGTGTTTAAGTTATTGGGATTGGAAAAGGAAGAAGCAGAAGAAAAATTTGGATTTTTCTTAAACGCTTTTAAATATGGAGCACCACCTCATGGCGGTATTGCGTTTGGATTAGATAGATTTTTAATGGTATTGCTAAAAGAACAATCAATAAGAGAAGTTATACCATTTCCTAAAACGCAAAAAGGCCAATGTCTAATGACAGAAGCTCCTTCGGGAGTAGAATTTACACAATTAAGAGAATTAAACTTAAAGAGTACATTAAAGAAAAATTAAAAATAATTAAAAATAATTAAAAAATATTTCTGGGTTGTTCGCTTCTTTTTTGATATTTTGGCCTAATACCATATATCCGGAAACTAGCTCTTAATATTGTAACTCGGGTTAGTCACGATAGTTTTAACACAGGCTATACGGACTCCGTATGCATTATTAATCTGATTCCACCGTGTCCTTGAAGGACCAAAACAAAAAAAAGATGACGGCAACCTGGATAAATTACCAGTAAAAATTATTAGTAATAGTTTTTACTGGTAATTTGTTTATAAAACAATAGTTTTTATGATAAAATTTTATACTGGAGGAAAAAATGTTATTAAAAGAAAAAATTAAAAATTTAATAATTGAAGTTTTAAAAAATAAAAAAATAGAGTTAATAGAGTTTGAAGTAGAAAAACCAAAAGAAGAAAAATTTGGAGATTTTTCTTCAAATATTGCTATGAAATTAGCTAAAATATTGAGAAAATCACCAAGAGATATTGCAAATGATTTAAAAGAAGAGTTAGAAAAGAAAGATGAATTTAAAAAGGTAGAAATAGCAGGAGCTGGATTTATAAATTTTTATTTAAAAAATGATATTATTTTAGGGATATTAGAAGAAGTATTAAAAACAAAAGATGATTTTGGGAAATTGGAAATTGGAGAAAACAAAAAGGTTATGGTTGAATATATAAGTGCTAATCCAACAGGACACTTGCATGTGGGGCATGGAAGAGGGGCTGTAGTTGGAGATGTTATTGCAAACAGTTTGATTGCTGCAGGATATGATGTTTTGAAAGAATATTATATAAATGATGCAGGTAAGCAAATTGAAAATTTATCTAAATCAGTATATTTAAGATATAAAGAGGTTCTTGGAGAAAAAATAGATTTTTTAGACAATGGATATAATGGAGAGTATATTTACGATATAGCAAGAGAAATTAAAGATAAATATTCAGGAGAAAAAAATAAAGAATTTGATAGTGTAAAAGATTTCTTTACTGAATATTCTTTAGAGTGGTGTTTAAGCTCAATAAAAAAAGATCTGAATGATTTTGGAATAAAGTTTGATAATTGGTTTAGTGAAAAAAGTTTATATGAAGATAATAAAGTTTTGGAAACTATGAAAGAACTTGAAGAGAAGAAATTTATATATGAAAAAGATGGAGCTAAATGGTTTAAAACTACAGATTTTGGAGATGATAAAGATAGAGTTGTAATTAGAGACAATGGAACTACAACTTATTATGCTTCAGATATTGCTTATCATGAAAATAAAATAAAAAGAGGCTATACAAAGTTAATTGACGTTTGGGGAGCAGATCATCATGGATATGTTAAGAGAGTGAAAGCTTCATTAGAGGCTTTGGGATATAGTGAAAATGACTTAGATGTAATATTAGTTCAAATAGTAAATCTTTATAAAGATGGGCAGCCTTTTGTAATGTCAAAAAGGACAGGGAATTTTATAACTTTAAGAGAATTAATGGAAGAAGTTGGAAAAGATGCTGCTAGAATATTTTTTATAATGAGAAGCAGTGATAGTCAATTTGATTTTGATTTAGAAGCAGCAAAAGAACAGTCTTCTAGTAATCCAGCATATTACATTCAATATGCCCATGCTAGAATATGTTCAATATTAGATAAGGCAAAAATAAATCTTGACAAACCCAGAAATTATAAGCTAGAATTAATAAAAGAAGATGAAGAGATAAAACTTATAAAAAAGATGGATGAATTAAAAGAAGTAATAGAATTGGTATCTAGAAATTATGAAGTACATAGACTTGTAAAATATTCACAAGAATTAGCAGGGCTATTTCATACTTTTTATAATAAACATAAGGTATTAACAGAAGATGAAGAATTAACAGAAGCTAGATTAGCATTACTGTTAGGCGTTAAAATAACTCTAAAAAACATTCTAACTATAATGGGAGTATCAGCACCAGAAAGAATGTAAACTAGTTGGTTTTAGGGGGCAAGTATGGAAAAAATATTTGAACTGAAAATAGCTGCATATTATAAAAATATAAAAATAATAAAAAATTTAACAGAAGCAACATTAGATCTGTTTGAATTTGATTCGAATACAAATTATATGTTAAAATTAGCTGTTGCAGAAGCTTCAGCGAATATAATAGAACATGCATATAAAAAAGAAGTAGATAAAGATATAATCTATACTATAGAACAATATGATGATAAATTGGTATTTATATTTAGAGATTTTGGAATAAAAACAGACATTAAAGATATAAAAAGTAGGGAATTGGAAGAATATGAAGAGAATGGATTAGGAGTTTTTCTGATTACCTCAATAATGGATGATGTAAATTATTTTCAGTTAGAAGATGGAACAAGGCTAGAGTTGACAAAATATTTTTCAGGAGATGTAAATAATGAATAATGGTAATAAAATAAAGGTTGAAATAAAAGGAAATAGAGGATATATAATTTTAGATCAAAATATGTCTTCTAGAGAAATACGTGATTTAAGGAAAGTGTTTGAAGAGCTTGAACAGAAAGATATTATTGATATCTATATTGATATGAATAAAGTTTATCATATAGATAGTTCTGGCATTGGAATTTTTGTTATGTATTTGAAAAAATTAAAGGAAAAAAATGGTAACTTAAGTTTAATATCTCCAACAGAAGATATTAAAAGAATATTGAAGCTTGTAAATTTAATTTCTTATTTTGATATAATAGAATGATTGACTTCCCAAAAGGTATTTAGAAAGCTACCTTTTTGGGGTCTAATCATAGAATAGTAAAAAGATATTTTAATTATTTTAGATATAGTTTTAGGAGGGATAATTATGCTTGAAAAAGAAATAGTTAATAATAGAGTTATAGTTTCAATTGATATGGATTTTACAATTCAAGAAGCTAGAGAGTTAAAAAGAGAGATGAAAATATGGGAAGCAGAAGATATTATTAATGTAGTGCTAGATATGTCAAGAGTAAAATATATAGATAGTTCTGCTATTGGAGTGTTAGTAACTTTGCTTAAATATACAAAGAAACAAAATGGAAGTTTAAAATTATATTCTGTTGGGGATGATGTTATGAGAATATTAAAACTTGTAAATTTAGTATCATTTTTTGATATAACAGACAAACTTGAATAGACCTATTTATTTCTATGCAAACAATAAAATAGTAATGACTATAAAGGGGAGTTGTTCTATTTTATAATTTCTATAGAGAAATAAAGGAGGCAAAATATGAAAGTAGTATCGTTTGAATTAGGAGAGGAAAAATATGCTGTTCAAGTGAAAGAAATTGGAGAGATAATAAGAGTTCCTAAAATTGAAGAAGTTCCTAATGCAGAGGAATACATAGAAGGGGTTATAAATTTAAGGGGAGATATAGTACCAATACTTAATTTTAATGTAAAATTTAAATTGCCTCAAAAAAAACTGGATGAAGATAGTAATATTCTAATAATCAGAGAAGAAGAACAAAACGTTGGAATACTTGTAGATAAAGTAGATGAAGTTATAAATTTAAATGAAAATAAAATTGTAGAGGCACCGGAACTTTCTATAGGAATTCCAAAAGAAAGTTTTATAGGAGTTGTAAATTATTTAGGGAAATTATTAATTTTATTAGATATAAAAAAGCTTTTATCCATTACAGAAGAAGGTGAAAGAAATGGATGAAAATTTTGATATGAGTCAATTTAGAGGGGATTTTATTGAGGAAGCAAATGAAATCATAGAAAAATTAGATAAAGAACTTTTAGAATTGGAAAAAGCTCCAAAAGATTATGAACTAATAAATTCTATTTTTAGATCTATACATACTTTGAAGGGTTCATCTGCTTTTTTAAATTTTACAGTAATGGGAGAATTGGCCCATAAAATGGAGAGCTTGTTAGATAAATTGAGAAACAAAGAGATGTTTGTAGATGAAAAGATAATAAATATCTTATTAGAAGGAATAGATAAAATTAAATTAATGATAAATGATATTATGAATAATGGTAATGGGGAACAAAATATAGATGAAGTATTAAAAAAAATAATTGAATTAACTGAAAAAAAAGTTGTAAAGGAGAATTCAAAAGAAGAAAATATAGAAAGATCAATAGATACAAAAATAGATAAAATATTAGAAAATTATAATCAAGAGAATATAGAAGAAATAAAAATTAAAAATTCACAAAAAATAACTTCAATAGAAAAAGAAAAAAATATAGGCGAAGAAAAAAAGAAAATAGAATCACATTTAATAAGAGTAGATACAAGAAAAATAGATGATATTATGAATTTAGTTGGGGAACTTGTCACTGGAAGAAATAGGCTTTTACAAATAGGTTCTAAATTTAAATCAGAAGAATTAAATGAAAATTCAAATTTTATTAGTAGATTAACAACTGAATTACAGGGCTCTGTTATGAAAATGAGAATGATACCGTTAGAGAAAGTTTTTAATAAATTTCCTAGAGTAGTGAGAGATTTATCAAATAAATTAAATAAAAAAGTCGAATTTGAAGTTTCTGGACAAGATACAGAGCTAGATAGAGTAGTATCTGAAGAGATATATGAACCATTAGTTCATATGATAAGAAATGCTTTGGATCATGGAATTGAAACTCCAGAAGAAAGAATGGCAAATGGGAAAGTTGCAACAGGACTAATATCTATAAATGCCAAGCAGGAAGATAATTTTGTATTTATAGATATTAAAGATGATGGGAAAGGTATAAATTCAGATATTATAAGAAAAAAAGCTTTAGAAAAAGGAATATTAACTCAAAAAAAGATAGATAATATGGGAAAATATGATATTATTAATTTAATATTTCATCCTGGATTTTCAACAGCAGAAGAGATAACGGATATATCTGGTCGTGGAGTAGGGATGGATGTTGTAAAAACAAGCATAGGAAAACTAGGTGGAATTGTAGATGTTATAACTGAAGAGGGAAAAGGGACTACTTTTAGAGTTAGATTACCACTTACATTAGCAATAATGCCTGTATTAATAATAGGAATTTCAGATAAAAAATATGCTATACCGCTTAATAATGTAATAGAGACAAGAAGAATTAATAAAAATGAGATACAAACAATATCAGGAGAGCAATTAATATTTTTAAGAGAAAAAACTTTAAATATAGTTTATTTAAGTAGTGTATTTAATATTGAAGAATTTGAAAGAGAAGAAGAAAAAATAAATTTAGTTATAATTGGTTTTGGTGAAAAAAGAGTGGGATTAGTAATTGATGAAATGTTAGGGAAACAAGAAATTGTAATAAAACCACTTGGAAAATATTTAAATAATGTAAGTGGAATTAGTGGAACAGCAATTCTTGGAGACGGCAATATAATAATGATTTTAGATTCTAGTTTAATAGTTAATAAAGGCAAATCAAATGTAAAGATGAAAAAGATAAAATATAAAAATATAAAAAACAATGGGAAGGATTAAATGTATCGCTTTATATAGAAAAAACATTTAAAATAAAAAATATACTTAGGAACGGCTTAAAAATAACCTTCCGATTTTGTTTTAAAATACGCAATGGTTTAAGCGTTTTTATAACAAAAAATGAGAAACTTATTTTTTAAACGTTCCTTAAAGAAATAAAAAAAATATTTAGGAGGGGATAATTATGGCAATAGAGGAGAAGAGTGTAAAAGAATTACAAGTGGTGGTCTTTAAATTAGAAAATAGTTATTATGGTGTTCATATACTGCAAGTACAAGAAATAATAAAAATGGCGGATATAACAAAATTACCAAATACACCATATTTTATTGAAGGAGTGGTAAATCTTAGAGGGAAAATAATACCAGTAATGGACCTTAGAAAAAGATTCGGACTTTCTACAGTAGAGATAACAAGAGAATTTAAAATATTAATATTAAAAACAGAAGAATTAGAATTTGGAGTGTTAGTAGATGATATTTCAGAAGTGGAAAAAATTCCTGTAAATATAATTGAAAATCCGCCCAAAATAATTTCTGGAATTAATGGAGAATTTATAAATGGGATAGCTAAAACAGAGGGAAGATTGTTAATATTATTAGATATAGAAAAAATATTAAGTGTAGAGGAAAAAGAAGTATTGAAAGATATCGAATAAAAGGCGGATTTCCGCCTTTTATTTAGAATTAAGGGGAAAACAAATGAAAAAAATCATATTAATTATTAGTTATATATATTTTTTTAATATTTTATATTCTCAGGAATTAAAATTAAAAAATTATAATATGCAGTTAAAAAATATATTAAAAATAAAATCATTGAATGAGATAAGTAACGGAGAAGAAATAAATGAAAATATAAAAAAAACCTTAAATTTAAAAGTAACAAACTCAGAGATGATAGATTATTATAAAAATATTTTTAATAAAAATAAGCTGTTAATGTCTACATATGAGTATTATAGATACTATTACAAATACTATGAAAAAGGAATTATTTTAATTCAAAATTATAAAAATAAAATTTTAATATTAAGAGGTTTAGATATAAAAGTTGAAGGAATTTTAAAAGGAAAAATTAATTATAGTATGGCATATAGATTTAAAATTTATTTTGATCTAGAAAAAATTATAAAAGGTGAGTTGAGATGGTAAATTATATTTTTTTGGGAATAATAATAGTGTTAGTGATTTTATTAATAAAAGAGAGAGAAAAATCAAAAAAAGATATTAAAAAATTAATTATGAATATTAATGAGAATTTGGAAAAGATAAGTTATAAAATATATTTAAAAGTGAATGAAGAAGAAATTACAAATATGGATATAAAAACATTGGATAAAATTAAAAAAAGTGATAATGGAATACATGAGTTAAATGATGAATTTAAATTTATGAAGAAAGATAATATAGCGTACTTAAAAAGCAAGTTGTTATTAAATGAAATAAAAGAAATAACTGAAAATTTAAATTTAAAAGAAAAAGAGTTAGATTTAACTCGTGAAAAAGAATATTATTACTACAAGGATTTTTCAAAAAAATTGACCTATCTATTAAGTGAAATAGATAATCTTCCTATTTATGAAAATTTAAACTATTTTAATCCTGTAATATTAGGAATAAAAATATTGAAATATAAAATATTTTATTTAATAGATATTTTTAAAAATAGAGGGGATATAAGTATTAGAAAATATGAAATGATAAAAATGCAAGATTTTATTGAAATAATATCAGAAGAACTTGATTTTAATTTAAATGTAATTACTTCTAATGATAATATATTAAAATTAAAATTATATTTTGAAGTTGATAAAATAAAAAATTTAATTAAATTATTTTTTTATTCTATATTAAAGGAGTTTAAAATAAAAAAGGAGCTTAATTTAAAAATATGTTTAGAAGAAGATAAATTGATATTTGAATATGAATTAGGAAAAAATAATTTTAATATAGAAGATATAATAGATGAAAGTTTTATAAATTTATCAGAAATGAATGAAATGACTATTAATGTAAGTATAAAAAATGGAAATATAATTATATCGGATGATATTCGAAAAATAAAAGCAGATGATGCAATAGTAAAGAGTATAACGGTAAATTCTACATCAGAAGAGATTAGAAATGTGATGCAAACAATAATGTATGACGTTAATAGGGAAATAATATCTAATGAAAAAATCGCAGATATAAATTTAGTTGTTGATGAAATTTTACAAAATGCATTAGAACATGGGAACAAATATGAATTAGAAAAAAAGATAGTGGTGACTTATACTATTAATAATAGTGACTTTATAATAGAGGTATTAGATGAGGGCGATGGATTTGAATATGATGAAAAAAAAGGTATGGATATATTAGGGGAAAGAGGAAGAGGAATATTTTTAATAAAACAACTTTCAAAAAAAATAGAGTATTCTGAAAATGGAAGGAAAATAAAAGTTGTTATTGAAAAAGAGGTGTAAAATATGTTAATAAAAAAAGAAAAAATAGAAGAAAATTTAATAATAAGATTTATAGGAAAATTATCACAAGAAGAAGTTGACAAAATTTCTGGGAGATTAATTTATGATATAGGTGAAGATAATAGTAAGAATGTTATTATTGATTTTTCAGGCTTAGAATATATTAGTAGTTTAGGAATTGCTATGCTTATAAAATTATATAAATTTACAAAAGATGAAGAAAAAAAAATGATTATATATAATCCATCTAAAGAAGTTTTGAAAATATTAAATTTAACTAGAATAGAGAAAATAATAAAAATAGAGGTGAATTAATTGAAAAAAAATGATTTGGAGTTTTTGATTATAACTGGAATGTCTGGTGCAGGGAAAACTCAAGCTATGAATTTTTTTGAAGATAGAGGATATTTTTGCATAGATAATTTGCCAGCAACTCTTTTAAGTAATTTTATTTCATTATATTTCAAAAGTAAAGGGAAAATAAAAAAATTGGCTTTTGTTATAGATATTAGAAGCTGGGGATTTTTTGAAGATTTTTTTGAAGAGATAAAAAATTTGAGAAATAATAATATTAATTATAAAATATTATTTTTAGATGCAAAAAATGAAATTTTGTTAAATAGATTTAATTTAACAAGAAGAAAGCATCCTTTAGATGTATATAATACACTTTTAAAAAATATAGAGGAAGAAAGAAGAAGATTAGAAGACTTAAGAAATATGGCAAGTATAATTATTGATACAACTAATTTAACAATAAAAAATTTGTCAGAAAAATTAGAAAATGAATTTAAAGGAGAATTTACAAAAAAATTATCTATAACTTTTATCTCTTTTGGATTTAAATATGGGATTCCTATTGACTTAGATATGATGTATGATGTTAGATTTTTACCTAATCCATTTTATGTAGAGTCTTTAAAAAAGAAAACAGGGAATGATTTAGAAGTTCAAGAATATGTTATGAAAGCAGAAGAAAGCAAAGAGTTTTTTTATAAATTACAAGATATGATAAGTTTTTTGATTCCACATTTTGAAAAAGAGAGAAAATCTCACTTAAATATAGGAATTGGGTGTACTGGCGGCAAGCACAGATCAGTTACATTTGTAAACAAATTATATGATTATTTTTCTGGTTTTGGAAAATATCAAATTAGAATTTCACATAGAGACATAAATAAATGATTTAAATATAGGGAAATAACTTGATTTTTTAGGAGTAAATTATGATAAGTTTAGATGATATTCCAGAAAATCCTGGGATTTATATTATGAAATCTAAGGGTAAAATAATATATATAGGTAAAGCAAAAATATTAAAAAGAAGAGTTATGAGTTATTTTCATAAGAACCACGATAATGCACCGAAGACTAAAGAATTAGTAAAAAAAATTGAGGATATTGATTATATTTTAACAAATAATGAGATAGAGGCTTTAATACTTGAAAATAATCTTATAAAAAAATATAGCCCAAAATATAACATAGCTTTAAAAGATGAAAAAACATACCCATATATAAAAATAACAAAAGAAAAATTTCCTAAAATAGAAATTATTAGAAGTACAAAAAGAATTAATGGCTCAAAAGAGGAATTGTTTGGACCATATCCTATGGGAGTTTATAAATTTATAAAAGCTGTAAAAAGAGTGTTAAAATTAAGAGATTGTAAAAGAGATATGACAAAAATTTATCAAAGGCCATGTTTGAAATATAATATGGGAATGTGTAGTGGTCCATGTGTATATAAGAATGTTGAGAAAGAGTATAGAGAAAAAATTGAAGAATTAAGAGATATATTAAAAGGAAAATATCAAAATTTAATAAAAGAGTTTGAAAAAAAAATGTATGAGTATTCAGAAAAATTAGAATTTGAAAAAGCTATTGTTTATAAGGAAAAGATTGAAGCAGTAAAAAATTTGAAAAATAGTTTAACAATGGAATATGGTCAAAATGTAGATGAAGATGTATTTGTAGTAGTTCAGAAAAATATGAAAATATTTATTTATATATTAAATGTAAGAGAAGGGAAAATTTTAGGTAAGAATTTTATTGATGTAGATTTAAAATTAGAAGAAAATGGAGAATTAGATAATATATTTATACAATATTATTCAAAATTTCCAATGCCTAAAAATATAATATTAGAAGAGAAATTTGAATCTAGTGCAAAGATATTAGAGAGTTGGTCTAAAATTAGCAAAACTAAAAAAATAAATATATTTTTTCCGAAAATAAAAAGCAGAAGATTAAATCTTTTAGAAATGGCAAAATTAAATTTAAATAAGGAAATTGAAAAATTTTATAATAAAAAGGAAAATTTGGAAAGAGGATTATATAAATTAAGAGAAGAGTTACATTTAAAAAAAATACCTATGAGAATAGAATGTTTTGATATATCAAATATTCAAGGCAAGGATGCAGTCGGTTCAATGAGTGTTGCAATAGAAGGGAAAAACATTCCAAAAGAGTATAGAAGATTTAAAATAACAGTAAAAGATACTCCTGATGATTTTAAAATGATGGAAGAGGTATTAACAAGACGGTATTCAAAGTTAAAAGAGTATGAACTTCCACAATTAATTTTAATAGATGGTGGATTAGGACAACTTGGAATAGCGGAAAAAGTATTAAAGAGTGTAGGTAAGTTTGAATATTTGGATATTATAAGTATAGCAAAACGGGAAGAATTAATATATAAAGCTGAGGAAAAAGAACCTTATGTTTTTTTGAAAAGTGAAGAGGCATTAAAAATTTTACAAAGATTAAGAGATGAATCGCATAGATTTGGAATAACTTATCATAGAAAACTGAGGAGTAAAAGAGTTTTGAAAAGTGAATTAGATGATATAAAAGGGATTGGAACAATAAGAAAAAATAGATTATTAAAGAAGTTTAAAACAGTAGAAAAAATAAAAAAAAGTAGTCTTGAAGAACTGTCGGAGATAATTCCTACAGAGATAGCAAAAAAAATATTAAAATTAAAAAATTAATTTTAAAAAGTGGGGAGATGTGGATATGAATAAAAAAAAAGTATTAGTTATTGATGATGAACTAACAATTAGATTGGTGCTTAAGGAGTTAATTGAAGATTTGGGATATGATTTTTTAGAATCGGGAAGAGCCATGCAAGGAATTGAAATTCTAAAAAACAATAAAGTTGATCTAATTTTATTAGATATACAGTTACCACAAATGAATGGATTGGAAGCAATTCAAAAAATAAGAGAAATTAATAAAGAAGTTCCTGTATTTATGATTACGGCGTTTCATAATTTAAAGGATGTTGTAGAGATGCTAGATGTAGAAATTCAAGAATTTATTTCAAAACCATTTGATTTGGAAAATTTACAAAATAAGATGAAAGAATATTTAAAAGGAGATGAATAGAATGAAAAAATATAGTTCAGAATTAAAGGCAGGTATGAAATTATTAAAACCGGTATATTATGAAAATTCAATACTTATAAATGAAGATGTAATATTAGATAGAAATGCTATAGAAAAAATAAAAAAGTTTAATATATTAGAAGTAGATATTGTAGATGAAAATGGTTTAAAAATAGAAGAAGAATTAGAAAAAGAGAATATGTTAAAAGAAGTATTTGAATTAGAATATGAGAATTCTATAGAAAAAGCAAAAGAAATATTAGAAAATGCTGTTTCTAGTGGAATAGAAGCAGAAGAGATAGAAAATATAATAGGTGAATCTATTAAAAATTTAGAATTAGATTCAGATGTTTTAATTAGAATATTACAAGGTGAAAGTGCTGCAGACTATTTATTTCAGCATTCATTAAATACGGTAATTATATCTTTATTGATTGGAGATTCTTTGGGGTATTCTAAAGAAAAGCTAGAACTATTAGGAAAAGGAGCATTATTACATGACGTTGGGATGTTAAAAATAAAAAAAGAAACATTAGAAAAATCAGAAGATTTATCTTCAGATGAAATAATGGAAATAAAGAAACATACAGCTTATGGAGAAGAAATCATTGGTGATAAAATAGAAAAAGATGTTTTGGACATAATTAAATATCATCATGAAAAAATGGATGGAACTGGATATCCAGAAGGACTAAAGGGCAATGAAATTCCTGAAATGGCAAAAGTTGTAAATATAGCAGATATTTATTGTGCGCTTATAGAAAATAGAAATTATAGAGAAAGATATGATTATTATGATGCAATGAAAATAGTGATGAAATCATCTATAAGTTTAGTTGATGATAAAATATTAAAAAGTTTTTTAAAACGTATGCCAATATATCCAATTAATACAAAAGTAATATTAAATGATGGAAGAAAAGGAGTTGTTTCAAAAGCTAGTTCAAATCCATTTAGACCAATTATTGATATAGTTACAAAAGGAGTTGCAGAGAGAATTAATTTGACAGAAGAGGGAAATTTAACTAAATATATTGTTGGAGTAGATAAATGAGAAAAATAGTAGCATTAGTATTACTTTTTTTGTTTGGTTGTAGTAACATTGTATTAAAAAAAGAAGTTAAAGAAAAAATTCCTTTTAAAATAAAAAAAGGGGATTATAAAATAGTATTAAATCATATAAAATATCCAACTAAATATGAAGAAAAAGAAGTTTTTTTTAAGAAATTTGATCTATTTTTAAAAAAAAGTTTATTGGAAAATAAAAAAGATATAATATTGTTTGATATGAGTTTTTTTAAAGATTATGAAGAGATAGAAAACAGTGGGCTTTTACCTGAAGAGAAAATTTTAACTAAAGTAGCTTCTTCTTTAAATGAAGAAGAAAAGAAAAAATTGTTAGAACTAAATAAGAAAAAATATATAGAAAAAGATCCAGTACAAGTGATTTTAAAAAATCAAATATTAAAATTAAAAAATATTTTAGAAGATTCTACTTTTGATGAGAGTAAAATATATACAGAATTAGACAAAGAAGAATTAATTAATTTATTAAGGAATAAAAGAAAGATTCTAACTAAAGTTATCAAAAAATCTAAAATAGAGATGGTAGCATTGATAAAAAATCCTTATAAAAAAATAGATAAGATAAAGAGAAAATATTATACAAAAGATATAAATTTAAATGTAAAAACAGATTTAAGAGAGGATATAAAGAAATATAAATATCCTATTCTTATAGAGAATTTGAAAGATAGCGATTTTAAATTGATTTCTAACAGTGAAATTAATTTGAACAATAAAATAATTATACTTAAAAATAGTAAATATGTTGGATATGATTATTATAAAGGAAACTATATTTTTTATTATGGTGGGGTTGAAAAACATTATTTATATAACGATTATAATATAAATGTAATCTACAAAGATGTAACTTTGAGAAAATTATTGAGAAATAGTGAGGGAATAACTTTTAAAGAATTGATTGGAGGATAAAATGATATATTTTATAATATTGGAAATAATACTATTATTTTCTTTAGTAATTTTTCAATTTGATATATATATGAAATTCATTATATTTTTGTTTATATCTTTTTCTTTAATAGTATATGAAAGTATAAGAAAAAAAGATATTAAAGAATATTTTATAAATATATTAAAGAATATTTATAATGAAAAGAGTAGCGAAACTTTAGATATAAAAGAATTTGATAATGAAGTATTAGAAGTTTATAATGAAACAATAGAAAAATTCAACAAAAAAGAGTTTGATTTAAAAGAAGCAATGACGGAAATAAATTCATATAGAAATGAATTAGAAAAAGCATATAAAAGTTTAATTGCAAAATCAACAGAATTAGAATATACAAATGACCTTTTGGAAAAAAAAGTAGGGACTTTATCAAGTCTGAATGCACTTGGGAAATCGGTATTATCAGCAATAGATGAAAATAAAGCAATCGATATATTAATAGATACATATTTTATAATGACTTCAGCAAAGAAAATTGCTGTTTTTTTATGGGAAGATGGGAATTTATTAAATAAAGCTATGAAAGGAGAAATTAATTTTGTAGATTTTAATTATGATAATAGTGAAAATATAATTGCACTAAATGCTAAAGATAAAGTAGAATATAAAGAGTTAGCTAATAAAATGATACAAGCTGGAGAAAAAGTTGTATATAGTGAAATAGCAATAAAATCTAAAGCTTTTGGGGTAATATATATTATTGAGAAAGCTGATGAGAACTCATATTTAGAAGAAAAAGATATAATTTTAGCATTATCTATGTATGCGGCTATTTCATTAAATACGTTGGGAATGTATAAAGAAATTTCTGAAAAAAAACAAATGCAGAAAGAAATTTCAATTGCTGCAGATATCCAGAGAAACTTACTGCCTTCAAATATAAAAAATGTATTTGGATTAGAAATATCTAATTATTTTAAACCGGCAAAAGAGGTTGGTGGAGATTATTATGATTATTTTTTATCTGCAGAAGGTAAATTTGGTATTACAATAGGCGATGTAAGTGGAAAAGGAATACCAGCAGCTTTATTAATGGCGTTAGTGAGATCAGTTTTAAGAGCTGTAGCTTCATATGATATTTATCCAAATATTATACTAGAGAAACTGAATAAAATCATAGAAGATGATATATCTGATGAAAGATTTATAACTCTTTTTTATAGTTTATATGATCAAGAAACAAATATGCTATATTATTCAAATGCAGGACATAATCCTTTGATTTATTATAATAAAGAAGAAGATATGATAACAGAAGAAAACGTTAAGGGAGTAGCAATAGGATTTGTTAGAAATTATAAATATAAAATAGGGGAAATAAAATTGAATAAAGGAGATGTATTAGTATATTATACAGATGGAATAACAGAGGCTGAAAATAGCAAAAAAGAACTGTTTGGTATAGATAGGTTAAAAAATATTGTTTTTAAAAATAGACTAAACTCATCAGAGAATATAAAGGCAGAGATATTAAAAGAAGTTTCTAGTTTTAGAAAAAAAGCAATTCAAAGTGATGATATAACTTTGGTTGTGGTAAAGGTAGAAAGAAGGTGAATTAAATGTATAAAAAAGCAACAATAATTACAATAACTATAGCACTATTATTATTATTGCTATTAAATACAATAATTAATAATAATAATAACAATATATATAATAATGTTATAAATGAATTTCAAATTGAAAAGAGTAAAGGCATTAATGTTTTTTTGAATAAATTAAAAGAAAATAATATTTTAAAATTAAAAGAAATATTATTTTTAAAATCAGAAAAAAGTTTAAGCAAAAATTATAATTTATATATATTTAATTTATCTGGAGATTCTGAAAAAAAATATAATAATATGAATATTTATCCTACTTTTATGGAGTTTTTTAAAATTTTAGATAATAGAAACCAGGAGAAAGAATTTGAAATTTCATATTTTATTTTAGAGGATAATTTTTTATTATTAAGAACAATAATAAAATCTAAAGATAAATATTATGTGTTAGATAGCAATTTAAAAGAAATATTATTAAAAGAATTGTCTATAAATTTTTCTGGGAAATTTCTTTTAGAAATTAATGGGAATGAATTTCCTAAGGAAAATATAGAGTACTTTAAAACAAAAGACACATGTATAGCAAAGATAGATTTGAAAAATTTAGATGGATTTAAAATAGCTACAATAAAAAACTCTGAAAATTTAAAAGAGTATTTTAAAAATTCTAATATTTATAATTTTGATATATTGATATTGATAATTATAATTGGAGTCTTAATAGTAATAACAGCATTAATTTATAACATTGGAGATGATAGAGAAAAATTAAAAATAAAAAAAATAATATCAAAACTTTTGGAAGAAGATTCTGATTTTGTAATAGAAAAAAATTATATAAAAGATAGAGGCGTACTTGGAGAAATATTTAAAAGTTTAAATAAATTAAAGGGTAAGATTTTGAGTTCTAAAAATAAAATAGATTATTATAATAAAAAATTGGAAAATTCTTATAAAGATTTAAAAAATTATACATATATTATAGAATTAAAAAATAAAGAATTACAAGACAAATTAAAATCTTTTCAATTGATAAAAAATGTATTAAACCAAGGGATAAGAGAGATATCGGAAATTAATAATTTTTTTAAATCTTTTATGAAAGAACTTTGTGAGTATAGGAATTATAAAAGAGGTGAAATAATATATAAAAATACAATTGATTTTACATATGAAAAAATAATTTATGTTTCTGGAGAAGATAAATTTATAGAAAATTCATATAATGAAAATTTGAAATATTTGATTCCAGATAGAATAATAATAAAAGAAAACTATATAGAGATTCCTTTAATAATAAAAAATAAATTTGTGGGAAGTTTAAAATTTGAAGGGATAGAATTAGACGGAAATGTAGAAAAAACTTTATCTGTGTTAACAAATGAAGTAAATTTAATATTAGAAAATTCGAACTTATATTATAAGATGGAAAGAAAAATCATGGATCTTTCATTTTTAAATAGTATAGTTCTTGCTATGTCATCGGTTAAAAATATTGGAGAAATGAAAGATATGATGGAAGATTCCATAGCAATATTATTTGGAATTAAAAACTATAAGATATTATTATATGAAAAAGGATATTTTTTAGAATTTAAACAAGTAAATGATGATATTGTAAAAATAAAAAATAGTTTAGTAGAAGAAAAAAGAGCTTTTATAGAAAAAAAATATGAAATTATAAATATAAATGGAGAATATTATATTCCATTAGTAGCAAAAGAAAATTTAATTGGAGTCATTAAATTGTTAGGAAATTTTAATTTGAAAAAATTAGATGATAATATAGTTAAAATATTTTTAACACAAATATCTATAATATTACAAAATAACTTTATGATGTTAGAGCATAAAAAGCAAAATTTTAATATTATAAAAAGTTTAGCACAGTCAATAGATGAAAAAGATACCTATACTCGTGGGCACTCTGAACGTGTTATGGAATATGCAGTATCAATTTCAAAAAAGATGGATTTATCAAAAGAGTTTATTGAAAAGATTAGATATGCAGGTATTTTACATGATGTAGGTAAAATTGGAATTCCTGAAAATATTCTTCAGAAAAAAGGAAAATTAACAGACTATGAATATAATATTATAAAGCAACATCCTGAAAAAGGAGTAAAAATATTATCTCACATAAGCGAATTAGATGAAATTATAGATATGGTAAAGTATCATCATGAAAGACCAGATGGGCTAGGATATCCAGAAGGATTAAAAGGAATAGAAATACCTTTTGGAGCTAGAATTTTAGCTGTAGCAGATACATTTGATGCTATGACATCAGATAGACCATATAGAAAAGGGTTATCAATTGATATAGCTAAAAAAGAGTTAGAAAAATATGCAGGCACTCAATTTGACGAAGAAATAGCTAAAGTAGCTATACAAATGATAGAAACTGGAGAATTAAAAATTAAGGGGTAAAAATATGAAAATATACAGTTCTGACCAGATGAAAAATATAGATTTTGAAACGATAAAAAAATATATACCAGGTAATATTTTAATGGAACATGCAGGAATAGAAACAGTAAGAATAATAGAAAAAAAAATTCAAAATTTGTCAGAAAAAAAAGTAATAGTTTTGGCTGGGGCTGGAAATAATGGTGGAGATAGTTTTGTTGTTGCAAGGGGATTATCTTCAAAAGTTTCAAAATTAGATATATATTTCATTGGAGAAGAGGAGAAATTATCTGAAGATTCTAGATTAAATTATAATATATGTAAAAAACTTAATTTAAATTTCATAAAAAACTTTGAAGAATTAATGGAATTAAATGAAAAATTTAAATATGATATAATTATAGATGGAATATTTGGAATTGGATTAAATAGAAATGTTATAGGAGAGCATTATAATCTAATAAGTTTTGTAAATAATTTGAAAAATAAATTTGTAATATCTTTGGATATACCTTCTGGAGTTAATAGTAATACAGGAGAAATACAAAAAATAGGGATAAATGCAGATTTAACAATTGCTTATCATGGTGGGAAATTAGGTCATTTTTTATATCCTGGTAGAGAATACAGAGGAAAATTATCCATTGTAGATATAGGAATACCAAATATTGTTGAAAGTGAAGATGATTTGGATGATATATACGAAATAATTAAAAAAGAGGATATAAAATTTAAAATTAGAAATAAAAATATACACAAAGGAAATGCTGGGAAAGTGGTATGTATTGGAGGTAAAACAGGATTTAGTGGAGCAATATATATGGCAAGTGAAGCAGCTCTAAATAGCGGAAGTGGATTAGTTTATTCTATTATTCCAAAAGGTATAAATACTATTTTAGAACAGAAAAGCACTGAAACAATTACAGTTCCAATTGGAGATGAGAAAAGGGAATATTTTAGAGCAATTGATTATGTTGAAACAATTAATTTTATAAATGAAATAAAACCAGATGTAATTATTTTAGGTCCAGGGATTGGAAGAGAAGAAGAAACAATAAATTATATATTAAAATTGTTAAATGAAATAAATGATATTAATATAGTGTTGGATGCAGATGGATTATATGCTATAAAAGATGATTTAGCCATATTATATGGAAAAAATATTATAATGACACCTCATATGGGAGAATTTAAAAGAATAATAAAAAGTGATATAAAAAATAAATTAGAAAAAGCTAAATTATTTTCTGAAAATTATGGAGTTATAACAGTATTAAAAGGAGCGGATACAATAATAAGCAATGGAAAAAAAACATATATAAATTTAACAGGAAATCCAGGTATGGCAACAGCTGGAACTGGAGATGTACTAGCAGGAATTATTGCTTCTTTTGTGGGACAAGGGTATAATAGATTAGAAGCAAGTAAAATTTCTGTTTTTTTGCATGGATATATTGGAGATAAAATAGCTGAATATGAATCAGAAGAGGGAGTAACTGCTAATAAAATAATAAAAAAAATAGGAGAATGCATAAAAGATATAAAAAAATAAGAGTTATAGATTTTTTTTGAAAAAACTCTGTATAAATTTGGAGGTACAGTGAAGCGGGGAAAAAAAGATTATAAAATTTTAATAGTCAGTGATGAAGATATGTTAAAAATATTTTCTGTATCGCAATTAAAAGAGAAGTTTGGATATGTTGATTTTATTATTTCAGCAGGAGATGTGAGCAATGGATATTTAGATTATCTATTTTCTGCATTAGATAAAGATGTTATATATGTAAATGGAAATCATATCTATGAACAAAATCATAAAATAGAATTTTGTAAAAATATAGATGGGAAGATAATAAAATATAAAAATATAAAAATTTTGGGATTAGATGGTTCAAGAGTGTATTCATTTGGAGAACATCAATATACGGAATATGGAATGTGGAAAAAAATATTAAAGCAGATAATCAAAATAGCTATTAGAAGACCAGATATAGTAGTAACACATGCTCCAATAAGAGGAATTCACGATAAAGAAGATCATGTACATAAAGGATTTCGAGCGTTTAGGTATATATTGAAATATTGTAAGCCTAAATTATGGATACATGGACATATTCATCTTTCTAGTCAATATGAAAAACAGGAAACAATAGTAAATGGTACAAGAATAATAAATGCATATGGATATAAAGTTATTGAATTAAAAAAATGAGGTGATAAAAATAGAAACATATATTGATGCAAAAAATTCATATTCAAAATTTTTAAAAGAATCAAAAGGTTTCTTATGGTTTGGTAAAAAAGATGAAAATTTAAAAAGTTTTATAGAGGTTCAAAAAGAAAATAGTGCATATACAAGCGTTAATTTAGGAATAAAAGATGTTTTAATAAAAGATATAAAAGGTAGTGTTCAAAAATATATGGATTTTAATAAAAACTTTGTACCTAAAAATAGTGTTATTGAAGAAAGATGGTGTAGTATTTATTTGGCATTTGTAAATGAAAAACCTTTGCCACCTTTGGAGCTATATAAAATAAAAGATGAGTATTTTGTATATGATGGAAATCATAGAGTTTCTGTTGCAAAATTTTTAAATTTTGTTAGGATAGAAGCAGAAGTAAAAGAATTCATACCTTCTCCAACTACCAAAGAAAATGCTATTTATAATGAAAAATTTAATTTTGAAAAAAAGACAGGATTAAATAATATTAATTTTACAGAGATGGGACAATATAGCAGATTGTTAAAGGAGATAAATGACTACAAAGAATATGTAGAAAATTTCGAAAAAAAATCATTAGATTTAGAAAAAGTTTCAAAATTATGGTATGAAAAAATTTATGAACCATCAATAAAAATTTTAGAAGAAAACAATATATTATCTAATTTTAAAGATCGAACTTATGATGACCTGTTTATATATTTATTAAATCACAAATATTTTACAAGTGAAAAAAAAGGAAGAGATATAGGGTTTAGTTATGCTGTTATTAATTTTATAAATATGTTAAAATTAGAAGATAGTGAAGATAGTATAATAAAAGTAAATGAAAAGGTTGAAGAAAATTTAGAAATATTAAAAGAAACAGATGCAAGAAAAAAATTGGATGAAGTAATAGTGAGAAAAGATGATATATTAAAAAAGGAAACAGGATTAAATTTTAAACATAACTTTTTAATAATTTTTGAAATTGATGAGTTTATGTATAAAAATGAAATAGAAGATTTTCAAAATGGGGTAAAGCTATGGTATAAAGATGAATTTATGGAATTTTTTAAATGTTTTAAAAAAAAGATAGCTTTCTTAAGTAATATGTATTTAGAAAAATTTAAAATAATAACAAAAAATAGAGAAAGAGCATACTATTCATTAAAAAATTATGCAATAAAACAGTCAAATTTTGAAAGTGAGTTATTAATTGCAAATTATATTTTAGAAAGATATATTCCAATTATAGATCAATTAAAAGAGGTTGAATTAGGTGAAGATGAATTTATAGAAAGTTATTTTGGAATAGAATCAGAATATAATTATATATCTAAATATGAAGATATATCTTTTAAAGATGCTAAGGAGCGTTATTTTAATTCTATAAATAAAAGTTATTTGCAATCACATGGTTGGTTATTATTAAGATTTAAAGATGAAGAAAGAAAAAAAGATATATTAGATTATATAATTAATAAATTTAAAGAAAAATTATTAAATAAAAATTTATTTGACGAAATAGTGAAAAAATATGGACCAATAAAAAGATATGGAACAGTTTTTAAGTTAGAGACTGCAATGAAAGTTTATGGAGATTCAAATTGGTTAAGTGAAAAAGTATTGAAAGATTTAGAAAAATTAAGCAACAATAACGAGATATTAACTGAATTTAAAACAAGAATAACTTTGTATAAATTAAAAGAAAAGAGAGAAATGTCATTAATAGATTTTTATGCGAGAGTTCTTAATTATGGTACTTATTTGGGAAAAGATATGAAATATGTGGATATAATTGATTTGGCGATAGAATATTTAAACAATTAAAATATTTGGTACTATCATTTATAATTGGGTATTGGAGGGGAGTAAAATGAAAATTAAAACGAAAGTATCCATGACAATATTATTAATATTAATTTTTATAATAGTAAATTTTATAGTAGTATTTTATACAATTAATCTAACAAAACAAGATAGTTTGTTAGTTAATTTATCTGGAAGGCAAAGAATGTTAACACAAAAAATTAGTAAAAATATTTTTAAATATATTAGTATAAAAGATTTAGTAAAAAAACTAGAAGTGGAAAAAGAGATAAAAGGTGAAGTGAAATTATACGATAACACTAAAAATGCGATATTATATGGTGGTATAACATTGGATGGAGTAGGTAAACCTGTAAAAATAATAAGAGCAAAGTTAAGTAATTCATATATTGAACTAGAAAAAACTTGGAAAGAGTTTAAAAATTCAATAAATAAAATTATGAGTGGAGATAAAAATGCAGTAAATTATATTGATATGAATAACTTGAAGTTATTAAATTTATCAAATGAATTAGTAACCGAGCTTGAAGAAAATTCACAACAGAAATGGAGACTATTAAAATTATTTGAAATAATTTTTGCAATTATAATAGGGATTGTAATGTTATTTGTATCTCTGCATATTAAATTAAAAATCATAAATCCGCTTAATAAATTATTGAGACTGTTAAGAAAGGCAGAAAAAGGAGAAACAAATATAAAAATAGATATTAACTCAAATGATGAAATAGGAGAAATTAGTAAAATATTTTCAAATTATTTTAAAGTATTGAATAAAATTGTAAATAATATAGTTCTAGTTTCAGAAAATATTAATAATACAAAAGATGGAATAAAAAAATATTTTTTAAATATAGAAAATAGTTTTGAAGATTTAAGAGAAAGTATAGGTACTACATCTGCAGCAATAGAAGAATTATCTGGAACGTCAAGAAGTATAGCAGATAATGCAGTTCATATGAATCAAAATGTGGATAAGACTAAAAATTATATAGAAAAGGGTATGGAAATTGTAAATAGTACAACAGATGAAATAAAAAATTTGAAAGAACATATTAATAACGGGAAAGACGAAGTAAAAAAATTGGGGATTAAAACAGATGAAATAGGAGAAATAGTAATAGTAATAAATGAAATTGCAGCTCAAACAAATTTATTAGCATTAAATGCAGCAATAGAAGCCGCAAGAGCAGGAGAACATGGAAGAGGTTTTGAAGTGGTTGCAGAAGAGGTAAAAAAATTAGCTAATAGAACATCTAATGAAACAAAAGAGATATCTCTTATGATAAAGGATATACAAGAACAAATGGAAAATCTAATAAAACAAATGGGAAATATAGTAAAAGGTGCAGAAAAAGGTGAGGCTATGGTAAATTCTACTAATAATATGTTTAGTAAAATAGAGGAAAAGGTGGAAGGAATTTCAATTATGACAAACACAGTATCTATAGGAGTAAAAGAGGAGTCAATTGCAATAGAAGAATTATCTATTCAAGGTGACAATATAATAAATAATTTAGATGAAAATAGTTATGTGATAGAAAACTCTTTGAAATCAGTAGAAAAATTAGAAGAATTATCCAAAAGTCTAATTGAATTAACTGAATTTTTTGATATAAAAAGTATATCAAAGAGAAATAAAATTGTAGAAAGAAAGAATAAAGATAATTATAAAGGAAAAGAGTATATAAATTGGAATTCTGATTTTATAATTGGAATAGAAAAAATAGATAAAGAACATAAAAGCTTGGTAGATACAGTAAATGAATTAATTAATGCAATTGAATTAGGGAAGTCAAATGAAAAAATATATAATATAGTGGATTTTTTAGTGAAATATACAGCAGAACATTTTGCTGATGAAGAAGAAATAATGAAGAGAGAAAATTATCCGGGATTAGAGGAGCAAAGGAAAACTCATAAAAAGTTTGTGGAGTTTGCTATCAATTTACAAAAACAATTAGAAATGGAAGGAATTAAGTCAGGAACAGGAATAAAAATTAAAAAATTTGTAGGAGATTGGATAGTCGAGCATATAAAAGGAATGGACAGAAAAATAGGGGAATATTTAGGAACAATATAAAATAGAAAAAGAGTTGAACTAAAAATTCAACTCTTTTTAATATATTTAAGAAAGAAGGCAAAATATGATATTAAAAACAAAAAGATTGTTATTAAAAACCTTAGATGAAAGTTATGCAGAAGAAGTATTAGAATTTTACAAAAAAAATATAATTTTTTTGAAAGAGTGGGAACCAGAAAGAAATAATGATTTTTATAAAATAGGAGTTCATAAATTAAATTTAAGAAACGATGTATTAAAAAATGAAAAAAAAGAGTTATTTAGAGTTTGGATATTTAGATCAGGAGAAGAAAAAATATTGGGTACAGTAGCTTTATCAAATATTATTTATGGAGTATTTAAATCTTGCCATTTGGGATATAAATTTGATAAGGATGAAGTGGGAAAAGGATATGCAATAGAATCGGTGAAAAAAGTTATAGAATATGGATTTAATGAATTAAAATTACATAGAATAGAAGCAAATATAATGCCAAAAAATAAAAGATCGTTAAATTTAGTGAAAAAACTTGGATTTGAAGAGGAAGGATTAGCAAAAAATTATTTAAAAATAAATGGGGAATGGGAAGACCATTTACATATGGTGAAATTTAATGAGAAAATTATTTAGAATTATATTTAAGCCATTTCTAACTAGTGACAACGCAGAGCCGCAGAGGAATCAGAGGTTCACAGAGGAAATAATTAAAAAATCTTATAATATGCGAACTTTGTATTCTCTGTGGCTTTGCGTTGAAGATCCTCTTTTCTTACAATTATTTCATGCTATCAATTTATTTTTTATCCTTGACAAACGTGTGTATTTAAGGTATATTCTAATTATAGGATAATTTTTAGTATAACTTTCTAAAAATATTGAGTATAGTTTTTGATAACTGCTATAAAAAAGTAAGTTATTTCTATGTTTCCTAAGTAACGTTTAAAAAATAAGTTTTTCATAATTTTTAAGCCTTACTGAATAAATTTTGGAGGTGCAAATATAATGTTTAAAGTTGCTTGTATAGGAGAAATGTTGATAGATTTCATATGTTCAGATATTGATGTTGATTTAGAAAATGGGGAGAATTTTACTAAAAAAGCTGGAGGAGCGCCAGCAAATGTAGCAATTGCAATAAGTAAATTAGGTGGGGAATCTTTTTTTATAGGTAAAGTAGGTGATGATCCATTTGGGAAGTTTCTTATAAATAAAATAAAAAAAAATGGAGTCGATATATCTTTAGTATCAATTGATAAAAAAAATAGAACTACATTGGCATTTGTATCTTTGCAAAAAAATGGAGAAAGAGATTTTATTTTTAATAGAGGTGCAGATGAAAATTTAAAATTTTCAGATATTAATTTAGAAAATTTAAAAGATGCTGGGATAATACATTTTGGATCTGCAACTGCACTTTTAGGTGGAAAATTGAAAAAAAGTTATGATAGCACATTAAAATATGTAAAAGAAAATGGAAATTTTATATCATTTGATCCAAATTATAGAGTTGATCTATGGAAAGATAGAATAGAAGAATTTATAGAAAAATCAATAGAATATGTTAAATATTCTGATTTTGTAAAAGTTAGTGAGGAAGAACTATTTTTATTAACTAAAAAAACAAAAAAAGAGGAAGCTGTAAAAAAATTACATTATTTAGGTGCTAAAATAGTTGCAGTAACGTTAGGGAAAAATGGAACTTTAATAAGCAATGGTAAAGAATCAAAAATAGTATCAAGTATAAAAGTAAAATCAATAGATTCAACAGGAGCAGGAGATGCATTTATAGGAGCTGTCTTGTATAAGATATCTAAATTAGAAAAAATAGAAGAGATAAATAATATGGAAACATTAGAAGAGATAGTAAACTTTGGGAATAAAGTTGGAGCGATAACTTGCACAAAATATGGAGCTATGGATGCTTTACCAACATTAGAAGAAGTGGAGGGGTAATTAATGGGGAGAGAATATTTAAGATTTATGAGTGAAATATTAGAAAAATTGCGAGACAGAAAAGAATATAAAAATATAGATTTTTCAATATTTTTTGCTAGATTTGGAAATAATTTTGAAATTTTATTTAATAATTTTAGAAGTTTATACGGGGATAGAAAAGATTTTGCGATAAAATTGGAAGAATTAATGTTTGTAGTGCAAGACTTTTATGTGAAAAGAGATGAAAGATTAAAAAAGATTGATTTAGAAAGAGAAAAAGAGCCAGATTGGTTTTTAAGTAATAATTGGGTTGAAATGATGTTATATATAGATAGATTTTCAAAAGATTTAAAAGGGTTTAAAGAGAGGATATCATATTTAAAAGATTTGGGAATAAATATAGTTCATTTTATGCCGTTATTACAGGCTAGAGAAGGAGAAAATGATGGTGGATATGCAGTAAGCGATTACACAAAAATAGATAGTAAATTTGGAGATATGAAAGATTTAAAAGATATTTTAAAAATATTTAGAAAAGAGAATATGTTGCTAGAATTGGATTTAGTTTTAAATCATACTGCTGATACACACGATTGGGCAAAACGAGCATTGGATGGAGATAAAAAATATCAAGATTATTATTATATGTATAATAATAGAGAAATTCCAGATAAATTTGAAGAAAGTTTGCCTGAAGTATTTCCTAAGACAGCACCTGGAAATTTTACATATAATAAAGAAATAAATAAATGGATTTTTACAGTATTTAATAATTATCAATGGGATTTAAATTATACCAATCCAGATCTATTTATAGAAATGACAAAGATTTTATTATTTTTAGCAAATGTAGGAATAGATATATTAAGATTAGATGCAGTAGCATTTTTATGGAAAAGAATTGGAACTAATAGTCAAAATTTGCCAGAGGCACACACAATATTACAAATGTTTAAAGCTTGTGCAAAAATTGTTGCCCCAGGAGTTGTATTTAAAGCAGAAGCAATTGTTCAGCCAGTAGAAATTGTTAAGTATTTAGGAGAAGGAGATTTAGAGGGAAAAGAGTGTGATATAGCGTACAATGCTTCATTTATGGTATTTTTATGGGATGCGATTGCTACTAAAAACACGAAACTATTACAAAAAGGACTTGAACATATGCCTAGATTACCAAAAGGAACTACTTGGGTAAATTATATTAGGTGTCATGATGATATAGGACTTGGATTTTCTGATTTGGATGCAATAGAATCAGGATATAATCCAGTATTACATAGAAAATTTTTATTAGAATATTATACAGGAAAATTTTATGGAAGCATGGCTTCTGGAATTCCATTTATGTATAATCCTAAAACTGGAGATGCGAGAATATCAGGAGAGTTAGCCTCATTATGTGGATTAGAAAAATCATTTAAAAATAAAAATTTTGATGAAATAGAAAAATCTATTGAAAAAATTATACTTTTGCATAGTGCAATAATGTCTTTTGGTGGGATTCCTTTAATTTATTATGGTGATGAATTGGGGATGACTAATGATTATAGTTATGAATTAGATGAAGAGAAAAAAGATGATAATAGATGGATACACAGACCTGTTATTGATGAAGAAAGACTGAATATAAGAAAAAAAATGGGTTCTATTGAAAATAGAATATTTGAAAACATAAAAAAATTGATAAAAATCAGAAAAAATACTCCTGAGTTTTATGGAGAAAATAATTATAAGATTGTAGGAAATGATAATTTAAACAGTTTTATATTTATAAAAGAGCATAAGGATAGTAAAATAATGGTAATAATGAATTTTTCTGATAGAGAACAAGAAATAGAATATAGCATTTTGATGAAAAATGGATTTTTTGGAGAAGTAATTGATAAATTTACAAATAAAATACCTGAAATTAGAAAAGGAAAAATTATAATAAAAAGATATCAATTTTATTGGTTAAAAGAAAAGGAAAACAGAGATTAATATCTCTGTTTTCCTTTTTAAATTTAATTTTATAATGAAATTATAAAGTAAAATTTCATTTGAAATAAAAGTGTAAATATGGTACAATATTTTATAATAGGGTAAGTGTTATGAGTATAAAAAACGAATAATTGATAATTAAAAAAAAGAAAAATTATTAATTTTTAATTTTGCATTATAAAAAAGGAGAATTGTAAATAGATGAATAAAAAAGCAATGGTAATAACGTATGGATGCCAGATGAATGTTAATGATAGTGCCAAAATAAAAGCTCAATTAACAAAACAAGGATATGAAATAACAGAAAACTTAAAAGATAGTGATTTAGTATTTATAAATACATGTACAGTAAGAGAAGGAGCTTCAAAAAAAGTATATGGTAAATTAGGAGAACTAAAAACTTTAAAAAAAACTAAAAAGGATATGATTGTTGGAGTAACTGGGTGTCTTGCACAAGAAAAAAAAGATGAAATTTTGAAAAGAGCACCTCATGTAAATCTTGTACTAGGGAATCAAAATATATATCAAATTCCAGAATATCTTAGTAAATTAGAAAATGATGAAATAAAACATGTTGTATTAGTAGATAATGAAGATGAATTACCACCAAGATTAGATGCAGATTTTGATTCTAATTTTTCAGGTTGTGTTTCTATAACATATGGTTGCGATAATTTTTGTACTTATTGTATAGTTCCGTATGTGAGAGGAAGAGAAAGAAGTGTACCTGTTAAAGATATAATTACTGATATAAATAATCTTTTGAAAAAAGGGTATAAAGAGATAATTTTATTAGGGCAAAATGTAAACTCATATGGAAAAGGGTTAACAAATGGTGAAAATTTCGCAAAATTATTAAAAGAAATATCTAAAATAGAAGGGAAATTTAGACTTAGATTTATGTCGCCACATCCAAAAGATTTTACAGATGATGTAATAGAATCAATAATAGCAGATGAAAGAATTAGCAGAAATATTCATCTTCCGCTTCAAGCAGGCTCAACTTCTGTTCTGAAAAAAATGAATAGAGGGTACACAAAAGAAGATTATTTGAAATTAGTTGAAAAATTAAGAAGTAAAATAAAAAATATTGCATTAACAACAGATATTATTGTAGGATTTCCATATGAAACTGAAGAAGATTTTAAAGATACTTTAGATGTTGTTGAAAAAGCAAGATATGAAAACGCATATATGTTTATGTATTCTAAAAGGGATGAAACTCCAGCGGCTACTATGGAAAAGCAAGTTAGTGAAGCAGAAAAAAAAGATAGATTACAAAGATTAATAGAAGTTCAAACTAGGATTACTAAAGAGGAAAGTAATAAATATTTAAATAAAGAAATAGAAATTTTAGTAGAAGGGTTGTCACCTAGAAATAAAGAGATGTATATTGGGAGAACTGATAGTAATAAAGTTGTAATATTTAAGGGTGATGAAACTCTTATAGGAAAATTTGCAACAGTTAAGATAAATGAAGCAAATACATGGACTCTTTATGGAGAGTTAATATAGGAATGGCTTAAAATGAATAGATATAAAAAATTTATTTTTCAAACGTTCTATAGGACTAGGGAAAATATTATATGGAGGTAATATATGAAAAAAGGTATAAGAGTATACAATTTATATCCAAAACTTATAGGTAGTATGGAGAAATGGATTGAACATTTTGACAGAATAAAAGAGATGAATTTTAATTGGATATATATAAATCCATTTCATTCGCCAGGATTTTCAGGTTCTGATTATGCAGTGAAAGATTATAATTTATATCATCCATTATTTGTAACTGGAGAAATGGATTTTTCAGATTTACATGGACAAAAAGAAAAGGGAGATTTTCTTTTAGAGAAAGTTTGTAATGAAGCTGAGAAAAAAGGTATGAAAATAATGATGGATTTGGTAATAAATCATACAGCTATAGATTCGCCATTAACAAAAGAACATCCTGAATGGTATATGAAAAATAGTGATGGAAGTATAAAAAATCCAGGTGCAATGGATGGAAATAATTGGATAGAATGGGGTGATTTAGCTCAAATTGATAATGAATATTCCATTGATAAGGATAATTTATGGGAATATTGGTTAGATATGATTTTGAAATATGCCAAATTGGGAGTAAGAGGATTTAGATGTGACGCAGCATATCATATACCAAGGAATTTATGGGAATATCTAATTAGTAATGTGAAATCTAAATATCCAGATTCTGTATTTATAGCAGAAACATTAGGATGTACTCCAAAACAACTGATTAATACAGCAGATGCAGGATTTGATTTTGTAATGAATAGTTTTAAGTGGTGGGATTTAAAAGCAGATTATTTTTTAAAAGATTATGGAGAATGGGCAGATAAATATCCTTCTTTAACTTTTCCTGAAAATCATGATACAGAAAGATATTCAAAAGAAATTAATGGGAATAAAGATTTAGCAATAGCTAAATATGCTTTAGGAGCTTATTTTTGTTCAAGTATAGCAATAACAATTGGGTTTGAATTTGGATTTGAAAGAAAAATAGATGTGGTCCAAACAAATCCTAGTTGGATGGAAGATAAAAAATATGATATTTCGAAAGAAATTTCTAGGATTAATCAGATTAAATCAGAATATGATATATTACAAGAAGACAATATTATAGAACCTATATATTTTAAAAATCATAATATTTTTGCATTTACAAAAGAAAGTTTAGATAAGTCAGAAAAAATATTGGTAATGATAAATAATGATGGAGAACATATTAATACAATCTATTATAATGGGTTATATAATTTAATGGGTGGAGAAAAAGTAATAGATATTTCTCACGGACATAGAATGGAGAATATTCCAGATAATTTTGAATATAATCTTTCTCCAGGAGAAGTAAAATTATTTTATATAAAAAAATAGTTGCCGATAATTATAAAGAGGTGGAAAAATGTCAAAAAATATATTAATAGTTGATGATGAAGTTGATGTTGTAGAGGTAATTGAAATGTTATTAAAGAATCAAGGATATAATGTTATAACTGCACATAATGGAATTGAGGCATTAGAAAGAATAGAAAAAAAAATTCCAGATTTAGTTATATTAGATATAATGATGCCGCAAATGGATGGGCTAGAAGCGTGTAAAAAAATGAGAGAAAATGAGAAAATGGAGAATGTTCCTATTGTTATGTTTTCTGCAAAATTATCAGCAGTTGATAAAAAAGAAGCATTTGAAGTGGGAGCAGATGGTTTTATTACAAAACCGTTTAATGCAAGAGGATTTATTGCAGGAATAAGAACCTATTTAGAATTAGGTCATATGTGAAAAGGAGTTGAATAATGGATTTTAATGAGTTGAAATATGAGGACGTTGTAAATTATAAATTAAAAGAGTTACAAAAATTAGGAAAAGAGTTAGGTATAGAAAAAGCATATAAATTAAATAAAGAAGATGCAATGCTAAAAGTAATTGAAGCTCTAGGAGAAAAAAAAGGAGAGCTTGTTGGTCATGGAGTTTTAGATGTATTACCAGATGGATATGGATTTTTAAGAAACAGCAGTCTTGGAAATGATATTTATGTATCTGCCTCTCAAGTGAAAAAGTTTTCTCTTAGATTAGGAGATATTGTAGCTGGAGAATGTAGAAAGCCAGTAAGTGATGAAAGTAATTTTGCAATATTAAAAATATTTACTATAAATGGGATTGATTTAGAAAAAGCTAAAAATAGACCTAAATTTGAAGATTTGATTCCATCTTATCCAGATAAATTATTAAAATTAACATCATCTAAAGATAAAGAAAATATACCTGGTAGAATAATAGAATTAATCTCTCCAATTGGATTAGGACAAAGAGGGATAATAGTGGCACCGCCAAAAGCAGGAAAAACAGTATTAATAAGTAGTTTGGCAAATGGTATTATTGAAAATAATCCTAATGTAGAAGTTTGGATATTGTTGATAGATGAAAGGCCAGAAGAGGTAACTGATATAAAAGAAAATGTGCAGGGAGCAGAAGTTTTTGCTTCAACATTTGATGAAGAGCCTAGAAATCACGTTAAAGTTACAGAAGCTATATTAGAAAAAGCAAAACGTCTTGTGGAAGATGGTAAAGATGTAGTAATATTAATGGATAGTTTAACTCGTCTTGCTAGAGCATATAACATAATTATACCATCAAGTGGGAAACTTATATCTGGAGGTATTGATCCAGGAGCTTTATATTTTCCAAAGAATTTTTTTGGTGCAGCAAGAAATATAAAAAATGGTGGAAGTTTAACAATATTAGCGACAGCTTTAATTGATACTGGAAGTAAAATGGATGATGTAATTTATGAAGAGTTTAAGGGTACTGGTAATATGGAAGTACATTTAGATAGAAATTTATCAGAACTTAGAATATTTCCAGCAATTGACATTAAACGTTCTGGAACTAGAAAGGAAGAACTGTTATTAAGTGAAGCTGAATTAATGGTAATATGGAGAATGAGAAGATTTTTAAGCAAATATTCATCAGCGGAAGCTACAAAACGATTAATAGATTTATTGAAAAAAACAGATAATAATGCTTCAGTTTTAAATCATTTTTTGAAGGGCGGAGATTTTAATGGCGACCAATCTAAGTAAACGGAAAATTATTAAAATATTTGTTTATATAATGTTATTTTTTTCAACTGTGTTTATACTAACAATAGTTAAAGGGAATTATCAAGAGAGTGGGAATGGAACAGATGCAATAACAAAAGGAGATATTTCTAAGATAAATAGTGAAAATGCAGGAATACAAATAATAGATTATCAATATTATACTTTTGAAAAAGATTATTCTGATGTAGTGAATAATTTAGAAACAGATAAAAAAGAAAATGAAAATAAGAAGCTTAAAGAGATATATTACACTGTAAAGCGTGGGGATACTTTGCATGGAATATCTCAAGCAGTTGGTCAAGACATGAATATAATTGTAGCAAATAATCCAAAAGTTAAAAATGGAAAAATTTATGCTGGGCAAAAGTTGAAGATATTAAATAAAGATGGAATATATTATACAGTAAAATCAAGAGATACTTTAGGAAAAATTTCAAATAAATATAAAGTTAAATTAGCAAGTATATTAGAGGCAAATAATTTAAACGATACTCAAATAAAAAAAGGTGAAAAAATATTTATACCTAATCCAAATTTAGATTTTGTTATAAAAGCTAATAGAACTAGATATGCTAAAAAAACATTTAGTAATAGAACAAAATTTGGTTGGCCAGTAAGGTATAGAGGAGTAACGAGCCCATTTGGGAATAGATATCACCCTGTATTAAAAAGATATATATTTCATACAGGTGTTGATTTGAGAGCTAGAACAGGAACAGCATTGTATTCTGCTTTGGATGGGAAAGTTACATATTCAGGTTGGATGTCAGGCTATGGGAGAATTGTTATAATTAAACATAGTAAAGGGTATTCTACAAGATATGCTCATTTAAGTAAGTCTTACGTGAAAGTTGGACAATATGTAAAAAAAGGGCAACAAATAGGAAAAACAGGAAAAACAGGTAGAGTTACAGGACCACATTTACATTTTGAAATTAGAAAGTATGGAAAACCATTAAATCCAATGCGATTTTTAAAAAGGTAGGGGAAACCCTACTTTTTATAATATTATACTGAGGTGAAATTTATGAAAAAATTAAAAAAAATTATTATTATATTTCTTTTTTTTAGTTCTGTAATTTATGCAGAAGATATTACAGTAGATGATTATTTAAATTTAGGAGATGCATATTATAAAGAAAATAATTTAAAAGAAGCTAAAGATTTATATGATAGAGCTTTAGAAATAGATAGCAGTAATATTACAGTTGTAATGAAGATTTTAAAAATTTATGAAACTAATAAAAAGTATGATGATGAATTAAAGTTTTTAGAGAATTTTTTAAGTAATAATGTAGATAAAAATAATTCAGAAATATATTTTAAGATAGCTGATATTTACAATAATTATAAAAAAAATAAAAAAAAAGCATATGAATATTATGAAAAATTTTTAAATAGTAGTGGTTCTAATAATTCAGAAAGAATTTTTTATATTGGAGATGTATATTTCAAAGATTTTTTATATGAAAAAGCCATGAATACATTTTTATTGGATAAAACTGGTAATTATAAAAATGAATTTGGAGCAGCAATAACATTGAGATTTTTAGGATATTATAAAAAATCGATATTATATTATAAAAAAGTTATAAAACAAAAGCCAAATTTTTTAGAGGCATATTTAGGGATTGGAATAAGTTATCAATTAAATAGTGATTTTGATAATGCTATTAAATATTTTTTGAAATATATAAGTGAAAAAAAAGATGAACAAGTATATATAGAATTAGTAAAATTATATATGATAAAGAAAAATGATAAGAAGGCAAAAACAATTGGACAAGAAGGGTTAAATTTTTTTCCTAATTCGAAAGAATTACGAGATTTAATGTTGACAATTTATTCTAATTAAAAGGAGATATATATGATAGTAGAATATAGGAATATAAATTTGAGTTTTAAAGAAATAGAAATTTTCAAAAATTTTAATTTAAAAATAGAAAATGGGGAGAAAATTTTATTAAAAGGAAAATCTGGTTCTGGAAAAACATCTTTAGGAAATTTTTTACTTGGATTTACTCAGCCGAATAGTGGAGAAATCTATTTTCAAAATGAATTGTTAAATGAAAAAACAATTTGGAAAATTAGACAAAAAATAGCTTATGTCAGTCAAGATGTAGATTTAGATGAGAAAAAAGTGATGAAAATAATAGCAGAAACTTTTGAATTTTCTGGAAATAAAGATAAAAAATTAAATAAAAAGATGTTAAAAAATTTATTAAAAAAATTTCGTTTAGAAGATATAATATTAGAAAAAAATGTGTCAAAATTATCAGGAGGAGAAAGACAAAGAGTAGGTATAATTTTATCAATATTATTAGATAGAGATATATTTGTTTTAGATGAAGCAACTGCGTCTCTTGATAAAGAGTTAAAAGCTATTGTAGCAAACTATTTTTCAGAGATAAATAAAACAGTAATCTCAATTTCCCATGATAAAGAGTGGGAAGATACAAATAAATATAAAGTCATAAATATAGGAGATGATAAAGATGGCCAATGATATATCAATTCTTTCATTATTTTTAGCTGCGTTAATGTTCCTTATACCTATTGGATTTAGCTTTTATTTTAAGCTATTTATGACAAAAGATATTATTATTTCTGGAATAAGAATGTTTGTTCAACTGTTTTTAGTTGGTGTTTTTTTGAAATATATATTTCAATTAGATAATTTTATGTTAAATATTTTATGGCTATTTTTAATGCTAATAGTGGCTGCATTTTCAATATTAAGTAATATAGAATTTAATAAAAAATTATTTTTACCACCAATTATAGCTTCTCTGTTTTTAGTGGTAGCATTTGTAGGAATATATTTCAATTATTTTATTATAGGATTAAAAGATATTTTTCAAGCAAAGTATTTTATACCAATAGGTGGAATGCTATTAGGAAATTCTTTAAAAGGAAATATAATAGGATTAGATAATTTTTATAAAAATATATCAAAGCAAGAAAAAAAATATTTTTATAAATTATCATTAGGTGCTACAAGATATGAGGCACTTTTACCATTTATTAGAAAAAGTATAAAGATATCATCTAAGCCAACACTTGCAACGATGGCAACTATTGGAATAGTATCTTTGCCAGGTATGATGACTGGTCAAATATTAAGTGGAGAAAGCCCTATGAATGCTATAAAATATCAAATAGCAATAACAATAGCGATATTAGTAACAAGAATGTTAGGAATAGTATTAACTTTATTATTTACAATACCAATAGCTTTTGATGAATATGGTGTATTGAAAAAAGATGTGTTTGGAAATTAATTATTTTTAACAATATGAGTTGATAAAATATTTAAATTTAAGTATAATCATTATACAATAATTATAAAAAATAACTGGAGGAGAAAATGGGATATTTAATAAGAGGAATAACAAAAAATAAAAATGCTAGATTTTTTTGCGTAGATTCAAAAAATATAGTAGAAGAAGCACAAAAAATACATAAATGTAGTGCCACAACAATAGCTGCTTTTGGAAGAGTATTGACAGCAGGAGTAATAATGGGAAGTGACTTAAAAGGAGAAAAAGATTTATTAACAATTAAAATAACTGGAGATGGAGCATTAAAACAAATAATTGTAACAGCAAATAGCAAAGGATATGTAAAAGGATATGTGTCTAATCCATATGCCGATTTACCATTAAATGAAAATGGGAAATTGGATGTTGGTGGGATAATAGGAAGAGGTAATTTACAAATAATAAAGGATATGGGGCTAAAGGAACCATATGTTGGGATTAGTAATCTCGTGAGTGGCGAGATTGGGGAAGATTTAGCAAATTATTTTTTCTATTCTGAGCAAGTTCCGTCAGTAGTTGGAGTAGGAGTTCTTGTAGATAAAGATTTATCAATTAAAAGAGCAGGTGGTTTTATAATTCAGCTTTTACCTGAAGCAGATGAAGAATTTATAAACAGATTAGAAGAAAAAATTAAAACTATAAAATCTGTGACAGAAATGTTAGAATCGAATATGTCTCCAGAAGATATTATAAATTCAATATTTGAAAATGTTGAGGATATAGAAATATTGGATAAAAAAGAGGTGAAATATAATTGTGACTGTGATAAAGATAGATTTTATAGAGGGCTTATAACTTTAGATAAAAACGAAATAAAAGAGATGTTAGAAACAGATAAAGAGATAAAAGCTAAATGCCATTTTTGTCACAAAGAGTATATTTTTACAGAAGAAGATTTTAAGGAGTTTTTAGAAAATTAGAAAAAGGAGACTAAGAAATGGAAGAAAAAAGTATTGTATTGATAGAATGTACCGATAAAAAAGGTCTAGTAAATAAAGTAACATCTGTAATATTTGGGCTTGGATTAAATATTGTTAGTAATAATCAATTTGTAGATGAAGAATCAAATCATTTTTTTATGAGAACTGAAATTGTAGGAAAAGTCTCAAAAGATATATTAGTTGATAAAATAAAAGAAAATTTACCAGATGATGCTATGATAAAAGTAATAGAATCAAAACCTAAAAGAATAGTTATAATGGGAACAAAAGAGCATCACTGTTTTTCTGATATAATAATTAGAAGTGAATACAAAGAGATAAATGCAGATATAGTAGGGGCGATAGGGAATTATGATGAATTAAGAGGATTGGCAGAAAAATTTGATATACCATATAGCTTTATTACTCATAATGAAAAAACAAAAGAGGAACACGAAGATGAAATAATAAAAAAAATTGAAGAATATAATCCTGATTATATAGTTTTGGCAAAGTATATGAGGATATTAACGCCTAAATTTGTAGAAAAATATGAACATAAAATAATAAATATACATCATTCATTCTTACCAGCATTTATTGGAGCGAATCCATATAGACAGGCATATAATAGAGGGGTAAAAATAATAGGAGCTACAGCACATTTTGTAACAAACGATCTTGATGACGGGCCTATTATAGCTCAAGAAGTTTTAAAGATAGATCATACTTATAGTGCAAAAGAGATGAGAAATGCAGGAAGAGATGCAGAAAGAGCAGCTTTTTCAAAAGCATTAAAATTAGTTTTTGAAGATAGAGTGTTTATAAATAAAAATAGAACCGTTATATTTGAATAGGTTGAGATAAATTTATGCTTTACTTTAAGTAGGTATTGTGATAAAATATGTATACAATTTAATAAAAAAATAAGTGAGATAGAGGTTGCAAAGCTCAATAGTAATAATATGGAGAAATGGGTATTTCTGCGAAGTATTATAAAAGGGAGAGTTGCCGAAATATAAAATCCATCCAAATTTTATATTGGGAGTATAGAAAATATCTATGCTACTGTCATCATAATGATGGAGGGCTATCTACGGACTTTAATAGTAAAAATAGAGTTGGTGGATATCATCAACTTTTTTTGTTTACTAGGAAAGTATAAATTTATTCAGAAAATAAACTACGCTGTTTTTTTGAAATATGCGATTTTTCAAAGCAAAATTTTTCAGAAACCAAAAATTTAGAAAAACATTTATATTTTACCAGATGAAGCGTAGCTTATTTTTTTGTTTAATAGAAAATTATATTTATAAAAGATAAATTAAAAAATAGGAGATGAAAGATATGGCAGTTTTACACGGGACTATGAAAGTAAAGGATAATGGGCACCTATTAATTGGAGGAGTAGATGTAGTTGAAGTAGCTAGAGAAAGCGAATTTCCAGTTTATGTTTTAGATGAAGAATTATTAAGAAAAAATATGAGAGAATATAGAAAAACATTTGAAAAATATTATCCAAATAGTATGGTGCATTATGCTTCAAAAGCGTTAATGACATTAGCTATGTGCAAAATAGTAGAAAGTGAAGGACTTGGAATTGATGTAGTGTCTGGTGGAGAGCTTTATACAGCAATAAAAGCAGGGTTTCCAATGGATAAAGTAGTAATGCATGGGAATAATAAATCAGTTAATGAGATAAAAATGGGAATTGAAAATGGAGTAAAAATAGTAATAGATAATTTTTATGAAATAGAATTAGTAGATAAAATTACAAAAGAATTAAATAAATCAGTAGATGTATTACTTAGAATAAAACCTGGAATTCATGCGGATACTCACCATTATGTGAGTACTGGTCATGAAGATTCAAAATTTGGATTTATAATAAAAGAAGATACAGCTAAAAAAGCTATAAAACAAGTTGTTGAAAAAGAATTGATAAATTTTAAAGGTATTCATATGCATATTGGATCTCAAATATTTAACGTTACAGGTTATGAAAAATCAATAGAAATAATGGCTGATTTTATAAAAGAGTTAAAAGAGGAAAATATAATAGTAAAAGAATTTGACTTAGGAGGAGGTCTTGGTGTAATATATACACAAGAAGATGATCCTATGTCAATAACTGATTTTGTAAAATTATTAATAGAATATGTAAAAAGAGAGTTTGAAAAAAGAGAATTGGAATTACCCAAATTAATGGTTGAACCAGGAAGATCAATAGTTGGAGAAGCAGGGACTACAGTTTATCAAGTAGGTTCTATTACAGAAGTTCCTGGGATTAGAAAATATATAGCTATAAATGGTGGAATGGGAGATAATATAAGACCTGCACTTTATGGATCAAAATATGATGCAGTTATTGCAAATAGAATGAATGGAAAAGAAGAGGAATTAGTAACTGTAGCTGGGAAATGTTGTGAAACAGGAGATATAATTTTAAAAGATATAAAATTAAATGAACCAAAATCTGGAGATGTATTAGCAGTGTTTACAACTGGAGCATATAATTATACAATGGCTAGTAATTATAATAGATTGCCAATACCAGGAGTAATGTTAGTAAATAATGGGCAAAAAGAATGGATAGTTAAGCCACAATCATATGAAGATATTTTGAGAAATGATATTATTCCTGAAAGACTAAAATGAACTAAAAATTAAAAGAATTATATAAATTTGAAAGAGATAAAATAAGAATAGGGAGCGTGTAAAAATGTTTAAAGGATCATATGTAGCATTAGTAACACCATTTAAAAAAGATGGTACGATTGATGAAAATAAGGTAAGAGAATTAGTTAATTATCATATAGAGAATGGAACTTCTGGAATTTCACCTTGTGGGACAACAGGAGAATCTCCAACTTTAACTTATGAAGAACATAAGAAAATGATAAAAATTGTAGTAGAAGAAGCAAAAGGAAGAATACATATATTAGCTGGAGCAGGGTCTAATTCTACAAGAGAGGCAATAGAATTTACAAAGTTTGCAAAAGAAGTTGGAGCTGATTCTGTTTTGAGTGTTTGTCCATATTATAATAAACCAACTCAAGAAGGAATTTATGCACATTATGAAGCTATTTCAAAAGAGGTAGACATTCCAATAGTTGTTTATAATGTACCAGGAAGAAGTGGAGTTAATATTTTACCTGAAACAATTGCGAAATTAGCAGAATTAAAAAATATAAAAGGTGTAAAAGAAGCTGGTGGAAGTGTAGATCAAGTATGTGAGATAATTGATTTATGTGGAGATAAAATAGATGTATTATCAGGCGATGATGCTTTAACTTTACCAATGTTAAGTGTAGGAGCAAAAGGTGTAGTATCAGTAACAGCAAATTTTATGGCAAAAGAAGTTAGTGATATGATAAAATATTTTGAAAATGGAGAGATAAAAAAAGCACAAGAATTGCATAAAAAATTATTTAGAGTACATAAGACTATGTTTATAGAGACAAATCCTGTGCCTGTAAAGGCTACAATGGAAATGTTAGGAAAAATATCAGGAGACGTAAGATTGCCACTTGTTAGATTAAAAGACAAAAACAAAGAAATTCTAACAAAAGTATTAAAAAATGTTGAAATAATATAACTGTCGTGATATAATATTGTTGAAAAAGCAATATTATAAGGAGGTAATAAAAATGACAGAAAGAAAAGAAGATCAATACTTATATGGTGAAATAGATGGAAAAGGATTTATAAAATTTGTAGGGAATGCTACTATGAAAAATAGTAAGACATTAGAAGATTTATTTGAAAAATTATTTAAATCAGATAAAAAAGAAATTGTACTAGATTTTGAAGAATGCAATTATATGGATAGCACAATGTTAGGGTTAATTGCTAAAACTGCTATTAAATTTAAAAAAAGTTGGGGATTAGCGATTTATGCTTTGAATACTCCAAATATAATATTAACAAGTTTAAAATCTACAGGTGTAAATAAACTTATGGAATTTATAGAGGATGAAAATTTAAAAGTTGTAGAAGTAAAAAAATTGGAAACAAAAGATTATGATAATAAAGAAGAAAAAACAAAACATATTTTAGAAGCGCATAAAACATTAATGGGATTAAGTGATGAAAATAAAGAAGTATTTAAAAATGTAGTCAATCTGTTAGAAGGAGAATTAAATAAATAAATAGAGGTGAAATAATGGATAATTATATACAAAATCTATTTGCAGAGAGAATAGGTGGCAAAAATTTTGGAAAAGATACTGTAATTTATAAATTTGAAAAAATAAAAAGAGCTAAAAGAGAAGCAATAAAAAAATATCCTAATATGGAATTAATAGATATGGGTGTTGGTGAACCAGATTGGATGGCAGAGCCAGAAGTAATTGAAACTTTATATAGTGAAGCCAAGAAGTGGGAGAATAGAGGATATACAGATAATGGAGTTGAAGAATTTAAAATAGCTGCATCTAATTATATGAAAAAAATATTTAGAGTAAAAGAATTAGATCCTGAAAAAGAAGTAAATCATGGTATTGGGAGTAAACCTATATTAGCATTGTTGCCATTAGCATTTATTAATCCTGGTGATATAACAATAATGACTGTTCCAGGTTATCCAGTATTAGGAACAACTACAAAATCAGTTGGTGGAGAAGTTGTAAATCTTCCTTTATTAGAAGAAAATAATTTTTTACCTGATTTAGATAGTTTAACAGAAGATCAAAAGAAAAGAGCAAAATTATTATATTTGAATTATCCTAATAATCCAACAGGAGCTATAGCAACAGAAGAATTTTATAAAAAAGTTATAAAATTTGCAAAAGAAAATGATATTATAGTTATATCGGATGAAGCATATGCAGCACTTGTTTTTGATGGTGAAAAACCATTATCATTTTTAAGTGTAGATGGTGCAAAAGAGGTTGGAGTAGCTATACAATCATTGTCGAAAGCTTATAATATGACTGGATGGAGAATGGCTTTTATTGCTGGGAATGAACTTGCAGTAAAGGGGTTTGCAACAGTTAAAGATAATAATGATTCTGGGCAATTTGCAGCAATTCAAAAAGCTGGAATATATTGCTTAAATCATCCTGAAATTACAGAAAAAACTGTTGAAAAATATTCAAGAAGACATGGCTTATTAGCTAAAGCGTTACAAGAAGTTGGATTTAAAACAAAGAAACCAAAAGGAACATTTTATTTATATTTAAAGTCTCCAAAGGGAACAAAAGCAGGGGTAAAATTTAATAATGCAGAAGAATTTTCGCAATATTTAATAAAAGAAAAGTTAATTTCTACTGTACCTTGGGATGATGCAGGAAACTATGTAAGATTTTCAGTTACTTTTGTAGCAAAAGATGAAAAAGATGAAGAAAGAGTAATAGAAGAGATTAAAAAAAGATTATCAACAGATGAATATATATTTTAAGAGAAGCACTCATTTTGAGTGCTTTTTTCTTTTTATTTATTGGGGAAGTATAAATTTATTCAGGAAATATTTAGAAGTATTATCTTTATCAAAATTAATTTTTTAATGGTATCATATATTTTTTTAGATTTAAAGTAAAATAAAACTAGTTTTTACCGATAATAAAGTAGCCCATAAAAATTCAAAAAGAGAGGAGAGATGATATTGAAGAAAATAATAATTCTATTATTATTTATTGTTATTCTTGTGAGTGGATGTATGAAAGAGAATTTTGTACAAGAACAAGCTCAAAAAAGTAAATTTAACATTGTGAAAAATGAAAATAATTATGTAGAATTTCATTTTGAGAATAGCGATAAAGTAATAAAAGAAAAGTATATTTTACTAAAAGATGATAAAATAATAAGAGAGGGGGAAAGTTGTAATAGTACATTGGTTTTAAATGATTTGGTGTCAGGAGAATATACTATAATTTTTGAAGAAGTTCAATCAAATGGAGAAATTTATAGAAAATCGCCGTACAAATTTAATGTTTCTGGAAATACAGAAGAGTTATTAGTAAATGACATTAGAGCAATAAAAAATAATAATAACATAGATTTATCTTTGAATTTAAAAAATGAGAATAATATGGAAGTTTATCTAAAAAATGCTAATTTCAAATTTTTTGATGTGAATGGAAATGAAATTACAAATAAATTTGAAGATAATACTATATTTTTTCCTGAATTAATAGAAAAAAACAGTGAAAAACAAGTTGATTTTAAATATTTAACAAATACAAATTTGAATGAAATATATGTAGAAGTAACTGTAAATGGATATACAGAAAATGAAAGAAAGCTAATATGTCTTGCAAATGAGAAAAGATTGACAAGGGTAATTACTAAAAATTCTATTAAAATTAATACAAATTTTAATAAATCAAAATATATATTAGGTGAAAATGGTATATTAAATTATAGTATAGATGGTTTGGAAAGTGGAGAATTAATAATAACTTATGGAGATAAAAAGGAGAAAATAGAATTTAATAAAGGTGTAGAATATGTATATAATTTTTTAGCATCTGAAGATATAAGTAATATAAAAATTGAAATTGAGGGATTAAATTTAGAAAAAACAGCTGAATTGTCAGTAATAAATCCAGAAGAGATAAGTTTAAGTTATAATTTGGATAAAGAAAAAATTTATGAATATGAAAATTTTAATTTTAAATTAAATATTCCTGATTATCTTTCAGAAGATGACATTAATATAAAATTTGACAATAGTATAGAAATAATATCTCAAAATAAGTTTTCATATGAGATAAGGTTAAATAAAATTGGAGAAAATAATATTAATATTTATTATAAAGATATATTAATAAAAAATATAAAATTAAATGCAGAAAAAAATCAAAAGATATATTTAGAGAATTTAGCTATAGAAAATGGAAATTTTGATTTTACAATATACACGAATGAAAGTTATCTTTATAGATTGAAATATTTAGAAATTAATGGAAAAGAATATAGTTGTGAAAAAATTGAATTGTTATCTAACAATATGGGAAAAATAGATGTAAAAATACCATTTGATATAGAGATTAAAAATAAAGAAATAAAAATAATAATGTTATATGAAGAGATAGAGACAAAATCAGATATAAAAATTACTAAAACAATTTCATAAAAAATAAGAAGAGTGGAACCTTTTCTAAGAAATTTAATATATTATGATTAGACCAAAAAAGGTGTTATTTATAGTATTTGTTCTTCAGTAACACAATTCTAAATTATTGAATAATTTTTTTATGTAGGGGCGAACCTGTGTGTTCGTCCTTTTGTTGCATATTTAAATATTTGGGTAGACACATAGGTCGCCCCTACATTATTATATATTCTAAAATACAGTTTTGTGGTCAATTCATATTATTAGTTGTTGAAAATATGTATGTTTTATGATAAAATAAAAAACATTAAATGAATTATTTGAAGGAGGTTAGATTAATGATATCAAAAGGAAGAGTATTATTTACATCAGAATCAGTAACAGAAGGACATCCAGATAAAATGGCAGATCAAATATCTGATGCTGTATTAGATGCAATATTAGAAAAAGATCCAAATGGAAGAGTAGCATGTGAGACTATACTTACCACAGGATTAGTAATGTTAGCAGGAGAGATAACAACAAATTGTTATGTAGATATACAAAAGATAGCAAGAGATGTAATAAAAGATATAGGATATACAAGAGCGAAATATGGATTTGATTATGAAACTTGTGCAGTATTAACAAGTCTGCATGAGCAATCATTAGATATAGCAATGGGAGTAGATGAAGCATTAGAATCAAAAGAAGGAAAAATGACAGAAGAAGATATAGAAGCATTGGGAGCAGGAGACCAAGGAATAATGTTTGGATATGCTGTAAACGAAACAGAAGAGTATATGCCATTGCCAATAGTTTTAGCACATAAGTTAGCAAAAAGACTTGCATTTGTAAGGAAAAATAAATTGGTTGATTATTTAAGACCAGATGGTAAGACACAAGTTACAGTAGAATATGTAGATGGTAAACCTGTAAAAGTAGATGCAGTAGTTGTATCAACACAACATGAAAAGAATGTATCACAAAAGCAAATAGAAAAAGATATAATAGAAAAAGTAATAAAAGAGATTATTCCTGCAAGTTTATTAGATGACAAAACAAAATATTATGTAAATCCAACAGGAAGATTTGTAATAGGTGGACCGCATGGAGATGCAGGTCTTACAGGAAGAAAAATAATAGTAGATACATATGGTGGAATAGGAAGACATGGTGGAGGAGCTTTTTCAGGAAAAGACCCTACAAAAGTAGATAGATCAGCTTCATATGCAGCGAGATGGGTTGCTAAAAATATGGTAGCAGCAGGTGTTGCAGATAGATGCGAAGTTCAACTTGCATATGCAATTGGAGTAGCAAAACCAGTATCAATTGCTGTAAATAGTCATGGAACAGGAAAAATAGATGATTCTAAAATGGCAGAAATTGTGGAAAAAGTATTTGATTTAAGACCAGGAGCAATAATAAGAGATTTAGAATTAAGAAAACCAATTTATAGACAAGTAGCATCTTATGGTCATTTTGGAAGAACTGATATAGATTTACCTTGGGAAAGGCTTGATAAAGTAGAAGAGATAAAAAAATTAGTTGATTAAAAATTTAGCACGTTGCTATAGTAATAGTAGCGTGCTTTTGGTTTTTAAATTAGAAGTTCAAAATTTAAGTTGTTTTTCATTATAAATTAAAGTATAATTTATAATAGAGGAATGGCTTAAAATATAAAAATATTATTTTTTAAATATTCAGAGAAGTAAAGAAACAATTTCCAAATCACAGGGAGGTGTGAACAATGGAAATAAAAGGAAGTGGTAAGCAGTATCTTAATTCTATAAGAAAAACAGCATTTCTTATGGGGAATAGTAAAGCGAGAGAATCGCAAAAAAAAGTTGTAATAAATAAATCAAAGCAAGATTTACTAACTATTGGTTCTGACTTGAAAGGTGAAATAAATTCTGTAGATAATTTAAAGAGTATGCTAGAGGATTTGAAAAACACAAATATTATAAAAGATAAAAATAGTTTAAGTTTATATACAATAGATAATAAAAATAATGATGCTAATGTAAATGTAGAAATATTAGATTATAAAAAACTTTCTAAAAATAGTTTTACACTTTCAATAAAAAAGTTACCTCAAAGTGGTATTATATCATCAGATAATATTAATAGTGATAGAGCATTAAATTTAAGAGGACATATAGAGGTTAATGGAGCAAACATTGTAGTGAAAGAAACAGATACTCTTTCTACAATAAAAAATAAATTAAATTATGGTGAAGATATTAATCAAAACGGAGAGTTGGATAGTGGTGAAGATATTAATTCAGATGATGAATTAATGGGAAAAGATGATATGAGGACAAAAAATTATACTTTTGGTGGTAAATTATATTTAGAAACTAAATCTTCTGGGAATGAAAGTTCAATAGATTTTAATGGAAGTACACAGGATGTAATGTCTGCTTTAGGATTTATATCTGAAAATGGTGATATAAAAAATTTAATACAAAGTGGAGAAAATGGTGAGATTTTAATAAATAATGATTCTTTCGTCTTGAAAGATAGTTCTTTGGAATATAAAGGGCTAAAATTTGATTTTGCAAATAGTATAGAAGGAAAAACTTCTAAAATTGAAGTTAATTATAATAAAGAGAGAGTGTTATCAAATATAGAAGAATTTACAAATAAATATAATAAAATAATTGATTATATTAATAATTATGCTAAAAAATATGATAGTAAAATTCAAGATATTAAATATAAATTAGGAACAATAGAAAATAAAAATATCGGTGTTAATTTAAAAGCAGAGAAGTATTATAAAGAATTATTAAAAGTAAAAAGTGGATTAGGAGAAGTTTTTGGAAATGCTTTAGAAAATAGTGGCTTTGTAAAAGATAAGTCTGGAGAATTGAAAATCGATACAGAAAAACTTAATAATGATTTTAGTGATTTAAGAGAATATTTAATTAACACAGGGACAAAAGTAGTGAATAAAAAACTTAATGAATATCTGAATGATGTTAATATATTAGATATTAAAAAAGAAGCTTCTATTAAAAATTTATTAAATTCGAATAAAAAAAGTAAAAAAATGTCAATTTTGAAAGATTTTATACTTGAAAATCAAAAAAATTTAAAATTTTTAAAAAATAATTTAAAGGATATAAAAAATGCAATGAAAAGTTTAAGAAATAATTTTAAGGGGTTATGGGACAGAGAATAGCAATTTATTATTGCTATTCTCTATTTTATGTTGGGTAATCACAAAATTAAAAAAATTATAAAGAATAGTTACAATTTGGATATTGTAATAAATAATAAGTAAATTAAGGAAAATAACATTGTGTTTTTAGAATATTTATGATAAAATTAAAGTAAATAATATTATTAAAATGTGTTTGAAAAGCAATATTCCTATATTAAAAAAAAATAGAAATATTCAAAAATAGATTTTTTATTTTGAATGGCTTTGATGCATTTATAATTATAAAATTGGAGGTTAATATGAAAAAAATAAAAGACATAGTAAATAGAGATATTATTACTGTGAAAAAAGATAGTTCTTTAGAAAATATTATAAAAATTATGAAAGAAAATAAAATTGGAAAAATACCAGTTTTAGAAAATGAAGAAGTAATAGGAATTGTTACAAGAGATGATATATTGGTAAAAGAGGAAAAAGCTCCACTTCCACCAGTATTAGCTTTTTGGGATGTGTTAATTGCTTTACCAAGAACAAAAGAATTTGAAGAAAAATTGAAAAAGTTGGCAGGATATACTGCTGAAGAGATAATGAGTGTAGATTTTATGAAAATTGATATTTCAGAAAAAATAGAAGATGTTTTGACAAAAATAATTGAAGAAAAATATGGATATGCTGTTGTATATGAAAAAGGGAAATTTTGTGGAATTATTACAAAATCAGATTTTATAGAAAAAAGTTATTAAAAAATTAAAATTCAAATATTTGTATTTTATTTGCTAAGATTTAGTTTTAGGAATGTTTAATAAATAACGTTCTTATATTTAATAAATAAATTTCTAATATGTTAATAATAAAATTCTTAGCAAAAAATATAAATTATTTTAAAATTATAAGGAAGGTGTATTCTTGGAAGAGTATAGGGAATTCGCTGTTTTAGCAGTTTTAATAATTTTGTCGGGCTTTTTTTCGGCCTCAGAAACTGCATTAACAGCATTTAAAAGAATTAATTTAAAAGATGTAGGGAAAAAGAATGCTAAAGTTGCTAAATTATTAAAAAATTGGTTGAGAAAACCAAATGAAATGTTAACTACTATCCTTTTAGGGAATAATATAGTTAATATTTTGGCTTCTTCAATAGCAACAGTATTTGCATTAAAAGTTATAGGAGATAAAGTTAATGAAACAGATGCAATTTTTATAGTTACATCAGTTTTAACAATTGTAATTTTGATTTTTGGAGAAATAACGCCTAAAATCATTGCTAAAAATTATTCTGAAAAGGTATCTAAAGTTGTAATTAGTCCAATATATTATTTAAGTATTCTATTTTATCCTCTAGTATTGGTGTTGACTTTTATTTCTAAAATTATAAGTAAAATTTTTGGGATAAATCTATCTACAAATAATTTACTTATAACAGAAGAGGATATAAAGTCAATGGTAAGCGTAGGAGAAGAAGAAGGAGTAATAGAAGAAGAAGAAAAAGAGATGATACATAGTATTTTTGGGTTTGGAGATAGAACTGCAAGGGAAGTTATGGTACCTAGAGTTTCTGTTTTTGCAATAGAATCCAACAAATTATTAAGTGAAGTATGGGATAAAATTATATCAATGGGTCTTTCTAGGATTCCTGTATATGAGGGAAGAATAGATAATATTATTGGAGTATTATATTTAAAGGATATTTTAAATGTAATAAAATCTAAAAATATAGATTTACCAGTAAAAAATTATATAAGAGAAGCTTATTTTATTCCAGAGAGCAAACAAATAATTGAACTTTTACAAGAATTTAAAAGAAGAAGAATCCATATGTCAATTGTACTTGATGAATATGGAGGAACTCTAGGAATAGTTACAATAGAGGATGTTTTAGAAGAGATTGTTGGCGAAATTAATGATGAATATGATGAAGGAAGTGAACAAATTCAAAAAATTTCAGAAAATGAATTTGAATTGGACGCTGTATTGGACATTGGATTTGTAAATAAAGAGTTAGAGATAGATATACCAGAGCAAGATGACTATGATACTTTAGGTGGATATATATATTATAAATTAGGAGATTTACCTCAAAAAGGTACTGAAATTAAAGGTGAAAAATTTGATATTATTGTAAAAGAGATTGATAATCATAGAATAGAAAAAGTTGTTTTAAAGAAAAAGAATGAGGATGATGGAGATGAAAAAAATTAAAAAATATTTTATAACAGGATTAATTGCGATTCTTCCACTTTTTCTAACAATCTTTATTTTACTTAGAATATTGGAAAATATAGTTTTATCTTTAAATACATTTTTACCAATTCAATTAGTAGTTTCTTTAATAGATAAACTGCCATTGAGCAGTTTATATTTGAAAGAGAGTTTATCATACTTTATAGTATATATTTTCTCTTTTATTTTAATATATGTTTTATTAGTAGTAATAGGAGTAATAGTATCTCATTTTATAGATGAGAAAAAAGTTAAATGGATAGAAAATATTTTTTTAAAAATACCATTGGCAAAGCCTATATATAGTACATTAAAACAGATAAGTGACGTTCTTTTTTCGAAAAATATAAGTTCATATAAAAAAGTTGTAATGTTGGAATATCCAAGGAAAGGGATATATAGTTTGGGGTTTTTGACTAATGATGATAATGAATATTTTAAAAAAATATTAAGTGATGTTGGACAAAAAATAGATGCTAAGGAAAAAATGGTTAATATTTTTATTCCTACTTCTCCAAATCCAACATCAGGAATGTTTGTATCAGTAAAAAAAAGAGAGGTTATAGAATTAAATTTAAAAGTAGAGGATGCAATTAAATTAATAATTTCTGGTGGGGCTATTATGCCAAAATAGAACTAAAAAATATTATTTTTAAGCTGTTTCTAAATATATTTTAGTTTTGGATTATAAATAGGGGGATAAATAAATATGGGTAACAGAAAAAAATGTAAAAAAATATTATTAATATTTATAGTATTACTATTTACTGTAGGATGTAGTAATATAGAGAAAAAGAAAGTGAACAAAGAGGAAACTTACTATATTATAAAAGGATTAAATTTAATGCAGGCATCTAAGTATGCAGAAGCATTACAAAGCTTTTTTGCAGCATATAAATATGAAAAAGAGAATGAAACTATTTTGAAAAACATTGGAATAGCTTATAGTGAATTAGGGAGTTATGATAACGGAGAACAATATTTAAAAAGAGCGTTAGAGATAAACGCAGAAGATGCAGAAGCATTATATAATTTAGCGGTAATATATTATAACCGAAAAGAGTATAAAAGTTCATTGGAAATTTTAAATAAAATTTCTCCAGAATATATAAATCAAAAAGTTATTGTTGCAAAAGTATATACTTATTATAGATTAGGAGATTATAATAAGTCGTATAATGAGCTAACTGAAATTTTTAAAACTAATAGATATAATTATAATTTAGAATTGGTAAATTTGAATATAAAATTAATGGAAAAATTAAAAAATACAAAACAAATATATAGTTTTGTATATAATATTTATTCAAAGCATAGAGAAAATGAAAATTATGTTGTGTTTTTTGTAAATTATTTATTGAAAATAAAAGCCTATGATGAGGCATTCAAAACATTAAAAGAATATGGGATAAAAAATGAATTTAGTTCTAATATTTCATATGAATTAGCAAAGTTGGAATATAAACGTAAAAATTATAATCAAGCTTTGAAATATATGAACTTGGTTAAGAGTGAAGATGCTCTTAATCACAATATTCTAAAATTAAAAGCAGATATTTATAAAGAAATTGGAGAAATAGAAAAATCTAAAAAAATATATAATATTTTAGAAAATATAAAAGGGAATGATTAATATGACTATATTGAAAAAAAAGCTATTGAATTTTAGTGGGTTAGTAGTTTTGTTTTTGTTGTTTCCAATACTTTTTATTAAATTGGCTAATTTGCAAAATAAATTTATAACTTTTTATCTGTTTTTTTTGATATTTGAAACAATAACTTATGGGTTTATATATATTTTATTCGAAGTTAGAATAAGAGGAAGTTATTATGGAATATTAAAATATTTTAAAAAAATAAATAAAAAATTTGATAAAAAAATTGAAATGAATTCTCTTTATATGATGGCACCATTAAAAAATATAGAATATATTATAAATATAGAAATTGAAAATTTAAATGAAAAAATAGATGATTTACAAAAAAAGTTAGAAGATATAAAAGTTGGAGGAGAAACAAAATTTAGATTGAAAGAATATCAACTAAAAGGAGTTGTTTCTGAATTGGAAAATATGAATGATATGTTATTAAAAAAAGAAACGTATTTAGATGATTTTTTAAAAATAATAAAAGAATTAGATAGAAAAGATTTAGATTATGACCTATTTTTTGAAGAGCTATTATTTTATCTAATAAGTTATTTAAAAATAAAAGATATAGCAATTTTACAGAAATTAAAAAAAGGTATTAAAGTTTACAGTAATTTTTATTCTGAAGCAAAATTTGATGATGAAATGATAAAGAGGTTAGACCAAATAGAAGATATAATGATAATGGATAAAAATGTAAATAAGAGTTTGGGGTATAATCTTATTATTAGATTAAAAAAACATGGATATATATTTATTAATAATTTTCCAATAAAAGATTTTAAACATAGTTTATTACATACTATTTTTATAACAATAATTTATGAAATAACTAATATAGCGGATAATTTACAACATATAAAAAAATTATCAGGAGATAATTTAAATCAAAAAAAAGAAATTTCTAAATTAAAAAATGAATTACAAGAAGTAGAAAATAGTTTGGAAGTACAATTAGAACAAATAACAGATATGTATGAAGAAATTGTTACATTATATGAAGCTGGTAAAAGTTTTGGAAAATTATTAAACAAAGAGAGTGCAGAAAAAATAACTTTAGAGATGTTATTAGAAATATTAGAATGTGAATATGGAGCGGTATTTTGGTATAATAAAAATTCTCTTTCAGTTTCTAATATTTTGGTGAATAGTGAATATGATGAAGATAACAGGGAAATGGAAAAAGAGATTAAAAAATTTAGTAAATTATTTAGAGGGTTTGTTGAATTAAAAAGAAAAGGAAGCGAAATAGTTGTAGATGATGTGAAAAATTCTATTTATAAAGACGATATAAAAGATTTGGAATTTAGAGTTAAAAATTTTATAATAACTCCATTGTATCATGGTAAAGATATAATTGGCGGGGTGGCAATTTTTAATAAAAAAGATAGTTATACAGCTGGAAATATTAATTTGACAATATCCATAACTAATCAACTTGGGATGTCAGTGCAAAATATAGCTTTTTTAGAAAATGAAATTGATAGAAAAAAAGAAGAAGAGCAACTTGTAATTGCAAGTAGAATTCAAGCAGGTTTATTTCCAACAGAAATGCCAAAAATACCATATTTTGAAGTGTATGGGGAAAATCATCCTGCAAAAGCAGTTGGTGGAGATTATTTTGATTTTGTTAAAGTGTCTGATGATTTGATGGTTGGAATAATAGCAGATGTGTCAGGGAAGGGAATTCCAGCAGCATTATTAGTTAGTATGATAAGAACGATATTTAGAATGGTTGTAGAAAATATAAAAATATATGATCCATCAAAAATTTTGGAATATATTAATGATACAATTTCGAAAGAGGAATTAGATGGAAGATTTGTAACAGCAATTGGATTTTCTATAAATAGTAAAACTAAAAAAATAAAATTTGCTAATGCAGGACATGATCCTATTTTATATTATGATTCTAAAGAAAAAGAGATAATGGAATATGATCTAGATGGGCCAGTATTAGGATTTATGGAAGGAATGGAATTTGAAGAATTAGAAAGAGACTTAAGAAAAGGGGATGTAGCTTTATTGTATACAGATGGAGTTTTAGAAGCAAGAAATGATAAAAAGGAATTTTTTGAAGATAAAAGGTTGAAAGACACATTAGATGCAGTAAAAAAATATCCAGTAAGTTATATAGTTAGGACAATACATAAAAATGTAGTTAAATTTTTAAATGGAAGTTTTCAGAATGATGATATTACTATATTGACAATAAAAGGGGTGGACAAAAATTGAAAAAAATACTTATTATTGATGATGATGACAATATTAGACGATTATTAAAAAGTACTCTTGCTGGAATCGCAGAAGTTTATGAAGCTGATTTTGGTAAATTAGGATTTAATATATTTAGAGAAGAATCGCCAGATATGATTTTGTTAGATATAATGTTACCAGATACAAGTGGTGTTGAACTTTTACAAAAGATTAGAGATGAAGATATGGATGTAAAAGTAGTTATGATTACTGCATATGAAACTATAAAATCGGTTATTGAAATTATGAATTTGAAAATATCAGGATATATAACAAAACCGTTTATAGTAAGAGATGTAAGACAAAAAATTTCTAAATTATTGGAGAGTTAATATGTATTTTATGAGAGAAAAGATTATAAAAGTAGAAAAAACTAATAATAATTATATAGCCACATTAGAATTTAAAGATGATTCACACCATTTTTTATTAATGGTAAAATCTGACTTAAATTTAAAAATAGAAGAATCAGAAATAGATATAATAAAAAGTCCATATACTATTTGTAATAATATAAAAGATTTAGTTAAAAAAGTAAAAAATATAAAAGTAGAAAAAGGATTTACAAAAGCAGTTATAAAATTAGTTGGCGGACGAGAAGGATGTACACATTTAATAGATATGTTTACAGAAATAGGACGTGGATTGGTACAAGCAGATTTAAAAAGAACTTATGAGATAAAGGGAAAAGAAGGGCTTAATAAAGAATTGGAAAAAAGTTGTTTAGCTTATTGATGAACGTTTCAAGCATTTTTATTTCAAAATAAGAAGAAACTAATTTTTAAACGTTATTGATTAACGGCTTAAAAACTACCTATATATTTTTAAATAAAACATGCAATGCTTCAAGGATTTTTATTTAAAAATAAGAAGAAATTATTTTTTAAACGTTATTGATTAACGGCTTAAAAATTACCGATACATTTAGAAATTATTTTTTAAACGTTATTTATATAAAGGGGAAATGTTATTATGAAAGAGCCAAGAGTTAGAGTTGCGGGGATTTTAACAGATGAAAATGGAGCGATATTATTCGTAAAGCATAAAAAAAAGGTTAAAGAATATTGGCTTTTACCTGGTGGTGGAGTAGATTATGGAGAAACATTTCAAGAATCTTTAAAAAGAGAGTTTATAGAGGAAACGAACCTTGAAATAGAAGTAGAAAATATGGTTATGATATTTGAGTCAATAGATCCTAAATTATCCAGACATATTATAAATATAATTTTTGTGGTAAAAAGAGTAGGTGGGAAATTAAAAGTAGGAGATGAAGAGATATTAAAAGAGGTTAAATTTATAAAAAGGGAAGATATAAATGATATATTATTATATCCAAATATAAAAGAAGAGCTTATAAAAAATAGTTATAATAAAGAAACGGAAATTAAATATTTAAAAAATAGGTGGGAATAATGAAGAAGAAAAAAAGATTAGGTGATGCTCTTGTAGAGACAGGTGTAATAAGTGGAGAGCAATTACAAATTGCTTTAGAAGAGCATAAAAAATCAGGGGAAAAATTAGGAGAAGCAATAGTAAGACTTGGATTTTGTACAAAAGATCAGATGATAGAGACTCTTAGTACTCAAATGGGATTTCCATTTATTAGATTAGAAAGACAAGTTATAGACCCTAAAGTTATTCAGCTTATTAGTGAAGATATGGCAAGACGATATAAATTAATCCCTATATTTAAAACAAATAATAGATTAAATTTAGCAATGGCAGATCCATTAGATTATTTTGCAATAGATGAGATAGAATTTCAAACTGGGTTTGAAGTAGTACCTTCTATTGCAGTAGAAGATGATGTTTTAGAAGCTATTGATAAATATTATAGTAGTGGAAGAGAAAAAACTAAATTATCAGAATTTAAATATGATAAAAATTCTACTAATAAAAAGGTAGAAAGTGGGAAAATAGATATAACTGAAGAAGGAGATGATTCTCCTGCTGTTGAATTAGTAAATGTAGTGTTAAAACAAGCTATAGAAGATAAAGCAAGTGATATACATATTGAGCCAGAAGAGGATGAACTTAGGATAAGATTTCGTATTGATGGAATTTTGCATGAAGTAATGAAAACACCTAAAAATTTAGAATCTTCTGTAATGACAAGATTAAAAATAATGTCTAAATTAGATATTGCAGAAAAAAGGATTCCACAAGATGGAAGAATTGAATTAAAATATAAAGAAAAAGATATTGACGTAAGAATATCAACTTTGCCTACAGTAAATGGTGAAAAAATAGTTATGAGAATTTTGGATAAAAGTAATGTAATGATAAATTTAGAAAATTTAGGATTTGAAAAAGAGAATTTGGAAAAATTTAGAAAATTAATAAGAAAACCACATGGAATAATACTTGTAACAGGTCCTACTGGGAGTGGAAAAACTTCAACATTATATGGAGCGTTAAATGAAATTAATACTCTTGATAAAAATATAATAACATTAGAAGATCCAGTAGAATATCAACTTAAAATAATAAATCAAGTACAGGTTAAATCAGATGTAGGATTAACATTTGCTTCAGGATTGAGATCTATATTAAGGCAAGATCCAGATGTAATAATGGTAGGAGAAATTAGAGATAAAGAAACTGCAGAAATTGCAATTGAATCTGCAATGACAGGACATCTTGTGTTTAGTACATTACATACAAATAGTGCAGCAGGAACTATAACAAGGCTTATAGATATGGGAGTAGAGCCATTTTTAATCTCTTCATCAATAATAGGAATTGTGGGGCAAAGATTAGTAAGAAAAATATGTAATAGTTGTAAAACAGAGCATACAGCAGAAAAAGAAGAGATGTTAGAATTAAATTTGGATGCTACAAAAGAGTATAAGATATCAAGTGGAGAAGGTTGTAATTCTTGTAAAAAAACAGGATATAAAGGAAGAACTGCAATTCATGAGCTTTTAATACCAAATGAAAAAATTAGAAAATTAATAATAGAAAAAGAGAGTTCAGGAGCTATAAATAAAGAAGCTATAAAAAGTGGAATGAAAACAATGAGAGATGATGGAGTTACAAAAATATTAAAAGGAATAACTACAATAGAAGAGGTAATAAGAGTAACTCAAGAAGAGTTATAATAAGGAATGGCTTAAAAATAACATTCCTATTTTGTTATAAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCCTAAAAAAATATAAAAAGGAGATAGAGATGGAAAAAATTAAAGATTTAATAAGAAATATACCAGATTTTCCAAAAGAAGGGATATTATTTAGGGATATAACAACTTTATTGAAAGATAGTGATGGATTTAAAAAAGTGATAGATATTTTAGCCGAAAGATACAAAGATAAAAAAATTGATTATATATTAGGAGCAGAGTCTCGTGGATTTATATTTGGTGCACCACTTGCATATGCTATAGGAGCTGGATTTATTCCTGTTAGAAAACCTGGAAAATTACCATATAATATAGTACAAGCTTTTTATGAACTAGAATATGGGACAGATTCATTGGAAATGCATACTGACGCAATTGAAAAAGGAAAAAAAGTTTTAATAATAGATGATCTGTTAGCTACTGGCGGGACAGCAAAAGCTATCATAGAGTTAGTGGAAAAGTTAGAAGGAGATATTGAAGAGATTGCATTTATAATAGAATTAGAAGGATTAAATGGAAGAAAAAAATTAAAAGATTATGATATTTATTCAATGATAAAATATTAGGTGGTAGATAAGCGATGCTTTTATAAGTGTCGCTTATTCATAATAGAGGAATATTTAAAAAAATTATTTTTTGAATATTCCATTAATAGAGCAGTGATGGGAGATGAGAAAAATGGGATATGCTAGCAAACTTTTTTTTAAAATAAAAGAAGAGGATTTACCAGTTGATGTAGATAAAATTAAATTAGCATATGAATTTGCAAAAGAGGCACATACCGATCAATATAGAAAATCAGGGGAAGAATATATTATACATCCAATAGCTGTAGCTATGACGTTAGTTGAAATGAAAATGGACACTGATACGATAGTTGCGGGATTATTGCATGATGTGGTAGAAGATACTTTAATACCATTAGAAGAGATCAAATTAAACTTTGGAGAAACAGTAGCATATCTTGTTGAAGGTGTAACAAAATTAAGAAATTTACCAGCAGGAACTAAAAAACAAACAGAAAATATTAGAAAAATGATTGTAGCAATGGCAAAAGATGTAAGAGTTGTAATAATTAAATTGGCAGATAGGCTTCATAATATGTCAACGTTAAAACATATGACACCAGAAAAGCAACAAAGAATAGCAGATGAAACTTTAAAGATTTATGCACCAATTGCACATAGGCTTGGAATGGCAAAAGTAAAATGGGAATTGGAAGATTTATGTCTTTATTATTTAAAGCCAGAGGAGTATAGAAAAATAATATCTTTAATATCTTCTAAAAGAAAAGAGAGAGAAGAATATACAGAAGAAGTAAAGAAAAAACTGTTGGAAGAGATGAAAAAAAGTAATATAGCAGGAGAAGTAACAGGAAGGCCAAAACATTTTTATAGTATTTATAAAAAAATGACAGAAAAAGGGAAAAGTTTTGCTGATATTTATGATTTGATAGCTATAAGAGTAGTAGTGGATACAGAAGGAGAATGCTATAACGTTTTAGGAATATTGCATAATATATGGAAACCAGTTCCAGGAAGATTTAAAGATTATATAGCTGTTCCAAAGTCTAATGGATATCAGTCAATACACACAACTATAGTAGGTCCAAGTGGTAAATTTGTAGAGATACAAATAAGGACTTTAGAGATGCACAAAATAGCAGAAGATGGAATAGCGGCACATTGGAAATATAAAGAAAAAATAAAAAAAGATAAAAGTGAACATATATATTCGTGGCTTAAAAAAATATTAGAATGGCAAGATGATGCAAGTAGTTCAGAAGAATTTGTACAAACTGTAACAGGAGATATATTAAGTGAAGAGGTTTTTATTTTTAGTCCAAAAGGAGATGTAGTAGAACTTCCAAATGGCTCTACACCTCTTGATTTTGCATTTAGAATACATACTCAAATAGGATATAAATGTATAGGAGCAAAAGTAAATGGATGTATTGTATCGTTGGATTATAAGCTACAAAGTGGAGATAAAGTAGATATAATTACATCAAAAACAGCAAAAGGGCCTGGAAAAGATTGGATGAATTTAGTTGTTACACATGGAGCAAAAGCAAAAATAAAAAAATGGTTTAAAGAAAAAGAGTTTGATGAAAGAGTAAAAGAGGGAAGATTTTTATTAGAAAAAGAGCTTATAAATTTTAATATAAAATCAAAAGATATTGAAGATTTGGAAGAAGTAAAAGAATATATAAAAAAACATAATATTCCAAGTTATAATGAATTTTTATTTAAAATTGGGATTGGGAAAATTGATGTTACTAGAATTAGTGAAAAATTCAAATCTATAAAAGAGATGGAAGAAGAAGAAAAAATATTAACTCAAATAGATGAAAAACCTAAAAGAAGAAGAAAAAATCAAAATCAAGGTATAGTTATAAAAGGAGTAGAAAATACCGTAATAAGATTTGCAAAATGTTGTACACCATTACCAGGTGATGAGATTGGAGGATTTATTACAAAAGGGAATGGAATTGCAATTCATAGGAAAGATTGTAAAAATTTTAAAGAATTAAAAGAAAAAAGTTCAGATAGAGTTATAAAAGTTAGCTGGGAAGAAGATAATACTAAAAGTTATTACAGCGTATCTTTTGTAATTATAGTGGCAGATAGGTCAAATTTATTAAGTGAAATAATTAGAATTATTGGAGAACATAGAATAAATATTACTGGTGTAAACAGTATGAGCTTTAAAGAAAATGGAGAAAAAAGAGCAAATATAAAAATGACTATAGAAATTAGAGAAAAAGAGCAGTTTGAAAGATTAACGCAAGCTTTAAATAGAACAAAAGACGTTATTGAAATAAGAAGAAGTTAAAAATAAAATAAGAATAAAATAAAAATTATTAATGGAGGAATGAAAAAAATGTTACCTGTAAAATATACTTTAAAAAAAACTGATGGAAAAGCTAGACTAGGAGAAATTGAAACACCTCATGGGAAAATACAAACTCCTATATTTATGCCAGTTGGGACACAAGCAACTGTAAAAACAATGACACCAGAAGAGTTAAAAGAGATAAAAGCAGAAATAATTTTAAGTAATACATATCATCTATTTTTGAGACCAGGAGATGAACTAATTGCAAAAGCAGGAGGATTACATAAATTTATGCATTGGGATAGACCAATATTAACAGATAGTGGTGGATTCCAAGTTTTTAGTCTTGGAGCATTAAGAAAAATAACAGAAGAAGGGGTAAAATTTAATTCTCATATAGATGGAAGAAAACTTTTTATCTCACCAGAAAAATCAATTGAAATACAAAACAATCTTGGTTCGGATATAATGATGGCATTTGATGAATGTCCACCATATCCAGCAGAATATGAATATGTAAAGCAATCACTTCACAGGACTACAAGATGGGCAAAAAGGTGTATAGATACAAATAAACATAAAGACAGACAAGGTTTATTTGGAATAGTTCAAGGTGGAGTTCATGAAGATTTGAGAGATATAAGCTTGGAAGAACTTATGCAGTATGAAGATGAATTTAGTGGATTTGCAATTGGTGGGCTTAGTGTAGGAGAGCCAAAAGAGCATATGTATAGAATTTTAGATTATATAACACCTAAATTGCCTGAAAATAAACCTAGATATTTAATGGGAGTGGGAGAACCACTTGATATATTAGAAGCTGTTTCTCAAGGAATAGATATGATGGATTGCGTATTACCTAGTAGAATAGGAAGACACGGTACTGTGTTTACAAGAACTGGAAAATTAGTTGTAAAAAATGCTAAATATAAAGAGGATTTTACGCCTATTGATGAAGAATGTGATTGTTATGTTTGTAAAAATTATACAAGAGGCTATATTAGACATCTTTTTAAAGCAAATGAACTATTGGGAATGAGACTGGCTACTTATCATAATTTACATTTTTTGATAAAAATGATGGATGAAATAAGAGAGGCTATTGCAGAAGATAGATTTTATGAATATAAAGAAAATTTCATAAAAAAATATACAGGAGAAAAATAGATGAATGTAAAAGTAAGGGTAATAGATATATTAAATAGTGTTGATGAAGGTAAATATAGTAATATAGTTTTAAATGCGTATTTTAATTCTAATAGTGTGGAAGAAAAAGAAAAAGGATTTATGACAGAACTATTTTATGGAGTTATAAGAAATAAAATATTTATTGAATACATTATAGGCAAATTTACTAAAAAAGTAAAAAAAAAGTGGATGTATAATTTATTAAAAATATCTATTTATCAAGGGTTTTATATGAATTCAGATATAAAAGGTGTAGTTTGGGAAGCCGCAGAAGTTACTAAAAATAAATATGGAATTGAAATGTCAAAATTTATAAATGCAGTTTTAAGAAATATATTTAGAAATATAGATAATATAAGAGAAGAGCTAGAAAACGAGGAAAGATATGATATTTTATACTCATATCCAGAATGGATCTATAAAAAATTAAAAAAAGAGTATCCAGAAAACTTTTTAGAGGTAATGGAAAGTTATAAAAAAGTAGCAAAAATGAGTTTTAGAGTAAACAGATTAAAATATAGTGAAGTTGAATTTGAAGAATATTTAGAGAAAAATGGAATAAATATTTTAAAAAAAGTAGATTCGGTATATTATGTTGATTCAGGTAAAATTATTAATACAGATATTTTTCGTTCTGGAAAAGTTATAGTTCAAGATGGAAGCTCATATTATGCAGCTAAATTATTAGGAGCTAAACAAGGAGAAAAGATATTGGATTGTTGTAGTGCACCAGGCTCTAAAGCTATGGTTATGGCAGAAAATATGAATAATATTGGTGAAATAACAGCAATAGATATATATAAGCATAAGATAAAGTTAATAAAACAAAACAAAAAGAAATGTGGAGCAGAGATTGTATTGCCAAGATTACATGATGCGACTAAAATAAAAGGAGAATTTGACAAAATTTTAGTGGATGCACCTTGTAGTAGTATTGGGGTTATAAGAAAAAAGCCAGAAACTTTATATAATAAAGAATATAAAAATATAAAAGAATTAGCTAAACTTCAAGAAGAGATATTAGAAAATGTGTCTAAATCACTAAAAGTGGGCGGAGAATTAATTTATAGCACTTGTACTATTTTTAATGAAGAAAATGGAGATAATATAAAAAAATTCTTAGAGAATAATAAAGAATTTAAAGTAGAGAAGATTGAATTAGATGATAATATAAATTATTCATATGATGAAATTGGTGGAATAAAAATAGGTTATAAAGAAGAATTTTTAGATGGATTTTATATTATAAAATTAGTTAGAGGTGAATAAAAATAATGATTGAAGAATTAAATGAATTAAATAGTTATATTATAGATAAAATAGAAGAAAATGATGAGTTACTGTTGGAATTAGAAAAATATGCAGTTGAAAATAGAGTTCCAATAGTAACAAAAGAAGTAGCAAAATATTTGGAATTTATGGCTGAAATTTTAAAAAGTAAAAATATATTGGAAATAGGGAGTGCAATAGGATATTCTGGTATAATTTTAGCAAAAGTGGCAAAAAAATATAATGGGAAATTAACAACAATTGAAATTGACGAAGATAGATATAACATAGCAAAAATAAATTTTGAAAAAGCTAAATTAACCAATGTGAATATAATATTAGGAGATGCGCTAGATGTAATTAGTGGCTTGGATGAAAAATATGATTTTATATTTTTAGATGCAGCAAAAGGAAAATATATGGATTTTTTTAAAAAAAGTTATGAAAAACTAAATGCAGGTGGAGTAGTTTTTATTGATAATATTTTATTTAGAGGTTATGTAAATAAAATAGATTATCCAAAACGATATAAAACAATTGTAAAGAGACTTAATGAATTTATAGATTATTTGTATAAAAATCATGATTTTGTATTGTTGCCATTTGGAGATGGGATAGGGTTGGTAAAAAAATGAGATTAGATAAATTTTTGACAGAATGTGGATTAGGAAGCAGAACTGAAGTTAAAAAGATTATAAAAAAAGGTATTAGAATTAATGGAAAAATTGTAAAAAATGGAAAATTTCAACTAGATGAATTTAATTCAGAAGTGGAAGTAGATAATAAAAGAGTAGAATATAAAAAATATAGATATTATATTCTGAATAAACCGCAGGGAGTAATTACAGCTACAGAAGATGCAAGAGAAAAAACAGTTATGGATATATTACCTACAGATGTTATAAAGAAAAATTTAATACCTGTTGGAAGATTAGATAAAGATACAGAAGGATTATTATTATTAACAAATAATGGAGAATTGGCGCATAATGTGTTATCTCCTAAAAAACATGTTAAAAAGAAATATTTTGTAAAATGTGAAAAAGAGGTTAATTTAGCAGATATTAAATTATTAGAAAACGGTGTAGATATAGGGAATTATATAACAAAGCCAGCAAAAGTAGAACTTTTAAATGAAAAAGAGATTAATTTAGAGATTTCAGAAGGTAAATTTCATCAAATAAAAAGAATGTTAAAAGCAGTGGATAATGAAGTTATATATTTAAAAAGAGTTGAATTTGGGGAATTAAAATTGAAAGATTTTAATTTAGGATTAGGAGAAGTTGTAGAGGTTAGTGAAAAAGATATAATTGGAAAAGATATAATAGAGAAAGAAGGGGAGTAAATAAATATGGGCGAAATAAAAAGAGAAGGGTTTGCAAATAAAATAGGAGCAATAGCAGCAATAGCAGGTTCAGCAATTGGTCTTGGAAATATATGGAGATTTCCATATATGGCAGGTTCTAATGGCGGTGGAGCATTTTTATTTGTATATTTAATTTGTATAGCAATTTTAGGATTTTCAGTAATGATGGCAGAATTTATATTAGGGCGAGCAGCACAAAGAAATGTAGTGGGAGCTTATGGAAAGTTTGGAAATAAAAACTGGAAAATAGTTGGATATATAGCAAATATTACAGGGTTTGTTTTACTTAGTTTTTATGGAATAATAGGTGGATGGGCATTAAAATATATTTATCTTTCAATTACAAATAGTTTTAGTGGGAAAACATCTACTCAATTAGGAGCGATTTTTAGTTCTTTTATTGGTAAAGGAATGCAGCCACTGTTTTGGTATATATTATTTATGGCATTAACAGCAATAATCATTTTGTCTGGAGTTCAAAAAGGGATAGAGAAAGCTAGTGAAATTATGATGCCTTTACTATTTGGAATAATAATAATATTAGCTGTTCGAGCACTGTTTTTACCAGGAGCAAAAGAGGGATTAAAATTTTTATTTGCAGTTGATTTTTCAAAAATAACAGGAAAAGTTATTTTAAGTGCTTTGGGACATTCATTTTTCACATTAAGTTTGGGAATGGGTACAATGGTAATTTATGGTTCTTATATAAAAGAAAAAACAAAGCTTGAGAATGTGGCATTACAAGTTATAATTGCAGATACATTAGTTGCAATTTTAGCAGGGATAGTTATTTTTCCAGCAATATTTACTTTTGGTATTAATCCTGCAGGTGGACCTGGATTAGCATTTATTACATTACCAAATGTATTTTTAAAAATAACTGGTGGATATTTTATAGCAATATTATTTTTTGCACTGTTATCAATAGCAGCACTTACTTCTTCAATATCTATATTAGAAGTTTTAGTAGCATATTTTGTAGAAGAAAAAAATATAGATAGAAAAAAAGCAACTATAGTTACAACAATTGTTATGATTATGGTAGGTATCCCAGCATCATTGTCATTAAATCCAAGTAGACATCTTATTTTTGGTGGAAAATCAATTTTTGATTGGTTTGATTTTTTTACAGGAACATTAATGTTACCTGTAGGTGGATTATTTGTTTCAATTTTTGTAGGATGGTTTTTAGATAAAAATATTATAAAAAAAGAGTTGAAAGATAACCAATTGCTTATGAAATTTTTAAGTTTTACATTGAAATTTATAGCACCAATAACTGTTTTTATAGTTTTGATTAATGGATTGGGGATAATTAAATAGCATAAGTTTAGAAAAATATTTTTTGGAGATTATAATTATAAATAGATGTAAGAGATATTCTATTGTGATTTGGATTACAGAAATTTTATAAAGAAAATAGTATTATTAATTTATAAAGCAGGAATAGAATTCAAAAATAGTCAAGTTTAGGCTATTTCAAAATCTATCTCTGCTTTTGTTTTTGATAAATTTATTTTTTTAAACTCCCTTATCTTGAAATAAAATTAAAATTAATGTATAATAGATAAAGTTGTACTATTAGGATAATATAAAGGAGTGATAATATGTTGAGATATTTAATGGCTGGAGAATCACATGGAAAAGCACTGACTGCAATTTTAGATGGATTACCAGCAGGATTAGAAATTTTGGAAGAGGATATAAATAAAGATTTAGCTAGGCGACAAAAAGGATATGGTCGTGGAGATAGAATGAAAATAGAAACTGATAAAGTGGAAATATTAAATGGAGTTAGATGGAAAAAAAGTTTAGGCGACCCAATTACACTTATGATAAGAAACAAAGATTGGGAAAATTGGTCAATGAAAATGTCAAGTGGGGAAGATTATTTTGAAAGTATGAAAGATATCATAATAACAAAACCAAGACCAGGACACGCAGATTTAACAGGATATATAAAATATAATCAATATGATGTTAGGAATATATTAGAATTTGCAAGTGCAAGGAATTCTGCAATTAGAGTGGCAATAGGTGCTGTTTGTAAAAAGTTTTTATCAGAATTTGGAGTAGAAATATTTAGTTATGTTACGGAAATAGGAGGAATAGAAGCAGATTACAAAAATATGAGCTATGATGAAATATTAAATAATATTGATGAAGATATGTTAAAGACACCAGATAAAAGTGCAGAAAAGATTATGATAGAAAAAATTAGGAAAGCTAAAAAAGATGGAGATACAGTAGGTGGAGTTTTTGAAGTCGTCGCAAGAAATTTGCCAATAGGATTAGGAACTTATACACAATGGGATAAAAGATTAGATGGTAATTTAGCAGCTTCATTAATGAGTATTCAAGCTATAAAAGGTGTAGAGATAGGAATGGGATTTGAAACAGCTAAAAAACTTGGTTCAGAAGTACATGATGAGATATTTTATAGTGAAGATGAAAAATTTTATAGAAAAACAAATAGAGCAGGTGGTTTAGAGGGTGGAATGAGTAATGGAGAAGATATTGTAGTTCGTGCTGCAATGAAACCAATTCCTACATTATATACTCCATTAAATTCGGTAGATATAGAAACAAAAGAGCCATTTGAAGCTTCTGTAGAAAGATCGGATGCGTCAGCAGTTCCAGCAGCTTCTGTAATAGGAGAAGCGGTAGTTGCTTATGAATTAGCAAAATCTTTTATAGAAAAATTTGGTGGAGATTCTATGGAAGAGATAAAAAGAAATTATGAATCATATAAAAATTATGTAAAAAATATATAGGGGATATAAATGGATATAAGAGAATATTTGAAAGAAAACAGGTATTTAATTACAGATGGAGCAATGGGAACTTACTATTCTCAAATTACAAAAAAATATACAACTTTTTCTGAAGTTGCTAATTTAGATGAGCCTGAAATTATAGAAGAAATTCATAAAGAATATATAAAAGCAGGTGCAAAATTAATAAGAACTAATACTTTTTCAGCTAATTCTTATGTATTAAGATGTGATATGGAAAAAGTAAAAAAAATAATAGAAGCAGCATCTAATATAGCAAAAAAAGCAGTTGGAGAAAAAGAGATATTAATTGCAGCTGATATTGGTCCAATTATTTCAACAAAAGAAGAAGAATCAAATGAAGTTATAAAAGAATATAAAGTTATAATAGATAGTTTTATAGAGCAAAATTTGGATATTTTTATATTTGAAACTTTTAGTAGCTATGAATATTTAGAAGAATTGTCTAAATATATAAAAGAGAAAAAGTCCAACGCATTTATATTAACACAATTTGCTTTAATGCCAAATGGTTATACAAGAAAAGGTATTAGCGGAGATAGATTAATTAAAAATGTAAAAAAGATAAGTACCATAGATGCTTATGGTTTTAATTGTGGGACAGGTCCAATGCACTTATATAATAATTTGAAAAAGCTTAATTTTAATAATGATATAATTTCTGTGTTGCCCAATGCAGGATTTCCAGAAATTGTAAATGAAAGAACAGTATATACTCAAAATCCAGAATATTTTTCTGAATTAATGAAGGATATTGCAGGATTAGGAGCAAAAATTATTGGTGGGTGTTGTGGGACAACACCAGAACATATAAAGGCAATAAGTGAAAAATTAATAGGGACATCAATAGAAATAGAACTAAAAGAAAAAAGATATAAAAAGAAAGAAGTAAAGATTGAAAAAGAGAATAAAAATAATTTTAGAGAAAAATTACAAAAAGGAAAGTTTGTGATTGCAGTAGAATTAGACCCACCTTTTGGAATTGATACTTCTAAAATTATGAATGCTGCAAGAATTTTTTCAGAAAGTGGGAAAATTGATACAATTACAGTGTCTGATTCACCAATTGGAAAAGTAAGAATAAATTCACTAATGATTGCTAATAAAATAAAAAGAGAATTAGGAATGGAAGTTATACCGCATATTTGTTGCAGAGATAGAAATATAATTGCATTAAAGTCTGATTTATTAGGAGCAAATATTGAGAATTTACAAAATATATTAATTGTTACAGGGGACCCAATACCAAGTGAAGATAGAAATGAAATAAAAAGCGTATTTAATCTAAACTCTATGGAATTGATAAAATTAGCGAATGAATTAAACAAAGAAAAATTTTCAGATAATAAATTTTTTATAGGTGGGGCCTTAAATTTAAATGTATTAAATAAAGGCGTAGAGTGGAAAAGGATGAAAAAGAAAAGAAGTTTAGGAGCAGAATTTTTCTTAACTCAACCTATTTACGATGACACTGCAATTGAATATTTAAAGAGTAAAAATCATAAAAGTGATACAAAAATATTAGCAGGAATAATGCCGCTTGTTAGTTATAGAAATGCACAATTTTTAAATAACGAAATACCAGGCATAACAATTCCAGAGTATTACTTGTCGCAATTTAAAAATAACATGACAAGAGAAGAAGCACAAGAAGTAGGGATAAAAATAGCAGTAGAAATTGGTCAAAAGTTGAAAAAATATGTAGATGGATTTTATTTTATAACTCCATTTAATAGAGCAAATATGATATTAGATATTATAAAAAGACTAGAAATATAAAAAAGAAGTACAGGATAAATTTTATCTTGTACTTCTTTTGGTTAGGGGAAGAGTTTATTCTTTATCCGTAAATATCCAGATGCATATTTGCATAAGATTTATTTACTTGATTAACAAGCTTTTGATTAGTTGGAGCTTGTTTAATTTGATTTCCAGCTTGAATCAATTGTTCCATTTCACTTCTTGAAAGATTGTTAGACTGATTAAGACTAAAATAACCAGCTTGAGAACTTACACTACCTATATTCACAAAAAATCACCTCTTTGTAATCTTCCCCTAGTTTCTACTATCGGTATAACTCCTTATATTTATAATAGTTATTTAGAACTTTTTTTACGTAATTTTTAGTTTCTGCAAATGGGATATCATCAATAGTTAATTTTTTATGCTTTTTTATCCACCTATTTACATTTGTTTCGCCAGCGTTATAAGAAGCAATAATTGGAATTAAATTTCCGTTATATTTTTTATATAATAATTTTAAATATTTAGTTCCTATTTTTATATTTAATTCAGGGTCTAATAAATCCTCATATAAAATATTTTTTTGAAATGATTTTGCAGTTGGTAAAATTAGCTGCATTAATCCATATGCACTAGAATTAGATATCTCATCATCTTTAAAATTACTTTCTTGTTTTATTATGCTATAAATAAGTTCTGGCTCTAAATTGGATTTAGAAGCATAATATTCAACAAATTCTTTATAATACTTTGGATAAAGATATTGTGTGAATTCATTATATCTTGAAAAAGAATAATAATATTTATAACTTTGTTTTAAAGCTAAATGATAGAAGTTAGATTTTTCTAAATATTTAACTTTAAGATAATTTTTTAAAACACCTTCATTTTTATTAAATTTAAACTGGTTTATTTCAATTAAACAACCTTCATAAAAATCTAAATCAGCAATTGCGTTAAGCTTTAAGATTAAGTGAGAATATGTTTTTAATTTATCCTCTAAATTATATTTTTTCTTAATATGTTGCTTTTCTAATATATTTTTTGCCAACTCGTAATAATAAGAATTATAATTGTATTTAATTATCTCTTCAATATATTTTTTTTCTTTAGTCTTTAAATATGTTTTATATCTATATTCTGCTGACAAATCAGAATATAAAGATTTTTTTAACATTTCATTTAAAACAATATAATATTCTTTACTGTTTTTTAGTTTAGAATATATTTTTAATTTATATCCATATGCTTCTAAATAATTTGATAAATTTAAATATTTCAAACTTTTATCATATTTATGCTCAAAATAATATAATTTTCCAATAATATAATTTACTTTTGGAAGTAAAGAAGTAATTTTAACCTTTTTTAAATATAAAATTGCTTTGTCTAATTTTCCAACTCTTCTATATGAGCTTCCAATATAATAATATATTTTAGATTTATAGATATTATTTTTCAAAATATTGTTTGCATATAAAATAGTGTTGGGATATTCTTTTTTAGAAAAAAGAGTCTTAATAATTTTTATTTCCAAACTATTAGTTGGTTTTAATTTTTCTGCAAATTTATATAATTTCTTTGAATAATTATATTTTCCAACAGAAAAGAAAAAGTCGGAAATATCAATTAGTTGATTATAACTCAATTTTTTTATATTTTTAAAATTGTGTAGATATTTTATCTGATAAATATTCTTATACTTATTAGAAGATAAGGCTAAATCTTGGAGAGCTAATTTTTCATATTTCACTTTTTTAGAGTTATATTTTTTAGAGAAAAGTTTAGAGTAGTAAGATAAACTTAAATCTTTATTTATATTTGAATAAGATTTCCCAAGTAAAAAATATACCTCATATTTATGGTATGTTGTTTGTTTTAAATATTTAATAGCATTTTTATAATCTTTCTTTTGAAATAAAATTTTTCCTAAAAAATAATGAGGATATGTTGATTTAATTAAGTTGCTATCTGAATAATTTTTAAATAAATTTTCAAGCAATGTTTCGCTCACATCAAACTTATTGCTTTCATATAATTTTTCAGCTTTGGAAAATATAACGTAATCATTAATATTAATTGCATAAATATTAATATTAAATATAATGAAAATAGATATTAATATATATTTCATGTGATTCACCTCCAAAGTTATTATAGTTTATTTTTTTATATAAATCAAATTAAATTTTTTTGAATTTATATTTGATATTTTTTTAATATAAGTTTAATATGACTTTGAAATATGCAAAAATTGTGATATAATTATAAAAATATAAACACTTTATTTGACACTAACCTATTAAATTTAGGAGGTATTTTATGAAAAAGTTAAATATAAAAAAACACTTAAAAAATATTTTATCCGAAAAAAGATATGAACACACTATTGCTGTAGCAGAAACATCAGTAAAACTTGCTAAAATATATGGCGAGGATATAAATAAAATTGAAATTGCAGCATTACTTCATGATTGTGCAAAAAATTTAAAATTATCAGAAATGAAAAGGCTAATAGGAAGGGAAAGTGAATTGACCAAAGTAGAATATAATCTTCCTGAAATATTGCATGGATTCGCAGGTGCTATTTATGCAAGAAATATATTTAAAATAGAGGATAAAGATATATTAAATGCAATAAAATATCATACAATAGGCAGAAAAAATATGACAATGATAGAAAAAATAATTTATATTGCTGATGTAATAGAACCTGGAAGAAAATGCGGGAATGTAGATAAAGTTAGAAAATTAGCATATAAAGATATAGACTGTGCAATATTACAAGAGATGAAAAACAAAATAAATTACTTGTTATCAACTAATAGAGTAATTCATACTAATACAATTGATATGAGAAATAGTATATTATTAAAAAAAAGGAATGGTAAAAAAGATGAGAATATTAGTTGTTGAAGATGAAAAAAATATTGCGGAGTATTTAAAAAAAGGATTACAAGAATCAGGATATGTAGTGGATACTGTTTTTGATGGTGAAGAGGCAGTATATATGGCTTCAATTTATGAATATGACTTAATACTTTTAGATGTTATGATTCCTAAATTGGATGGAGTAGGCGTGATAAAAGAACTTAGAAAAAATAAAAATAGTTCATATGTTATTATGGTAACAGCAAAGGATAAAATAGAAGATAGAGTGAAAGGGCTTGATGCAGGAGCAGATGATTATATTACAAAACCATTTGCATTTGCAGAACTTTTAGCAAGAATAAGGGCTGTCCTGAGAAGAGGAAGCGATGATAAGGAAAATATATTAAAAGTAAAAAATTTAGAGATGGATTTAGTAAAAAGAGAAGTAAAAAGAGAAGGGAAATTAATAGAACTTACTTCTAGAGAATTTTCTTTATTAGAATATTTTTTGCGAAATAAAAATATGGTGCTAACTAGAATAATGATTTCAGAACGAGTTTGGGATATAGATTTTATAACGGAAACGAATGTTGTAGATGTATATATAAATCATTTACGAAAAAAAATAGATAATAATTTTAAAGATAAACTTATACATACTATAAGGGGGGTAGGATACATATTAAAAGATTAAAAATTGGAATAAAAAAGAAAATACTAATTATAAATATAACTATAATATTTTTTATATTAGGGTTATCTAGTTTTCTGTTTTTTATTATGCTGAAAAAATATACTTTTTCAGATGTAGATTCTAATTTAAAAACTACAAGTCAAATTATAAAAAATAGTATTCAGAAAAAATTTACACCTTTTGATTTTTATTTTGGAGATATAAAAGATTTAATTCCGAAAGATATCTCTGTAGCAATTGTAGATGAAAATGGAGCTATTTTATATAAAAATAACAATAAATTAAAAATAAAATTTTCAAAAGAAGATTTATCTAAAATATTTAATTATAAGTTGATTTATAAAGATTTGAATGATTATAGAATAATAATTAATCCATATAAATTTTATGGAAGAATAAATTTTTTGATTTTAGGTAAAAATACAAAGAGATTAACAGAACTTAATAGAAATATAATTTTTTTATTTTTTATAATAATGTTTTTTATAGCAGTTTTGTTAATTATATTAACGACAGATACAATTAATAGGATATTAAAATCAATTCAAAACATAACAAAAGTTGCAGAAAAGGTTGAAAATAATAGCTTACAATATAGAATAGAAAATAGATATAATACAAAAGAAATTGATGAACTTGTAAAGACTTTAAATAATATGTTAGATAGAATAGAAGATGGATTTTTAAAAGTAAAACAATTTACTTCTGATGTTTCTCATGAATTAAAAACTCCGATTTCATCAATAAAAAATATGCTGGAAGTTGAACTTTTAGAAACGAGAACAGCAAAGGAATATAAAGAGGTTATAATTAAAACTTTAGAACAAATAAATTGGTTGTCAAATATTGTAAATGACTTGTTATTGATGACTAGAATTGAGTCTGGAAAAGAAAGCTTAAATATAGAAAAATTCAATTTATCTAATGTAATTATAGAATTGATTGAATTAATGGAAGGAATAGCTGAAGAAAAAGAGGTAACAATATTATTTGAGGGAGAAAAAAATATTTTTATAGAAGCTGATAATAATAAATTAAAAAGAGTTATTTTAAATATGATGTCAAATGGAATAAAGTATAATAAAAAAAATGGAGAATTAAAAATAGAAATTAAAGAATTAGAGAATAATATAGAAATAATATTTGGAGATACTGGAATTGGTATGAAAAAGGAAAATTTGAATAAAATTTTTGAAAGATTTTATAGAGAAGATAAAGTAAGAACAATAAGAAAATCAGGAACGGGATTGGGATTATCTATTGTTAAATTTATAATAGAAAAGCATAAAGGAAAAATAGAAGTGGAGAGTATTGAAGGATTTGGAAGTAAATTTAGAATAATTTTACCCAAAAATTATAATTGAAAGTACTTTTTATAAAAAAATTCAGCACAAAGAAAAAGCATTTAAAATCATGGGAGAACATTGGTAAAAGAATATTTATGTGGGGGAATTAAGGAGGAAATAATGATAAGAATTTTGAAAACACTGCTACTGTTTTTTTTGCTAATAGTAAGTTTAGTGGGATGTGGTGGGACAAAAGAAAAGAAAGTGGCTGTAATTTTTACAAGTTCAATTGAGGGAAGAATAGATGGAATTAACACTGATAAAGGAAAGTTTGGTGGAATAGTTAATATTGCAGAAGAGATAAGAATTAAGAGAAAAGAGTTAGAAGAAAATGGGTATAAAGTATTATTAATGGATACAGGCAATAGTCTAAGTGGTACATATTATGGCTCTGGTGATAATATATATAATATATATGAAAAAATAGGATATCAAGTAATAGGAATAGGGGCTAGAGAATTAGAGCTTGGAATAGATAAAGTAGGAGAATTTAATAAAAAAGGAAAATTAAAATTTGTTTTAACAAATATTAGTGAAATAGATAAATATGCAAATGAAGAAGTAACTATAAAAATTAATGATGTTAAAATTTCAATTTTAAATTTTATAGATTATGAATCGCAAAATAATTATAAAAGAGAATTAAAAGGGTTGAAGGCATATTCCGCAATAGGAGAAGTGGCTTTAAAAAAAGTTGATGATGTATCTAAAAAGAGCGATGTAGTATTAGTTATTAATAATGGTACCCCTGTAATGAAATATAAATATTTAAATACAAATATAAAAAATTTAATTAATATATCTAGACATGATTTTAAAAATAGGAATATATATAATTTAAAAAGATATGGTCAAGAATTAGGCGTAATTACATTTGCGTATAATAGAAATGGAAAAATAATAAAGAATTTTAAGATCGAAAAATTTCCAATAACAGAAATGAAAATAAATAATGCAAAAGATATAGAAAAACTTTTGGAATATGAAAAACAATCAAAACAGCAAGAAGGAGAAACAGTTTTAGGAAAATCTAATATTATATTAGATAGAGATAACAGTTATAAAGAAGAATCGCCAATAACAAATTTTGTTTGTGATGTTTTATATGAGAAATATAAAAATAAAGGAGTAAAATTTGTTTTAATAAATAATGGTTCAGTAAGAAAACCGCTATTAAAAGGAAATATAACTAAAAAAGATATTTTTAATGTAATACCGTTTTTTAATTATTCAACAATTTTGGATTTAAAAGGTAAAGATATACAAAGAATTTTAGAAAAGCAAAATGAATTTTATGGTAGAATAAGAATGCAATCAAATTTAGGTGTGATACAAAAAATAAGCAAAAATAAACTAGAAGTTTATTTAAATGGAAAAAAGCTTGAAGATGAAAAATATTATAGGATATTAACAACTAATTATTTAGCAAATGGAGGGGATGATTGCACTGAATTTGCTAATAAAATAAATACTGAATATGGAAATTTATTAAGAGAAGATGTGGAAGAATATGTAAGAAAGAAAAAAATCATTGATTATAAATTCAAAAAAAGAATACTAAAATTAGGAGGACAAAATGATTGATTTTAAAAAAGTAAAAAAGATGAAAAAGGCAGAAATACATTTACATTTAGATGGTTCTATGAGAATAGAAACTATTTTAGACTTGGCTAAAAAAGATGGAATAGAATTACCAACTTATAATTTTGATGAATTTAGAAAATATGTCGAGGTAGAAAAAGATAATAGTTCTTTAATAGAATATCTTAAAAAATTTGAATTGCCATTAATGGTATTACAAGATAGTAAAGCATTAGAAAGAACCGCTTATGAATTAATTGAAGATTTGGCAAAAGATAATTATATATATGTAGAGATAAGATTTGCTCCATTACTACATTTAAATAATGGAATGAAGGCAGAAGAAGTTGTAGAATCAGTTTTGAGAGGATTAAAAAAAGCAAAAGAAAAATTTGGAGTTGAATCTGGATTATTATTATCAGTTATGAGGCATATGTCAGTTGAAGATGGGAAAAAAGTTTTAGAATTAGGTAAAAAATATAAAGATAGTGGCGTTGTTGGATTGGATATGGCAGGAGATGAAAAAAATTATTCGCCATTAATATTTAAAGAAGTTTTTGAGGAAGCAAGAGAAGCAGGAATAAATTTTACTATACATGCAGGAGAAGCAGCAGGAGTAAAGAGTATAAGAGAAGCAATTGAATTAGGAGCAAAACGACTAGGACATGGGATAAGAGCTTTTGAAGATGAAGAACTATTAAAAGAGATAAAAGAAAAAAATATTGTATTGGAAGTTTGCCCAATTAGTAATTTTCAAACTAAAGTATTGGCGGATTTCCATGATTATCCTATAAAAAAATATTTGAAAATGGGAATAAAATTAAGCTTAAACACAGATAATAGAACTGTATCAAATACCAATTTTATAAAAGAATTGAAATTTTTAGAGAAATATTTTGATTTTGAAAATGAAGAAATTGAAGAGATGGTAAGAAATAGCGTGAGGTTTAGTTTTGCAAAAGAAGAGACAAAAAAAAGATTATTAGAGGAGTTATAAAATGAGAGATGATAAAGATATAATATATTTTTTATCAGAAAACAAAGCAAAAGGGATAAATGAAATAATAGATTCACTTGGAATGTCCAGAAAAAATAAAAAAAAGATATCTAAAAAATTGGAAGAGTTAGAAGAAGCAGGGGAAATAGTTAAAATAAAAGGGAATAGATATACAACACCAGAAAAGGCAGGATATTTAAAAGGAAAATTTCAAATATCAAGAGGAAGCTTTGGATTTGTAGATGGAGAAAATGAATCTGTTTTTATTCCAAGAGGAAAATTTGGAACTGCAATGTCAGGAGATACTGTGTTAGTTAATATTACTGTACAAGGCACAGCTAGAAAAAAAAGCGAAGGTGAAATAGTAAAAATAGTAAAACGAAGTTCTGATAAAGTAATTGGAATATTTCAAGAAAATAGAAACTTTGGATTTGTAGTTCCAACAACTAAAATGGGAAAAGATATATTTATAAGTAGAAAATATTTTAAAAATGCTAAAAATGATGATCTTGTTTTAGTAGAGGTATTAAATTGGGGTGAAAAAGCTAAAAAACCAGAAGGAAAAATAATTGAAGTATTAGGAGATCCATATGATACAAATGTAATGATAGATGCTTTAATAAAACGAAATGGATATAGCGAAGAGTTTCCAGAAGAGGTAAAAAAAGAGTTAGAAAATATAACTGAACCATCTGAAGAAGAAAAGAAAAAAAGAAGAGATTTGAGAGAATTAGCATTAATCACAATCGATGGAGAAGATGCTAGAGATTTGGATGATGCTGTTTATGTAGAAAAATTAGAAAATAATAATTACAAATTAATAGTAAGTATAGCAGATGTATCTTATTATGTAAAAGAAGGCTCAGAGCTAGATAAAGAAGCTTTAAATAGAGGGAATAGCGTTTATTTAGTAGATAGAGTAATACCAATGTTTCCAAGAAAATTATCAAATGGCATATGTTCGCTAAATGAAAAAGTTGATAGATTAGCATATACAGTGGAAATGGAAATAAATGAAAAAGGAAAAGTCTTGTTTGTAGATACATATAAATCTGTTATAAATGTAAAACATAGAATGACATATGGTTCTGTTAATAAAATATTAAAAGATGACAGTAGTGAAATTGAGAAATATAGAGATATTTATGATATGCTAAAGAAAATGAGAAAATTATCAGATATTTTAAGAAATAAAAGATTAAAAAGAGGGAGTATAGATTTTGATTTTAAAGAAAAAAAAGTTGTATTAAATAAAAAAGAAAAAGTTGAATATATAAAGGTAAGAAGTAGAGATTTATCTGAAAGTTTAATAGAGGAATTTATGTTATCAGCAAATGAAGCTGTAGCTGAAAAACTATTTTGGTATGAAATTCCTTCAATATATAGAATTCATGAAAAACCAGATCTAGATGACATAAAAGCTCTTAATAAAATATTAATGAATTTTGGATATAAAATATCTAATATAAATGAATTACATCCTGGAAAATTTCAAAAGATAATAGAGGATGTAAAAGATAAAGAATATAGTATGTTAGTAAATAAAGTAATCTTAATGTCGTTAAAACAAGCTAAATATAATTTAGAAAATTTAGGACATTTTGGATTAGCAGCAAGTTATTATACACATTTTACTTCCCCAATAAGAAGATATTCTGATCTGATTGTACACAGAATATTAGATGAAGTGGAAAGTGGAAAAATCAATAAAAAAAGAAGCTTATATTTAGAAAAATTTATTGATAAAGCTGCAAAACATATCTCAACGACAGAAAGAGATGCAGAAAAAGCAGAGAGAGAAAGTGTTAGAATAAAAATAGTAGAGTATATGATAGATAAAGTTGGGAATGAATATAACGGAATCATTACAGGATTAAATAAAAATGGAATGTTTATAGAATTAGAAAACTATGTAGAGTGTTTTTTTAATACAAATAATGCTAAAGATGAATACATTTTTGACGAAAATAAAAATAAAGTACTTGAAAAAAATAGGAATAAGAGTTATAATATAGGCGATGCAATAAAAATTTTAGTAGTTAGAGCGGAATTAAAAGATTTATCAGTTGAAGTGATTCCTTTCGAAGGAGAAGAAAATGGCGATAGCAGCAAATAAAAAAGCATATCATGATTATACCATTTTAGAAAAACTTGAAGTTGGGATAGAATTAAAAGGAACAGAAGTAAAATCGGTAAAAGCAGGAAAAACTAGCATAAAAGAAAGCTATGTAAAAATATTAAAAGATGAAGTATTCATTTTAAATATGTATATTGGAAGTTATGAGTTTGGAAATATACATAATGTAGATGAGAGAAGAACTAGAAAATTATTTTTACATAAGAAAGAGATATCAAAATTGGCTGGTAAAGTTTCTGCAAAAGGATTTACACTTGTGCCATTAAAAGTATATCAGAAGAAAAGATTAATTAAATTAGAAATTGGTTTGGCACAAGGAAAAAAATTACATGATAAAAGAGAAGTATTAGCAAAAAGAGATCAACTAAGAGATATCAATAGAGAATTAAAAAATTATAGGTAATATTTTGGGGGTGTTCTGGTTTCGACAGGGGTGGATATTTTATAATAAGCAAGCTAGGGTGACTCCTATAAAAAGTCAAAACTTAAAATTAAACGCAAATAATAATAATTACGCTTTAGCTGCCTAGTCAGCTAGCCATTGGTTGTCCTTGTCAGGGTGGATTAAATCAATGCTAACTTTACCTGACTACCTATTATTAGGTTCTCTGAATTAATAGGGAAATTTAGGAGATAGTTTTATCAAATCTTGCTTTTGGGAGTTGATAAAATGAATTTAAATCAAAAGATAAGCTTGTAGAAAGTTATAGATGATTTGTCTCTGGACATGGGTTCGATTCCCATCACCTCCACCAAAATTTATATATAAATAAGTACTTAAATAGAATACAATAAAAGTTATATTAGACTTAGCAGTTTTTTCATTTCTATGAGAAAAAAATAAAAAATAGGGGGATTGCTTTATGAAAAGAATAAAAACAACATTATATGTATTATTATTTTTATCAATTAATTTATTAGGATTTGGAAATGTTAATAAAGAATTAGTTCGTTTAGAAATAAATGAAACAGCAAGAGGATTTACAAAAGACCAGGTTTGGAAAAAGATACCCTTTACAGTTCCTTATGAAACAGAAATAAAAATAACAGTTATAGCTTCTACTGATTCCAATGGAAAAAGAAATGATGATGATTTAAAATGGGCATTAGATGAAAATGACTTTGGATGGGCTACAGAAAGAGCATGGGATGGAAGAACATTAAATGGAAAGAAGAAAACAGTAGTTGTAACAACTAGATTAAATGCGGGAGATCACTATTTGAAGTTTTGGGCTGATCAAACGCCGACTTTATATTCAATAAAAATTGAATATAAAGCTAAAAATACTATAAAAGAATTAAAAATGAAAGATTATAGATATATAGATGGAATGGGTATTAAGCTTTTATGGGAACCTGTAGAAAAAGCAAATGGATATAAGATATTTAAAAAATCTAAAAAATATTCAAAATATTCAGAAGTTGCAGAAGTAAAAGTTCCATTTTTTATGGATGCGTTTGTTACTCCTGGAGATATTTATGATTATAAAATAGCAGTTTTGAATAAAGCTAAAAGAATAAGTTTTTATTCAAAATCAATGACAATTGAAGTTTCAGAAAAGATACCGCCAAAAGTAGTATCAGATTTAAAAGTTATATCTAAAAAGGGTGTAGTATATTTAGACTGGAATCAAAATACAGAACCCGATTTTGCAAGTTACAATATATATAGAAAGGGTAAAAATGATTTAAGATATTCAAAATATGCAATAGCCTTAGATAATAGATATGAGGATAAAAAAGCTAGTGAAATGAAAAAATATTCTTATAGAATTACTGCTGTAGATATGAATGGAAATGAAAGTGGAATGTCAAAAGAGGTGACAGTATTAGTAAAGCCTAAATTTTATAGACCACAAGGTGTTGGAGATATATATCCAAAGGAATTTTATCCTGGGGATACAATAACAATATATTTTTCACCTAGAAAAAGTACTCAAATAAGAAAAAGAAGATTAAGAGCAAAAAGAAGAGATCCAAAGATAAGACCGTTGCCAAAACAAATGTATGTACATTATGGATTAAATAACTGGGATCCAGATTATACTATAGCAGAAGCAAAAGACCCTAAAATGACTTATGATAAATCTATTTCCGCTTGGAAATACGAGATGAAAGTTCCTATTATTACTAAAGAGATAGATTTTGTATTTAAAGATGAGTTAGATAATTGGGATACTAACTGGTCAAAAGATTATAAATATAAAGCTGCAAAAGATAAAGTACCTCCAAGTGCTCCAACTAAATTAACATCAATACCAAAATATAAATTAGTTTATTTAGAATGGGCACCAAATGAAGAGGCAGATTTAAGCTATTATAAAATTTTTAGAAGTTCAACAAAAAATGGAAAGTTTGTTCCTATAACAGCAAAATTGAAATCAAATTATTATAGGGATATAGATTTAACACCTAGAAGTACACATTTTTATAAGATTAAGGCTTATGATGTTAATGATAATGAAAGTGAATTTTCTAATATGACTGAAGCCAAAGTATTAGAAAAAGGGATAGAGCTTAATAAACCATGTACTTGGAATCCAAAAGTTCCAGGGATGGGTGAAAAAGTTAAGATATATTATTCGCAGCATTTAGGAGCTTTAAAAGAGTCAAAAAAAGTTATGATAAAAATAGGTGTTAATGATTGGGATACTCTTAAAAAGCCTATAAAAAATTATGATATGAAATATGATAAAATTTTAGATGGATGGTATTATGAATATAATGTAGAGCCAGGGGTATATACTGTAAATGTTGCATTTACAGATGGTCTTTTATGGGATACAAATTTTGGAATGAATTGGAATATAAAAGTTATGCCAGATAAAGAGCCGCCAACAAATGTAGTAGGATTAAAAGCAATTCCAGAAGCAGATAGAATCAACTTGTTATGGAAAGCTAATACAGAAAAAGATTTGGCAGGATATAATGTTTATAAAAATGGAAATAAATTAAATAATGCTTTGATAAAAGAAGCTAAATATGAAGATGTAGCGGTAGAATCAGGAGTTGATTTGAATTATTCTGTTACGGCGGTTGATATGTATGGAAATGAAAGTATACAAACAGCAATAACAACAAAGACTTTGAGAGATATTATAACTGTTCCAGAAACAGTATACATGTCAACTTTAGCCAATAATAGGTTAAGACTAATAGCTTCATTTGATACTATTGTTGCTTGGGAAATAAAAGTAGTTGATTCAAATGGAAATTTAGTAAATAAATTTAATGGTAGAGGTTCAAATGCAATTGCGGTATGGTATTTAAATGATATAAATGGAAAAAGAATAAAAGTAGGAAAATATAAGTATATAGTTAGTGTTATGGGCGATGAAAGTATAATGAAAAAAGAAGTTCAAATACAAATTATAAAATAAAAAAGTCGGCGTATGCCGACTTTTTTATTTTATATATGTTTAAACTAATAGGAAAAGATAAATTTATTCAGAAAATAAGCTACGCCATTTTTTTACTAAAGATTAATTTTAAAACTCCGATATTTATGTTATAAAGTATAAATATTATTTAGGAGATGATTTATTATGATGAATTCGTTATGGAGTGCAGCTTCAGGAATGTTAGCACAAGAATTAAATATGGATGTAATTTCTAATAATTTGGCAAATACTGATTCAGTTGGATATAAAAAAAGTAGAGTAGATTTTCAAGATTTATTATACCAAACAAAATCTGTTCCAGGTTCTTTGAATGCAGAAGGGACATCATTACCAATAGGAATACAAGTTGGGAACGGAGTAAGAGCTATTGGGACTCAAAAAATATTTACAGATGGGGAATATACAGAAACAGGAAATGATTATGATTTGGCCATACAAGGACAAGGATTTTTTCAAGTATTAATGCCTGATGGAAGTATGTCATATACAAGAAATGGTTCTTTTAAAATAACAGATACAGGGCAATTAGTTACTGCTGATGGATTTCCATTAGAACCATCAATAACTATACCAAGTGATGGGACAAAAATGTCAGTAGGCTCAGATGGGACAGTATCAGTAATGAGAGGGAATAGTAATACTTCAGAAGAAATTGGGAAAATAGAATTAGCAAAATTTATTAATCCATCAGGACTAATGAATATAGGAAAAAATTTACTAACAAAAACATCTGCAAGTGGAGATGCAGAAATAGGTACAGCTGGAGATAATGGCTTTGGTTCGTTGTCTCAAAGAACTTTAGAAACATCAAATGTAAAAGTGGTAGAAGAGATGGTAAAAATGATTACAGCACAAAGAGCGTATGAGGTAAACACAAAATCTATTCAGACTGCTGATAGTATGCTTCAAATGGCAAATAATTTGAAACGATAGGTGATATTATGAAAAAATATTTTCTTATAATAATGTTTTTTTTCTTATTGTTTTTTTTAGGAGAAGTTACTTTTGGAGAAGAGATTAAAATAAAAAATTCGATTAGAGTAACAAATAATATAATAATGTTAAGTGATATATTAAAAACTGATAATAAAAATATATTGGAGAAAGCAAAAGAAGTTCAGATAGGATATTCTCCTAAAGTTGGAGAAGAAAAGAAAATAGAAAAAGAATATATTAATTTAAAAATAAAGCAACTAAACTTAGATGATAAGATTAAAATTAAAATTCCTGACTATATAACAATAACTAGAAATTATCAAATATTAACAAAAAAAATATTTAAGTATATGGTTTTGGAGGAATTAAACAGTATATATAAAAATAGTGGATTCTCTTTAGAGTTAAAATTAGATATGAATGAGGAACTAAAATTACCAGTTGGCAATATAAAAGTTAAATTTGGAAATAATAGATTAAGTGATATAAAAATAGGAAATTATAATTTCACAGTAAAAATATTTGTTAATGATAAAGTAGAGAAAATAATTAGAACAAATTTAAAAGTAGGAATCTTAAAAGAAGTATATATATTGAATAGAGATGTAAAAAGAAATGAAAAATTTTCGATTGAAGATGTCATTAAAATAAAGAAAATATTTATTAATAATTATTATAGTGCTAATATAGAAGGCGTTAATGAGATAAAAGGAAAATTATATAGAAGAAATTTAAGAAAAGGAGAAATATTAAAATACAAAGATTTTATAAAAGAAAAAATATTTAAAAGAAATTCTTTAGTTACTATTTATGTTGATTATAACGGAATAAAATTAAAAGCTACAGGAAAAGCTTTAGAAGATGGATATATAGGAGATAATATTAGGGTATTAAATATAAACTCTAAAAAAATAATAAATGGAATAGTAACAAAAGAAGGAATGATAAAATTAGAGATAAAATAACAAAAAAATATAAAATTTGGAAAATAGAGATAAAAAAATAAAATCTCTATTTTTTTTATTGATTTTTTTTCAAAAATAGAGTAAAATATAATCAAAGTGGTAAAAAGTGGTAAAAAGTGGTATGAAAAGGGATGATGCTGATGTTTATGGGAGAATTCAAACATAATATGGATTCAAAAGGCAGAGTTATGATGCCATCTAAATTTCGAGAAGAAATAAAAGATGGAAATTTTGTCTTGACTCGTGGACTTGAGAACTGTCTATTTTTATATCCTATAGAAGAATGGGAAAAATTAGAAGAAAAAATAAAAGGTTTACCACTTACAAAAAAAGATGCAAGAGCTTTTGTTAGATTTTTGTTTTCAGGAGCTATAAAAGAGAATTTAGACAAACAGGGTAGAATAAAAATACCGGATAATTTATTACAGTTTTCAAAAATAGAAAAAGAAGTGATAATAACAGGTGCTCTAAATAGAATTGAAATATGGAGCTTTGATAACTGGAATTCTTATATAAAAGAAGCAGAAAATTCTTTTGAAGAAATTGCAGAAAATTTGATTGATTTATAGGAGAGAAAAATGGAAAAAGAATATCACATACCAGTTTTGTATAAAGAAGTAATAGATAATTTAGTTATAAATAAAAATGGAGTTTTTGTTGACTGCACTCTTGGTGGTGGTGGCCATTCAGAAGGAATTTTAAAAAACCTATCTGAAAAAGGACATTTAATAGCAATGGATCAGGATGAAGAAGCTATAAAGTTTTCAAAAGAAAGATTAGAAAAATTTAAAGATAAAATATCTATTTATAGAGATAATTTTTCTAATATAGATACTGTTGTATATATGGCTGGATATGATAAAGTTGATGGTATATTAATGGATATAGGAGTTTCTTCAAAGCAATTAGACGATGGAGAAAGAGGATTTTCATATAGATATAATGCTAAATTGGATATGAGAATGGATAAAAGGCAAGAATTAACAGCTTATAAAGTTGTAAATGAATATCCAGAGGAAAAATTAGTAGAAATATTATATAAGTATGGAGAAGAAAGATTTGCAAAAAGAATTGCTCATTTTATTATAGAAAAAAGAAAAGAAAAACCAATAGAAACTACATTTGAACTGTCTGAAGTTATAAAAAGAGGTGTAAAGGGAAAAAGCAAAAAACATCCTTCAAGAAAAACGTTTCAAGCAATTAGAATAGAAGTGAATAAAGAATTAGAAGTTTTAGAAAAAACAATAGATAAATCAATAGATTTATTAAAAAAAGGTGGAAGGCTAGCTATAATTACATTTCATTCATTAGAGGATAGAATAGTTAAAGAAAAATTTAGAAATTTAGAAAATGGATGCACTTGTCCACCAGATTTTCCAATATGTGTGTGTGGATTTGAGCCTAAAGTAAAGGTAATAACTAGAAAACCGATAATTCCAAATGAAAATGAAGTAGAAGAAAATTTTAGAGCTCACTCTTCAAAACTTAGAGTGGTGGAAAGGGTGTAATAAAATGAGAGATAATACAGCCAGAAAAGAGGAATATTTTTATTCATATGATAATGAAAATATAACAAATAAAAATAATGTAGTAAATAAAAGTCAGAAACAAAAAAATAATTTTGTGGCTGTTTTGTTTTTTTCAATTTTAATATCTTTGGTTTCTTGTATTTATGTAAATTTAATTATGAAAGAAATAGAGGCTGGAAAGCAATTATATAAATTAAAAATAGAAAAGAAAAATCTTATAAAAAATATATCATTATTACAATCTAAAATAGATGGGAAAATGGATTTGAATAAAATAAGGAAAATTGCAGAAAAAGAGTTAGGTATGGAAATATATAATCAAATACAGTATTTAGCAGTAAAATAGATCAAAGAAATTATAATTATTTTGGTCTATTTTTTTTTGAAAAAAAGGAAATATTAGTTTTTGTTGTATATTATAATTAAGGAGCATTAAACAATTACTTAGGAATGGCTTAAAAATAACATTCCCATTTTGTTTTAAAATACGCAATAATTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCCTTACTTTTTTATGAGAACTATTGAGTATGTTATTGTTTTATGAGCCGGAAGAGAAACATATTTTCAAGAACAAATAAAAAATAAGGATAAGGAGGATATTTATGGAAAAAAGTTTTGTAATGGTAAAGCCAGATGGGGTACAAAGAGAGTTAGTAGGGGAAATAATTGGTAGATTTGAAAAAAAAGGAGTTAAAGTAATAGGATTGAAATTAATGGTTATTAGTGAAGAGTTAGCGAGAAAACATTATGCGGTTCATGAAGGAAAATCTTTTTTTGAAGAATTAATAAAATTTATAACATCAGGTCCAGTTGTAGCAATGGTTATGGAGGGAGAAGGAGTTATTGGTGTAATTAGAAAAATGGTAGGGGCAACAAAGCCAGGAGATGCTGATCCAGGAACGATTAGAGGAGATTTTGTATTGGATGCAGGACAAAATATAATACATGCTTCTGATTCTAAGGAAAATGCAGAAAGAGAAATAGATCTATTTTTTGCAAAAGAAGAGATTATTGAGTATAGTCTAGCTGTAAGACCTTGGATATACTCTTTGCCAAAAATAGATTAATTAAAAATCATATATTTTTAAGATAAGGACAGATTTTGTATCTGTTCTTTTTTTACCTGCTAGAAAAGTATAAATTGCACTCTTGATTAATTGTGAATAATCGAGTATAATAGTGTGGTAATTTAAAAAAAAGTAGTGAAAAAATATAAAATAGGAGATGAAGTAATGAAAAAAACACTAGTATTATTAGGGACACTATTTATGATGACGTTGTTATTTGCACAAGAAGAAGTTACAATTTACACTTATGACAGTATGGGATGGATAAATGATAAAGTAGTAACTCAATTTGAAAAAGAAAATAATTGTAAGGTAAAAGTAGTGAAATTTAGCAGCACAGGAAATATTGTAGCAAGATTAAAAATGGAAAAGAAACATAATAAAGCGGATTTAGTAATTGGAGTAACTCCAGTTATGTTAAATGCTTTAAAAAAAGAAGATTTATTAGTATCTTATAAGTCAAAATTTATAAAAAATATAAAAGAAAAAGAAATTATATTTGATAATGAATTTTATGTAACACCATATGATTATGGAGCAATTGCAATTGTATACAATCCAGAAAATATGAAAAGTATCCCTAAAAATTTTAAAGATTTGACTAAATTAAAGAAAAAACTTATAATAGAAGATCCAAGGACATCTACTACAGGACAGGATTTTCTTTTGTGGACAATAGCAGTATATGGTGAAAATTGGGAACAATATTGGAAAGAATTAAAACCTGCAATTTTAACAGTAGCACCTGGTTGGAGTGAAGCATTTAGTAAATTTGAAGCAGGAGAAGCTCCTATGATGGTTAGTTATGGAACTGACGGAGCTTATTCATATCAATATTATAAAAGTACAAAATATAAAGCGTTAATACCTGATGATGGGGGATTTATAGAGGTAGAAGGAGTGGGAATAGTAAATGGTTCTAAAAATATAGAACTGTCTAAAAAGTTTATTGATTTTATGTTAGGGAATAAATTTCAAAAAGAGATACCTCTTAATCAATGGATGTTTCCTGTTACAAATATAAAATTACCAGAATCATTCAAATATGCGGTTTCTCCTAAAAAAGTGGTGTTAGTATCAGGAGAAGAGATATCTAAAAATATGAAAAAATGGCTTGGAAAATGGGAAAAAATTATGGAATAATGGAGAAATAATATGAAGAAAAAATCTTTTTCAATAAATATGATTGTATTAATAATTTGGACAATACCTTTTATATTTTTTTTAAAGGATTTTTTTAAAGTATCAGAATTAATTAAATTATTTAATTATAAATTGTTAAAAATTTTATATTATACAGTATTACAGTCTGCAATTTCAACAGTAGGAGCATTTGTTATATCACTTGCTCCTGCTTATTTTTTTTCTAAAAAAGAAAATTTATTATCAAAATTATTAGGCAGTACAATAGTAATACCATTTTTTTTTCCAGTGGTATCTGCAATAGTCTCATTTTCTATAATATTTTCATTTCCGTTATTGAAAAAAATTGGACTTATGTATAGCTTTTGGGCTATAATAATTGTTCATATATTTTATAATTCTCCAATTTATGTGAAATATCTTGGGGAGGGATTAAAAAAAATACCAAGAAACATAATAGAAGAAGCTGAAATTATAGGTGCGAAAAAAAGAGATATATTTTTTAAAATAGAATTGCCAATATTAGCTTCAGCAATATTAAAAGCTACTTTTTTAGTTTTTACATATTGTTTTATGAGTTTTGCAGTTGTTTTAGCATTAGGTGGAATCAAATATAGTACTTTTGAAGTTGCAATAGTAACTTCTCTTATGGGAGAATTCAATTTTTCAAAGGCATTTATATATGCTTTTATTCAGTTTTTATTTCTTTTTTTGTTTAACAGTTTATTAAATAGAGTTGGAAATGAGAATTATGAATTAGGAATGGAAAATAAAAAAGAGAAAAAAATAAATGTCATTATATTAATTATATCTATATTTTATTTAATGTTTGAATTTGGAGTAATAATAATCTCTGTTATATATTCGTTTTATGATTTTTTTAATAGCAGATTTGATTTTTCTGCTGTTAATAGAGTTTTTTTTGGAGATATATCAAAAAAATTTAGAGTATACAGTTCGTTTTGGAATTCTATTTCTATATCTTTTTTTGTGGCATTTATAGTGGTTATATTTGTATATTTGATATTAAAAAACAAAAATAAATTTATTTCTAAATTTGTTGTTGCAGCAATAAGCATATCACCAGCTTTTTTAGCTATGGCTTTGTTATACATGAATATATTATTTGATATTAATTTCTTTATTCTATTATTTTGGGGATATTTATTAATTACAGTTCCAATAGGATACTCTTTTTTGTATCAACATATAACAGGATTTGACAAAGAGATTATAGAGGCAGCAAAATTAGACGGTGCAACAAATTTTAAGATGTTTTATTATATTGAGGCGCCTATATTATTTCCAGTATTTATAGGAACTTTTTTGCAGCTATTTGCTATTATATACGGTGAATTTACATTAGCATATGCAATGCAGGTTCAAGAATATGTGCCACTTGTATCAATATTAAATTATAGTTTATCTTCACGTAGATTATTTAAAGAAAGTGCGGTAATTAGTGCGGTAAATATTGTTATAATCTTGTCTATTTTTGTTATTAGCGAAATGATGATTAGTGGGGAAAAGAAAAGTAGAAAAGAGAAATAGAAAGGAGTTTAAGTCATTTCTAAATATTAATTGAAATAAGATGTTTTGTATGGTAAAATAAAGTATTAAATAGCCGATAATTGGATAGAGGTGATATAAATGTTAAGAGGAATATATACATCAGCATCAGGAATGATTGCACAAATGGAAAGGCAAGATACAATAGCTAATAATTTAGCAAATGTAAATACTACAGGTTTTAAAAAAGATCAATCAGTTATAAAACAATTTCCAGAGCTTATGTTATACAGAAAAGATGATGAAAAAGAGATAACAAATTTTGGAGAAACTTCAATTTTAACAAAAATAGGTGCACTTGGTACAGGAGCATCATTAGAAGGAGTATACACTGAATTTTCACAAGGAAGTTTAGAGAAAACTGATAATAATTTAGATTTTGCAATTTCGGGAGATGGATTATTTGCAGTGGAATCAAAAGGAAGTGTCAAATTAACAAGAAGCGGTGATTTTGCATTAAGTCCAGAGGGATATTTAATAACTAAAAATGGCGAAAAAGTTTTAGGGAGTTCAGGCAGTCAATTAGGTTATATTAAAGTTTCAAATTCAAATTTTAAAATAACTAAAAGTGGAATTTTGAAAAATGCTAAAATAGAAGCAAGCAATATAAGTGCTAAGAATATAAGTTTAGATGGAAATAGCGGGGATTCATTATTATTATTGAAAGTATCTGATAATAAAAACTTAAAAAAAATAGGGGATAATCTTTTTGATATTTCAAATGTAAAAACAATTACACAAGATAATAGTTCTAAGATGGAGCAAGGATTTATAGAACATTCAAATGTTAGTAGTATAAAAGAGATGGTAGAAATGATAGAGGTTTCAAGAGCTTATGAAACTAATCAAAAGGTGTTGACATCTCAAGATGAAACGTTGGGAAAAGTTGTGAATGAAGTTGGAAAATGGGGGTAGATAATTTTAAATTATTTTAAGAATAGGAGAAAGTAAAATGAAGAGAATTTTAAAATTAACAATTTTAGTTACATTTATATTAAATATTTTTTTATTTTCTGGTTGTACTCTTTTTAAGAAGAAGGAAAAGAAAGTTGTAAAACTTCCCGTAGAAAAGCCAATAGAAGAAAAATATGATGAATTATATAAACAGCCAATAGAAAAAGAAAAAACAGAAGAGGAAAGATTGTCTTATGCAAGTCAGTATAACTCATTATTTTCAGATAACAAAGCTAGACATGTAGGAGATTTAGTAGCTGTAATTATAAGAGAAAACGCTTCAGCACAACAAACTACAAGTGATAGCAGAAATAAAAATGGGACATTAACAGGAGCTGCAGGGACAGGATTTTTAAATTTTTTGCCAGAAATGAGTGCATCTGGAAAAACATCTTTGGCAAATTCAGGTACAACAAAAAGAAGTGGGAACTTAACAGCAAGAGTATCAGCTCGTATAATAAAAATTGATAAATATGGAAATTTATTATTAAAAGGTAATAGAAAAGTATTGATAAATAATGAAATACAAGAAATAGAGATAGAGGGTTTTGTAAGAAGTGAAGATATAGCAGTGGATAATTCTATAGAATCTAGTTATTTAGCAGATGCAAGAGTAAAATATAATGGAAAATTAGTTTTTGATGGAAAAGCAAATCCAGGCGTGATATCTAATGTATTAGGATCTTTGGTGGGATTTTTCTTTTAGAAAAGGCTAAAAAACAGATTATATAAAGTGATGAAATGGTTAAGGTTCTTTAGGAGGAAAAATAAATGGGGAAGAAAATAAAATTTCTAATATTAATTATGCTAATAATAAATACAATATCTGTATATTCGGCAGAAAAAGTTAGATTAAAAGAAATCGCTAGAATTCAAGGAGTAAGAAGTGTACAGCTCATAGGAATGGGAATTGTTATAGGTCTAAATGGAACTGGAGATAAATCATCCTTAACTCCTCAAATGTTACAAAATTTATTTAAATATTTTGGGACAAATATAGCAAGAGCACAAATAAAGTCTAGTAATGTAGCAGCAGTAATGGTAACTACTACATTACCACCATTTAAAAAAGTAGGTGATACAATAGATGTAACGGTTTCTTCGATAAATGATGCGAAAAGTTTGGAAGGTGGAATATTAATTCAGACATTATTAAAAGGTCCTGATGGAAGTGTATATGCTGCTGCTCAAGGGAGCTTAACAAAAGTAAATAATAAGACTACAAATAAAGTAAATGGATTTTTATCTAATGGAGCAATAGTAGAAAAAGAGATAAAAGCAGAGATAGAACATAATGATAAATTAGTTTTAGTATTAAATAATCCTGATTTTACAACTTCTTCAAGAGTGGCTGATGTTATTAATAAAAGATTTGGATTAGATAGTGCAAAAGCAGTAGATGCAGCAAGAATAGAGATAAAAAAGCCTTATTCATTTGAAAATGATATAGTAAGCTTTATATCTTCACTTGAAAGTATAGAGGTAGAGCCAGACAGGATTTCTATAATTGTAATAAATGAAAAGACGGGAACAATAGTGTTAGGAGAAAATATTAAGGTTGCACCAGTTGCAATTTCACAGGGGAATCTAAACATAACAATACCAGGTAGTTCTAGTTCTGGGAATAGCTTTTATTTTAATGGACCAACAGTAAAAGATATAGTAAAAGTATTAAATTCAGTTGGAGCAACCCCAAATGATATTATATCAATATTACAATCTTTAAAAGTAGCAGGGGCAATAGATGCTAAAATAAAAATTATGTAGGGAAGTGAAAAGGATGAAAATAGATTATTTGAAATTAACAATGCCTAATAAAATAGATGTTCCTAAAACAAAACAAGAAAAAGCATTAAAAAAGACAACAGAAGAGTTTGAGAGTATATTTTTGAAGATGATGATGGATGAAATGGATAAAACAGTTGATAGGAAAAATAGTATGTTTTATGGAGGAAATGCAGAAGATGTTTTTAGAGGAATGTTAAACCAGAAAAGAGCGGATAGCTGGTCTAAAAGCGGTGGGGTAGGGTTAGCAAAAGTTATGTATGAGCAGTTATCAAAAGGATTGCATGAAGGAGGAAAGAAATGAAAAAAAATTTTCTTTTTTTCTTTTTTTTGATACAAATATCTGTTTTCTCAGTTGAAATTATGAATTTAGATGAGATTATGCCAAATATGGATGGGTATGGTTATACAGTTTTTGAAAATAAATTTATAGAAAAATTTAACGTAAAATTATTAAAAATAGTAAAAGGAAAAGGAACAATACCATATTATATTTTAGCAAAAGTATATGGGGACAATATTTATAAAGCAGGTGGAATAATTGAAGGAATGAGTGGAGCACCTATATACGTTAATAAAAAATTAGTAGGAGCATTAAGCTATACTTTAAATTCAATAAATAATGATATAGGAATAATTACTCCAATAAAATATATGCTCTCTTTGGGAGAAGGCAATTCAAATAAAGATAGCGAATATGTAAGGCCTGGGACGGCAATATCAATAACTCCCTTTAGAGGTGATATATATATGGATAATATAGGGACTTTAACTTATGTGAAAAATGGAGAATTTTATGCACTGGGACATTCATTTCAAAATTTAGGAGATATAAAATATTTTTTAAATAAAGCAGTAATTGAATATAGTTTAAATGCAAAATCAAACCCTTTTAAAACGGGATATTCAACAGAAACAATAGGGAGTGTATTAGAAGATAAAAGCTCTGGAATATATGGAGTATTAACAGATAATATTGAGACATATAAATTTAATTTAAATATTAATGGAAAAAAGTGTAAGTTTGAAATGCCAAAAGATAAAGTCACATTGAATAAATTTTTGAGTAAAGGGATAGAGTTAGCGTTAAATAGTAAATTAGATAATATAGGGTTTTATACATTAACATACAAATATGATATTTTAAAGAAAGATAAGAAAATAGCTAGTAAAGAGAATATCTATACTTTTGATAATAATTTTTTTGAGAATTCAGGGATGATAATTGGAAGTGAAATACTAAATGAAGTTGATAATCAATATAAATTTTTAGATTTTGATAGAGTCAACATTAATATTAATGCTGACAAAAATATAAAAATTATATATATAAATGATTTTACATTAGATAAGGAGATCTATAAATTAGGAGATACTGCTATTTTAAGTTTAAAATATCATATTTATCAAGGAAAGGATCTGAAAAAGAATATTCCTATACTTATACCAAGTGACTTTCAAGTTGGAAGTTTTGTAATAGAAATTTCACCTTTAAATTCACAAGGTAATGATACTGAACAAACTGGTAATAATAATCAAAATAGTAATAATGGCTTAAATAATATATTAAAGATAGAGATAAAAGATGGAGATTCTAAATCAATTTTTTCTAAAAAAATAAAATTTTCATATAAAATTGATTTAGAAAATAATTTAACAAAAAACATAGTTATTGATAGTTTTGAAGCAAATAGTAATAGTAGTGAGGAGAAAAATTAATGGTATTTTTTTTTGAAAAGTTAGGCGCTATTTTTATATTTTTAATGAAGGCATTGGTTGGAGTGATAACATATTTTTTTAATAAAAATAAGTTGATAAAAAAGAGTTTTATTGAGCAGATATATTCAATAGGAGTTCTTTCATTTCCAATGGTTGCAATTGTATCTATTTTTATGGGAATGGTAATGATAATACAATTAGTACCAGCATTTAAAGAATTTGGAGCAGAGAGTTTTGTAAGTGGAGCTGTTTCTCTTGCAATAACAAGAGAATTAGGGCCAGTAATAACGGCACTTATTATGGCTGGAAGAGTTGGGTCTGCAATTACAGCAGAGCTAGGCAGTATGAAAGTAACCGAACAAATATCAGCATTAGAAGTTATGGCAGTAGATCCAATATCATATTTAGTTTCACCTAGAATATTTGCAGGAATGATAATGTTGCCGTTGCTTTCTATTATTTCAGATGTTTTTTCTATATTTGGAGGATATTTTATAGGGGTTTATGCTACAGGGTTAGTTTCAGGAATATATTTTTCTAATATGAGATTATTAATAACATCAACTGATATATTTGGTGGAGTATTAAAAGCTTTATTTTTTGGAATCATAATAGCAGCGGTTTCTAGTTATAAAGGAATAAATGTAAAAGGCGGAGCAGAAGAAGTTGGGAAAGCAACAACTGATTCAGTTGTTATCTCAATTGTATTAATCTTAATATTTAACTTTTTTTTATCATATTTGATATTTGCACAATAATTTTAAAATTAACTTAAAGAGGAGGAATTTATATGATTTTAGTGTTTGTTATGATATTTTTGTTAGGGGCATCTGTTGGAATTACTGTATATAAAAAAAATAAAAATAAAGAATTGGAGGTTTTATCCTCTGTACTAAAAGAAACAGCAATAGAATTAGATGCAAAAGATCCATATTTTAATGGTCATACAAAAAGAGTGATTGAGGGAGCAATTAAAATAGCTAAAGAGATTGGATTGAAGAAAAAAGATATTACAGAAATAGAGTTAAGTGGGTATTTATCGGAAATAGGGAAAATAAGGATTCCAGAAAAAATATTACTTAAAAGAGACAAATTAACAGAAGAAGAGTATAATATAATAAAAAAGCATCCAGTTATAGCTTATAAAATGATTGAAAATGTAAAAGAATTAAATAAAGTTGGTAAAATTGTAAGAGCACATCATGAAAGATATGATGGAACTGGATATCCAGATGGATTAGAAGGAGATTATATTCCTGTAGGAGCAAGAATTTTGTCATTAGTAGATGCATATGATGCAATGATTTCAGATAGACCATATAAAGAGAAAATGACAGAAGTAGAAGTTATAAGCGAATTGGAAAAAGGGAAAGGAAAACAGTTTGATCCAAAACTTGTGGATATATATTTAGAAATATTAAAAAAGTCTTAAAAATGAGATTTCTTTAGATTATTTTTAAAACATTCACAAATAATTAATGTTGGGGTGATGGGATTGAAAAAATATTTAGTTAAGGGGAATAATAAGGGAGAAGTTTTAGAAAAAGTATCAAAACATTTTAAAACGAAAATAGAAAATGTAAAATATGAAATTTTGAATGAAAAAAAAGGATTATTTGGAAAAGTAAAAGAGATAGAAATGAGAGTATGGGTAGAAGAATTAGAAGAAAAAGCAAGTAATAAAAAAAATGCAGTAAAAAAAGATAAAAATAAAGAAAAGAAAAGCGAAGAGCCAAACAAATTTTTTGAAATAAAGATATTAAAAAGTGGAATTTATTTAAATGTGAAAAGTGAGTTTTTAGAATATGGTTTAGATCAATCGGTGCTTATGGATGAATTAGCAATGAGAGAAATAAAAAATCCAGATGTAGAGTCTATTTTAGAAGCAGTATCAAGTAAAAATAATGAATTTGTAAAAATAGCAGAATACGATCCTGAATATTATATAGATGCTAATGTAAAAGTAGATATTTTAAAAAAAGGGATGAAGGCAGTTGTAAATGTATCACCTCCAAATAGAGGAAATCATGTTACATATGAAAAAATTATATCAGAATTAAAATTAAAAGGTATAATTTTTGGAGTAAATGATAATGAAATAAAGAAAATATCAAAAGAAAAAATATATAATCAAGATATTTTATTAGCAGAGGGGAAACAACCTGAAAATGGAGAAGATGCAAAAATAATATATCTTTTTGATACAGACACAGAAATAAATATATCAAAAGATGAAAAAGGTAATGTAGATTATAAGGAATTAGATATAATTCAAAATGTCACGAAAGGACAAGTGCTAGCGAGAAAAGTACCTGCGACTAATGGAGAACCTGGAATGAATATTTTAGGAGAAATAGTTCCTCCTAAAAAAGGAAAAGATAAAAAATTACCTAAAGGAAAAAATACTTTAATAGGGGAAAGCGAAGAATATCTCGTGGCAGAAAAAGATGGTTATGTATCTCTTGTAGGAAATCTAATTACAGTGTCTGATGTCTTTATTATAAATGAAAATGTAGATTATTCAACTGGAAACATATCTTTTAATGGAACAGTTTTTGTAAAAGGTAATGTAATAGATGGATTTAAAGTAGAGGCTAATTATGATATAATAGTAAATGGTATTGTTGAAAATTCATACTTAGAATCAAAAGGGAATGTATCAGTAAAAAATGGAATTATAGGAAAAGAAGAAGGAATTGGAAAAGTAATTGCAGAAGGAAATATAAAATCAAAATTTATAGAAAATGGAGAGATAATTTCTGGAGGAATGGTTTTTGCAAATAATATACTGTATAGTAAAGTAAATGCAAAAGATACTATTAATGTTACATCTAAAAAAGGGAAAATAATAGGTGGGAAAATAGTAGCAGGAAGAGAAGTAATAGCAAGAGTTATTGGTTCTAAAATGGGAGGAGCTGTAACAGAAGTTGAAGTTGGAGTTTTTCCAGAATATAGAGAAAGATTAAAAGAGATAGAAAACGATTTGTTGAAAAAATTAAAAGAAAGAGAGAAAAACACAGTAGAATTGAATACACTTAAAAAATTAAAAGAGAATAATAAGTTGCCTGATGATAAAAATAAATTATTATTACAAAGAACAAAGCAACAATTTGTATATGCAAAGGATATATTTTCGTTAGAAAAAGAAAAAGAAAAGTTAAAAGAAATATTAAAAAAGGGTAAAAATGGGAAAATACATGTTTTAGACGAAATATATGAAGGGACAATAATTAGGATAGGAGACCATCAACTACTAATAAAAGATAGTTTTAAATATGTAACATTTTATGTAGATATCGAAAGAGATGAGATAGCTATTTTACCTTGTGAGGTGTAATAATGAAAGGAATAGTTGTACTGTTATTTATTGTAGTAAGTAATTTAGGTTTTGCGTTACCTAATTATGCACCAATAAATCCTAAACTTTTAGAAAAAAAAAGAGTTTTAAATAGAAATATGGGTACTACAAGAATGCAGGAAAATATAAAAAAGAATTTAGAAAAATCAGTTACAACAGGAGAATTAAAAGCTCCAGTAATATTAATAGAATTTTCTGATAAGAAGCATTCAAATTTACATGATAAAGAATATTATTCGAACTTGCTTTTTTCTGATAAAGAAGGGAGTATGAAGGATTATTACGAAAAAAATTCATATGGAAAGTTAAATAATATACATGGTGAAATAGTAAATTGGGTAGAGTCAGATAAAACTATGGGTTATTATGGATTGAAAGATGATTCAGCAGATATTCAAAATTTAGTTATAGAAGCTATAAAAAAAGCAGCTCAATATATAAATTTTTCAAATTATGATTTAAATAATGATGGTTATGTAGATCAATTAATAGTTATTCATTCTGGTGAAGGAGAGGAAAAAAGTGGAATAGCAACAGACATTTGGTCTCATGAATGGAATTTGAAAACTCCATATGAAGTTGATGGAGTGAAAATATCAAAATATACAATGCAGTCAGAATATTCTCCAGTAGGAATATTTGCACATGAATTTGGACATGCGTTAGGACTACCGGATCTATATAATACAACAACTGGAGGAACTGCAGTAGGAAAATATTCATTGATGGATTATGGTTCTTGGAATGGACCTAATGCAGATGGAACCTCTCCATCATATATGAGTGCTTGGGAAAAGGTTTTTTTAGGATGGATTACTCCAATTGATTTGAACTATGCAGATAGAAATGGTACATATATGATAAAAGATATAGAAGAGAATAATATAAATTCTGTATATAGAATTTATATAAAAGGCAAAGAAGAATATCTTTTAATAGCAAATAGGCAGAAGAAAGGATATGATAAATATTTACCAGGAAGCGGATTGTTAGTATATCATATATATGAAGGAGAAATTAATGGAGAATCCCTTGAACAGTCACTTAAATCAAATGATATAAATGGGAAAATTCCAATGAGAGTGAAAGTTTTAGAGGCTAATGGAAAAAATGATTTAGGACAGAGTGGAAATGATGGAATGAATTATGGAGATGCAGGTGATTATTTTAATTCTTCAGCTTTTACTCAGTTGTTATCTATGAAAAATAATGGCGTAAATAGCTGTATTTGGAATTTTTCTAATAATAGTTATGGATTAAATAGTGGAGTATCATTAACAGAAATATCTTCTTCAAAAAGTGTTATGAGTTTTAAATTTTCTGATATTGGGTTAGACTTTAATGGAGATGGGAAAGTTGATGGTAATGATATAAAAAAGGTTATATCAACTGCAGATAATTTAGGTACAGATTTAGATTATGATTACGATAAGAAATTAGATGAAAATGATTTAGAGGGATATAAAGATAGATTTATAAGAGGATTAGAGAATGCAAAAATTTGGTAGGTGTGTAATATGAAAAATATAAAAATTAATATATATATTTTTGTAATAATAACATTACTTTTTTCTGGTTGTTTAAAAGATTCTAAATTGCAAGTAAATTTAGAAAAAAATGATCAAATTTCTGGAAATATGGAAGCTGCAATGAGTAATGTATCAAAAGATGGAAAATATTCTTTTGGAGATATAGTTAATATTGATTTGAAAGCAATAACTGATACAAAATTTATGAGTTTTGATATAATTTGTAATACAAATAATTTAATACTTACGAATATAAAAAAAGATGGATTTAGTGATTCAAATTTTGTATCATCTTATCAAATAAAAAATGGATATAGACTGTTTTTCTGGGATTTAAAAAACAATTTGAAAAAAGATGATAATTTTGCTAAAATATCTTTGTCAGTTAGGAATTATGGAGTAGAAAATATTAAAATAGATAATTTTATTAAGGAGTGATTATGCAGAAACGAATTTTTTACAACAAATATGGTAGAATGAAGTATGTAGCACATTTGGATACAATAAGTTTTTTTGAAAGATTATTTAAACTATCCAAAATAAAAATAAAATTTTCAGGAGGATTTCATCCGAGACCAAAATTTTCTTTTGGAGACCCAGTCTCCTTAGGAGTGGCTATGTATAATGAACCACTTGATTTTGAAACATTAGAGGATATAAGTAATGATGAAATATTAAAAAGATTAAATGATGTGACTCCTAATGAATTTGATATTATAAAAGTAATTGATAGAGGAGATAAAAGTTCAATAGTAAAAGATTATGATTCAGTAAAATATAGCGTAGAATTTGAAACTGTTGAAGATTTAAAAAAAATAGAATCAATAATAAAAAGAGACGAAATTATTGTAACAAAAGAAAAAAAAGGAAAAACTACTCAAAGAGATATAAAAAAATTTATAAGAAAATATGAAATAGATAATAATATTATGTTTTTATATTTAGAGAGAATATCTCCTAATGCAATTTTAAGATTAGAAGAATTATCAAAAGAATATATAATAAAAAGATGTGGATATATAGAAAAAAAGATATTATAATTTTAGAATAAGAATTAGAGAATTTAAATTATATGGGAGGAATTATAGATGTTAGATTTGAAATACATAAGAAACAATATAGAATTTTTGCAAGATATGCTAAAAAACAGAGGTACAGAAGTAAATTTAAATGAATTTGAGCAAATTGATGAAGAGAGAAGAAATATTTTAAATGAGCTTGAAAAATTGAAAAATTTCAGAAATACAGCTTCAAAAGAGATAGGAAAAATGAAAAGAGAAGGCGAAGATACAACTATTAAAATGGAAGAGATGGCACTTGTAAGTAAAAGAGTAAAAGAATTGGATAAAGAAGTAAAAGAATTAGAGAATAGATTGAGATATTTTCAGCTTACTATACCAAATGTTTATAATGAAAATGTACCAATTGGAAAAACAGAAGATGATAATATAGAAATTAGAAAAGTGGGTGAAATACCTAAATTTGATTTTGAACCAAAAAATCATTGGGAAATAGGAGAAAAATTAGATATACTTGATTTTGAAAGAGGTGCAAAGTTATCTGGAAGTAGATTTACTGCATACAAAGGGTTGGGGGCTAGATTAGAAAGAGCTCTTATAAATTTCATGCTAGATTTGCATACAACAGAACATGGGTATAAAGAGATTATTCCACCATATTTGGTAAAAAGAGAATGTATGGAAGGAACTGGGCAACTTCCTAAATTTGAAGATGATGCTTTCAAAACAACAGATGATATGTTTTTAATACCAACAGCAGAAGTTCCACTTACAAATTTACATAGAGAAGAAGTATTAGATGGGGAGCTATTACCTATATATTATACAGCTTATACACCTTGCTTTAGAAGAGAAGCAGGTTCTTATGGAAAAGATACAAAAGGGTTAATTAGACAACATCAATTTAATAAAGTGGAACTTGTTAAAATTGTAAAACCAGAAACATCTTATGAGGAATTAGAGAAACTTTTATTAAATGCAGAAGAAGTGTTAAAAAGATTAGAGTTGCCATATAGAGTTATATCATTATGCACAGGAGATCTTGGTTTTTCAGCTGCAAAAACTTATGATATAGAAGTATGGGTACCAGCACAAAACAAATATAGAGAAATATCATCTTGCAGTAATACAGAAGATTTCCAAGCTAGAAGAGCTCAAATAAGATATAAAGATAAAGGTGCTAAAAAAACAGAATTAGCGCATACAATAAATGGTTCAGGACTTGCTGTAGGAAGAACTTTAATAGCAATATTAGAGAATTACCAACAAGAGGATGGAACAGTAATAATACCAGAAGCCTTAAAACCTTATATGAGAGGAATAGATGTTATTAAGTAAATTAATATTAATATTAGTAGTTTTGATAAGTTATAATATAAAAATAGTATTATCAATTTTTATCATTAGTTTTATTTTATTTATGTATAAACATAAAAAAATAGATAAAAACATTAAATATTTTATTTGGTTTTTAATAATTAGTTTTAGTATGCAGCTGTTATATTCATCAGAAGGAAAAGTTTTGTTTAAGATTTATAAAATATTAATTACTGATATTGGTATAACTAATGGAATAGTTGTGGTTTTGAAAATTTTAACTGTATGGCTAATTTCAGCAACGATTAATTATGAAAAAATTAAATTTAAAAGATTAAAGAAATATGAAGTAATAGTTAGAAAAACAATGAAGTTAGTCCCAGAAGTATTTAAAATTGCAAAAACAGATTTAAAACCTAAAACAGTTTTTAAGAAATTGCTTTATAAGGTTTATAGGGAGTTGTGATTTTGGAGTAGATTATAAAAAATGAGATTGATATTTATCTATTTTCGGATAAAAAATAAATATTTATTGATTTTATGTTCTAAATTTGGTAAAATATATAAAAGAAATTTATAACAAACTTAAAGGAGGACACAAAGATGACAAGAAAATTTAATTACAAAGAGCTTGGTTTATCAAACACTAGAGAAATGTTTAAAAAAGCAAATGAAGAGGGTTATGCAGTTCCAGCATTTAATTTTAACAATATGGAACAAATGCAAGCTATTGTCGAAGCTTGTGCAGAAATGGGTTCACCAGTAATATTGCAAGTATCAAAAGGTGCAAGTAACTATATTGGACTAGAAATGGTACCATTTCTAGGAGAAGCAGCTGTATCATATGCAAGAGCTAAAGGGTCAGATATCCCAGTAGCATTACATCTTGATCATGGTCCAGATTTAGCAACAATAAAAGATTGTATAGATCATGGATTTTCATCAGTTATGATAGATGGATCTCATTATGATTATGAAGACAATGTAAAATATACAAAAGAAGCTGTAGAATATGCTCATAAATTTGATGTAACAGTAGAAGGAGAACTTGGAGTATTAGCAGGAATAGAAGATGATGTAGAAGCAGAAGAACACGTTTATACTAAACCTGAAGAAGTAGAAGATTTCGTATCAAAAACAGGAGTTGATTCATTAGCAATTGCAATTGGAACTTCTCATGGTGCTCATAAATTTAAACCAGGTGATGATCCTAAATTAAGATTAGATGTATTAGCAGATGTAGAGAAAAAAATACCAGGATTTCCAATAGTATTACATGGATCTTCAGCAGTACCTGCTAAATTCGTAAAAATGATAAATGAAAATGGTGGAAAAATAGCAGATGCAATAGGTATTCCAAATGATCAATTAAGAGGAGCTACAAAATCAGCAGTTGCTAAAATTAATGTAGATACTGATGGAAGATTAGCATTTACAGCAGGAATAAGAAAAGTCTTTGCTGAGAATCCATCTGAATTTGATCCAAGAAAATATTTAGGACCAGCAAAAAAATTAATGAAAGATTATTATAAAGAAAAAATTCAAGATATATTTGGTTCAGAAGGAGCATATAAAAAAGCAGAAGTAAGATAAATAATATTTGATTAAGTCGGGTAAGTCCCGGCTTTTTCTTTTATGTGAGGTTTTATGTTGAAAATGCTTATTCAGTGGTGTGTTGAGTATAGTTATTATGATTTTCATAGAAACTCTTTTATTTACTAGGAAAGTATAAATTTGTCTAGAAAATAATCTACGCCATTTTTTTGAAATATGCGATTTTTCAAAGCGAAATTTTTCAGAATCCAAAAATTTTGAAAAATATTTATGTCTTACCAGATGAAGCGTAGCTTATTTTTTTATTTGTAAGAATAAAAAATAAAAAGGTAGAATTTAGATATATATGGCAATATTTCAAAATAAACAGGTTTAAACTCGTATAATTACAGTTGACTATATTTTTAAATTGTTTTAATATATGCGTATACAAATCAGCACTCTTATGCGTTGAGTGCTGATAAAAAAGTTAAGGAGGGAATAATTATGAAAATTAAACCATTAGGAGACAGAGTGTTAGTAAAGTCTGTAGAAGTAGAAGTTAAGACAAAAAGTGGAATAGTGTTACCAGATACAGTATCAAAAGAAAAACCAACTTTAGGTGAATTGGTAGCAGTAGGGGATGGAAAACTTGCAAGTGAACTTAATGTAGGGCAAAAAGTAATATTTGCTAAATATTCTGGGACAGAGATCAAAGATAATGATGAGAAATATTTAATTTTAAATTATAATGACCTATTAGCAATTGTAGAAGATTAGAAAAAATTATTAAAAATTATGGAGGTGTATTTTAAATGGCTAAAATATTAAAATTTGATGAAGAAGCAAGAAGAAGTTTGGAAAGAGGAGTAGACACATTAGCAAATGCAGTAAAAATAACATTAGGACCAAGAGGGAGAAATGTAGTTTTAGAAAGATCTTTTGGAAGTCCTACAATAACAAATGATGGAGTTTCTATTGCAAAAGAGATAGAATTAGAAGATGTATTTGAAAATATGGGAGCACAACTTGTAAAAGAAGTAGCAACAAAATCAAATGATGTAGCAGGAGATGGAACAACAACAGCTACAGTATTAGCACAAGCTATGATAAAAGAAGGATTAAAAATGGTATCTGCAGGTTCAAATCCTATGTTTGTAAAAAAGGGGATTGAAAAAGCAGCTAAAAAAGTTGTAGAAGAGTTACAAAAAAGAGCTAAAAAAATAGATGGAAATGAAGAAATTGCACAAGTAGCATCTATTTCAGCAGCAGATGAAACAATAGGGAAATTAATAGCAGAAGCTATGGCAAAAGTTGGAGAAAATGGAGTAATAACAGTAGAAGAAGCAAAATCATTAGAAACAACTTTGGAAGTAGTAGAAGGAATGCAATTTGATAAAGGATATGTCTCTCCTTATATGGTAACAGATGCAGATAGAATGGAAGCAATTTTAGAAGAACCATATATTCTTCTTACTGATAAAAAAATATCTAATATGAAAGATATTTTACCAATATTAGAAGCTACAGTACAAGAATCAAGACCATTATTAATAATTTCTGAAGATTTAGAAGGAGAAGCATTAGCAACTCTTGTAGTTAATAAATTAAGAGGTACTTTAAATGTAGTGGCTGTAAAAGCACCAGCATTTGGAGATAGAAGAAAAGCTATGTTGGAAGATGTAGCGATTTTAACAGGCGGAGAAGTTATAACAGAGGAAAAAGGATTAAAATTAGAAAATGCTACAATTGAAATGTTAGGAAGAGCTAAAAAAGTAAAAGTAAGTAAAGAAAATACAATAATTGTAGATGGATATGGTGATGAAGCTAAAATAGATGCAAGAAAACATCAAATAAATGTACAAATAGATGAAACAACATCTGATTATGATAAAGAAAAATTGCAAGAAAGATTAGCAAAATTATCTGGTGGAGTCGCTGTTATAAAAGTGGGAGCTGCAACAGAAACAGAAATGAAAGAAAAGAAAATGAGAATAGAAGACGCTCTTAATGCTACAAGAGCAGCAGTAGAGGAAGGAATAGTTCCTGGTGGAGGGACAATATTAGTAGAGATAGCAAAAGTATTAGAAGAATATAAACTTGAAGGCGAAGAAGGAGTAGGAGTAGAAATAGTTAAAAGAGCATTACTTGCACCACTTAGACAAATAGCTGAAAATGCAGGTTCTGATGGCGGAGTAGTAGTAGAAAAAGTTAGAAATTCTGAAGAAGGTGTGGGATTTGATGCAGCTAAAGAAGAGTATGTAGATATGGTTAAATCTGGAATAATTGATCCAGCAAAAGTTACAAGATCAGCAATTCAAAATGCAGCATCTGTGTCAGCACTGTTATTAACAACAGAAGTTGTAATAGCAGAAAAGAAAGAGAAAGATGCTCCAGCAATGCCAGCAGGAATGCCTGGAGGTATGGGTGGAATGCCAATGATGTAATAATGTTTTTATTGGAGATGACTTATAATGAGTCATCTCTTTTTGATTTGTTAATGTTTTCAAATGTTGTATTAAATCAGATATTGATATTTATTCTCGTAGAGTCAAATCCCTGTGTTTGTCCTCTTTTTTATTGTATATTAAAAGATTATTTTGTAATAATAAAAACTTATTTGTATACAAAAAAAAGGAAATTTGAAAAAATTAAGTATATATTTATTAAGAAACAATTAAAAAATAGCGATGTTTTAAGTACTTTTATAATAAAATGTTTGACCCACAAAAAGGTATTTAGTTTTCTTCATACCACTACATATAGTGTTCGAAAGCTTTTACGAAACTATATGTAGTGGTATGATTTTAGAAAACTACCTTTTTGGGGTCTAATCATAAAATATATAAAAGTTATTTTTTAAATGTTCGTATGAATAAAATTACAATAGTTTTTTAAGGGGTGGATAAGAAAATGTTCGAATTAACGATGATAAATAAAAAATATGAAATATTTATAAAAATGAAAGAAGATGGAACAATTATCGAAGAAAATTTAAATGATAAAAATTTATTGAATTTAATTTCTAATTTCTGGAAGAAAAATAGTAAAGATAAAAAGATTATAATTATAAAAGAACAAACACGTGTTTTAGGGTTGTTTTATATTAAAAATTTAAAAGAAAATTACATAGAAGTATATGGAACAAATATAGAACGAAGAGGTATATTATCGGAGAAAAGTGGGGATGTAATTTCTATATTTGACCAATTATTTAATAATTTGAATATGGGAATTATTGTGACAGATTCGGAAAAAAATGTAATAGGGATTAATAAATATGCATTAAAAAATAATTATAGTGATAATAAAGAGAGATTACTTTTAGATGGAATAAAAGATATTAATGAATATGGTGAAAGTGATTTTGGAAAATGGAGAGAAAAAATTATAAAGGGTGAAAATAATAAGGCAAAAAATGAATTGTACATTATTGGAATAATTAAAGATGAATATGGCGATATACAAAATTATTATAAAATTTATTCAGATATAACGCAAATAAAAAAAGAAGAAAAAAAGTTATCTTATATAACAGAGCATGATTTGTTAACAGGATTATTAAATAGAAATGGATTTTTAAACGAAATAAATATAAAAAGATTATTAAAAGAAGAATTTACTTTAATTTTATTAGATATAGATGGATTTAAAAGGATAAATGATAGCGTAGGAAATTCAATTGGTGATAAAGTTTTGAGAGATATTTCAGATAGAATCGATAGAGTTATAGATGAAGATATTACATTTGGTAGAACTGGTGGAAATGAATTTGGTTTATTAATTAAATCAAATAATGAAAAAGAGGTAGTAGATTTTTTGAATACAATAAAAAATTGTTTTGAAGAAAAGTTTGATTTATTAAACGGAGCTTATGGTAAAGATTCAGAAAAAATATTTTTAACAATAAGTGTTGGAGTTTCAATTTCTAAAAAAGATAATGGAACAAGTTTGATATTATTGAGAAATGCACAATCAGCTTTAAGAGAAGCAAAAAGATATGGTGGAAACAAAATTATATTTTATAATAAAAATATAAAAACATATACTATTGAAAAAATAAGTATGGAAACAGATATAAAATTAGCAATACAAAATGATGAATTTATACTGTATTATCAACCTCAAATAGATATAAAAAATAATAAAATCATAGGAGCAGAAGCGCTTGTAAGATGGCAACATCCGGAAAAAGGAATGATTTCTCCTGGAATATTTATACCTCTTGCAGAGGAATTAAAATTAATTAAAGATATTGATAGAATTGTAATGAGAAAAGGATTAAAAGATTTAGAGGAGTTAAATAAAAAGGGGTATAAAAATATAGTAATATCAATAAATTTATCTCCAGAATATTTTGAAGAAGAAAATTCAATAGATGAGATATTTCAAGAAGTAAATAGTGTAAAGGTAGATACATCAGATATAAAGTTTGAAATAACAGAAAGAAGTGCAATGGGAAAAGAGGAAGAAACAATTGTAAAAATGGAAAGGATAAAAGAGATGGGGTGTAAATTGGCAATAGATGATTTTGGAACTGGGTATTCCTCATTAAGATATTTAGAACAATTTCCATTAGACACATTAAAAGTAGATATGAGCTTTGTAAAAAATATTACAACTAAAGAAAACTCAAAAAAAATTGTAGATGTAATAATAGCACTTGGACATACTTTAGGCTTTAATGTAATAGCAGAAGGAGCAGAAGAAAAAGAACAAGTGGAGTTATTAAAAAAAATGGGATGTGATGAAATACAAGGATATTATTTTGCAAAGCCTATGCCAAAAGCTGAATTTATGAATTTTATAGATAATTGGAGGTAATATGATTAATTATAAAAAAATACAGTTAATTCATATAATAAAAAAAGAGTTAAACTTAAGTGATAAAGAGTATAGAGAAATTTTAAAAAATGCAGTGGGAGTTGAAAGTTCCAAAGAATTAGATGATATAAAATTTAATCTATTAATGAAATATTTTATAAAAACAAAGCATTATAAAAAAAACAGGAATAGCATAACTTTAAAACAAAAATTATATATAAAATCTTTAATTAAAAAATTGCAATGGGATAATGAACATTTTGAGAATTTTTTAAAAAAGTACGAGCATATTAATAATTTAGAAAAATGTACAAAAGTCAAAGCTACTAATATAATAGTAGCTTTGAAAAATATATTGAAATAGAATATGTCAAAAATAGTTGTTCGTTCATTATGGAAAATAGATAAATATTATACATATGTTCCTAATATATTTCTAAATAGTATTACTAGGAGAAATATTAACTGAATGTTCGTTTGTATAAATAACAAATCCAGGCTTAGAACCGTTAGGTTTTTTAACATATTTTCTATAAGTATAATCTACATTAACTTTAGAATTTTCTTTGCCTCTAGAATAATATGCAGCAAGAGAAGCAGCTTTTAAAATAATATCTTCAGACAGCTCAAAATTTTTAGATTTAATAATAACATGACTTCCAGGTATATTTTTTGCATGTAACCAAATATCATTTTTAGAAGCAATTTTAAATGTTAAATAATCATTAGCTTTATTATTTTTACCAACTAAAATTTCATAATTATCATCTATAGAAAATTTAAGTACAGCATTTTCTATTGGAAGTTTTTTTATCTTTTTTCTTTTCTTGTTGACCGATTTTTTAATATAATTATTTTCTATTAATTCTTCTTGAATAAATTTTAAATCTGCAATATCTTTTGCATTTTCAATGGAATTTAATACTGAAAGTAAATAATCTATTTCATTTTCTATAACTTTTTTTCTTTCAATATTATAATTATATCCTCTTTTTAATTTGCTAAATTTATTGTAATATCTTTTTAAATTTTCTTGTGGAGAAACATTGCTTTTCAGTTCAATGTTAATGTCCAAATTATTATAAAAATCAAAAAGTTCTACACTTTTCATACCCAAACGAATGGAATGTAAATTTGCAGCTAAAATATCGCCAATTTCTTTAAATTTATCATAATCAACATTTTTTTTAATAACAGAATCTATACTTTTTAAAATTTTACTGTTTTTTACTATTGCTGAATCAACTTTTTTTTCAATGGTTTTATATAAATTATTAAATTGATTAGAGTTGATAGTATTAAAAATATATTCTTCTACCATTTCAGATATAGTATCAAAATATTTTTTTTCTAAATTTTCTATATCAAAATCATTTAATAAATAATCAAATATAAATCCATATTTTGCATTAGAATTTGCATATAAAATATTTGGATGAGTTTTCTTATTAAGAAATTCATCATAATTTTCTTTTAATAATAAAATGTTTTTAGCAGAAAATTTTCCTATTCCATCTATCTTATTTATAATCTCTTTTTCTGTATTTAAACTTTTTAATAAATTATCATCAACACTCTTAGGAGATATTTTGTTTTTTATAATTGGGAATTCATATTTTACTCCAGGAATTAAAGTTCTTAATCTATTTTCCTCTATAGAAAATCTTTTTAAAACATCTGTGATGAGATAATCTTCGTTAGTTAAAATTATATTACTATGTTTTCCCATTAATTCTAATATTAAATTTGAATTAATAGTGTTACCAAGCTCATTTATTTTGGAAAACTTAAATATTAAAATTCTGTCATAGTTAAATTGCAAAATATCATCTAAATTACTGTTTAATAAAAATTTTCTTAAAGTAAGTCCAAATAAAGGCTGAGAGTTTGGATTTTCCTCTTTTTTTGTAGATAAATACGCAATTGGCATATTCGGATTAGCTGATAAAACTAATTTTTGTTTTCCAAAATATATTGATAAAGAAAACTTATCTGTTTGGTATAATTTAGATATTCTTTTGTTTTTTAAATTTTGTTTTAATTCATCTTTTATTCTTTCAAGAGCGAAACCATCTATATATAGCATAAAACCACCTTCTTAAATAGTATTTTTCTTATTCTATCAAATTATTTATAGTTTTACAATTGAATTTTAAAAATAAGTGTGATATAATTGAAAGACTAAGGAATATAAACAGATATGAGAATATTGTTTTTAGGAACGTTTAAAAAATAAGTTTCTCATTTTTTGTTATAAAAACGCTTGAAGAACATTTAAAAAATAAAAACTATGGAGGGAAAAATTGAAAGTAGAACTTTTAAATTATACACCAAATCCTGAATTGACAATAGCACTTTCAGGTAGATTATGTTATTCAAAAGTTGGAATAGAAGAATTAAAAGAACAACTAGATGAAGCATATATAAAAAGGATGATAAAACAGCTTGTAGAAAGCGGACATCATTCAACATTAGAGCATGTGAGTTTTACTTTTGGAGTAGAAGGAGTAAGTAGAGTTTTGACTCATCAATTAGTTAGACATAGAATAGGGGCTTCATATTCACAAAAATCTCAAAGATATGTTAAAGAAGGTCAATTTGAATATATAATTCCAAAAAGCTTTGAGGAAAAAGGGATGTCTGAAAAATTTAAAGAAAGAATGAAAGTTGTACAAGAGTGGTATAATGAAGCAATTGAAGCTGGAATAAAAGCTGAGGATGCAAGATTTTATCTTCCAAATGCTACTGAAACAAAGATAATCGTTACAATGAATGCAAGAGAATTAATCCATTTTTTTGATCATAGATTATGTCAAAGAGCACAATGGGAAATTAGAGCAATGGCGGATGAAATGTTAGAAAAAGTAAAAGAAATTGCACCAAATTTATTTAAAAATGTAGGACCAGGATGTGTAAATGGACCATGTCCAGAAGGAAAATTCACATGTGGGAAAATGAATGAAATGAGAGCTAAATATAGGGAGGGAAATATTAATGGGTAAAAAGAAAAAGTTTGCTAATGTTGGGGGACAAGCAGTAATTGAAGGTGTAATGATGAAAGGGACTGATTATATAGCAACAGCAGTAAGAAAGCCTGAAGGGGATATAGTATATAGAAGAAAAAAAATAAAAAAGGGAAAATTTAATTTAGCAAAGATACCTTTTATAAGAGGAGTTTTTGTATTGTTAGATGCTTTAATATTAGGTACAAAAGAGTTGACTTTTTCTGCGGCTCAAGCTGGGGAAGAAGAGGAGGATGAATTAACAGATTTTCAATTAGGGATGACACTATTTTTATCATTTTCTGTTGGAATATCTCTATTTTTTTTATTACCAGCTTTTATAGGTGGAATTTTTAAAAACAATTTATATGCAAATATTTTAGAAGGAACAATAAGACTAACAATATTTTTAGGTTATGTTTGGGGAATTTCATTTTTCGAGGATATAAAAAGAGTTTTTCAATATCATGGAGCAGAACATAAGTCAATATATGCTTTTGAAAATAACGAAAAATTAACTCCTGAAAATGCTAAAAAATATAGTACGCTACATCCAAGATGTGGTACAAGTTTTTTATTAATTGTAATGTTAGTAAGTATAATTGTATTTTCTATTGTAGATACTTCTATAATAAGAACAGATAATTTTTTAATGAAAAGTGTTATTAAATTTTCTTTGAGAATATTATTTTTACCAGTAATAGCTAGTATATCATATGAATTTCAAAGATTTACTAGTAATCATTTGAGTAATCCAATAGTTGCAGCATTTGCTTGGCCAGGACTTATGTTACAAAGAATTACAACTAAGGAACCTGACTTAGAACAACTTGAAGTTGGAATTGTAGCATTAAGAGCTGCATTAGGAGAAGAAAATATAGAAAATGCAGAAGAGATAACTGGAGAAGTTAAGGGAAAATTAAAAGAGAGCTGTTAAAAATAAAAAATAAAAGATATAGAAAATATCGACATGATAATTAGATAAATTTAGGAGGAAAACAATGTTCAAAAAACTTGAAGAGATAGTTACAAAATATAATGAAATTGGGAATAAAATGGCAGAACCTGAGGTTTTATCAAATCCAAAAAAAATAGCTGAATATAATAAAGCTTTTTTACAATTAAAAGGAATTGTTGATGAATATGAAATCTATAAAAAAGAAAAAGAGGATTTTGATGGTTTAAAAGAAGATATAAAACATGAAAAAGATTCTGAAATGAGAGAAATGATTCAAGAAGAGATAAAAGAATTAGAAGAAAAATTAACAGAACAAGAAGAAAAATTAAAAGTTTTATTATTGCCTGAAGATCCAAATGATTCTAAAAATGTTATAGTAGAAATTAGAGGAGGAGCAGGTGGAGATGAAGCTGCTCTGTTTGCTGGAGATCTATTTAGAATGTATTCGAGATATGCAGAGAGTAAAAGATGGAAAGTGGAGATAATGAGTAGTAATGAAATTGGTATAAGTGGATATAAAGAGGTAATATTTATGATAAAAGGTGATGGAGCTTACAGTAAATTGAAATTTGAAAGTGGTGTTCATAGAGTTCAAAGAGTTCCTCAAACAGAAGCATCAGGTAGAATACATACTTCTACAGCAACAGTAGCAGTAATGCCAGAAGCGGAAGATATTGCAATGGTAAAAGTTGATCAAAAAGATTTAAGGATTGATACATATCGTTCTGGTGGAGCAGGTGGGCAACATGTTAATATGACAGATTCAGCAGTTAGAATTACACATTTACCAACAGGAATAGTAACGAGTTGTCAAGATGAAAGATCACAAATGAAAAATAAAGAAAAGGCAATGAAAGTTCTTTTAGCAAAATTATATGAAAAAGAACAAGAAGAACAAAGAGCAGAGATTGATTCAACTAGAAAATTACAAGTTGGAACAGGTCAAAGAAGTGAAAAAATAAGAACTTATAATTTTCCGCAAGGAAGATTAACTGATCATAGAATAAATTTAACATTATATAAGTTAGACTCGATTTTAGAAGGAAATTTAGATGAATTAATAGAAGCTTTAAATACTTTTGATCAAGCAGAAAAATTACAGCAGGTTGTTTAATGGCAAAAATTTATAAATTGATAGATATATTAAAATATAGTACAGATTATTTAGAAAAAGCAAATGTAGATTCTCCTAGACTTACAGCAGAATATATAATTGCGACAATATTAGATTTGAAAAGAATTGATTTATATATGAATTATGATAAACCATTAAGTACAATAGAGAGAGAAAAAATAAAAAAGAATCTAATAAGACGAGCAAAAGATAGAGAGCCATTACAATATATAATGGAATATGAAGAGTTTTATGGATTGAAATTTTATGTAGATAAAAATGTGTTAATTCCAAGGCCAGAAACAGAAATATTAGTAGAAAATGCGATAAAATATTTAGAAAAAATTGAAGAACCCAAAATATTAGAAATTGGTGTAGGAAGTGGAGCAATTTCTATATCTATAGGTAAAAATTTGATAAACAGTAAAATTATAGGAGTAGATATATCAGAAGGTGCATTAAAAATTGCAGAAAAAAATAGAGAAAATTTGGGATTGAATAATGTGAGATTTGTAAAAAGTGATATTTTTGAAAATATAAATTATAAATCGTTTGATCTAATAATATCAAATCCACCTTATATTTCAGAAGAAGAATATAGTGGATTAATGCCAGAAGTAAAAAATTATGAGCCAAAATTAGCTTTAGTAGCAAAAGAAGATGGAAATTATTTTTATAGGACAATTATAGAAAACGGAAAAAATTATTTAAAAAATGGAGGAAAAATATTTTTTGAAGTGGGATATAATCAATCGAAAATTGTAAAAGAGCTATTTATAAAAAATAGATATAAAAATATAGAAATTTTAAAAGATTATGGAAAAATAGAAAGGATTTTAATTGGTGAAAAATAATGAAAACAACAGATTTTGAGTACAATTTACCAGAAGAATTAATAGCACAAGTCCCAATTTATCCAAGGGATAGTTCTAGGTTAATGGTAGTAGATAAAGAGACAGAAAAGATAGAGAATAAAATTTTTAGTGATATTATAGATTATTTAGATGAAGGAGACTTATTAGTAAGAAATAGCACAAAAGTTATACCAGCTAGATTAATAGGTAACAAAGAAACTGGTGCAGTAGTAGAAATATTTTTATTAAATAGGCTAGATATTAATAGATGGGAATGTTTAGTAAGACCAGGTAAAAGAGTTAAAATTGGTCAAAAAATTATTTTTAAGGATGACTCGTTAACAGCGAAAGTTATTGAGATAAAAGAGGATGGAAATAGAATTGTAGAATTTGAATATAACGGAGTTTTTGAAGAGGTATTAGATAATCTTGGAGAAATGCCATTGCCACCATATATAAAAGAGAAATTAAAAGATGCTAACAGATATCAAACTGTTTATGCAAAAAAAGGTGAATCAGTAGCAGCACCTACTGCAGGATTACATTTTACAGATGAACTGTTAAAAAAAATAAAAGCAAAAGGAATAGAGATAGTAGACGTGTTTTTAGAAGTTGGGTTAGGGACATTTAGACCAGTAAAAGCAGAAAATATATTAGAACATAATATGCATGAAGAAAAGTTTGAAATTCCTATTGAAAGTGCAAATAAAATAAATGCAGCTAAAAAAGAAGGAAAAAGAGTAATAGCTGTTGGAACAACAAGTGTAAGAACATTAGAATCAGCAGCTAATAATGGGAAAGTTATGGCTGGAGAAAATTCTACAAAAATTTTTATATATCCTGGCTATAAATTTAAAATGGTAGATGCATTAATTACAAATTTCCATTTGCCAAAATCTACGTTATTAATGTTGGTTTCTGCTTTTTCAAATAGAGAATTAATGTTAAGAGCGTATGAAAATGCAGTTGATGAAAAATATAGATTTTTTAGTTTTGGAGATGCAATGTTTATAAAATAAAAGGGCTAAAATTAGAGGTGTATTAATTTGAAAGAAAAATTTGAAGAAATACTAATAAAAAAAGAAAAAGAACTAGCTTATTTGAAAAATAATGTACAAGGGTTTAAATCAAATGGTGTATTAGAAAATAGAATTAACAGAACAAAATTAAATTATAGAACAAAAGAATTAACAGAAGAGATAAAAAATATTAAAAGCTATTTGAAAAGAATAGACTTTGTGGAAAAGGTGAGAGATTATGAGAATAATAGCAGGAACAGCTAAGAATAAAAGAATAAAAAGTCAATCTGGTCATAATGTAAGGCCAACATTAGAGAGAGTAAAAGAATCTCTATTTTCAATTTTACAGCCATATATAAATGATTCAGTTTTTCTTGATCTATATGGTGGGACAGGAAGTATTGCTTTAGAAGCACTTAGTAGAGGAGCTAAAAGAGCAATAATAATAGAAAAAAATGGAGAAGCATTGAGAATTATTATAGAAAATGTAAATAGCTTAGGATTTGAAGATAGATGTAGAGCATATAGAAACGAAGTATTAAGAGCTATTGAGATATTATCAAATAAAAGAGAAACATTTGATATTATTTTTATGGATCCACCATATAAAGATGAAGTATGTGAGGAAGTTATTGCGAAAATATTAGATTCAAATTTATTAGAAGAAAATGGATTGATAATTGCAGAACATCATATAAAAGAAAAATTACCTGATGTAATTGGGAAATTAAATAAAATTGATGAGAGAAAATATAGTGGAAAAGTATTAACATTTTATAGCTAGGATATTTGTATATCTTTTGTGTCTTTTTGTAGGGGCAATTCATGAATTGCCCTTACAGGTGTCTATACGGATTAGTTTAGATATTAATAATCAATTAATTTAAGAGAATTATATTAATCACGATTAAAAAAATTGATTTTAAATCATCTTCAACTGGAGGTAAAATAATGAAATTATATATTAAACAAGATATAAAAAATATAGAAAAAAATATAGAGTTTTTTATAAAAAATAAAGTTGGTATAGAAATATCATTATATGATGTTGAATTTATTAATAATATGAGATTAAGTAAAATTTTAAAATTATCAAAATTATTAAAAGAGAATAATTTGAAAATCACATCACATTTACCTATTCATGGATTAGATTTAGGATGTAGAGATTCTATTATAAGAGAATATTCAAGTGATTTAATAATAAAATCATTAGATTTATCATCTGTTTTAGGAGTTAAAAAAAGTGTGCTTCATAGTGGGATGAATCCATTAAGAAAAGGTCAAGGACAGGAAAAATGGTTAAAAAGATTTGAGTTAGAATTAACTAAAATAGAAAAAGTAGCAAGAGAAATGAATATAGAATTGGTTATAGAAAATGTATGGGATGATAATGATATTATATATAAATTTATAGTTGAAAAGTTTTCTAATATAAATTTATGTTTTGATATTGGACATTCAGCAGTTTATCAAAAAAATATAAAAATAGAAGAATTATTTAAAAAATATGGTAATAGGATTACACATCTACATTTGCATGATAATGATCTGCTTGAAGATAAACATTTTCATTTTGGAGAAGGAAAAATTGAATTTGAAAACTATTTTCAAATATTTAAGAAATATTTGAAAGAATATACAGTAACATTAGAAACAAATTTTGATGAAAAATTATATAAAGATATGGAATTTGTAAGAAAGGGGTTGCTTAAATGAAAAAAAATCTAAAATTTGAAGAGGCGTTATTAGAAATAGATGAGATTATAGATGAATTAGAAAATGGAGAAGTTGAATTAGAGGAGTCTGTAAAGAAATATGAAAAAGCAATGGAAATGATAAAATTTTGTAAAGGGAAATTAGATTCTATTGAAGGCAAAATAAAAAAAATTAATTTAAATGAATCAGGAGATATAGAAATAGCGGATTTTCAATAGATTGGAGGAAAATATGATAAAAGAATATTTGAAATTAAGAGGTCTAGAAGTAGAAAAAACATTAAGAGATTATTTTGAAGAATTAAATTATCCAGAAGTAATAAAAGATGGAATGAAATACTCAGTTTTAAATGGTGGAAAAAGATTAAGACCAGTATTGTTATTAATGACATTGGAACTTTTAGGAAAAGATATAAACTTAGGATTTCCAACTGCTGCAGCAATAGAAATGATTCACAGTTATTCACTTGTGCATGATGATTTGCCGGCGTTAGATAATGATGATTATAGAAGAGGGAAAAGTACAACTCATAAAAAGTTTGGAGAAGCAGAGGCAATATTAATAGGTGATTCTTTGTTGACTTATGCTTTTTATATTTTAGCGAATAAAAATGAAAAATTGTCTTCTGAAAAAACAATTAAAATAATTGAAAAAATATCATATGCCGCAGGGACTCAAGGAATGATTGGGGGGCAAATGATAGATATAGAATCAGAGGGTAAAAATATAGATTTACCTACTTTACAATATATACATACTCATAAAACGGGAATGATGATAAGAGTTCCAATTCAAGTTGGAGCAATTATAGGAGAGGCAACAGAAAAAGAGATTGAATATTTAACAGAATATGCTGATTTAATTGGATTGGCTTTTCAAATAAAAGATGATATTTTAGATATAGAAGGTGATTTTGAAACAATAGGAAAACCTATTGGAAGCGATCAAGGATTAAATAAAGCTACATATCCATCAATATTTGGATTAGAAAGAACAAAAGAGATGTTAAAAGAAAAAGTTGAAAAAGCAAAAGAAATTATAGAAAAGGAATTTGGAGAAAAAGGAAAATATTTTGTTGCATTAGCAGAATATATTGAAGCGAGGGAAAAATAGTATGAATTATAAGAGGGTAGTTATAAAGATAGGAAGTAGCAACCTTGTTAGAGATGGAAAAGTAGATGATGAAAAAATTAAAAATTTGATTAAAATAATATCTAAATTTAAGAAAAAAGATAATATTGAATTTATAATTGTTAGTTCAGGTGCAGTTGCAGTAGGAAAAGAAAAAGTTGGAATATCAAGTTTAAAATTGAATATAAGGCAAAAACAAGCTATGGCAGCCATTGGGCAGCCATATTTAATGAGAAAATATAAAGAAAATCTTGAAAATAACAACATATTGGGAGCGCAGGTTTTATTAACAAGCGATGATTTACATAACAGGACTAGACTAATTAATGCAAGGGATACTTTATTAGAAATTTTGCATTATAATGCAGTACCAATTATAAATGAAAATGATACTGTTTCTACTGAAGAGATAAAAATTGGAGATAATGATAATTTATCTGCAAGGGTAGCAGCAATTGTTGATGCAGAGTTATTAATTATTTTATCTGATATAGATGGATTATATAATAAAAATCCTAAAAATCATAATGATGCTGTATTAATAAAAGAAGTGTTTGATATCACAAAAGATATGAAAAAAAATGCAGGTGGAGCAGGGAGTAAAGTTGGAACAGGTGGAATGATAACAAAACTTGAGGCTGCAGAAGTTTGTATGAAATTTAATGTAGAAATGGTAATTATTAATGGAAATTCATTAGATAATATAGTAGATATTTTAAATGGAAAACAAATAGGAACAAAATTTTCACCAAATAAGAAAAAAATATCCAAGAAAAAATTATGGATAGGGTATGGAGCAAGAAAAAAAGGAGAAATTTATATAGATAAGGGAGCATATGAAGCATTAAATAAAGGGAAAAGTCTTTTATCAGGTGGAATAGTTGGGTTAAGTGGAAAGTTTAAAATAGGAGATAGTATTAAGATCTTTCATAATAAAGAGGAAATTGCAAGAGGATTAACCAATTATTCGAGTGATGAACTATTGAAAATAAAAGGTAAAAAAAGTTATGAAATAGATAAAATATTAGGATATAAATATCAAGATGAGATAGTTCATAGAAATAATATGATTTTAATTTGATAGTATTATTAAAAATATAAAGATGAAAAGATTATGATATAGGAGGTAGCAATTGAATTGGATATATTTAGTTATTGGCGGATCATTTTTTAATGCATTATGGACATCTTTAACAAAAAAGAAAAGTGTAGATTTATCGCCAATTCAATTTACTATCATATTTAGAAGCTTATGTGTGCTGTTTCTATTTCCTATTTTTATAATAAAATTTAATATGAGCTATATCACAGTAAATTTTTTGTTTTTTGCTATAATATATAGTATAATAGAAGGAGTTAGAACTTTATTTATAGTAAAGGGTGCAGAAGAAGATTATTATTCTACATATGCTTTTGTTAATACGTCACCAATATTTACATTAATTTTTACTCCGTTTTTATTAATAGAAAAGATAAATTTGATATTAGTGTTTGGGACAGTAATGATAATCGTAGGTGGAATACTGTTTTATAAAATTGGGAAATTTTCTAAATGGGGAATTATTGTTGCAATTTTAAGTGGAATAGGGAGTGTAATAGCAAAAGTGGGAGTAGATAACTCTAATGGAATATTTTTTTCTGTGATTTCATTTATATTTTTGTCATTATTGTTCTCTACTTATGAAATTATAACAAAATCAGAAATAACTTTGATAAGCAAGATTAAAAGTAGTAGAACAGTTTTATTACCGGCTTTTTTCTCAAGTATAGCAACAGGTTTATATTTTATATCTTTAGAATATGGAGCAGTTACAAAAATATCTCCATTAATGAGAATGAATTTAATTTTTGGATTTGTATTTAGTATTATTATATTAAAAGAGATACAAAATTGGAAAACGAAATTTTTAGGTGGATTATTTATATTGGCAGGAGGAGTTTTAGTATATGTTTCATAATAAAAGTTAAAAGGAAAGAATTAAAAAAAGAGAGTTTATTTTGGTAAAAAACTATGTTATAATAAAGGTGATTAATTATGAATAAAATAAGGCTTAATAAATATTTAAAAGATTTAGGAATAAGTTCTAGAAGAAAAGCAGATGAATTTATAGAAAAAGGTTACATAAAATTAAATGGAAAAGTTGTAAAAGAATTAGGTACAAAAATAGATATAGAAAAAGATGTTATAGAAATTTCAGATAAGCTGAAAAAGGAAAAAGAAAATTATGTGTATTTAGTTTTAAATAAGCCAAAAGGATATGTTACAAGCAAAAATAAAAAAGAGGGAAAAACAGTTTTAGAACTGCTGCCTAATATTAAAAACTTAACTTATGCAGGAAGATTGGATAAAGAAAGTGAAGGACTGTTAATTTTTTCAAATGATGGAGAGTTTGTATTTAAAATAACATATCCAGATTTTGAGAAAGAAAAAGAATATTTGGTAACTGTAGATAAAAAAATCAATGAAAAGTTATTAGATAAAATGAGAAAAGGGATGGTGATTGATAATAAACAAACTAAGCCAACAAAAATAAAAAAAGTTAACGAATATTCGTATAAAATTATATTAACAGAAGGGATAAATAGACAAATTAGGAAAATGGCAAAAAAAGTTGGGTTAAATGTAAAAAAGCTAATTAGAATCAGAATAAAAAATATTTATATAGATAGTGTAGAATATGGGAAATGGAGATATCTGAAAAAGGATGAAATAAAAGAGATGTTAGAAAATATTAAAAAATAATATTTTTTATCTATTCCTAAATATAAAATAAGAGGTGGCGTGCAATAATGGGATATATCAAAAAGAAAATAATAAGTTTTTCATTTATAGTTTTAAATATACTGTTTTATATAATTTGTTCAATGATATTAAATATAAAATTTAATTTTAATTTCACAATTTTTAGTATAATATTATTTACCATATTTTTTTTGGGAAATATATATGATTTTCAAGATAATAAATATAAAACAAAAATGTTTTTCACTTCAAGTGTTATAAATTTAAGTTTAAGTTTATTAATAATAAGTTATGGATTAAAAAATATTGCTATTCTAGTATTATTTGAATATATATTTCAAAATATCATAAAATTTATAATTTTGAATTTTATGATAAAGACAGAAAATATTTTAGTATTAGGAGAAAAAAATATAAATTATGAGATAATTAAAGAGTTGGCTATAAAAAATGGAAGATATATTACAAAAGGGATGGTGGAGATTAAAAATAATAAATTAAAAAATTTAGAAGAGAAAATAAAAAAAGATGATATAGATATATTAATACTAAACTTACAAAAACCAATTGCAGAAGATATATTAGGGGAATTATTAAAAATAAAAATGAGTGGTATTAAATTATATGATTTTTTAAATTTTTATGAAGCTATTGAAGAAAAAGTACCTGTAAAAGCAATAAATGAAGAATGGTTTTTATTTGGAGAAGGATTTGATATAATTCATAATGGTTTTAATCAAAGATTAAAAAGAGTACTAGATATAATTATGTCTTTAATTATATTTATACCCGCATTCCCAATAATGATTATTGCAGCAATAATTGTAAAAATTGAATCTAAGGGACCAATATTTTTTGTACAAGAAAGAATAGGTATGGGGAATAAACCGTTTAAAATTATTAAATTTAGATCTATGAAAGCAGATGCAGAAAAAGAAGGGCCACAATGGGCAAAAAAAAAGGATGATAGAGTTACAAAATTTGGAAAAATAATGAGAAAAACTAGAATTGATGAGTTACCTCAACTTATAAATGTTATGAATGGAGAAATGACATTTATAGGTCCAAGACCAGAAAGGCAACATTTTATTGATGTGTTAGAAAATACAATACCATTTTATAATATAAGGCATTCAGTGAAACCAGGTCTTACAGGTTGGGCACAAGTTAATTATTCTTATGGGGCTTCAATAGAAGATGCTTTTGAAAAATTACAATATGATTTATATTACATAAAACATCAATCGCTAGTATTAGATATAAGTATTTTCTTTAAGACAGTGAAAACAGTTATATTTGGAAGAGGTCAATAAAATCAATGGTTTTAAAATTTTGAACAGATACTGCTATAATAGAAAAAGGGGTGATAAAGTTGTATATTTTATTAGCATTGGGAATTTTATGCTTTGTTTTAGAAATACTTACTCCAGGAATATTTTTATTTTTTAGTATAGGCGTTTCATTTATTGTGACATCTTTGTTTTCACTATTTATAAAAGATATTTTTATATTAAGTTTTATATTAGCTTTGTTATCTTTAGGTATGTTTATATTGTTAAAAAAATCAAAATTTTTAAATAAAAAAACAGATTATAAAGCAAATGTAGATAACTATTCTGGAAAATCTGGTGTAGTTACAAAAAAGATGGAGAATAATAGATATTTGATTAAAGTTTTTGGAGAAGAGTGGATAGGAATAAGTGAAAAGCAGTTGGAAAAAGGAGATAGCGTAGTAATAGATAAAATTGATGGGACAAAATTAATTTTAAAATAATTTAAGGGATATTAAAAAAATAAGTTTTATATATTTTGTTATAAAAACGGTTGAAGAACATTTAAAAAATATTTCTATATATTTTGTTGTAAAAACGCTTGAATCGTTGCGTATTTTAAAACAAAAGGATAAAGTTATTTTTAAAGTGTTCCTAAATTATTGCATATTTTAAAACAAAATTGGAATGTTATTTTTAAGCCATTCCTAGCTGGGAGATATAAATTATGAAATTGTATTCTAAAATATTATTAATGCTAATAATTCTTTTTATAATTCCTGGTTTTTTGATTGGATTAATATATTTTAATAAAACAAATAATCAATATAATAATATTTTAGTAAAAGAAGTTATAAATCAAAGTGATGAAATTAATTTTTCTATAGTAAAAGAGTATGAATTTTATAAAGAAAAATTTCAAAGAGAAATGGAGAATATGAGTATTTCCACAGTTAAAAATGAATGTGATAGTATAGAAAAAATTTTAGGTAAAGGCTCTGATTTAAAAGATGAAATTATAGTTTTGAAAGACAGAATTGTTTTTTTGTATTATATAAATGGCTATAAATTAGAAAAATATATTACAGAATTTGATTATAGAAAAATATTTTTGAGAAATTCATATGAAAAATATGTAGTATATTCAAATAATGATCTGGAAAATATTATGTTGTCAGATTTTTATGATAAGGTAAGTAGGAAAATTTATAAAGATATAGGAGAAAAAAAATATTTAGAAAAAGTAAAAAGAGATAATAAAAAAGTAATTAGAAATAATATATTAATCAATAATAAAAATTATTCGAGTGTATATTTTCCATTAAAATATTTTGGAAAAACATGGGGGATTGGAATATTATATTTAGAGAAAAAAAGTTTTGAAAATTTTTTAGATTTTTTTAGAAAAAATGCGATGTTATTGGCTTTTATTATTATAATTTTAGGTATAATATTTACTGCATTTATATATTTAATTATAGCGGTACCAATAAAAAAAATAGAAGGCTTTACACAGAAAATAATAAAAGGTGATATAAATACAGAAGTAAAAATCAAATCAAATGATGAGTTGGGAAGTTTAGCAAATAATATAAATAATATGGTTAAAAAACTAAGAGATAGAATAGAAGCTCAAAAAATAATTCAGAGAATGATTTCTAATGAGGAAATTAGGAAAGAATATATTGATTCTATTGAGAAAAAAAATAAAAAATTAAAATATCTTTTAGAAGAATTAAAGAATACACAAGCTATGTTAATTGAAAAGGGTAAAATGTCTACGATAGCTCATATTTCAGGAGAAATAGCGCATGAACTAAATTCACCATTAAGCACAATATTAACTAATGCAGAAATGTTAAAGATGGATACGGACGATAAAGAGATATTAGAAAAGATGGAAGATATTGAGATAGCGGTAAAAACCTCTAAAATGATAGTTGATAAGTTTCTGAAAGAATGCAAAGTTGAGAGCGAAAATTATAGAGTTATAAAAATAAACAATGTTTTTACAGAAGTTTTAAGAATGAAAAGCAAAATTAACAAAGATATTGAATTTGGATTGAGATATATTGGGAGGAGTACGCCAAATGTATATGGAGAATATGGAGAAATTAGAAGCATAATTGAAAATTTATTAGAAAATAGTATAGAATCAATTTACAAAGCAAAACAAACAAAAGAAAAAATTGGAAAAATTAAAATTTTTATAATTGAAAAAAATGAGTATATCAAAATTATTGTAAAAGATAATGGGAAAGGGATGACACCAGAAGAGTATAAAGAAATTTTTGATCTGTTTTACAATATTGAAAAAAATGAAAGTAGAATGAGATTAATAGTTGTTAAAAATATTTTGAAACATTATAGTGGAGAAATAAAAGTAAAAAGTAAATATGATTATGGAACAATGGTAAAAATAAAAATTTTAAAAATGAAGGAGGAGATTTAAATGTTTGAAGTTTTTAGTATTGCTTTTTTGATTTTTGTAGTAATATTTATATTAAGAGGTATAATTGTTGTAAGGCAAGCAGAAGTAATTGTTATTGAGAGGTTGGGGAGTTATAATAGGACTTTATCAAATGGACTAAATTTTATAATTCCAATATTTGAAACACCAAGAACAGTTGTATGGAAATATGTAAAAGCTAGTTTGGACAATCAAAGTGTATATCAAACAAAAAATGTAACAAGAATTGATTTGAGAGAAACAGTATATGATTTTCCAAAACAAAATGTAATCACAAAAGATAATGTTACAATAGAAATTAATGCATTATTGTATTTTCAGATAACGGATCCTAAAAAAATTGCATATGAGATAAATAATTTGCCAGATGCAATAGAAAAATTAACTCAAACAACTCTTAGAAATGTAATAGGAGAGCTTGATTTAGATGAGACATTAGTATCAAGAGATACAATAAATAGTAAATTAAGATTAATATTAGATGAAGCAACAGATAAATGGGGAGTAAAAGTAAATAGAGTAGAACTTCAAGATATAATACCTCCTAAAGAGATTAGAACAGCAATGGAAAAACAGATGAAAGCAGAAAGAGATAAAAGAGCTTCAATATTAACAGCAGAAGGAGCTAAAAAGGCAAAAATATTGAATGCTGAGGGCGAAAGAGATTCTCAAATTGCAAGAGCTGAAGGGATAAAACGTTCAAATATACTAAAAGCAGAAGGAGAAGCAGAGGCGAGATTAAAAGTAGCATCAGCAGAAGCAAAAACAATAAATATGATAACAGATTCAATTGATATAGAGAAAACAGATTCTGTAAATTACCTTGTAGCATTAAAATATATAGAAGCATTAAAGAATATAAGTGAAGGTTCAAATGATAAAGTTGTATTTATGCCATATGAAACATCAGGTTTATTAAGCTCATTAGGAAGTATAAAAGAACTTTTCGATAACAGTAAAAAATAGAGAGGGTTATCCCTCTTTATTTTATGGGCAAATTTTTGAAAGATAAGAAGGAGAAAAAATGCTAATAAAAGAATTACTTGAAGCAATTACAGAAGATTATAATTTAGAAAAAGGAGCAGAATTATATAAAAAAAATAAAATAATATATTATGAAGCTAAAAAAGAGCTTTCAAATGTTTATTCAGTTGAAGCAAGAATAAATGATTATGGAGAAATAAAAAATGTTTCTCTATTTTTAAATTTTGAAAAAGAGTATTTATCTAATTTTAATTGTAGTTGTTATTCTCATTTTATTTGTAGTCATATAGTGGCGACTGTTTTAAAATTTTCAGATGAAACAAAAGAAATAAAAAACAAAAAAATAAAAAATAAATTTTTGAAATACAGATACAATATAAAAGGAAATAAAGTAGAAGTAGATTATGAAATAGAAATTAAAAATTGGATAAAGGGTTATGGAGAATTAAAGAGCAATATAGAAAAATATTTAGAGAATATGAGTTATAATGAAAGGGCTATTTTGTATGAAATAAAAAAAAATAGAAATTATAAAATAACGTATAAAATAGCTGAAATATTAAAAAAATTAAACATTGAATTAAAGCTAGAATTAGAAAAATATTTAATTTATAAAGAAGAGGATAAAATAGAGATAAAAAAAATTTATGATAAAGTTAGAAATAAAAATATAGTTAAAGTAGAAGATAAAGATATAATTAAATTTAAAGGAAAAGAGATCACTCCTAAGATTATATTTGAAGATTTAATGAAAATATATATTAAAGGGAATGTGAAATTTTCAGAAGAGCTAAAAAAATATGTATTATATGAAGAAGAGGTAAAATATATATTAAATTTTAAAATGCATAAAAAAAGAGTTCTGTTATACCCAGAAATTATAATTGATAATAAAAAGTATAAAAATGAAGAGATATTAAAAATAGATGCAACTTATCACAGGATTTCTGAATATGAATATAGAAGAATTAATATTGATGAGTATAAAGAATATATAGGGTTTCTTAAAAATAAAAATCTGAAATTTACAGGTAAGCTATTTATTTGCGAAAATAGATTTTTTAAAGAAAACTATAATAAAATTAATAAAAATTGGGTTGTGAATGGAATCAACAAAATAAAACTTGAAAAAGAGGTTAAATTAAATTTTAATGATAAAAATACAAGTTTAAAAATAAAATATAAAATAAAAAATAGGGATTTAGAAAATGAAGAGTTATTAAATATAAAAAAATATAATTTTGATGTACAAAATGATAAAATATATTATGTACAACCAAATGGTGAAAATATAGAGAATTATGAATTTTCTGGGACAAAAGAAGAGTTATTGTGTAATGTAGAAAAATTAAAAGATAAATTTAAATTAGATACTGGAAAGATATTTTTTAAAGATATAAAATTAAATAATAGATTAAAATCTTTATTAAGAGATTATCAAAAAGATGGAGTTAAATGGCTAAAATTTTTAGATGAATTTAAATTTTCAGGAATTTTAGCAGATGATATGGGGCTTGGAAAAACAATACAAAGTATAGCTATGATTGATGAGCTTTCTAATAATGAAATGATATTAATAGTTGCACCGAAATCATTAATATATAATTGGAAAGAAGAGATAGAAAAATTTTTGCCAAGTATAAATGATAAAGTTGTAATATATGATGGAGGAATTGGAAAGAGGAAAAAGATTTTTGAAGAAATAAAAAAATCTAGTGTAATCTTAACATCATATAGCATTTTGAGAAAAGATTTTGAAAAGTTTGAAGAGTTTGAATTTAGATATATGATACTGGATGAAGCGCAACATATAAAAAATAGGAATACTGTTATTTATAAAGCAATAAGTAAAATAAAAAGTCACACAAAATTAGCATTAACAGGAACACCTATTGAAAATTCAATAAAAGAATTATGGACAATTTTTGAATTTTTAATGCCAGGATATTTAGGACGTTATGAACAATATAATACAAAAGAAGGAATGGAATATTTAAAATATAAACTGGCACCCTTTATACTTCGAAGGGAAAAAGTAGATGTTTTAAAAGAGTTACCAGAAAAAATAGAACAAATAGTAAAAGTAGAGTTTTCGGACAAGCAAAGAGATTATTATGAACATATATTAGAAAATATGAGAAATAAAGTATATGATAGTATTGAAGAAAAAGGTTTTTCAAAATCATATTTTACAATTTTATCAGCGATTACATATTTGAGAGAGATATGTAATCATCCTAAACTTATAGAGGGAGGGAAAGATATTCCTTCGGGAAAATTTGAATTATTAAAAGAATTAATTGATGAAGCAATTGAAGGAAATCATAAAATTTTAATTTTTAGTCAATTTGTAAAAATGCTAGAAATTGTAAAAAGTCATTTGGAACATAAAAAAATAAAATTTGAAATTTTAACAGGTCAAACCAAAGAAAGAGGAGAAACAGTAAAGAGATTTAATACAGATGAAACTATAAAAATATTTTTAATTAGTTTAAAAGCTGGTGGGGTTGGGTTAAATTTAACTTCTGCTGATACAGTAATACATATAGATCCTTGGTGGAATCCTATGACTGAAAATCAAGCTACAGATAGAGTATATAGAATAGGGCAAACTAGAAATGTAAATGTATATAAGCTGATAGTTAAAAAATCTATTGAAGAAAAAATATTGAAAATTCAAAATAGGAAGAAAGAACTTTTTGATACTATAATAAGTGGAAATAAAGAGGCTACAGGTAGGTTAACCATAGAGGATTTAAAAGATATTTTAGAATAATTATTGAAAGATATTTTTAAATATGATATAATAAAGAACGTTTAAAATCAATTTATTTATTTGATGAGCCGTTTTTAATAAAATGTGAGGAGGATAATAATTTCATGGTAAGAAAATTAAAATCAAAAGAAAGTAATGGTGGAGGGAACTCTAAAAATTTAATAAAGCAAGCACAAGAAATGCAAAAGAAGATGCTTTTGGTTCAAGAATCACTAAAGGAAAAAGAGATAGAAGCTTCAGTTGGCGGTGGAGCTGTTGTAGCAAAAGTTAATGGTCAAAAAGAATTAATAGGGATTGAATTATCGAAAGATATAGTTGATCCAGAAGATATTGAAATGCTACAAGATTTAATAGTTTCTGCTGTAAAAGAAGCAATGAGACAAGCAGAAGAAATGGCAGAAAAAGAGATGGGCAAAGTTACAGGTGGACTTGATATACCAGGATTAATTTAAGAGAGGTTTGCCTCTCTTTTTTAGTTTGTTAGGGGAAAGTTGGAACTACAGGATTAACACTGATGAATAAATGAGAAGAGATAATAAAAAAATTAAGATAGACCAAATAGAAATAACAATATTATTAATAGGAGTGAAAAAGTTGAAGAAATGGTTATTATTAGTACTATTATTTTTAGTTATAGGATGTAATAAATTTAATGATGAAATATTAAATTATAATAGTGTAAAAAAAATAAATAATAAAAAATATAATTCTGAAAAAAGCAAAAAAGGGGTAAAGAAAATGGAATTTCAATCTTTTATGTTAGAAAATAATATAAAAAAAAATAGTATTAAAAGTAAATTTGTTCCAGAAACTATGGAATATTATGTTTTATTACCCCAAAATTATAATAAAAATAAAAAATATCCTGTATTATATCTTTTACATGGAATTACAGATAAAGCAGAATATTGGTTTGACAAAGCAGAAATTTTAAGTAGATATAAAGAAATTAGAAATAAGAAAATAATTGGAGATATGATTTTGATTTTCCCAGAATCTGGAAATGATGGTAGAAGCTGGTATACTAATTTTGAAAGAGATAAAAAAAATAAATATGAAGATTATTTTATAAAAGAGCTTATTCCAGATGTAGAAAAAAAATATTCTGTATATAAATCACCGGATAAAAGAGCTATTGCTGGGTTTTCTATGGGTGGATATGGAGCGTATGCTTTGTTTATGAGAAATATAGAGAAGTTTAAAGTTGTAGGTTCTTTTGCAGGAGCATTAAATTTAAATAGAGTAGCTTTTAATAAAAAAGAATTAGGTGTATATAAATTTTTATGGTTGCCAGATATATTTATTAAGGATGAAAATGGAAAATCATTTGAATATTCTTTTGGGAATTTTCCTATGAAATGGTTAAATAAAAATCCATATAAATTAATTGATAAACTATATAAAGAAAAAAAAGATGAACTTAAATCAAAATATTTTTATTTGAGCGTTGGGAAAAATGATATAGAGGATTATCATATGATTTACCAATGGCAGGATATGTGTGAAAAATTAGAAAAGTATAAATTGAATTATAAGGCTAATTTAGTAGAAAATGAAGAGCATACTTGGGAATATGTTAGAAGAGATTTTGAAAATTTATTATTATATGTTTGGGATAAGTTAGAGGAGGAATAGTGGATAAAATAATTAATAAAAATAAAACTATAGCAGTAGCAATGAGTGGTGGAGTTGATAGTTCTGTTGTGGCATATATGTTAAAAAAAGAGGGATATAATATAATAGGAATAACAATGAAACATTGGGGTGGAGAAGATTCAGGAGATAATAATAAAACTTGTTGTTCATTAGATGATATTTATGATGCAAAAAGAGTTTGTGATGATTTGGGAATATCACATTATGTTGTTAATTTTGAAAAAGAATTTAAAGAAGAAGTTGTTAAATATTTTATTGATGATTATATAAATGGCAATACACCTAATCCATGTGTAGTATGTAATAGAAAAATAAAATTAGGAAAATTAGTGGATTTTTCAAAAAAAATTGGAGCTGATTTTTTAGCTACAGGACATTATGCAAAAGTTATTAATGAAAAATTATATATGGGAGATGACGTAAAAAAAGATCAAGCGTATTTTTTATCTCAAGTAAAAAAAGACTATTTTAAGAGTATATTATTTCCTATTGGGAATTATAATAAAACTTATGTTAGAGAATTGGCAAAAGAATTAGGTGTAAGAGTTTATGCTAAAAAAGATAGTCAAGAGATATGTTTTGTAGAGAATGATGATTATAAAAAGTTTCTTATGAATATGACAGATGGGAAAATATTTAAAAATGGAGAAATAGTAACTACAAAAGGCGAAGTTGTAGGCAAACATAAAGGAACAGCTTTTTATACAATAGGACAAAGGAAAGGGCTAGGAATATCATATAGTAAACCACTATATGTAGTCGATTTAGACAGTAAAAATAATAGGGTTATTGTTGGGGATAATGAAGAACTATTTAGAAATAAATTAATAGCGATTAAAATAAATCTTTTAGGAGTAGAAAAGATAGAAGAATTAGATAATATATATTGCAATATAAAAACAAGATCAAGAGATATATTGCATAGAGCTAAATTAAAATTAATAGATGAAAATAAAATAGAAGCTTCATTTGAATTAGGAGTAAGAGCAATTACACCAGGGCAACTAGCTGTATTTTATAGAGAAGATGGTTTAGTTCTTGGAAGTGGATTTATAGAAGGAGGTAAAAGTTTATGATAATTAAAATAGGAGATACAAAACAACAAATAACAGAAAAGCCAAGAGGTGGGGTAGGCGAAATTATAGCAAACATGTATTTGAAAGATTCAGAATTAGAAAATTCATTAACAGGATTTAATATGATGCAATTAAAAAAAAATAGTGAAGTTGGATATCATCAACATATAAATGATGAGGAAATATATTATATATTAACTGGTAAAGGTATTGTAAATGACAATGGAATAGAAAAAGAAGTTGAAGCAGGTGATATGATTTATACAAAACAAGGTGAATTTCATAGTATAAAAAATATAGGAGATGAGCTATTGGAATTTATAGCTTTCATAATAAAAAAATGAAAGAACTAAATATAATATTTCCTGGTTGGGGAAGTGTCAAAGAATTTTATTTAGATAATTTAAAATTAAAAGGGAAAATTATAGTTATACAAGATTATGATTTGGAAAAAATCTGGAAAAATCTGGAAAATACAATAAAAAGTTATGATATTATAAATATAATTGGTTGGTCTTTAGGAAGTTTAATAGCTTTAAAATTGTTATTAGGAAAAGAAGAGAAAGAAGAAGAAAAAAAAGAAATTAAAAAAGATATAAAAAATAAAATTAATAGGTTGATTTTGTTTGCTCCAACTTTAAAATTCACAGAAACTACACCTAAAGTTATTGTGAAAAGAATGAAAAAAAATTTACTAAGAAATAAAGAAAAAACTTTAAAAGAGTTCATAAAATTAAATTTTTATTCAGAAAACAATTTTTTAGAATATTGGGAAAAATATAAAGAGAGAATTATAAATTTAGATACAGAATATTTATTAGAAGGATTGGATATTTTGGAAAATTGGGACTTGAATTATATTGGGATTAATTATGAAATACTTTTAACAATATTTTTAGGAATAGAAGATAGTATAATTATAAACAATAATTCTAATAAAGTAATAGAAAAATTTAAAAAAGTAAAAGTGCATAAATTAAGTAATTGTGGGCACAATATTATATTTGAAAAAAAAGATGAAATCATAAAAATATTAGGAGTTATGTATGATTGAAAAAGAAAAAGTTATAAAAAATTTTTCAAAAGGAGCTAAAACATATGATAAATATGCAAAAGTTCAAAAATATATGGCAGAAAAATTGAATAAATTGTTTATTGAACATAAAGAAAAAAATATAAATTGTGATATGAATTCAAAAAAACAAATTTTAGAAATAGGAAATGGGACAGGAATATTAACAGAGTATATATTAAAAAAATATAAAAATCTGAATATGGATTTAATAGATATATCGCCCGAAATGATAAAGATTTCTAAAGAAAAATTTAAAAATATAAATAATAATTTAAACTATATAGTTGGAGATGCAGAAGAGTATGATTTTAATAAAAAATATGATTTGATTATTTCAAATGCTACTTTTCAATGGTTTAAAGATTTCGAGAATACAATAAATAAGTTATATGATAGTCTAAATAATGGCGGAGAAATTATATTTTCTACATTTGGAAAAGAAACATATAATGAATTGAGAAAAATATTAAAATCGATATCAGAAAAATATGATTATTCGCAAACATTTTATTCAATGAATGATATTGAAAAAATTATAAGAGATATAGGTGCTGAATTTACACTTATAGAAGAAAACTATATAGAAAAATTTAAAAATGTAAGAGAATTTTTATTTGCAATAAAAAAGATAGGAGCAAATAGTGCTAAAGAAAAAAAAGAAATATTAACACCAGGAGTTTATAAACAATTAGAAAAAGAGTATAAGAAAAATTTTACAAAAAATAATAAGATAATTGTAACAAATCATATTATTTTTTGTAAAATAAAAAAGGAAATAAAAAAAAATATAGTATAATATATTATAACGATTTAAAATTTTGTTATAATATATAGGAGGTGTTCTAAATGATAGAAAAAGATTTTTTTAGAAAAACTATGTTAGCTGGAATTGGTTTATTGGATATGACAAAAGAAAAAGCGGATGAAGTTGTAAAAGAGTTAGTGAAAAGAGGAGAAATCGCAGAGAATGAGGGAAAAGAATATGCAGATGAAATTTTGAAAAAAGCAAAAGGATTTGAAGAGGAGCTTACAGAAAAAATTGAATCGGTATTAAAAGAAAAAAGCTATGCAAAAGAGGATAAAGTAGAGATTATTGAAAAGAAATTAGATGAAATACTAGAAAAATTAAATAATATGTAATAAAAAAAGGGGGAAACCCCTTTTTTATTTACTAGGAAAGTATAAATTTATTCAGAAAATAAGGTACGCCGTTTTTTTAAATATGCGATTTTTCAAAACAAAATTTTTCAGAAGCCAAAAATTTAGAAAAATATTTATGCTTTACCAGATGAAGCGTAGCTTATTTTTCCATTGAGAAAAATTGAAAAATGAGGTATAATGCTTGTGCTAAATAAAATAATTTTTTTAATAGTAAAAATATAAAAACTGGAGGAAATTTTATGAAAAAAATTGGGATATTGTCATTAATAACATTGTTATTAATAGCAGGATGTGGAGAAACAAAACAAAAAAATCAAGAATCAAAACAATCAGTAACTAAAAAAGTAGAATCAAATATCAAAGTTGGAATTGAAAAAGGAAATAAAATACCTGATTTCAAAGTGATGAGATTAGATGGTGAAATTATTAATATGGAAGATTTAAAAGGAAAATATGTTTTATTAAATTTTTGGGCAACTTGGTGTCCACCATGTAGAAGAGAGATGCCATCAATACAAAAATTATATGATGATAATAGAAGTAATGATAAATTTGAAATTGTGGCTATATCAGTTGACCAAAAACAGGCTTTTGAAGTTCAAAAATTTGTGGATGACAATGGTTATTCTTTTCCAATTTATTATGATAAGGGTGGAGTATTATCAAGAAAATTTTTTATTAAATCAATACCAACCACTTTTCTTGTAAATAAAGATGGAATTATAGAAAATAAAGTGTTAGGTGGTTCTGATTGGTCAAAATTAAATGTACAATTATTAACAAAAGGTGTTAAATAATGGATGGGATGACAAATTTATCGCTATTATTAGTGTTTGGAGCAGGGATTGCGAGCTTTTTTTCTCCTTGTACTTTGCCATTAATTCCAGTTTATTTATCATATATAAGTGGGATTGGAGCGAAAGAATTAAATAATAAAAAAAGATTTAAAATATTTTTTCATACTTTATCATTTATTTTAGGATTTACAACTATATTTGTAATTATAGAAATTGGGGCTATATATTTCGCAAATATTTTTTCAAAGGTAATTAGTAATGATATTACATATAAAATAGCAGGAACTTTAGTAATAGTATTAGGAATTCATATGACTGGAATTTTTAAAATAAAACAAATTTCACAAGAAAAAAAATTGAATATCCGTATTAATCCTGGTAATTATTTTTCTTCATATGGATTGGGATTACTTTTTGCCTTAGGTTGGTCGCCATGCGTAGGACCTATTTTGGCTTCTGTTGTAATGTATGCTTCACAGTCGAAAACAATGAGTACAGGAGTTTTTTATCTCATAATATATTCTTTAGGAATGGGAATTCCATTTTTAATATTTGGATTTTTATTAGAGTATTTTATGAAATTTGTAGATAAAATAAATAAATATGGAAAAGTAGTAGAGATAGTTAGTGGATTAATATTAATTTTAATGGGATTAGTTCTATTTTTTAATAAATTAGGAGCAATATCTTCATTATAAAAAGGTGAGTCTTAATGGAAAGATATAAAAAATTATATATTAAATTGGAAGAAGCAAATATAAAAGGGCTAGGAGAAAAAACTATAGAGAAATTAAACAAAATTAAAGTAATTACAGTAAAAGATTTATTATATAATTTTCCAAGAGGATATGAAGATAGAAGAAATATAAAAAAAATATCTAATGTTAGAGTTGGAGAATTTGTTACTTTAAGAGGAATTATATTAACAGGAGAATTAATCAGAACTAGGAACAAAAAAGTTATTTATAAAATAAAATTAAGAGATGAATCAGGGATTATAGAAGTTTCTTGGTTTCAAATGCCATATTTGAAAAATAAGCTTATTCCTGGAAAAGAAATTTATGTTATTGGAGAAATAAAAAGAGATTATTATCTAAAAATGGTAAATCCAGAATATGAATATGTATCTGAAAAAGTAAAATATAAAGCTGAAATTTTACCGAATTATAGCTTGATAAGTGGATTAAGTCAGAAAATAATGAGAAAAATAATAAAAAATTGTATAGAAAAATATAAAGAATATATTTTAGAACTGATTCCAGATGAGATAATAAACAAATATAAGCTATTAAATAGAGATGAAGCAATTGCTTTAATCCATTTCCCTAAAAATAATAAAGATATTGAAATGTGCAAACATAGATTTGCAGTAGAAGAACTTTTAATGTTAGAATTTAAAATATTATATGGAAGATATAAATTGGAAAATGAAAATAACAGGAAATATTATCTATTAGATAAAAAAGATAAAGTTAAAGATTTTTTGAAAGAGTTAAATTTTGATTTAACAAATGCACAAAAGAGAGTAATAACTGACATTTATAAAGAGATTAAAAATGGGAAAATAGTAAATAGGTTAATTCAAGGAGATGTTGGTTCAGGGAAAACAATAGTTGCGATTATAATGTTACTGTATATGGCCGATAATGGATATCAAGGTGTATTTATGGCACCAACTGAAATTTTAGCAGAACAACATTATTTGGGAATGGTTGACAGATTAAATGAAATAGGAATTAGAATGGAGATTTTAACTGGTTCTATTAAAGGAAAACAAAAAGAAGAGATTTTAAATAAAATAAAATATGGATTAGTAGATATTGTGGTTGGAACTCATGCTTTAATTGAGGACAATGTAAAATTTAAAAAATTAGGGTTAATAGTTATTGATGAACAACATAAATTTGGAGTTATTCAAAGAAAAAGGCTTAGAGAAAAAGGAGTTCTTGCTAATTTGATAGTAATGAGTGCAACACCAATTCCAAGGTCATTAGCACTAAGTATATATGGCGATTTGGATGTGTCGATAATAGATGAACTTCCACCAGGCAGGCAAGCAATAAGAACTAAATGGATAAAAAATGGGAATGAAATAGAGCAGATGTATAAATTTATAAAAAGTAAATTAAGTGAAGGCAGGCAATGCTATATTGTGGCACCACTTATAGAAGAATCTGAAAAATTAAATTTACAATCTGCTGTTGAATTGTATGAAAAACTAAAAAATGGATATTTCAAAAAAAATAGTGTAAAAATTTTACATGGTAGAATGAAGAGAAATGAAAAAGAAGAAATAATGAGAGAATTTGTGAAAAATAGAATACAAATTTTAGTTTCTACAACTGTAATAGAAGTTGGAGTAAATGTTCCTAATGCTTCAATAATGGTTATTTCAAATTCTGAAAGATTTGGCTTAGCACAGCTACATCAACTTAGAGGAAGAGTAGGAAGAGGAGAGCATAAATCATATTGTTTTTTATTGTCAGATACAAAAAATGAAATTAGCAAAACACGATTAAAAATAATGGAAGAGAGTACCGATGGATTTAAAATAGCAGAAGAAGATTTGAAATTGAGGAAATCGGGAGAAATTTTTGGAACAAAACAAAGTGGAATAAGTGATTTGAGATTTGTAGATATAGTACATGATATTAAAACAATAAAGTTAGCAAGAGAAGAAGCTAAAAAATATTTATCAGAATCAAAAGGAAAAATTAACAATAAAATATTAAAATTTGAAATAGAAAAAAACATATAATTTATATAGGGAGGAATTTTAGTTATGTTTAAAAAGTTTTTTAAAGGGTCTAAAAAGAAAAATATGGTAGAGAAAAAAGAAGAGGTTAATAAAAAAGAGGAGTCAGAAAAATTTCAAAGTAATATAGAAAATAAAAAAGTAGAAAATGCTATAAAAGAGGAAAAAGTAGATATTTTAAAAGATGAAAGCTTAAAAGAAAAAATTGAAGAAGTAAAGAAAGAAGAAGTAAAGAAAGAAGAATTGGAAGAGAAAAAAACTGAAAAAAAAGGCTTTTTTACTAGCTTAAAAGAAAAATTAACAAAAAGTAGAGAAGGATTATTTGGAAAATTAAAAAATTTCTTTTCTGGAAGGTCAGTAATAGATGATGAAATGTATGAAGATTTGGAAGAACTATTGATTCAATCAGATATTGGATTTGATATGACACTTAAAATAGTAGAAAATTTAGAAAAAGAAGTTAAAACAAGAGGAATAAAAGAAGCAGAAAAAGTATATGATGTGTTAAAAGATGTATTAGAAAGATTTTTAATTAGAGAAAATAATAAAATAGAGTTAAAAGAAGACAGATTAAATATAATACTTGTTGTTGGAGTAAATGGAGTAGGAAAAACAACTACAATAGGAAAAATGATATCAAAATTTAAATCTGAAGGGAAAAAAGTTATAATTGGAGCAGCTGATACATTTAGAGCAGCAGCGATAGAACAATTAGAGGAGTGGGCGATTCGTTCAGAGGTGGATATAGTAAAGCATTCTCAAGGAGCTGATCCTGGAGCAGTTGTATTTGACACGCTAAAGGCAGCTAAAAGCAGAAACATGGATGTGGCTATAATAGATACAGCAGGAAGACTTCATAATAAAAAGAATTTAATGGATGAATTGTCTAAAATTAATAAAATAATAAAAAAAGAAATTGGAGAAAACGAACCATATGAAACTCTATTAGTAATTGATGGAACAACTGGACAAAATGGATTAACCCAAGCAAGGGTATTTAATGAAGTTACTAAATTAACAGGATTTGTAATAACAAAATTGGATGGGACTGCGAAAGGTGGAATAATATTTGCAATATCTGAAGAATTAAAAAAACCAGTTAAATTTATAGGAGTTGGAGAAGGTATTGAAGATCTAAGAGAATTTGATGCAGATGAATTTATAAACGCTATTTTTGAATAAGAGGAGATATTATGAAAAATCTTCAAGGGAAAAATATAAAATTATATAAAATGTTAAAAGAACTAGATAATAGCTGTGAAGAAGTCGAAGTTATATCCACAAAAAATGGTGAATATACAGCTAAATTAAATGGGAAATTTCTTCATAGTAAATATAACCCATATAAGGAAGCAGAAAAAGTAATTTCAAATTATTCTATTAAAGAGAAAAAAGTAGTTACACTATTTGGAATTGGATTTGGATATTATTTAGAAGAGATATTAAAACATATAAAATCTGATACTAAAATATTTATTATAGAAGAGAATTTATGTTTATTAAAAAAGCTTTTTGAAATAAGAAATTTTGATAAGATGTTATTAAATGAAAATATATTTATATATCATACTTCACAAAAATTTGAATTTATATACAAGCTGGAAGAAAATTTAAAAGTTGGATTTGCGTTAGACTACGAGGTTATAGTTCATAAAGTGGAGTCTGAATTTTATTCAAAAGAATATAATGAGTTTATATCTGAAATGAAAAATAGTTTAAGTAATAATTTAGTGAATACAGCTACTATTTTTGAATTTTCTAAAATGTGGCAGAAAAATAGATTTATGAATTTAAAAAACTTTGCAAAATCTATACCTGCAATATCTCTTTTTAATGAACTTAAAAATATGCCAGCAGTAATTGTGGCTGCAGGACCTTCATTAGATAAAAATATTATGTATTTGAAATGGATAAAAAATAAAGCGTTAATAATCGCAGTAGGAACAGTATTGAAAAAACTTTTAGCAGAAGGAATTGAGCCTGATATAATTGTTTCAGTAGATGGTGGAGAACCAAATTGGGAACATTTTAGTAGAATAGATTATGAAGAGATACCATTAGCATATGAGCCAATGTTAAATCCTAAAATTTCTTCTAAACATAAAGGAATAAAAGTAGGGTTTGTTACCCAAGATGTGGTGAGTGCTTGGGCAGAAAAAATATTAGGGGAAATGGGATTTGTAAAAAGTGGAGGAACAGTTGCAATTTCATCATATGATTTTGCAATAAAACTTGGTTGTAATCCAATAATTTTATTAGGGCAAGATTTGGCTTATAGTGGTGGAAAATCACATGTATCTTCTACAGTATATGAAAATGATGAAGTGAAAGAAGAGAGCGAAGACATTCATCAAATGGAAGTTTTAGATATATTTAATGAAAAAATTTTAACAGATAGAAAATTTTTTACATTTAAGCAATATTTTGAAAGATTTATTGCAGGGGATAAAGCTGGAAATAATATGTTAAAAATTATTGATGCAACTGAAGGAGGAGCAAAAATATCAGGGACTGAAATAATGACATTAAAAGATGTATATTTCAAATATATAGCTGATAAAAATATAGATTTTAGAAAAATTTTAGAATCAAAAATAGATACTATTGATTTTAATGAGAGATTAAAAAAGATAGAAGATGGAAAAAAAGATTTAAAAAGCAAATTGATAAAATTTTTAAAAATTGTAGAAAAGGGGATAAAAGTAATAAATAAATTACAAAAAAATCCGAACAAAGTTTTTTCAGATAAATTAGATAAAATAGATATAGAATTAAAAAAAGAGTTAGAAGTTTCTTTTTTTATAACATATATTACTCAACCAATAATATCAACAGTTATAAAAGAAAAGGTTAATAATAAGGATTTGAACGATATATTAAAATCAAATTTAAAATTATATAAAGGGATTAAAGAGGCAGTTGAATATACTTTGGAGTGTTTGGGGGAAGAATAATGAATGAAAAGATATTAGTTGTAGATGATGAGCCATACATTAGGAAAATTCTAAAATATACTTTAGATAAATCAGGCTACATGGTTGAAGAATGTGAAGATGTATATGAGGCAGAAGAACTTTTAAAATCTAAAAATTATGATTTAATTTTAACAGATTTGATGATGCCAATAAAAAGTGGCTTAGATTTAGTTAGATTTGTAAGAAGTGAACTAAAATTAGATAAACAAAAAATTATAATATTATCAGCTAAAGGGATGGAAAACGATATTAAATTAGCTAAAGAATTAGAGGTGAGTTATTACATAATGAAACCTTTTGAAGTGGGAAGAATAATAAAAAAAATACGAATGGTTTTAGATGGAGAGATATAATGATATATTTAAATGGAAAGATTGAAGAAGAATCCAAAATATTAAAAGCTATTGAATATGGGTATGGGTTATTTGAAACAATAGGTGGCAAAGGAGAAAAATTATATTTTTTTGAAGAACATTTTAATAGATTGAAGAATGGAATTAATAGAATAGGGTTAAATTTGAAATATGATATTGAATATCTGTATAATATAGTCGAAGATTTGATTATGTTAGAAAATATAGAAAAAGATGAAGAATTTAAAGTTAAGGTTATTGTAGCAGAAGATCTATTTTACGTTTCTTTAAATAAAATTAAACTTAGAGAAGAAAAAAATGGTATTAAAGTTGGATTAATTAAAAGTTATTTTCAAAATGAATTGGGATTTTTGAAAAGTTTAAACTATATGAATAATATTTTGGCTAGAAAAGAGTTGAAAAAAAACAGTTATTATGAAGGTGTTTTTATTAATAGAAATCGACATATAACAGAAGGTACAATTAGCAATATATTTTTCATAAAAGAAGATAAAATTTTTACACCTAGCTTAGATTTAAATATATTAAATGGAATAATTAGAAGCAAAATTATTGAAATATCCAAATTAAATAATATTAAAATTGAAGAAGGGCATTATTATTATGATGAATTATTAGAGGCAGATTCGATATTTTTTACTAATTCTTTAATGAAAAATGGTTTGTTATGGGTTAAAGAGATAGATAATAAATTAAAGCAAAAACATGAGTTTATAACTAAAATTGAAAATGAATATAAAAAAATATTGCAAAAATGAAAGAGGTGTTTAAAATAAGTCTGAAAATAACTTTAAAGTCGAAAGTTATAATTATATATATTATAATTATAATAGCTTTTATTGTAGCAATTTATCAACTTTCGATGATACAAATTTTTAACAATAAATTTTGGAAAAAAGAGGCTTATAACCAATATTATCAAAACGGAACTCCAATTGGGCATAGAGGGAAAATAGAAACATTAAATGGAGAAGAAATTGCATATGATATACCAATGTATCAAATTATATTGGATCCAACACAAATAGAAAATGGGAAAGAAGAAAAAGCCTCAGCTATTTTGTCTGAAAATTTAAAATTAGATAAAAAGCAAATCTTAAGAACTATATTAGATAAAAAAAGTAAAAAAAGTAAATATTATAAAGTTGGAAAATCAATTTCTGTAGAAACAGAATCAAAAATAAAAAAATTATTTATTAAAAATAAAATAAATGGATTTTTTGTAGGAGAAGATACAAAAAGAATATATCCAAATTTTTATATTTTTAATAGCATAACTGGATTTGTAGGCGGGGATAAAAAAGGAAAATATGGAATAGAAAAAATGTTTGATAAAAGATTAAAAGGAGCAAAAGGATTTTCAAGAGTATCTAAATTTAAAGAAAAATATAGTTTATCTTTTGGCGGAAAAGAGGAGTTTATAAGTCCAAAAGATGGACAGACAATAGTTTTAACAATTGATTATACAATGCAGCATATTTTATATGAAGAGATGTATAAAATGTTTGAAGAAACAAAATCAAATTGGGCGGCAGGGGTTATTGTAGAAGCTAATACAGGAAAAATATTAGCAATGGTGTCTTTACCAGCAACAGACAATAAAGTATATATAAAAAATAATGTGATATATAATACTTATGAGCCAGGGTCAGTTTTTAAACCATTAATAATGGGAGCAGCATTAGATGAAGGGATTGTTAAACCAGATGATATATTTTACTGTCCTGGTAAAATAAAAGTTTATGATCGTACAATTAAAGATCATGATAATTCAACAATAGGATATCTTACATTAAAAAAGATTATATCTAAATCTAGTAATGTAGGAATGGTTCAGATTGGCGAAAGATTTAGCAAAACCTCTTTTAATAATTGGCTACATAGGTATGGATTTGGTGCTCCAACAGGAATAAAATTATTCAAAGAAAGTTCATTGAAAATAGGAAATCCTAAAAAATGGAGTGGAGTAAAAATACCTACTATGAGTTTTGGGCAAGGGATTGCAGTTACTCCAATACAATTAGCAATGGCACTTACATCTGTTGTAAATGGTGGTATATTATATAAGCCCAGAATAGTAGAGCGAATAGAAGATGGAGATATTATTTTTGATAATAATAAACCAGAAATAAGAAACAGAACTATTTCAAAAGAAACATCTGAATTAATAAAAACATATTTAAGAGATGTAGTAGAAAATGGGACTGGAAAAAATGCTAAAATAGAAGGATATGATATTGGTGGAAAAACAGGTACATCTCAAAAAGCTGAAAATGGAAAATATGGTAAAGGAAAGTATACAGCATCTTTTGTAGGAGTATTACCATTAAAAAAACCTAAATATGTAGCTTTAGTTGTTTATGATGAACCAAAAGGTAAAAAAATATATGGTGGGCAAATAGCAGCCCCTGTTATAAAAAACGTATTTGAAAGAATAGCTAAATATAAAGATATTTTACCAAATAATTTAGAAACTAAAACAGTTATACTAAACGGAGAGACAGCAATTGAAAATAGTGAGATAAAAGCAGACAATAGTAATATAAAGAATTATATGCCAAATTTAATTGGTAAAACTAAAAGAGAAGCTTTAGGTGAAATAAGTAATATAACTCAAAATGTAGAAATAGAAGGAGAAGGAAAAATAACTTTTCAGAGTCCTAAACCAGGAACACCTAAAAATAAAATTGATAAGGTTTACTTGAAATTTCAGGAAAAATAATTAACTGAAAGTTATATAGGAATGGCTTAAAAATAACATTCCCATTTTGTTTTAAAATACGCAATGTTTTAGGAATGATTTAAAAACAACCTTTTTATTTTGTTTTAAAATACGCAATGGTTCAAGCGTTTTTATAACAAAAGATATAAAATTATTTTTAAACATTCTTTAAGCGTTTTTATAAAAAAATATGAGAACATTATTTTTTAAACGTTCCATAGTAAAAAAACTTTTAAATTAGAAATAATTGTGATATAATTAATTATGAATATCTTAAAAAGAATCTTCCTATTTTGTTATAAAATATGCAAATAATTAGCTGTTTTTATAAAAAAATATGAGAAACCTATTTTTGTTACTTAGGAGATAATAAAATAATGAAAGAATTAGGAATATATGATTTAAATATAGTAGAATTTTATAAAAAAAACATAAAATCTTTTAATAAAGAATTTGTGATATTAGATTCTCCAAGTGCAGATAAATTGTCAAATTTTTCTTATATAGTTGGTGAATTTAAAAGTAAAATAATAATAAAAGATAACAAAATATTTGTTGATAATATAGAAATAATTGAAGGAGATATATTTGATGTTTTGAGAAAAATAAAATCAGAAAATATGAACTGTGTAGAAAACATAGAGTTTTTAAATAATGTTTTTACAGGTGGATATATATCTATTATTTCTTATGAATTTAATAAATATATAGAGGATATAGATATAACTACAATAGATGATCTGAAATTACCAGATGCTATTTTTGTAATACCACAGTTAATTATTATAAGAGATGAAAAGAAAAATAAATTTTATGAAATAAATTTTACAAAAGAAAAATTCGATTGGGATTTTAATTTTAAGAACAAAAAAAAATTAAAAACAGAATTAGAAGATATTGATTATAAAAAATTAAAAAGCTATAATGTCAATATGGAAAAAAATAAATTTTATAATATTGTAAAAAAAGCGAAAGAGTATATTAAGGCAGGCGATATATTTCAAGTAAATTTGAGTCAAAGATTTTCTTGTGATATAGAGTCAAAAGATCAATTTAAATTATATGAGATTTTAAGAGATATAAATCCATCACCTTTTGCTTCATTTGCAAAATTTAAAGAGTTTACATTGATAAGTCAATCACCAGAAAGATTAATTAGTTTAAATGGTGATAAAGTAGAAACTAGGCCAATTGCAGGCACAAGAAGAAAAGAAGATAATACAGAAGCAATAATGGAATCGGAATTAATAATGAGTGAAAAAGAGAGAGCAGAACATATTATGCTTGTAGATTTAGAAAGAAATGATATAGGTAGAGTCTGTGAATATGGAACTGTTAAAGTTGATGAATTAATGGAAATTGAAAAATATTCACATGTAATGCATATTGTTTCTAATGTTATAGGTAAATTAAATAAAAAATATGATGAATTTGATTTGTTAAAGGCAGTTTTTCCAGGAGGGACAATTACAGGAGCTCCTAAAATAAGATGTATGGAAATAATAAATGAATTAGAGCCAACAAGAAGGAGTTTTTATACAGGAAGTATTGGCTATATAGGGTTTAATAAAATTATGGATTTAAATATAATAATTAGAAGCTTTATTAAGAAAAATAAAAATATCTTTTTTCAAGTAGGCGCAGGGATAGTATATGACTCTATTCCAGAGAGGGAATATAAAGAAACAATAAATAAAGCAAGAGCAATGATTGTATCATTTGAAACGTTAATAAACCAAAATAAAATAAGAGGTGATGAAGAATGATGGCAAAAGGGAAAATTTTTTATTTAGATGATGAACCTGAGCTTTTGGAATTTGTAGAATTTGTATTAAAAAGATATAAATATGATGTAATAGTAAAAGAAAAATGGGATGATAAATATTTAGATGAATTAGAAGATGTAGATATGATAATATTAGATATAATGTTTCCAGAAGGGCAACCTGATGGCTATGAAGTATGTAGAAGAATAAAAGGAATTGAAAAATTAGGGAATATACCAATTTATATGTTTTCAGCAAAAGCATTTTCTGAAGATAAAGAAGAAGCTTTAGAAAATGGTGCAGATGGTTTTATAGAAAAACCTGTTCCAATAGATAATTTAGTTAAGTTAGTCGAAAAAGTTGTAGAGGAGAAAAAGAAAAATGATTTTATTGATTGATAATTATGATTCTTTTACTTACAATATAGTACAATATTTGGGAATGTTAGGAGAAGATGTAAAAGTATATAGAAATGATAAAATATCTATTGAAGAAATAGAAAAAATAAAACCAGAAGCAATAGTAATATCGCCTGGACCTTGTACTCCAAATGAAGCAGGAATATCATTAGAAGTTGTAAAACAATTAAAAGGAAAATATCCAATTTTTGGAGTATGTCTTGGGCATCAAACGATTGGCCAAGCTTTTGGTGCAGAAATAATTAGAGCATCGAGAATAATGCATGGTAAAATTTCAAAAATAAATCATTTAGATAAAGGTGTTTTTAATGGTTTGAAAAATCCAATTGAGGCTACTAGATATCATTCTTTAATTATAAAAAATGGAACTTTACCTGATGAAGTAGAAGTTACTGCATGGACTAAAGAAGATGAAATAATGGCAATAAAACATAAAAAATATTTAATAGAAGGAGTTCAATTTCATCCAGAATCTATTTTAACTGAGGATGGATTAAAAATGTTAGAGAACTTCATGAAGGAAGTTAGAAAATAGATGAGATATTATTCACTTTATGTTAGCGATACAAAGACTACTTATTTTACATATGGAGATAAAAATAATGAATTTGAAGTTGGGGAATGGGTTTTTGTAAATTTTAGAAATAAGAAAAAGGCAGCATTAATATTATTTGAAGAGGAAGAAAGAGAATTTAAATTTAAAGTAAAAAATATTATAGAAAAAATACCTGATGAAATAAAAATTGATTCTAAAATGATAGAACTTTTCTTATGGATTAGTGATTATTATTTAACAGAATTTGGAGAGGTATTAACAGCAGCAATACCTAAAAATGTAAAGATAAAATATAGATATAAATATTTTTATAATGCTAGCAACAGACTTTTTGAAATGCCATTAGAAACAGAAAAACAGGCTTTTATAGATTATATAAAAAAAAGAGGAAATGCAGCAAAATCTACACTTATTTCAAAATTTGGCAAAAAATTATTAGATGAATTTGAAAAGAAAAACATGGTAACTTTAAAAAAAGAAGTTTTAAATAAAAATAATAATTTTTATGATAAAAGTGAATATAGTATAAAAATAAATAAAACATCTGATTTGACAAATGAACAGAAAAATGCTAAATATAAAATCTCTAGTTCTAATAAAAAGTATTTTTTATTAAAAGGGATAACAGGTTCAGGTAAAACGGAAATATATATTAAGTTAATACAAGAAGCTTTAGAAAATGGAGATGGAGCTATATTTCTTATACCTGAAATCTCTTTGACACCTCAAATGACAGAGAGATTAAAGAGAAGTTTTGAAGATAAAATAGCTATTTTACATAGTAGATTATCTGATATGGAAAGAGGAAAAGAATGGAGAGATATATATTTAGGAAATAAAAGAGTAGTTGTTGGAGTACGTTCAGCAATTTTTTCCCCAATAAAAAATTTAAAATATATAATAGTGGATGAAGAACATGAAACTACATATAAACAGGAATCAGAACCTAGATATAATGCAAAGTATGTAGCTATAAAAAGAGCAGAACTAGAAGGGTGTAAAGTAATATTTGGAAGTGCAACACCATCAATAGAAAGTTATTATTTTGCAAAAACAGGAGTTTTCGAATTAATAGAATTAAAAAATAGATATAATAATGCGAAATTACCTAAAATTGAGATAGTGGATATGAAAGATGAAAAGCAGGATAATTTTAGTGAAAAATTATTACAAGAGATATCTAAAAGGCTAAGAAAAAAAGAGCAAGTATTAATATTTTTAAATAGAAAAGGGTATTCAAATTTTATTCAATGTAAAGAGTGTGGACATGTTGAAACTTGTGAGGATTGTTCTGTATCATTATCATATCATAAAAAAGAAAATAAACTAAAGTGCAATTACTGTGGGAAAGAGCAAGTTTTTTTAGGTAGTTGTAGCAAGTGCGGAAGTAAAAAATTAAAATATTATGGGAAGGGTACTGAGAAATTAGAATACGATTTAAAAGAGTATTTTAAAGATGTAAATATATTAAGAGTTGATTCTGAAACAGTAAAAGAAAAAGGAAGCTATGAAAGAATATATAAAGATTTTTTAGATGGAAAATATGAAATTTTATTAGGAACTCAAATTATAGCAAAGGGATTTCATTTTCCAAATATTACATTAGTTGGAATAGTGTCAGCGGATTCTACTTTGAATTTTCCAGATTTTAGAGCAGGAGAAAGGACATTTCAATTAATAGTGCAATCATCAGGAAGAGCTGGAAGAGGCAAAAAGGATGGAGAAGTATTAATACAAACATACATACCTGAACATTATGTTATACAAAAATCTTTAACAGTAGATTATGATGGATTTTATGAAGAGGAGATTAATTTAAGAAAAGAATTAGAGTATCCACCTTTTGGTAAGATTATAAATATAATAATATCATCTGTTGAAGAATCAGAACTATTTGAAAAAGCAAACGAATTTTATAACTTAATTAAAAATAGCGAACTTGAAATATATGGACCATTTGAAGCACCTATTTACAAAATTAAAAATAGATATAGATATCAAATTTTTATAAAAGGTGAAAGAAAAGAGATAAATAATTTAAAAAAGCAATTAAAAAAAGAGTATAATAAATTTAAAATAAAAAATAAAAATGTTAGGATTACAATTGATGTAGATCCAGTTAATATGGCTTAGGAGGAAAAAATGATTTTAGAGATAAAAAAATATGGAGACCCAGTATTAAGGAAAAAATCTATTGAAGTAGAAAAAATAGATGAGAATTTGAAACAACTGTTAAAAGATATGATAGAAACAATGTATGATGCACCAGGAGTGGGGTTAGCAGCTCCTCAAATTGGAATAAATAAAAAAGTTGTAATAATAGATACTGATGGAAAATTAAGAAAAATAATAAATCCTGTAATTCTTGAAAGATTTGGAGAGGAAGAGATTGCAGAAGAAGGATGTTTAAGTATTCCAAATATATATGAAAAAGTAAAGAGACCATCAAAGGTAAAAGTTAAATATTTGAATGAAGATGGATTAGAAGTAACAGAAGAAGCTGACGGACTTTTAGCTAGAGCATTTCAACATGAAATTGACCATTTAGACGGAGTACTTTTTGTAGATAAAGTTTCAAATATCAGGAAAAGATTAATAAGTAATAAATTAGCTAAATTAAAAAGAGAAGCGTTAAAAGCATTAGCAAAGGAGAAATAAAATGAGAGTAGTTTTTATGGGAACACCTGAATTTGCAGTAGATTCGCTAAGAGGAGTATATGAGAAATATAATGTTGTTGCTGTTTTTACACAACCAGACAAACCAAATTCACGAGGTAAAAAAATAAGATTTTTACCAGTAAAGCAGTTTGCATTAGATAATGAAATACCAATTTATCAGCCTAAAAGCGTTAAATCAGAAGAAACATTAGAAATATTAAAAGAGTTGGCACCAGATATAATTGTTGTAGTTGCATATGGGAAAATATTACCAAATTCTATAATAGATATGCCAAAATATGGAGTTATTAATGTGCATGGGTCATTATTGCCTAAATATAGAGGAGCATCTCCAATTCATCATGCGATAATTAATGGAGAAGAAAAAACTGGTGTTACAATTATGTATATAGCAGAAGAATTAGATGCTGGAGATATGATTTTGAAAAAAGAGCTAAAAATAGAAGAAGATGACACTCTTGAAACTATACATGATAAATTAAAAGTGGTAGGTAAAGAAGCTTTGTTAGAAGCAATGGAGTTAATAGAACAAGGGAAAGTAAAGCAAGAAGAACAAGATCATAGTAGTGCTACTTTTACAAAGCCAATAAAAAAAGAGGAAGCAAAAATTAATTGGAATGATACAAAAGAGAATATTTATAATTTTGTAAGAGGATTAAATCCATTTCCAACAGCATATACTGTTTCAAACGGTAAAAGATATAAAATATATGAAGTTGAAAAAATAGAAAAAAATTATAATGGAGTTTGTGGAGAAGTAGTAGAAATTGATAAGAATAAAGGGGCAATAATAAAATCGAATAATGGAGCAATTTTATTAAAAAAAATAAGGCCAGAAAATAAAAAAATTATTACTGGTAAAGATTTAATTAATGGTAATTTTGTAAAATTAGGAGATATTTTTAGTTGGGAGGAGAAAATATGAAGCAAGAAAAAATTTCACCAAGAGTCATAGAACGTTTAACAAAATATTTAAGATGTTTGGAAAATCTAAATCCAGAAGATTATATTTCTTCAGAAGGTTTGGCAGAAAAAATGGGATTTACTGCTGCACAAGTGAGAAAAGATTTATCAAATTTTGGGGAATTTGGTATAAGAGGAAAAGGATATAATATTAGAAAATTACATAGTGATATAGAAAAAATATTAGGAGTGAATAAAACTAATAATATTATATTGGTTGGAGTAGGTAGATTAGGAACAGCTCTTTTATCTGAGCCTGAATTTACAAAAGAAAGTTTTAATATTGCAGGGCTATTTGACAAAGATGAGAAAAAAATAGGCACAGAAATTATGGGGAAAAAAATAAGAGACTTAAAAGAGATAGAACACTTTACTTCTAGTAAAGAAGATATTGCAATGGCAATAATTACAGTACCTAAAATGGCAGCACAGGAAGTTTGTGATGTTTTGGTTAAAGCAGGAATAAAAGCAATATTAAATTTCGTACCAGTAAAGTTAGATATTCCTGAAGGAGTAGTTATAGAAAATATAGACTTATATGGGAAACTTCAAGAACTAAATTACTGGAAAGAAAGAAAATTAAAATAGGAGGTAAACGTGTATCAATTAATTGACGGGAAAAAGATTTCATCTGAAATAAAAGATGAAATAAAAACGGAAGTATCAGAATTAAAAGAAAAAATGGGAGCTGTTCCTGGACTTGCAGTAATTTTAGTAGGTGATAATTCAGCTTCGCAAGTTTATGTTAATTCAAAAGAAAGAGCATGTAAAGCATTAGGTTTTCATTCTGAAAAATATGAACTAAGTGCAGATACAACAGAGGAAGAACTTTTAAAATTAATTGATGAATTAAATGAAAAATCTGAAATTAATGGAATTTTAGTTCAATTACCAGTGCCAAAACAAATTGATACTAAAAAAGTTCTAAACAGAATATCAGCAGAAAAAGATGTAGATGGATTTCATCCTTTGAATGTTGGAAAATTAGCAGTAGGAGATGAGAGTGCCTTTTATTCATGTACTCCATACGGAATTATAGAAATGCTAAAAAGGAGCAACATTGAAATTGAAGGAAAAGAAGCAGTTATAGTTGGAAGAAGTAATATTGTAGGGAAACCTATGGCTTTATTATTATTGCAAGAAAATGCAACAGTAACAGTGGCGCATAGTAGAACGAAAGATTTGGCTAGTGTGGTAAAAAGAGCGGATATTATTATAGCAGCTGTAGGAAGAGCTAAATTGATAACAGAAGATATGGTTAAAGATGGAGCTGTTATAATTGATGTAGGGATGAATAGAGTAGATGGGAAATTATGTGGAGATGTAGATTTTGAAAATGTAAAAGATAAATGTAGTTATATAACACCTGTTCCAGGTGGAGTTGGGCCTATGACAATAGCTATGCTTATGAAAAACACATTAATTTCATTTAAAAGAAGTAAAAAAATATAAAAGTTATAATATGGAAGTCTTTCTAAAATTTTAGGAAGGCTTTTTTATTTAGTAGGAAAGTATAAATTTATTCAAAAAAGAAATTATGCTATTATTCTAAATAATTTACCCTGTATACTGGGATAAATTTACTTGTAAAGCCAGTATAAATATGATATAATTGATAAAATATTATACTATAAACGAGGTTAGGATTTTATATCTAATCACGATAAAAAAGAGGGTGGAGATTAATGAAAAGCAAATTTAACGAATATGTTTATAAATTTAGACAAATGAACAGAAATATTTCTCCAATAGCTAAATATGTATATGGCGGATTAATTATATTAATTTTTATTGCACTATTTAAAAAAGTCATATTAAATCCAGGTATTATAATTATGATAATAGCAATGTATTTTGCAATTGTTTTGCATGAAGTTGCTCATGGATATGTGGCATTTTTAAATGGAGATCCAACTGCTAAAATATTTGGGAGATTAACTTTAAATCCTGTAAAACATATAGATCCAATTGGTATTACTATACCAATGATATTAATTTTTATGGGTTCGCCATTTGTAATAGGATGGGCAAAACCTGTGCCAATAAATTATTCTATGCTAAAAAATAAAAAAATAGGACTGTTTACAGTTGCTATAGCTGGAGTAACAGTTAATTTTATTAATGTTATAATATCAACATTAATTTTGAAAATATTTTTTTCGCAACAGGTTATTTATTCAATTTATATTAGCTTAATGCAAGGAATGAGTATAAATATATTTAATATACAAAATGGATTAGCTCTGTTTTTTATATATTTTATATTTATAAATATGGCTTTAGGTATATTTAATTTAATACCTATACCGCCATTAGATGGTTCTAGAATTTTAGAGGTGTTTGTAAATAAAAAAGGGAAACAACTTCTTAATTCTATGGAAAAATATGGAATGATAATACTTGTAGTGCTTTTATATTTAAATGTAATACAAATGATTATAGAACCTATATTTAATTTTTTCTTAAAAATTATATTTTCTATATTATAAAACATTGTAAAAAAATATTGAAAAATAAAAAATAAGAGGTGAGAATATGGATATAAAAATGGGAATAAAAAAAGTTACCTCTAGGGAAGATCTTACAAGAGAAGAAATGATTGATGTTATGAATGAAATAATGGAAGGAAAAGCAACAGATGCACAGATTGCTGGCTTTTTAATTGCTTTGAAAATGAAAGGTGAAACAATTGAGGAGATAACAGGAGCAGCAACTGTTATGAGAGAAAAATCTTTAAAAATTTATCCTGAAAAAGAAATTTTATTAGATACTTGTGGAACTGGTGGAGATAATTTAGGAACAATTAATATATCTACTGCAGTTGCATTTGTAGCAGCAGCGGCGGGAATTAGCGTAGCAAAACATGGTAATAGATCAGTATCTTCTAAAAGTGGAAGTGCAGATGTATTAGAAGCATTAGGAGTAAATCTTTCTATTACACCAGAAAAAGTAGAAGAATCAATTAAAAAAGTTGGAATAGGATTTTTATTTGCATTAACTCATCATAAATCAATGAAATATGCTATTGGACCAAGAAGACAATTAGGTGTAAGGACTATTTTTAATGTTTTAGGACCATTAACAAATCCTGCAAATGCAGAATATCAATTAATGGGAGTATATTCAAAAGATTTAGTAGAACCTATTGCTAATGTACTTAATAATTTAGGTATAAAAAGAGCAATGGTTGTACATGGAGAAGATGGATTAGATGAAATAACAACAACAGGAAAAACTTTTGTTGGAGAAGTTAATAATGGAGAAGTGAAAACATATAGTATTAATATTGAAGATTATTTTGAAAAAAATAGTGTTGAAGATCTAAAAGGTGAAGATGCAAAATATAATGGAGAAGTTATAAAAAATATATTGTCTGGAAAAGAAAAAGGGGCAAAAAGAAATATTATTATAATAAATAGTGCAGCTGTACTATTTATTACTGGTTTGGTAAATGATTTGAAAAGTGGAATAAAAAAAGCAGAAGAGATTTTAGATTCTGGTAAAGCATTAAATAAACTTAATGAATATGTGAAATTTACTAATAGTTAATAGAAGGGGTAATCCCCTTCTATTTTTTGAGTAAAGCATAAGTTTGTTTAGAAAATAAAAAACAAAAAATAAATAATAAAAATTAATAGAGGAGGTTTTTAAATGTATGTTTTAAAAAATGGATTTGTAGTAGATTCGGAAAATGGATTGTATGGTAAAATGGATATCTTAATTAAAAATGGAGAGATAGTAGAAATAGGAGAAAATATTTCTATTAATAATGCGAAAGAGATAAAAATATATGATTTATCAGGTAAAACAGTTTTTCCTGGATTTATAGATATGCATGTACATTTAAGAGAACCTGGAAGAGAAGATAAGGAAACAATTGAAACTGGATTAAAAGCAGCAGTTGCAGGAGGTTTTGTAGGAGTTGCACCTATGCCAAATACAAATCCAATCTGTGATAATAAAGTAGTTGTGGATTATATATTAAATCAAGCTAAAGAATTAAAATTGGCAGAAATTTATCCAATAGGAGCAATAACAAAAGGAGAAAAAGGGGAAGAATTAGCTAAAATTGGAGAAATGTTTGAAAGTGGAATAGTTGCTGTATCTGATGATGGACATCCAGTTACAAATTCTATGTTGACAAGAAGAGCTTTTCAATATATAAAGCAATTTGATATTCCTTTGATATCACATTCAGAAGATGTATATATATCAAAAGATGGGGTAATGAATGAGGGAGAATATTCTATAAAACTTGGATTAAAAGGGATTCCAAATTCAGCAGAGGAAATAATGGTTGATAGAGATATAATTTTATGTGAGGCGGAAAATTCAAGATTACATATTGCACATGCTTCTACAAATGGATCATTAAGAATGGTAAAGGAAGCAAAACTAAGAGGTGTTAATGTAACGGTAGAAGTAACACCACACCATTTTACATTAACAGATGAAGAAGTAGAAAAACAAGATTATAGTACAGATACAAAAGTAAATCCGCCACTTAGAAATAAAAAAGATAGAGATGCAATTATAGAGTATATAAGAGATGGGATAGTTGATGTAATAGCAACTGATCATGCACCACATACAAAAGTTGATAAAAACGTAGAATATGATTTTGCTCCTTTTGGAATATCGGGAATAGAAACTGCAGTAGGATTAGTAGTAACAGAACTTTTGAAAAAGGATGTTATTGATTTGAATAGAATGGCAGAACTTTTATCAATTAATCCAAGAAAGATTTTAAAAATAAAGGGTGGCATAAAAAAAGGAAATTTAGCAAAATTGAGTATAATAGATATAGATAAAAAATGGATTGTAAACAAAAATGAATTTTATTCAAAAGGAATTAATACTCCGTTTAATGAGATGGAACTTTATGGTAAGCCATATATGACAATAGTTAATGGAAATATTGTTATGAAAAATGGAGAGATTTTAGGATAAATGGTTATTGAAATTTTAAATATAATAGGAGTAATAGTGTTTTCAATATCTGGTGCATTAAAAGGATTAAAGTACAATTTAGATATTTTAGGAGTGGTTGTTCTTGGGACAATAACTGCTATTGGCGGAGGTATATTAAGAGATTTGTTATTAAATGATATGCCAATGGTATTAAAAAATGAAACAGATATGTATTTTGCAATAGTTGTAGCAATACTAACATATATTGGTGGGAGAAGAGTAGAAAATTACTCTAAGATAATTAAGGTATTTGATGCAGCAGGACTTGCAGTTTTTACAATAATAGGTGCAGCACGAGGAATGGATAAAGGACTTGGGGTACTTGGAATAGTAATAATGGGAACTTTAACAGGAGTTGCTGGTGGAGTCACTAGAGATCTATTGGTAAGGGAAATACCATTTGTGTTAAAAGAAGAAGTGTATGCTTTGTTTTGTATTTTAGGGTCAGCATTTTATTTTTATAGTGTAAAGTACGATTTTTTAAGTAAAAATATGACAATGTATATTATTATATTTGGAATATTTTTAGGAAGAATAGTTGCTGTAAAGTATGATTTGCATTTGCCTAAATATAAAGGGCATTAGTTGGGGAAATTAGAAAAGTTAAAAGAAAAAAGAAAAGAAAAAAATTTGCCACCAATTTACACTAATTTACACTAATTTAAGATAGAAGGCAAAAACATAAAAACATAAAAACATATTAGATTAAAAGAATTTGCAATTAATTAATAAAAATTTTTAATATATTTAGGAGGTATTAGATGAAAGCAATTTTATATTTTGAAGATGGGACCTATTTAATGGGAGAAAGTTTTGGAGCAGAAGGAGAAATAATCGGAGAGGTGGTTTTTAATACTTCAATGACTGGTTATCAAGAAATTTTAACTGATCCATCTTATAGGGGTCAATTGGTAACAATGACTTGTCCTGAAATTGGAAATTATGGGGTAAATTCTGAGGATGTAGAATCAGAAAAAGTACAAGCAGCAGGGTTTATTGTAAAAAATTATAATGAAGAATATTCAAATTTTAGAGGTGAAAAAAGTTTAGCAGAATATTTAAAAGAAAATGGAGTAATAGGTATACAAAGAGTAGACACAAGAGCTATTACTAAAAAAATAAGAGAAAAAGGTGCAATGAATGGAATTATATCAACTGTTGAATTTGAAGTAGAAAAACTTGCACAAAAATTAAAAGAAGCTCCTTCAATGGAAGGGTTGGACCTTGTAAAAGAGGTAACTACAGATAAAATATATAAGTGGAATAAATTAAATAATGAAAAAAAATATAATGTAGTTGTCTATGATTTTGGAGTAAAGCAAAATATTTTGAGAATTCTTGAAAATTTAGGATGTGATTTAACTGTTGTACCAGCTACAACTTCAGCAAAAGAGATATTAGAATTAAATCCAGATGGGATATTTTTATCAAATGGACCTGGAGATCCAGCAGCGGTAGATTATGCAATTAAAAATATAGAACAAATTATAAGTAAAGTTCCAGTATTTGGAATATGTCTAGGGCATCAATTAGCTTCTTTGGCTCTTGGAGGAGAAACTTATAAAATGAAATTTGGACATAGAGGTGGGAACCAGCCAGTAAAAGATGTAAACAGCGGGAAAATAGAAATAACAGCTCAAAATCACGGATTTGCTGTAGATGCAGATAGTTTGAAAGATAAGGGCGGGGAAATAAAATATATTAATTTAAATGATAATACAGTTGAAGGATTAACTTATAAAGAAAAAGAGCTATTAACAGTTCAACATCATCCAGAGGCAAGTCCTGGACCGCATGATAGTTACCATATTTTTGAAGAATTCATAAAAATGATGGAGATGAGACAAAATGATAAGACACAAAATACTAATAGTAGATGATGTACATGCAGCACATCATCTATATAAACAAACATTAAAGAGAGAAGAATATGAAATATTAGATGCAGAGAGGGGCAAAGAGGCCCTCTCTTTGATTTTGTCTGAAGATATAGAGTTAGTGATTTTAGATATAAATTTGCCGGATATTTCTGGATTAGAAGTTTTGAAAAAAATAAGAGAAAAAAATAAAGAATTACCTGTAATAATTTTAACAGGTGAAAGTCAAAAAGAAAAGGTTATTAAAGCGGCATCTTTTGATATAATACACTATTTAGTAAAGCCTATAAACTTGGATATGTTAAAGAGACGAGTGAAACAATCTTTAAAATTAGATAAAAATGAAAAATTAGGTGTAATAGCTACAAAATCAAAAGAAATTTTAGATGAATTATGTGATATTGAAATAGATGAAAGCTTAGATGAGAATGTAAAAGAGCTGAAAGAACAAATAAAGGATATAGCTTTGAAATTACATTCATTAGAAGAGAAACAAAAAGAAAAGACAAAACTAGACGAAGTTATATGGGAAAAAGAGGTAGAATGTCCAGTATGTGGAACAAATTTTATAACATATAATTTCAAGAGTAAATCATTGCCTATAAAAGAAAAAGAAAGTGATTTTCATGAAATTTATGATTTTTTAAATCCTTTAGTTTTTGATATTTGGGTTTGTCCAGAGTGTTTATATGCATCTAAAAGAGAAGATTTTGAAGATGTTAATATGGAATTAATAGAAAAAATAGCTAAGGATAAAAGTAAAAGAAAAAAAATTGCTAATAAAGCTGATTTTAATTTGCCTAGAAATAACGAATTGGGAATTTTAAGTTATAGGCTTGCTATTATGTCATATAGATATAGAAAACAGAGTAATGCTTTTTTTGGGAGTTTATATTTGAAAGCTTGTTGGATTGCAAGAGAGCAAAGAGATATAGATGTAGAGATGGAGTTTATGAGGTTGGTAACAGATTATTATGAAAAGGCATTGTCAAGTGGTGAAAAAATTGGAGGACAACTTTCAGAGCTGGGACTTATCTATTTATTAGGTGAACTATATAGAAGATTAGGGGACTTAGATAAAGCTGGAAAATATTTTATGAAAGTTAAGCAAGATCCAGAAGTAAAAAAAGAAAAGGCAATACTTAGAATGTCAGATGCGCAAATGGAATTAGTTAAGGAGGCAAAAAAAAATAAAAAATGAGAACTATAAAAAAAGAGCATAAAATTGAATTTGAAGAAAAAAAATCTGAATTTATAGGATATATAAAACCAATAAAAACAAAAGAAGAGGCAATTGAATTTATTGAATATATTAGAGAAAAACATAAAGATGCGAGACATAATCCGTATGGATATAGAATATATTCCGGTGGAGTGGAAAGCTTTAAATTTGATGATGATGGAGAGCCTAAAAATACAGCAGGAAAGCCTATTGCAGATTTAATAGCAATCAGAGATATTTGGAATGTTGTAATAGTGGTAACCAGGTATTTTGGAGGGATAAAATTAGGGGCAGGTGGACTTATTAGAAATTATGCAAAAGCAGCAAAATTAGCAATTGAAGAATCTGAAATAGTAGAAATAGTGGAAAAATCTGTAGTTGTAATAGATTTTAGTTATAAAAAAATAAATGAAATAGATTTTTATTTGAATGAATTGAAAATTAATATATTGAGAAAAGAATTTGAAGAAAGGGTTACATATACATTGTCTGCAACTAAAGAGAACATAAAAAAATTAAAAAAGATAAATGGAATAATTATTATTGAAAATTAATATCTCTAAAAGGATGTGAAAAATATGTATATAAAAACAGGAATAAGTGGGTTTGATAAACTTTTTCAGAATGAGGGGATTATTAAAGAAAATATATATTTATTAAAGGGGACTCCAGGTAGTGGGAAAACTACTTTTGGATTGGAATTTATTTATAATGGAGCTATGTTTTTTAATGAAAATGGGATAATAATATCATTCGAAGAAATTCCAGAACAATTATATAGAGATGCAAAAAATCAAGGATTAGATTTGAAAAAATTAGAAGATGAAGGAAAATTAAAAATAATATTTTCTTCGCCAGAAACTGTTTTAAAATCAGAATTTATTGGTGAAGAGGGATATTTAGGAAATGTAGTAAGAGAAATGGATATAAAAAGAATAGTTATAGATAGTGTCACACATTTAAAAAGAATTTCTAATACTGAGAATGAATATAGAGAAAATTTATATAGAATAATAAGTGGAATTAAATCAAAAAAAGTAACTGGAATGATTACAGAAGAATTTTATAATAAATTAGGAGTAGCAGAATATGTGGCTGATGGAGTAATATACTTGAGAAATAGAAAAACTGAAAATTTGAAAAACATTAGAACTTTAGAAGTGTTCAAATCAAGAGGTCAAGATCATATTTCTGGAGAACATTATTTTGAAATTAGTAGAGGAATAAAAGTATATCCATTAATAAAGGATAATTTAAAAATAGAAGGAAAAGAAGAGGAGAGAATAAGTACCGGTGTAGAAAAAATAGATAAAATGTTAGATGGGGGATATATAAAAGGGACATTTAATTTAGTGGTAGGAAGTGCTGGTGTAGGAAAAACAATATTTGCAACTAATTTTTTAAAAGATGGTTTAGAAAATAAAGAATCTGTAGTTTTTTTATCTTTTGAAGAGAGTGAAAATAAATTTTTTCAATTTACAGGTAGTTTAGGAATAGATATGAAAAATCCAAATTTTATCTTTTATCATAAATATTTTGATGAGGCAGTTGTGGCAAAAATTATATATGAAATAGAGAATATGTTAAAAAATTATAATATTAAAAGGGTTGTTATTGATACTTTGAATACAATGTTTTTTAATGAAAATTTAGAAAAAGAGAAGATTTTTATTAATCAATTAAAATATGTTTTTGAAAAATATGGAGTAACAACAATGGCACTATTAGAAGAGAAAAAGATAATGGGAGAAATGGAATTAACTGATGAGGGATATTCTTTCTTATCAGATTCTATTATTATGATGAGGTATTTAGAGTTAGAAGCTGTAATAAAGAGAGTTTTAACTATTGTAAAAGCAAGAGGTATAAAACATGAAAAGAAAATATTTGAATATAATATATTACAAAATAAGGGAATAAATATAATAAGAAAAATGAATGGAGTCTCTGGAATTATGTCAGGAGCTGCTACTGGTAAAATAAAAGAATCGATTAATGAGATTTTTCAACCACTTGAATTTTTAGATAGTTTTTCAGAATATATTGGAACTGAAGCTTCAGAAAAAGAAAGAAAAGATATTAGCCAACAGATGAAAGATGTTATAAAAACTTTGAAAAATAATCTGTTAAACTATTTAGAATTAAATGAGGATGAGATAAATGGATGAAACATATGAAAATAAAATAATAACTATAAAAAAAATTTTAGATGAAAAAGATTATTCAAAAAGTTCTGTTTTGATTGGTTATTTAAAAGATAAAAATTATAAAATAAGAGAAATGGCATCAAATGCTTTAGTAAATATAGGAACTGATTTAGAAGTTATAAATATATTAATGGAGGCTATTAGCTCAGATGATCCAAATTATAGAAATAGTGCTATAGCTTCTCTTGTGCTTATGGGGGAAAAAGCGATTCCTTATTTGATAACAGAGATAAATAATAAAGATAAAGATGTAAGAAAATTTGTTATAGATTCGTTAGGAGATATTGGAAGTGAAAAAGCGATCCCATATATCATACAGAGAATAGATGATATAGATGAAAATGTAGAACAAAGTGTATGCGAAAATTTAGGGAAAATAGGCTCTCCAAAAGGGGTTGAAACTTTAATAAAGGCATTAGAAAAAAATGATTGGATACAATTTGCAGCTATAGAAGCGTTAGGGGAAATAGGGGATTTTTCTGCAGTATCACATATTATCAAAATAATGAAGATTTCAAATGATTGGATAAAGTATGTAGCTATAGAAGCATTAGGAAAAATAGGAGACGAAACTGTATTATCGCACTTATGTGATGAATTTTTTTCTGAAAATGATGAAATATTAAAAATAACAGTTATAAGCATTCACAAAATAGTAAAAAATTCAAAACTTAAATTGTGTGAAAATATAAATGAGAAAAAAGAATTAATATCAAAAAAATTAAAACAAATTTTAGAAGGTGATATAAGTCAAGAAATAACTATTCCGATTTTAAGTTTAATAGGTATTTTAAAATTAGAAAAATTATATAATGTTTTAATTCAAGGTTTGTTATCTAATAGGCAAGATATTTCAGAAACGGCATTAATGAGTATTAAAAAATATGGAGAAAAAGGGATATCTAAAATAGAGAACTCATTGAATGAAAATAGCCATAATTTAGATTATGAAGTTGTATTAATTTATATTTTAGGTGAAATTGGAGCTCAATCTAATAAAAAAGAAGAAGTTTTTAAAGTGATAGAGATGTATATTAAAAGAGAAGAAGAAGAAATTAGAGAGGTGGCAATAGAAGCATTATATAAAATCAATAAATTGCAATCAAAAGATTATATTTTGAAAAGTATAGATGATAAAAGCGGAAATGTAAGAAAAATGGCATTACATTTAATGTTAGACTATAAATTTGATGTTAGTTTAGAAAAAATTTTTAAAGTCTTAGAAGATGAATATGAAGATGTAAGAATAGCTGGAGAAGATTTATTAGTTGAAATTGGGAAAAAAAGAGTAGAAAAACTGTTAATAAAAAAACTAAAGGAAAATATTAATATAATAAATTTTCCAGCGGTAACACATCTTATTAAAATAGTAGGAAGATTAGAAATATTGAGTGGTATTGGAGTAATAATAGAACTTATAGAAAAATATGATGAATTAAAAGAAGTAGGAATTCAAAATTTAGGAAAATTACGAAGTAGAATTGCATTAGATTATTTAATAGGAAAACTAAAAGAAGAAAACATACAAATTAGAAGAATGGTGGCTGATGCATTAGGAAAGATAAATGATGATATCGTAGTACAATCTTTAATAGAAATATTAGATGATGATAATGAATGGGTTCGATATTTTGCTGTAAATTCATTAAATAATTTTAAAAACGAAAAAATATTAAATAAGTATATTGAGATGTTAAGATATACTGAAGAATCTCAAGTGATAATAGAAATTTTAAATGGTATTGGAAAATATGAAGATTTTTTAGAAAATGAAAAAATTTATGAGGTAGTAGATAAATATATTGAAGACAAAGATGAGGATATACAATGTGCAGCAATAGCATGTTTGAAAAAAATAATTTTAAGAAATAAAAAAATTAGAAGTAGAGTTATAAAGATGTTGGAAACTAAAAGTTGGAAAATTAAAAATTCTATATTAGAACTTTTATTTAATGTAGAATTAGAAAATGAAGAATACATATATGTATTACCATTGTTAAAAGATGATAATTTAATAGTAAAACAAAAATCTTTAGAAATTATAGGGAAATCTGGAAAATTAAATTTATTAAAGCCAATGATTGAAAGTATAATGGACGAAAATCTAGAAGAAGTTGCAAAGAGATTATTAGAAAAAGTAAAAGAAAATGGATATCCTAGACTATTAGAAGGATTGAAATCTGAATATGACGCAATTAGAATATTCACAGCAAATTCTCTTAAAATAATAGGAGATATTAGCGCAGTAGATATTTTAATAGAAAGTTTGAAAGATAGTAATTGGAAAGTTAGATATTTTTCCGCAGAAGCTCTTGGGATAATAAATTCTGAAAAAGCATTAAAACCGCTAACGACACTTCTTAATGATAAAAATGAATATGTAATAAATGCGGCTCTTAATGCAATAAGAAAAATTGGGAGAGCATAATATGGTAAATTCAAAGTTTAGTAGAAGAAAAATTGTAGAGGAAAAAGATGATGTTGAGTTTAAATTAGAGGAGTTTTATACTATTAGAGATTTTATATATTCAAAGTCAGGAATATATTTTAAAGAAAATAAAATAGAACTTTTAAGAAATAGAATAATAAAAAAAATAAAAGATAATAGTTTTAATTCTTTTAAAGAATATTATTATTATTTGAAGTATAATAGTGATGAAAAAGAGTTTAAGCTATTAATGGATGCTATTACAATAAATGAAACTAAATTTTTTAGAAATAATATTTTAATGTCAAATTTTGAAGCAGTTATATTACCAGAAATTTTAAAAGAAAAAGAAATAAATAGAGAAAAATATATAAAAATATTAAGTGTAGGATGTTCTACTGGAGAGGAACCATATACAATAGCAATGATATTGGAAGAGAATAAAGATATTTTAATGGAAAAAGGGATAAGTTACAAAATAGTGGCTGGAGATATTAGTTCAAAAGCTTTAAATTCTGCTAAAGAAGGTATTTATAAAACAACACAATTTAGGGCAACTAAAGATAAATATATAAAAAAATATTTTAAAGTTATAGGAGAAGGAAAGTATGAAATAGATTTTAGTTTAAAATCTAAAATTGATTTTAACTATTTAAATCTAGCAGATTTAAATAGTTTGAAATCTTTAGGTAATTTTGATATTATATTTTGTAGAAATGTAATGATATATTTTGACAATGATTTTAAAACAAAATTAATAAAACAATTTTATGAGATGTTAAATGAAAATGGATATTTATTTATAGGGTATTCAGAATCTTTATTTTCTATAAATAATGATTTTAAATTAAAACAATTAAATGGTTCAATAGTATATAAAAAGGAGGCTGAAAAATGTCAAAAATATTAATAGTAGATGATTCGAGCACAATAAGAAAATTAGTAAAATTTACATTACAAATGAAAAAGCATGAAGTAACATTGGCTGAAGATGGATTGCAGGCGTATAGATTATTTATGCAATATGATTTTGATTTAATTATAACTGATTTGAATATGCCTATAATGAATGGAATAGAGCTTATAAAAAAAATTAGGTTAGGAAGTAAATTTAAAGATATACCAATTATATTATTAACAACAGAATCAGAAGAAAAAGATAAAAAAATGGGTGAAAAAGTTGGAGTAACCAAATATATAACAAAACCATTTCAACCTCCAAAGTTATTAAAAGAGATAGAGGAAATATTAAAATCCTAAAATTTTTTATGGGAGGTTATAATAATGATTAATGCAATGGTTGTAGATGATTCATCTTTTATGCGAAGAGCTATAAAAAAAATATTAGAAAAAAGCGGAAAAATAAAAGTTATAGAAATGGCAAATAATGGAAAAGATGCTTTTGATAAATTAATGAACAACGATGAAATAGATGTAATAACAATGGATGTAGAAATGCCTATAATGGATGGATTGGAGGCTACCAAGCTTATAATGGATAATAAGCCGCGTCCAATAATAATATTAAGTTCTGTCACACAATATGGGACAGAGAGTGCTATAAAAGCTCTTGAATATGGTGCGGTAGATATTATTGTAAAATCAGGAAATCTTTCTTTAGATATGAATAAACTGTCTAATGAGATAGTTGATAAAGTTATCTCTGTTTCAGGAGTAACTATAAAGAATAATATGAGAAATTTATTGATAAAAAATAAAATATTAGAAAAAAGTATAAAGAAATATGATAGTGAGTTTATATATTCGAAAAATATTAGATATAAAAAATTAGAAAGAATGGAAAAAAATCCAAAAGTTTTATTTATAGGAGCTTCAACTGGAGGACCAAAAGTATTGAAAAAACTTATAATGGGATTGCCAAAGCTAAACTTACCTATAATAATAACCCAACATATGCCTAAAGGATTTACAGAATCACTTGCAAAAACTTTAAATTCTGTAAGTGCAATGGATGTAAAAGAGATTGCAATAGGAGAAGAGTTAAAGAGTGGGATCGTTTATGTCGTTCCTGGTGGAACGGAACATACTATATTAGAAAAAAAAGATGGGAAATTAATATTTAATTTAAAATCAAACAATGAAGAAAATAAATTTTATATTCCATCTGTAGATGTTATGTTAAAATCGTTAGTAGATATATTTAATGGAAGAGTATTTGTGATTATATTGACAGGAATGGGGAATGATGGCTTGGATGGTGTTAAATATTTAAGGAAATATAAGAACGGATATGTAATAGTAGAATCAGAAGAGACAGCTATAATATATGGGATGCCAAGAGTTATTGCAGAAGAAAATTTAGAAAATGAAATATTAGAAAATGATAAAATTGCAGATAGAGTTATAAAATTATTAAAAACTGTTTAATCATGATTTGGGTTAAATTTCATGCTATTTTGACGAGATGGTTAATTTGAAAAGTTCAGATTGAAAATATTATTTTTTAAAAAGGAGTAATAAAATGAAAGCAACTGGAATAATTGTAGAATATAATCCTTTTCACAATGGACATAAATATCACATAAAAAAAGCTAGAGAAGTGGGAAATTCTGATTGTATAATAGCTGTTATGAGTGGGGATTTTTTACAAAGAGGAGAACCTGCTATTTTGAATAAATGGGAAAGAACGAAAATGGCCTTATTAAATGGAGTGGATATAGTATTGGAACTTCCAACAATTTATTCTACACAATCAGCAGAAATATTTGCATATGGAGCTATTTTAGTTTTAGAAGCAATGAAAGTTAAAAATTTAGTTTTTGGTTCTGAAAATGGAAATATTTCTAATTTTTTAAATTATGTTGATTTTATAGAAGAATTTAAAGATGAAATTGATTTTGAAATAAAAAAACTTATAAAAACAGGAATTAGCTATCCTAATGCAATGAGCAATGTTATTGGCAAAAAAATAAAAATAGATGGATTTTTACAACCTAATAATATTTTAGGAATTGAATATATAAAGGCAATAAGAAAGTTGAATTTGTTAATAGAGCCACTTACTATAAAAAGAGAAAAATCAAATTATAATGATAAAGATATAAAGGGAAATATTGCAAGTGCAACAGCAATAAGAAAAACTATATTTGAAGGAGATATAGAAAAAATAAAAAAAGCTATCCCAGAAGAAACTTTTGGAATTTTATCTAAGAATGTAAAAATGAAAAATTTAAAAAAAATAGATGATTTTTATCAAATTTTAAGGTATAAAATTATTAGTGATAAAGAAAAGCTATTAGATATACAAGATTTAGAAATTGGGTTAGAAAATAGGCTATATGAAGCAGCACTAAAAGCAAAAACTTTTTATGAATTTTATCAATTAGTAGTAACTAAGAGATATACAATGTCAAGATTATATAGAGTTTTTACACATATTTTATTGGGAATAACAAAAGAGATGACTGATAATGCAAAAAATATAGATTCTATGTATGGGAGAATTTTGGGAATTTCTGATATTGGGAAAAAATATTTAAGAGATATAAAGCAAGATGAATCTCTTGAGATAATAACTAATTTAAAAGAAAGTAAAAAAATAAAAGGGGGAAAACGAGCAATTTTTGAACTTGGATTAAAAAGTTCATATATATATTCGATAGATAAAGAGTATATAGAACCTAGATTCCCAATTTTTTTAAAATATTAGATTTTTTTATTGTACTATTAAAAAAAAAATAAAATCTAAATTATCTATATTATAAAAAGCTTTTCATTGGCTTAGATTGTCCTATTGAGAGAAAGTGCAAATATTTTAAGTTGACTTTTTAAGCGTTATATGGTATATATTTAAGCATAACAAACTATATTGAGGAGGAGATTTGTATGAAATTAATCAGAAAAAATTTAGTATTAGTATTGGTACTAATGCTAACAGTAGGGGCAGTAGCTCAAGCGGGATTATTTGATTTTTTTAAGAAAAAATCAGACACAAAAGTAACAAAAAAGGCGACAGTGAAAAAATTAAAAGCAGGAATTGTATTTTCAATCGGTGGATTAGGAGACAAATCATTTAATGATTCAGCTTTCAGAGGAATGAAAATGGGTAAAGACAAATTGGGTGTAGAATTTAATTATGTTGAACCAGCATCACCAGCAGAAGATGAACAATATTTAAGACAATATGCAGAAGCAGGATATGATTTAGTAATAGCAACAGGATTTTTAATGCATGATTCATGTGAAAAGGTTGCCAAAGAGTTTCCAAATATTAAATTTGCAATAATTGATTCTTATGTAGATTTACCAAATGTATCGTCATTATTATTTAAAGAAGATGAAGGATCATTCTTAGTAGGAGCTGTTGCTGGAATGATGACAAAAACAAATACAGTAGGATTTGTTGGTGGAATGGATATACCATTAATTCATAAATTCCAAAATGGATTTGAACAAGGTGCAAAATATGTAAATCCTAAAGTAAAAGCATTAAGTGTATATACAAGTGGACCAAATCCATTTAATGATCCAGTTAGAGGTAAAGAAGAAGCTTTATCATTAATGCAACAAGATGCAGATGTAGTTTATCATGCAGCTGGTGGTACTGGAATGGGAGTTATTGAAGCAGCAAAAGAAAAAGGTGTTTATGCAATAGGTGTAGATTCTGATCAAGATGGAGTTGCTCCAGGAGTTGTATTAACAAGTATGATGAAAAATGTTGATGTAGCAGTATATAATACTATAAAAGCTGTAAAAGATGGTACTTTTAAAGCTGGAGAAAATAGATTTGGATTAAAAGAAAATGGTGTAGGAGTTACTAACTTCGAATATACTAAAAATAAATTACCAGCAGGAACTATAGAAAAAATAAAAGAAATAAAAGCAAAAATCATTAGTGGAGAAATAAAATTAGCTAAATAATATTTAAGCGGAGTAGATATCTACTCCGCTTTTTTAGTTATTAGTAAAGTATAAATTTATCCAGAAAATAAACTATATTATTTTTTAAAGAAAAAGCTTTATATCGTTAGTAGAATAAATTTTTTCATTATTTTTCATATTATTTTTTAAATTTGAAATAATCTCTTTTTTTAATTTATTAGGTAATTCAATATAAAATATTTTTTTATTATCTTTTTCAAGACTTTCCACATTATTATCATCAACAATAATAATATTTTCAGGTATTTCAATATTGTTTATTATATTTTCAAAATTTTTAATATTTATTATCTTTTTTAGAGTAATTATAGTAGGGGTATCATTATTAATAACTTTGGGAATAACATCATAATAAACTGCAAAATTATATTTATTCTTTATAGAAATTTTGCTATCAACAATATCGAAATATTCATAAAATATATCATCTAATTTTTTTTCTGTAATTAAAATAGATTTTTTAGAAGTAGTAATCCAATAATATATGCCAATAGATAAAATTATCGTATTGATCCCTACTCCTTCTTGTAAAGGAAGCATAATATTTTTTTTGTTTTTAATAAATTCAGATAGAACCTTTTTTTGAAAACTGTTATATTCAAAATCTCCTATTAAAAAATTTTTAATTTCTTTAAAGATAACTCCTGGTTTATAAGAATATGTTTCAAATCTCTTTTTCTCTATAATATCTATTAAAATTTGAAAATTTGAATCTGTTTTAGTTATGTTGCTAATCTTTAAATCAAATTTTTTATTATACAATTCATTTAAATTTAAAATAAGTTTAGATGTTGTTTCATTAAAAAAACCAATAATCTCTTTATTGTTGTAAACAGGGATAGACGAGTAATCTTTGTCTAATTTTATATATAACTTATCAGAAATATCAATTTTATGTTTTGTATAAATAATGGTTTTAATAGGGAATTTATAATTATACAAATAATTATAATAATTATATTTAGAGCTATATTCTTTTTTGGATTCAACTATATCTGCAGTATAAACTTTAGTGTAATATTTATCTTTGAATTCAGAAATATCTAATTTGAAAGCTATATTATATTTTTTATGAACATCTAATTTTTCTTTTAATTCTCCTTCGCCAAACCATACACAGCTTTTATGTGTTGTGCATGGAGTTTCAATATCAAAGCTCAAATGTGATCTATCTTTTCCAATTAATCGAATATTTTTTAATGATACATTATTTGTTGCAAAAATAGGTTTCGGATTTCCAAATCCAAAAGGTTCCAATTTTTTTAATACATTAAAAAACTCGTATGATATGTCATATGGAAAGATAGTTTTATCTATTTTTATAGGTTTAATTAAATCTTTAGAAGATAACCTATTTTTTGCAACTTCATTTATTTTTTCTTCAAATAAAGGTATATCTTTTTGTAAAATAGAAAAACCAGCTGCACCTTCATGTCCACCAAATCTAATTAATAGGTCTTTTGTTTCAATTAGAGCCTCTATTATATTAAATCCTTCTATACTTCTAGCAGAAGCAACAGCGGTTCCATCATCTTTTAATTCCATAATAATGGTAGGTTTATAATATTTATCTGTAATTTTAGAAGCTACAATACCAATAACTCCATGATGAAAAGAGGTGTCAGATACAACAATTACATATTTATCCGACAAATGGTTTTTGGTAATTTCATTTTCAACTTTTTCATAAATTGTTTTTTGTATACTTTTTCTTTGAAAATTGTTTTCAATAAGATCATTAGATATAATTTCAGCTTCTTTTATAGATGTTGTTGTAAATAATGCTACCCCTTTTTTAGCATCATCGAGTCTACCAGCAGCATTAAAAGTTGGTGCAATTATAAATCCAATATCATAAGTGTTAAATTTTTTTGTGGCGTAATTTTCAAATAATTTTTTTAATAACACTTTTAAACCTATATTTTCATTGGAATTAAGTAATTTAAGTCCATGTTTTACAAATATTCTATTTTCTTCTTTTAAAGGTACAATATCTGCAACTGTACCAATAGCAACAATATATAAAAGAGAGTATGCTTCTTCTTTTATATTATTAGCTTTAAATAAATTTAAAACCAACATAAATGCAGTACCTACACCAGCTAGAGATTTAAATTCATAACTATTTTCTATTCTTTTGGGATTTATTACAGCTACTGCAGGAGGGATATTATTATTTATTTCATGATGATCAGTAATTATGACATTCAACCCAATAGAGTTAGCGTATTGAACTTCATCTACTGAAGATATTCCACAGTCTACTGTAATAACTAAATCTCCTCCTTGTTCTTTAATGTAAGCTAAAGCCTCTTTATTAAGTCCGTAACCTTCTTCTCTTAAAGGAATATAGTACTCTATGTCATATCCAAGTTTTCTAAATGCTAAAACCATTAAAGAGGAAGAGGTTATTCCATCTACATCATAATCTCCATAAATCCAAATTTTTTTATTATTCTGCATAGATTTTAAAATAAAATTTGTAGCTTCATCCACATCTTTCAATAATAATGGATTAGAGATGTTGTTTATGTCTGGATTAAGAAAATTTATAATTTTTTCTTTTGATGTTATTCCTCTGTTATAGATGATACTTAATATATCTTGATTAATATTTATTTTTTTTATCTCTTCTGGTATGTTTTTAATGTTCTTTTCTTTATAAATCCATCGAGTGTTTTTCATATAATCCTCCAATTTATTTTTGTTTTATATATTATAACAATAAAAACTAAGAAATATCAATAGAAATAATAAAATTTAGCTTTATGATTAAATATAGTTGTGGTATAATAATAAGAGAATGAGCTGTTTTTAAGGAGGAAAATAATGAAATTAGATGAATTTATATCAAAAATTGCAAATTCTTTAGAAAAAGGAAAAATAATAACATTTTTTTTTAATAATAAGAATGTTATGGATACAGCAAAAGGATTAAGCATATGGTTAAATATCTCTGAAGAAAAGTTAAAAAATATATTAAATGAATTGGTTGATAGCAAAATTATAGTTTTAGAATATGGTATGTATTATTATAAACCGTCTAATGAAATAAAAGGAGTATTAGCTGAATTCAATAAATACTATAAAACACAAAAAAATAAGTTTATAGATGCTATAAGTGAAATACCAACATATGATAAAGAACTAGAAGAAAAGTTAGAAAAATTAACAGAAGAACTATTTGAAAAAAATAGAGTTTTATTTATTTTACAAGAAATAAATGAGATAATAAATTCTCCTAAAAAAATCGAAGAAATAATAGATATGATGTCAGATGTAATAGAATTACATTTAGAATCAGATGGAATATTTTTTCAATACAAGTTATCAAATATAAGTGGAGAAAAAATAGAAATTGAAAATAGTAGTTTGAAAAAATATGTGATAAGTAATTATAATTTTTCAGATAAAATATCAAATGAAGTTATTATAAAATTTATTAAAGAATTTAATTTTAAAATATATAAATATGATATTATTGGAGAAAATAATAATAAAATTGCAGAATTAAAAATATTAAAAAAAGCCAAAGAGATAGAAGAATTTGAAAAAGATTTAGAACTTTTAAATATAATATCTTCGTTAATAGGACAGATGCTAGAAAAGCAAAATTATTTTATAGAAAAAATAAAAAAAGAGAAATTAGAAGTTGATTTAGAATTAGCAAAAAAAATTCAATTAAGTTATATTCCAGAAACATTTCCTGAAATAGAAGGGTTTCAATTTGCCTCTATTTATAAACCTGCGAGAATGGTTGGAGGCGATTATTATGATTGGTTTCAAATTGGAGAAGATAAATATTCTTTTGTTATAGGAGATGTAAGCGGAAAAGGAAGTTCTGCGGCACTATATATGGTAAAAGCAAGAGAAAATTTTAGAGTGTATTCTAAAGACAATATAGACTCAGATAATGTTTTGGAATGTGTAAATGATAATTTATCGAATGATGTAGATGTAGAAAAATTTATGACAGCTTTTTATTTTACACTTGATCTAAAAAATAAAAAGATAAAATGTTCTAACGCTGGACATGATCCTCTGCTTATTGTTAGAGATGGAAAAATAATTAAAGTAGAAATAAGAGGGTTGCCGTTAGGAATAATAGAGAGTTCGACTTATCAAAGTGTAGATATAGAATTGAAAAAAGGTGATGTTATAGTTGTATATACTGATGGAATCCCAGAGTCTAGAAATTTAGAAAAAGAGTTTTATGAATTTGATAGATTTTTAAAAGTATTAAAAGAGAACTATAAAAAAAATCCAAATGAATTAGTTGTTGAAATAGAAAATGATGTTAAAAAATTTATAAAAGATGCTCCACAACATGATGATTTTACAATGTTTATAATAAAATATAATGGGAAGAGTGAAAAAGAAATTTGAAAGGGCAAAGGTGAGAATAGATGATAGGTGAGAGAATATGGCTAGAAAAAGATAGGGAATATGTTTGGCATCCATTTACTCAAATGAAAGACTATGAAAATAAAGATCATGTCTTGATAGAGAGGGGAGAAGGGATTTTTTTATATGATTATAATGGGAAAGAATATTATGACACAATAAGTTCATGGTGGGTAAATGTTCATGGACATAATAATGTTAGAATAAAAAAAGCCATAATAAAACAGATGGAAAAAATAGAACACGTTAATTTTTCTGGATTTACACACACTCCAGCGATAGAACTAGCAGAAAGAATCATAAATTTAATGCCAAAAGATTTAACAAGAGTGTTTTATTCGGATAATGGTTCTACGGCTGTGGAAGTTGCGTTAAAAATGTCATTTCAATATTGGAAAAACAAAGGTTTTGATAAAAAGAAAAATTTTATATATTTTGAAAATAGTTATCACGGGGACACAATTGGAGCTGTTAGTGTAGGAGGCGTTCAAGGATATCATGGACTATATAAGCCTTTACTTTTTGATTCTTTTATAAGTGAAGCTCCTAATTGCAAAAAATGTAAATATAATAAAGAGGCTAATAGTTGTCAACTAGAATGTTTAAATGGAATAGAAAAAATATTAGAAGAAAATAGTGAAACTATAAGTGGGGTTATAATCGAACCATTGATTCAAGCAGCAGGTGGGATGCATTTTTATTCTCCAAGAGTATTAAAAAAATTGAGAGAGGTGACAAAACAATATAATGTTCATTTGATTATAGATGAAGTAGCAATGGGATTTGGAAGAACTGGGAAAATGTGGGCTTTTGAACATGCGGGAATTACTCCTGATTTAGTTTCAATTTCTAAAGGGATTTCAGCTGGATATTTACCACTTGCAGCTACAATAGTTACTGATGATATATATAATGCATTTTATGATGATTATAATAAAAACAAAACTTTTTTTCATGGACATTCTTATACAGCAAATCCACTTGCTTGTGCAGCTGGAATAGAAAGTTTAAAGATATTCGAAGAAGATAAGTTATTAGAAAAGGTAAAAGAAACTAGTGAATATTTAGAAGAAAGTATGAAGGTATTTGAAAATAATGAACATATAGAAAACATTAGATGTTTGGGATTAATTGCTGCAATGGATGTAGTTAAAAATAAAAAAACATCCGAAAAATATGACTCTAAAATTAGAATAGGTAAAAAGATATATGAAAAAGGATTTGAACATGGCTTGGTACTTAGACCGGTAGGAGATACAATATATTATTTTTTACCGTTATCTGTAAAAAAAGAGGATATAAAAGAGATAATAAAAAGAACCCAAGATGTGTTGTTGGGGGTTTTATAATTGCAGAAATTTAAAAAAATATGTGAAAAAGAGATTGGAGATTTTATAAAAAAAATAAAAAATACAGATAAAAATTTAGAAGAGTTTAGAATGGATAATTGTGAATATTTTTTGTTTTTTGAAGATGATAATCCAATTGCTTATGCAATTATAGGAAAAGAGAGTGATGAATATTTTTTATATGATTTTTTTGTAAAAAAAGAAGAAAGATTTAGAAATGTAGGAACAAATTTTATGAAAAATATATTTGAAGAATTATCAAAAAATAATGTAGATGAATTTTATTTGAAAAGTTGGGGGAATAATAAATATTTTTTTTTAAGGAATGGATTTATAGAAGAAAACGGGAAAATTTTTATAAAAGATTTGATGATGTCAAAGAAAAGGCAAAAAGAAGGAATGTTTGGAACCATTGTATCTATAGTTGTAAATATATTTTTATCTATATTGAAAATAATGTTTGGAATAATTGGAAAAAGTCATGGATTGATTGCTGACGGGATACATTCATTTTCAGATGTTATAACATCTGTTGTAATTCTTTTTACGTTGAAAATAGCATCAAAACCAGCTGACAACGAGCACCCATATGGGCATGGACAAGCAGAATCAATTGCAGGAAATATGGTTGGAGTGATACTAATAATTACAGCAGTTCAATTGATTATAGAAAATATAAAATATCTTGTAGTTGGGAAGGATAAAACTGTTCCAGAAGGGATAACAATAATTATAGTTGTAATAGCAATTATAATAAAATTCATTTTATATAAATATAAAATGAATATGGCAATAAAATTAAATAATGATGCTATATTAGCAGATGCAAAAGATCATAAAAGTGATGTTATTTCTTCAATTGGAGTATTGGTTGGAATTTTATTAGCAATTAAATTTTCACCGATTTTTGATATATTAACAGGAATTTTAGTTGCAATATTAATAGGTAGGGAAGGAATAGAAGTTGTTATACATACATCTAATAAAATAATGGATGAGCAAGAAAAAAAGTTTATTTCTTCTATAGAAGAAATAGTTGAAAATACAGCTAAAGTATATAATATCCATAATATATTTATGAAAAGATCTGGCGATAAGGTGTATTTGGCTTTTCATATGAGAGTCAATGAAAATATGAGTGTAACAGAATCACATTTTATAGTAGATGAGGTTATGATAAAAATTAAAAATAAGTATAAATTTGTAGAAGATATCATAATACACGTGGATCCGTTAAGGGAAAAAATATAATTAAAAAAATCAAAAAAGTTCTGTCTTGGGCAGAGCTTTTTTGATTGGTGAACAAATGTAGAATTCTAGTTATTTTAGGTTGAAACTATGTTGAAAATATAGTATAATGTATAAGTTATTTTATAATTGGAGGGTTCTATGGGAAGTTTTTTTAAATTAAAGAAAAAGACTCCATCGCAAATTTTGATAAACTCTTTTTTGGTTATTATTTTTATAGGTACAACATTGTTGTCGTTACCTATATCGAAAACTAATAATGGTTCATTTGATATTGTTACAGCTATCTTTACAGCAACTTCAGCAGTATCAGTAACAGGTTTATCAATTGTAGATGTAAGCACTTATTACAATGATTTTGGAAAAGTAATTATTTTGATATTAATTCAACTAGGTGGGCTTGGAATTATGACATTTTCATCTATAATAATGTTGATAATCGGAAGAAGAATAACTTATGAAGAAAAGAAAATTTTGCAAGAAGATTTAAATCAAGAAAAGCTTGGTGGAATAATACATTTTATAAAAAAGCTGTTTTTTACAGTTGCAACAATAGAATTAATAGGAGCTATATTTTTATTTATAGAATTTTCTAAACAGTTTGGATTTACAAACAGAGCTCTGTTTTATTCAATATTCCATTCTGTGTCAGCGTTTTGTAATGCAGGATTTTCTCTGTTTGGAGATAGTTTAGTACAATATAAAAGTAACTATATTATAAATATAGTTATTTCATCTTTGATTGTATTAGGAGGTATTGGATTTTCTGTAATTAATGGATTTATTGGATATACAAAAACTGGTAAAAAAAAGTTTTCTTTAACATCTAGAATGGCAATAAAAATTAGTATATGGATGATAGTAATTGGGACTATTTTAATATTTTTTACTGAAGGATCAAATGTAAAAACTATTGGAGATTTGAATTTTTTTGACAAATTGTTGGCTTCATTATTTCAAAGTATAACTACTAGGACAGCTGGATTTAATACTGTTTCAATTGGAGATTTGAAACCAGCAACCATATTTTTATTTATAGTGTGGATGTTTATTGGTGCATCACCAGGATCTACTGGCGGCGGAATTAAAACGACAACTTTTGGAGTAATTATTTACTCTGTTTTTTCAATTATAAGAAATAAAAAAGATGTTGAAATTAAAAACAGAAGAATATCTTGGCATATTTTAAATAGAGCATTAGCTATTTTGGTGATTTCTCTTTTTTATGTAATTTTAATAACGTTATCAATTTTAATTGTAGAAGAAAAAGATTTTATTCAAATATTTTTTGAAGTTATTTCAGCATTTGGAACTGTTGGATTATCAATGGGAGTTACTGCTGATTTGACTACGTTTTCAAAAGTTTTATTAATAATTACAATGTTAGTAGGAAGAGTAGGACCATTAACTTTTGCATTAGCATTAGGGGAAAATTTGGAAAAGCCAAAATATAGATATCCAAGAGAAAATATATCAGTTGGATAAAAAAATGTTATTTTTTTATTAGGAGGGAAACAATGAAACAGTTTTTAGTGGTAGGTCTTGGTCGATTTGGGACAAGTGTTGCAAGTACATTATTTGAAAATGATGAAAGTATATTAGCGTTAGATAAAAATGAAGATATAGTACAAGAATCTATAAACAATAACTTAATTGATAATGGAATCACTGTAGATGCAACAGATATGAATACTTTAAAAAATTTAGGAGTAAGTAATTTTGATGTAGCATTTGTATGTATAGGGACTAATATCCAAGATAGTATATTAATAACGTTAAATTTGAAAGAATTGGGCATTCCTAAAATAATAGCAAAAGCTTTAACCGAAGCACATGGAAAAGTTTTGAAAAAAATTGGAGCAGATGAGATTATATTTCCAGAAGTATATATGGGGCAAAGGGTAGCGTTAAAAGAGATTGATCCTAATATTTTGGAACATATAAAATTTTCAGATAAACATATTTTGGTAGAGATAAAAGCACCAAATAAATTTTACGGAAAGACATTAGAGAAATTGGCATTAAGAAAAAAATACAATATTAATATAATAGGAATAAAAAGAAGCGATAAAGAATTGGAAATAAATCCAATGGGAGATACAAAAATAGAGAATGGAGATACATTAATAGCTATCACTGATTCAAAAACAGCAAAAGAACTAGAAGAGCTATAACAGAGGAGGAGCAGAATTGTTTAATTATGATGTATTAGTTGTTGGGGCAGGTCATGCTGGATGTGAAGCAGCGCTTGCAGCAGCAAGAATGGGGTTGAAAACAGGAATTTTTACAATAACTTTAGATAATATAGGAGTAATGTCTTGTAATCCTTCTGTAGGAGGACCTGCAAAAGGTCATCTTGTTAAGGAGATAGATGCACTTGGTGGAGAAATGGCAAGAAATGCAGACAAAACATCTATTCAAGTTAGGGTGTTAAATACAAAAAAAGGACCAGCAGTTAGAGCTTTAAGAATTCAAGCTGATAAAAAACTTTATCATATGGAAATGAAAAAAACATTAGAAAATACAGATAACTTAGACGTTATTCAAGGATTGGTTACAGATATATTAGTAGAAGATTCTAAGATAATTGGATTAAGAATAAAAGAAGGTATGGAATATAGAAGCAAAACAATAGTTATAGCAACAGGTACATTTATGAGAGGGCTAATACATATTGGAAACACTAAATTTAGAGGTGGAAGAATGGGTGAACTTCCTTCTGATGAGTTGCCAGAATCACTAGAAAAAATTGGGCTAAATTTAGGCAGATTTAAAACAGGTACGCCTCCAAGAATTGATGCTAGAACAATAAATTATGAAAAAGTAGAAGAGCAACCTGGAGATATTGGGATTTTAAAATTTTCAAAGAGAACTTCTGATGAGGAAACTTTGAGTAAAAAACAGGTACCTTGCTACATAACATACACAAATGAAAAAGTTCATAATTTTGTATTGGATAATATAGATAGAGCTCCTCTTTTTAATGGTTCAATACAAGGGGTTGGACCTAGATATTGTCCTTCTATTGAAGATAAAATAGTAAGACATCAAGATAAAGCAAGGCATCATATATTTTTAGAACCAGAAGGGTACAATACTAATGAGATATATGTAAATGGTATGGCAACAAGTTTACCAACAGATATACAGTATGAAATGTTACAAAATATGGTTGGATTAGAAAAAAGCAAGATAATGAGATATGGGTATGCAATTGAATATGATTATATACTTCCAGAAGAATTAAAATATACTTTAGAGACAAAAAAAATAAAAGGATTATTTTTAGCAGGACAAATAAATGGAACTTCTGGATATGAAGAAGCGGCATCTCAAGGATTAATTGCAGGTATAAACGCAGGATTATTGGTACAAGGAAAAGAACAAATTATATTAGATAGAGCAGATTCGTATATAGGGACTTTAATTGATGATTTAGTAACAAAAGGGACAAAAGAACCATATAGAATGTTTACAGCTAGATCAGAATACAGACTTGTTTTAAGAGAAGATAATGCAGATTTAAGATTAACAGAAATTGGATATAAAATAGGTCTAGTACCAGAAAAAGAATATAATAGAGTTAAAGAAAAAGAAAAAAATGTTAAAGAGACTATTGAATTAATGGAAAATATAAATGTGGGGCCATCTAATGAAAAAATTCAAAAATTATTAGATGAAATTGGAGAAACTAGATTAAAAAGTGGGACTACAGCGAAAGAGTTGTTAAAAAGGCCTAAAATTAAATATGAAAATTTAAAAAATATATTTGATGAAATAAAAGAATTTTATAGAGAAACAGAAGAGCAAATTGAAATACAAGTGAAATATGAAGGATATATTGAAAAACAGTTAAAAATGATAGAAAAACATAAAAAATTAGAAAACAAAAAAATATATGATGATTTTAATTATGATAATGTTATGGGATTAACAAACGAAGCAAGAGAAAAACTAAAAAAAATTAGACCTATAAATGTTGGACAAGCATCAAGGATTTCAGGGGTATCTCCAGCGGATATAGCTATATTAATACTTTATGTAGAGGGAAAGAAAAGATGAAAAAAATATTAGAAAAAGGGTTAGGAATAATTAATTTAAAATTAGATGAAAAAACTATGGATAAATTATGTGTTTATGGAGAGTTTTTGCAAAAAAAAAATAAGATTGTGAACTTAACATCTATAATAGATGATGAAGGAATAATAGAAAAACATTTTATTGATTCATTGTTATTGCAAAAATATTTGGAAAATTATGAAGGTGTAGAAATTAAAAATGTTATAGATGTTGGAACTGGAGCTGGTTTTCCAGGTATGGTACTAGCAATTGTAAATCCTAATATAAATTTTACTTTAATAGATTCAATAGGAAAAAAAGTAGAGTTTTTAAAAGAGTTAAAAGAAAAATTAGGAATAGAAAATGTGAATATTTATAAAACAAGAGCAGAAGATTTTATTAAAGAAAATCGGGAAAAATTTGATATTGGAGTTTGTAGAGCAGTATCGGAGTTAAGAGTTATTTTAGAGTATATAATTCCTTTTTTAAAAGTTGGGGGTTCTTTTTTAGCACAAAAAGTTAATTATGAACAAGAGTTAGAAGAGGCAAAGAATGCTTTAGAATTATTAAATGGAGAAGTTATAAAAATAGATAAAATGAGATTGCCATTTAATGGTGAAAATAGAGTTGTATTAAATATAAAAAAAACTAAAACGACAGACAAAAGATATCCGAGAAGAGCAGGAATACCGGTAAAAAGACCATTATAAAGAGGTGAAAGATGAAAGTAATATCTATTTTAAATCAAAAAGGTGGAGTGGGGAAGACAACAACAACAGTTAATTTGTCAAGTTATTTAGCTAAAATGGGAAAAAGAGTATTATTGGTAGATATGGATCCACAAGGAAATGCAACTACTGGAATTGGAATTGATAAATCAGAATTAGAAAATTCAATATACAACCTTATATTAGATGATGTAGCAATAAAAAAAATTATAATTAATAGAAAAGAAAATTTAGATGTTTTACCAGCAAAAATAGATTTAGCAGGAGCTGAAATAGAATTAGTTGGGAAAATATCTAGAGAAACAAGACTAAAAAAGAAATTAGATGAAATTAAAAATGAGTATGATGTTGTATTGATAGATTGTCCACCTTCTTTGGGGCTACTGACATTAAATGCACTTACAGCATCTAATGATATAATAATACCAATACAATGTGAATTTTATGCATTAGAGGGTTTGAGCCAACTGTTAAATACAATAAATCTTATAAAAAAAGAGTTAAATCCTGAATTGAATATAGCTAAAATATTACTTACAATGTATGATAAAAGATTGAAACTATCTGAGGAAGTTTCAAATGAAATTAGAACTTATTTTAAAGAAAAAGTATTTGAAAATGTAATTCCAAGAAATATAAAATTAACAGAAGCACCAAGTTATGGAAAAACTATAGACGAATATGATATGAATTCAAATGGAGCAAAAGCATATTATGAAATTGCAAAGGAAGTGATAAATAGTGGAATCATCTAAGTCATCTAAAACAAGATTAGGAAAAGGATTAAATGCCTTAATAAAAAGTGATAAAAATGACTCAGAAAAAAACAGTTCAAATTATATATTAGAGATAGAGATTGATAAAGTAAAGCCGAACCCACTGCAGCCAAGAAAAAAATTTGATGAAAGTAAAATTATAGAGTTGGCATCTTCTATTAAGGAAAATGGGATATTACAACCTATAATCGTTAGAGAAAAAGGAGATATATATGAAATAATTGCTGGGGAAAGAAGATATAGAGCATCTTTATATTTAAAATTAGAAAAAATTTCAGTTATAGTTAAGAATGCTGCAGAAGATGAAAGTTTAGAATTAGCTATTATAGAAAATATTCAAAGAGAGGATCTAAATCCTATTGAAGAAGGAGAAGCTTATCAGTCATTGATAGTTAAATATGGTTATACTCAAGAAGTGTTAGCAAATAAATTGGGAAAAAAAAGAAGTACAATAACGAATACATTAAGATTATTAAAGTTATCCACTAAAATAAAGCAAGATATTATTGTGGGGAAAATTTCTTCGGGACATGCAAGAGCGTTATTATCATTAAAAGATGAAGATGAACAAGAGAAACTATCTAATAAAATAACAAAAGAAAAGTTATCAGTAAGAGAAACTGAAAAGTTAATAAAATTAAAAAAAGTTGTGAAGAATGAAAAAGTAAAACATAGAGAGAAAAGTATTGAAACAATAGAGGTAGAAAAAAAGCTAACAGAATATTTAGGAGCTAAAGTTAGAATAAAAAAAATGAAAGACAAAAAAGGACAGATAGTTATAGAATATTATTCAAATGGGGATTTGGAAAGATTATTGGAAACAATTTGTATAACAAAATAAGGAGAGAAATTTTATGGCTCAAGATAATGATAGAATAAAAAAAATAATATCAAAAATAGATGATTTGCCAACACTTCCAATTGTAGTTACGCAGTTAATGGAATTAGTGGATAATCCTATGAGTACAGCAAGAGATATTAATAATGTAATAAAAACTGACCAATCTTTAACTGCCAAAACATTAAAATTGGTAAATTCAGCTTATTATGGGTTTCCAAGATCAATAGCAACTGTTACAGATGCAGTAGTAATATTAGGGTTTAATACAGTACGTAGTTTGGCTCTTAGTGCTACAGTTTGTAAAATGTTTTCTGGAAAAACAGAAAGTTTTGATAGAGGAGAACTTTGGGAGCACTCAATTGCAGTAGCATTTGCATCTAGAATTATAGCAAAAAAAGTAAAATATCAAGAGGAAGAAGAAGCGTTTGTTGTGGGACTTTTGCATGATATTGCTAAAATTGTAGAAGATCAATATTTTCATGATGATTTTGTGAAAGCAATAGAAGAATCAAAAAGTAAAAAAATAGATTTAACAGTAGCTGAAAAAGAGTATATAGGAATGGATCATTCGTTAATAGGTAGAAGAGTAGCTGATAAATGGAGTTTACCTTCTAAGGTTACAAAAGTAATAGGGTATCATCATCAACCACAGTTTGCAGGAGTAGGAGAAGATAAAGTATTAGCCTCAATAGTTCATGTGGCAGATGTTGTAGTTAAAATAAGAAAAATTGGAAATAGTGGAAATTATGGTCCATTGTCAATAAATAAAGCTGCAGTAGAAACATTAAAAATATCAAAAAAAGATTTAGCAGACACTGTACAAAAATTAGTAGTTGAGATGAAGAAAGCAGCTGATTTTTTAAAGATAGTTCAAGAATAGAAATTAATTTTTTAAAAATAGGTGGAATTTATGAAAAAAATTATTTATATATTTATATATTTGTTTATATCTGTTTATAGTTTTTCAATATATGAGGTTGGAATTACTTATGGTGATAAGCCAAATGAGATAATATTTCCAATCTCATTTACTATGTCCAAAAATAATGACACATATGTATTGGATTATGGTTTGTCAAAAGTTGTACTCTTTGATAAAAAATTTAAATTTATTAAAAAATTAGACTTAGAAAAAGGAAATATTTCAATAAAAAATATTAAGGATAAAATATATTTATTAAATAGTATTAAAAATAGTATTACAGTATACAATTTGAATTTAGAAAAAATATTTTCTTTTGGTTCAAAAGGAATGACCGAAAAAAAGTTTAATCATATAGGAGAAATATATATGATTAAAGATAAATTATATATATTTGATGAATATAATTATAGAATTCAAATTTTAGATAAAAATTATAATTATTTATCACAAATCTTATTGCCAAAATTTGAATATATATATAAACCTTATTATAGTTTTAATTATGATTTGAGTTATAATAATGGCATTATTTATATATTAGATAAATTTAATAAAAAAGTTTATGAGTATGATGTTAAAACTAATAAAAAAATCAAAAAAGAGTTAAATTTAGCAGAGATGGTTTCTCCAGCTAAAATGTTTTTTATAAAGAAAAGTTTGGTATTATTTGATAAATCAAATAATAATATCTATTTTCCTGGAGTAAAAACAACAAAAAAAGTAAAAGAAGAGGGAAAGAAGAATAATGTTGAAATATTAAATGGTTCGAAAATTATAGAAAAGGATAATAATATATTTTTTATTAGAGAAAGTAGTATTTATAAATATAATATACAAACAAAAAAAGAAAAAAAAATAATAGATTTTAAGAAGATTTCAAAAGGAGAATATCTAAAACCTATAGCTTTATCAGAAGATAAAAAGAATAATTTATATGTAGTAGATAATTCGTTAAATAAAGTATTAATCTATGATAAAAAAGGGAGTTTTGTTAAAGAAATTGAAAATATAGGGATATTTCCAACAGATATAGCAATAGATGATAATAATAATAAATATATTTCTATCGCAGGAGAAAATAGAATAAAAAAATATAATTGGAAAAATAGATTAATTTTTACTTATGGAGGATATCAAGAATTTCCTTGTAATTATAAATTTTGGTATGACAATTTAGATAAAAAAGAAAAAGAGAAAAAGAAAAAAAGTGAAGATAGATATATTTATAATTTAAAACTAGATTTAGATAGTATGGGATACATATATGTTTTAGATTCAAAAGAGATGAATATAAAAAAATATGACAATTTTTTTTCGGAAAAAGATATAATTGGTGGAAGAGAATCTTTATTAAATATAGTAAGAGGAAAAAAGAGCTTTGATAAATTTGGCTGGGATGAACAGAATTTAGATAATTTAAGTGATATATTTTATAATGATAATAAAATATATGTTTTGGATAGATTTTATAAAAGGATAGATATTATAGAAAATGGGAAACTCACTAAATTTATAGAAGATAAATTTTCAGAGAATGGTTTAAATGGAATTTATGTAAAAAACGATAAAATTTATGTAACAGATACTTATAATTTTTCAATAAAAATATATGATAATAGCTTAAAAAGGATTAAAGATGTATCTTTATTGCAATATGGGATTATGCCAGTTAAAATTTATGGAGATTATATTATAGGGATTTCAACAAAAGAAGCTTTAAAGAAAAACTATAGAATATATAATATAAAGGAGCTTTTAAATGATTAGTTTGAATTCTGTAAATGTGATTTTGAGTTCTAAAGAGATATTAAAAGATATAACAATGGAAGTAAAAGAAGGAGAAGTTTTTTCTATATTAGGGCCTTCTGGATGTGGAAAAAGTGTTTTGCTACAAAATATCATTGGATTAATGAAACCTAACAAAGGTGAAATTATTATTGACAATATAGATATAACTAAATGTAATAAAAAAGAATTAAATCAAATAAGAAAAAAATGTGGATTTTTATTTCAGCATTCTGCTTTATTTGATTCAATGACAATAGAAGAAAATTTAGCATTTCCAGTTTTACAACATACAAATTTAAGTTATGATATAATAAAAGAAAAAATAAATGAAAAATTAAAAATAGTAGGGTTAAATGGTATAAATGATAAAAAGCCATCAGAATTATCAGGAGGGATGCAAAAGAGAGCAGCTCTTGCGAGAAGTATAATATTAGAACCTAAGTATATGTTTTATGATGAGCCAACAACTGGATTAGATCCAATAATGTCAAATGTAATAAATGATTTGATAATAGATTTAAATAAACGATTAAATATTACATCAATTGTAGTGACTCATGATATGAAATCTGCTTTTAAAGTTTCAGATAGATTAGGGCTTTTATATAACGGAGAAATTATAGTTCAAGGAGACAAAGAGTATATGAAAAAGATAGATGACCCATACTTTTTACAATTTATTGAAGGTGAAACAAATGGGCCTATAGATTTAAATTTTATAAAGAGGTGATTAAAATAGTTAAGAAAGAAACTTTTATTGGAATTTTTGTATTTATAAGTATTATAGCGTTAATTATTTTTTTATTTAGTTTAGGAAAAATAAGTTTATCTTCAAATTATTATGTTGTAAAAGTAAGTTATAAAGATGTTAGTAATTTAGAAATAGGTACTCCAGTATTATTAGCAGGAGTGAAAGTTGGAAAAGTAAAAAATATATATTTAGATGATGGAAAAGTTATAGTTGAATTATATATTAAAAAAAATATCAAAATAAGAAAAGGGGCAAAAGTTGCTATATTTTTAAAAGGTGTAATGGGAGATTTGATAGTTAGTATATATAATCCATTAAAAGGGGATGAATATTATAAGAATAAAGATGTTCTTGAAGGGATTGATCCAATATCTTTAAATACATTAGTAGACCAGCTATCAGAAACTATAGTAATAATCAATGGTTTAAAGGATACTATTGATAAATTACCAATAAAAGAAACAAAAGAATTGATAATAAATTTAAATAAAGCATCAAAAAGTTTAGATAAAACATTATTGGAAAGTAATAAATTAATAAAAGTAAGCAGTTTAATATTAAATGAGAATAAGAAAAATATAAATTTATTATTAAATGAAATGATAAGTTTTATGAAAAAATTAGATTCTATTATAGATAGTAATAATAAAAACTTAAAAATGGTATATAACTCTATATTATTAACTATTAATAATACGCAAAAGATATTAGATGATAATTCAGATAATATATCAGGAGTTTCTAAAAATTTAAAATTAATAACAGAAGAACTTTTAGAAGTAATAAAAAGTTTATCAAAAGATGACATTAGTAAAGTATCAAAAGGTATAGTTGGTATAACTGATAATATTGACAAGATAGTAAATAGTATAAACGGTTCATTAAATGAAGAAAATAAAGGTAAAGTTTCTAAAAGTTTAAAAAATATAGAAGATTTAAGTGATAAATTAAAAAAATATACTAATAATAAAATAAAAAAAGAGATTAATTTAGAATATACAAATAAAAATAATAAAATTAATGGGAATATAAAGCTAGAATTAAAAAATGAAAATAGTAATTATTTTGTAGGAGTAAATAGTGGAGAGTTTTCTGATAAATTAAAAAATTTTAATTTGACTTTAGGGAAATATTTTGATAGAACTAAAATAGGAATTAAATTTAGAACTGATGGGTATATGGGAACTTTAATAAAATATGAAATAAATAAAAAATTATATTTAACTGGAGATTTTAATAATTTGGAGAATAAAGAAGTGATTATAGGCACAGATTTTTACTTTAAAAATAGTAAAATATATTTAAGATACGAATTAGAAAACTTCCTTCATATTGGGATAGGATATGAATTTTAAGGAGTTATAAATATGAGAGATTTAATTAAAAAGCATAAGTATGCAATGCTTATGCCGGCATTTATAATAGTAATATATATATTTACTAATTTATATATTACATTTAAATATCAAATACAAAATACAGTTAAAACATTAACAAAAACATATGCTAATTTAAATATTAATTTTGTAGATATGAAAATTAAGAATATTAATGAAGTTGAGTTAAAAGATTTTATATTCAAATCAAAAAAAGGTAAAGTGTTATTAAAAGCTCCACGTGTAAAAATTAATTTTAATATTTTTCCATTTAAATTATCTACAATAAAAGTGATTGATGGGAAAATTAATTTTGAAATGTATAAAAATTCTAAAATAAATTTTTTAACTGAATTTGAAAATAAAGAATCAGATTCAAAAGAAAATAAAGAAATACCATTAAATAAAATTATATTTGAAAATTCAAACATTAATTTTCAAGATTTTAGTAAGAAAAATATTATTAGTAGAGATTTAAAAAATTCAAATGGGATAATATCTTTTTATAATGGGAAAATAAAAATAATAGCTGAAGGGTCTACAAAATATAAAGAAAAATTAAATTTAAACTTAACATTTGATAAAAAACTAAAATTATTAATAAATATAAAAAATTTACTTATTAATGAAAATGATATGCAATATATTGGAGAATTATCAGGAATTAATAGGTATAAAGGAAGAGGGAACATAACATTAACCATAGAAGATAAGAATATAAATGTAAAAGGTGATTTTCATAATGCATCATTACATTATAATGAAATTGAGGATAAAATATATAATATAAATGGAAAATTTGATTATAAAAATAAGAGATTAAATTTATATACTTTTGGATATGTAAGTGGTAAGAAATATGATTTAAATTTATTATATTTAAATAGTAAATTAAATATTAAAATAAGTACCAAAAATATAACATATAATGATGTAGAAAAATTTAAACCAATAAAAAATTTAAATTTAAAAATTAAAGGAAAAATAGAAAAAGCTAATGTAGATTTTAATTATATTAATGATAAACCTTATGCAACAATTATAGCGAAATCTAAAAAGATTTTTGTATTTGAAAATGAATTAAAAAATGTAAATCTTAAAATGGTTTATGATGAAAAAAGATTAAATATAAAAAATGTAGAGTTTAGTTATTCTAAAGATAATCTTTTTTCTGGTGAATTAGTAGGAAATGCAATTTTAACAGGAAAAAAAATAGATGGGAATATAGAAATAAAAAAAATTAAAAATATTTATATTGAAAGTTTAACAAATTTAAAAGGAACTTTTATAGGGCAATTAGATAAAAATATTATAGAAATAAATTTGAAAAATAAAGAATTCGGGAATATATTTATTAGAAATGATTTTTTAAAAAATAGTATAGAAATTAAAAGCAAAATAATTAAAAAACAAAAATTAAAAATAGAAAATCAGGAGTTATTAACAAAAGGGAATTTAGATATAAATTATAATTTTAAAAATTTAGAATTTGAAAAAGGAAGTTTTAATTTAGAAGGAGAATATAAAAATATTAGTTGTTTTGTTAATGGTACTATATTATCAAATATAATGAGGATAAAAAAGTTATATATAAAGAATGAAATTGCATTTGGAACTTTAGATGGGCTATTTAATTTAAAAACATTTTTTTATAAACTGAATATAAAGAAATCAAGGATTAATGTTAAGGGGTCTAATATAGATTTATATACAGATGGGATATTAACAGGGAAAAAAGAAAAATTTTATTATAGTGGAACTATTTCAAGTGAAAAAGGAAATTATATAGGAAATTATTCTGGTCTAAAAGGGAAAATTAATTTATCATATAATGGTATATTTAAAGGAAACTTCTTAGGAGAGTTGAAAAAAATAGAATATAATAATTTTAATTTTCAAGATTTAAGTATAAATATAAGTTTAAATGATAAAATATTAAGTTTTAAAAATATTTCAAATAGATTTGTAACTGTTTTGGGTGACTATAACATAGATTCTAAAAATATGGATTTGAAATATGAATTAACAAATTATAAATTAAATGATTTGAAGTGGTTAGATGCAGAAGGATTAAATTTATATATAAAAAAAATAAATGGAAAGATTAGTGGAGATTTTACAAATCCTAAAATATATTTTGATTTAAAAGAATTAAATTTAAAATATAAAAAAAATGATATTTTATTTTCTGGAAATGGAGAAATATCAGATAATATATTAAAATTAAATAAAGCTAAGATAGATGATAATTTAATTACAGGAAAAATAGATTTAATAAATAAAAATATAGATATACATACAAATATATTTGAGGAAAATTTAAATAAATACTATGATTTCAAAATACCAGATTATTTAAAATATAGGATATTAGGAGATATTAATATTTGGGGAAATATTAAAAATTTAAAATCAGTAGGAGAATTAAATATTGATTCTATTAATTATAAAGATATAAAACTTCCTTCTTTATACTGCAAATTTTCATATAATAAAGGTAATGTTTTTAATTTTTTAAATAGTGGTATATTTGACATATCAAATATAGAAATTAGAAACTATAAAAACAGAAAAACAGCATTAAAAGGTAAAGGAATTGCAAATTTTAAAGATAAAGAGTTTAGTTTGAAAATTCCTGACCAAAATATAAATATAAATAATTTTGGGATAGATAATATTAACGGACAACTAAATGTTAAATATAACTTTATCTATAAAAATAAAAACATAGAATATGAATTGATAGCTAATTCAGATATGTTAAATATTTTTGATGCAAAAATAATTAATTTAGAAAATCATATAGAAGGAAATAATAGTGAATTAACTTTAAAAATTTTAAGGTTATATTATAATAGCAATAAATTTGAAGCATATGGAAATTTAGATATGAAAAATTTAAAGTATAATTTTAGAATTAACGCCCAAAAGTTAAGATTAAAAACATTTGCATTTTTATTAAAAGATAAATTAAAGTTAATAGATGGAGAAGTTGATGCGAACATATATTTGAATGACGATAGTACATACGGAACTATTAAATTGAATAGAGGAAGTTTAATAACAAAGGATGAAAAAATTGTTTTAAAAAATATAAGTGGAATTGGCGTTATAAATAAAAATAAATTTTCTATTTCAAAATTTTATAGTGATATTAATGGTGGGGATTTAAGTGGAAGTGGAAATTTAGAATTAGATGTACCGGATATTTCAAATATAATGAAATATAAACCAAAAATAAATAATTGGGATTTTAATATAAAAGCTGAAAATGTAAAATATTATTTAAATAAAAATATAAATGTACTGTTTGACACAAATCTAAAAATTAAAAATAAAAATATATTAGGTAGCCTAAAGATAAAATCCGGCGAATTTTCTGGAATAGAATCAGGATTAAAAAAAGATAATAAAAATTATAGTGATATTTTTAAAGGTTTAGAAGTTGGATTGGATGTTTCTATATCAAAAGAATTTAAAATTCATTTAGCAAATATATCAATATTGGAGGATTTGGAAGCATCTATTTCAGGAAATGGGAATTTAACTATTGAAAATAAAAAAATTAATTTTTTAGGAACTATATCAACTGAAGAAGGAGTTATAACTGTAAACAATAATGATTTTAAAATAGAAAATGGGTTTATTGTTTTTGATGATCCATATCTGTTTTTTCCAGAGTTGAATCCTTCTATCTCTTTATTAGCTAGTACTAATATAGCAGGGGAAACAATAGATGCTCAACTACTTGGAGATCTAAAAAGCATAAAATTAAATTTGAGTTCAAGTTCTAATTTGAATTATTCAGATATAATATCTTTATTAACTTTTCATAAAAAAATAGGAGAACTTTCTCCTGGAGGGGTTGTAAGGGATGTTTTAGCAAGGCAACTTAATTCAGAAATAGTATTTAATCCATTATCAAAAAGGATTGCTAAAATATTAGGAATAAGCAAATTCAAATTATACTCAAATATATTAGAAATAAATGATAAGGAGGGAGAACTAAATTTAACAAATGATATTAGATTAGGTGCAACTTTAGATTTGGGAAATTCTTTATATAAAAATATTTTATTTTGGAATGTAAAAGGAAAATTATCAGATGAAATATCAGGGAAAATTGATTATTATGATGTTTGGCTTAATTATAAGATAAATGATCAAAATAATGTATCAGCTGGTATAAAAGAAGAATATAGTGATGACATTGGAAAAAGTGAGCTACATATTGGATGGAACTTTAAATATAAAATTTATAAATGGTTAGATATGATAAATATATTTAATATTCCTAAAAAATAAAAAAACGGAGGTACAGAAATTGAAGAAATTAATTTTAATTTTAAATTTATTAATTTTAAGTATTGCATTTGGAGATAGTGGAACATTAATAAAAAATATAGAAATAACATCAAATAAAGAGGTTCCTAATGAAATAATTTTAAATAGTATGAAGCTAAAAAAAGGGATGGAATTTAAATCCAATGAAATGATAAATGATTATATTTCCATAAAAAATTTAGAATATATAAAAGATTTAGAAATATATCCTAAAGTGGAAGATAATGGTATAAATTTAATGATAAATGTAGTGGAAGTAGAAGGTGTAAAAAAATTATTAAAAGATAAAGGGATTGTGCCAAATTCAGAAAGAGAAAAGATTGATAAAAATATGATTGTTCAGTCAATAGAAGTATTTGGAAATTCTAAAGTAAAGAAAAAAGATATAATAAAGGAAATACCATTTACAATTGGAAGTTATTTTTCAAAAACAAAAACTTTAGAGGGGAAAAATAAAATATTAGCTATGGGTTATTTCAGAGATGTTAGCCCAGAAGTATTAAAATATAAAGACGGAATATATATAAAATATAGAGTTTTAGAAAATCCAATATTAAAAGGTGTAAAAATAGAAGGAAATACATTAATTGGTACAAAAGAGCTTTTAAGTAAATTCAATACAAAAATTGGAGATATATACAATATTAATATATTGAGAAAAGATATTGATAGTGTTACAAAATCTTATGTTGATAAAGGTTATTTTCTTGCTACAGTATATGATGTGGCATTAGACAATGATTTTAATTTAAATATAAAGGTTTCAGAAGGAATATTAAAAGATATAAAATATGAAAAAATAATAGAAAAAACAAAAGATAATGCAGTAAGTATGTCAAAAGAATTAAAAACTAAAAAATATATTTTAGATAGAGAAGTTTCACTAGAAAAAGGGAAGCCAATGGAGATTGCTAAATACAAAGAAAGTGTAAAAAATATATTTAGATTGGGATTTTTTAAAGATATTAAACCTGACTTTATAAGAGATAAAAATGATCCAAGATATATAACATTGGTATTGCATTTAAATGAAAATAGAAGTGGTTCTATTCAAGGAGGAGTTTCATATGGAAATTCTATAGGATTAACTGGTAATATTAGTGTACAAGATAATAATTTTATGGGAAAATCACAAAATTTAAATTTGAAATTTGAGGTATCTTCAAAAAATAAAAAGTTATACGAACTTAGTTTTTATGATCCTTGGATAAAGGGCAGCAATCATCTATCTTTTGGTTCGGGACTATATAGAACAGAAGTTCAGAATTCGGAAAAATCAGATTTAGATTCAGTGTATACAAATAAAAATGGAATTAGATTTTCAATAGGAAAAGGATTAACAAATAGAATTAGATTAAGTATAGGTACAAAACTAGAAGAAGTAACAGAATATAATGGATCACATGAGGAAATAGATAAATATTCTCTCTTGACATTATACCCTACAATATATTATGATAATAGAGATAATTATTTGGATCCTAAATCAGGAGAATATGCAAAATTTAGTACTACTTATGGAAAAGTATTTGGAAGAACAAATTATTATTTAATGGATTCAGAGTTTAGAAAATATCATAAATTTTTAACAGATAAAAATCATATGGCGTATAGAGTGTTATGGGGATATGCCAGCGAAGAAACACCTAAGTCACAAATATATGCTGTTGGTGGTGGTAACAGCTTAAGAGGATATACAAGTTATGATTATGAAGGTAATTTTGAATTAGTATTAAACATAGAAAATAGGTATCAAATTGATGATAATGTTCAAGGTGTCATATTTTATGATGTAGGAAGAACTTGGACACTATTCAAAGATTTTAGTGGATTAAAAGATATAAAAATGGGATATGGAATAGGTCTTAGAGTAAAAACTCCATTAGGGCCATTAAGATTTGATTATGGATGGCCGATAAATGATAAAGATAAGAGTGGTGGTAAGTTTTATTTTAATATAGGGCAATTATTTTAGGTTATTAGAAATAAAAAATATTGGGAGGAGAAAAAAATATGAAAAAAATAGCAGTAGTTATATCATCATTATTAATAAGTGCATCAATATTTGCAGGAGGATTAGGTAAGGTAGATACTCAAAAAGTTCTATCTAAATATCCAGAGACACAAAGAACACAACAATTTTTACAATCTCAAAAAGAAAAAATGCAAAAAGATTTAGATGCAGGAAAAGAAAAAGTCGCAAATTATCAAAAAGAACTAGAACAAAAAGGGGATAAAGCTACAAAAGAAGAGAAAGATAAATTAGATAAAATGAAATCAGAATTTGCAAAAAATTATAAAGGAATGCAAAGTAGTTTAGACCAATTACAATATACAATGTATGAAAAATTAAAATCAGATATAAATTTAGCAATAAAACAAGTTGCTAAAAAAGATCAATTAGATGCGATATTTGATAGTGCTGTTGTATATTATGGAGCAACAGATGTAACAGACGATGTAATAAAATTTTTATCAGGAGTTGAAAAAATAGATTTAAGTAAGTAGGAGGAAATATGTACTCAGTAGAAGAAATTGCAAAATTAATTGATGGGAAAATTATTGGAGATAAAAATTTTAAAGTAGAAGGATTAGCTCCATTTTATGAATCAAAAGAGAATAAAATTACATTTGCTTTAGATGAAAAATTTTTAAAAAATTTAAACAAGACTTTATCAAAAGCAATTATAATACCAGAAGGAATTATTACAGAATTTGATAATAACAAAATATATATATTGGTAGATAAAAGCCCAAAAGAAAAGTTAATGAAAATATTGAAATTTTTTAAAAAAGAACAAAAAGAGATAGAAAAAAATATAGAAGAAGATTTAAATATATACGTAAATGTAAAAATTTCTCCAAATTGTTATATTGGTCATAATGTTAAAATAGGAGAAAACAGTATAATATATCCTAATGTAACAATATTAGAAGGAGTAACTATAGGAAAAAATAGCATAATATATCCTAATGTAACAATAAGAGAATTCTGTAAAATAGGTGATAATGTAATTATTCAACCAGGAGCAGTTATTGGTTCTGATGGATTTGGATATATTCCATTGAATGGAATGCATCAAAAATTAGAACAAATAGGGAGTGTCATAATAGAAGATAATGTGGAAATAGGTTCAAATACAACAATTGATAGAGGAGCTATTGGAGATACAATTATAAAAAAAGGGACAAAAATTGATAATTTAGTTCATATTGCACATAATGATAAAATAGGAGAAAATTGTCTTATAATAGCTCAAGTTGGGATATCTGGAAGTGTTGAAGTTGGAGATAATACAATTTTAGCAGGACAAACAGGAGTTGCAGGACATTTAAAAATAGGTAGTAATGTTGTAATAGCTGCAAAATCTGGAGTAACAAATAATGTTCCAGATAACTCAAGAATGGCAGGATTTCCATTAAGAGCTCATAAAGATGATTTACGAGTAAAAGTGGCAATGGGAAAAGTACCTTCTTTGATAAAACAAATTAAGAAATTGGAAAAAAAATTGGAGGAAAAATAAAGTGAAAAAAAAATATTTTATTTTAATAATGTTTTTAGTTATATCGATAGTTGCTTTAAGTAAACCAGCAAGTAAAGGGTTTACGGGGTTAATTGATTTTCCAACTGCATATAATTTAAGAATAAGCAATTATTCAGTAACTGGGTTAATAGATCATCTTGAGGGAAACAGTAAATTTGGCATTATGTTAGAAGGTGGATTTATTCCTCAAATTGAAGCGGGAATAAAATTATCAAGTGAAGACAAATTAATAAATCAAAAATTATTAAAAGCTAATTTTAAATTTCAATTTGTACAAGAAGCAGATAATCCTGCAATGGCAATAGGGTTTGTAGAAGATGAAGATGTGGTTTATGGTTATTTAGTTGCGTCAAAATCGATAAGAAAATTATTAAATAAAAAAATATTTTTAGATACTTCAGTAGGATTAAAATATAATGAAAATTCAGAAGCAAGTTTTTTTGTAGGGTTAGGATTTCCAATCTTTCAAAAGATAAAACTATTATCAGAGGTATATTCATATAATAGTGAAAATAAATTGGGAGAAAAAGAAAAAAAAATCAGTTATAATATAGGTGGAGAATTTTATACAACTTCAAATGTTTCTACAAAAGTTTTTTGGAGAGAAATTGATGATAGTGTTGGAATTTCAATAAGTTATACAGGAATATATGACAGATAATTTATAGTTTTAAATATAAATTTTGAATATATTATTTTTTGCTATTCCTAAAGAGGGTGAGAAAAATGGAATTAGAAGAATGGAATAATCTTCAATGTCAGTTATTTAAAGAATGCAATTTAAATGTAAAAAATATTGTAGAGGTTTATAGAGTTGCCTCTAAGATTGCACATTTAAGAGAATTAGAGGATTTTGAACTAGCACTAGGTTATGCTAAAGATATTTTAATGAAAGAAGTAGGATGAAAATATCAAAAGAATATATTATAATTTGATTTTGATCTATAAAAATGAAAGGGAATTTTATAAAATTTTCCTTTCATTTTTATATTGAGGAACGGCTTAAAAATAACCTTTAGTTAAAGAAGCTTACTTTTTAAACGTTCTTGAGGAACGGCTTAAAAATAATCTTTTTATTAAAGAAACTTATTTTTTAAACGTTTTCATATGATATACTACAAAAGTTTTTTGGAGGAAAATTTGAAAAAAGAAATTAAATACAGATTTGAAGTATCCTTATATTATATAATAAAATTTTTTATATTATTATTTCCAATGAAAATTAGATATAAAATTGCTGAATTTTTTGGAGTAATAATTTATAAATTATTAAAAATAAGGAAAAGGGTTACATTAAAAAATTTAGAAATAGCTTTCCCAGAAGCAGATAATATTACAATAGAAAAAATAGCGTTAGAGTCCTATAAAAATATTTCTAAAACATTTTTTGAACTATTGTGGTTAGATGAAATAAAAACCAAACTTGTAGGGAGAGAAAAATTAGATGTAGAATTAAAAAAAGGGAAAGGAGTAATTTTATTATCTTTACATATTGACAATTGGGAGATATTAGGGCAAGAATTAGGTAAAAGTGGATATAATGTTTATGGGGTGGCAAAATCACAAAGTAATAAAATTTTAGATGAAATAATAAATAATATAAGGACAAAACATGGTGCAAAGGTTATTTTTAAAGGGCGAAATTCTTCTAGATTATTAATAAAAGCTTTAAGAGAAAATGCAATATTAGGATTAATATCAGATCAATATACTAACGATAGTGAAGTTATATTTTTTAATAAAAAAACAAAAGCTCCAACTGGAGCGGCAGTTTTAGCATTGAAATTTGATGTCCCTGTTTTTTTAGCATATACAGTTAGAGAAAAAGATAATACACATATATTTTATTTTGAAAAAAAAATAGATTTACAAAAAACAGGAGATGATAAACAAGATATAAAAACTAATACTCAAATATGTACAAGTGAAATAGAAAAAGTAATAAGAAAATATCCAGAACAGTGGTTTTGGCAACACGATAGATGGAGGATAAAATGAAAATATTAGGAGTTATTCCTGCTAGATATGGTTCTAGCAGATTTGAAGGGAAGCCATTAGCATTAATTAATGGAAAAACAATGATAGAATGGGTTTATAAAAGGGCGTTGAAATCAAATGTAGATAAACTAATTGTGGCTACTGATGATATGAGGATTTATGATAAAGTTAAAGAATTTGGCGGAGATGTTATGATGACTTCTAATTCTCACAAAACAGGCACAGATAGGATAATAGAAGTAGCAAAAGAATGGAATGAGTATGATGTTATAATAAATATCCAAGGTGATGAACCATTAATTGAAGTAGAGATGATTAATCAATTGATTGTTCCATTTGTAGAAAATTCTAAATTAAAAATGGCTACTTTAAAGCATGAAATATCGAATAAAAATAATATTGTTAATCCAAATATTGTAAAAGTAATTACTGATAAAAATGGATATGCTCTATATTTTAGCAGAACTCCAATACCATATAATAGAGACAAAAAAGATGCAAAATATTATAGACATATTGGAATTTATGGATATAATAGACAATTTTTATTAAATTATAACAATTTAGAAAAAAGTGTGTTAGAGGAAATGGAATCTTTAGAACAATTAAGAGCATTGGAAAATGGATATAAAATTAAAGTTGAAACTACAAATTTTGATGTACGAGGAGTAGATACTCCTGAAGATTTGCATGAAGTTGAAAGAATAATAAAAATAAAAGGAATTAAAATATAAGGAGGAGTAATGAAACTTACAGAAAAATTAATCAGGGATACTAAAAATATAGAGACACCAGCATTAATTATGGATTTGGATATAATAGAAAATAATTATAAGTCATTAGTAAAAAATATTGATAATTCACAAATATTTTTTGCAGTAAAGGCTAATTCTCACCCTAAGATTGTGGAAAGATTAGTTAGATTAGGCTCTTCATTTGATGTAGCCTCTATAGGTGAATTAGATTTAGTTTTGTCGAAAAATGCTGATGTGAAAAAAATAAGTTTTGGTAATACAATAAAAAAATCTAAACATATAAAATATGCTTATGAAAAAGGAGTTAGAATATTTGTAGCAGATGAGTTTTTAGAAATAGATAAAATAGCAATTAATGCTCCTAATTCGAAGTTATTTGTAAGAATGCAAATGTCAGATTCTGATAGTGATTGGCCTTTGACAAAAAAATTTGGAACAAATATAGAAAAAGCAAAACAACTACTTATATATGCAAAAGAAAAAGGAGTTATTCCATATGGAATATCATTTCATGTAGGGTCACAATGTTATGATAAATATATATGGAAGACAGCACTTTTGAAAACAAAAGATATATTTGATGAATTGAGGGAAGAAGGGATAAATTTAAAATTTATAAATACTGGTGGAGGTATGCCAATAAAACATATTAGAGAAATTCCTACAATTGAAGAGATTAGTGATGTAATTAATGATACTATAAAAACATCTTTTGAGGAATATAAAGATTTAATTGTAGCTGTGGAACCTGGAAGGTCAATGGTTGGTAATGCGGGGATTTTAATTTCAGAAGTAATATTAAGATCAGAAAAAGAAAAAAATGAATGGCTTTATATTGATAGTGGAGTTTTTCACGGTTTAATGGAAACATCACAGGGATTCAAATATGAAATTATAGTCCCAAATAGAGCAGGAGAACTTTGTAATTATACATTATCAGGTCCAACTTGTGATAGCGTAGATACAATGTATGAAAATATTCAGTTACCAGATGATATTGAAATAGGAGATAGGGTATATTTTATAAATGCAGGAGCATATACTACTGGATATGCTAGTAATTTTAATGGAATAGAACCACCAAAAATTTATTTTTTAGATGAAATTTTATAAATAACAGGAGAGGCTTTGATAAAAAGCCTCTTTGTTTTTTATTAGGAAAGTATAAATTTATGCAGAAAATAAGCTACGCCGTTTTTTTGAAATATGCAATTTTTCAAAGCGAAATTTTTCAGAAACCAAAAATTTTGAAAAACATTTATACTTTACATTATGAAGCGTAGCTTATTTTTTTATTTTATAAATAATTACTATTTTCGAAAAAAATAATAAAATAATGTTTGACATATGAAAAAAAATAGAGTAATATTTTTATATAGCGAACAGTTGGAGGTGAGGCTAAAATTATTTTTTAAAAATTTTAAAAAAAGTTTTAGAAAAACAGAATTTTATTAAAAGGAGGGGTAGTTGTGAAAAAGATTGGCAGTTTTATTGCAGGAATACTTTTATCAGCAACAGTTTTTGCGGGAACATCAGAGTATGTAGTTCAAAGGGGTGACACTTTATCGAAAATTGCAAATAAGAACAAAATTAGCGTTCAAAAAATTATGCAATTTAATAATTTGAAAAATATGAATTTTATCAGAGAAGGTCAAAGACTGAAATTAATGCCTATGTATAGCCAAAAAAATTTAAATGAACAAATGGTAATGGCAGCAAATTGGTATCAAACTTCAGGAGAGATGCAAGCATTATCATATCAAGCATTTAATATGGCCAAAATAATCTACTATGCAGATTTGACTTCTAACAAAGATAATGAACAAAAAAGAGCAGTAGTTGTAGATATAGATGAAACAGTTTTAAATAACAGTCCATATGATGCAGGATCTATTGAAACTAATAATTCATATCCAAAAGAATGGAATGATTGGGTTAAATCAGAGCAAGCAGTTCCATTACCTGGTGCAGTAGAATTTTTAAATTTTGTTGTAAAAAATAAAGGTGATGTTTATTATATATCGAATAGAAGTGTTAAGCTATTACAACCTACAATTAATAATTTAAAGAAATTTGGATTTCCAGAAGCAGACAAAGAGCATGTATTATTAAAAGGTAAAACTTCAAATAAAGAACCGAGAAGAGAACAGGTAGCTAAAAATCATAGAATTGTATTGTTAATGGGAGATAATCTTAATGATTTTTCATATGTATTTAGAGGAAAAACAATGTCAGAAAAAGCTGATTTAGTTGATAATTTAAAATCACAATTTGGAAATAAATTTGTATTGCTTCCAAATCCATTATATGGAGATTGGGAAGGAGATATTTATAAAGGAAATTGGGGAATGACACCAGAGCAAAAAAATAAAGCAAGAAAAGAACATTTAGTAAAATGGGAATAACAAAATAAAGAAAAAGGTATCAGAAATTAATCTGATACCTTTTTCTTTATTTTAAATCACATTCTATTTTTTCATTCCATAAGGTTACTTTATTTCTTCCACTGTGTTTAGAGCTATATAAGGCTTCATCTGATTGTTGCTTTAGTTCTTCTAAAGTTGTTGCTGTTTCTGGATAATTAGAAACTCCAAGGCTAATAGTAAGATTCCCCAATGGTTGTAATTCCTCATATGGAAAAGTATTTTCAGCAACTTTTGTTCGTACTTTTTCAGCAAGTTCAGATGCTCCGTTCATATCGGTATTTGGCAAAATAATAGAAAATTCTTCTCCACCATATCTACATACAAAATCTGTTTCTCTACATGTATCTTTAAATAATTTAGAAATAGTGCTAAGAAGAATATCTCCTGCAATATGGCCATTATTATCATTGTAATTTTTAAAATGATCTATATCAATCATAATTAATGACAAAGGAATATTTTCTCGTATGCTTCTAGTCATCTCATTTTTTGAAGAAGTATCAAAGAAACGTCTGTTATATAATTGAGTAAGTTCATCTATTATAGCTATTTTTTTATTTTTTTGATACAGGTGTAAATTATTAATAACTAATGCAGTTTGATGAGAAAAATTTATTAATGAATTTAATCTATATTCCGTATATTTTTTCTTATCAAATTTATTATCAACAATAACAAATCCAAGAATAGTATCATATGAAATTAACGGTACTAAAATAAAATTTTCAAGATTAAATTTTTTAAAAACTTTTTTGTTGCTTTCAGAAAAATTTGAAAAATTTAAATTTACAGTTTCATAATTTTGTTTAGCTAAAATAGTTTTTAGATAAATATCATTACTATAGTTTATTTTGGAAGAATTAACAATTTTGTTAATTGGTTTTATTATTTCAGAAGGAGAATAAAAAAATTCTATTGGACATTTTTCTATTTTTTCCCAAGTAGATTTTGCTTCCTCTTCTGTAATCTCACCAATAGCTTTTTCTCCAAAGAAAAAATTTCCATTTTTTGAAAATAGTATAGCTCTATTAAACCCAATGCCATCATTTGATGTAAGATAAGTTAAATATAAATGATATATTTCATTTAAATCTTTATCTTTTTCCATTAATGTTATAATTTTATTTAATAAATCTAGTTCTCTTATTTTTTTTCTTAGTTGAGAATGGTTTATATGTAAGTCAAATGAAGTAGATACTTGTAATAAAACAGAATTATATTCTGAAAAAAAATCAGGATCCATTAATTTATTAGAATAACCAAGAAGGATATATCCAATATAATTCAATGAAGAATGTAGCTTTAATATTCCAAGATTTTGCAAGTTTATATCCTCATTTTTAAATACAGTAGAAAAAAGTTCTGGTGGAATTATATTTTTTTGATATTGGTCTAAAAATTTAAAATCAATATTAAAAGTTCTATCTAAAAAATTCCCATTAGAAAAAGTTTTTTCATAAAGACCAGTTGTAGGATCGTATAAAATAAAATATATGTTTGGAGTGTTAAAAACAACTCCTAAATTTTCACTTGCAACTTTAAAAAAGTTAATAGAATTACTGCTTTTAGTTAAAGCAATATTAACAGCATCAATTATTTTGTTTTTATAGATCAAAGTTTGTACAAATTGATTAACTTTTGAAAACTCTAAAAAAGAAATTTTATTTTCTATAGGATAAGAACTATTTTCATTTTTTGAAAATGATTCCAAACGATATATCAATTGAAGAATAATTAAAGAAAAAATCAGTGATAATATTATTCCGATTAAAAGAAACTGTGGAAAAGAAAAAAATTGATATGCAAAAACGAATCCAATTAAAATTAAAGAATAAAAAATGGTTAGTTTTCTTAATTTTATTTTCATAAATTATGCGCCTCCCGAATGGTTACTAATAAAAGAAATTATAACATAATTTTAAGGAAAATAAAAGTTGTAATTTAAAAAAAAATAGTATATAATTATTTAAGGATATCAAGTTGCTTTTTAAGATATTCTTAAACTGTTTTTAGGAATAATAATGTTTTTAGGAGGAAATAAAATAATGAATATGAATTATACGCCAAAAGAAATAGTGGAAAAATTAAATAAATATATTATTTCACAAGATGAAGCAAAAAAAAATGTAGCTATAGCTTTGAGAAATCGTTATAGAAGAAAAGAGATACAAGATATAGAATTAAAAAAAGAGATAATTCCCAAAAATATAATTTTGATAGGTTCTACTGGAGTTGGTAAAACAGAAATAGCAAGAAGATTAGCCAAAATAGCAAATGCTCCATTTATAAAAGTTGAAGCTACTAAATATACAGAAGTGGGATATGTAGGTAAAGATGTCGAAAGTATTGTAAAAGATTTGGTAGCTCTTACATTTAGAATGGTACAGAATGAAAAAGCAAAAGAATTAAGAGAAAAATATATTGAAAAAGTATATGAAATTATCGCTAAAAAGCTTTTTTCTTATGAAACTATAAATGATGATAAAAAAGAAGAAATTATAGAAAAAATAAAATCTGGTGAATATGATGAGTCAGAAATAGAGATAAAACCGCATTCAAAATCAATTTCTCCAGTAATAGAAGTTTATTCTAATGGAAGAGGAGATGGACCAGAAGGATTAGGCAATATTACTGAAATGTTAGATGATTTAGTATCTGGATTATCAGGAAAACCTCAAAAACAAAAAAAGATAAAAGTAAAAAATGCAATAGAAATATTATTGCAAGAAGAGATAAATGAGAATACAAATAAAGAAGATTTAATAAGGGAAGCAATAAATAAAGTAGAAAATGATGGGATAATTTTTATAGATGAAATTGATAAAATAGCAGAAAGAGGAACTAGATCAGAGGTATCAAGGCAAGGAGTACAAAGAGATATTTTGCCAATTGTAGAGGGGACAACGGTTATGACTAAATATGGGCCAGTAAAAACTGATCATATTTTATTTATAGCAGCAGGAGCTTTTTCTATGACAAAGCCATCAGATCTTATGCCTGAATTACAAGGTAGATTTCCAGTAAGAGTTGAGTTGAAAAATTTATCAAAAGATGATTTCGTAAAAATATTGACAAATGTTAAGAATAATTTAGTATATCAATATATAAAATTATTAGAAGTAGAAGATGTAACATTAGAAGTAACAGATGAAGCAGTAGATAAAATAGCAGAATACGCTATTTTATTAAATGAGAAAATTGAAAATATAGGAGCTAGAAGATTACATTCGGTAATAGAAAAAGTTTTAAAAGATATTTTGTTTGAGGCACCTTATGGAGAAAACAGGAAGATAATATTAAAAGGTAAAGATATTGATGATAAATTTAAAGGAGCTATAAAAAAAGAAAATTTAGAGAATTATATATTATAAAATTTTTTAGAAAATAGAAAGGTCATTTTTGGTATTATGATCAAAAATGATCTTTTTATAATTAAGACTCAGAAAAAATCAAAGAAAGGAATTTAAATAAAAAATGTATTTAAAATCTATAGAAATATCTGGCTTTAAGTCATTTGCAGACAAAACTAAATTAAATTTATCAAAAGGGATAACTTCAATAGTTGGTCCAAATGGAAGTGGTAAAAGTAATGTTTTGGATGCTGTATTGTGGGCATTAGGAGAACAAAGCTATAAAAGTATAAGAGCTAAAGAGGGGAGTGATGTAATTTTTTCTGGTGGGAAAAATTCAAAGAAAAAAGGAATGGCAATGGTTTCTTTAATAATTGATAACAATAACTCTCTTTTAGATATAGAATATAATGAAATAAAAATAACTAGAAAAATATTTTCATCTGGAGAAAATGAATATTATATTAATGATGGTAAAGTTAGATTAAAAGATATTCACGAATTATTTATGGATACTGGTATAGGGAAAAAAGCCTATTCTGTTATTGGACAAGGAAAAGTAGAAGAGATAATAATGTCTTCACAAAAAGAGTTAAGAGAAATAATAGAAGAAGTGGCAGGAATAAAAAAAATAAAAAAGAGGAAAGAGGAAGCTGAAAAGAAATTAGAAAAATTAAATGATAACATTGAAAAAATAGAAATTATAGAAAATGGAATAGTTGAAAGATTAGGACCTTTAAAAAAACAGTATGAAAAAGCAATAAAATATAGAGAACTTAATGAAAGTTTGAATGAATATAGATATGTTATTTATAAAAAGCAAAAAGAAACTTTAGGAATAAGTTTAGAAAAAATAGGTGTTGAAAAAGATAGAAAATTAGATGAATTAGAAAAAATTAAAGAAAATTTCAAAGCGACAGAAGAAAATTTAGAAAAACAAGTTCAATTAAAAGAAGCATTACAAAATAAAATTTTTGAAAAAGAAAATTCATTAAAAGAGATTGAAACTGTTTTAAATATAAATGAAAATAATAAAATTTTATATTTTGAAAGAGAAAATAATAATAAAAAAAGTTTAGAAAAGATTAATTTGGATATAATAGAATTAAATACACTACAAGATACAAGAAAAAAAGAGATTATAAAATTAAAAAAAGATGTTAATGAAATAGAAAATGAGATAAAAAAACAATTTGAAATTTTAGAAAAAGATAAAGAAGAGGTTGATGGAATCCAAATAAAAACATTAAACTTGGAAAAATCATTAGAAAAAAGCAAAAAAGATATTTTCAATTTAGAAATAGAAAAAGCCAAGTTACAAAATAAATTAGAAAGCAAAGATAATAAAGTAAAAAAAATTGAGATACATATTAAAAATTTAGAGATAGAAAACAGAGAGGTTATAGATGAAAAACATAAAGCAATAGAGGAAAGTAATAAAATTGTAAAGAATATAGATGAAAATCGTTCTAAATTAAGAGAGATACAAATTAATATAGATGATAAGTTTGAACAGATTAAAGAATTAAAAAAAACAGTTGAAAATAAAAATGTTATAGTGGAAGAATTAAATAGAAAATTAAATAATAGAATATTAAAATCACAAGCTCTTAATAGAATGAATGAAAATTTTGAAGGATTATTTAAGGGTGTAAAAGAGATTATAAAATCAAATATAAGTGGAGTAATTTCACCATTTATGGATATAATAGAAATTCCAGAATATTTAGAAACAGCAATAGTAACAGTAGCTGGAAATAGTTTACAAGATATAGTAGTAGAGAATAGTAGTGTGGCTAAAAAATGTATAGAATTTTTAAAAAGAGAAAAAAAAGGAAGAGCATCTTTTTTGGCATTTGATATGGTTAGTAAAAGTAAGGGTGGAAAAATAGAAAAAAAAGATGGAATTCTTGGAAGATTATCAGAATTAGTAAAATATGATAATCAATATAAAGATGTTGTAGAGTTAGTTTTAGGGAATATATTAGTAGTAAAAGATGTAAATATTGGGATAAATATTCAAAAAAAGAGATCTTTTTATGGAACAATAGTAACGTTAGAAGGAGAAGTTATACATTCTAAAGGAAAAATAAGCGGTGGAGAAAAAGTTAAAAATGGCATAACTATGATATTTGAAAGAAAAAAAGAGATTAATAATATAAATGAAGAAATAACTAATATTGAAGAAATATTAGTAAAAGAAAAACAATATGAAATTAAAATTAAAAAAGATATAAATATACTTATAGATAAAATAGAAGAATTAAATATCAATAAAAGTAATATAGAGGATATTCTAAAAAAATTAGGTTCAGAAAAAGAGAAGAGAGCATATTTATTAAATAGTATAGAAAATAAATTAGAAGTTATAGAATATGAACTTAAAAATGAAAAAAACTATTTAAATGAAATTATTGAAAACAGTTCTAAACAAAACAATGAGGTTAAAATTATTGAAGAAGATATTTTAAAATTAAAAAATAATATTTTAGAGCTTGAATTTAAACTAAAAGAAAATAGAAAAAAATCTGAAAAAAATTCAGGAGAATATTATGAAAAAAAATCTAAAATTGATATTTTGAAGCAAAAAAAAGAGTTTGTTGAAAAAAATCTATTTGATAAAGAGGAACAATTAAAAAATGTTTTAGAAAATCTTAATAAAAATAACAGTCAAAGAGATATTTATATTTCTGAAATAGAAGATTTAGAGAAAAAGCTTTTAAAAATTGATGAAATATTATCTGAGAAATCAGGATTTTTGAAAAATATGCAAACTGGAATAGAACAATTAAAAGAAGAATTTTTAAATTTTCAAAATTTAGAAAAAATGAAAATAATTGAAATAAAAGAGATTGAAAAAGAGTTAATAAAAAATGAAAATAGTTATCATATAATAATAAAAGAATATGAAGTGCTGAATGATGAATTTGAACAAATAATTAAAAAGTTTTCGGAAGTTGATTATGAAGGGGAACTAGATGAAGCACTTTTAAAATTACCAGTAGATATTTTAAAATCAGAAATTAATAAATTAGAAAGAAGTATAAATAAAATTGGAGAAATTAATTTATATTCTATTGAAGAATATAAAGAATTGTCAAAAAAGTATGAAGTTTTAAAATATCAAAAAGAAGATTTGATTAATAGCAAAAAGGAACTTGAAAAATTAATAGCATCTATTTTAGAAGAGTTATTAAATAATTTTGTGTTAGCATACAAAGAATTAAAAAACAACTTTAGTTATACTTGTCAAGAGATGTTAGGAATGGCAAAAGGAGAGATATTATTAACTAATAGCGAAGATTTATTAAATACAGGTGTAGAATTAAAAGTTAAATTTAATAATAAAAAAGAGCAATCACTTAGTTTATTATCTGGAGGAGAAAAATCAATGATTGCTGTGGCGTTTATAATGGCAATCTTTATGTATAAGCCAAGTCCATTTACATTTTTTGATGAGATAGAAGCTGCTCTTGATGAAACAAATACTAAAAAGCTGATATTAATGTTGAAAAAATTTACTGAGAAATCACAATTTATTTTAATTACGCATAATAAAGAGACAATGAAAGAATCAGATACATTATATGGAGTTACTATGGATAAAAGTGAGGGAGTATCGAAATTATTGTCAGTTGATATGTAGAATAAGCTTTTAGAGGAGGTTTAACATATGATTAGAGATGTAAAATTAGAAGATAGTAAAGCAATATGTGATATTTATAATTATTATATTGAAAATACAATAATTACTTTTGAATTAGAAAAAATAGATAGTAAAGAGATGGAGAATAGAATAAAAGAAATTTCTAATAAATATTGCTGGATAGTATTTGAAGAGGAAAATGAAATTTTAGGATATGCTTATATAGGTTTATGGAAAAGTAGAGAAGCGTATAATAGAGTATCTGAAGTTACAGTTTATTTAAAAAAGGGATATGACAGAAAAGGGATTGGGACAAAATTATTAAAAGAATTAATGAATAGAGCTAAAAAAATGGAGAATATGCATAGTTTAATAAGTGTAATAGCAATTCCTAATGAAGGAAGCATAAAATTACACGAAAAGTTAGGATTTACTAAAGCTGCATATTATAAAGAAGTGGGATATAAATTTGACAACTATATTGATGTGGAATGTTTGCAGTATATATTATAAAATTGTGAAAAAGCTGAATTAATTTTCAGCTTTTTTTAATTTTCAATTTCACATTATACATTTCAAATTATATTCACTATCTATAAATTCTTTTACATTATAAAATTTGAATTATTAAAAAAAATTAATTTAATTTTTTTGCTATTTTGATGTATAATATGTTTAAGCTTAATTTAGCAAAGTAAAATACAAAAAATTAATTTGAGGAGGGAATAAATTGGAAGAATTAATAAAAGAAAAAGCTAAAACAGTAGAAAAATTAAAGTTAGAAATAGGAAAAGTGATTGTAGGTCAAGATTATATGGTAGACAGAATTTTAGTAGGTATATTTACTGGAGGACACGTTTTATTAGAAGGAGTCCCTGGACTTGCAAAATCATTAACAGTGAGTACAATATCAAAAGTTTTGGGAACAGAATTTAATAGAATACAATTTACACCAGACCTTTTGCCAGCAGATGTAATAGGTACAAGAATGTATAATCAACCAACAGGAGAATTTATAACAAAAAAAGGACCGATATTCAGCAATATTATATTAGCAGATGAAATAAATAGAGCACCTGCGAAAGTTCAATCAGCACTTTTAGAAGCAATGCAAGAAAAACAAGTAACAATAGGTGAAGAAAGTTATCAATTGGACAGACCATTTTTGGTGTTAGCTACTCAAAATCCATTAGAACAAGAGGGAACGTATCCTTTGCCAGAAGCTCAACAAGATAGATTTATGTTAAAATTAAATGTAGATTATCCAAAAAAAGATGAAGAAAAGATAATAATTGATAGATTAACAGGAGAAGATAGAATTGAAGATACAAAATTGGAAGCTTTAGTTTCTAAAAAAGATATATTTGAAATTAGAGAATTAGTAAGAAAAGTTTATGTAAGTGATGAACTAAAAAATTATGTGTTGGATATAGTCTTTAAATCAAGAGAAAAATCAGATTATATAGAGTGTGGAGCATCTCCAAGAGCTTCTATTAATTTAATATTAGCTTCAAAAGCAATTGCATTTTTAAACGGAAGAAACTATGTAATTCCCGATGATGTAAAAGAGATTGCATATGACGTTTTGAGGCACAGATTAATTTTGACATATGAGGCAGAAGCTGAAGATTTGAAAGTAGAGGATATTATTGAAAATATATTAGGAAGTGTTAATATACCGTAGAGGGGATAGTTAATAATATAAAAAATAAAAAATAAAATATAAGAAGATTTTTAACCACTGGATGGGCACAGATAAAATATAAAAAAAGGCAAAAATATAAAGAAAAGAAAAAAATTAAGTAGGTGAAATTATGGTTGATAAAGAGATTTTAAAAAAGCTTAGGAAGATAGAGATAAAGTCTAATAGGATAGCGGAAGAGATATTTACTGGAGAGTATCATTCGGTATTTAGAGGAAACGGAATGGAATTTGAAGAGATAAGAGAGTATTCTCTTGGGGATGATATAAGGAATATTGATTGGAATGTAACAGCTCGCCAAAATAAAGCTTATGTTAAAAAATTTAAAGAAGAGAGAGAATTGAATTTTTTCTTGTTGATTGATATGTCTTGTTCTACAACTTATGGAGATAAGAAAAATATGATTGCAGAAATTGGAGCTACATTGGCATTTTCAGCATTGAAAAATAATGATAAAATTGGTGGTATGTTATTTACAGATGAAGTAGAGAAAATAGTTCCTGCTAAAAAGGGGAAAAAACACGTTTTATCAATTATAGAATCTATATTAGAATATAGTCCTAAAAATAGAAAAACAGATATTAAAAAAGCATTGGAATATTTTTTTAGATTTGAAAAAAAGAAAAGTGTTGTTTTTATAATATCGGATTTTTTAGATGAGGGATATGAAGATGAATTGAAAAAATTAAAGATGAAACACGATATTATTTTAATTAGAATAATTGATAGAAGTGAATCATTAATACCAAAAGGTGCTATATTTAGCTTTAGAGACCTTGAAACTGGCGAAGAAGTTATAATTGACAACAGTAAAAGAAGTTTAGAATTGTCTAGTCAATTGAAAATATTTTCTAAAAATATGATAAATGTATATACAGATATGGATTTTGTAAAACCTTTAATGTTATTTTTTAAAAAAAGGATGAGGAGATAATATGAAAAAGATTATTAGCTTAATAATTTTATTAGTTGTTTTTTCACAGAGCGTATTTTCAAGTGAAAAACCTATTTATATTGGAGATTTAATTAGATTGAAAATTTCAGGAGACACTTCTGAAAAAGAGATAAAAAATAGTTTTAAAGATTTTGAAATAGAAAAAATTGAAAATATAGATGGAAATTATATAATAGAATTTAGAAGTTTTAATACTGGTATAAATAAAATTAAGATAGGGAACAAAATAATAAAAATAGATGTTAAAACCAGTTTGAATAAATTTAAAAATAAAGATGTTATAGAAAATTCATTGGATAACCAAAATATAAAAAAACCTATACCTGTTACGATTTTATTGTATATATCTGTTTTATTCTTAATAATTTTAATTATAGCATATATAGTGTATAGAATAATAAAACGTAAAAAAGATAAGAAAATGTCACCAAAAGAATATTTTGAATTAATTTTGAAAAATAAAAGCAGTAAAAATTCTTTGGAAGTTTGGAGTTTTGCACTAAAAAAATATTTAGAAAAGAAGTTTAATGTAAATATTTTTGATAAAACACAAAAAGAAACTGAATTAGAATTAGGAAAGTATGACTTTTTTCAAAATATAAGAGAAGATATATTAAAATGGTTAGAAGTAGCATATAATTATAAATATCAAAATATATCATCAGATGAAACTGAAAAAGAAATTATGCTTAATGAATTAAAAGATATTATAGATAAATTAGAAAAAATAAATATTATTCAAAATGGAGGAAAAAATGTTTAGATTTGCAAGTTACTATTTTTTACTTTTTATTCCAATAGTGATATATTTGTTTTTTATGAAAAGAAAAAATAGCTCAATCGAATTTTCAAGTATAGCAACTATAAAAAAATATAGTGCGCATAAAACTATAAAACATAAAATTGGAGAATGGCTAATTTTACTAGGAATAATTCTTTTGCTAGTAGCATTGTCAAGACCGCAATTAGTTGAACAAAATAAAAATATTTATAAAAAAGGGATAGATATTGCATTGGCATTAGATGTATCAGGGAGTATGGAAAGTGTAGATTTTAAGCCAAGTAGAATAGAAGTAGCAAAAGATGTATTAAAAAAGTTTGTAGATAAAAGGGAAAATGATAGAATTTCTTTTGTTATATTTTCAGGGACAGCATATACGAAGATACCGCTAACTATAGACTATAATGTATTGGATGAAGCTATAGCTAAGACAACTACAAAAGATGTGAATACAGATGGAACAGCAATTGGAATGGGAATAGCTGTAGCTGTAAATAGATTAAAAAATAGTAAAGCAAAATCAAAAGTTATAATATTATTAACAGATGGAGATAATAATGCAGGATTAATTTCACCAGAAGCAGCAATGAAATTAGCAAAAGATACTGGAATAAAAATATATACAATTGGAGTAGGTACTAATAAAACTATAATGCCTGTAAAAGATGGTTATGGAAATATAGTTACTTATAGGCAATTTACCGGTGGATTAGATGAAGGATTATTAAAAAAAATTGCTAATGCAACAGAAGGAAAATATTTTAGAGCAAAAGATAAAAATTCTCTTGAAAATATTTTTAAAACAATAAATTCGTTGGAAAAAACTAAGATTAAATCAAAAAAAACATTTCAATATAAAGAGCTGTATTACTTATGGTTGTTGTTTGGATTGTTATTTATGATTTTAGGAATAATTTTAGAAAAATTAATATATATAAAAATACCATAGAGATGGAGGAGTCCAAAAATGAATTTTGGGAATATAAATGGATTTTATTATCTTTTATTATTAGTTATATTGATAGCAATATTTTATTTAGGCTATCAAAAAAAAGTGAATATTATAAATTTAATAAGATTTCCATTTAACAAAAAGAAAGAAAAATTATCAATTTTCATAATGATATTAGGAGTTTTTTTAATTGTTTTTTCATTAACTGACCCCGAATTTTTTAAAGGATATGAAAAATATCAAAAAAAGGGATTAGATATCTATTTTTTAATAGATGTGTCTAAGAGTATGCTGTCAGAAGATATCAAGCCAAGTAGAATAAGAAGGTCAAAAGAGATTATATCAAGTGTAATAGATGAATTAAAAGGGGATAGAGTTGGATTTATTCCGTTTTCCTCAACTGCGTATATACAAATGCCATTAACAGATGATTATGATATGGCTAAAATGTTTTTGGATGTAATAGATACTAATATGATTTCAGGTGGAGGAACTAATATAAAAAAAGCATTAGAATTAGCAGAAGCCTCATTTAAAAAATCTGCTAAAGGGGATAAAGTTATAATATTAATAAGTGATGGGGAAGTACATAATGAAAGTGGAATTAATGAGTCTGAAAAAATAGACAAAAGTATAAAAATATATACAATTGGAGTTGGAAGTTTAAAAGGAAGTTTGATACCTATAGTTGATAAAATAGGCAATAGAATAGATTATAAAAAAGATAAAAAAGGAAATTATGTATTGTCAAAATTGGATGTAAAAACATTAGAAGAAATTGCAAAAAATGGAAATGGGAAATTTTATATGTCAACTATTGCAGGAGATGAGATTCAAAAGCTAACTAGTAAAATAAATTTATTAAAAAGAGAAGAATTGGGAATAGAAAAATTAAAAATATATAAAAAATTATATCAATACTTTTTAGGAATAGGAATTTTAATTTTTTTAATGGGATATTTATATGGAAAGAGAGGAGATTGAAATGAAAGGAATTAAAATAGTAAATATTAAAATAATAAACTTGTTTTTAATGTTGATAATTGGAATTTCTTCATTTGGAGCGACTACTAGAATTACTACTGGTTCTTCTATTAAATATATTACAAAAAATGAAAAATTATACTCTATAATAAATAATGGTAATGATTTTTATAAATCTAAAGACTATAAAAAAGCAATATCTCAATATAAAGAAGGATTAAAATTAGATGAGAATAATAAAGTATTAAATAAAAATATAGCTAATAGTTATTATAGTGAAAAAAAATATGATGTTGCAACTGAATTCTATGAAAAAACTAAAGATTTTAAACAAGCAGGGAATTCTTATAAAAGAATTGGAGATGGTTCTAAAAAATTAGACGATAAAATAAAACAATATAAATCAGCATTAGAAGAATATAAAAAAGGAATAAAATTGAATTCGAATAATATGGAATTGAAATTTAACTATGAATATGTAAAAAAGCTTTTAGATAAATTAAATAAGCAGAAACAACAAAATAAAAACAGGAATAAAAATAAAAAAGACAAGAATAATAAAGATAATAAGAAAAATAAGAATAAAAACTCTGATAAAGATAATAAAAAACAAAATAAAAACAATAAAGATAATAAGAATAAAACTGGAAAAGATAATCAAAAGAAATCTGATAAAAAAGATGGAAAAGATAATAAACAAAATAAAAATTCTAAAAAGAAAGATAAAAATCAACAAAACGAATCAAAAGCTAATAAAGAGCAATCAAAAAAAGATAAAGACAAATCAAAAGACAGCAAAAATATGAAAAAAGTTAATCTGCAAGAAGCATTAAAAATTTTACAGTCATTAGAAAAGAAAGAAAAAACAGATTTAAAGAACAATCAGCAATTAAAAATGCAACAAAATAATACGCAAGAAAAATATGATTGGTAGAGGTGAGAAAAATGAAGAGTATAAAACATATAATTTTTATAATTTTATTAATGATAAATTCAATAGTAATGTTAGCTGCAACTCCTAGTATTACTTTAGATATAGACACAATACAAATTCCTATAGGAGAGACAGCTAATTTATCAGTTGCATTAAACAATATGAAGGGAGCGAAAGCATTATCAATAAATGGATTAAATAATTTTAAGGTAGTGTCTAAATCAAGCTCTACTCAAACTACAATAATTAATTTTAAAAAGACAGAATCAGTTAATTATAATTACACAATACTGGCTACACAAAAAGGTGAGTACCCTTTGAAAGCAACTGTAAAATATAAAGGAAAGATATATGAAAGCAATATATTAAATATAAGTGTTACAAAGGCTTCGCAACAGACGGGATTTGCAAAAAATATATTTTTAAAAACTGTAATCTCAAAAGATAAAATATATTTTGGAGAGAAATTGATTTTAGCATATGATTTGTATACTCGTTATAATGTTAATAGTTATGGATTTACTGATAAAATGAATTTAGATAAATTTATGGTAAAAACAACAGATCAAGATAAATTAAAAGGAAGTTATGTATATATAAATGGTAAAAAATATGTAAAAAAAAGAGTTTATGAATCAATATTAACTCCTTTGAATAGTGGTGAAATTAAAATTCCATCATTTGCTTTTCAAGCTAATATAGCTACAAATGATGATTTCGGATTTTTTAATACAACAAAGCCTAAAATTTTAATGACTAAAGAAAAAATAGTAAATGTTTTAAAATTGCCATTAGATGGGCAACCTAAAAATTTCACTGGTATAATTGGAAACCTAAATATAGAAAGTAATATTTTATCTAAAAATATAAATTATGGGGATTCAACTACACTAACAATAAAACTTTTTGGTGATTGTAATTTAGATAATGTGGATAAAATAATAAAATCAAATATAAAAGGATTTAAAATTTATGAATCTTTAAAAAAATCAAGTGAAGATTTTGAAAATGGTAAATATTTAGCAAAAAAACAATTTGATATAATAATTATACCAGAAAAAACAGGAGAATTGGTATTTCCTGGAATAGAAATACCATATTTTAATCCAACTAGTGGGAAATATGAAATAGCAAAAGTTAAAAGTTTTAAAATAAAAGTGACTGGCACAATGAAACAAAATAATATAGCAAATTCATACAATAATAATCAAGAAGAGTTAAATATATCAACATTACCAGTTAATAATGTAATTACTAAAGAAGGTAATAATAATTATTTCGTAATAAAAATAAATAAAATTTTAGCATATATAATAATAGTGGTTATTTTTGTTTTGTTAATATTGTTAATAGTTATAATTATATTAAATAGAACAAAAGATAATATAAATAGTAAAATGAGAAAATGTAAAACTGTAGATGAGGTATATGACCTTTTTGCTGATGTTTTAAAAGATAAATATGCAATTAATATAAAAGCATTTAGTATGAAATCGTTAAAAGAAAAAATAAATGATGAGGATATAATAAAAATAATATCAAAATTTAATAATAAAGAGTATGAAGAAGTGAACGAAATAAAAAAAGATATAAAAATAATTTTAAAGAAAATTTAGATTTTAATAGTGTAGAAAAAGAGTTTTCCTGTTATGGGCGAGAAGACCTCGCCCATACAGTAGATTTATTATAATATTCCTCTATTTTTTACGATCAAAAGTATTATATTTTTTAATCTTTAAAATTGGCTCAGTAGTATATCCAGCAGGTTTTACTCTCCAGGCTTCTATAAGTCTAGCCCAATAGTTGACCTTGGCCGCTAGGGTTGAGATCAATGTCATCAAGCTAAGGGGAATTAATGCAAATCAAAAGACCAACTCCTTCCTTCTTAGCGTTTTCTCTTGGCTAAGAGAAAACTAAAGTGCAGAATATTGAGAAAAAAGCATTAAAAAAGCCAAATATCCACGCTATAGGTTTCTCTTAGATAAGAGAAACCGACAACAAGGGAGGAGTAGAGTTTTTATAAAATCCTTAGCTTGATGACATTGGGGTTGAGATAGCTACAATTTCCTCTGGTGAGAATAATCGGCGAACATCCCCTAAAAGTTTACCATCAAAACTTACTGGAGTTTTAGACAAAGCACGAGAGTATCTTAATGCTGTTAATTCTCTTTTGGAAAAGCTACTAATTTTGCTTAATTTCTTTTTACACTGCAATCCTTGAATTTCTTCAGGAGTTATTTTATAATCTTTATATTGCCACGAATTTACATCAATGGCAAAAGGGCAAGAAACATAATATGACACCTGCATACGTATAAGATAAATCAAACGAGGCTTTAAAATTTTAGCAGCTCCTTTTTCAATATACATTTCAAGAACTCCAGAAGCTACTCCTAAATCAGTTGACCAAGTAAGAATTCTTCCTGGTAAAAGCTCTTTTCCAAATTTTTTTTCAGCTTTATTAAGTAGTGTTTTAGAAAAATAAGAGATCTTTTCTGGTGGATTGATTAAACTTTTCATGGATTTATCCACTTCGTATGTCCATGATTTTTTTCCTCTGGGTAAAGGGTCAATAACATCTGCAGGTTGAAAGTGCTTTTTAGTAGTTGTGCAACTGTTTAATAAAAACAGTTCTAGAATAATAAAAATTGATGAAATAATTTTTTTCATGATTAACCTCCTTTTTTTATGGTATCATGTGGATTTTATATAAGGCTTTTCAAATTTAGATAGTGTGAAATTTTGCTATTCCTTATATTATACCATCGGAATTAAGCATCTGTCAATTATACCCTAGGGAAGTTTCAGTTATTATTTACAAAAAAGAGTAATTGTGATATAATATTTCATAATTCAAAATTTGGAGGTATAGATTTGGACTTAGTCAAAATAGTAGAGAAAGAACTTAATTTAAATCATTTTCAGGTGGAAAATACTTTGAAATTATCTGATGATGGAGCTACAGTTCCATTTATTGCTAGATATAGAAAAGAGATGACTGGAAATCTAAATGAAGAACAAATTAGAGATGTGCTAGATAGAATAAATTATCTTAGAAATTTAGAAAAAAGAAAAGAAGAAGTATTAGTAACTATAGAGGAGCAAGGGAAATTAACAGAAGAATTAAAAACTAAAATAGTAAAAGCTATAAAGCTACAAGAAGTTGAAGATTTATATCTTCCGTATAAAAAGAAAAGGAAAACAAAAGCAGATATAGCTAAAGAACGTGGATTAGAGCCATTAGCTATATTTATGCAAAGAAAAGATATAAATATTAAAGATATAAATTCAGAATCTGAAAAATATATTAATGAAGAGATAACAACAATAGAAGAAGCATTAGACGGAGCAAAACTGATAATTGCACAAGAGATATCTGAAAATATAAAATATAGAGAATTTATTAGAGATTTAATGAGTAAAAAAGGAAAAATAATATCTTCTGTTATAGAGAAAAATAGAGAAAAAGATGAAAAAGGTGTTTATCAAGATTATTATGATTATAGTGAAAATGTAAAATATATCCCTTCACATAGAATTATGGCTGTAAATAGAGGAGAAAAAGAAAAAATAATTAGAGTAGCAATAAAATTTGATGATATATCAAGAGATAGAATTTTAAATTTCATTTTATATAATTATAAAAATATTAATTTAAAAAACTTATATGTTGATATTATAAACGATAGTTTAGATAGATTGATATTACCATCAATAGAAAGAGAAGTTAGAAATATTTTAACAGAGCAAGGAGAAAATGATTCTATAAAGATATTTCAAAAGAATTTAAAAAATTTATTAATGCAGCCGCCAATTTATGAAAAAAATATTTTAGGAATAGATCCAGGATATAGAACAGGTTGTAAAATAGTAGTAATAAATAAATTGGGATTTTTCATAAAAAGTGATGTGGTATATTTAGTTAGTGGAGATAAAAAATTAATAGAAGCAAAAGAAAAAATAAAAAAATTAATATTAGAGAATGATATTGATTTGGTTGTAATAGGAAATGGGACAGGTTCTAGAGAAACAGAAAAGCTTACTGCTGAAATTATAAGTGAAAATGATTTTGGTAAAAAAGTATATTATGTAATAGCAAATGAAGCAGGTGCTTCTGTTTATTCAGCATCTAAATTAGCAAAAGAGGAATTTCCTGATCTAGATGTTACAGAAAGAGGCGGGATTTCCATTGCAAGAAGAGTACAAGATCCATTAGCAGAATTAGTAAAAATTGATTCAAAATCAATTGGAGTAGGGATGTATCAACATGATGTAAATCAGAAAAAATTAGGAATAGCATTAGAAAATACAGTTGAAAGCGTAGTTAATGATATTGGAGTAAATTTAAATACAGCATCTTGGGCTTTGCTTAGTTTTGTTTCTGGTATTAATAAAAAAGTAGCTAAAAATATAATGGAATATAGAAATGAAAATGGAAAATTTAAGAGCAGAAAAGAGCTGAAAAAAGTAAAAGGATTAGGAGAAAAGGCATATACATTAGCAGCAGGATTTATAGTTGTACCAGAGAGTAAAAATGTTTTAGATAATACAATAATTCATCCAGAGTCATATAGTATTGCAGAAGAGATATTAAAAGATATTGATTCAAATTTAAAGGAATTCAAAAATAATACAGAGGAAGTTATAAGTAAATTAAGATCATTTGATATTAAAGGATTTATTGATAAAACTAATTATGGAGAAGAGACAGTAAAAGATATATATGCTTCGCTATTAAAGCCTAAAAGAGATCCTAGAGAAAATTTACCACAACCTCTATTAAAAGAGAATATTTTAAAAATGAGTGATCTAAAAGAGGGAATGGAATTAGAAGGAACAGTTAGAAATGTAGTTAAATTTGGCGCTTTTATAGATATAGGTTTGAAAAATGATGCATTATTGCACGTTTCAGAGATGGGAAAGAAATTTATTCAAGATGCGACATTAGAATTAGAAGTAGGAGATATTGTAAAAGTAAAAATAAAAGAATTAGATGAAAAAAGAGGAAGGGTTTCACTTACAATGAAAGGATAGGGGTCTATATGAAAAAAAAGCTCCAACTAGATTCACTTTTATTTAGGTTGTTGTCGTCAGTAAATTTAATTATAGTAATAATGGCAGTATCTATTATTATGTTATTTTTACAAACAGTTTTTTATCAACAAGAGAAAAATTTACAAAAAGAAACAGATAATTTAACAAATGGAGTAAAAATAGCATACAAAACAATAGAAAACAATTTAGAAAAAAATGTTATGTTAGCCTCACAAGCACAAGAAACATTAAGATTATTAAGAGATGGCACAGTTTTAAAAAATACATTCCCGCATTATAATAAAGAAAAAGGGACTTATTCATATACATACAAAAATATAAAAGAAGGAAACTCAAAAATTTATTTAATTAGAATGTTATCTTTTTTAAAAAATGAATTATACCAAACTCATTCTAAAGAAGATTTAAATACAATTTTATCTTTTGTAAATACAAATGGAGATGTTGAAGCTGAAATAAGAAATAGCTATTTAGGAATAGATTATTCATTAAAGGATAATAAAACATTTTTAAAAAGTTTTTTACTGAAAAGTAGAGAAAAATATTCAAATAAAAGAATGAATTTAACAGGGATAGATTATATAAAATCTCAAAATAGGTTTGTGATGCGTTCTGGAGCATTAATTGGAATAAACTATTATCATTCAGATATTTTAGGATTAGTTATAAGCAATGTTATAAATTATGATTTTTTAGAAGATATAAGGAATAGAGTCGCAAGTAAAAATAATTTCAAATTATTTATATTAAAAGATAATAAATATCTTTTTGGGGATTTTAATTTAAAGAAAGGATATGCTATTCTTTCACAGGATGAAGTTAAAGAGCATAAAAAAAATCCTCAACAAAATTTATTGGAAAATAAAATAATAGAAAAAAATAAATATGAAATAGGATATACTCCGCTATTTAATATTTCAGGAGATACAATTGGATTTATAGGAGTTGCAGTATCAAAAGAATCAATAATAGACTCTAAAATGAGGATTTTGAATTATATTATTGGATTAGGAATTATTTTTATAATAGTGACTTCATTAATTTTAGGAGCTTATATATATAAAATGATAAATCCGTTAATAGAAATGGCAGATATTTCTCAAAAAATTGCAAAAGGGGATTTTTCAAAAAGAATTAATATTAGAAATCTTAAAGGCGAGATAAAAATTTTGGGGAAATCCTATAATACAATGGTAGAACATCTTAATATTGCAATATTAAAATTAGAAGAACAAAATAAAAAGATTTTAGATACTGTGAAAAAATTAAAAGTAATAGAAAAAACATCTTCATTAATACATATAGAAAAAGATTTTTTTAAAGCTTTATATTATTTAACGACTACTTTAACTTCTGAAATTGGTCTTAGTTATAGTAGGGCAATTTATTTAGAATACAATGAAAATAAAAATGAATTTGTAGGAAAATTTTCATCGCTAAGTTTAAAACTTATTAATGAAGAATACAATAAAAAGATAGATGATGTAGATGAATTAATTTCTCAAGTTAAAAAAATGCCTAAAATAACAAATGATATGTTAGATGAAATAGCCAAATTTATAAAGATACCTTTTAATGAAAACAATTTAATAACACAGGCAATAAAGAGCAAAGAGATAGTTTATTTTAATGATAAAGCAGAAGCTCATAATCTGGGCTCAGATTTTATAAACACATTAGGAATAGAAAGATTTGCATTAGTTCCAATAGCTTATGAAAATAATATTTATGGAATTATTATAGTAGATAATTTTTCTAATGATAGATTAATAGAAAAAGATGATATTGATATATTAAAAATATTTATTAATACAATATCTATATATTTAGAAAAACAAAAACTTGAAAAAATGAGTTTGAAAAATGAGAGAGTTTATGCAATAGGGAAATTAGCAAGCTCTATAGTACATGAAATAAGGACGCCACTGGTTGGCATAAAAGGCTTTGCAGATATAATATTGAAAAAGTATAAAGGTGATACAAAAATAGAATATTATATGAATATAATAAAAAGTGAAGTTACACGATTAGATGAGTTATCAACAATGTTATTAGATTATTCTAAAAATAAAAAATATATATTTACTAAAAATAACTTAAAAGTTGTATTAGAGGAATCAATTTTAAATTTTAAAAAAGTAATAAAAAGTAATAATATAAAATTAGAATTAGATATTAGTAAAGATATTATATTTAATTTTGATAGAAATAGATTAAAACAAGTTTTTTTAAATTTAATAAAAAATAGTATAGAAGCTATTGCAGGAAATGATGGAATAATTAAAATAAAAACTAAAAAACTTGGAAAAATAGTTGAAGTAACATTTGAGGATAATGGAGTAGGAATTCCAGCTGAAAAGTTAGAAAGAATTTTTGAACCATTTGTAACAAATAAGGTACAAGGAACAGGTCTTGGATTAGCAATAGTATCAGATATAGTACAATCACATAATGGAAAAATAACAATTGAATCTGAAGAAGGAAAAGGAACAAAATTTATATTAATTTTTGAAATATACGAAGGAGGTAACAATAATAATGGATAAAAAAGATTATGGAAGTACACTAAATTTGCCGAAAACAGGATTTAAAATGAAAGCAAATTTACCTCATAAAGAGCCGGAGATATTAAAGTATTGGGAGAATGAAAAAATTTATGAAAAAAGTTTAGAAGGTAAGGAATTGGAATTCATATTACACGATGGGCCTCCATATGCTAATGGGAATATTCATATAGGTCATGCACTAAATAAAATTTTAAAAGATATTATTTTGAAATATAAAAGATTAAGAGGATATAAAGCTCCATATGTTCCTGGATGGGATACTCATGGATTGCCAATAGAATTACAAGTAACTAAAAAATTAGGGTCAAAAGTAAAAGATATGTCAGAATTAGAAATAAGAGATAAATGTAAAGATCACGCTCTTAAATTTGTAGATAAACAAAAAGAAGATTTCAAAAGATTAGGAGTGTTAGGAGAATGGGATGATCCATATTTAACTTTAAATCCTAAATTTGAAGCAAAACAATTAGAGGTATTTGCTGATCTATATGAAAATAATTATATATTTAAAGGATTAAAACCTATACATTGGTGTCCTAGTTGTCAAACAGCATTAGCAGAAGCGGAGATAGAATATCAAGATATTGGTTCTCCATCTATTTATGTAAAATTTGAAGTAAAAGATGATTTAAACAGCAAATTTAATTTAGGATTATCAGAAGATGAAAAAGTATCAGTAGTTATATGGACTACAACTCCTTGGACATTACCAGGTAATATTGCAATATCGATACATCCTAGATTTGAATATGTTTTTGTAAAAACTTCAAAAGGTATTTTAATATTAGCAAAAGGTATGTTAGAACAATCAATGGCAGAAATGGAAATAAGCGACTATGAAATTATAAAAGAGGTAATTGGAAGTGAACTGGAATATGTAAAATGTGCACATCCATTTTTAGGAAGAGACTCTTTAGTAATATTAGGAGAACATGTAACATTAGAAGCTGGTACAGGTTGTGTACATACTGCTCCTGGACATGGACAAGATGATTATGTAGTTGGTACGAAATATAAATTGCCAATAATATCACCTATAACAAATAAAGGAGTTTTAACTGAAGATGCTGGAGAATTTGCAGGGCTTTATTATTCAAAAGCAAATGTGGCAATAATAGAGCATTTAGAAAAAACAGGGCATTTATTAAAAACAAAAGAGATTGAACATTCATATCCACATTGTTGGAGATGTAAAAATCCTGTAATATTTAGGGCAACAGAACAATGGTTTGTAAAAGTTGAAGATAGTGATTTAAGAGAAAAAGCTTTAAAAGCTTTAGATGATGTAGAATTTATCCCAGAATGGGGAAGAAATAGAATTACTTCAATGGTAGAAGGAAGACCTGACTGGTGTATCTCAAGACAAAGAATTTGGGGAGTTCCAATTCCAGCATTTTATTGCGAATCTTGTAATGAAGAGATTGTATCAAAAGAAACAGTCTTAAAAGTAGCTGAAAAAGTAAAAGAAGAGGGAACTAATGCTTGGATAAAATATACTCCTGAAGAACTATTAGGAGATTTAGCTAAATGTCCTAAATGTGGTGGAACACATTTGAGAAAAGAGAGCAATATTATGGATGTTTGGTTTGATTCTGGATCAAGTCATAGAGCGGTATTAGAAGTTAGAGATAATTTAAAATGGCCTGCTGATCTATATTTAGAAGGAAGTGACCAACATAGAGGATGGTTCCAAACTTCATTATTGACTTCTGTTGGGACAAAAGGCGCTGCACCATATAAAAAAGTTCTTACTCATGGATTTGTAAACGATGGAAAAGGGCTGAAAATGAGTAAATCAACAGGTAATGTTGTTGCACCACAGGAAATAATTAATAAATATGGCTCTGATATATTGAGATTATGGTGTGCTTCAGTTGATTATAGAGATGATGTTAGAATCTCTGATAATATATTAAAACAAATGGCAGAATCTTATAGAAGAATTAGAAATACTGCAAGATATATTTTAGGAAATATTAATGATTTTGAGCCTAGTACAGATAAAGTTGAATATTCTAATATGCCAGAAATCGATAAATGGGCATTGAATAAACTTGAAAGATTAAAAAGAAAAGTTACAGAAAATTATGAAAAATATGAATTTTATAATTTATTTTATGACATTCATTATTTTGCATCAGTATATATGAGCTCGTTCTATTTAGATATATTAAAAGATAGATTGTATGTATCATCTAAAAATTCAGAAGCAAGAAGAGCAGCTCAAACAGTGATGTTTGAAATATTAACTACATTAACTAAATTGATTTCTCCTGTATTAACATTTACAGCAGAAGAAATCTGGAAAATATTGCCAGAAAATCTTAAAGAAAAAGAGAGTATATTACTTGAAGATTGGATTACAGAAAATGATATATATTTAAATGATGAACTAGATGAAAAATGGGAAAAATTAATAGAATTAAGAGGAAGTGTAAATAAAGTATTAGAAGCAGCAAGAAGAGATAAAGTAATAGGACATTCACTTAATGCAGAAGTTATACTATATAGTGATGATGAAAAATATAAAGAACTTCTAAAAGAAAATTATGATAGATTAGAAGATATATTTATAGTTTCAAAGGTTACTATAGTAGAATCAAAAATTGAAGGAATGACAAAAACAGAAGAAATAGAAAATTTATATGTTAAAGCAGATAAAGCCCCAGGAGAGAAATGTGAAAGATGTTGGAAATATTCTGAAGAATTAGGAAAAGATGAAGAACATCCAACGTTATGTCCAAGATGTACAGATGTTATTAATGAAGGGTAATTCATTAGACAGGTAAAATTGTTTTTAGAGTAAGGGCAATTCATGAATTGCCCCTACTTGAGATAATGCAATTAATAGAATAGAATTAATTAAAAAATATAAAATATAGAAGGTGAAAAATGATTGTAAATGTTATTTTTATAATTTTAGCAGTATTATTAGATCAAATTACAAAATTTTTTGTTTTAACAAAAATGAAACCTGGAGAGTCTATTCCGATTATTAAAAATTTTTTTCACATAACATTTGTACAAAATAAAGGAGTAGCTTTTGGAATGCTTTATGGACATGTAGGGGTTTTGGTTTTTGTTGGATTAATTGCAATTGTTGGAATTATATTATATTTTCATAAAAAAGGTGAAGAATATTCTATACTTTCAAGGATAGGTTTTATATTCATAATGAGTGGAGCTATTGGGAATTTTATAGATAGAGTATTTAGAGGCTTTGTAATAGATTTTATTGATTTTAGAGGTATATGGGTCTATATATTTAATTTAGCAGATGTATGGATAAATATTGGAGTATTTTTTATATTAATAGAATATTTTTTCGAAAAAGAAAAAGCAGAGAAGGAGGAAAGTAAATGACTTTTCAAGAAATGATACTTGCTCTTCAAAAATATTGGAATAGCCAAGGATGTATAATTGGGAATCCATATGATATAGAAACAGGAGCAGGAACTTTTAATCCAAATACATTTTTAATGTCACTTGGACCAGAACCATGGAATGCAGCATATGTAGAACCTTCACGTAGACCAAAAGATGGAAGATATGGTGAAAATCCAAATAGGGTTTATCAACATCATCAATTTCAAGTAATAATGAAGCCGTCGCCAGATAATATTCAAGATTTATATTTAGAAAGTTTAAGAGTATTAGGGATTGTTCCAGAAGAACATGATATTAGATTTGTGGAAGATGACTGGGAATCGCCAACATTAGGAGCTTGGGGACTTGGATGGGAAGTATGGTTAGATGGAATGGAAATAACTCAATTTACATATTTTCAACAAGTTGGAGGATTAGAATTAGATTTAATTCCAGTAGAAATTACATACGGTTTAGAAAGGCTAGCTTTATATATTCAAGAAAAAGATAGTGTTTATGATCTTTTGTGGACAGACAATGTGAAATATGGAGATATGAGATTTCAAAGTGAACTTGAATTTTCAAGATATAGTTTTGAAGTTGCAACTTTAGAATCACATTTTAAATGGTTTGATATGTATGAAGAGGAAGCTTTAAAATGTTTAGATAATAGTTTAGTATTACCAGCATATGATTATGTTTTAAAATGTTCGCATGCTTTTAACGTGCTAGACTCGAGAGGGGCAATTAGTACAACTGAAAGAATGAGCTATATTCTAAAAGTTAGAAATTTAGCAAAAAGATGTGCTGAAATTTTTGTAGAAGAAAGGGAAAAATTAGGTCATCCTCTTTTAGGAACGGATTAAAAATAACCTTATAATTTTATTAGAAATATAAGAACTTATTTTTTAAACGTTCTAAAAAAATAGTAATTGCCATGAAAGGAGAGAAAACAGTTGGAAATTTTATTAGAAATTGGAGTGGAAGAATTACCAGCAAGATTTTTACAACCAGCATTAAAAAATTTAAAAAATATATTGCAAAAAGATTTAAAAAATTCAAGAATAAAATTTGAAGAGATATTAACATATGGAACGCCAAGAAGATTAATTTTAAATGTAAAAGGTGTTTCTGATATGCAAGAAGATTTAAGTGGAACAAGTATAGGACCGTCAAAAAAAGTTGCATATGATAATTTAGGTGAACCAACAAAAGCAGCAATTGGATTTGCTAAATCACAAGGAATAGATATAATTGATTTACAAATTGTAAAAACTGAAAAAGGTGAATATATTGCAGCTCAAAAATTTGAAAAAGGAAAAAGTACATTAGAGCTTTTACCAGAAATACTAAAAAATACAATACTTAATTTGAATTTTTCAAAATCTATGAGATGGGGAGAAAAAAAATTAAAATTTGCCAGACCTTTAAGATGGATATTGGCATTAGCTGATTCAAAGCTTATAAATTTTGAAATTGAAAATATAAAAACTGAAAAACTAAGTTATGGTCATAGATTTTTTGGAGCAAAATCTTTTGAAGTGGAAGATATACAAGATTATTTTAACAAATTAGAAGAAAATTATGTTATTTATGATATAGAAAAAAGAAAAAACAAAATTTTAGAAAGTATAAAAGATAAATGTTCTACTGTAGGAGAAAAAGTTTTAATTGATGATGAACTATTAAATGAAGTTACAAATTTAATAGAATATCCATATCCAATAATAGGAACATTTAATGCAGAATTTTTAGAAGTTCCACAAGAAGTTTTGATTATAACAATGCAAACTCATCAAAGATATTTTCCTGTATTGGATAATGAAGGGAAATTATTACCTAAGTTTGTATTAATTCGTAATGGAATAGAAAATTCTGAGAATGTAAAAAAAGGTAATGAAAAAGTTTTAAGTGCAAGATTGTCTGATGCGAGATTTTTCTATTATGAAGACTTGAAAAAATCATTAGATGAAAATGTAGAGAAATTAAAAACAGTTGTTTTTCAAAAAGATTTAGGAACAATTTATGATAAAATAGAAAGAACTGAAGAGATAGCAGAACAACTGATAAAAGCATTAAATATTGATGATAAAAAAAGTGATATATTAAGAACTATTCATTTAGCAAAATCTGATTTAGTTACTAATATGATTTCTGAAAAAGAATATACAAAACTTCAGGGATTTATGGGAATGAAATATGCAGAGAAAGCTGGAGAAAAAGATACAGTAGCGAAAGGTATATTTGAGCATTATTTACCAAGATATCAAGGAGATATTCTTCCTGAAACTACTGAAGGAATTATTGCATCTATTTCAGATAAGATTGATACAATAGTTGGGTGCTTTGGAGTAGGTCTTATACCAAGTGGATCACAAGATCCTTATGCATTAAGAAGAGCAGCACTGGGGATTGTAAACATAATATTAAATAGCAATTTGAATATCTCTATTTTAGATATTATAAATACTTCTTTAAATATATATGAAGAGAAAAATATATTAAAATCAGATAAAAAAGAGATTTTTGAAAATTTAAAAGGATTTTTTAAAAATAGAGTTATAAATGTACTAGTAGATATGGGATATAGAAAGGATATTGTCACATCAGTTGTAGAAATTGATTTTGATAATATTTATGAAACAAAAGAAAAAATAGAAGTTTTAACGAAAGTTTCAAAAGAAGAGGATTTTGAAGATATAGTTCTTTTGATAAAAAGAGTTAAAAATATATTAAAAGATTTTAAAATTGTAGATATTTCAACTGAACTTTTTGAAAAAGAAGAAGAAAAGGAGTTATATGATTTCGCAATATCTTTAGAAGAGAGAAATAGAACAAATTTAATAGATAAAAATTATGAAAAATATTTTATGGATATTCTTTCTGGGAAAAATATAATAAACAATTATTTTGATAATGTAATGGTTATGGATAAAAAAGAAGATATAAAAAACAATAGAATATCATTGTTAAAAAAATTAGATGATTTGTTTAGTAAAGTTGCACAAATTAAAGATATAAATTAACTATAAAAAGTAGAAACAGAGAAAGCTAAAGTTTTCTCTGTTTTTACTTTTTGTATAAAGATATAAACTTATTATATATAGGCTATAATTAGAAAAGCCCTGATATACTTGTAAAAAACAAGAAATTTTGATATAATATAAGTATCAAAATGAAGAGGTGTTTATATAATGAGTATATTGGATGGATTGAATGAAGAGCAACGAATGGCAGCAGAAACATTAGATGGACCTGTTTTGATTTTAGCAGGAGCAGGAAGTGGAAAAACTAGGACAATAACATATAGAGTTGCACATATGATAAAAGAAAAAAATATATCTCCATATGATATTCTAGCGGTAACATTTACTAATAAAGCAGCAAAAGAGATGCGAGAAAGGGTAGAATCTTTAGTTGGAGAAGATTCTGGAAAAATTCAAATTTCGACATTTCATGCTTTTGGTGTGAAATTACTTAGAATTTATGGAAAACACGTTGGATATGATAGCAATTTTAATATTTATGATTCTGATGATCAAAAGAGAGTTATAAAAAGTATATTAAAGAAATTAAATATGGATAACGATGGATTGAAACCATCAGCAATATTATCTAAAATATCAAAATTAAAAGAAGAAGGGATATTCCCTTTAGAATATGAAAAAATGGCAATTGATTATTATAGTAAAAAAATATTATCAATTTATATAGAATATCAAAAAGCATTAAAAGAAAATAACGCATTTGATTTTTCTGATATCTTGGTATACACAAATGAGTTATTAAATAACAAAGAAATATTAGAAAAATTGCAAAATAGATACAAATATATTATGGTAGATGAATATCAAGATACAAATAAAACACAATATAATATTATAACAAAAATTGCTGCTAAAAATAAAAATTTATGCGTAGTTGGAGATGAAGATCAAAGCATTTATGGATTTAGAGGAGCAGACATAAGAAATATATTAAATTTTGAAAAGGATTATAAAGACGCAACAGTTATTAAGTTAGAAAAAAATTATAGATCTACAAATATAATATTAAGTACTGCAAATGCTTTAATAAAAAATAATGAAACTTCAAGAGGAAAAAACCTTTGGACAGATAGAGAAGGCGGAGAATTAATTTCTGTATATGAAGCAGAAACTGCAGGAGAAGAAGCATATCATGTATCTAATGAAATAAAAAAAATAGTTGATGTGGTAGGTGGATATAAAAATATTGCAATATTATATAGAACAAATGCTCAATCAAGACTATTTGAAGAATCATTTATAAAAGCTAAAATACCATATAAAATTTTTGGTGGAGTTCAATTTTATCAAAGAAAAGAGATAAAAGATATAATATCTTATTTGAATGTGGTAAATAATACAGCTGACAATTTTAGTATTAGAAGAATTATAAATGTTCCTTCAAGAGGTATTGGAGAAAAAACAATTAAAAGATTGGAAGAATATAGAGAAGATATGAATGTACCTCTATTTTATGCAATAAAAAATGTGGATAATATTTCAACAATAACTCCAAAAGCAAGAATTGCATTAAAAAAACTTTATTCTATATTCGAAGATTTAATAAATTTATCTAAAGAAGAGACAGTTACTGATTTAATAGATACTTTATTAGAAAGAACAAAAATTTTAGATACTTTTAAATTAAATAATGAAGATGAAAGAGTTAAAAATATATATGAATTAAGAAATGGTATTCAAGAATTAGAAAAAGAAAATGGATATATTGGATTAGGAGATTATCTTGAAAATATAGCGTTGTCTGCAAATACAGATAATATGGATGAAAGTGATGACTATGTCAAATTAATGACTGTACACAATTCAAAAGGGTTAGAGTTCCCTGTTATCTTTATGGTTGGGGCAGAGGAAGAACTATTTCCATCTTTAAGAGAAAATACAGAAGAAGAGCTAGAAGAGGAAAGAAGGCTTTGTTATGTGGCAGTAACTAGAGCAAAAGATAGATTATATATAACTTACTCTAGGACAAGAGCCACTTTTGGAAATTCAAGCTTTATGAGAGTTCCATCTAGATTTATAGGAGAAATGCCAGAGAAAAATCTAAATAATGAAAAAGTATATATGAATTCTAATGGATATAAAAATGATAGTACAAAAGTTGCTTCTGAATTAAATGCTAAGATAGAAAAGAATAAGAAAAAGAAGAAAAAATTTAAAGGTGATTATGCTGTTGGAGATTACGTTATTCATAAAAAATTTGGAGAAGGAAAAGTAAAAGGAATAGATATAAATAGAGTTGATATATATTTTCCAGGACATGGAGATAAGAAATTTCCAACAAAAATAGCTTCCAAATTTTTATCAAAATCTTAGGAGGTAATATGGGGAATAAAAGAAAAACTATAATGAAAGAAGTTAAATATGAAGGGATAGGTCTTCATAAAGGGCAAAATATAAAATTAAGACTTTTGCCAGCAGAATCTAAATCTGGAATTATTTTCAGAAGAGTTGATGTAGAAAAAGATAATGAAATTGAATTAAAATTAGAAAATGTATTTAATCCCACAAGAGGAACAAATATTATAAATAAAAAAGGAGTGGCTGTATATACAATTGAGCATTTTTTATCAGCATTATATGTCTATGGAATAACAGATATTTTTGTGGAAATAGATGGGAATGAAATGCCAATAGGAGATGGAAGTGCATTTCCTTTTATAGAGCTAGTAGATATTGCTGGAATAAAGGAATATAATGAAGATGCGGAAGTGATAGAAATATTAGAACCGGTATATATTGCAGAAGAAGATAAATATATAGTAGGATTGCCACATGGAGATTATAAAATAACTTATGCAGTAAATTATAATCATAGTTATCTGAAATCTCAATTAGTTGAATTTGAGATAAATAAAGAAACTTTTAAAAATGATATTGCAAGAGCCAGAACTTTTGGATTTGATTATGAACTTGAGTATTTGAAATCAAATAATTTAGCATTAGGTGGGACTTTAGAAAATGCAATAGTTGTAACTAATGATGGAGTCTTAAATCCAGAAGGGTTAAGATTTGAAGATGAATTTGTTAGACATAAAGTCTTAGATTTAGTAGGAGATTTAAAAATATTAAATAAAACAATAAAAGGACATATAATAGCAATAAAAGCAGGACATGCTTTAGATATGAAATTTGCTAAAAAACTTTCAAATATAATAGGAGGAGATACAAAATGATGGATGTTATGGAAATAATGGAGGTTTTGCCTCACAGATACCCTTTTTTATTAGTAGATAGGGTATTGGAAGTAGTACCAAATGAAAAAATTATTGCAATAAAAAATGTTACTATTAACGAAGGGTTTTTCCAAGGACATTTTCCTGGTCATCCAATAATGCCTGGAGTGTTAATAGTAGAAGCAATGGCTCAAGCAACAGGAGCTTTAATGATGGAAAAAGGTTCAGATAAAGTTCCTTATTTTATGGCTATTGAAAATGCAAAATTTAGAGCACCAGTAAGACCGGGGGATCAATTAAGATTTGAATGCTCTATAATAAAGGTGAAAGGAAAAATATTGAAAGCAAAAGGAATAGCTACAGTTGATGGGAAAAAAGCAGCGGAAGCAACTTTAATGTTTTCAATAATGGATAAGTAGGTGATATAAATGAGAATACATCCAACGGCAATAATTGCCAAGAATGCTAAAATAGATGAAAGCGTAAGTGTAGGAGCATATAGTGTTATTGGTGATAGCGTTGTAATAAAAAAAGGAACTAAAATTTCAGAACATGTTGTTATCTCAGGAGATACTTTAATTGGAGAAAATAATGAAATTTTTCCTTTTGCCTCAATTGGGCAAGCTCCACAAGATTTAAAATATGATGGAGAAAATACTAAATTAATTATAGGAAATAATAATAAAATAAGAGAATTTGTAACTATTAACAAAGGAACTATTGCATCAGGAAAAACAGTTATTGGAGATAATAATCTGTTTATGGCATATGTTCATATTGCTCATGACTGTATTGTTGGAAATAATTGTATTTTTGCAAATGCTGCTACGTTAGGCGGCCATGCTGAAATTGATGATTATGTGGTTATAGGTGGTCTAAGTGGAGTTCATCAATTTGTAAAAATAGGTGCAAATGTTATGATCGGAGCTACTTCAGCAATAGTAAAAGATGTTTTACCATATGTAACAATAAAAGGTAGTGAAAATCCAAAAATTAGAGGTTTAAATTTAATTGGATTGAAAAGAAGAGGAATTAGTAATGAAGATATAAAGAGTATAAAAGAAGCTTATAAAATGATTTATATGGGTAAAAAAACTTTGAAAGATTTATTAGTTGAATTAGAAGAAAAATATGAAGGAAATGAATATATAAAATATCTAATAAATTTTGCGAGAAAATCAGAAAGGGGAATTTATAGATAATGGAAAAAATAGGAATTTTAGTAGGAAATGGAAATCTACCATATTTTTTTTATAAAGCTGCAATTAAATCTGGATATGATGTGTATCCAATTGGATTATTTGATAGTGTAAGTTCTAAATTAAAAAAAGCCCCTAATTATATTCAAATTAATATAGGAGAATTAGGGAAATTATTAAGTTATCTGTTATTAAATAAAGTAGATAAATTGATAATGCTTGGTAAAGTTGAAAAAAGTATAATTTATCAAGATTTAAAATTAGATGAAATGTTTCAAAATTTAATTTCAAAATTACCTGACAGAAAAGATGAAACACTTGTATTTGGAATTATGGCTATATTAAAAGAAAATGGTATTGATATTTTGCCACAAAATTTTTTATTAAATCATTTTGTAGCAGAAGAAAAACAATATACAACTTTAGGTATAGAAAATGAAGATGATAAAAAAAGCATTGAAATAGGAATAGAAGCTGCTAAAACATTGGGGAAACTTGATGTAGGGCAAACAGTTGTTGTGAATAAAAAAGCTGTAGTAGCTCTTGAAGCAATAGAAGGAACTGATGAGACAATAAAAAGAGCTGGAGTCTTCTCTGGAAATAATTGTATAATAGTAAAAACTTCTAGACCACAACAAGATATGAGGGTAGATGTTCCTGCAATTGGTCTTAATACTCTTGAAGAAGCTATAAAAATAAAAGCAAAAGGTATTGTGATAGAAGCTGGGAAAGTGTTAATTTTAGATAAAGAGAAATTAATAAAAAAGGCTAATGAAAATAATATGTTTATAGTAGGAGTTGTTATTTAATGAATTTTTTTGTATCAGCAGGAGAAATTTCTGGAGATATTCATTTATCATATTTGGTAGAAGAGATAAAAAAAATTAATTTAAATACTAAATTTTATGGAATGTGTGGAAAATATTCTGAAAAAGTTGGAGTAAATATTGTCGAGAATATCGACAATATTTCTATTATGGGGTTTGTAGATGTAATTTTTAAATATAAAGAGTTAAAAAAAAGATTAAATAGATTTATAAATTTTATTGATGAAAATAATATTAAAAATATTATTTTAGTTGATTATGGTGGATTTAATTTAGCTCTCCTAAAGAAACTAAAAGAAAGAGAAAAATCAACAAAAAAAAAGTATAAAGTTTTTTATTATATTCCTCCTAAACTATGGGTTTGGGGAGAAAAAAGAATAAAAAAACTTAATTTAGCTGATTTTATATTATCTATTTTACCTTGGGAAGAGGAGTTTTATAAAAAACATAATAGAGAAATAGTATATTATGGGAATCCATTAGTAGATAAATTTAAATTTAATTATAATAAAAATGCTGATAAAATATTATTGTTACCAGGAAGTAGAAAGCAAGAAATTGTTTCTTTACTTCCTGAAATGCTAAAAATAGTAAAAATAAATAGTGAAAAAAAATTCATATTAAAATTGGCCAATAAAGAAAGTTTAGATTGGATAGAAATACCAAAATATGATAATTTAGAAATAGTTATAGATGTAACTTTAATGGATGTTAGCAGAGATATAAAATTTGCAATTGCTGCATCTGGAACAGTTACTTTAGAACTAGCTTTGATAGGGATTCCAACTATAGTTGGTTATAAAATATCTATTTTAAATGAAATTATAGCAAAACTATTAATAGATTATAAATATGTTTCATTGCCAAATATAACTTTAGATAAAGAAATTTTTCCAGAACTATTACAAAATAAATTTAATGTTAAAAATATAGAAAAAAGTATAGAATATATAGAAAATAATATAGAAAATATATTGGATGATTTAAAAAGTGTAAGAGAAAAATTAGGTAAAAGAGATATAGTAAAAAAATATGCTAAATTTATAATTGGAAAAATTGATTAGAATATGATTCTTATTTAGGAATGGATTAAAAATAATAAAATATAAGAAACTTATTTTTTAAACGTTCTTTAGGAATGATTGATTTTCTTTTTGTTGTTGTATGGCATTATTAACACATTATAAGATATGAGAAATTTATTTTTAAATATTTCTAAAAGGAGATAATATGAGAATAATTGAAACATCAAAAATAGTAGAAGAAGTTGAAAAATTATGTATAAATTCTAACTATTATTTAGGAGAGGATATAATTTTTAAATATAAAGAAGGAATAACAAAAGAAGAATCAGAAACTGGAAAAGAAATTTTCGAACAACTTTATGAAAATGCAAAGATAGCTAAAGATTTTAAAAAACCAATTTGTCAAGATACAGGAATGGCTGTAGTATTTGTTGAATTAGGCGAAGAAGTACATATTAATGGAAATTTAGAAACAGCTATAAATGAAGGTGTCGCAAAAGGATATAAAAAAGGATATTTGAGGAAATCGATTGTAAAAGACCCTCTTTTTAGAGAAAATACAAATGATAATACACCTGCAGTTATTCATATATCAATTGTAAAAGGTGATAAATTAAAAATAGTTGTAGCTCCTAAAGGTTTTGGAAGCGAAAATATGAGTCAAATAAAAATGTTTCCACCAGCAGCTGGAGTAGAAGGAATAAAAGAATTTGTATTAAAAGTAGTAGAAGAAGCTGGACCTAATCCATGCCCGCCAATTATAGTAGGAGTTGGAATTGGTGGAAATTTTGAACATAGTGCTTTGTTGGCTAAAAAAGCACTGTTAAGAAATATTGGGGACAGAAATAAGAATAGTTATTATTCAGAATTAGAAATTGAGTTATTAGAAAAAATTAACAGATTAGGAATTGGACCTCAAGGTTTTGGAGGGAAAATAACAGCATTAGACCTATTTATAGAAACATATCCTACGCATATCGCAGGAATGCCTGTGGCAGTTAATATTGGATGTCATGTAAATAGACATAAGGAAGTGTTAATATGAATGAAAAATCAGTAAAAAAAACGGTTAAATTAACTACACCATTAAAAAATGAAGATTTGGTAAATTTAAAAATTGGAGATAAAATTTTATTAACTGGAATTATTTATACTGGAAGAGATGCAGCACATCAAAAATTTATAGATACATTAAATAGAGGAGAAAAATTACCATTTGAAATAGAGGGCTCCGTGATATACTATGTAGGACCTGCGCCAGCAAAACCAGGTGAAGTAATAGGTTCTGCTGGACCAACTACAAGCTATAGAATGGATAAATTTGCACCTGAATTAATAAAATTAGGATTAAAAGGAATGATTGGAAAAGGAAAAAGAAGTAAAGAGGTCATTGAAGCTTGTAAAAAATATAAATCTGTTTATTTTGGAGCAACTGGTGGAGCAGCAGCATTAATTGCATCAAGAATAAAAAGCAGTAAAATTATTGCATATGAAGATCTAGGCCCTGAAGCAGTTAGAGAAATGTATGTGGAAGATTTTCCAATGATAGTAGTAAATAATACATCTGGGGAAGACTTATATGAGGAGGGAAAAAGGAAATGGAAGGAATTATGATAGAAAGAGATGACAAAAGAGCATTAAATGAATTGAGGAATATAAAAATAACAACAAATTATATAAAATATCCAGAAGGTTCTGTTTTGATTGAATGTGGAGATACAAAGGTTATATGTAATGCAACAGTAAATGATAAGGTGCCACCATTTTTAAGAGGAAAAGGGAAAGGATGGATTACAGCAGAATATTCTATGCTTCCTAGAGCGACTGGAACAAGAAATATGAGAGAATCTGCAAAAGGTAAACTTAGTGGAAGAACTATGGAAATACAAAGATTAATAGGAAGAGCTTTGAGAACAGGAATTGATTTGGATAAATTGGGCGAAAAAACGATTATAGTTGATTGTGATGTTATTCAAGCCGATGGGGGAACAAGAACCGCTTCTATAACTGGAGGGTATATTGCACTTGCACTTGCAATAGATAATCTTATGAAAAAAAATAGATTAAAAGAAAATCCTTTACTTGGAAATGTAGCAGCAATAAGTGTTGGAATAGTTAAAGGAGAACCTATGTTAGACCTTAAATATTCAGAAGATTCAGTTGCTGAGGTAGATATGAATGTGATTATGAATTCAAAAAATGAATTTGTAGAAGTGCAAGGAACTGGAGAAGAAGCAACTTTTGATAGAACTGAATTGAATAAAATGTTGGATTTGGCAGAAAAAGGGATTAAAGAATTAATAGATATACAAAATCAAGCTATTGGTGAGGGGATAAATGAAATATAAAATTTTTCTTGCAACTAAAAACAGAGGGAAAATAGATGAATTTAAAGATATTTTTAAAAAATATAATAATATAGAACTGTTATCAATGTTAGATGGATATGAATTTCATGATGTAATAGAAGATAAAGAGACTTTTGAAGAAAATAGTCAAAAAAAAGCATTGGAGATTGCAAAAGTTGTAAAAATGTTTGTGATATCAGACGATTCCGGACTTGAAGTTAAAGCTTTAGATGGAAGACCTGGAGTTTATTCAGCAAGATATTCAGGTGAAAATGCTACAGATGAAACAAATAATAAAAAGCTTTTGAAAGAGATGAAAGATAAAACAGAGCGAGAGGGGAAATATATTTCAGCAATAACAATTGCTTCTCCTAGTGGTAAATATAGAACATATGTAGGAGAAATAAAAGGAAAAATATTAGATAAAGAAGTTGGAAATAAAGGTTTTGGATATGATCCGCTATTTTATGTGGAAGAATATAAAAAAACTTTTGGAGAATTAGATGAAAAATTAAAAAATAATATTAGCCATAGAGCAAATGCTATGAAAAAACTTGATAAAGAAATTTTAGAATTTTTAAAGGCAGGTGAATAATTATGAAATATATTAGTACAAGAGGTAATTATAAAAAAGTGAACTCTGCAGAAGCTATAAAACTTGGGATGGTACCAGAAGGTGGACTTTTTGTGCCAGAAAGTATACCAAAATTAAATTTGGAAGATTTAAAAAATATTTCAAAAGAAAATTATCAAGAGATAGCAAAAAAAATATTATCTTTATTTTTGACAGATTTTGATTCTAAAGAAATTAGCGAAATTGTAAATAATTCATATGGTGAAAATTTTGATACAAAAGATGTCACTCCATTAGTAAAGATTAAAGATAATTTGTATATATTAGAGCTTTGGCATGGTCCAACAGCTGCATTTAAAGATATGGCACTTCAAATGTTGCCACATTTAATGCTAAAATCAAAAGAAAAAGTTGGAACAGACAAAACTACACTTATATTGGTGGCTACATCAGGGGATACAGGAAAAGCTGCTTTAGAAGGATTTAAAGATATAGATGGAATAGAGATAATAGTATTTTTCCCAGAAGAAGGTGTAAGCAAAGTTCAAGAATTACAAATGAGGACTACAACTGGAATAAATACAAAAGTTATTGGTATCAATGGTAATTTTGATGACTGTCAAACAGGAGTTAAAAATATTTTTTCGGATAAAATTTTAGCAACTGAGTTAGCTAAAAAAGGATATGAATTATCATCAGCTAATTCTATAAATTGGGGAAGACTTTTGCCACAAATAATATATTATTTTAAAGCATATTTTGAATTAGTAAATAACGATAAAATAAAAATTGGAGAAAAAGTAAATTTTTCTGTACCAACTGGAAATTTTGGAAATATATTAGCAGGATATTATGCTAAAGAGATTGGGCTACCTGTTAATAAATTTATATGTGCTTCAAATAAAAATAAAGTGTTATCAGATTTTATTAATACAGGAGAATATAATAAAAATAGAGATTTTTATAAAACTATGTCTCCTTCAATGGATATTCTAATATCATCTAATTTAGAAAGATTTTTATTTGAAATAACAGGACATAATTCAGAAAAAATTGATAATTGGTATAAAGAATTAAATAAAACTGGAAAATTTAATGTAGATGATGAAACTAAAAACAAAATAAATAAAATTATGGTTGCTGGATTCGCAAGTGAAGATGAAACAGAAGAAACTATATCTAAAATTTATTCTGAAACAAATTATTTGTTAGATACACATACAGCAGTTGGAGTTAAAGTGGTAAATAATTATAATTTAGATGGAAAAACAATAGTTGATTCTACAGCTAATCCGTATAAATTTACAGGAAATGTATTAAAAGCATTAACTGGAGAAAGTGAAAAAGATGAATTTGTAGCAATAGATAAACTAAATGAAAAAACAAAAGTAGAAATACATAGAGCGGTAAAAGGGTTAGATAAGAAAGAGATATTACATAATGAAACTATTAGAAAAGATGAGATGAAGGATGTAGTAGTGAAAAGTGTAAAATAAAATTAGGCGAAAAGAGCTCATTTCCAATGTGGTTAAGTATTGGATTTTGGTTTAGTGGCTTATAGACCTCATCCCCCAACCCCTTCTCCTAACTTAGGAGAAGGGGAGTTAAATAACAAAAAAGTCCTCTCCTAAGTTAGGAGAGGATTTAGGTGATGCCTGAAAATGGATAGAATTATATTAAAGAAGTGTTTTTGAAGAAATTATTTTCTTTGGAAACACTTTTTTTAATACAATTTTTTATCATGTGGTAAAAAAGTTTTTATTATTACTGTTGACAATTCGTTCAAAAAGAGGTACTATTTTAACATACCAAAATAGGGCGGTGATCGAAATGGATATATCGAAGAAAATATTAAATAGTATAAGTGAAGGAGTTTTTACAATAAATGATGAATGGAAAATAACTTCTTTTAATAAAGCAGCTGAAAAAATAACTGGTTATAAAAGAGAAGAAGTGATGGGAAAATATTGTAAAAATATATTTAAGAGTAATAAATGTAGTAAAGGTTGTCCTATGCTTGAAGTTATAGAGTATGATGAGCCAAAAGAAGAAAAAAGTGAAATGAATATAATTGACAAAGCAGGTAAAATAGTGCCAATAAGAGTTAAAAATTATTCTTTGAAAAATTCTGTTGGAGAAACCATTGGTGGAATTGAACTATTTGAAGATATACGAGAGATTATAGAACTGAAAAAGAGATTAAACGAAGAAAAAACTATTATAAGAGAATCAGATAAAATGGAAAAAATAATCGAATTAGCTAATGTTGCTTCCAAGTCGGATTCTACAATATTAATAACTGGAGAGACTGGAACAGGTAAAGAAGTTATAGCTAATTATATTTATAAAAATAGTGAAAGAAAAAACAGACCTTTTATAAAATTAAATTGTGCAGCACTGCCAGGAAGTGTTTTAGAATCGGAGCTTTTTGGGTATGAAAAAGGAGCTTTTACAGGGGCTGTAAAAACTAAAAAAGGATATTTTGAATTAGCGGATAAAGGAACAATATTTTTGGATGAAATAGGAGAATTAGAATATGGATTTCAAGCTAAGTTATTGAGAGTATTGCAAGAAGGAGAATTTTATAGAATTGGAGGGGAAAAGTTAGTAAAAGTAGATATTAGAATTATAGCAGCTACAAATAAAGATTTAAAAAAAGAGGTTGTTGAGAAAAAATTTAGGGAGGATCTTTATTATAGATTGAATATATTTAATTTGCATATGCCTGCATTAAGAGATAGAAAAGAAGATATATTACCTTTGGTGTATAGTTTTATAAATAAATTCAAAGTTAAATTTGAAAAAAATATAATGGGTATTTCAAAAGATGCTTTAAATGTTTTGGTTAATTATAGTTATCCTGGTAATATTCGGGAATTGGAAAATATTATTGAACATAGTTTTATAGTTGCTAAAAATAATATGATTATGGTTGGAGACTGGCCAAATAATTTGGTAGAGAATAAATCTATTAAAAATAATGTGGAAAATGAAATTAAACAAAATGATAAGCTTGTCGAATTGAATGAAAATATTGAAATAAAGCCTTTAGATGAATTTGAAAAAGAATATATTTTGGGAGTTCTTAAAAAATTTGAAGGAAATAAGGCAAAGACTGCAAGAGAATTAAAAATTGATATAAAAAAATTGTATAGGCGATTAGAAAAATGGAGAAAAAATAGTCAAAACGGCATGTAGGTGCATAAAGGTATGCTGTTTTGGGATGGTATCTATATAAAGAATGTTTTATTTCAAATTAATAATTGATATTTATGAAATAGAATTGCTATAAGTAAGTTATTAAGAAAGTAAGTAATTAATTTAAATATAGTAAAAAATAAAATTAGGGAGGTTAAAAAAATATGATATTTTTATATATTTTGACTTTAGTTGCAGTGTTAATATCATTTTTAATTAATGCAAAGAAAACAAAGAAAGCTGTAATTATGGGAGTGAAAAAATTATGGAAAATAACTCCAGCATTTATTGCGATTATTATAGTGGTATCAATTGTTTTATATTTAGTACCAAAGGAAATGATCGTTCATTATCTTGGTGGATCAAATACATATTTTGGAATGATTTTGGCTTTAATAATTGGGACAATAACAGTTTTACCAGGTCCTATAGTATATCCTCTTTGTGGAATACTTCTTGAGCAAGGAGTGTCATATGGTGTTATTGCTGCATTTTCAGTTTCTCTTATGCTTGTAGGAGTATTATCGTTTCCGGTTGAAAGTGCTTATTTTGGTAAAAAATTTGCTGTTTTAAGAAATTTAACAAGTCTTTTTATTGCTGTTGTTGTAGCGTTGGTATTTGCATTTTTAAATGGGAGGTTATCATGAAAAAATCAAAAAATAATAAGATTAAAAAAATTATTTTTGCTCTGTTTTTTATTTTTATATCTTTTTCTTATTTTATAAAATTTACTCCAGGTGTTTTAGTAGGTAAAAATTTTATTGATTTTGCACTTCAAATGATTGAAATGTTACCACCGATATTTATATTAGTTGGGCTTTTTGATGTATGGGTAAAAAAAGAAACTATAGAAAAACATTTAGGTAAAGATGGTGGGTTTAAAAGCTATATTTTGGTTTTTATATTGGCAGCTCCAATGGCTGGAGGGCTTCTAGCAGCGTTTCCAATTGCATATGCTATCTATAAAAAAGGAGCAAGGCTTACAGTTATGCTTGTTTTTTTAGGTGCTGTTGGGATAGGACGTGTTCCTATGGTTCTTTTTGAAGCTTCATTTTTGGGAATAAAGTTTAGTGCTATTCGTTTAATTGTATCTATTCCTCTTGTAATTATTACAGGAGTTATGTTAGGAAGAGCATTGGAAAAAAGAGAATATAAATTACCTGAAAATAATCAAAATTAATATAAGTTAATATTTTTGAAACAAATTTGCTTATATTAATATAGAGGGTGGTGGAAATGAGAAATAGACATAGATGTGGGATGAGAATGAGTGCAAATAAATATTTGATGATGAAAGATTATGAAACTGCATATAATTTATATAAGAATATGATTGATGAAAATGGAACCGTTAATGATTATTTAAAATATATATTTATTCTTGTTATGTTAAATAGAAGTTATGAAGCTGTAGAAATCGTAAATAAAATATTGCCATCTGCTATAAAATGTAAAGGATATGGGCTATTAAAAGAATTAATAAAAGATAATATTGATATAATTAGAGATAGAGGAGATATTATAGGAGAAAAAATATTTAAACTTATTTTAGGAGATGGAAAAGATGGAAGTAACAGTTTTGATGGAAAACCTTGTATATAAACAAGGTTTAAAAAGTGAACATGGGTTATCTTTTTTATTAAAATCAGATGATTTGAAAATAATTTTTGATACAGGGCAAACAGGAGATTTTATATGTAACGCTATTGCATTAGGAGAAAATTTAAAAAATGTTGATTATGTAGTTTTAAGTCATGGTCATTATGATCATACAGGTGGATTAAAAAGATTTTTAGATATAAATAAAACTGCAAAAATAATTATGAAAAAAGAGGCGTTAGAAGAAAAATATTCGAATTCAACTGGGAAAATAAGACCAATAGGATTTGAATTAAAAGATAGTTATATGAATTATGATAATGAATTTATATTTGTAGATGGTTTTTATGATATTAATAAAAATATTAGAGTAATTGGAGATATAAAAAAATATACTGATTATGAAGATGATGAAAAAAAACTGTTTATAAAAAAAGATGAAGAATTTATAAAAGATAGTTTTAAAGATGAACTATTTTTAGTTGAAAAAAATGATAATAATAAAAAAATAGACATTATAACAGGATGTTCTCATAATGGGATTATAAATATTATAAAAACTGCAAAATATAATTTTGAGGATTATAAAATAAATTCAGTTATTGGAGGAACACATTTAAAAGGAAAATCAAGCGATAGAATAGAAAAAACTATAAAAGCATTAGAAAAATTAGAAATAAATAAAATTGGAGTTAATCATTGCACAGGTATTGATAGTTATACAATTTTAAAATCAAAATTAGGCGATAATATTTTTTACGCATATACAGGATTAAAAATAAATTTATAGGAGGATTAAAATGGCAGAACAACAAGTAAATAATGATCAAGCAATGCAAGATATGAGATTAAAAGCAAATGTAGAAAAAATCAAACATAAAATTGTGGTAATGAGTGGAAAAGGTGGAGTTGGAAAATCTACTGTTGCTACAAATATAGCTTATGGATTAGCATTAGAAGGGAAAAAAGTTGGGCTTTTAGATGCAGATGTACATGGACCAAATATTCCATTAATGTTAGGTATTGAAGGAAAAAAGATTGCTAATTTAGCAGAGCCATATCAAGTACATGAAAATTTAAAAGTTGTTTCTTTGAGCTTTTATGTGGGAAGTTCTGATGATCCGATTATTTGGAGAGGTCCTGCAAAAACAGGAGCAATAAAACAACTTTTAGCTGATGTAAATTGGGGCGACTTAGATTATATGGTAGTTGATTTGCCACCAGGAACAGGAGATGAACCATTAACAATAGCTCAAAATATTGGAAAAGTAGATGGAACTGTAATAGTAACAACACCACAAAATGTAGCATTACTTGATTCAAGAAAGTCAGTGAAATTTTCAAAATTATTAAATATGCCTATACTTGGTATAGTAGAAAATATGAGCGGATTTATTTGCCCTCATTGTGGAGAAAGAGTAGATATATTTAAATCTGGTGGAGGAGAAGCTGCTGCAAAAGAGTTAGGTGTGAATTTCTTAGGGAAAATACCAATGGATCCAGCTATTGTTGAAGCAGGAGATAGTGGGAAACCGTTTATCTATTTTAATAACGGAGGAATTGCAGCTGGTATATTTACAGGAATTGTAGATGAATTAATAACTAAATCTGAAGGAAAAACAACTGAAAAGAAAGAAGAAGAAAAAACAGGAAATAGTGGAGGAGAAAAAATTATGAGAATAGCATTTCCAACAAATGATAGAGTTAATGTAGAAGAACATTTTGGACATTGTAAAGAGTTTGCTATATTTGAGGTAGAAGCTGGGAAAATATTAAAAACTGAATTTATAACACCACCACCACACGAACCTGGAGTGCTACCTAAATTTTTACATGAAGAGAAAGTTAATATAATAATTACTGGAGGAATGGGTCAAAGGGCTGTAGATATATTTCATTCTAATGAGATTGATGTTATATTGGGAGCAAGTGGAAGTATGGAAGATGTGTTAAATGAATATTTAGGCGGAGATCTATATTCTAAAGGATCGGCATGTAATCATGATCATGATGATGACCACGAATGTAATCACTAAAATTAAGTTTAACTTATATGAAACCGAGAAATCGGTTTTATATAAGTGCTGAAATTTTGCAAATCAAAATATTAGCACTTATAATGAAATATTTGCCTGGTTTTAAGGGCAAAAACTATGAAATGGAGGTTGATTAAAATGAGAGGAAACAGAAGAGGACCATTAAATGAAGGTCCAATGACAGGAAGAGGATTAGGATTATGTAGCGGGAGTGAAACTACTGGATATGTAAAAGAAGGCGGTAGATTGGGATTAGGATTAGGTAGAAGAAATGGAGCAGGAATGGTTGGAGGCTTTGGAAGAAGAGGCGGAAACGTTGGAGCAGGAAGAGGCTTTGGATTTAGAGGCAGAGGATATGGATATGAAAATTATTCTGCACCTGCTATTAATGAAACAGAATATTTAAAAGAAGAAGAAAAAGTTTTAAGAGCAAACTTAGATGCTATTTCTAAAAGATTGGAAGAATTAGAAAAAAATAGTAAATAATTTAACTATGAAAATCAGTAAAACGTACCAGAAGATTGGTGTGTTTGATATGAGATTCAAACACACCAATTATATTAATTAAAATGAAATATTAATTTGGAGGAAAAATAAAATGGAGAAAAAAGTAATAAAGAATTTTAGCCCTTCTTGGTTTGCGGTGGTTATGAGTACAGGAATTATACCAATTGATTTATGTTTGGCAAAATCAAGCGTCCCTTTTTATTCTACTTTAGCAAAAATATTTTTTGTTTTATCAACATTAGTATTTGTTGCATTATTTATACCATGGATTATTAGATTTTTTACAAATATGGATGAGATAAAAAAAGATTTAAGACATCCTGTATTGGGGAGCTTTTTCCCAACAGTTGCAATAGCAACTTTGATATTAGCAATTGATTTTTTAAGAATAGGAGAATCCTTTTTAGGAAAAGAGTTAGCTTTAAAAATAGCATTAATTCTTTTTGTAATAGGTACAATCGGTGTATTTTTATTTGGATTTATTATATTACCACTAACTTATATTAGTGATAATATAAATTTACAACATGCTAATTTTGGCTGGTTTATACCGCCGGTTTCTCATCTTATAATTGCTGTTGTAGGGCTTGATTTAGTTCCACATTATAAAAATACAGTTTTAGGAAATAATATTTTTATAATATCTTTAATTGGAGCAGGAATAGGTATGTTTTTATATTTATTTGTGGGTGCAATTGTATATCATAGATATATTTATCATGAAATGCCAATGCCTAAATTGGCCTCAACATTTTTTATAGGCATGTCTCCAACAGCTATTTTAACAATTATATTGGTAAAATTAGTTGCAGCTTCTAAATTTGTAAGTTATAATATAAATGTTGGAGCAATAAGTTCAGTTTCTAAAGTTTTGGGTATTGCATTTTGGGGATTTAGTATATGGTGGTTTATTATTTCGTTGATAGTTTTAGTTCATCATATTAAATCAAAACAATTACCTTATGCTTTAAGTTGGTGGGCTTTTATATTTCCAATTGGTGCTTTAGGTGTGTCTACTGGAGCGATTAATAAATTGGTGCATTTCAAATATTTTATATATTTTTTAAATGGGATAGATATTGTACTGTTAGCAATGTGGCTATTTATAGGAATAAAAACCATAAAAGGCATAGTCAATGGAACTGTTTTTGAGGCGCATTAAATAATAAAATAGGAGTGGATTATGAAAACATATGTAGAATGTATTCCGTGTATAATTAATCAAGGTATAAAAATAGGTAGAAGATTAGATATTAAAGATGAAAAAATAGAAGAGATGGTAAGAGAATTAATGGACCATTTAAAAGGAGAAAATTTTAATAAAACTCCGGCAGAATTAGCAAAATATTCATATAAGATAATAAACAAGTATATGATGACAAATGACCCATATAAAGAGATAAAAAAATATTATAATGAAAGTATGTTAAAATTAGTTCCAGAAATAAAAAATATAATTAATAACTCTGGTAATAGATTTGAAATAGCTATGAAAATAGCTGTACTAGGAAATATAATAGATTTTGGTTCAAAGCATAAATTTTCTGAAAATGATATAATAAAAAAAGTTAGAGATATAGGAAATAGCTATTTTGCGATTGATGATAGTAAAAAGTTATATGATAAATTAAGAGTATCAAAAACTTTACTATATATTGGAGATAACTGTGGAGAAATAGTTTTTGATAAAATATTTATCGAATATATAAAATTTTCTTTTCCTAATTTAAAAATTTATTATGGAGTAAGAGGTGAACCTGTAATTAATGATGTTACTATAGTAGATGCAAAAGATGTAAATATGGAAGAAGTAGCAGAAGTTATAGACAATGGAGATAATTCTCCAGGAACAGTATTAAATAATATATCTGGAAAATTTAAAGATTTATTATTTAATTCAGATTTAGTAATTTCAAAAGGACAAGGCAATTATGAAACTTTAAATGAAATTAATAGAGATGATGTTTTTCTATTATTTATGGCAAAATGTGATGTTGTGTCAAAAGAATTAGGGGTAAAGAATATGAGCTTTATTTGTAAAAAAATAGATAATATTTAAAAATAAAAAGCTTTTAATATATATTAATATATGCTAATATATACGCATATAAAATAAAAATAGGAGGATTTAAAAATGAGAATAGCAATAACAGCAAAAGGTGAAGGATTAAAATCAATGGTAGATGACAGATTTGGAAGATGTGAGAATTTTGTAATATTTGATACAGAAACAAAAGAAACAACTACAGTAGATAACGATGCAAAAAATGAAAGTGGAGGAGCAGGAGGAAAAGCTGTAAGAATTTTATCTTTAAATAAGGTGGATGTAGTTATAGCTCCTGAATTGGGACCAAAAGCAACTGAAGGATTAAAAGCTTTTGAAATAAAAGCCTATAAAAAAGGAAATAGTGCTACAGTAGAGGAAGCTATTAATAATTATAATGAAAATAAACTTGAAGAAATTAAATTTTCTACAGTAGAAGAACATAGTGGACTTAGAAAAGCTTAAAAGAAAGAATAATTGATAATAGAAAATTAATTATGAGGAAAATGAGAAGATAGAAATATAAAATTAGGTGCTTATAATTTTATATTTAATTAAGGGTCAGATAAACGAGTGCTTACTATTTTCCTATAAAAAAATATCGTTTATGTATTTTTTTATAGGAAACCTTTAGTAAGCTATTGTTTTATGAGCGCTAAATTATAAAAGAGAGGTAGAAAAAAATGAGAATAGCTGTTTTAAGTGGAAAAGGTGGAACAGGGAAAACAACAATATCTACTAATTTATCTATAAATATAGAAAATTCTATGTTGATTGATACTGATGTAGAGGAACCAAATTCACATATTTTTTTGAAACCAAATATAACTGAAACAAAAAGTGTGAAAGTTGAGTACCCTGTTGTAGATAATGAAAAATGTACTTTATGTGGAAAATGTGGAGATTTTTGTAATTTTAATGCAATAATACCAGCTAAAAATACAGTTTTAGTATTTCAAGAGAGTTGTCATTCATGTGGTGGATGCAAAATGGTTTGTCCAACTGGGGCGATAACATATTCTAAAAGAGAAATTGGTAAAATATATGAAGGCGATACTAAATTTGGTATTAAGATGAAATATGGAGAGCTAAATTTAGGTGAAATGTCAGGTGTAAAAATTATAGAAGAATTAAAAGAGATTACTAAAAATGAAGATATTGTAATAATTGATTCTCCACCTGGTACTTCTTGTTCAACTGTTGCTGCAGTAGAAGATGTTGATTATGCAATAGTGGTTACAGAGCCTACTCCTTTTGGTGTAAGTGATATGAAAATGGTAGTAGAAATGTTAAGAGAAATGAAAATTCCATTTAGTGTATTTATTAATAAAGCTGGTTTAGGTGATAATGAAGTTTATGAATATTGTGAAGATGAAAAAATTAAAATTATAGGCGAGGTACTTTTTGATAAGAAAATTGCTGAATATTATTCTGAAGGGATTCCGTTTTCAACAAAAATTCCTAAATATAAGAAGTTGTTTAATGATATTTTTGAAGAAATTTATATGGAATTTAGAAAATAATGGATATTTATAAAAAATATTTAGAAGCTATAAAAATACTTGAATTACCTTTGAAGTTTAATTTGAAAATTTTAAAGAAAAGATATAAAGATATGATTAAAATGTATCATCCTGATTTGAATAATGATGAAGAGATGGAATTGAAAATTCATGAAATAAAAGAAGCTTATGAAATTCTTTTGAGTTATTTTGAAAATTATAAATTAAATTTTGAAAAAGATAATTTTAAACTTTCTCCAAAAGAATTATATGAGAAAAAATTAATGAATGATTGGAAAATTTAAAAATATTGTTTTTGAATTATTTTTTTAAAAACAGAAATGAGAAAATATAAAGGAAGGTTTTTAAAATGGATATTAATGAAATAGTTATAATTTCAGGAAAAGGTGGGACAGGAAAGACAACATTAACAGCATCGTTAATACCTTATTTTGAAGAGTTAGTTGTTGGAGATTGTGATGTTGACGCTCCTGATTTAAAAATTCTTTTTGAAGGTGATAATATTACTAAAGAAGGATTTGTAGGTACTAAAAAAGCTATTATTAATGAAGAAAAATGTATAAAATGTGGAAAATGTTATAGAGCTTGTACTTTTGGAGCAATAACAAAAGAGATAAAAATGAACACTCCTAAATGTGAAGGTTGTGGAGTTTGTGAATATGTTTGCCCAGTTGGAGCAATAGAATTAAAAGATGCTGTAGTAGGGAATTTGTTTGTTTCGAATACCAATTATGGAAAAATGGTTCATGCGAGATTAATACCTGGAGAGGAAACATCGGGAAAATTAGTTTCTGCAGTTAGAAAAAGAGCTAAAAAAATAGCTTTAGAAGAAAATAAAAAAAATATTATAATAGATGGAGCTCCTGGTGTGGCTTGTAACGTAATTTCATCAATAACAGGAGCAAAAAAAGTAGTAATTGTAACTGAACCAACTTTTTCAGGATTGCATGATTTAGAAAGAGTATATGAAGTGACTCAAAAATTTAGATTGCCAGTTTTAGTTGTTATTAATAAGTATGATCTGTCTATAGAAATGAGTAATAAAATAGAAGAATTTTGTAAAGAAAAGAATATAGAGTTAGGATTAAAAATACCTTTTAATAAAAAAATGGTAAAAGCGATTGTAGATAAAAAAATTCCTTCATTAGCTGAAAAAGAATTTTTTGACAGTTTCGGATTTGGAGAGTTTATTGAGAAGTTGAAAAAATAGAAAAAGGAGTGAAAAAAATGCCTTGGATAAAAACAAATGAATGTAAAGGATGTGCTAAATGCATATCAGTATGTCCAGTTAATGCAATTTCAATGATAGATTCAAAAGCTGTAATAGATCAAAAAAAATGTATTAATTGTGGTGCTTGTTTAACTGTGTGCCCATTTGATATTATTAGACCAAATTCTGAAAATCCTGAATTGAAAGGTTTAGGAAATGGAAGAGGAGGCGGTCGTGGAAGAACTGGTGGCGGATTAGGCGGACAGGGTTCTGGACTTGGAAACGGCGGCGGAAGAGGTATGGGACGTGGCAGATAAAAAATCAATTAGATTAACTTATATTAGCTTTGGATGGCATAGTTTTTTTCTTGCGCTTACTATGTCAATGATAGATTTTAATACTGTTTTTCCATCATTGATTTCAGAATTATCTAAATCAAAACTTATATTTGGAGCATTATATGCAATTTTGCTAGGTGCTCCAAATATTTTCAATATGATTTTTAGTCATCATATGAGAAAACATCATTATAAAAAGAAATATTTGCTTTTAGGAATTTATATGAGAGGATTTTCCTTTTTAGGGATGTCTTTATCAGTAATATTTTTTGCGAAAAGTAATCCAATGTTAGCTATTACTCTTTTTTTCTTGTGGATATTTATATTTTCAGCAAGTGCAGGATTTGCAGGAATAGCTTATTCTAATTTAATAGCAAAACTATTATCTACGCATGAAAGAGGTCAATTTTATGCAACAAAACAATTTGTAGGAAGTACAGCAAGTATTATTGGTGGAATAGTTATAGGAAAAATATTTAAAAATAGTGGTTTTGCGTATCCTTATAATTATGGGATAGCTTTATTCATAGGATTTGCGGGATTAGTAATTGCTTCTTTGGGGTTTTATGCTATAAAAGAACCGTCTTCAGAAATTGAAACAGATGATTATAATTTTTTAGAATTTTTAAAGCAAGTACCAGAGATTTTAAGAAATAATAGAAAATTTTTAAATTTTATTATAGTAGAAAATATAAGTAGTTTCTCTTTGATGATATTACCATTTTATATGGTATTTGCTAAAGATAAATTAGGAGTTGGAAAAAATTATATAGGAAAATATTTAATGTTTCAAATTTCAGGAATGGTAATTTCAAATTTGATTTGGGGATATTTCATTAAAAGAAAAGGTACAAAAAAGATGACTGGAGATTGTATTATTATAGGAGCAATATTACCAATTTTAGCAATTATATTATCAAATTTTGGAGCAAATATTTATTCATTTTTATTTTTCATAATAGGTTTCGTAATGAGTGGAAGAAGAATAACTTTTGAGCCATATTTATTAGATATAATTCCTTCAAATAGAAGAGTTACATTTTTAGGAATTAGAGGAACATTAAATATTTTAATGATAATATTACCTTTAATTGGAGCAACTGTAATAAAATTCTTTGGATATTATACAGCATTTTTAATAGTATCTGGAGTTATGTTTTTTGCATATTATTTATTGAGAAAGGAGAATTAATATGAATGAATTAATAATAGCGTGTGCTACAAATAATGGAGAAGAATTTGTAAATGATCATTTTGGTAGTGCAAATTATTTTGATATTTATAAAATGTCAAAAGAGAGCATTGAAAAAATAGATAGAGTAGATAATACAAGTGAAGAGGAAAAAGAGGATGATGGAATACATGGAGATCCAAATAAAGCCAAAGGAATATCTGGAATATTAAAAAAGAAAGATGTTCAAGTTGTAGTTGGTTATAAAATGGGACCAAATATCATTAGAATGAAGAAAAAATTTGTGCCTGTGATCGTTAGAAATATAAATATAAAAAATAGTTTAGAAATTGTAAAAAATAATTTTGATAAAATAGTTGAAGAATTAAATAATGGTGAAAATAGAAAACATATAGTATTAGAATAGGACCTTTAGGGGTCCTATTTTTTTAGGATAAAAAAATTGATTTTTTATCCATGGTGTGATATAATGCAATGCATATTAACATTGGTATGAAATGGTTGAAAGAATATCTACTTAAGAATAAATTATAAATTTATTCAGGAAGTAAGTAATGCTATTTTTTTAACATTATTTAGTAACAAATATCCAAACATTCTAATTTTTTTATAATCTTAATTTAATATAAAATTCTATTGATTAAAAAAATTAGGTGAAATAAAATATTAATTTTTAGAAAGGAGGTAAATAAATGAACTATATAAAATACGCTTTTACTGGTATTAATATATTGCCATCAATATTTTTACTTATTATAATTTTTTATTGGTTAATGACTATACTAGGATTTTTTTCAATTGATTCGGGACTGGATATTAATACAGATGCAAATTCTGATTTAGAGCTTAATTCTGAATTAGAAGGTGATATTAATTTAGGAAATCTTTCAATAGCTAGTAAAATTTTTGAATTTTCAAATATGGGAGCAATGCCATTTATGGTCTATTCAACTTTCTATGTTATTGTCTTGTGGACATTATCAATGTTGACTTATTACATAAAAATATCGCAAAATATATTTATATCTTTAATAATTTTTATTATCAATTTCATCTTAACTTTTTTCTTAACTAAAATAATAACTCTTCCCTTAGTTAAATTTTTTAAATCTTTTAATATTGATGAAAAAAATAAGATAATTGGCTCTATATGTACATTAAAATCAACTATTGAAGGAGAACATATAGGATTAGCTGAAGTAGAAAATGATAAATATCCAATAGTAATAAATGTAAAAAGCCCAAATAAGAAAATAGAAAAAGGAGAACAGGCTATTGTAATATCAGAAGAAAATAACAATAATTTATATATAGTAGAAAAAAATAATTTTTTTTAGAAAGGAGAATGGTTAGAAATGATTGAGTTTATTTTGTATGTGGTAGGTATTGTAGTTTTTTTGTTATTCATTGGAATACCAATGATTTTAAGTATGTTTTATAAGAAGGTAGTTCAAGGGAAAACCATAGTTAGAAATGGAATAGGAGGTTCAAAAGTTTCTTTTTCTGGAATATGGGTAATTCCTATATTGCATAAATTTGAAAAAATGGACATTTGTGTTAAAAGAGTAGAAATTGCTAGAGAAGGTAAAGAGGGTTTGATTTGCAAGGATAATTTAAGGGCAGACATAAGAGTAGCTTTTTTTGTAAAAGTAAATCATACTGAAGAGGATGTTTTGAGGGTTGCTAAATCTTTAGGAACAGAAAAAGCGTCTGATACTGTAACTTTAATGGAGTTTTTTGATGCTAAATTTTCAGAAGCATTAAAAACAGTGGGTAAAAAATTTGATTTTGTGCAATTATATACTGAAAGAGATAAATTTAAAGATGAAATTTTACAAGTTATAGGTACTGACTTAAATGGATATATTTTGGAAGATGCTGCAATTGATTATTTGGAACAAACAGATATTAATTTATTAAATCCTGATAATGTGTTAGATGCAGAAGGGATTAAAAAAATAACAGATTTAACAGCGAAACAACTTGTAATGGCAAATCAAATAAAAAGAGACAAAGAAAAAACTATTGTAGAACAAGATGTAACTGCAAGAGAGGCTATATTAGAATTAGAAAAACAAAAATCTGAAGCAGAAGAAAAACAAAATAGAGAAATAGAAAATATTAAATCAAGAGAAAATGCTCAAATAAAAATAATTCAAGAAGAGGAAAAATTAAAATCAGAAAATGCAAGAATTAAAGTAGAGGAAGAATTAATGATTGCAGAAGAAAATAAAAATAGACAAATTATAATAGCACAAAAATCAAAAGAAGCTACAGAAGCTGTAGAAACAGAAAGAGTTGAGAAACAAAGATTATTAGAAGCTACAGAAAAAGAAAAATTAGTTTCTTTAGCTCAAATTGAAAAAGATAAAAAGATAGAGACTGAAAATAAAAATATTAAAGAGATAATAAAAGATAGAGTTATAGTTGAAAAAAGTGTAGTAGAAGAAGAAGAAAAAATAAAGGATACTAAAGAACTAGCTGAAGCTAAAAGAAAAAAAGGTGTTAGCATTACTGCAGCAGAAGCTGATGCAGAGGTTCAAGGCATAGAAAAAGTAAAATCAGCAGAAGCAGAAAAAGAAAGTGCTACAATTTTAGCAGAAAAAGAAATTATAGTTGCAGATACAGAACTAAAAACGTCACATAAAAAAGCTGAAGCTACTAAAATATTAGCAGATGCTAAATCAGAAGAAGCAGCAATAGTAGGAATATCAGAAGCAAGAGTATTAAAAGCAAAAGCGGAAGCATATACAGCTGAAGGGCAATCAAAAGCTACAGTTATAAAATTAGAAGCTGAAGCTACAGCAAAATCGATAGAATTAAAAGGATTAGCTGAAGCTAAAACTACAAAAGAAAAAGCATTAGCTGAAGCAGAAGGGATAACTAAAAAAGCTGAAGCAATGAAAAAACTTGATTCTGTTGGAAAAGAACATGAAGAATTTAAATTAAAACTTAATAAGGAAAAAGAGGTAGAACTTGCTGAAATAAATATTCAAAAAGATGTTGCTGTATCACAAGCGGAAGTTGTAAAAGAAGGACTTAAAAATTCTAATATTGATATAGTTGGAGGAGATACTATATTCTTTGATAAATTAGTAAAATCAATTACTTTAGGAAAACAAGTTGATAGAGTGATAGATAATTCGGATGTTTTAAAAAATATAAACGATACTTTTTTTGATGGAGATGCTGAAAATTTTAAAAAACAATTAAAATCATTTGTTTCTAATTTTAATTTAAATACAGAAGATGTTAAGAATCTTACTATATCAAGCGCTATATCTAAAATGATGAAAAATTCTCCAAATAAAAATGATTTTTTTAATGGTATTTTAGATAAAGTTAATAAAATAGGAATTGGAGATAAACTTGTCTCAACAATAATGGATTAGGGTGATTAAAATGGGAAATGTGGAAACTATAGAAAAAACAGAAGAAAAAAAAGGTTCTAAATTTGAAGCATATAATGTAATTAGAAAAAGATTAGTAGAACAATCTAATGTTTTAAAAGATAAAATTGACAAATTGAATGTAGATAGAATTAAAATATTTGGAAAAATAGAAAATGGGATAAAAAAAACAGAGATGATTGTAACTGAAAATAGTTGTATTCCACGTGACATTGTTCCTATACAAAACAAATTAATTTTAGGATACAATGTTCAAATGGGATTAAAAACAACAACAGATATTTCTGATATTTTTTCTATATATGAGTATAATGAAGACAGTTTAAAAAAAGTAGGATATGAATTAATAGATGACGATAAATTTAAAAAAGATTTAAAAGATTTATATAAGTATTATAAAGAGAGTTTCTTTGCAAAATTTTTTGAAAAAGAAAATATTTTACATATGGTTTTTCAAAATGGGAAAAATGAAGAGGATATAAAAAGTTTTAAATGGATTTTAACTTCTGAGAATAAATTTGTGTATCTTGGAAATAGATTTAGTCACGAAGTAGAATTTCCTAAACAGCAAGAATTAAATTGGATAAAAACTAAAAGAGAAGACCAGATATCTGGTCTTCACCCTCATATTTCGATAAACGATAAAATTTTTGTAGAGACCATTGAAGGAGATTTAACTTTAAAAATAGAAAATAATACTGAAACAGGTAAAGGGATATACTCTGAAGAAGTTGAAAATTTAGATCAAAATTTAGATGATTCAGAAATATATTATGCTGAGGTAGGAAATTTAATATTATTAAAAATAAAACCTTATCAAGAGAAAACATTTAGAAATCTTGTCTTTAATGAAAAGACAAAAGAAGTCATTAAAGTTGATGGAATAGAAGAAGCTTGTGTTTTATTACCAGAAAATCAAGGAATAATTTTTCCAAATGGAAGTGTATTGCAATCTGGTGGTGGGAAAATATTTGATATTAATCATAAAAATATGGTGTTTGAAATTAAAAAATCTTCAAATAATGGAGAAGATTATCAATATATTTTTTATAATAAATCAAACGGGGAATATTATATTTATAATTATAATATAATAAATCAAGAAATTATAAAGCCTGTAATTTGTAATGGATATTCTCATTTTAAAAATGGTGATATGATAGTTTTTAAAGAGGATAGTGAACCTAAAAGGAGTCACACAATACAAATATGGAAAACATCTTTTAGTGATGATAATAACATAGTTGATGAAGAAAATAAAAATAATTTTTTATATAATCTTGGAAATAAAGAGATTGTAAAATTAATGGCAGATTGTCACTCTTTATATAAATTGATAAAAAAAGATGATAGTTATTATGGCTTATATATAGATATAAATAAAGAATCTGAAAAGATTAAAAACAATTATTTTTGGATTAATAAAAAAGAAGCTTATGGTATAAATTCTGTATTAGAAGATATAAAAAAAGCTGCAGCAGTAGCAATAAATGAATTTGATAAAGTAGATAAAGAGAAAGAAAATAATAAAAACAGATTTAATTTGGTAAAAAGTAATGTTGAAAATATAATAAAAAACATAAAATATTCATCTTTTGAAACTATTTATGATTTTGTAAATATTTTAAATGACTTAAGAAAATCAAGAGGAGAAATTTCTAGTTTAAAAGAATTAAAATTTATAGAGATAAGCTCAATAAATAATTTAGAGAATGAAGTAAAAGAAAATAATTTGAAAATAGCAGAAAAATGTGTTGATTTCCTTATGGGAAAAGATAGTTTAAATCCTTATGTAGATAGTGTAAAAGAGATAGAAGAAAAATTAGATGATGTAAAAAAAGCAATTACAGGAAAAGAATTAAGTGAAAAAATAAATGAAGTTTCAGAAGAATTAGAGATTTTAATTAATGTAGTAAATAACTTAAAAATAGAAGATACTACAAAGAGCTCTGAAATTTTGGATAAAATTTCTCTTTTATTTTCAAGATTAAATCAAAGTAAATCAAAACTGAATGGAATAGTAAAAAATCTTGGGAGTAAAGAAAAAAAAGGAGAATTTTTTTCTAAACTTAATTTATTAAGTCAATCAGTTTCTAATTTTTTAGAGATAGCAGATACTTCTGAAAAATTAAATAATTATCTTACTAAATTAATTGTTCAGCTAGATGAACTAGAGAGTAACTTTTCTGAATTTGAAGAGTTTATTCCTCAAATTACAGAAAAAAGAGAAGAGATAATATCAAGTTTTGAAACTAAGAAACAACAAATAGTAGATAAAAAAAATAGAAAGATTGATTCTCTTTTTAAGGCATCAGAGAGAGTTTTGAAGGGTATAGAAAATAGAGTAAATGCTTTAGATAAGATAGAAGATATTAATGAAATTTTCTCAGCTGATTTAATGATAGAAAAATTAAGAGATATAATTGATAAATTAACAGATTTAGGAGAAGGAAATAAAGCTGACGGTTTAGAAAATAAAATTAAGGTTTTAAAAGAAAATAGTATAAAACAATTAAAAGACAAAAAAGAACTGTTTTTAGATAAAAATACTATTAAATTAGGTAATAATAATTTCTTGATTAATGATCAAAAAATAGAATTAGCTTTATTAAAAAAAGATGATGGCTTCTATTTTAATATTTCAGGAACAGATTTTTATGAAAAAATAGATAGTTCAAAAATTGAAAAATATAGAGATGTTTGGGAACAAGAGGTAATATCAGAAAACAAAGAAGTTTATAGAGCAGAATTTTTAGCGTATAAAATATTAAAAAAATATAAAATTAATGGTGAATTAGAAAAATTATATGCTATTCCAGAAGAAGATTTGAAAGATATAATTAAAAATTATATTTTAGATAACTTTAAAGAATATTATGTTAAAGGAGTTCATGATGTTGATGGATTTTTAATTTTGAAAGAACTCTTAATTAAAGAGAAGGAGCTTGAACTAGGAGCATTTGATCCAATTACTAGAGGCGCTGGAAATTTATTTTGGGAATATGGATTAGATAATAAGAATAAAGAAAAACTTTTAAAAAGATTAAAATCTATAAATCTAATTAATAAATTTTCAAATAAGAATATTGAAAATGGATTTTTACCTGAATTAGAAGAAAGAATCGGAAAATTTGTTGAAGATAAAAAATGGATAAAATATAATAATATAAAAGATATTGCTAATTATATTGCTAAAGAGATAGGCGCAAATAAATATTTTGTAATGAGTTTAGAAGCGAAAGATTTATATGAAGAGTTTATAAATCATTTGAAAACTATAGGTGCAAAAAATATTTTTGATAAATCTTTAGAGGATTTAAAAGAGGATATCGAAGGTAAATATATTGTAATAAAAGAATGGATAAATTCTTTTATTTTAAACACAGAAAAAAGTTTTGATAGTTTTATTTATGAGTTAATATCGATAATTATATTGGATAATTTTTCAAAAAGAAGAGTTTTAAAATTAGATACAGCAATAAAAATAAAAGGGTTAGTTGGACAACATAAATTTATAAATCAAACTAAATATGAGATTAATTATAATGATTTTATGTTAAAATTAGAAAAATTTAATTCTATAAATGTACCTAAATTTATAGAATTTCAAAAATTAAAACAAGAAGAAATATCCCAAATGAAAGAAAAGTTAAAATTTGAAGAATTTATGCCGAAGGTTTTACTTTCTTTTGTTAGAAATAAACTGATCGATAATGTTTATTTGCCATTAATAGGAAATAATTTAGCGAAACAAATAGGAGCGGCAGGAGCAAATAAAAGAACAGATAACATGGGAGTTTTATTATTAATATCTCCTCCTGGATATGGAAAAACTACATTAGTAGAATATATATCAAATAGATTAAATATGTTAATGGTTAAGGTTAATTGTCCAACTATTGGAAATAGTGTAACTTCACTTGATCCAGAACAGGCAGATAATATAAATGCAAAAGAAGAGTTACTAAAACTAAATATGGCGTTCGAAATAGGGAATAATATTATGATATATTTAGATGACATACAACATTCTAATCCTGAATTTTTGCAAAAATTTATATCTCTTTGCGATGGACAAAGGAAAATTGATGGAGTTTATAAAGGAAGAAGTAAAACTTATGATTTTAGAGGTAAAAAAGTTGCTGTAGTTATGGCAGGAAATCCATATACAGAAAGTGGAGCAAAATTTCAAATACCAGATATGCTTTCTAATAGAGCTGATGTTTATAATCTTGGAGATATGTTGAAAGAAAATGAAGAAGCGTTTAAATTAAGTTATGTAGAAAATGCAGTGACTTCTAATGTATATTTAAATAAAATTTATATGAAAGATTCTTCAAATATTTATAAATTAATAAAAGTAATCGAAACAGGCAACAGAGATAATATAGAATTTAATGGAAATTATACAGAACAAGATATATCAGAAGCTTTAGAAGTTATGAAAAAAATGTTAAAAGTAAGAGATGAAGTTTTAAATGTAAATATGGAATATATATATTCTGCTTCACAAAGTGAAGAATATAGAGTAGAGCCATCTTTTAAATTACAAGGTTCTTATAGAAATATGAATAAAATTTCTGAGAAAATTATTCCAATAATGAATAATGATGAATTAAGAAAACTAATTGAAATAAGCTATGAAAATGATTCTCAAACATTAGCAACTGATTCTGAAGCGAGTATTTTAAAATTTAAAGAAATTACAGAAAGACTGAATGAAGATTCAAGTAGACGTTGGACAGAAATAAAGAATATGTATATTAAAAATAAAACTAATGATGGCAGCGATAAAATTATATCTTTAACTAAAGCTATTCGTTCAATAGGTAGAAGTATTGACAGGTTAAAAAAAAATAAAAAATATTCTAATGATTATAACAAGAAAAAAGATGACAGCAAAAATATAAGATAAATATCTTTAATTATCAAATTTCAAAAATACCTATCTCATAAAATAGTAATAAATTTCTTGCTATTTTATGAGGTAAAAATTGCTAAAAGACGGGTTTTCAATTTTATTTTTAAATACGTAATAGTTTAAGTTTTTTTATAAGAAAATATGAGAAACATATCTTTCGAATATTCAGGATTGGTAACTTTTTCTAAATATATGGATAAATTTTTTAGTATCTCAATAGAAAATTTTATATACTTAATTAATTGAAAACTATATATTAGTTTTAACAATTGACATTTTAAAATCTATTGACATATTACTTCAATTATGATATACTTTGATTATCAAAGTAAAAGATATCAGAATGGAGGAATATAAAATGACAATATATCTAAACGAGCTGTTACCGGGTCAGTCTGCTTTCATAGTTGGAATTGAAGAAAATTCAACTTTAAGACAAAGATTAATGGAACTTGGAGTTAGAGAAGGAAAGCAAGTTTTTATGAGAAGAAGAGCTCCGTTAGGAGATCCTATGGAAGTTAATGTTATGGGAACAAATCTATCTATTAGAAAATCAGAAGCTAGATATGTAATGATAGATAAAGTGGTAACTTGCCCTGGAAATGGAAAAATGAGAGGGTTAGGCAAAGGATTAGGAAGGAGACATAATAAATGAAAAAATTAAATGTAGCTTTATTAGGAAATCCTAATTGTGGGAAAACAACTTTATTTAATGCTCTAACAGGTGGGAAACAGCATGTAGGGAATTGGGCAGGAGTTACAGTAGAAAAAAAAGAAGGAGAATTTGAATATAATGGGCAACAAATTAATATAATAGATTTACCTGGAATTTATAGTTTATCAACAAAGACTATTGAAGAGAAAGTATCAAGAAATTATCTAATAGAAGAAAAACCAGATTTAGTAATAAATATAATTGATGGGACTAATCTTGAAAAAAGTCTTTATTTAACGACGCAATTAATGGAATTAGGTATAAAATTTATATTAGCTATAAATATGTATGATGAAGTAAAAAGCAAAGGAATAAAAATAGATATAAAAAAATTGTCAAAATTTTTAAATGTTCCTGTTATTCCAATAATTGCTAGGAATGAAACTGGAATAGATTTATTAAAAAGCAATATAACTTCTGAATCAACCCTAAGTAAAGCCAAAGTAGGTTATGATGAAGATATAGAAAATGCAATAGAAAGCCTGTTAAAAATAATAAAAAAAGATAAAAAAATAGAAGAAAAAATTAATATAAGATGGCTAATTATAGAACTGTTAGAAGGAGATCCTAAAGCATTTGAAATGCTAAAAAATAGTATAGTATATGATGAAGTAAAAAATACATTAGATGATAAGATTGAGTATGTAAAAAAAATATATAATGAAGAAATAAAAATTGTTATAATGGAAAAAAGATTTGGATTTATATTAGGATTGATAAAAGAGTGTGTAATTATTAGAAAAATGGATTTTTCAAAATTAGATATAACTGAAAAAATTGATAATATTATACTGAATAAATGGGTAGGATTGCCTCTGTTTTTATTTATACTTTGGGGGACATTTAATCTAACATTTGTTTTTGGAAATTTTTTTAGTTCTTATATTAATGATGGAATAGTGTTACTTGGAAATTTTGTATCAAATGTATTGCCAAATGGAATATTAAAAGATATGCTAATAGATGGTGCAATTGGAGGAATGGGAGGAATTTTAGTATTTTTACCTCAAATTTTAATTTTATTTTTAGTTATAGCTTTATTAGAAGATTCAGGATATATGGCAAGAGTTGCATTTATAATGGATAAACTTATGCATTATTTAGGTTTGCATGGAAAATCCTTTATTTCGCTATTCATGGGATTTGGATGTAATGTACCAGGAATAATGGCTGCAAGAATACTAGAAAATGAAGATGATAGAATTGTAACTGCTTTAGTAAATCCATTTATGAGTTGTTCTGCAAGACTGCCAATTTATATATTAGTAACAGGAATGTTTTTCAAAAAAAATGCAGGAAATGTTATTTTTTCTATATATCTTATTGGGATTATAGTAGCTATTTTTACTGCAAAGATGTTGAAAAAATTCTTTTTTAAAGGGTTATCAGTTCCTTTTGTAATGGAATTGCCGCCATATAGAGCTCCAACTTTGAAATCTTTAATGATACATATGTGGGATAGAGCTTCAATGTTTTTGAAAAAAATGGGTGGAGTAATTTTAATAGGGGCATTAATAGTTTGGGCATTAGGGTATTTTCCTATTAATAAAAATTATTCAAATAATATTGTTAAATTAGAGACTCAAGCTAGCAAAATTACAGATATTCAAAAAAAGAATGATTTATCAATGAAAATAGAGGATATGAAAAAAGTTGAAGATATGGAAAATAGTTATATGGGGAAAATTGGAAAAACAATAGAACCAGTATTTAAACCATTAGGAATAACGTGGAGAGAAGGAGTTGCATTAATTGCAGGAATAACTGCAAAGGAAATTTTTGTTAGTACAATTTCTGTATTATATGGAGTAGGAGATGAAAATGCCACTGGATTAAAGAGAAAAATGTTGAAAGATGGAATAACTCCAATAGCGGCTTATGGTTTAATGGTGTTTGTGCTGCTGTATATACCTTGTGTTGCAACAATTGCAGCAATAAGAAGAGAAACTAATTCATTAAAATGGACTATATTCTCTGTTATATATGGTATTTCAATTGCATATGCACTTAGTTTTTTAATAAATACAATTGGAAAATCTATATTTTATTAAAAGATGATTTTTGAACGTTTATTAATGGAGGTGTTTAAAATGATACAAGAAATAATAGTCGGAATTATAATGGTTATAGTAATATATATAGCTTTTAAAAAAATGTATGAATCTTTTAAAAATGCAGAGAGTGGGACTTGTTCTTCATGTACACATAAAAGTTCATGCAATATATATAGCGAAAAAAATGTTATAAAAAAATAATTAAAATAGTTAAGGGGAAACATACAAAAAAACTTATACTACCATAAATAAAAAAAGCTTGAAATTAATCAACTGATATAGTAGAATAGTAAATAGAACAAATAAAAAATAGGAGGTAATTGTTATGAAAAAAGTGGTTTTATTATTGGTAGTCTTATTAGGTATTTTTGGTTGTACAGGAAAAAATGTATCTTCAGGGACAAAAGTTAAAAAGGTAGTGAAAGAAGCTCCAGTAAAGCCTATAAAGGTAGGATTATTAGTAGAAGGGTTGGGGGATAAGGGCTTTAACGATTCTGCTTTCATTGGGCTAAAACAAGCTGAAAAAAAATTAGGAATAAAATTTAATTATGTTGAACCAGCTTCTGAAGAAGCAGTAGATTACTTTTTAAAAAAATATGCAGAAAGTGATTATGATTTAATAGTGGTTGTAGGATATAGAATGAAAGCAGCAACTGAAAAAGCAGCAATAGATCATCCAAATGCAAAATTTGCAATAGTTGATGCTAGAATAGATTTACCAAATGTAGCTTCTTTGCTTTTTAAAGAAGATGAAGGGTCGTTTTTAGTGGGGGCATTATCTGGAATGATGACTAGAACTGGAGTAATAGGATTTATAGGTGGAATAGATATTCCTTTGATTAGAAAATTTCAAGAGGGATATTCTAGTGGTGCAAAATATGTAAATCAAAATGTTATGACTGTTGATACATATATAGGAGGAGCTAACCCTTTTTATTCTCCAGGGACAGGAAGAAGAAAGGCAGAAGATATGATAAAAAAAGGAGCTGATATATTATATAGTGCTGCAGGTAGAACAGGCTTGGGTGTTATAGATGCAGCAAAAGATGCAGGGATATATGCAATAGGAGTAGATTCTGATCAAGATGGGTTAGCTCCAGGAACAGTTCTAACTAGCATGGTAAAACATGTGGATGTTGCTGTATATAATACTGTAAAAATTACAGCACAAGGGAATTTTAAACCTGGAATAAACTTATTTGGATTAAAAGAAGGTGGAGTTGGAATAACTGATCTAACATATACAAAAGATAAAATACCAACATATATGTTAGCAAAATTAAAAAAAATAGAAATAGGAATAATAGATGGCAGTATAGATATACATGCTAGATAATTAAATTAAGAATATATTATATTTTTTTTCGAGTTTATCTATAATTATAATGTATAAAAATAAAACTAAATAATATTTATATATTTTTATCTGAAAAAGCGTAGAACAAACAAAACACTTGACAAAAAATAGGATATAAAGTATAATAAGTTGCTAATTTATGAGGTGATAGTAATGAAAATAAACGTAGCAGAATTAAAAAGACAAAAAACAGATATAACAAATTTTTCAGGTGAATTACTGTTGGATAATCTGTATGAGGATTCTGCATTGGTAAAGTATAACTTAAATTTAAAGGTTGTAGGAAATGAAGTTATAGCAACAGGAAGAATAATAACGAAAGTAAAGTTAAAATGTGTTAGATGTCTTAAAAATTTTTATCAAGATGTAGATACCGAATTTGAAACTTCATATCTTGAAGAAGAAGATTATAATGAGTATTTAAAGTTAGAGGAAGCAGAACATTTTTTTAACAGTGATGAAATTGTAAGAGAAAAAATATCAGGAAATGAAATTGATATTGATAAGTTGTTCAGGGAATATATCCTTCTTGAAATTACAGAATATCCTATTTGTGATGTTAATTGTAATGGAATAGAAGAGATTGAGCTTTATTCTAAAAATGAAGAGATAGATCCCCGATGGAATCAACTTTTAAATATAACAAAGAAGTAAGAAATAGGAGGTGGAATACAGAAAATGGCAGTATCTCCAAAAAAAACATCAAAAGCAAAAAGAGATATGAGAAGATCGCATCATGCTTTAAAAGCCACAGGTTTATCAGTATGTCCTAGTTGTGGAGCTCCAAAGAGACCACATAGAATATGCTTAGAATGCGGTGTTTATGGTGATAAACAAGTTTTAAATGCAGGAGAAGAAGTAGTTGCAAACGCAGAATAGTTAAATCTACTAAGGGATGGGTTAAAAATAATTTGCACATTTGATAATAATATAATGTTTTGATCATTTTTATTATTAAATGTATAATAAAAATAATTTTTTAAACATTCTTAACTGAGAAAAGCAAGATATAATTATCTTGCTTTTTCTTTATAGTATAGGAGGAATTATGATAGTAGCATTAGATGCAATGGGTGGAGATTTTGCTCCAGTAGAAACAGTAAAGGGAGCTGTTTTAGCATTGGATGAAATAAAATCTTTAGAAATAATCCTAGTTGGAGATGAAAAATTAATAAAAGAAGAATTAAAAAAATATAGCTATGATAAAAAGAGAATAAAAATAGAGCATACAACTGAATTTATAAAAATGAAAGAAGAAAGTTCACCAGCTATGGCTGTAAGGAAAAAGAAAAAGGCTTCGATGAATATTTCTTTAGAACTTGTAAAAGAAGGAAAAGCTAATGCAAGCGTTTCTGCTGGTAATACAGGAGCTTTAATGAGTGCAAGTTTATTAAAATTAAAGCGTATAAAAGGAGTATTAAGACCTGCTATAACAACAATTATGCCATCTAAAAGAGGGAATATAGTTCTTATGGATGTAGGTGCAAATGCTAATTGTAAACCAGAATATTTAGAACAATTTGCTATTATGGGATCATATTATGCAAAACTGTTTCTTAAAAAAGATAATCCTAAAATTGGTTTGATTAATATAGGAGAAGAAACAGGAAAAGGAAATGAATTAGCAGTAGCTTCATATGAACTTTTAGAAAAAAATAAAAAAATAAATTTTGTTGGAAATATAGAGCCTAGAGATATAGTAGACACTGATATAGATGTGGCTGTTACAGATGGATTTACTGGAAATGTAATATTAAAAACAGCAGAAGGTGTAGGAAGTTTTATAACAGGAATATTAAAAGATGAAATAAAAAAATCTTTTATGGCAAAATTAGGTGCAATATTTTTAAAAAATGTATTTAAAACATTAAAATCTAAAATGGATTCTTCAGAATATGGAGGAGCTATTTTTCTTGGAGTAGATGGTATTTCAATAAAAGCTCATGGGAATTCAAATTCAACAGCAATAAAAAATGCGATTAAAGTTGCTAATTTTTTTGCAGAAGCTAATTTTATTGAAAACTTAAAAGAAAATTTTTAAGAATAATAATTTTTATAAACTGGAGGATATAATATGAAAAAGTTAAAAAGTGTAGGGATAGTTGGCTTAGGTTCTTATCTACCTGAAAAAGTTTTAACAAATAAAGATTTAGAAAAAATAGTAGATACTACTGATGAGTGGATAAAAAGCCGTACTGGAATAGAAGAAAGAAGAATTGCAGCTAAAGAAGAAGCTACTTCTGATTTAGCTATAAAAGCTGCTAAAAAAGCATTAGAGGATGCAAATGTATCTCCTGAAGAGATTGATTTGGTTATAGTCTCAACTATAACACCTGATTTTGCATTTCCAGCAACAGCAGCTATAGTACAAGATAAAATAGGAGCATCAAATGCTGCAGCATTTGATTTGGAAGCAGCGTGTACAGGATTTGTTTATGGATTAGCAGTAGGTGGGAATTTTATTGCTACAGGTATGTATAAAAAAGTATTAGTTATAGGCTCAGAAGCTCTTTCTAGAATTATGGATTGGGAAGATAGAAATACATGTGTACTATTTGGAGATGGAGCATCAGCAGCAGTACTTGGAGAAGTAGAAGATGGATATGGATTATTATCTTATGATTTAGGAGCTGATGGAAGTGGTGGACATACATTGGATCAACCAGGCGGTGGATCTAGAAATCCAGCAAGTGATGAAACTGTAAATAAAAAAATGCATTATTTGAGAATGAAAGGAAAAGAAGTTTTTAAATTTGCTGTTACTGCTTTACCTAAGACTACATTAAAAACATTAGAAAATCTTAATATGACTCCAGATGATGTTGATTTATATGTCCCACATCAAGCAAATGTAAGAATAATAGAAGCGGCAGCAAAAAAATTAAAACAACCTGTTTCTAAATTTCATATGAATATGAATAAATTTGGGAATACTTCATCTGCATCTATAGGAATAGCTTTAGATGAATTGTATAAAAATGATAAGTTAAAAAAAGGCGATAACATAGTATTAGTAGGTTTTGGAGCAGGTTTAACATATGGTTCTTGTTTAATTAAATGGTCAAAATAGTAATTCTAAAAGTAGGAGGACAAAAATGATAAAAACTGAAATTTGTGATTTATTAAAAATAAAATATCCAATATTTCAAGGAGCAATGGCATGGATAGCTGAAGGTAATTTAGCAGGACATGTTTCAAAAGCTGGAGGACTTGGAATTATTGCAGGTGGTGGAATGCCATCAGAATTGTTAAGAGAAGAGATAAGAAAAGTTAGAAAAATTACAGACAATCCATTTGCAGTAAATTTAATGTTGATGATGGATAATGTAGAAAAACAGATAGAAGTTTGTATAGAGGAAAAAGTTCCTGTTGTTACAACTGGAGCTGGAAATCCTGGAGCATTTATAAAAAAATTAAAAAAAGCTAAAATAAAAGTTATACCAATTGTTCCATCAGTTGCATTAGCTAAAAGAATGGAAAAATCTGGTGCAGATGCAATAATAGTAGAAGGGGTAGAAGCAGGAGGTCATGTTGGAGAATTAACAACAATGGCTTTATTACCTCAAATAACAGCAGCAGTGGATATTCCTGTTATTGGAGCAGGAGGAATAGCTACAGGGAAACAATTTGTAGCAGCATTAGCATTAGGAGCTAAAGGTGTACAAGTTGGGACAAGATTTTTAATTGCTGAAGAATGTACTGTTCATGAAAATTATAAAAAAGCAATATTAAAAGCTAAAGATAGGAGTACTGTTGTTACTGGAAGAAAAACAGGACATCCAGTTCGAATTATTAATAATAAACTTGCAAAAGAGTTTATTAAACTTGAAGAATCAGGTGCTTCAAATGAAGAATTGGAAAAAATGGGAGCAGGAAGATTAAGAGCAGCAGCAAAAGATGGAGATATTAATTTTGGAAGTGTTATGTCAGGACAAGTTGCAGCAATGGTTAATAAAGAGGAAACTTGCGAAGATATAATATTAGACTTAATTAATTCTGCAGAAAATGAACTAAACAATTTGAAAAACTTATATCTTTAAAATAATCAAAGAATGTTTAAAAAATAATTTTCTTATATTTTGTTATAAAAACGCTAAAATCGTGCGTATTTTAAAACAAAATGGAAATGTTATTTTTAAGCCGTTCATAATTTATAATTGGAGGTAAAAATGTCAAAAGTTGCATTTGTTTTTCCAGGACAAGGAGCTCAATATGTTGGAATGGGAAAAGAATTATATGAAAATAGTAATAAAGCAAAAGAGATATTTGATAATATATTTAGTGATTTAGAAATAAACTTGGAAAATATTATGTTTGATGGTCCAGAAGAAAAGCTGAAAGAAACAAAATATACTCAACCAGCAATAGTGGCGTTTAGTTCTGTTTTAACAGAATTATTAAAAGAAAAAAATATAAAAGCGGATTACGTTGCAGGACATAGCTTAGGAGAATATAGTGCACTTAATGCAGCAGAAGTACTTTCTATAGAAGATACTGTTAAATTAGCAGAATTAAGAGGAAGTATAATGAATGATATTACAGAAAATATAAATGGAACAATGGCAGCTATATTAGGAGTTCCTGCAGAAAAAATTATAGAAATTTGTAATGGAATTTCAGAAGTGGTTGAAGCAGTTAATTTTAATGAACCAAAACAAACTGTAATAGCTGGAACAAAAGAAGGAATAGAAAAAGCAGTAGAAGAATTAAAAAAAGCTGGAGCCAGAAGAGCGGTAATTCTAGATGTATCAGGTCCATTTCACTCATCATTAATGAAGCCAGCAGGAGAAAAATTAAAAGAAAATTTAGAAAATTTTAATTTTGAAAATGCAGAAATAAAAATAGTTGCAAACACTACAGGAAAAATTATAGATAGTGTAAAAGATATAAAAATAGAACTGTACAATCAAACATTTGGACCTGTAAAATGGGTTGATATAGTTAACGTATTAAAAGAAGAAGGGGTTACAAAAATTTATGAAATAGGTCCTGGAAAAGTATTAAAAGGATTAATCAGAAAAATTGACAGAGGATTAGAAGTGATAAATATAGAGAAGATAGAAGATATAGAAAAACTTTAAAATATATTAAAGATATTAGGAGGTTATTATGATAAATTTAAAAGATCAAATAGCAGTAGTAACAGGTTCTGCAAGAGGTATAGGAAGAGCAATGGCAGAAAAATTTGCAGAAGCAGGAGCAAAAGTAGTAATTACGGATATACTAGAAGATGGAGAAAAAACAGCACAAGAAATAGCTGAAAAATATGGTGTTGAAACAAAATTTATAGTATCAAATGTTACTGATTATGAAAGTGCAAAAAATTTGGTAAAAACTACATTAGAGGTTTTTGGTAAAATAGATATTTTTGTAAATAATGCTGGGATAACAAGAGATGGATTATTCTTAAGAATGAAAGAAGATGATTTTGATAGAGTTATATCTGTAAATTTGAAAGGTGTATTTAATTGTACACAAGCAGTTTTTAAAGCTATGGTAAAGCAAAGAAGTGGTTCTATAATAAATATATCATCTGTAATTGGATTAATAGGGAATGTTGGGCAAACTAATTATGCTGCTTCAAAAGCAGGGATATTAGGAATAACAAAATCTGTAGCTAGAGAAGGGGCGAGAAGAGGAATAAGAGTCAATGCCATAGCACCTGGATTTATCAAGACAGACATGACTCATATATTAAAAGAAGAAGTTCAAAAACAAATATTATCTCAAATTCCAATGGGGGAAATGGGGACTCCAGAAGATATTGCTAATACAGCGTTATTCCTTGCATCTGATTTGTCAAAATACATAACAGGACAAGTAATTACAATTGATGGTGGAATGGTAATGTAGGTAAAATAAAACTTGAAAAAACAAGAAAAATTTGTTATAGTTAATTTGAGAGGAGGTGAATTATTAATGGCAGAATTATTTGAAAAAGTTAAAGAAGTTATAATTGAACAATTAGGCGTAGATGGAGAATCAGTTGTAGCTGAAGCATCTTTCGTAGATGATTTAGGAGCAGATTCTTTAGATACAGTTGAATTAATTATGGCATTTGAAGAAGAATTTGGTGTAGAGATTCCTGATGAAGAGGCTGAGAAAATTAAAACAGTTCAAAACGTTTTAGATTATATTAAAGCTAACGCATAAACTATAGGGGTAATAATTACCCCTATAGCAAATCAATTATATTATATTGCTTATAGTATGATTGATTTGCAAAAAGTGTTTTTTAATACTTTTTGTTTTTGAATCGAAGCTTTTAATATATTAAGGAGAGGTGAAATAAAAAATGAATTTTCCAAAATTAAAAATAGGCAATCTAACACCTAAATTTCCTATTATACAAGGTGGAATGGCTATAAGAGTATCTATGGCTAAATTAGCAGCAGCAGTTGCTAATGAAGGTGGAGTAGGAGTTATTGCAGGTACAGGATTAAAATTAGAAGAATTAGCCAATGAAATAAAAAAAGCTAAGGAGATGACTAAAGGAATTATTGGTGTAAATATAATGTTTGCAGCAACTGATTTTGTAGAATTAGTAAAAACATCTATAGAAAGTGGAATTGATTTAATAATTTCAGGTGCTGGCTTTTCAAGAGATGTATTTGCAATGGCAAAAGAAGCTAAAATCCCATTTTTACCAATAGTATCATCTGTAAAATTGGCTAAAATATCAGAAAGATTAGGGGCTAGTGCAATAATAGTTGAAGGTGGTAATGCAGGAGGACATCTTGGAACAGATAAAGATAGTTGGGATATTGTAAAAGATATAAAAGAAGCAGTAAAAATTCCAGTTATTGGAGCAGGAGGAGTTGTAACTCCAGAAGATGCACAAAGAATGTTTGATTTAGGATTAGATGGAGTACAAATGGGAACTAGATTTGTAGCAAGTAAAGAAGTAGAAATATCAGATGTATTTAAAGAATTATATATAAAATCTAAAAAAGAAGATGTTGTTGAGATAATGAGTTCTGCAGGATTACCTGCGAATGCAATAAAGACAAAATTTACAAATTTAGTATTAGCAGGAAAAGCTCCAAAACCAGAAAACTGTACAAATTGTTTAAAGCATTGTAGTAGAAAATTTTGTATAAAAGATGCTTTGAATAGAGGTCATGATGGAGATTTAGAAAGAGGGGTATTTTTTACTGGAAAAGATGTTTGGAAAATACATGATATACTTTCGGTAAAAGAAATATTCCAACAATTTATAAATTATAAGGCACAATAATAAAATATAACTTTAGAAAGAGGTGGATGAATTGAAAAGAGTAGTAATAACAGGAATAGGATTAATAACAGCTCTTGGGACAGGAAAAGAAAAAACTTGGACAAATCTTTTAGAAGGTAAAACAGGGATTTCTAATATAAAATCATTTGATGCAACTGGATTCGCATCGACTGTAGCAGGAGAAGTAAAAGATTTTGATGCATCAGAATTTATAGAAAAAAAAGAATTGAAAAAATTAGCCAGATATACTCAATTTGCAGTAGTTGCTTCGAAAATGGCATTAGAAGATGCAAAATTAGAAATAACTGAAGAAAATGCAGAAAATATAGGAGTAATAGTTAGTTCTGGTATTGGTGGAATTGAAATAATGGAAAAACAATATTCTATATTGGAAAAAAGAGGACCTAGAAAATTATCTCCATTTACAATACCTGCCATGATCGAAAATATGGCTGCTGGGAATGTTTCTATTTATACAGGAGCAAAAGGACCAAATAAAAGTATTGTAACAGCATGTGCTTCTGGAACTCATTCGGTAGGAGATGCTTTTGAAATGATTAAAAGCGGAAGAGTTGAAGCTATGATTGCAGGTGGGACAGAAGCTTGTATCACTCCTCTTGCAGTAGGAGGATTTTGTGCATTAAAAGCTTTATCTACTAAATATAATGAAACTCCTGAAAAATCTTCTAGACCATTTAACGTAGATAGAGATGGTTTTGTAATGGGAGAAGGAGCAGGAATATTAATTTTAGAAGAGTTAGAATCAGCAAAAAAAAGAGGAGCAAAAATATATGCTGAAATAGTAGGATATGGAGAAACAGGAGATGCATATCATATGACATCACCAGCACCAGGAGGAACAGGTGCAGCAAGAGCTTTTAAAATGGCATTAAAAGAAGGAAATATCAAACTAGAAGATGTGGATTATATTAATGCTCACGGGACTTCAACTGCAGCAAATGATAGATTAGAAACAGCTGCAATTAAATCAGTATTTGGGGAACAAGCATATAAATTAGCTGTTAGTTCTACAAAAGGAGCTACAGGACATGCTTTAGGTGGAGCAGGAGGGGTAGAAGCTGCATTTTTAGCTTTGGCTGTATCAGAAGGTATAATGCCTCCAACAATAAATTATGAAAACCCAGATCCTGAATGTGATTTAGATTATATACCAAATAAAGCAGAAAAAAGAGATATAAAAGTAGCTATGTCAAGTTCTCTTGGATTTGGTGGGCATAATGCTGTAATAGCATTCAAAAAATATTCAAATTAGAAGAGGTGATATGGTTGTTATCAGATAAAAAAATATGTGAATTCGAAAAAAAAATTAATTATACTTTTTTAGATAAATCTTTATTAACAAAAGCTTTAATCCATAGATCATATGGAAATGAACATAGAGATTTTAAAAATATAAATAATGAAAAATTGGAATTACTTGGTGATGCTGTTTTAGATTTAATTATAACGGAATATATATATATAAAGTTTAGTAATGCAACTGAAGGAGAACTCGCTAAATTAAAAGCTATGATTGTTAGTGAGCCTCTCCTTGCAGAGGTTTCTACTGAAATAGGAATTGGAAGTTATATGTTTTTAAGTAAAGGAGAAGAGCTAACTGGTGGGCGAGAAAGAAATTCTATTTTAGGAGATGTTTTTGAAGCCTTATTAGGAGGGATTTACTTAGATTCTGGGTTTGAAAATGCCAAAGAATTTGTTTTAAAATATTTTGTAGATAGAATTGTTCATATTGATGAAAATCTTGATTTAGTAGATTATAAAACAATATTACAAGAATTTACTCAAAAAGAATATAAAAAGATACCAAAATATATTGTATTAGAAGAGTTAGGACCAGATCATAATAAACAATTTAAAGTTGGTGTTAAAGTTAAAAATAGTATTGTAGGAGAAGGTTTAGGCAGAAATAAAAAATCAGCAGAACAAATGGCTGCAAGAAATGCTTGTGGTAGATTAGAGGTAAAATTGCATGAAACATTATAATATTCCAATTTTTATAGTACATTACGGCTGTCCACATATGTGTGTGTTTTGCAATCAACAAAATATAACTGGAGTTATTACTAATATACAGCCTAATGAAATAAGAGCTATTATAGAGGAAACTTTAAAAACTTTACCTAAAAATTCTGAAAAAGAGATAGCATTTTTTGGTGGTACTTTCACTGGACTACCTATAAAATTACAAACTGAATTTTTAGAAGTGGCAAATGAATATATAAAAAAAGGGTTAGTCAATGGGATTAGAATGTCAACTAGACCAGATTATATTAATAGAGAAATTTTAGATAATTTATCAAAATATAATGTTACTACAATTGAATTAGGAGTTCAATCGTTTAATACTGAAGTTTTAAAGCTATCTGAAAGAGGTCATTCAAGAGAAGATGTCTTTAATGCTTCAGAATTAATTAAAGAATATGGAATAACATTAGGATTGCAAATAATGCCAGGATTACCAGGCTCTACAATTGAAAGCGATATTGCTGGAATAGAAGATATTTTAAAAATAATGCCTTCATTAATTAGAATTTATCCTACATTAGTACTTGAAAATACAAAATTAAATTCAATGTATAAAAATGAAGAGTATCAACCCTTATCAATAAGTGATGCTGTAAAAATAACATTACCTATGATAATTAAATTAGAATTAAATGGAATTAAAATTATACGTGTAGGGTTACAACCAGCAGATGATTTAAGAAAAGAAGGAGTAATTACAGCTGGACCATTCCACTCATCCTTTAGAGAAGTTGTGGAAAGCGAAATTTATTACGAATTTTTAAATATAATATTAAAAAAAGAAAAAGAATTAAATGTTATAACTAATCAAAGTAATATTTCTAGAATAGTTGGAATGAATAAAGTTAATTTAAAAAAATTTAATGGGAAATTAAATTTTAATATTGATAATTCATTAGAAAAAGAGCTTATTTTAGTAAATAAAAAATCCTATAAAAGAAAAAATATACTAATGGCTTTGGAGATGAATAATATATGAAACAGATAATAATTACTTCTACAGAATATGAAATAAAAGCAGCTTTACTTGAAGATGGGGTTTTAACAGAATTTTTTATTGAGAGAGATGATAAAAAAAGAATAGTTGGAAATATCTATAAAGGAAAAGTTGCAAATGTTTTGCCAGGAATGGAATCTGCTTTTGTAGATATAGGATTGAAAAAGAACTCTTTTTTATATGTAAAAGATTTAAGAGAGTTTGAAGAAAAATATCTTGATGGAATAGAACATAGTAAAAAACCAATAGAAGAAATTTTAAATGTGAATGATAATGTTATAGTTCAAATACTAAAAGAACCAACAGGGACAAAAGGGGCTAGGGTAACGACTCACTATACAATTCCTGGTAAATATCTAGTTTTAATGCCAAACAATGATTATATTGCAATTTCTAAAAAAATAGGTAATGAGGAAGAAAGAGAAAGATTAAAAAATATATTACAAGATATAAAGCCTGATGGCGTTGGAGTTATAATAAGAACAGATGCACAAGGAAAAGATGAAAAATATTTTATAAAAGAGATTGAATATCTAACAAAGCAATGGAAAGAAGTAGAACATAAATCTTATAATGCTCAAATTGGAGATCTTATATATAAAGATAGCACTTTAGTAGAAAGAGTATTAAGAGATATATTTTCATCAGAAATAGATCATTTAGTTGTAGATTCAGAAGATAATTATTGGAAAGTAATAGATTATATCTCTACATTTTCTGATTCAAATTTAAAACTAAAAGTTCAGCTATATCATGAGAGCGAACCAATTTTTGAACATTATGGAATTAATAGTGAATTAAAAAAAGTTCTTCAAAAAAAAGTATGGCTTGATTGTGGAGGATATCTAATTATTGAAAAAACAGAAGCTTTGGTAAGTATTGATGTAAATACAGGAAAAAACACAGGAACTTATGATTTGGAAAGTACTGTTTTTCAAACAAATATGGAAGCTGCAAAAGAAATTCCAAAACAGTTGCGTTTAAGGAATTTAGGTGGTATAATTATAATTGATTTTATAGATATGAAACTAGAAGAAGATCAGAAAAAAGTTGTAGAAATTTTAGAGGAAAATCTATCAAAAGATAGAATAAAGAATAATATAGTAAGATTTACAGAACTTGGACTTGTGGAAATGACAAGAAAAAGAACTGGGAAAGAACTTTCTAAATATTTTTTAGAGAAATGTCCACATTGTAATGGAACTGGAATGATAAAAAGTAGCGAATTTATTATTGATGATATTATTATGGAAATTAGATTTCTATCAGTAGATGAAGATATTAAAAGAATAAAATTAAAAGTTAGTAATCAATTATACGCAAAAGTACAAAGTTTATATTTAGATTTTATAGAAAAATATTTAAAAGATTATAATAAAGAATTTGAAGTGTTGTTAGATAGATCACTTGAAAGAGATAAATATGAGATTGTGCTTGAAAATTAGGAGGACAAATGAACAAAAATGCAATTTATCCAGGAAGTTTTGATCCAATAAGCAATGGACACATTGATATAATAAATAGAGCTTTAAATATATTTGATAACTTAGTTATTGCAGTTTTGAATAATTCAGAAAAAAAATCTTGGTTTTCTGTAGAAGAAAGAGTTAATATGATAAAAGAACTTTATGGAAACAATAAAAAAATACAGATAAAAAGTTTTGATGGACTTTTAGTTGATTTTATGGAAAAAGAGAATTTGAAAATTGCTATTAGAGGATTACGTGCGGTGTCTGATTATGAATATGAATTGCAACTAGCACTTTTTAATAGTCAATTATCTAAAGGAAAGTTTGAAACTATATTTTTACCAGCATCAAGAGAAAATTTATATTTAAGTTCAACTGTAATAAAAGAGATTGCTATTAATAATGGGCAATTAGAAGAGTATGTTGATAAAACAATTTTAAATAAAATAAGAGAAAAAGCAAAAATAAAAAGGGGTGAATAATTATGATAAAATTATTAGTTGTGGATGATTCATTATTTATGAGACAAATGTTAAAAAATATTTTGCCAAGAGATAAATTTGAAGTTGTAGGAGAAGCTTCAACTGGAAAAGAAGCGATTTCTAAATTTAAAGAATTGGAACCAGATTTAATCACTATGGATATAACTATGCCTGATATGGATGGAATTACTGCTGTAAAGGAGATTAGAAGAATATCTCCAGAGGCAAAAGTTATTATGTGTAGTGCCATGGGACAAAAGCCAATGATAAGAGAAGCTTTAGAAGCAGGAGCTATTGATTTTATAATAAAACCATTTGATAAAGATAAAGCAATAAAAATTTTAGAAGCAATGTCTTTATAGGCAGATATAGCTTAGGCTATATCTGTTTTTGTATAATTAAATATGAATTAAAATTTATATTTGATTATACAATATAAGAAACTTATTTTTTAAACGTTCTTTAGGAGAAAAAAACATGAAAAAAAAAGAATATTATGTGTGTACAAATTGTGGGTATAAAACTAATAAATGGATAGGAAAATGTCCAGAGTGTGAATCTTGGAATAGTTTTGAAGAAGAGACAGAAGCACCTATAAAGATAAAAACAGAAAAATCAATAAAAGCTATTACAATAAATGAAGTAGAATTGTTAAAAGATTATAGATATAAAACAAATTTTAATGAATTTGATAGAGTTCTTGGTGGTGGATTGGTAAGAGGGGAAGTAGTTTTATTAACGGGGAACCCTGGTGTAGGAAAATCTACTTTATTACTTCAAATTTTAAAAGATTATACTAAATATGGAGATGTCTTATATATTTCTGGAGAGGAATCTGCTGAACAAATAAAGCATAGAGCTAAAAGATTAAAAATAAATAGCGATAAACTATTTTTAGTATCTGAAACAGAAATCGAAGCTATAAAAAAATATATTTTAGAGAATAAACCAAAAGTAGTTGGAGTTGATTCTATACAAACATTATATTCAAACGAATATAATGCAATACCAGGAACTGTTACACAAATTAGAGAATCTACATTAAAGATAGTAGAAATGGCAAAAAAACATGGAATATCATTTTTTATTGTGGGGCATATTACAAAAGATGGTAAAGTTGCAGGTCCGAAATTATTGGAACATATGGTTGATGCTGTAATGAGTTTTGAAGGAGAAGAGAATTATTTATATAGAATTTTAAGAAATAGTAAAAATAGATTTGGTTCTATTAATGAAGTGGGAATATTTAATCTTGAAGATGATGGGATTAGTGAAATAAGAAATCCTTCTGAATTCTTTTTAGGTGAAAGAGATGAAAAAAATATAGGAAGTATTGTAGTTCCAGTCTTAGAAGGGACAAAAGTATTTTTATTAGAGATACAATCTTTAACATCAACTACAAATTTTGGAATGGCTAGAAGAGTTGCTCAAGGAATTGATTATAATAGAATGCAAATATTATTAGCAATATTAGAAAAAAAATTCTCTTTAAATTTAACTACACAAGATATATTTATTAATATTCCTGGAGGGTTGTCAGTAAAAGAGACAACTATTGATTTAGCTATAGCTCTTTCGATATTATCTAGTATTAGGGATATACCTGTAAATAATGATGTAGCTGCATTGGGAGAACTTGGACTTAGAGGAGAAGTGAGAAAAGTATCTTTTATAACAAAAAGATTAAATGAACTAAAAAAAATGGGATTTAAAAAAATTTATTTGCCAGAGGGGAATAGAAAAGAAGTAGAAAAATCTAGTATTAATTTAAAATTTTATTATTTAAAAAATTTATATGAATTATTGGAAAGGATGAAATAAAATGAAAGATAATAGTGCAATTTTAAAAATGTTAGCATTAGCATCTCCAGGGACAGATCTAAGAAAAGGTTTAGATAATATATTAGATGCAGAGACAGGAGCTCTCATTGTTGTAAGTGGGTCTTCAGAAATATTAAGTATTTCTGATGGTGGATTTGAAATAAATTGTAATTATGAACCTGAAAAAATATATGAACTTGCAAAAATGGATGGAGCAATAATTATAGATAAAGAAGTGAAAAAAATATTGATGGCAAATGTTCACTTGCAGCCTAATTCTAAAATTACGACTATTGAAAGTGGAACAAGGCATAGAACTGCAGAACGTGTAGCAAAACAAACAGGAGAATTAGTTGTATCTATTTCTGAAAGAAGAAAAAGGATTACACTTTATCAAAATGATGAAAGATACATGATAAGAAATATTACAGATATAATGAGTGAAGCAAACCAAGGTATAAAAACATTAGAAAGATATAAAACGGTATTAGATAAAGAACTTAAATATTTAACTATTATGGAATTTGATGAAATGGTAACATTATATGAAGTTACACATGTAATACAACGTTTCGAAATGTTATTTAAAATAGCTGACGAGATAAAAAAATATATAGTAGAATTAGGAGTAGAGGGAAGATTAATAAATATGCAATTGGATGAACTATTAATGGGAACTCAAGAAGAATTTGAATCATTATTAAAAGATTATTATAATGAAGAAAGCCAATTAAGTATGGAAGATATTATAGCAGGATTAAATAGATTAAATCAAGAAGAGATATTAATAATAGAAAATATATCATATTTACTTGGATATTCTAAAAATTACAAAACATTAGATGATAAAATAGTTCCAAAAGGATATAGAGTTTTAGGGAAAATATTAAAATTAACAAAAAGAGATATATTAAAAATAGTGGAAACATTTATAGATTTAACAAGTATTTTAAATGCAACAATAGATGATATTTCAGAGATAAAAGGAATTAGTAAATTTAAAGCTAAGTCAATACAAAATGGATTAAAAAGATTAAAAGCTACTATTTTATTAGAGAAAGAGATCTAAAATTATAAGAAATATAAATGAATTATTTATAGATTTAAAGATACAAAAAATAAAAAATTATGGAGGTTATTGTTATGGCAGAAAATGATTTAAATCAAAATGTTAATAATTTTTTAAAATTTGTAAAAGGGCTGGGAATATTTGGAGTACTAATCGTACTTGGATTGTATTTAGCAACAGGTATCTATGTAGTTCAACCTGATGAACAAGCAGTAATACTAAGATTTGGTAAATATGTTGAAACAACTGGACCAGGAGTGCATTGGCATACACCATCACCAGTTGCTGCTGTTTATAAAGCTAAAACAACAGCAGTTCATAGAATTGAAATAGGATTTAGAACCATAAATCCAGGACCACCTGCAAGATATAGAGATATTCCAGAAGAGGCTCTTATGCTTACAGGAGATGAAAATATATTATCAGTAGATGCAATTGTACAGTATAAAATTAAAGATATTAAGCAATATATTTTTAATTTAAAACAACCGTATAAGATGCTAAAAGATGCGGCAGAAGCCTCTTTGAGACAAATAGTAGGGAAAAATTTAGTAGAAGAAGTTTTAACAGTGGGTAAAGAAAAAATTCAAAGAGAAACTAAAGATAGATTGCAAGAGATATTAGATAAATATGAAACAGGAGTTTATGTATTGAATGTGCAATTGCAAGATGTACAGCCGCCTAAAGAGGTAATAGGAGCTTTTAAAGATGTGGCTAGTGCAAAAGAAGATAAAATTCGTTATATAAATGAAGCAAATGGATATAGAAATGATATGATTCCAAAAGCAAGAGGAGAGGCGGAAAAAGCTTTAAATGATGCAGCAGCATACAAATCAAAAAGAATAAACGAAGCACAAGGAGACGTAGCAAGATTTACAAAATTATATGATAAATATAAATTAGGGAAAACTGTAACTAAAACAAGAATGTACCTTGAAACAATGGAAGGAATTTTGCCTAATGTTGATAAAATAATTGTAGATAAAAATTTAGAAGGCAAATTATTAAATATTATCGGAAAAGAAGGTGATATCAAATGAAAAAAATATTAGGAGTAGTAGCGATAATAGCAATAGCTATATTTTATACAGGAGTGTTTTATGTTACAGAAATAGAAGAAGCTATAGTAGTTAGAATGGGACAACCAGTTAGAAAACCTATTATGAAAGCAGGGCTTAATTTTAAAATACCATTTATAGAAAAAGTTGATAAATTTGATAAAAGATTATTAGAATACGATGCAGAACCTAAAGAAATAATTACAAAAGACAAAAAAAATATAGTAATCGATAACTATGCTAGATTTAAAATAAGCAATCCATTGCTTTTTTTACAAACAGTACATGATGAAGCTGGAGCTCAAGTAAGATTAGATGATATAATATATTCTGAGTTAAGACAAAATATAGGTAGATATACATTAACAGAGATATTGTCTTCTAAAAGAGAAGATATTATGAGAACTGTAACTAAAAATTCTGATGAAAAAGCTAGAGAATTTGGAATAGTTATTGTAGATGTAAGAATAAAGAGAGCAGATTTACCACAACAAAATGAATTGAATGTATATAAAAGGATGCAAACAGAAAGAGCTCAACAAGCTAAAAAATATAGAGCAGAAGGAAAAGAGCAAGCATTACAAATAGAATCAAAAGCAGATCAAGAAAAAACAACAATTTTAGCAGAAGCATATAGAAAAGCAGAAGAGATAAAAGGAGAAGGAGATGCAAAAGCTCTACAAATATATGCAGATGCTTATAATAAAGATCCTGACTTCTATAAATTCACAAGAAGTTTAGACGCATATAAAAAGATTTTTTCTCAAAAAAATAAAAACAGAATTATTATATCAACTGATTCAGATTTGTTTAATCTTTTTGGTGGTGTAAAATAAAAAATATATATAAAATTTCCCCTTCTTAGATTTTTTTGAGAAGGGGAAAGCTTTATAAGAGGGACAATAGAGGGCACACTTACCCAACTTCAAAGGCATCAGGGAATAGACCTCATCCCCCGACCCCTTCTCCTAATTTAGGAGAAGGGGAGTAAAAATAAAAAAATTCTATCCTAAGATAAGAGAGGATTCAGGTGAGGTCTGAAAAATGGGAAAAAAAATAATAAAATAAAAGAACAATAAAATAGAGGAGGAAACTATTAGATGTTATTAAAAAATAGAAATCTATTTGGAATCAAAGATTTATCAGTAGAAGATATTATGGCTATATTTGAAAAAGCCAAAGAATTTAAAGCTTTATCAAGAAGTAAAATAAAAAAAAATAGTTTATTAAGAGGAAAAACAGTAGTTAATCTTTTTTTTGAAAATAGTACTAGAACAAGAAGTTCATTTGAAATAGCAGGGAAAAGGCTTGGAGCAGATGTTATAAATATGAGTGTTAGTACTTCATCTATAAAAAAGGGAGAATCGCTTATTGATACAGCAAAAACATTAGATGCTATGAAGGCTGACTTGTATGTAATAAGGCATTCTCAAGCTGGAGCACCTAAAATGTTTTCTAAATATGTAAGTGGTCAAGTAATAAATGCAGGAGATGGAGTTCATGAACATCCTACGCAAGCATTATTAGATGGATTTACAATATATGAAACAGGGAAGAAATTTAAAGATTTGAATGTAGCTATTATTGGAGATATTCTTCATTCAAGGGTTGCACGTTCAGATATATATTTATTAAAAAAATTAGGTGCAAATGTAACATTAGTTGGTCCTGCTACACTTATTCCAGATGAATTCAAAAGTTTTGGAGTTGAAATCGAAAATAATTTAGATAATATTTTAGGAAAAATGGATGTAATTAATCTTTTGAGAATTCAATTAGAAAGGCAAGGTGATAGTTTATTCCCTAGTTTGGATGAATATCATAATTTTTTTGGGTTAAATGATGAAAGATTAAAAAAAATGAAAGAAGATGCAATAATAATGCATCCAGGACCAATGAATAGAGGTGTCGAAATTTCATTTGATGTAGCTGATTGTAAACAACAAGTGATACTTGACCAAGTAGAAAATGGAGTTGCTATTAGAATGGCATTATTAGCTTTAATTATTGAAGGGAGTGAATAAAATGAGGATATATCCTGATTATAATGAAATAGAAAAAGCATCAAAACAAGGGAATGTAATTCAAATTTATACAAAAATATTAGCAGATGTAGAAACTCCAATATCTGCTTATTTGAAATTAGCTAAAGATGAAGAATATTCATTTTTACTAGAGAGTATTTCTGGAGAGGATAAATTTGCAAGATATACATTTTTGGGAGTAAATCCATCTATTAAAATTTCTGCAACAGATGACAATGTAGAAATAATAGAACATGAAAAAACTACTGAATTCAAATTAAAAACTGGTGAAAATCCTTTGGATTATTTAAAAAATATAATGAGTAAATATAAAATGGTAAAAAATGAAAAATTACCAAGTTTTGTTGGTGGGGCTGTTGGATATTTTGGGTATGATACTGTAAAATATTTTGAAAAAATAGAGAAAAAAAATAGAGCTGAAATTAACGTTCCTGATATGTATTTTATGATCACAGATACAATCTTAGCATTTGATAGATTTAAACAAGAGCTATTAATTATTTGTAATATGTTTATAGAAGAAGATAGAGATTTGAAATCAATTTATGATGAAAGTGTTGAAAAGATAAAAAATATTTATGAAAAATTGACAAATGAAGTTAAATTAAATTTTCAAATAAGCGAAGTAAAAGAAGAAATTAAAATCAGTTCTAATTTCAAAAAAGAGGAATTTTATAAAGCTGTAGAGAGTTCAAAAGAATATATAAAGTCAGGAGATATATTCCAAGTTGTATTATCGCAAAGATTTATGGCAGAATACAAACATAATCCATTTGACGTATATAGAAGACTAAGAAGCATAAATCCTTCACCATATATGTTTTATCTCAACTTTAAGGATTTTAAAATAGCAGGGGCATCACCTGAAATTTTAGTGAAATTAGAGGGAGATACAATTACTTTGAGACCAATAGCAGGGACTAGAAAAAGAGGAAAAGATGTAGAAGAGGATATTGCATTGGAAAAAGAACTTTTGAGTGATGAAAAGGAGATTGCAGAACATATAATGCTTGTAGATTTAGGTAGAAATGATGTAGGAAAAATCTCAAAATATGGAACTGTAAAAGTCACAGAAAAAATGGTAATAGAAAGATATTCTCATGTAATGCACATTGTGTCTAGTGTACAAGGTAAAATTGAAGAAGATAAAGATGGATTTGATCTATTGCAAGCAGTATTTCCAGCAGGGACATTAACAGGAGCTCCAAAAATAAGAGCAATGGAAATTATAGAGGATTTGGAACCAGTTAAGAGAGAAATATATGGTGGAGCTATTGGATATTTTAGTTTTAATGGAGATTTGGATAGCTGTATAACAATTAGAACAATGGTATTTAAAGATAATAAAGCATTTATGCAAGCAGGAGCAGGAATTGTATATGATTCTATTCCTGAAAATGAATATAAAGAAACAGAGAATAAGATTGCTCCAGTTATTAGGGCTTTGGGGTAGGGCGTTAATAGTAGGAATTAGAGATAAAGTTTTCGCATATACAATCTTTATGGAAGGATATGCGAAGGTTTTATGCGTGTATAAACGAGTTAGGTGCAATTGTAATTTTTATATAAATTAATATTTTGAGATAAATTCAGTCATAAGAGATAAATAAGATGATTATTAATTAAAATAAGGAGAAGAAAAAATGTTTCCAGATATAAATGACTTTGATAAGAATGATTTTAGACAATTGATATTATATTCATGGAAATTTGAATTAAATGCAATTGAAAGTTTAATAGAGATAACGAGTAAGGACATGGAAGAAAAAAGAAAAGAATTACATGATTTGTCGGTAGAAAATTTAGATAATTATATTCATGAAGAGTGTATGAAAAATATTATTTATTTGCATGAAACAGAAATGCTTGCATTTCAATCTTTTTTTTTAACGATATATTCAGTAGTAGAAGCTTCTTTAGATAGATATTGTGAAATTTGTAAAAGAAAATTTGAATTAAAGATAGGGCTTGAAGATTTAAAAGATAAGGGAATAACAAGAGCAATTAACTATTTAGAAAAAGTTGTAGACATGGAAGAAATTAAATACAATGATATGTATAGAAAAATGAAACTAATAAATAAACTAAGAAATGATATTATTCATAAAGCGGGTTATATATCTGAAAAAGGAAAAATTGAAATATATAAAGAAGAATTAGAATTAGAAGTGATTGATGGAAAGATAAAATTTATTTGTGAAGATATTAAAAGGTTATATAAATATATGGATGATTTTATTAAATTAATATTTAGCAAAAAAATAAAATCATATGATGAAAATTTTAATAGTGAAGAATTTGAAATTGTAGAATCAATAGGAGAATTTTATAAGGAAAATAGAGTAGTTATATTGAAATTGAAAGATCAAGAAATAAAAATTGGTGATTTTATGTATATAAAAAGAAATGAAGAATTAATAAAATTAGAAATACTTGAAATTCAGCTAAACGGGAAAACAGTTACTGATATAAAGGATGAAGAGGTAGGAATAAGGTTTAAAGATAAATTAAAAAATACAGATTTATTTTATTTAAAGAATAAAAGCAATATACAAAATATGATAAAAGGAGAGAAAATATGAAATGGGAAATAGATGTAAATAAAGAGAGAAATGAGATTTTACTTTTTGATAAGAAAGGAATTAATGGTAGATATAAATTTTATTATGATGAAACAAATAATTTTAGAAAATTTTGGATAAAGGAAAATAAATTTAATGCATCTACGAATAAGAACTTTGTTTTAGCAGGTTTAGTGCATGAAGATGTAGAAGTTTTACCTAATATAGAAGATTTATTTGGAAAATTGAAATTACAATCAAATGTGAAGGAATTGAAGTTTAAAATGATATCAAAGGGTAAATTTCTCGAGTGTTGTAAATCTCAAAAATTGAATATAATATTAAAATATATTTATGAAAATAAAATATATTTACATTATGTAAAACTTGATCCATTTTATTACTCGATAGTGGACATAATAGATTCGATATTAGAAAATGAGTATATGGATTTTTCTTTTGAATTAAAGAATTGCTTATATAAAATAATGTATGCGGATATAGAAAAGACTACAGAATTATTTTTAAAACATGATTATCCAAATATAAAAAAAGATATAAAAAATGAATTTATTGATGATCTTTTAGATATGATAAATGAAAGTGAAGTTAAAAATATGATGAAAAATTTTCTAATAGAGTTGTTAAAAAAATCAAGAGAAAAAGAAGAATTACCATTTATAATGGACAATTTAAACAATAATAAATGATTTATTATTGTTTTATATTTCACCATTAAAGTTATTTAAAAATTCAATACATATTTTTGATGAAGAGAAAGAAATAGAAAAATTGATAAGCAATTTAAAATTTATAGATGATGAAAAAGAATTATTGCATTATGTTTTTAAAAAGTCAGAAGAAGATAAAATGATACAATTATCAGATGTAATTGCAGGTTTATTAGGAAAATATTTTGATTATATAAAAGGAGGATCGTTTATAGAGATAGAAAAAGATATAAAAAAATTAAAAGAACATGAAATAGAATATGAAAATTTAATATTATTACATAAGATATTGAAAAAATCAGAAGATAAATGTATTGGATTTTTACATAATACTTGCTGTATTGAAGAACAGAAAAAAATTTCTTATATTTTTGAAATGCTTGAGGAAGATTTATATTAGATAAATTATTTTATATTTTGAGAGTTTAAAGGTTTTTTTATAAAAAGAAGCGAAGTTATTAAAGATAAAGAAGTAGAGATGACTGCACCTAACACTATGCAGTCGATACATCTTCACCTAAGCCCTGTGGGACGTAATTCGATTCGCTAACAGGAGACCTGTAACGCTTATCTTCATTACTCTAGTGGTTCAGAAGCATCGCCTAGCATGGGAGCCGTTATCTGACAGAAATCAGCCTTTATTTATCTAATAAAGTTGGTTTTAACCGTTAAAATTTAAAAGCAAAAAACCAAAACTCGCCTAAAGAAATTTCCGCCGACCGTCCTAGTCGGCTAAGTAAACATATTTAGTGAAAAAAATCAAAAAAAATGTTATAATTGACCATAAATAATTATAAAAAAGAGGTGGAATATGAAAATACAAGAAATATTAAAAGATAGTAATTATAAATTGTCATTATTTAATGAAAGTTATATAGAAAAACTTGAAAATTCTATTTTTGAAAAGGAATTAAAAAATGGTAAAGCATACTACATAAAATGTATGGTAAGAAATAAAGATATAAAATTAACTCCAGAAGAGATTGTTAGGCAATTATACCTAATGCAGTTAAATGAAAAATACGGATACTCATTTGAAAGAATGCAAGTAGAATATATAGTGAATTTTGGAAGAGAGAAAAAAAGAGCAGACATAGTAATTATGGATAAAATACAACCAACAGTTCCATATATTATTATTGAAGTGAAAAAACCAAAATTAAAAGATGGAAAAGATCAGTTGAAATCATATTGTAATGCAACTGGTGCAACTATGGCCGTATGGAGTAATGGAGAACAAATAACATATTATCATAGAAAAGATCCTAATTATTTTGAACCAATAACAAATATACCAACAGAAAAACAGAGTTTAAGAGATTTATTAAAAGAAAAATTTTATATAGATGATTTAATTGAAAAAGATGAGTTGAAAAATCAAAAAAAATCACTTAAAAGTATTATTTTGGATATGGAGGATGAAGTTCTTTCAAATTCTGGAGTAGATGTATTTGAAGAAGTTTTTAAACTTATATTTATAAAACTTTATGATGAATTACAGAGCACAAGAGATAGAGATAGAATGATTGAATTTAGAAAATATGGCGAAAGTGATAGTGAATTAAAAGAAAAAATAGAAGAACTTTTTGATAAAGCAAAGGAAAAATGGACAGGAATTTTTAAAGATGATGAGGGAATAGATTTAACTCCATCTCATTTGTCTGTTAGTGTTTCATCATTACAGAATGTAAAATTATTTAATTCTAACCTTGATGTTATTGATGACGCTTTTGAATATCTTGTAAATAAAAATTCAAAAGGTTCAAAAGGTCAATATTTTACGCCTAGATATGTAATTGACATGTGTGTAAAAATGCTGAATCCAAAAGAAGAAGAATATATTATAGATACCGCAAGTGGAAGTTGTGGATTTCCAATTCATAATGTTTTTGATGTATGGAAAAAAATATATAATGAATTAGGCATAGAAGAAAGTCATTTGTTTACTGCAGAAAAAAAACATGCAAGGGCATTAGACTATGTAAAAGAAAAAGTTTTTGGAATAGACTTTGATAAAAAAAGTGTTCGAGTAGCAAGAATGTTAAATATTATTGCAGGAGATGGACATACTAATGTATTAAACTTAAACTCTTTGGATTATGGAAGATGGGAGGAAAGTACTAAAGATGAAAATTGGCAAGATACTTATTTTGATGGTTGGAGAAGACTAAAAAAATTAAGAAAAAACAGAAATTCAAATAAAGAGTTTGAATTTGATATTGTAATGGCAAATCCACCTTTTGCAGGAGATATAAAAGAAGGAAGAATTTTAGCAAGATATGATTTAGGGAAAAAACCAAATGGAAAATGGCAGACAAAAGTGGGGCGGGATATTTTATTTATAGAAAGAAATCTTGATATGTTAAAATCTGGTGGAAGAATGGCGGTAGTTTTACCACAAGGAAGATTTAATAATTCAAGTGATAAAGCTATTAGAGATTTTATAGCCGAAAAATGCAGGATTTTAGCAGTAGTTGGACTTCATGGGAATGTTTTTAAGCCACATACAGGAACCAAAACAAGTGTTTTGTTGGTGCAAAAATGGGATGAAAAACTTTGTCCTAAAAAAGATGATTATAATATATTTTTTGCAACTATGCAAAAACCTAGTAAAGATAATAGTGGAGATAAAATTTATGTAAAAGATGAAAATGGACAAAATATTTTAGATGATCATGACCATTTGATAGTTGACCATGATTTATATAATCACGATGGAAAAACAGAAGATGGAATAGCAGAGGCTTTTATTGAGTTTTCAAAAAAGGAGAAGTTGAGTTTTTTTATTTAAGCCCTTTTGATGAGGAGAAATATAAAAACTTATTGGAAGGGCTGGGAATTAAAGAAAAACTTTTTTCACAAGTATTTGAAAATAAAGACTTTAGAATAGATAGTCAATTTTATACAAAGGAGCCTATTAAAAATCCGTTACTTATTTATGATAAAATTGGAAATAAATTAGACAAATCACAATATGGTATATCAATATCTATGAATGAAAATAATGTAGGGTATCCAATATATAGAATGAATGAAATACATAATTTATTATGTGATTTAAGTGTAAACAAATCTGCAAATATTTCAGAAAAAGAATTGGAAATATTTAAGTTAAATGATAGAGATGTTATTTTTAATAGAACTAATTCTTTTGAATGGGTTGGAAGGACAGGCATATATAGAAAATTAGATAATAAAGACTTTATTTTTGCTTCATATCTTGTGAGATTTATCCCTGATGAAAAATTTATTTTACCTGAATATTTAACAGCTTTTTTAAACTCAAAGCAAGGAGTATGGGATATAAAAAGAAGAGCAAGACAATCAATTAATCAAACAAATGTAAATCCCGAAGAAGTGAAAGAAATTGAGATTCCTTTACTTTCAATGATATTTCAAAAAAGAATTAAAAACTTATTTGAAGAAGCACATATTAGTAGAGTTACTTCTGAAACACTATATAAACAAGCAGAAAATATTTTACTTGAAGAGCTAGACTTAAAAGACTGGAAACCAACAAATGAAAATATAAAGATTAAAAGTTTAAAAAACTCATTTTTGCAAAGTGGAAGACTAGATAGTGAATATTATCAGCAAAAATATGAAGAGATAATTGAAAAAATTAAAAGTTATAAGGGTGGGCATGATACTTTAGAAAATCTTTGTAACCTAATGGATAAAAATTATAAACTAAAAGAAAAACAATATTATAAATATATAGAATTATCAAATATCGGAACAACTGGAGATGTTACTGGATTTACTTATGAGTTAGGAGAAGACTTGCCAAATCGAGCAAGAAGAAGAATAAAAGAAAATGATGTAATTGTTTCTTCTATTGAGGGTTCGCTTGAAAAAGTTGCATTAGTGACAAAAAAATTTGACAATAGCTTATGTTCAACAGGTTTTTATGTAATTAATTCTGAAAAAATTAATTCTGAAACATTACTTATTTTATTAAAAAATAAAATAGTACAGCAAATACTAAAACAAAATTGTTCGGGTACAATTTTAACAGCAATAAATAAAGATGAATTTTTAAGAATAGGTCTTCCAATAATAGATTTGCTAATTCAAAATAAAATAGAAGAGAAAATAAAAGAAAGCTTTGATTTAAAAGAAAAATCAAAACAATTATTAGATATTTCAAAATTAGCAGTTGAAAAAGCGATTGAAGAAAATGAAGAAATAGCTTTAATGTGGATAGAAAATAAATTAAAAGAACTAAATATTAAATTAAATGAGGTATGAAATGGCAAAAAAAACTATTGCGGAAATAGAAGAAAATATAAATAAACAACGAAAAAATGTAAAATATGATACAAAAGAATATACCCTTGAACTATTAGTTTCAAAGTTTAATAGAGCTATAGAAGAAAGTAAAACTACTGAAATTTTTGTTCCTTTTTATCAAAGAAAATTCGTTTGGGATGAAAAAAGACAATCTAAATTTATAGAATCTTTGATTTTAGGAATGCCAATACCACCTATATATTTAGCAGAAATAGACGATGGTGTTTTAGAAATAATAGACGGATCACAACGAATTAGAACTATTAATGAATTTTTAAAAAATAGACTAAAATTAAAAGGATTGTTAAAGCTTGAAGAACTAAATAATATTACATTTAATGAATTAAATAGTTCCAGAAAAAGAAAAATAAATAATATCTCAATTAAAGCAATAGTAGTAACGGATATAGAAAAAAAGGATATGAATATAAGACATGAAATTTTTGAAAGATTAAATACTGGAGGAGAAACATTAAAAAAAATGGAAGTGACAAAAGGAGCGAAAGAAGGTAAATTTATTGAATTTATTTATAATGAATGTGGAGAAAACTCAATTTTAAAAGAAATATCAAATTTTAGTTCTAATGATGAAAAAAGAGGTTATAAAGAAGAATTTTTAATAAAATATTTTGCCTATTGTGAAAATTTAGAGTTTGAAATATATGTAAATGATTATCTAAATAAATATATTGAAGAGAAAAATGAAAAATTTAAAAATGATGATACAAAAGATTTATATTTGATTCAGTTTAAAGAAATGTTGAAAATAGTAAAATACAATGAATTAGTAAAAGATATATCTATAAATAGAAAGAATAGATTGTTAGCTATTTTTATAGGGGTTACATTAGCGATAAAAGAAAAAAAAGAATTAGTTAATAAATCATTTGAAATAGATATTTATAGTGAAATATTTATAGAGAACGCAAAAAGTAATGGTTTAAATAAATTAAAGGAAAATATAGAATTAGTTAAAAATAAAATATTAGAGGCAAGTTTATGACAAATGATCTAAGAGAATTTTTTGAAGAAAGAAAATTAGAAGTAGAAGAATTTTTTAATTTTCTTTCTACTATAAATGATAAGAAAACTTATAAAAATGAGTTTTTAATTTTAAAAAGTCAATCAATTTTATTGTTATATAATTTAATTGAAGGTTCTGTTAATAAAGGAATTGAGTATATTATTGATTCAATTAATGATAAAATGTTGAAATATAGCGAAATTGATGAAAAAATAAAAATTATTTGGTATAAACATAAAGCATCAAATATTAGAAATAAAGATGATTATAGTGAGATTTTAAGAGAAATTGAAAATTATATTAATCAAGAAGTGGAAATTGATATAAAAAAATTCAGGAAAAATAATAGTAGTTATTTTTCTGCTGGAAATTTAGATGGAAATGCTATTAAAAAAATGTTGGAAAAACGATTTGAGATTGATTTTTCTAAGCAAGAATATAGATTGAAAAGAATAAAAGATGATAGGAATTTTTTAGCTCATGGTGAAAAATCATTTAAAGAAATTGGAAGAGATAAATCATTAGAGGAGTTAATTGAGACAAAAAAGAAAAGTTTTGAATTTTTAGATAGTTATATGGAGAAAATAGAAGAATATATTGAAAATGAAAAATATTTAGTATAGATATACAGCCCACTGTCCTAGTGGGCTTTCTGCATAAAAAACGGCGAGTTTTGGATTTTTAAGTAGAGATGAAAGTAAAAAAATTCTAATAAAGTTGATATTAATATAAAGAACATGCTGATTTCCGTCACATAACACACGATATAGAATATCTTTTCGGTGGTTCGCTAGAGCTTCACGAACTTCAAAGGCATCGTATTATCGATGGAACCGTTATGAGCAATGCATAAAGTAAAAGCAAATAAAAAAAGAGGTGGTACCGGTAACATTATAAAATGAAATCAAATAAATAAAAACTAAAAATTGGAGAAAACGTATAAATGAAATTAGAGTTAGTTTATGATTATAAAGAGAATGAAATATTAAGGAAGAGTTTTAATGAGTTAAGCCAGAATACATTTGGAATAAACTTTGAAGAATGGTATCGAAAAAAATTATGGAATAATAAATATGAGTGTTATTCCATAAAAAGTGGTAATAAAATAATTTCAAATGCTTCCGTAAATAAGTATCAGTTTATAATTAACGGAACAAAAAAAACTGCATTACAAATTGGAACAGTTATGACAGATGAAGAGTACAAAAGGAAAGGAATGGCTAAACAGATAATAAATTTTATACTTGAAAAATTTGAAAAAGAATATGACATAATTTATCTTTTTGCAAATAATTCTGTATCTGAATTTTATCCTAAATTTGGCTTTAAAAAAATAAAACAGTTTCAGATTTATACAACAGAAAAAATTGAATTGAATACTAAATATAAGTTTCGTAAATTAGACATGGATAACTTAAATGATGTTGCCATATTGAAAGAAATAGGAATAAATCGTATTCCTACCTCAAGTCAATTTGACATAATAAACGGATACGAAGTAATGTTTTGGTATTGTCTAAATGTTTTCAGAGGTAATATATATTATGATAACAGGGAAAAAATCATTGTTATATATACGACTGATAATGAGAAATTAAATATACATGATATAGTTTTAACAGAAAAAAAGAACTATAGAGAAATAATCGGAAGTATAACAACAGATGAAATAAAAGAAGTATCGTTTGATTTTAATATTGAAGCAGACAATATAGAAATAAAAGAGAGAGAAGTTGATGAAGATGATAATATTTTATTCATTAAGGGAAAATTTGGTGAAAAATTAAAAGTAATTCATCCAATAACATCACACGCATAAAAGAAGTATATTAAAACGTAACAAAAATAGGAATCTAAAAAGCACTTCTCATAACAGCGAGGTATGTGATACGTTAAATGAAATTGCAGGTGATAGACTGTTTTAATAAACAAATTTTAGTGAAGAATGTACTTCACAGCTCTTTTAAAAAAGGTATCTCTAAAAATTAACTCATAAGTTAGATAAAAATATACAGTTATGCAACAAAAAATAATTAATGGAAAAGGTAGTGTCAAAAGTTTATGAAAACTATGAGAAAAACTAAAAAAATAAAAAGCAGAAAAAGAAGAAGAAATTTATGCTAAAATCATGAAAAAACCCTAAGATTTTTTATAGAATTAAATTGAAAATATTAGAAAGAAATAAAAAACAAAAAGCAGAAAAATCCATCACTTTTGAGAAAAAAGTAATGGTAAGGCAGAAGTAAAATTATAAAAATTATGCTATATGTTTTTCAGGAATAAAATATTGAGATAACTCAATAAGTTTACCCCAACGAGCAGGCATGTTGGGTAAATCAGTAAGTTCAGGAATAACAACAGGTACGTTATTTTCCAAAGAAGAATGAGGCCGAAGGAAATTAAAATACGCTGTAAATAAAGTAACAGAAGTAAAAGCGCCAGAATGAGAATTGTAACCGTTAGTATAATGATAATTTTCTTTAAAGGTTCTGTTCAGTCTTTCAATAATTTGTTTAAGAGGCCTAAATTTTTTAGAAACTTTATCTTTATTAGTTAAACCGATGACTTGTTCAACGTTAAAATTAATGTCGTGTTGAGCAAAGAATTGTTGTGCTAGCAAGTATATGGGGTTGCCATCAACAATGACTTGGAAGTCTTCAGGGAGCTCCCTATACTTGCTAATAACATCAATAAGAGCTTTGCAAGCAGATTTAGTATCTCTTGAAGAAGAAGTATAATGAGATAAAATAATTTTTTTCTTAGTATCAAAGAAAAAGAAAATATATTTCCATTTACCAAGGACTTTAGTGTAAGTTTCATCACCACAAATGGAGTCAGAAAGTTTATAGGGATAATTGTCAATAATAGGTTTAACATTGGTGGCGACAGCTTTAGCATAATTTAAAATAGATTGATAAGAAATATTGATGCCGTGAATTTCTTTTAATAAATTGGCAGTTTTTCTTGCAGAGATACCAAAATTAATATTGTAAGAAAGAATAAGCCCTAATGTATAAGGAGAAACTTGTATCTTAGATAAATCACTTGGAATAGGAACGAGAGAATCTTTATCAAGAGAATTAAAATCAAATGTAAATTCTCTATAAATATAATGAAGTTTAAATTTACTAGGATCATTTTTATAAATTTTTCTTTCGTCAGCATCCATTTTTTGTAGATTTTTCAAATAAAAAGAGCATTTTTTATTTGTACATTTGTGGACGAAGAAATCTTTACGCTCCTTAATTTTTTCAAGAGTTTTGCCACAATGAGGACATTTAAAAACAACAAATTTTGCAAAGTGATTTTTTTCATGGAAATTGGTATTGCATATTTTACATTTAAATTGACCTTTATGTCCGTTGTTATCATAAATATATATATGAGGAGCACCACAAATGGGGCAAATCAAGCTTTTGGGAACGGAGCTTTCTTTTCTGCGTTTAATGGGTTTTAAAGGCTTATTGTGTTTAAGTTGGTATTGTTCAAGAAGTATTTTATAGTCAAATTTAACAATTTTTTTAAAAATAGGCATTTTATCAACAATGAGTCTATGGTATTTTTTATCGATGGGTTTATCATCAGATTTAGAATTAAGAAACTCGAATTTTTTACCTAGAGCAAAGATCATTAAAGCAATAATTAATTTTTGTTGAATGGCAATAATTTTCAGCAAAGTGTACACATATTTTGGCATAAGAATCTCCTCCTAATTTGGTGTATTTTGTTACTGGTTATAATAAAATATTACCTTATTTTGGGGGAGGAGTCAAATATAACGCGCAAAGATAATAAATATAAAGGATAGTGACTTAAAAAGGAAACTTTATTTGACACTACCATGGAAAAATAAGGAGAGAAAATATGAAAAAAATAATCAAAGCGGTACTAATAATTATTACATCAATTATTCTAATTGTGATAATTGCAGGAATTTATAAGTTTAATTATTTAGCTAATCAGCCAGGATATGATGTTGATGGGAATAAAATTGAAGAAGTTCATAAGTCAGAAGTTTTATCGAAATGGTTTAATCTTGACACTACAAATGATTTTTATGTTAAAGTACCTGAACTAAAAATTAATTGTAAAATAACTCAAGTAATCGATTCGGATTCTTTGTACTATGCAAAAGGTAAATTTTCGGTAGGATATGAAAAAGGAAAAGTATTTATTAGCAATCGTGAGATTGTTACTCTCAATAACTCTACTTCAAATATCAATTACCTTGTCATTCCTTTTTCTGTTTCGAATCAGGGTAGCGGATTGTTTAAATATATAGGACTGTTTAAATTAAACAACAAGGCTAAAACAATCAATCATATAGATTCTTATTTTTTAGGTGATAGAGTTAAAATTGATTCTATAGAATATGATGGTGCTAATAATATTCAAGTGAAAATAAAAATTCATACTAAAAATCAAGCAATGTCAGAAGCTCCTTCAGAGTTGAAATTATTAGAATTTAAAGTGCGTGATGGAGGTTTATTTGGATTTAAGCTATTAAAATAGTTTTATTTGTTTTCACTAAAAGCCCATAAAATGTGCAGAAGCCATCATTTCGAGAAAACGATACGCTGGAATGATAGCTTCTGGCACTGAGACGTTAGTAGATTACAGCAAAGTATTAATTTAAGCATACATCCTTGTATGCTTTTTAGAAATATGGTAAAATTAGAATTTATGAAAGGAAGTTATTTTATGGAAATAGTTTATGGGACATATAATATTTCTAAATTAAATAGTATGATAAAAATGCTTGAAGGTTTAGAAGTTAAAATTGTTGGATTAAGTGATTTTGGGATGAATTTAAAAAAATCAAAAGAAACTGGTAAAGATCCTTTAGAAAATGCAGAACAAAAGGCTAGAAACTATTTTAAGCAAATAAAAAAACCAGTATTTTCTTGTGATTCTGGTTTATATTTTGAAAATGTTGAGGAAAAAGATCAGCCAGGAATATTAATTAGAAGAATTGGAAATAAAAAGTTAAGTGATGAAGAAATGATAGAATATTATAGTAATTTAGCAAAAAAATATGGTGGGCAATTAAAAGCATATTATAAAAATGCAATTTGTTTAATAATTAATAATAAAGAAAAATATAGCTATGTTGGAAAAGATATATATTCAGAAAAATTTTTAATAGTTGATAAACCACATAAAAGCTATAAAGAAGGATTTCCTTTGAATTCTCTATCTGTTGATATAAGTACGAATAAGTATTACTTTGATTTATCAAGAGAAAAAGAGGATAACTTAGATATAAAAATTGGTTTTAGAAATTTTTTTATTAATAGTCTAAATATAGAAAGAAAGGGAATATAATTATGAAAAAATTTAAGAATTATATTAATTAGGATGAATATTTTATGGAAATTGCAATTTTATCTGGGAAAAGAAGTAAAGACCCAAATACAAGAGTTGGTTCATGTATAGTAAACGAAAAGAATAGAATTGTTGGAATAGGTTATAATGGATTACCAAATGGCTTAAATGATGATGAATTTCCTTGGGGGAATACTGGTGATTACTTGAATACGAAATATCCTTTTGTTTGTCATGCAGAACTTAATGCTATTTTAAATAGTACCTCAATAAGTTTGGAGAATTGTAAAATTTATACAGCACTATTTCCATGTAACGAATGTTCAAAGGTAATAATTCAGTCTGGAATAAGAGAAGTAATTTATTTGTCTGATAAGCACCATGATGATGATATTTTCATAGCTTCAAGAATGCTTTTGGATAGAGCAGGGGTAAATTATCGAAAATTAGAAACAACAATTGATAAAATGGAATTGTCTTATAATGAAGAAAATGTATAAAAATGCACTTCCTGAGCTACTGCTGTGACTAAGTAGAAATGGGAGGCAGATTGAATCTTCTAACATCCTGCAGACTATGGCCCTCGCCTACCGAGACACTTTGTCATTCAGGCTCTAAGCTTTTGTTTCATTGTTGTACTGCTCAGGCATATCGCCTGCAGGAAGACTGTTCTATAAGAGCTTTTAATATTATTTTTGAAAAAAAGAATCCGATGTAGTGGCGATAATGAAGGAGATAATATGACTAAGACTTTAAAATCGTATGATCAATGTGCTGATAAATATAATGAAAAATTCTCCATCTATGAACCGTATCAAAAACAAATGAATAAGTTTGTTTCATTTCTCAAAGAGACATCGAAAATTTTAGATGTTGGTTGTGGTAGTGGATTAAATTCAAAGATAATGGATTGTCAACATTTAAAAATTATAATATAATGATACTCTCTAAACAAGAAAAGTAAAAGATTGGAGTATGATATAATTGAAAAATAAAATTATTATTAAAAAAATTTGGAATGATGATGATGTAATTGAGTTTGAAATTTATTTAATTGATGAAAATTTTAAATTTAGAACAACTGTATATACTGGGAATTTTGAAATATCTGAAACCTATAAAAAATTAATTGAATTTGGCAGTCTAATACCTAATAAGAAATGCTTAATTAAACTTGGAGGATTTGGCGAGAAATATGCTAATGGGGCAATAAGTTTGGAATTACAATGCAATTCACGAGGTATAATTCATTTGGAGATAGAAATGGAAACTGAGTTTTATGAATTTAATAAAAGAAATATTTCAGATAAATTATTATGCCATAAAAAAACTAATCCAGCACTATATGATAAATTTGTTAAAAATTTCAAACGAATTGAAAAATTTGAACTTGGAGAAGAAATTGAGTTTGAATTAATCTAAAATTATATTGAAAGAATTGTTATTTATTTTTGGAGGGAAAATGTTTGAAATTAAAATTTTAGAAGGCTTGTCAAAAAGCGGTGAATATTCTGAATATAATTTTGGAAAAACTAATGACTTGCTATGGATTCTTTTTTTAAATTTAGAGACAGGAGAAGAGTGGATAGGAAAATTTGATATTGGGATTAGAAATAAAAGTAAGATAAAAATTTTTCAAAATAATACTGCTGTAATTTTAGCAAGGGGAAATATTTATATAATAAATTGCAAAATAAAAAAAGTGCAATGTATTTTTGAATATGAAGATTATGAAGATATTGAAATTGATCTTGTTAATAACTATATCATTATAACTGATGGGCTTTATATTTCTGTACATGATAAAAATGGAAAATTTATCCAAAAAACAAAGCGAATTAGTTTAGATGGGATAGAATTTATAGAAATAAAAAATGGAAATGTATATGGTAGGTTAAATGATCTAACTTTTGAATGGTGTGATTTTAAATATAATATTGTTGAAAATGAAGTTATCAGTAAATGGATTTTTGATGATGCAGTATTGAAGTAAAATTTTTAAAAGTAGCATATTTCCGATAAAAAACATCCTGTTTTTTATCTAAGGAACGGCTTAAAAATAACATTCTCATTTGTTTATAAAATAGGCAATGTTTCTAGCCTTTTTATAAACAAATATGAGAACATTATTTTTTAAACGTTCCTAAGCGACTAGAGAAATGAAAAAACGAAGCAAAGAAGGTAAGGCAGAGATAGCTAACATTAATATAATTATTATGAATAATAGAAGGAGTTGATATATTTGAAATTAAAAGCATTATTTCTGGATTTTTATGGAACATTGGTACATGAAGATGACGAAATTATTCCTGTAATTTGCAAAAGAATAGAGAAAAGTACTGATTTAAATGTTAGTATTGAAGAAATTGGAAGATTTTGGTGGCAAGAGTTTCATGAATTATTTATGAATAGTTATGGTGATAATTTTAAAACTCAAAGAATCATTGAAAAAATATCTTTAGATAGGACTCTTGAATATTTTTCTTCAAGCGAAGATAGCGATGACTTATGTCAACTTCTATTCAATCATTGGCAAAGACCAAAGATTTTTGAAGATACAAAAAAATTTATTGAATCAGTAAATGTTCCAATATGCGTGGTATCTAATATAGATAGAGTTGATATAAATAATGCAATCAAATTTCATAATCTTAAATTTGATTGTGTTTTAACAAGTGAGGATGCAAAATCCTATAAGCCAAGAAAAGAACTTTTTGAACTTGCATTAAATGAGATGAAATTATCTAATAATGAAGTGATACACATAGGAGATTCTATCAGAAGTGATATTTTAGGAGCAAAAAAATGTGGTATAAAATCAATTTGGTTAAAAAGAAATAAAATGAATAAAACAAATGAAGTTATAGAAAATATTTGTATAGATTTAAATGAAGTTAAGAGTCTTATGGAAAAAATAATTTAAAAATAGAAAACAAGAATTAAGAAATTAAATTTAAGAAAAATAAATCAAGTTAGAATTTGGAGGGAAAATGTTTAATTCTAAATATTGTGAAATTGGATAACTAGAAAAGATTTCATTGAATTGGGAGGAATACTCATATGGAGATTTGGGATATTTATGATAAAGAAAGATGTATAACAGGTAATACGATAAAGCGTGGTAGTGAATTTAATGATAACGAATTTCATTTAGTTGTTCACATCTGTATATTTAATTCGAAGGGACAGATGTTAATTCAACGAAGGCAACCTTTTAAGAAAGGATGGCCCAATATGTGGGATATTACTGTTGGCGGTAGCTCGATAGCAGGTGAGAGTAGTTCACAGGCAGCTGAAAGGGAATTATTTGAGGAGATTGGATACAAAGCAGATTTTTCAAAGAGAAGACCGTTTTTCACAATCAACTTTAGCTATGGTTTTGATGATTATTACATTATTGAAGATGATGTAGATATCGATACATTAAAATTGCAATACGAAGAAGTACAATGTGTACGCTGGGCAACAAAAGATGAAATTATTGATTTAATAGATAAGGGTGAGTTCATATCATATTATAAGAACTTAATTAGATTAATGTTTGATATGAGAAAACAGCGTGGTGCAATAATTATTGAAAAATGATGGGCTTGAGTATGTGATAAACTTTCGTAATGGGCGTCATATAACAGCGTGTTCCCGACACTCACTCTCTTTGGAGAAAAGCTTTGAGGGTAAGAGCCAAGCCTCGGGAACACATGAATCGTTATGTGTGACTGGAGGTCAGGAGTCTAGTTCCTTTTACACAGAAAAAATTACATGGAGGAGAAAGAAAATGAATAAATTGCAGCAATATTATGAAAAATATAGTGAATCAAATAGACTAGAGAAGGATAAAACATCAAAGATTGAATTTCTTACTAACATTGAGTATTTGAATAAGTACATAAAAAAAGGAAAACTTTTAGATGTTGGTGCTGGAAGCGGAATTTATTCTTCTTATTATGATGAAAAAGAAATTGAAGTAACAGCAATAGATGTTGTTCAGTCCCATGTAAATTTTATGAAAGAAAAGTTTGTGGATAAAAATATTAATGTGAAACTAGGGAGTGCTTTAGATTTATCTGAATTTAAAGAAAATTCTTTTGAATTTGTATTGTGTTTAGGTCCTATTTATCATTTAAGAGATAAAGAAGAAAGAATTAAATGTATAAAAGAATGTAATAAAGTTCTAAAAAAAGGTGGTATTCTTGCAGTTGCTTATATAAATAAAATGCATATAATTCCACGTTATTTAGGAATTCATAATGAAATAATAGAGAAAGACGTTATTGAATACTTTTTAAAGACAGGTAACTTTTCATCTGAAGTAAAAGATGAATTTTTGAAGGTTTCTCATTTTGATTATCCGGAAGAAATAGAAAATTTGATTGTTAATGAAGGAAATGAAGTTATTGAACACATTGCATCGGACAGTATTTGGAAATTAACTAAAAATGAAATTAATAATCTAACTGAATTGGAGTTTGAATTGCTATTAAAATATCATTTAGAAACATGTAATCAAAAAAATTCATTGGGATTGAGTAATCATGGGTTGATTATTTCAAAAAAAATTAGTTAAGGAACGTTTAAAAAATAATGTTCTCATATTTGTTTATAAAAAGGCTAGAAACATTGCCTATTTTATAAACAAATGTGTAAGTTATTTTTAAGCCGTTTCTAAGTAATTTTATATAAATTAAAAAAGAGTGATTTTGTGACAAATAAAGAGTACATGAATTTATTGAGTTGTAAATACTGTAATTTTTGATTTAGAAATTCTTAAAGTATACTATGGATTTCTTTTAGGTGCTTTTTTAAGAAAAAATAAAACTTTATATAAGTATTATCAAAATTTAAATTATAAAATAAAGGAGAGCTAATATGAAAAAAAGAATTTTAATTGTTTGTATACTAACGATCGTGATACTGTTTTTAACATCTTGTTCAAATAATACTGAAAAAAATAATATACTAGTATTAAAAGTAAAATCTACTGGGCAAATTTATTTATATGGAGAAAGGCATGGAATAAAGAAAATTTTGGATAAAGAAATTGAATTATGGGATAAATATTATAACAATCAAGGTATGAGGCATTTGTTTATTGAGGTACCATACTATACAGCAAAATTATTGAATATATGGATGAAATCTGATAGTGATGATATATTTAACAGTATCTATCATGATTGGGAAGGGACCGATGGTCATAATCCTGATTTCAAAGAATTTTTTAAAAAGATAAAAAGGAATTATCCTAAAACAATTTTTCACGGAACTGACGTTGGACATCAGTATGAAACTACAGGGAAACGATTTTTAAAGTATCTGAAAGATAATAAATTAAATGATTCTAAACAATACTTTTTAACAAAAAAAGCAATAGCACAAGGGAAGTACTATTATAGTCATTCTGATGAGGTATATCGTGAAAATATGATGGTAAAAAACTTTATATATGAATTTGAAAATTTAAATGGTAAAAATATTATGGGAATTTATGGTGCTTCTCATACAGGAATAGATATGTTGGATGTTACTAGAGCGGTTCCATGTATGGCAAACCAATTAAAGAAGTATTATAGTAATAATATTCATTCCAAAGATTTATCTAAGGAGCCTGAACCAGAGAGAGTGGACAAAATAAAAGTAGGAGGAAAGATTTACAAAGCATCGTATTTTGGAAAATGGGATTTGCCAGAATTTAAAGAATTTAAATATAGAGAATTTTGGAGATTGGAAGATGCATATAATGATTTTATAGATAATCCAAAAACACAATCTGTATTACCTTATAATGATTATCCTATGCTAATAAAAATAGGACAGATCTTTGTAGTAGATTATACTAAAATAGATGGTTCTGTTATGAGATGTTATTATCGTTCAGATGGTTATAAATGGCATAACATGTTATCAACAAATGAATTTATAGTAAAAAAGTAAAATGGTCATAAGTAGAGATTGACATTCAACATCAATATATAATACGAATTAGGAATGGAATATGACAATAATGGAGTGGTAGGACTTGGCAATAGTTTTAATTTTTATAATCTTTCAGCTTTTAGTTTTCCAATAATATATAGACATTCGCCAATTGAAAGATTGGAATTGCCTATATATCCAATTCCATTATATGGAAAATATCTTATATTTGGAGAACAAACAGAATTAATTAATAAAAAATTCAATATGACATTAAATTTCGGAGTAAAATCATTCAATTATTCATCTTCTTCAACAAGTGGAAATGATTTTTCAGTAGAATATGAACTAGGAACAGAATATAAAAAAGTAATTAATGATAATTTGTGGTTAGAAGGTGATTTTTTACCAACATTAGAGAATAAAAAAATATATTTAAAAAATGGAGAAAAACAAAAGCAGATGAAAATACTTGTAAATACAGAAAATTATATAGGGTATCAAATTAATAATAATTTAAGCATAAAAAGTGGATTAATATGGAAAAAAGAATTACAAAATGATGATGAAATTTCAGAAACAAAAGAATATAATATAACTAGAATTCCATTTGTATTGAGATTTAATAAAGATAAATTCTTTTTGGAAATGAATTCTGGGATAGAATTTACAAATAAAAACAATTCATTTCCTATAGGATTAAAAATAGGAACTTATTGGTAAATCAGATGAATTCTAAGTAGTTACAGATTAGAGAAAGAGAGAAAATAGCAACAGAATTATTAAAAGAAAAAAAAGTGATTAAAATACTATCAAAATATGGACTTCCTATAGTTATAGGAAGCTATGAATTAGATTTAATGTTTGATGAAGATATTGATATCGTTGTAGAAACAGGCTCTCCTAGAGAAAGTTCTATAAAGGTATTAAACGAATTTATAAGAACAGAAACTTTTCAAAAATATGAATATGGTGATTTTGAAAAATATACAAGACTAAATAGACCTAATGGATTTATTGTAAATTTAAAAATAGAATATGAAAATAAAAACTGGGAAATTGAGATATGGTTTTTCAAAAATATTTCAGATTATAAAATTCAACTGAACAAATATAAAGAATTAATAAATAGTGAAAAAAAATTAAAAATTTTGCAGAGAAAATTCTTAAGAAAAGAAAAAGGAAAAACAAAACATGAGATTAGCAGTATTTCAATATATAATGAAATATTATTGTAGGTAATTGTAAAAATAAGAATGAAAAAGATTGAAACCACGAATGTAAACGAATTATAAAAAGGGTTTATTCAATGTGATTTGAGTAAATTCATGGTTAAAAAGATATAAATATAGTGAAATAAGTAGAGAAATAGTCAAAAAAACATATTAATTTAAATCAATAAAAATAATAATTCAGTTATGCAACTGGCTAAATAAAACTATTCAAAAGGAGATAAGAAATGAAGGAGTATAATATAACTAATAAAGTGAAAGTTTTTTTATTTGAAAATACAATGGTAATAACTTCTTTAATAAATAATAATAAGGCAATTTTAATAGATTGTGGAATGATGGATGAAGCTAAAGCATTAAAAGAAAAATTAAATAAAAATGGAATTCAAGTAGTTGGAATAATTTTTACTCATTATCATCCAGATCATGTAGTAGGAGCAAATTTATTTGAAAATGTAGATTTGATATGTAACAGTAGGTATGAAAATGATTATATTTGCTTTTCAAAAGAATTTAAAAATGAGTTTAATTTCCTAAAGCCTACTAAAATAATAGATGAGGGAGAAATTAAATTAAATGGATTTAATATAAAAATTATTAATGGAGAAGGACATTGCAAGTCGAGTTCAATTATTTTAATAAATAATGAAATTATCATAACTGGAGATCTTATGATGCAAACAAACGAAGGAAAACCATGTATTCCTGGATTATGCAGTGACGGAAGTGTTTTTTCTCATATTAGAAGTTTAGAAGAAATAATTAAGTTGAATCCAAAATATCTTATTATGGGACATGGAGAACCTATTCTTAATAAACAGGATATTAATATTGAAATAGAAAAAAGATTAGATTATTTATATAAAATAAAAAATAGTAATGGAAATATAAAATTAGAAGATTGTATAAATGAAAATTTAGATGAGTGGGAACTTAAAAGAGCTCATGATTTAAATTTAAATGTATACAGAAATGAACTTAAATAATATTTAAGAAATAATTTTATTTGAAAGGAGAATATAAATCAATGATAATAGCAGATAAACCATATGTTTCAGATTTTATGAAAAAAAGTATATTAGAATTAAAATTGCCATTGTTAAAATCAGAGGGAATAGAGAAATTAAATTTTTTAGAGGGAACAAAAATAGTAACTCAAGAGTTAGCATTACAAAAATTAAAGTTTGAAAAAGAGATGAAAATATATACTAATTCGGAAAATTCTATTAATTGGATGATTAATAATTTAGATTTTACAGAATTACCTGAAAATATAAATTTATTTAAAGATAAAGTGAAATTTAGGAAAGCTATTGAGAGTATTTATCCAGATTTCTATTATAAAGAAATAAAAATAAATGAATTAAAAGAAATTTCAATTGAAAATTTAAAAAAGCCATTTATTATAAAGCCTTCCATTGGTTTTTTTAGTATGGGTGTATATATGATATCCTCCAATGAAGATTGGGAAAAAGCAATAAAATCTCTCGAAATAGAGATAAAAGAAGTTGAAAATTTATATCCGAAAGAAGTTTTAAATACTTCAAAATTTATAATAGAAGAATATATTGAAGGAGAAGAGTTTGCTTTTGATGCTTATTATAATAGCAATGGAGAGCCTGTAATTTTGAATATTTTAAAACATATATTCTCTTCTGAAAAAGATGTAAGCGATAGAGTATATATTACATCAAAAGAAATAATTAATGAAAATATTGAGAATTTTTTAGATTTTTTGAAAAAATTAGGGGATATTACAAAGATTAAAAATTTTCCACTTCATGTGGAAGTGAGAATGGATGAAAAAGGAAAAATTATACCTATAGAAGTAAATCCCATGAGATTTGCAGGATGGTGTACAACAGATATAGCTTATTATGCATATGGGATTAATCCTTATGAATACTATTTTAAAGAGAAAAAACCAGATTGGGAAAAAATTTTAAAGATTAAAGAAAATAAAATTTATAGTGTAGTTGTATTGGATAATTCAACTAATATCTCTTCCATTAATATTAAAAGTTTTAATTATGATAAAATTAGTTTGAAATTTGAAAAAATTTTAGAAATTAGAAAAGTTGATTATAATAAATATCCACTTTTTGGATTTATTTTTACAGAAACTAGAAAAGATAATTATGAAGAATTAGAATGGATATTAAAATCAGATTTAAAAGAATTTGTTAGTTTGGATAATTAAGATATAAAAATTATAAAGGGGTTGAAAGATATGAAAAAAGCAGAAGAATGTTTAAATATGAGAGAAATTAGAGATGGTATTGATATTATTGATAATGAAATAGTAAAGTTAATTGCAAATCGTGCTAAATATGTAAAAGAAGCTGCTAAATTTAAAAAAGATGAAAAAGCAGTAAAAGATTCAAATAGAGTGAAAAAAGTGCTTGAATCAAAAAAAGAATTAGCAAAAAAATATGGAGCATCTCCAGATTTAATTGAAAAAATATATAAAATGATGATTGATTTTTTTATAAATGAAGAGATGCAGGAGTGGAAATTAAAATGAAGAAAAATTGGAATTATAAATCTTATAAATATAGATTTTTAAATTTTAGAGATAATGGTGAAGAAGTAGAAGAATTTTTAAAAGCAAATCACAAATATATATGTTGGCAAGATGATTTAGAAATAGATGAAATATCTTCAAAAGATACTTTTTATCCTGAATTACCTAAAGGTAAGCGTATAGAAGATAAATATCTTATTGGAATATATGAAAACAAGAAAATAATTTGTATATTTGATATATTAAAAAATTTTCCTGAAGATGAAACTTGGATGATTGGATTAATGTTATTAGATGAAAATTTAAGAGGTAAGGGATTAGCAACTGAATTATATAATGAAATTGAGAGATATTTAATAAAACACAGTGTTAAAAAAATTAGAATTGGAGTATTGGATAAGAACTCAAGAGGTAAAGCCTTTTGGGAAAAGTCTGGTTTTAAAAGAGTTGAAGGAGAAAAAAAGTATAAAGAGATAAAGAAAGTCTTTATTTATGAGAAAATATTATAAAAATTACATTGTAAAAAAGAGCAAATCTATTTAAAGGATTTATTCTTTTTTTCTACGTTTTATTCTAAAGAACATTTAAAAATCAATTTTTTTATATTTTGTTATAAAAGTATTTAAATCATCGCATATTGTAAAACAAAATGGAAATATTATTTGTAAGTCATTTATAAATGACTTACATCAGAAATAAACTTTATTTCAAAACTATCTTTAGCCTTCATTTCAATTAAAGTAACACTTGTATTTAATATATACTCGCCTTTCCAGAAATCTTCAATTGATCTGTTTAAAATGTTATTTAATATTGATTTAATCGCAATTCCATGAGATACAATTAAAATATTTCCATTTTTATGTTTATCATAAATATCATTCAAAAAAAGTTTTGTACGTTTACAAAGTTCAAAATAACTTTCTCCTTTAATTGCTTGGTGATCATATTTGTGTGGATTTTTCCAGAAACTTTCAATATGCTCTGGATATTTTTTTCTTACAACTTCTTTTTCCATTCCCTGCCAAATTCCCATGTTAATCTCTTTAATTAATTCAGATTGAATAATTTTATTATCTTTGTCGCCTAAAATAATTTGAGTAGTATTTATTGCTCTGGATTGCGTACTTGTATATACCGCATCAAAATTAATATGAGAAAGAGATTTAGATAATTTCAGAGCTTGATTTTTACCTAAATCAGTTAAATCAGAATTGAAATGCCCCTGCATAACACCTTTTTTATTCCATTCTGTTTCGCCATGTCTAACTATATATAGATTTAATGTCATTATTATCACATCCTTAATATATTTTTATATATTATACCAAAATTCTAATAAGATTTCTATTAAAATAACTATCCCTTGAATTTTTATGATAATTTTGATATAATTTTTGAAAATCAACTAATCTATTTTCAAAAAGGAGGAGCAAAAATGGAAAAAAATTATAAATGTCCAAAATGCGGAAACAATAGTTATGAAACAGATACAATTGCTACAACTGGAGGAGGTTTTTCAAAAATATTTGATGTGCAAAATAAAAAATTTACAGCAGTAACTTGTACTAGATGTAAATATACTGAATTATATAAAGCAGAAACAAGTATGCTTGGGAATATATTTGATTTTTTTACTGATTAGAAATTTTTACAAAAGAACGTTTAAAAAATAAGTTTCTTATATTTTGTTATAAAAACGCTTAAATCGTTGCGTATTTTAAAACAAAATGGGAATGTTATTTTTAAGACGTTCCAAATTAGTAAATATTAATGGAACACAAACTATTTTTTGTGTTAAAATCATACTCTAAAAAACAACTATACAACTTTGTACGTTCAAAATAAAATTAACTTTTACAGAATTTTATCTTTGCTTATAAATAATAAAAACTAACATAAAAAAATAACAAATATCACTAAAATCTTCTAATTAAAATTTAGGAGGTTTTTTAATAATAATATGATTTTAGAAAACTACCTTTTTGGGGTCTAATCATAATATAAAAAAATTAAAAGAGGAGATTAAAATGACAAATAGATTAAAAAAACAAATTGAATTTATAAGAGAAATAGATAAAATAAAAGAAATTTACAGACATACAAGTTTATTTGGAAAAGATAGAAAAGAAAATGATGCAGAACACTCATGGCATATTTGTGTTATGGCTATAGTTCTTTCTGAATATTCAAATGAAAAAAATATGGATATGTTAAAAATATTAAAAATGTTATTAATTCATGATTTGATTGAAATTTATTCAGGAGATTATATTGTATATACTGAAAAGGAAGTAGAAAAAGAGAAAAAAGAAAAAGAGGGTGCAGAAAAAATATTTAGTATTCTTCCAGAAGACCAAAGTAAAGAATTTAAAGATATTTGGGTAGAATTTGAAGAAAGAAAAACTATAGAAGCAAAATTTGCAAGAGTATTGGATAGATTAGAACCAATATTACAAAACTATTATAACAAAGGGGATTCATGGGTGAAATATAATATTTCAGCAGAAAAAATAATTGAAAAAAACAGGATTATTAAAGATGGATCAGAAGAAATATGGAAATATGTTGAAGGTATGATAAATGAATATTTAGAAAAGGGAATAATTAAGTGATTTTATAGGGAGGTTAATAAAATTATTATATAAAAATTTGAAAGAAAATGTATAAATAGAAAAAAATGATATTGAAATTACAATTTTTGAAACTCCAAAAGAAAATTGGAAAATAAGAGGTTTACCAGGAGATGAGCTATCGTTAAACTATAAAGTTGAAATTTAATGGGAGAGGAAAAAATAATGGAAATTATTAAAAAAATTGAAGAAAAAGTAAAATATTGTTATTGGGAAAAAGATTATAATTGTGCAATAACATCAATAAAAGTATTATCTGAATTGTTTAATATTAAAATAGGTGAAGAGATATTAAATTCTGCTATTGGAATTCCTGGTGCAGGAAGATATGGAGCACAATGTGGGTTAGTGAATGGAGCATTGATGATTATAGGTTTAAGAGGTAAAGAAAAAAGCCTTGAAAATAAAGATATTCGTGAACTATGTAATAAATTTTCAAAAGAATTTGATGAAAAATTTAAAAGTTTGTTGTGTAGTGAGCTAAGACCACAAGGATTTAATGAAAATAATCCTCCTCACTTATGTGAGCCAATTACTAACGAATCAATCTTACTTGCATATGAAATAATATCTGGAACATAAAAAATATAAAATAAAAGGGGAAAATAAATGGCGATAAAATATAATAATATAGTTCCATGGGGAAGAAATTACGAAGAATATTGTAAAATGTTTAATTTGACAAAAGAAGATTTTTCAAAAAAATAATTGGGTGTGGAGATGGACCATCAAGTTTTAATTCTGATTTTAGATAATAATGCAAAAATATCTAAACATTATAATAAAGTTGTAAAATATTTTACTGATAAAAAAATGAAAGTTGAAGAGATAACTGTTGAATATGAATTTCAAAAAGATGAAAATAAAATGTTGAGAATAAAAAAATAGTTAAATTCTATAATGTACCCTAGACGATAGGCAACTTAAAAATGGTGGCGAGAATAAAAATGATAAGAAAATCTACAATGAAAGATGCTTTTAGAATTTCTGAAATTAGATTAGTAAAAACAATAGATAAATAGGAAGGATGTATATTATATGAAAAAACCATTTATGAAGTTAATAATAATTTCAATGTTTATGTTATCAGGTTGTTTTAATAATAATATAATAAATGCCAATATTTCAAGAGATTATAGACAAGATATGCGTGATTTTATTAAAAGTATCAGTGCTTATTCCAAAAATATTAATCATAATTTTATTATTATTCCACAAAATGGGCAAGAACTTATAACAGACAATGGAGAAAGTAATGGAATACTAAAACTTGATTATATTAACTCTATTGATGCAACTGGACGAGAAGAGCTATTTTATGGTTATAATAATATTGATGAAAAAACAGCTGAAGAAGACAAACAGCATTTATTAGATTTATGCCATGTCTATGAAAAACATAATATAAAAGTTCTTGTAACAGATTATTCTTATACACATAGCAAAATGGATGATTCATATAAAATTAATGAAAAAAACGGATTTATATCATTTGCTGCCAATACTAGAGAATTAAATAAAATACCTGATTACCCAAAACATCCTTTTAACGAGAACAGTAATAATATTAATAATATTTCACAAGCTAAAAATTTTTTATATTTAATAAATAGCGAAAATTTCATAACAAAGGGCGATTTTATAACTGCTGTATCAGCGACTAATTATGATGTGGTTATCATGGATTTATTTCATAATGAAAAAGCCTATAATTCTACAGAAATTAAACAACTTAAAATTAAAAAAAATGGTAACAAACGATTAGTTGTTTGCTATATGAGTATTGGAGAAGCTGAAAATTATCGATATTATTGGGATAAAGAATGGGATAAATCTCATCCTTTATGGTTAGATAACGAGAATCCAAGTTGGAAAGGAAATTTCAAAGTTAAATATTGGAATAAAAATTGGCATGATATTATTTTTGGAAATGATAATTCATATTTGAAAAAGATAATTGACGCTGGATTTGATGGAGTATATTTAGATATAATAGATGCTTATGAATATTTTGAAGAAAAATAGATACATTTTTGTGGGTCAAACCATTCTATTACCTTTTAGAGCCAGATATATATGGGATAAAATTTAAAAATTGGAGGAGGACAAATGCTAATACAAAAAGGAACAAAAGATCTTGATACTGAGAGATTATATTTAAGAAGATTTAAACTAGAAGATTCAGAAAATATGTTTAATAATTGGGCAAATGATGAAGATGTAACAAAATATTTGACATGGTTACCTCATAAAAAAATTGAAGTAACAAATGAAATATTAAAGGAATGGATAAATTCATATAAAAGTACAGATGTATATAATTGGGCTATCGTTCCTAAAGAATATGGCAAAGTAATTGGTAATATATCTGTTGTAAAAATAGATTTAGAGGATGAAATGTGTGAAATAGGTTATTGCATAAGTAAAAAATATTGGAATAAGGGAATTGTAACAGAGGCATTAAAAAAAGTAATTGATTACTTAATATTAGATGTTGGATTCGTAGGAATTAAAGGAAAACACGATTTAAAAAATATAGCTTCTGGAAAAGTAATGTTAAAAGCAGGAATGACATATGAAGGGAGAATAAGAGACTCTATTAAAAATAACGAAGGAGAATATATAGATGTTGAAATGTATTCAATTCTAAAAAGAGATATCTTTAAAAATAAAAGTTTAAATAATTAACCAATAAAAAAATAAGCTACGCTTCATCTAGTAGAGCATAAATATTTTTCTGAATTTTTTATTTCTGAAAAATTTTGCTTTAAAAAATCACATATTTCAAAAAAACGGTATAGCTTATTTTCTGAATAAATTTATACTTTACTAACCAATAAAAAAAATCACATTAAGAAAGAAGGTCAAAATGGAAAAGAAAACTATAAAAATTGCTATTATTTATTATAGCAAAGGGAATAATACAAAATTAGTCGCAGAAACAATAAAAATAGGATTAGAAGAAATAGAAAACATTGAAGTAAAATCTATGTCTTTAGAAGAATTAGATCCTAATTATATTAAAGAAGCAAAAGCAATAATTTTTGGTACTCCAACTTATTATGCTAATATTTCTTGGCAAATGAAAAAATGGTTTGATGAATCGCAGGGCTATAATTTAGAAGGAAAATTAGGAGCTGTATTTGCAACTGAAAATCATATAGGTGGGGGAGCAGATACTGCATTATTAACTTTAATAAATCATTTAATGGTAAAAGGAATGTTAATATATTCTGGTGGATCTGCTTTAGGAAATCCATATATTCATTTAGGAGTTGTTGCTATAAAAGATGGAGATGATTATCAAAAAGAACGTGCAAAAATATTTGGAAATAGGATAGCAAGGAAAACATTAGAATTGTTTGGAAACATAAAATAAAAGTTCGTAAAACATAAATATTTTTCTAAATTAAATATATAATTTTATATTAAAAAAACTTCCCTCATTAAGGGAAGTTTTTCTGTTTTATTTTGCTCTCTCTAAATATTCATCAGTTCTTGTATCTATTCTAATTATATCACCTTGATTTATAAATAGTGGAACCATTATTTCATGTCCAGTACTTAATTCAGCAGATTTTAATGCTCTACCTGTAGTATCTCCTTTTAATCCTGGTTCTGTATATACAACTTCTCTATCTAATGTAGTTGGCATTTCGATACCTACTGCTCTACCTTCATAAAAGACTACTAATATTTCCATATTTTCTTCTAAATATTTTAAAGCATCTCCTAAATCTTCTTTTGTTAAATTAAGTTCTTCCCAAGTTTCTTGATTTTGAAATGCATATTGTCCACCATTTTCGTAAATGTATACCATTTTTTGTTTATCAAGAATAATATCATCAACTTTATCTGCAGCTTTCAAAACTGTTTCTGATTTTGCATTTGTCAATAAATTTTTAAACTTAAATTTTACAACTGCTGAACTACGACCTGATTTACTAAACTCTGCTTTTTGTACTATGAAAACATCATTTCCTATCTTGATTATATTTCCAGCTCTTATTTCTTTTGCGTTTTTCATTAAATTAATCCTCCTTAAAATATTGTTTATATTAATTCCTAATCTATATTAGGAAAAGTAATATTAAATTTTTTCATTGATAAATTCTATCAATTGTTTTGTTAAATCACATTTTTTTATTAAATATTCACTAAATTTTTTAAAAAAAGAGCTATTATCTAATATAATATTAAATAAATCATCAAAATTTATTTCAAAATTATTTTCAATTTCATCTTTCAAAATATTATTAGTAGAAATAGAAATATCTTTATATTTTTTAAAAATATCTGCATTTATATCAATATTTTCACTCATTCTATCTAAAAAAGAATTTAATTTATCCAAATGAATATACTCTTCTTGTTTATAAATATGCCATAAAAATGGAATACCTGAAATTGTAGCTCTTGCAAGAGATTCTTCACCTCTTACAAAATTAAAATCCATTAAATTTATTAAATAATCATAATCCTTTTGTATAAAAAAAGGCATATATAGAATATGTATATTTTTATATATTTTAATCTCTTTCAATATAAAGTCAAAACTTTTCTGCGTTTTTTCTCCACATAAAAATATATAAATATTTTTATTAACTTTTGACAATGATTTTATCATACTCTTAAAATTAAATTCATAAGTAAAAATTGAAATATAAAGATTACTCTTATTATAAATACAATTAATGTTTTTTTCTTTAAAAAAATTATTAAAATATTTTTCTTTTGAAGAATTAATTGATTTAATCATTGAAAGATAATCATAATCTAATATAATTCCACCACTTTTTTCAGTAAAACCTGGCATAAAAAAATATTTTTCAATACCTTCATAATAGGATATAGATTTTTTTTTATGAAAACCTTCAATCCAAGTTTCACCAGATAGATATTCTAAATTTATAATTAACTTTGCATTTTCAGATATACTTTTTTTGAAAAAATCAGGAATCTCTGTTCCAAAAGCTTCAATAATAACTTTAGAAGCATTGTATTTAAAACTGTTTTGACTTACTCTTTCGATATTTATAATATTTAAATTTTCAAAATTATTAATTATTAAATTGGAATCAAAATTTTCAACTAATTTTTTTACTTCTGTATATTTATTAATATAAATGTTAATAAGTATATTTTTATTGATTTGATGAATATTCTTTGCTAATCTATAAACAACACCAATATCTCCATAATTATCAATAACATCACAAAATATATCTATATTAAACATAATATCTCTCCTAAAACTTATTAATACAATTATATCAAAAAAGTTAATTAAATACAAATGAAAAAATGATATTTACAGATATAACGTAAATTTATTGGTATTAATAGATATAATTCAATAAAAATATATATTGAATTATATGAGAATACTATTAGGATAACTACTTAAATGAAACCGAAGAAATTATTAAAAAAGCAAAAGCTTGTATCAATTATAGTAATAATAGCAATAATTATCACAATTATTATTCTCACAAGAATAATAAAATTCTATGTTCTTCAAGATGATATTTGTGCATAAAACAAAAATGGTGAATTTATTTAATACAAAATTAACTAACTTATATCTAAATCTTATTTTCTCCTTGACAAAGAAAGCTAATTAGTGTATTATTTCTTAAATACAAATTTATAAAGGGGATGTCAGATATGGTTATAGTAATGAAAAATAATGCAACAGAAGAACAAATAAAAAAAGTTATTGAAAGGGTTGAAAGCTTAGGATTAAAAGCTCATCCTATTTATGGTCAAGAAAAGACAATAATAGGTGTAATTGGAGATGAAAATATATTAAGAGCTCATCCAGTTAATCCGTATGAAGGAGTTGAAGAGGTAAAATCAATAGCAAAACCATTTAAATTTGCTAGTCGTGAATTTAAACAAGAAGATACAATAATAGATGTAAACGGAATTAAAATAGGTGGCGGAAATTTTGTAGTTATGGCAGGACCTTGTTCTGTTGAAAATAGAGATATGCTTTTTGAAACTGCAAAAAGAGTAAAAGAAGCTGGAGCTTCTATCTTGAGAGGTGGAGCATTCAAACCAAGAACTAGCCCATATGATTTTCAAGGACTTGGAGAAGAGGGATTAAAATATTTAAAAGAAGCTGCAATAGAATATAATATGGCTGTTATTACAGAAGTAATGGATGCAAGAGATATTGAACTTATTGATAAATATGCAGATATATTTCAAGTTGGGGCAAGAAATATGCAAAACTTCACTCTTTTAAAAGAATTAGGAAAAACTGATAAACCTGTTATGTTAAAAAGAGGAATGGCTGCAACTGTAAAAGATTTATTAATGGCTGCTGAATATATAATTGCATCTGGAAATAAAAATGTAATATTATGTGAAAGAGGAATTAGAACATTTGAAACTTATACAAGAAATACAGTTGATATAAATATAATACCATCTGTAAAAGAGTTGTCGCATTTACCTATAATTATTGATTCTAGTCATGGAACTGGTAGAAGGTCTCATGTTGGGCCAATAGCTCTTGCAGGTCTTGTAGCTGGTGCTGATGGGTCAATGATAGAAGTCCATCCTTCACCAGAAAATGCACTATCTGACGGACCTCAATCACTTAGATTTCATGAATTTGATGAGTTAATGTCAAAAATGAAAAAATATTTAGAATTTGAGGGTAGAAAATTATCATAAATAGATTCAGGAAAGGAGCTGCGAAATAATACGTAGCTCCTTTTTTAATACATTTAAAACTCTAATTATATTCTATATTTTTACTGTTAAATATTCTGTAATTTTCATTGAAAGCTTTACCCATATATGATATAATACCATAAAAGTTTAAAACAAAATGGGAATATATTTTTAATCTATTTCTATAAAAATTAATCTATTTCTATAAAAATTAATCTTTTGAAATTGGAGGAATTATGAAAAAAAATATTGTATTAATTGGATATATGGGAACAGGAAAAAGCACAATAGGGAAAATTCTTTCAAAAGAGCTTAAAATGGAATTTATTGATACAGACCTTTTAATTGAAAAAAATATTAAAATGAGTATCAAAGATATCTTTGAAAATTTTGGAGAAAAATATTTTAGAGATTTAGAAAGCAAGATTGCAAAAGAAGTTTCAAAACTTAATAATAAAATAATTTCTACTGGTGGTGGAATTGTATTACGTGATGAAAATATAAATAACTTGAAAAAAACTGGAATGGTGGTTTTATTAAAAGCAAATGCAGATACAATTTATGAAAGGGTTAGCAAAAATTCAGATAGGCCATTATTAAATGTAGAAAATCCAAAAGAAAAAATAAATAAAATGTTAATAGAAAGAAAATTAAATTATGAAAGATTTAAAGATATTGAAATAGAAACAGATAATAAAACAGTAAATGAAATTTTTGAAATAATTAAAGAAAATTATTTTAAAACAGTTTAATTAATCGAAAGAGGTGTCCTTTATGAAAAGAATAAATGTTAATGTAGTAAATAATAATTATGAAATTTTATTAGGTGAAAACACTTTAAAGGACTTGAAAAAATATTTGCCTAAAAATTACAAAAAAATATTAATTGTATCAAATGATACTGTTGGACCAATTTATATAAACAAAGTAAAAAAAGCTTTAAATGATGAATCAATAGAACTTCATTATTTTGAAATTCCAGATGGGGAAGAATATAAAAAGCTAGATACAGTTCTTCCAATATATGATTATATGATAGAAAATAATTTTGATAGAAGTAGTTTAATAATCTCTTTAGGTGGAGGAGTAGTTTGTGATTTAACAGGATATGTTGCTGCTACATTTATGAGAGGAATTGACTTTATCCAAATACCAACATCCCTATTAGCTCAAGTAGATGCAAGTATTGGAGGAAAAGTAGCTGTAAATCATCCGAAAGGTAAAAATTTAATCGGTAGTTTTTATCAACCAAAGCTTGTGTTTATTGATATTGCTGTTTTGAAGAGTTTACCATTAAGAGAAATAAAAACTGGATTAGCAGAAATTATAAAACATGCTATTATTAAAGATAAAGATTACTTCAAATTTTTAAAAGAAAATTCTGATAAAATATTAAATTTGGAATCTAAATATATAATTGAAATGATTAAAAAATCATGTGAGATAAAAGCAGAAGTTGTATCAGAAGATGAAAAAGAGCAAGGGATTAGAGCTATATTAAATTATGGACATACTTATGGACATGTAGTTGAAAATTTAACACAATATAAAGTTTATAGACATGGAGAAGCTGTTGTATTTGGGATAATGTTTGCAACTTATTTAGCAAAAAAAATAAGAGGAGTTAACGAAAGTATTGTCACAGAAATTGAAGAAATATTCGATAAATTTGGGATGGATATAATTATTCCAAAGTTTAATTTTAATAAAGTGCTTCAAATATTAAAACATGATAAAAAAGTAAAAGATGGAAAATTAATATTTGTTTTACCAACATCTATAGGAACTGCAGAGATAATAGCTATTACAGAAGAACAAGTTAAAGAAGTTTATGAAAAGATAAATGGCGCTGATGTAAAAGGTGTTATTGATATTGGAACAAATAGTGTTAGATTATTTATTGGAGAAGTATATGAAAATAATATTTTAAATAAATTTTTAAAATTGATTAATATTACAAGATTAGGAGAAAATGTAGATAAAACTAATTTGTTAGAAAATAAAGCTATTGAAAGAACAGTTAATGTTCTTAAGGAGTATAAAAATATATCTGATAGCTATGGTGTTACAAGCTTAAAAACAATTGCAACAAGTGCTGCAAGGGATGCTTTAAATAAAGATGATTTTTTAAAAGCAGCTTTAGATGTGGCAGGAGTAAAAGTTGATGTTGTTTCTGGAGAAGTAGAAGGAAATTACTCTTTTAAAGGAGTTTTAAGTTCTGGATATAAGTCTGATATTATAGTTGTGGATATTGGTGGCGGAAGTACCGAATTTATCTATGGAAATAATAAAACTGGTGTAAAGTTTATTAAAAGTTTAAATATAGGCTCAGTTAGAATTAAAGAAAAATTTTTTAAAAGTGATATTTATGATAATTTAAATGAATGTAAAAAATGGATATTTAATGAATTAGAAACAATTAAAGAATTAAAAGATAAAAAATTTAAACTTATTGGAGTTGCAGGAACTATTACAACGCAAGTAACAATTTTAAAAGCTATGGCTGAATATAATTCAGATGAAGTAAATGGATATAATTTAAAGTATACAGATATTTCAAATAATTTTGAGATGTTATCAAATTTATCAATAGAGAATAGAAAAAATGTAGTAGGATTAGAAGAAAAAAGAGCTGACGTAATTGTTGCAGGAACATTTTTATTAAAAACAATTTTAGAGTTCTTTTCACAAGAATCAATTGAAGTTTCTGATAACGATATTTTAGAAGGAATGATTTTAGATAAAACTCGTTAAAAATAAGTAAAGAACGGCTTAAACGTTCTTAAAAAAATATGAGGAGGATACAAAAATGAGAATAGTAATGGCATCGGATCACGGAGGACTTGAATTAAAAGATTTTATAAAAAGTTATTTATTAGGAAAAGGTTATGATATTTTAGATATAGGAACAAATTCAGAAGAATCAGTAGATTATCCTGATTACGGTAAAAATGCAGGATTAAAAATAATGAACGGAGAAGCAGATTTAGGAATAATTATGTGTGGTTCTGGAATAGGTATCTCAATTGCTGCAAATAAAGTAAAGGGTATTAGAGCAGCATTATGCCATGATATATATACTGCTAGAATGTGTAAACAACATAATAACGCAAATATATTAGCTATGGGTGGAAGAATTATTGGAAAAGGATTAGCTATTGAAATGGTTGAGACATATTTAAATACAGAATTTGAAGGTGGAAGACATCAAAGAAGAATTGATAAAATTCATAAAATTGAACAGGAGGGATAATTATGTGTCTGTTTTGTAAAATAGTAAATAAAGAAATTCCAGCTAAAATTGTTTATGAAGATAATAATATCTTAGCGTTTGAAGATATTAATCCAAAAGCACCTGTGCATATTTTAGTAATTCCTAAAAAGCATATTGAAACTTTAAATGATATTAATAATGAAAATTCAAAAATAATAGGTGAAATCTATGCTGTAATTGCTAATTTAGCAAAAGAAAAAGGTATTTCTAAAACAGGATACAGAGTTGTGGCAAATTGCAATAGAGATGCAGGACAGGAAGTTTTTCATATCCATTTTCATTTAATGGGCGGAAGGAAATTTCAATGGCCAGCAGGGTGATTTTGAGTAAAGAAAATAAATTTTATAAATTAATAAAAAAATTAAAAGATAAAAAATATAGAGAAAAAGAAAGAGCTTTTTTAGCTGAAGGATTTAAGATATTTGAACTTAATAAAAATCCTAAATATATAATTTTAAAAAACAGCATGCAAAATAAATTTGATTTTTCTTCTTATAATAATAAATATATCTTTGAGGATTTTCTATTTGATGAAATAACATCTCAAGAAAATTCTCAAGGCGTTATTTTTGTATATGAATATCCATCACCTAATATAGAAAATATTTTAGGTGATATTGTCATTTTAGACCAAGTGCAAGATCCTGGAAATTTAGGAACAATAATAAGGACATTAGATGCAATAGGTTTAAAAAGTTTAATCTTAATAAAAGGAACTGTAGATGTTTATAATGAAAAAACAGTTAGAAGCAGTATGGGGTCTATATTTAATCTTAATTTTCATTATATGAATTATGATGAACTTTTTTCATTTTTAGAAGAAAAAAATTATAATATAATCTCTACAGCTTTAGATGATGACAGTGTTGATTATACTCAGATGAGATTAAAAGAAAAAAATGCTATAGTCTTTGGGAATGAAGGGAATGGAATATCAAAAAAAATATTAAATAAAAGTAATGAAAAAGTTATAATACCTATTTATGGTAGTGCAGAATCATTAAATGTTGGTATCGCTGTAGGAGTTGTAATGTATAAGTATATTGAATTGAAAAAATTATAAAAGAGGTAATATATGGAAATAAATAATTTTTTAAATAATGAATATTCAGAAATTGAGTTTTCAGATATAAAAAATAGAGAATTAGATTTGACTAATAAAGATTTTTTTAAATGTCATTTTAATAACTGTGATTTTTCTAATACAGATTTTAGTAATTCTAATTTTGAAAATTGTATATTCGAAAATTGTAATCTTAGTTTAATTAAAGTAGTTAATACTAAAATAGTAGAAGTAGAATTTAAAAACTGTAAATTGTTAGGAATTCATTTTAACAGTTGCAATACTTTTATTATTGATATGAATTTTGATAAATGTTATTTACAATATTGTAATTTTTCGAGATTGCAATTAAAGGATATGAAATTTGAAAATTGTGATATATTAGAATGTGACTTTATTGAATCTAATTTAGAAAAATCTAGTTTTGAAAATTCTGTATTAACTGGAACTATCTTTGAAGATAGCAATTTATCAAAAACAAATTTTATAAATGCCAAAGAATATAATATAAACATAGAAAAAAATAGAATAAAAAAAGCTAAATTTAGCTCTCCTGAAGTTATATCGCTATTAAATAGTTTTGATATAAAGATATATTAAGATATCTTTAAATAATAATGAAAAAATATTAAATAAAATTAACCACGATTAAAGAAATGGAGGATAATTTGAAATTTGGAAAATCAATTTTAGGGAATTATGAAGAAGGAACTAATAGAGAATTTTTAGTATCAAATGGAATTGGAGGATTCAGTTCTGGCTGTATTAATGGTAATTTTGCTAGAAGATATCATGGACTTTTAATTAGTTCTTTATTACCTCCGTTAGATAGATATCTATATTTTCATAAAATAGAAGAAAATATAGATGGCATAGATATTTCTACATATAAAATATTTGAAGATACAGAAAAAATAAATAAAGGATATATATATCAACTTAGTTTTGAACAAAATCCTTTTCCAAAATTCAAATATTCTGTTAATGGAAATATTTTTGAGAAAGAAATTTTTATGATAACTGGTAAAAATAGTGTTATAGTTAAATATAAATTAAAAGTATCTTCTAAATCTACTGTTAATGCAAAATTCAACCTTTTTTTCAATTATAGAGATACTCATAAAATGAACACAACCGAAATTGAAAAATATAGTGTAAAGAAAGAACCAGATTTTTTATCATTAAAAATTGAAGATAATAATGTTCCAATATATATTTATTCAAATAAAATAGATAAATTTAATACAAATATGGAATTAAGAAATAATATTGTATATGATATAGAACAAGATGAAAGAGGAGATAAATCATTTGATTCTTCTGTAAGTATTGGAGAAATAAGTTGTAAAATGAAAGAAAATGATGAGATTTATATAGTAGTTTCTAATGAAAAAATTAATAATATTAATTTGGATGAACTGTATAAAAAAGAGATTAAAAGAATTGAAAAATTAAAAAAGGATACTTCGAAAAATAATAATATTTTGCAAGATTTAAGTGTTGCCGCAGATTCTTTTATTGTATATAGAAAAGGTACAAATGGAAAAACTATTCTAGCTGGTTATCCTTGGTTTGGAGATTGGGGCAGAGATACAATGATAGCTTTACCTGGATTAACACTTTCTACAAATAGATTTGAAGATGCAAAATCAATTTTAAAAACTTTTGCTAAATATTGTGACAAAGGTATGCTTCCAAATAAATTTCCAGATTGGGAAGGTGAAGAACTATATTATAATACAATTGATGCTTCACTTTGGATTTTTTATGCAGTTTATAAATTTTTAGAATATACAAAAGAGTATGACTTTATAAAAAATGAAATATATCCAGCTTTAAAAAATATTATTCAATTTCACATAGATGGAACAAGATATAATATAAAAGCAGACGAAAAAGATGGACTTATCTCTGGCGGGGATGAAAATACACAATTAACATGGATGGATGTAGCTTATAAAGGGTGGGCAGTAACTCCTAGATATGGAAAAGCTGTTGAAATAAATGCACTTTGGTATAATGCTTTGAAAATTATGGAAGATTTATCAGATAAGTTTAACAAAAATAATGATGTTTATAAATTATATAGCAAAAAAGTAGAAGAGAATTATGAAAAAGTTTTTTGGAATGAAAAATCAAATTGCTTATACGATTATATTGATAATAATAATATAAAAAATGAGGATATTAGACCAAATCAAATATTTGCAGTAAGTTTGCCATATACTGTTTTATCAAAAGAAAAAGAAAAACAAATAGTTGATTTAGTTTTAAATAAATTATATACACCTCATGGGTTAAAAAGTTTATCTTCAAATAATGAAAAATATATTGGTATTTATAAAGGCAGCTTATTTGAAAGAGATTCTTCATATCATCAAGGTACTGTTTGGAGCTGGCCATTAGGTCATTTTATAACTGCATATAATAAAGTTTATAATGATAAAGAAAAAATAAAACTTTTATTAGATGGAATAATCGAGCATTTTTATCAAGAAGGGTGTGTAAATAATATTTCGGAAATATTTGACGGAGATAGTCCAAATCTTGCAAGAGGTTGTTTTGCTCAAGCATGGTCAGTTGCAGAAATAATTAGAGTAATGAAGGAGGAACTAAATGAAGAATAACGATAAAAATCTTCTGATAAAATTTATAGTAAATTTAGTTGCTTTAGGATTAACTGCTTTTTTATTAAAAGGGATTGAAATAAATGGAATTTTTCCACTTGTTATTTCTACAATATTATTAGGTGTATTAAACACTGTAATTAGACCTATATTTTTAGTTTTAACTCTACCTTTAAATCTATTAACACTGGGAAGTTTTACTTTTGTAATAAATGGAATGATTTTATTATTTACATCTCAACTTGTAAGAGGTTTTGAAATAACCAGTTTTTGGAGTGGCCTATTTGGGGCAATATTATTATCTTTTATAAGTTTTTTATTAGATAATTTCATAAATAATTTGGAGGAGAAAATAAATGACTAGAAAAATAGTTGATAAAAATATAGCATATACAGGAAGAGTCTTTGAATTACAAAATTTAGAAATACAATTAGAAAATAATGAAATTATAAAAAGAGATATTTTAAAAATGGGTTTTAGTGGAGCTGTAGCGGTTTTAGCAGTAACGAAAGAAAATAAAGTTATCTTAGTAAAGCAGTATAGAGCTGGAGCAGACAAATATTTAATAGAAGTGCCAGCTGGACTAATTGATGAAGGAGAAACTCCAGAGGAAGCTGCTATAAGAGAATTAGAAGAAGAAGGCGGGTATAAAGCTAAAAAATTAAAAAAATTAACTGAATTTTATACAACGCCTGGATTTACTAATGAAATTATTTATGTTTTTGAGGCATTTGATTTAGAAAAAACAGAACAAAATTTAGATCATGATGAATACATTGATGTAATAGAGTATCCAATTGAAAAAGTAGATGAGCTTGACTTAAAAGATGTAAAAACATTAGTAACATTAAATTTTTTAAAAAATAAATTAAAAAAATAAGAAGGAAATAAAAATAAATATAGTATATTACATTGGAGGGACAAATATGGAATTGAAATTTTCAAAAATGGAAGGGTTAGGAAATGATTTTGTAGTAATTGATGATAGAGAACAATTAGTTGAAAACAAAGTTTCTTATAATGATTTATCAATAAGAGTTTGTGATAGACATTTTGGAATTGGTGCTGATGGATTAATAGTAGTATTAAATAGTGAGTCTCATGATATAAAGTTTAGAATTTTTAATCCTGACGGAAGTGAGCCTGAAATGTGTGGGAATGGAATCAGATGTTATGCAAAATATGTACATGATAATAGAATAATAAATAAATTAGAATTCAAAGTTGATACTTTAGCAGGAACAATTATACCAAAAGTGAATATAGGAGAAGACGGGTTAGTAGACACGGTAAAAGTTGATATGGGTGAGCCTATACTAAAAACAAAAGATATTCCTTTTATATCAGAAAATGAAATAGCTATTTCAGAAAATTTAAATGTAGATGGTAAAGAGGTTAAAGTAACTACAGTTTCTATGGGAAATCCACATGCTATAATATTTGTAGATGATATAAAAACTGCTCCAGTCTCGACTTTAGGGCCAAAAGTTGAAACTCACGAAAGATTTCCTGAAAAAACAAATGTGGAATTTATCAATATAATTTCTAGAAATGAAATGAATATGAGAGTTTGGGAAAGAGGTGCGGGAGAAACACTTGCTTGTGGAACAGGAGCTTCAGCTTCATTAGTCGCAGCAACTCTTAATAATTTTACAGACAATAAAGTATTAATTCATTTATTAGGTGGGGATCTTACTATTGAATTAGATAAGAATAACAATCATGTATTTAAAACAGGACCAGCAACACTTGTTTTTGATGGAATTTTAAAAATATAAAAGAAGTAATTTTTTACTTCTTTTGATAAAAAGAAAGAAGGGATATAAAATGGAAAAAAATAATTCTAAAGAATTGGCTTTTTTTAATATTTTAGAAACCGCTCTTCATTTTGATTTAAGTGAAGAAAAAAATAATTTTCTAGTATCACTTAATGAGTTAAAAGATAAAATTGGAATGGATACTAACGAAATATTAAAAAATATGAAAAGTTTAGAGAATAATAAAATCTTAAAAATAAAAGAATATGATAATAATAAAATTTTACTAGATATTTCTAATTATAAAACAAAATTAAGCGAAGTTTTTACTCAAGAAGAGATAGAAACTATATTAAAAGAGTTTAATTATTTTATAAAAAAATATAATTTAACTATTCCAAATGAAAAAGAGATAAAAAAATCATCTGAAATATTAAAAAATATGATTTTAGAAAATCCACAATGTGATCTACAGGAATTTATAGAAAAAGGAATAACAACTGCAATAACAGAAAAAATTCTTATAAAGATTGAAAAAAAGATTTATGATTTATTTAATTCTGTAGATGATGAAGATTTAAAAATATTAGAAGTTACTTTGTTTTGTATGTATAACTTTGATAAAAAGAATAACCCATTTTTAGTTACTTTATTTTTAGAAAGTGTATACAACAATATGAATAAGAGGTGAATTACTTGAAATTATTAATAGTAGAAGATGAAAAATATGTAGCTTTTTTATTAGAAGAATTCTTAAAAAAAATGGGTATTAACAATTTTGATATTGTTTTTTCTTTTAAAGAAGCTATTAATATTTTAAAAGATAAAAAATATGATATTATCCTTGCAGATAATGGACTTCCTGACGGAACAGGCTTAGAATTGTTAAAAAAAGTAAAAAAAATAGACTCATTTGCAACTGTTGTGTTTATAACTGGTTCTGACGATAGTGATCTATTAATAGGGCTTATTAATAATGGGGCTTATGCGTATTTGAAAAAACCAATAGATTATTCAGAGTTTGAATTTACTGTAAATAAATCAATAGAGTATAGAAAGTTATTAAACGAAAATATAAAATTAACTAAAGAAATGATAAAGAAAAAAGAGATTGAAAAAGAATTAAAGCTAGCAAAAGAGATACAAGAAAATATTTTATTAAAAATATTACCTAATAGGCTAAATCTAGAAATGTATGCTATTTCAAAACCTGCCAAATTTGTAGGAGGAGATTTTTATGATGTAATAAATATATCAGAAGATGAGATAATTTTTGTTATAGGCGATGTCTCTGGTAAAGGATTAAAATCTTCAATTGCTATGGTTATGCTACTTAGTATAATTAGAACTCTTGTGGAAAAAAGGATACCGTTATCTAATATATTATATGAACTTAATAGAAATCTTTTTTCCTCAAATATAAAAATGAGTGCAACTTGTTTTATTGGAAAATTAAATACTAAAACTTTATCTTTGAAATATGTCAACGCAGGGCATGAATATCCTTTGATTTTTAGAGATGAAAATATAATAGAGGTAGAAAATGGAGATTTACTTTTAGGAGCTGTAGATGAATCTCGCTTTCAGGAATATGAAGTCCAGCTTTTAGACCAAGACTATCTTTTTTTATATACAGATGGAATTAGTGAACTGTATGAGGATTTAGAGGTATTGAAAATAAAAATAAAAGAATTTTTATCAAAAGAACAAAATCTTAAAAATAGTGTGTTAAATTTTCTAAAGTGGGATAATATAAATAATAAAGAAATAATTTTAGATGATAAAACAATTTTAGGAATTAAAATAGAAAATATTTTATCTGTAAAGAAAGAAGCTAGTTATCACTTAATTGCAAACACGCATGAAATATTAAATTTAAAAATATTTTTAAAAGAACTTTTTAGTTATTTAAAGCTAAATGATGAAGATGAATTTAATCTTAATTTTACAATTAATGAATTGGTTACTAATTCTATACAACATGGATATCTAAATGGGACTGGAATTATTGATATGTCTTTTAAACTAATTAGTAAAGATTTTCTTCAAATAAAAATAAAAGATTATGGAATTGGAATCAATAAAAATATATTAAAGAATTTAAATGAAAATATTATTGACTCAGCGGCATTAAGAGGAAGAGGAATTTATATTTGTAAAAAATTAACAGACAATTTTCAAATTAATGTTAACGAAGGGAAGGGGACTGAGATAATATTTACAAAAAAAATTAGCCGATAGGCTTTTTTTTAATTATTTATGTCCGATAATGTATCTTATGTTTCTTTTTTTAATTATATAATAGGACTATATATTATCTCTAATTATATAATCCTATTATAATTTATATCATATTATCAATTATTTCTTCTAATTCTTGCTTTTCTTTAAAATTTAAATCCTGCCCATCTTTTAAAAGCTTTAAAATTTTTTTCTCTTTTTCTCCTAAAATACTACTTTCTAATATTTTTATTATTAACTGTCTAAAAAATTCCATTTATATTTTTCTCCTTAGCTATAATTTATATAAAAGATTAGCTTATAAAGTTCCTTCTACACAAGTAGTTAAAAATCCACCTCTAATATTATAAATAGTTGAAACTTTAATTCTATTTGTCTTTAAGACTTTTTTCAAATCCTCATATATTAGTTTTGTAGCTCCTTCTTGAAAAATACCAACATTTCTAAAACTTGTTATATAATACTTTAAAGATTTCAATTCAATACATTTTCCACCTTCTGGATAATATTCAATTGTAAGTTTTGCTAAATCAGGAAGTCCACTAAAAGGACAAACTGCTGAAAACTCATCTGTTTCTGTTTTTATATATTGATTTTTAGAATCAAAATCAAACACCTCTAAATAATCTGCCTTAATATTTTCTACTGGTTCAAAATTAAAACTTTTTCCTTCTGCTACTGCCATTTTTCATCAATCCTTTCTTTTTTATTTGTTATTAAAATATAATTTTTTCAAGAAATAATCTACACCATACAAAATTTTTTGAAAAACATTTATACACTATCATATGAAGCACAGCTTATTTTTTTATTTATTACCATAGACTTTTACAAACTGAAAAGCTTTGCAAATAGCTAAAAAAAAGCTATTTATTATATCTCTTTTTATATTCTTCCCATCCTGCTCTTCTTAAATTACAAGCTGGACAATCTCCACATCCTCGTCCCCACTCATTCATTTTGTCACTTCCATTATAACAAGTATGACTATATTTTAAAACTAAATCTAAAACCCCTTCATCTTCAGCTAATTTAAATGTATCTGCTTTGTCAATATACATAAGAGGTGTTTCTATTTTTATATTTGAATCAGAACCTAAATTTAAAGATTTCTCTATTGAATCTATAAATATTCTTCTGCAATCTGGGTAACCGCTATAATCAGTTTCACATACACCTGTAACCAAAGTATTAGCCCCAATCTTTTGGGCAACAGCATGAGCTATTGTTATAAAAAAAGCATTTCTATTTGGAACATAACTTGCTGGCAAGTTTGTATTTGTATGATGTTTTTCATTAACATTTCCTTTATGTGTTAAAGCACTATCTACAATTTCACCAAAGAAACTTACATCAATTATATGTTGTTCCACTCCTAATTTTTCAGCTATAATTTTTGATTGTTCAATCTCAATACTATGATTTTGTCCATAATTAAATGTAATTGCAACCACTTCATCATATCTATTTTTTGCCCATCCTAGGCATGCTGTACTATCTTGTCCTCCACTAAAAATAACCATAACTTTATTGTTCATTAGTATAATCCCCTCCTGTATAAATTTGGTATTTTTCATACAAACTTTTTAGAACAGACAACTTTTAGGGAACGTTTAAAAAATAATGTTCTTATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTATAACAAAATGGGAATGTTATTTTTAAGCCATTCCTAAACTATTCCAGAAAGTTTGTGCATTTGCAAACTTAATCTCCATTGTTTTTTACTAACTTCGTTTATCTCCCCTAACAACTTAATGGTACTTTTATAATTAATATCTTCTCCATCATCTAAAGGAGATATAAAATAATATTTAGCATTAATTTCATTCTCATAGTTTATTAATTCATCAACTGTTATATTATCATTTACAACTCTAAGTTCATCCACATTTTTCAACTTAGTTTTACTTTTCGGTGACATAGATATATAATCAATATATTCTTTTTCTGCTTTTATCAAATTATTTCCATTTGTTTCTATTCCTATCCAATATCCTTCTTTTTTTAATACTTCTAACAATGGTAATAAATTTTGTATAGTTGGCTCTCCACCAGTTATAATCACAGATTTATTCTCTCTTATTTTTTCTACTTTTTCTAAAATATCCTTTTCGGTCATTTCTGTAAAATTAACATGGTATTTTGTATCACACCAATCACATGATAAATCACAACCAGAAAGTCTTACAAAAACTACATTTTTCCCTGTATTATGTCCTTCGCCTTGAAGGCTTTGAAATATTTCATTTATTTTATACTTCATAAATAGCTACATTCCCTTCGCTCTCTTTTACTTTGGCTTTATAACATTTTGGAACTGTATTTACTATCCAATTTGCTATGTTTTCAGCAGATGGATTAAAATCAAATATATCATTTAAATTATGATGATCCATTTTTTCTTTTACTAATTTTTTAATATGAGTAAAATCAATTACCATTCCATCCTCATTTAATTCAGCACTTTTACAATAGATGGTAATAATCCAATTGTGCCCATGCAAATTTTCACACTTACTTTCATATGTTAAATTTAATTTGTGACTAGCAGAAATTTCTAATGTTTTTTCTACATAATACATACCTTCAACTCCTTTTAATCTAATTTTAAAACCGATAAGAATGCTTCTTGTGGTATTTCAACGTTTCCTATTGATTTCATTCTCTTTTTTCCCTCTTTTTGTTTTTCTAATAATTTTCTTTTTCTTGAAATATCTCCCCCATAACATTTAGCCAATACATTTTTTCTCATTGCTCTAATTGTTTCTCTTGCTATTATTCTACTACCCATAGCAGCTTGTATTGGTACCTCAAACTGTTGTCTTGGAATAACCTCTTTTAATTTTTCAACCATAGCTCTACCTCTATAATAAGCATTTTCTGAATGAACTATAAATGAAAAGGCATCAACGATATTTTCACTTACCAATATATCTACTTTTACTAATTTTGACTCTTTATATCCAATAAATTCATATTCAAACGAAGCATACCCCTTTGTTCTTGATTTAAGTTTATCATAAAAATCTATTACTATTTCTGCTAGAGGTAATTCATAACTAATCATAGTTCTCATTTCATCTAAATATTCCATACTTTTATAAATCCCTCTTTTTTGTTGGCATAGTTCCATAACATTTCCCACAAATTCTTTTGGAACAATAATTGTTCCTTTTACAAAAGGTTCTTCAATATATTTTATACCTAATTTAGGTAAATTCATTGGATTATCAATTTCCATTACCTCTCCAGAATCCATAGTTACTCTATAAATAACACTAGGAGCTGTAGAAATAAGATCTATATTATGTTCTCTTCTTAATCTTTCTATGATAATTTCCATATGTAAAAGTCCTAAAAATCCAACTCTAAACCCAAAGCCTAATACTGAAGAAGTTTCTGGCTCAAATAATAATGAAGCATCATTTAATTGCAGCTTTGAAATTGCGTCTCTTAAATCTTCATAATCGTCTGTAGAAAGAGGATATAATCCAGCAAAGACCATTGGTTGAACTTGTCTATATCCTTCTAAAGGTTCAGTGGCAGGATTTTTAATTAGTGTAATAGTATCTCCAACTCTAGTATCATTTATATTTTTTATTCCTGATATTATATATCCAACATCTCCAGCCTCAAGTTTAGAAGTTGGATGCATATTAGGTGAAAAAATTCCTACTTCTAAAATATCAAACTCTTTACCTGTAGACATTACTTTTATTTTATCCCCTTTTTTTACGACTCCATCCATAACTCTAATATAAGTAACTACACCTCTATAATCATCAAAATGCGAATCGAATATTAAACCTCTCAATGGCTCATTTGAACTATCTTTAGGTACAGGAATTCTATTAACAATAGCTTCAAGTAAATCAACAATTCCTATCCCTGTTTTAGCGCTTGTTAATACTGCATCTTGTGCATCTAATCCTATTACTTCTTCAATTTCATTTTTAACTTTTTCGACATCTGCATTAGGTAAATCAATTTTATTTATAACAGGTATAATTTCCAAATTATTTTCTAAAGCTAAATAAACATTTGCTAATGTTTGAGCTTCTACCCCTTGTGTTGCATCCACTACTAATATAGCACCTTCACAAGCAGCAAGAGATCTTGACACTTCATAGATAAAATCCACATGTCCTGGAGTATCTATTAAATTTAATTCGTAGTTTTTACCATCTTTTGCATCATAAAATAGTGTTACGGCCTGTGCTTTTATAGTTATTCCTTTTTCTCTTTCCAAGTCCATTTTATCTAAAAGTTGTTCTTTCATTTCTCTCTTTGAAACGGTTCCTGTATACTCTAAGATTCTATCTGCTAATGTTGATTTTCCGTGATCAATATGAGCTATGATAGAAAAATTTCTTTTATTACTACTATTTCCCAATTATTTCTCCTCCTCATAAATAAATTAAGAACGGCTTAAAAATAACATTTCTATTTTATTTTTAAATACACAACAGTTTGATTATTTTTTAACAAAATTTAGAAACTTATTTTTTAAACATTCCTTAAAATAATTTATTTTTTAACATCCTGTAAAATACATTGTATTATATCACACTTCTTAATAAATTTCAAAAAAATTAGGAGCAAAGTATAAGTTTTTTATTATAGCTTAGAACTAACATATTTTTTGAACTCAAACTACTGATAGCGTAAAATAATGAATTACCCAATAGTTTTTATTCAACAGAGTCAATCTATACTTATCTAGTGGTTTTAAATTTTTTTCTTTTTGTAACTTTGAGTTCTTAGCGTCTTTGTGCTGAAATATTTTCCCTACAAAAACTTTACACTATCTAAACAACTATATCTCTTGCCACTTTCTAAATTTTATGATAAAATATATAGATGAAAATATACTTTAGGAATATAAAAGAAAATTCCTAAACATCGAAAGGAGTAACTAAATGAATCAAAACAAAAAAAATCTATTAAATTTTAGATATCCTGAGCTTGAAAAGTTTTTATTAGATCTTGGATTCAAAAAATTTAACGCAAAACAAATTTTCAAATGGCTTCATCAAAGAACAGTAAGAAAGATTGAGGATATGACAGATATTTCTCTGAAAAATAGAGAGCTTCTCTATGAAAAAGCATATATCCCTTATCTTAATGTACTAGACTATCAAGTCTCAAAAGTTGATAATACAGAAAAATATCTTTTTGAATTAGAGGACAAAAGTACTATTGAAACCGTATTAATAAAACATAAGGAAAGAAAAACTGTATGTATATCTACTCAAGTTGGTTGCCCTGTAAAATGTGCTTTTTGTGCTACAGGTCAAAGTGGATTTAAAAGAAATCTTGAATTAGATGAAATTTTAAATCAAGTTTACACAATTAATTCTAGGCTTCAAAAAAAAGGTGAATCTATAACGAATTTAGTTTTTATGGGAATGGGAGAACCTTTATTAAATATAAATAATTTAATTGAATCTATTTATATTTTTTCTGACGAAAATGGATTAAATATATCAAAGCGTAAAATAACTATTTCTACATCTGGTATAATTCCTGGAATTGAAAGATTATTAGAAGAAAGATTACCAGTAGGTTTAGCTATATCTTTACATGCAACTACCAACGAACAAAGAGATCAAATTATTCCAATAAATGTAAAATATCCTTTAGATGATTTAATGCCGGTATTGCATGAATATCAAAAGATGACTAAAAGACGTATTAGTTTTGAATATATTTTAATAAAAGATTTTAATGTAACTGATAGAGATTCTTCTCAATTAGCTGATATTGTATCTGCATTTGATCATATTCTTAATTTAATACCTTATAATTCAGTTGATGGCGTTTTATTAGAAAGACCTAGCGAAAAGAAAATTCTTAGATTTTATAAATATTTAAGAGATATTAGAAAAATTAATGTTACGATTAGAAAAGAAAAAGGAACCGATATAGATGGAGCTTGTGGACAATTAAGAGATCGAAATAGGAGTTGATCTTTGTGTTAAAAAAAATTAATAAAATTATATTATTTATTATAGGTATATCTTTTTTAATAGTTTTTGCTTTTAGCAGCTTTTTAATTCTAAAAGCATATAAACAGCTTCCTGATGTTTCTAAATTAGTGGAACAATATAATCCTGTTGTTCCGACTATCATATATGATACGAATGGATTAATCATTGATAAAATCTATAGAGAAAATAGGGAAATTGTTTCTATAAACAAAATCCCTAAATATACTCAATATGCTTTCGTAGCAATTGAAGACAGAAAGTTTTTTAGACATCACGGTTTTGACCTTTTCAGATTGTTAAAGTCTGTTGTTACTGCGCCTAAATATATTTTAGCACATAGAAATATTCCAGGTGGAAGTACAATTACACAACAACTAGCTAAAAATGCGTTTTTAACCACTGAAAGGAAAATTATTAGAAAAGTAAAAGAAGCCATAATAACTATAGAAATTGAAAGAAAATATACAAAAGATGAAATTTTAGAAAAATATTTAAATGAGATTCCTTTTGCTTCTGGTGCTTATGGTATTGAGACAGCTTCTAAATTATATTTTAGAAAAGATGTTGAACAGTTGAATATTGCTGAATCTGCTTTTTTAGCAGGGATACCAAATAGACCTAGTAAATATTCGCCATATTTGCATTTGAATAATACTATAAAAAGGCAACGTCTTATATTAAAACAGATGTTTAAATTTAAATTTATAAATAAAAAGCAATATGAAGAAGCTTTGAACTATAAAATCAAAGTTAGTCCTAAACCTAAAAAAAATTATAGGGCTCCATCTTTTACAGATATTGTAACAAAAAAAATATTTAAGCTTTTTCCAGAAAATGAAATTTATGGCGGCGGTTTAAAAATATACACTACATTAAATTTAAAAATGCAGCAAACTGCAGAAGAAGTTTTTAAAAATAATCGTTACTTAAAAAAATATAAAGATTTAAATGGAGCTTTAGTTACAATAGATTCTAATACTGGATATGTTGAAGCCATTATTGGAGGAAAAAATTATATTACTGGAAATTTTAATAGAGCTATAAGAGGTAAAAGACAACCTGGGTCGTCATTTAAACCTTTTTTATATTTTACTGCTCTTAGAAAAAATTATCAGATGAATTTAATTGTAGAAGATTCAAAAATTAAAATAGGAAACTGGGAACCTAAAAATTATTCTTCTAAATTTAGAAAAAATATGACAATTTTGCAAGGAATGGAAAAATCTGTAAATATAATTGCTATAAAGCTATTAAAAAAATTGATAATTAAAAATGTTATAGCTACTGCAAGATTAGCTGGAATTACTGTTGATATTCCTTACAATTTAACTATTGCACTTGGTTCTTTTTCTATATCTCCGTTTCAATTAGCAAATGCTTATTGCGTATTTTCTAATGGTGGATTTACAGTAAAACCTATTTTTATAAAAAAAGTTGTAAATAGATATGGTAAAATTGTATATGAATCTAAAATAAAAAAAGAAAAGGTATTTGATAAAACTAACATTTCACTTATAACACATATGTTACAAAACGTTGTATGGAACGGTTCAGGACGACATGCTAATATTGGAATAGACCAAGGTGGTAAAACAGGAACTACAAATAATTCTACAAATGCTTGGTTTTCAGGTATTACTGCTGATTTTGTTACAACTTTATACATTGGTTATGATAATAACAAACCAATGCCCAAATATATGACTGGTGGAGGAGTAGCTGCTCCCATTTGGGGTAAATATGTAAAAACGCTTATTGATAAAAAAATATATAAGCCTAATAAATTTGAATTTTTGCAACAAGAATTAAAAAATAAAAAAATAGAATATAAAATTATAGATAATCAAAATGGATTGCTTTCAGATAAAAGTTCTACTTCAAAAATAAAAGCTTTATTTAAAATGGGATATGCTCCAATTGAAAAAGCTGGAAAATATAAAAATGGAATAGAAGCATTATTACCAAAAAATGAACCTGTTCAAAAAGATAAAGATGAAAATTTAAAAAAAGAATTTGAAATTAATAATATTATAAATAGTTTTATAAATTAAAAAATAAAAAGAGGCCATTTGACCTCTTTTTATTTTTTCTAATTTTTTATATCTCTTCCAATTCATTTTTTATAAATTCAGCTAATTCTCCAATATATTCTTTAGAAAAATCAAATTTTATTCCAGCTGTTTCATAAACTGTTTTCATATCTTTAGAATATCCTAATTTTAAAAATTCTTTGTAATTTTTTATAGTCTCTTCCCTGTTTTCTTTGTAATTTTTATAAATTGCGATTGCTCCTAATTGAGATATTGAATACTCTATATAATAAAAAGGAACCTCAAATATATGTAATTGTCTTAACCAAACTATTTTTCTATATATTTCTAAATTACTCCAATCAACATCAGTAGCATATTCTTGCATTAAGCTATCAAAATATGCATCTCTTTCATCTGCTGAATGGTTGGGCTCTGTATATATCCATTGTTGGAATTTATCTATAATCATAACCCATGGCAATATATCTAATGTTCTTTCTAACTGTTCTTTTTTAGCTTTTTTTATATCTTCTATATTATCATAATATTCATTTAAATAATCTAATGTTATTAATTCCATTGACATTGAAGCTAATTCTGCAATTTCACTTGGAGCGTTAGCATATTCACCTATTTCTATATTTGCAGTAGCAAAAGAGTGCATTGCATGACCTGATTCATGTAATAACGTAGTTACATCACTATGTAATCCTATTGAATTCATAAATATAAAAGCTGCTCCTGTCTCATTTAATGGATAATTATAACCACCTGGAGCTTTCCCTTCTCTATTATCCAAATCTAATAATTTGCTGTTTTTCATTAATTCTAGTTTATCCCCAAATTCTTCATCTATATTTCTCAAAACTTTAATAGATTTTTCAACTAATTCATCTGCTGTTTTAAAAGGTTTTAATATTTTTCCATCTACATCGACTGATGTATCCCAAGGTCTTAATTTTTCTAAATTTAATTTTTCTGCTTTTTCTTTATGCAGTTTTTTTAATAATGGTAAAATTGTTGCTTTTACTGAATCATAAAATTCAAATATATCATCTACACTATAACTAAATCTACCTTTAGCTTTATGCATATAATCTCTATAATTATCAAATCCAGCATTTTTAGCTATTTCTATTCTTATTTTTTTTAATTCATCAAATAGTTCTTCAAATTTATCTCTTGATTCTTTCAATTTCTCAGAAACTTTTCGCCATGCTTTTTCTCTAATTTCTCTATTTGGTTCTTTATAATATTTTGACATTTGAGTTAATGTTTGTTTTTTACCATCAAATTCAACTGTCAATTGAGAAAAATATTCGCCATATTTATTTGATAACTCTTGTTCTTTTATAAATAAAGGGATATTCTCTTCTCTAAAAAGTTCAATATCGTTTTTTAAAAGTTTTTTTAAATGAGTATATTTTTCTTTATCAAGCATATCAAAATATTCACTTTCAACTACTTTTTTCTTTATATTAAAAAAATAAGGTTCAGTTTTCGATACTATTTCTGCGTAAAATTTATTAAATTCTTCAGAATATTTTGGTTCATTAGCATTACAAGTCATAGCTATATATTTTTTCCCCATTGTCTCACTTAATATATTTCCTAATTCACTATACTCTTTCATAAACTCTTCTAATTCTAATTCACTATTTATCTTCTTCTCTACTAATCTCTTTAACTCAACTTCTAGTTCTTCCCATTCATCTATTTTAAATTCTTCTGAAAAATATTTTCTTGGTTTCTTTTCTATTTTATTCATATCATTAACTCCTCCTATTTGAAATTTAATCTATTAACATCTCATATATATATTAGATAATATTAGCCGCGGATTGATACGGATAATATTAAAAAACATTTGTAGGGGCAATCCACTGTGATTACCCTTTATATAATTCTCTTCTCTACCATAAAGCAAATTGGTTCAAATCAGATATATCTTCTATAGCTTTATATTCTTTAAGTTTTTCAATTACATTTTTTGAGGCTTTTGTCCTTCTTGTTAAATCTTCAAAAGATAAAAATTTCCCTATTTCTCTTTCTTTTATTATATTCTCCACTACTGCTTCTCCCAATCCATTAATTGCAATAAGCGGTAATCTTAATTTATTATCTTCTATTAAAAATCTTTTTCCACCTGATTTATATACATCAACTGGCAATAGTTCTACACCTCTATAGTGCATTTCTGTTAATATTTCCAATAGTGCTAATTCAGATTTTTCTTTTACATCCAATCTATTTTCTTTTTCTAATTCTGCTCTTCTTTGTTTAACTACAGTTATTCCATTTAACATTGTATCTGAATTTATATCATCTGCTTTTCTACTTAAATATGCTGCATAAAATGCAACTGGATAATGTATTTTAAAATATGCTATTCTCATTGCCATCATTACATAAGCTACTGCATGACCTTTTGGGAACATATATTTTATCTTTTTACAAGATTCAATATACCAATCAGGAACTTTTGTTTCTTTCATTAATTTTGCATATTCAGCCCATTTCTCTGGATCTTTTGACGGTTTACCTTTTCTGACAAATTCCATTATGGCAAATGCAGTTCCTTTCTCTAATCCACTATCAATTAAATAGTTCATAATATCATCCCGTACTGATATTACATTTGTAAGTTTTGCAACTCCTCGTCTTATATATTCTTGTGCATTATTAAGCCATACATCTGTACCATGAGATAATCCAGATATTCTAACTAATTCAGCAAAAGTTGTAGGTCTTGTATCTAAAAGCATTTGTCTTACAAATTTTGTTCCAAATTCAGGGACTCCAAACGTTCCCACTTCTGAACCTATCTCTTCAGGTCTAACTCCTAATGATTCTGTTGAATTAAATATTTTTAACGTTTCTTCATCGGCTATAGGTACTTGATAAATATCTACTCCTGTGTATTCTTGCAATAATTTTATTGTTGTAGGGTCATCGTGACCTAATATATCCAGTTTTACAAGTTGCGAATCCATTACATGATAATCAAAGTGTGTCGTAATTGATTCAGATTTCATATCATTTGCGGGCTTTTGTACTGGAGTAAATTCATATATTGATTTATCATATGGCACTACGATCATTCCACCAGGATGTTGCCCTGTTGTTTTTCTAACATTTACACATCCTTCGGCAAGTCTTTCCATTTCTGCTTTTCTCATAATTTTGCCATTTTCTTCTGTAAATTTTCTTACATATCCAAAAGCATTTTTTTCTGCCAATGTAGATATAGTTCCAGCTTTAAATACATTTTCTTTTCCAAAAAGCTCTTCAGTATATTTATGTACTTTTGATTGATATTCTCCAGAAAAATTCAGATCAATATCTGGAACCTTTTCTCCATGAAATCCCATAAATACTTCAAATGGAATTGAATGTCCCTGTTTTGTTAGTGGCTTCCCACATTTTGGACAAATTTTATCTGGCAAATCCACTCCACTACCTTCATAATCTTTAAATTCTGAATATTTACAATCTGTACACAAATAATGTTGATACAGAGCATTAACTTCTGTTATTTCCATAAAATATGCCACTAACGAAGAACCAACAGATCCTCTTGACCCTACCAAATATCCATCATCAAGAGATTTCTTAACAAGTTTTTGTGCTGTTAAATAAAGCACAGCAAACCCATTATTAATAATTGAATTTAACTCTCTTTCTATTCTTTTTTCTACTATTTCAGGTAAAGGATCTCCATACATTTTTTTTGCATTAGAATATGTCATCTCTTTTACTTGTTCTTCTGCGCCTTCTATTTTAGGAGGATAAAAACCATCTGGTATCGGCTGTACTTCTTCTATCATATCTGATATTAAATTACTATTTTCTACAACTACTTCATAGCTCTTTTCTGCTCCTAGATAATTAAATTCATTTAACATCTCATTTGTCGTTTTAAAATATAATCCTCCATCAGAATCATAGTCTTTAAATCCTTTTCCATAAAGTAAAATTGATCTATAGATATTATCTTCTGGCTCTTTATAATGTACATCTCCTGTAGCAACTACTGGTTTGTTTAATTTTTCTCCTAATTCACAAATATATTTATTCATTTCATTTAATTCTTCTACTGATTTTAATGTCCCATTTTTTATTAAAAACATATTATTAGAATTTGGTTGTATCTCAAAATAATCATAAAATTCAGCTATTTTTTCTAATTCTTCTTGCGGTTTCCCTCTTAAATAACCTTGTATTAATTCTCCAGCTTCACATGCACTGCTTAAAATTAATCCTTCTCTATATTTTTTTAATATAGTTTTAGGTATCCTTGGAGTCCTTTTGAAAAAATCTAAATGCGATTCTGATATCAATTTATATAGATTGATTAATCCTATTTGATTTTTTACCAAAATAATTATATGATTAGTTGAAGCTTGTTTTATATCAGTTTTAAATGTGGAATCTATTTCTGGTAATTTATAAACCCCTTGTCTAATTAACATATTAATAAATTTTTTGAATATTTCAGCTGTTGCCTCTGCATCATCTACTGCTCTATGATGATTTTCTAATGATATTTTAAAATATCTTGATAAAGCTTTTAAATTATGTCTTCCTAAGTCTTTCAACATATTTCTCGACCATTGCAAAGTATCTATTACTGAATTTTCAAATTCTAAACCTAATAGCTTACATTTTTGAGTAATAAATCCCACATCAAAATTAGCGTTATGTGCTACAACAGTGGAATCTCCAACAAATTCTAAAAAATCAGGTATTACTTCTTCATAACTTCTTGCATTAGCTACCATATCTTGAGTTATACCAGTAAGTTCAGTTATCTTTTCAGGTATTGCCATTTTAGGATTGATAAATTGGCTAAATCTATCTACAATTTTACTCCCAACAAGTTTTACAGCTCCAATTTCTATTATTCTATCATTATATGGATCAAATCCAGTAGTTTCCAAATCAAAAACAACATATTCTTCATCTTCTATTGGTATATTTTTTGGAAATTTAACCATTTTTATTTCATCATCTACTAAATATCCTTCTACTCCTAATATAACTTTAAAATCTTTCATTTTTTTTGCAATATTATATGCGAACGGGAATGAATGAACTACTCCATGATCAGTAATTGCAACTGATTTATGTCCCCAATCATATGCTTGTTTTATTAAATCCTTTACCTCTATTACAGAATCCATTGCAGACATTTTTGTATGAGCGTGAAGCTCAACTCTTTTTTTATCTGCATTATCTTTTCTTACCTTTTTTTTAATTGCTAATTTTTCTATTGTATTAGCAAAAACTATATCTTCATTATTGCTAAATTTATCTTGTTGTTTCCTACCTTTTATTTTAACCCAAGTTCCAGACTTTATATCTATAATATTATCTTTCTTAGCGAAAACTTTTATTGTTATTGAGTTTGAATAATTTGTTATATTAAAACTATATAATAATTTTTCTCCATTAGATATTTCTCTTTTTTCAAATTTAAAAACCTCGCCCTCTAATATTACAGGCTGATTTGGAAATATGTCATCAAATTCTTCATAACTCATTGCTGCACCTTTTATTTTTGTTTTCCCAAATAATATATTTTCATCTATATTTTTCTTTTTATCATTACTCTTTGTAGTTGTTGTTTCTATTTTAGGTTTTGAGACTTGAATCTCTTTTTTTTGTTCAGGGATAAATTTTTTATTATCTAATTTTTCAATCTCTTTAGAAAAATCTCCAACTACAAATTCAATTTTCATTTTTATTCCTGTAATATTATAAAATTTTTCTGCAATTTCACTAGAAAAATTTGATTTTTCAATTTGTTCTTTTGCTATATTATGTTTTAACTCTATTTTTATATTATCTTCTTCCACTCTATATCTACATATTCCAAAATAAGCTTTTCCAAGTGCAGTTTTTTCTTTTACCTCTAATATAATTCTATCTAATACTTTTATAATATCTTCATTTGAAAACTCTTCTTGAGACAAATCAATTTGAAAATCAAATTCTATTTTATCTCCAAATTTTTTCGACAATGCCTTTTTGATAATTTCAATTTCATATAAATTATCACAATGTCCCACACTACATTTTAAAATTGCTCTATTTTTAGATTTATGTATTTCAATTTCATCAATTTCTGTATTTTTTATACCTAAATTTGCAAAAGTATCTTTATTTGGCTTTATTCTTACTAACATTTTTAATCATCCTCTTTTTATTTTTCTCCAAGTACTCTATCTAGTATTATTGACACCGCTGACCTAACAGATAAATGATTATATTTACTGTTTCCTCTTATTGGCTCTAAAATATTATCCGACATATCCATAACATCTTCTATAAGTCCCCATCCAGTTCCAAATATAAAGAAATAACTGTTATCATCTTCAAATATATTTTTAGAAAGTTCCTTATAAGATATTGAATTAGGATAAATTTTTGCAGAAGTAGTTATAATTTTTGGCTTTTTCCCAGTTTCAATTTCAATTTTTTTTACAGCATCTTCTATAGAATCTATTATTTCAGTATGTGAAAATGCTTCTTCTCTATCTGTGTTATATGTTTTTCCATCTCCATCTTTCCAATATCCTATAATTCTTTTAGTTAATTCTATTTGTGCATCTACTGGTGTTATTATAAAATATTTTTCTATTTCATAAGTTCTACATGTTCTTGAAATATCATGAATATCAAAATTTGTTACTGATGTTGCTACTATATCATTTCTTCTATTATAAACTGGATAATGTACTAGTCCCAGATATATTTTATCTCTCATTTAATATCTCCTCTATAGTTTTTTTTTCTTCTTTTGATAATTCTCTCTCTTTTATCAATTCTGGTCTTCTTTCCAAGGTTCTCTTTAAAGCTTCTTTCAATCTCCATTTTCTTATTTTTTCATGATTACCTGACAATAATACGGCAGGTACTTTTAGTTCTTTATATTCTGCAGGTCTAGTATAATGAGGATGATCTAATAATCCATTATAAAAAGAATCTTCTTCAAAAGATTTAGAATTATTTAATACATTAGGAATTAATCTTATTATAGCATCTGAGATAACCATTGCTGGCAATTCTCCACCTGTTAAGACGTAATCTCCAATTGATATTTCCATATCTACAAAAGTATCTACAACTCTCTCATCTAATCCTTCATAATGCCCTGCTATAATTGTAATTTCTTTTTCTTTTAAAAGTTTTTTTGCTATACTTTGGTTAAACATTTCCCCTTGTGGAGAAGTTAAAATTACTTTTGAATCTTTCATCTCTGCTAATGCCTCAAACAGTGGCTCAGGTTTTAAAACCATACCTGGTCCACCACCAAACGGATAATCATCTGTAACTTTATGCTTCCCTTTTGCATAATCTCTTATATTAATTATATTAATTTCTACTAAATTATTATTTAAAGCTTTTTTTATAATGCTTTCATTTATCATTCCATCAAACATATTTGGAAATAATGTTAAAATATTTATCTTCAACTATATCCTCATTCCTTCTATTAATTTTACTGTCATAATTCTAGAGTCTAAATCTACTTTTTTAATAAATTCTTTAACATCTGGAATCATTATTTCACCTTTATCCACATTAACAATATAAATATCATGAGCTGCTGTACTCATTATATCATCTACTTTCCCTAATGTTTCTCCTTCAATTGTAATAACTGTCATCCCTTTTACATCTGCTAAAAAATATTCATCAGATTCTAAATCATCTATATATTCTCTCCTAACAAATATATCACATCCTATATAACTAAGTGCATCTGTTTTATTTTTTATCTCTTCCACTTGTAATGTTATTTTTTTTGTATTCATTCTTGAAACTTTTTCTACTGTTACAAGTTTTTTTATACCTTTTCCATTATCCAAAATCAATTTTTTACCTATTAGAATTTCTAAATTATTTAATATTGATGATGCCTTCATCTCACCTTTTAAATGATGAGTTCCTGATATTTTACCTATATTTAATAAACCTTCCAACTTTTTTCCTCCTTGTTTAGTAACTGAAAAATAATCTACGCTTCATCTGGTAGAACATAAATATTTTTCTAAATTTTTGGCTTCTGAAAAATTTTACTTTGAAAAATCGCATATTTCAAAAAAATGGCGTAGCTTATTTTCTGATAAATTTATACTTTAACTAACTGATAAAAAAATAATCTACGCTTCATATTTTTATATGAAAAACATATTTTTTAATAAAGTTTTATGTTATATTTTATCATAGAAATGTAAAGTTTACAACAAAAAGTATTATTCTATATTTAATTATAAAAAGATATTTAAATTTTTAATATATTGTAGTAGCTCTTCTTTACATAACTCCTGATTATCAAGCTGATACATAAAACTTATATTTAATATGTTTTTAAAATTTTCATTTGGTTTATATCCAAGCTTAATTAAATCCTTTCCCATTATTAATGGTTTTATATTTCTAATTTCATTAATATATTCCAAAATTTTATTTTCTTCTTTTTCAGAATCTACAGTTATAAGCAGAAGTAAAATCAGATCTCCACTTAATTTTTTTAAGCTATTATAAATTTTAGATTTTTTCTCTGAACTCTTAAGTTCATCTATTATCTTTTCTCTTTTTATTTTTCCAAACTTATATTTTTCAATAAATTTATTTGGAAAATGAAATTTAAAAAATATATTTGTTAATTCCTCGCTATTTAAATCTTCTAATAAAACTAAGAAATATACAATCCATTGTTTTAAATTTAATTTAGTAATATATTCTTTATATTTTTCTAAATTTTTAAATGCAACTTCTGTTTTTTTAGTTAGTTTTATACTTTTATGAATTGCCTTTAAGACTCCATATTCTTCTAACATATATATAGCTTTTTTAGGATTTTTTTCATTTAATATTAATTCTATTTCATATTTTACTCTTTTCCATGTAAGCCTTTTTAAAAATCCCTCCTCAACTGATAACTTAGCAAATCTTTTAGTTTCAGCATCAAATTCAAAATTATATCTTACAGCAAATCTTATACCTCTAATTATTCTAGTTGGATCTTCTACAAAACTGAAGTTATGTAATATTCTTATTTTCCCATTTTTCAAATCAGAATACCCTTTAAAATAATCGATTAATCTCCCAAATTTATTATAATCAATTTCTATTGCCATTGCATTTATTGTGAAATCCCTTCTATACAAATCTTGCTTAATATTTCCATATTCTACAACTGGTAATGAAGTTGGATATTCATAATATTCCACTCTTGAACTAGCTACATCTATTTTTAATTTTTCATCAACAATAACTACTCCTGTTCTAAATTTTGAATGTAATACAACTTTTTTAGCATTTAATTTTTCTCCTAATTCTTTTGCAAAATTCATTCCATTCCCTTCTACCACTATATCTAAATCAAAATTTTCTATTCCTAATAATAGATCTCTAACAATTCCACCTACAATATATACTTTCTCTTTTCTAACTTCAGAGACTTCTCTTATTTTTAATAATAACTGTAAAACATCCTCTTTCATTCTATTTTTTAGTACTGTTTTTATATTATCTTCAAATTTTTTATTCTTTTTATCAGTTTTTTTTCTAATTTCATATAAATTTCTTAAAATATCACTTCTAGTTACAATTCCAATAAGATTGCTGTTTTCATCCAAAATAGGTAATCTTCCTATTTCATTCTCTATCATAAGTTTTTTCATTTTTTCTAATGGAGTATTTTGGGTTATTGTAATTAGCTCTCCACTCATATAAGCTTTTACAGGAGCATTAGAAAACCCATGAGAAATAGCTTTATCAATATCTTTTCTTGAAATCATTCCAACTAAATTTTCATTTTCCATAATAGGTATTCCACTATATCCAAATCTTAGCATAATTTTATAAACTTCTTTTATTTTTACATCTGAAAAAACAGTCTTTACTGGATATTGCATTATATCTCTAGCTAATTTTTCTATTTTCACATTTTTTAGTATAACTTTTTTTAATTTTTTATAAATCTCTTCAAAATTTTCTTGCTTTATTACGGCAGAGCCTGCATTCGAATGACCGCCTCCATTAAATTCAGATAAAATATCATCTACTCTAATATTTAATGAACTACTTCTACCAATTATATAACTATTTTTATCATTTCCAATTAAAATAAAAACTCCATTTGTTCCTTCAATATCTTTTATTTTATTTGCAACAACATCTAACCCATCAACAAAACTATCGTTATTGTATTTTCCTACAAATATAGAATCCACAGAAAACTCTATTATTTCTCCTGCTTCTATTAATTTTAAAAATAGCTCTACTTGATCTTTTTTTAATGCTTTCGATATATATTGATTAACTATTTCTAAATTAGCATTATTTTCCAAAAGATATGCTGCCATTTTTATATCTTCAGGAGTAGTTGAACTGTATGATAAAGAACCTGTATCTTCATATATTCCCATCATTAAAATAGTAGCTTCATATTCTGTAAAATTAAGCTCTTTTATTTTTTCTAAAGCTATTCTTAGTAAAAAAGTAGTATTTGCACCAGTTTCAGATAAAAATTTATTTTGTGTGATTATGCTATGCTCATCTTGATTATGATGGTCATATATTATAATTTCAACATTTTCTTTATTTAATATCTTTTTAAATTTTCCTATTCTATTTTTGCCTGAAGTATCAACTATTATCATTTTTTTTACTTTATCTATATTTATTTCTTTAGCTTTATAAATATTTAGATAATCTTGATATAATCCTACTAATGTATGTACATTTTCATTTACATTCCCAGCGAAGACAAGACTTGCATTTGGATATAACTTTTTAGCAACAATCATTGATGCTAGTCCATCTAAATCTAAATGACTATGACTAATTATAATATCTATTTTAATCACCTTCTTTAATTTTATTTTCCTGAATAAATTTATATTTTATTAATAAACAAAATAAGATAAGCTATACAAAATTATTTCCGTATAGCTTATCTTTATAAATCCTCTATTAACTATTCTACTTCTTTTTCCTTATTAAATCAAGTTTTTCTAATTTAGCATCCGTTTTAATTCTTGCAATTGTATTAGGATGGACTACATCTGTATATTCTTCTGTCTTTTCATTAAAAAATTTTGGCATTTTACTTTTTAATATAGTTCCATCAGATTTTACAATTTCAACCTCTTCATTTTCAAATAATCTATTTCTTATTTGAATTTTATATTCATTATCGCTAATTTTCTCAATAACTTTTGCAACTAATTGATGTGTTTGACTATATGATGAATTCGTGTCATAATTTTGAGAGCTCTCATCTGTTTTACCTAAATAAAATCCTGATGTAAAACTTCTATTACTTGTTGTTTTTAATTCATCTAGCCACTCTTTTTTAAATTCATATTTACCATCACTATAAGAATCAATAGCTTTTCTATAAACTTGAGTAGCTAATGCAGCATAATAAATTCCTTTCATTCTTCCTTCTATTTTTAAGCTATCTACTCCTGTATCCATAATTTTATCAATAAATTCTATGGTACACAAATCTTTTGAATTAAATATATAAGTTCCTCTCTCATCTTCAAATACTGGAAAATATTCCCCAGGTCTTTTTTCCTCTACCAAATTATATTTCCATCTACAAGGATGAGCACAAGCTCCTCTATTAGCATCTCTTCCTGTAAGATAATTACTAAGCAGACATCTTCCTGAAATTGACATACACATAGCTCCATGTACAAAAACTTCTAATTCTACATCATTTACTTTATCTCTTATCTTTTTTATCTCATCTAATGCTAATTCTCTTGCTAAGATAACTCTTTTTGCTCCCATATCTTTCCATACTTTTACACTTCTCCAATTTGTATTGCTTGCTTGTGTACTTACATTTATATTTAAATTACTATTTTCTCTAACAAGAGCAAAAGTACCTAAATCAGCTACAATAACTCCGTCAACTCCAATTTTCTCTAAATATTTTACATATTCTGGCATGAAATTTAACTCTTCATTATGAGGAATTATATTTAGAGTTACATATACTTTTTTCCCTAAATTATGGGCATAAACAACAGCTTTTTCTAAATCACTATTAGAAAAGTTATCAGCTAATGCTCTCAAATTAAATAGTTCTCCTCCTAAATAAGCTGCATCAGCTCCATAATGTAATACAATTTCTAATTTTTCTAAATTTCCTGCTGGTGATAGTAGTTCTATTTTTTTTGTCATATTTTTTTCTCCTCTCAACTTTTATCTATATAAAATGTGGCTTATTTTTTTATTGAATTATTCTTTAATATGCATAATATAAAAAATATTAAAAAACCTATTTTTAAGCCATTCTAAAACTTAAAAATGGCAGATTAAATCTGCCATTCAAGTTGTTTATGCATCCAATCTTTCTTCTTTAAATCTTAAAATATTATTTAATCCAGAATAAACTTTATGGTTTCCATTTTCTAAAACTACCAATGTAGGTACTGCTCTTATCCCAAATTTTTGAGTAAGTTCCATATTATCATTAGCATCTAAATGTTCTATATTATTAATATCTTTTAACTCATCTTTTGCTTTTGGACAATTTGGACAAGTTTTAGTTGTAAATAACATTATTTTTTCTTTATTTTTTTCTTTATTTTCAATAATATTATCTTCCTTTTCTTTCATATTATCCATAGAAAAATTCACACCATATTCTTTTCTATCTTTAAATTCTTGTTGTTTCCCATCATTCCAATTTTGTACTGGTCTATAGTATCCAGTTATTCTAGAATATACCTCTGTTGCTTCTCCACATTCAGGGCATTTATAAACTTCCCCTAAAATATATCCATGTGTTTTACAAATTGAATATGTAGGTGAAATAGTATAATATGGTAATCTGTAATTATATGCTATTTTTTTTACTAATTCTTTTGTTGTTTCCCAATCATTTATTCTTTCTCCTAAAAATGTATGAAAAACTGTTCCACCAGTAAATTTATTTTGTAAATTTTCTTGTATATCTAAAGCATCAAATACATCTTCTGTAAATCCTACTGGCAGATGACAAGAATTTGTATAATATGGAGTTTCATCTTTATCTCCAGCAGTTATAATATTTTCAAATCTTTCTTTATCCATTTTTGCTAATCTAAAAGTTGTACTTTCTGCTGGTGATGCTTCTAAATTATATAAATTTCCTGTTTCTTCTTGAAAATCTGCTAATCTATTTCTCATATAATCCAAAACTTCTCCAGAAAAATCTTGTGCTTCTTTTTCGATTAATGTTTTTCCAATCCAGCTAGCATTTAGACACATCTCATTCATTCCAACTAAACCTATAGTTGAGAAATGATTATTAAAATGTTTTAAATATTTTCTAGTATATGGATATAACCCCTCTTCGTTTAATTGTTCTACTACTTTTCTTTTTATTTCTAAGCTTCTTTTTGCTGTAACCATTAATTTATTTAACTTATCATAAAATTCTTCTTTATTATTACTTGAATATGCTATTTTAGGTAAGTTTATTGTAACAACGCCAATACTTCCTGTAAATTCATCAGACCCAAAAAGACCTCCACCTCTATGTCTTAATTCTCTTTTGTCTAATTGTAATCTACAACACATTGATCTTACATCGCTAGGATCAAGGTCTGAATTAATAAAGTTTTGGAAATATGGAGTACCATATTTAGCTGTCATTTCAAATAAAAGTTTAGCATTTTCATTATCCCATATAAAATCTTTAGTTACATTATAAGTAGGTATTGGATATTGGAACCCTCTTCCTGCTGCATCTCCTTCTAACATAATTTCTATAAACGCTTTGTTCATCATATCCATCTCTTTTTGACAATCGCCATATGTAAAATCCATTTCTTTTCCAGAAACAATAGCGGGTTTATCTTTTAAATCTCCTGGAACTACCCAATCTAACGTAATATTAGAAAATGGACTTTGAGTCCCCCATCTACTTGGTGTATTTACTCCAAATACAAATGATTGAATTGCTTGCTTAGTTTGTTTATATGTCAAATTATCCACTTTTATAAATGGAGCTAAATAAGTATCAAAGCTACTAAAAGCTTGTGCTCCAGCCCATTCATTTTGTAAAATACCTAAAAAATTAACCATTTGATTAACTAAAGTATTCAGATGTCTAGCAGGTGCAGATGTTATTTTTCCATTTATTCCACCTAATCCTTCTTCTATAAGCTGTCTTAGAGACCAACCAGCACAATATCCTGTAAGCATTGATAAATCATGAATATGAAAATCTCCGCTTTTATGAGCATTTGCAACTTCTTCATCATAAATTTCATTTAGCCAATAGTTAGCTGTTACTGCTCCAGAATTATGTAAAATTAATCCTCCAACAGAATAAGTTACAGTAGAATTTTCTTTTACTCTCCAATCTTCTACTTTTAAATAATTATTAACTACATTTTTAAAATCTAAATATGTAGATTTCATATTTCTTATTTTTTCTCTTTGTTTTCTATATAGTATATATGATTTAGCAATTTCTACATAACCAGTTTCTTCCAATACTTTTTCTACGCTATCTTGTATATCTTCTACAGTAATATTATCATCTTTTATTTTCGATTGAAAATCTGATGTTATTCTTAATGCAATTAAATCTAAAATTTGATCATCAGAAAACTTTTTACTTGCTTCAAAAGCTTTTGCCACAGCAACTTTTATTTTACTAATATCAAACTTTACCTTTTCTCCATCTCTTTTTACAACAAACATAATATCTCCTCCTTATATATCATGAGAATTTTAAGAAGAATTTCCTCTAAACTAATCATCTCATATAATAAAATTATATCATTTAAAATATATTTTGTCAACAAAAAAACACTACATATAGTATGAATTTTTAATTCAGGCACTATATGTAGTGTTTGATGTAATTATCTGCATTTGCATTTGCAATGCTATTTTTAAAAACTTCTTAATAACACAAATATTAAAAAAGTAACTCCTCCACCAACAATTGCACCAACAATAACCTCTTTAAAACTATGAACTCCTGATTTTATTCTTGTTTGACTCACCAATAATGCCATTAATAATCCCAATAATATTATAATTATTTTATCTGATAAAAATATTATAGATACCCATATAGAAAAAGCTACCGCACTATGCCCACTTGGCATACCTCCTGTAAATGGTTTTCCTTTTCTAAAATAAGCTTTTAAACCTATTACTATTACAACTATAAGTATAATAGAAAAAACAGCAGTATGCACTTTAGACACTTTTAGTCTATATAATATAGAATTAGAAAAACTCTCAAAATGATTATATAATACCAAATATCCTATTATTATAGAATTTATAGCAGCTACAAATACAGCTCCTGCTGCAGTATCTTTCGCTACTTTTGCTAATTCATGAAATTCTTTAACATAAATATCTACTACTGCTTCCACAGCTGTATTTATCAATTCCGTTATCCAAACAAAAGATATTGCTATTGAGATCAATCCTATCTCTAATTTCGTTAAATCCAAAAACAAAGAAAACATCAATACTAATATTGTTATATATAAATGAAATCTCATATGAGACTCTGTTCTAATAGCTTCTATTATACCTTCTACTGCACAATTAAAGCTTTCAACAATTTTTCTAGAGCTCAACTTTTACCTCCTATATCCAAATTTATTTAAATAATATTCTTCTTTTTCTCTCATTTCCTTTTTTTCATCTTCGTTAATATGATCATACCCTAATAGATGTAAAACTCCGTGAGTTATCACATAGTATAGTTCTCTTTCAAATCCATGTCCATATTTTTTACTATTATCATCTACAACTTCTAAACATATTACAATATCCCCTAATACATTATAAAAGCCTGCATTTTCTGTTTCAGAATATGCAAATGATATTACATCTGTTGCCATATCTTTATCTCTATATTCTTTATTAATTTTTTGAATGTTTTCAATATCTGTAAACATTAATGATAAATAGATATCTTTTATTGAGTCTTCTATTTCCGAATCTAATATTTCAGAAATATATTTTTCTATTTTTTCCATTTCATTACTTAAATCATATTTTTCAACTTCATTTGTTATATCTATAACATATTCCATTTTAAATTCCTCCACTTTATTGTTCTTTATTATTATTTCCCTTTAATTTTGATATATCTGGATATTTTATTCTTGAATGATATATCCCCTGTATCACTTCTGAAAAAGTATTCATTACAATTTCTATATCCTTAAATGTTAATTCTGCTTCTGAAAGTTGCCCTGCAGAAATTTTTCCAGAAACTACTTTATGAATCATCTCTTCTACTGCTATGTGAGTTTTATTATCTATACTTCTCACTGCTGCCTCAACTGAATCAGCTAACATTATAATAGCAGACTCTTTTGTTCTTGGCTTTGGACCTTCATACCTAAAGTCACTTTCATTTACATCAGGATTTTCTTTTTTAGCTTTATTATAAAAATATGCAAGTAATGTTGTCCCTTGATGTTCCTTCATAACATCTCTTATCTCTTTTGGAATTTTATACGCTCTAGCCATTTCATCTCCATCTTTTGTATGGGCTGTTACTACAAGGCTACTTAAATATGGGTTCATATTTTCGTGTGGATTAATTCCATTTTTTTGATTTTCTACAAAAAAATTAGCCCTTTTCATTTTACCTATATCATGATAATATGATGCAACTCTTGCAAATGTAGAATTAGCTCCTATAGCCTCTGCTGCATTTTCAGCTAAAGTAGCAACTTGTATACTATGATTAAAAGTTCCACTTGCTTTTATAGATAATTGTTTTAATAATGGATGAGAAAAATCTCCTAATTCTAAAAGTTTTATGTCTGTTAAAATATTAAAACTATTTTCAAAATATGGAAGTAATGCTATAGTAATCATCCCTGAAAAAACACCTGAAATAAAAACTTCAGTTACCCCATAAGCTGTATTCAAAATTTCTTTATTAAAAAAAATATTAAATGCTAAAAGCAATACTATCTTTACAATTCCTATTACAAACCCTGTATTTACAATATCTGTTCTATTTTTTATTTTTTTCGAAAAATATATCCCTAATAACATATCTACTAAAAATAACATTAAGATTATATAATTAAACCCTATATGTATAAAAATCATTGATAGAAATAAACTATTTACAATTAAAGAATATTTCTCATTAACTATCATTCCTAATAAAAGTACACTTGCCGCAAATGGATATATATATATATATTCTAAATTTGTAATCTGTAATAAAGAGATCATTCCAATGATTTCTATTACTGTTAAATAATAATAATTTTTCTTTTTTATCTCTTTCAACATATATTTTTTTATTATTATAAAAAATAAGCTTCCAAAGATTAAAATATATAAAAAAATTGCAACTGTTTTTTTAAAATTCCAATAACTATTTTTATAAAATACTTTATTTAATAATTCAAACTTTTTATTATTAATAACTTCGCCTTTTTTTACAATAACATCTCCAGAAAAAATTTGTACATAATTTGTTTTTAAATTTGCTATTTTCTTTTTCAAAATTGATTCTGTAGCAGTTTCATCATAAAATTCATTTGGTTCTATAAAATCAATAACTATATCCTCTTCCAAAGAAGATAATTTCATCTTCGACATCTCTTTTAATACTTTATTTAAATAATCTGGTTCATCTTTAATTCCTTTTTCAAATAATTTTTTTAATGTTATTTCTATATTATTTTTAATACTTTTTTTTTCTTCTTGAGTTTTCCCTATTATTTTTTTTAATTCATCTTTTCCTATTAAAATTTCTTTTGGAGCAGACTCTTTATTAGCTAAATTAAAATAATCATTTAATCCATTTAAAACTTTTATTTCTACATTATTATCTCTTGTATATATTTTTTTAATACTTTTTTTAATATTTTCAATATTAAAATTTCTTTGTTCAACATCTATATATTTTAATGTAATTGGAGATATTATGTTTTTGGTAGCAACCTCTCCTAATCTATAATTTTTAAACTGAAAGCTTACATTCCCTATCAATATCCAAGATATAAATATTAATAAAAAAAATATTATTCTAAAATTTACATTTGCCTCTTTTATAATATTTTTTTTATTTTTTTTATTTTCTATTTTAATAGTTATTTTTTTATTAAAAATCTTAAAAGATTTCATATTTTTTCCCCCATTTTTTCATATGCACCAATTATTTCCTTTACCACTTTATTTCTGACTACATCTTTTTTTTCAAATTCCATTATACCAATTTTAGAAATATTCCTCAATATTCTTATAGCCTGTATTAATCCTGAGTCAGACTTCTTTTCCAAATCTATTTGGGTAATATCTCCTGTAATTATTGCTTTTGAATTAAATCCAAATCTAGTTAAAAACATTTTCATTTGAGTTTTAGTTGTATTTTGGGCTTCATCTAATATTATAAATGAATTGTTTAAAGTTCTTCCTCTCATATATGCTAAAGGTGCTATTTCTATTATTTCTTTTTCTATATACTTATAAGTTTTTTCTGCTCCAACCATTTCATATAATGCATCATATAAGGGTCTTAAATATGGATCTATCTTTTCTTTTAAGTCTCCTGGTAAAAAGCCTAAGCTTTCTCCAGCTTCTACTGCAGGTCTTGTTAAAATTATTTTTTCAACTTTTTTTTCAATTAAATTTTTTATTGCCATTGCTACAGCTAAATATGTCTTACCTGTTCCAGCTGGTCCAACACCAAAAATTATATCATTTTTAGAAATCATATCTAAGTAAATAGTTTGATTTCTAGTTTTAGGTCTTAATCTCTTTCCTCTAAATGCTAATATTCTATCTTTTTTTAATAAGTAATCATAACTAAATTCTCTATTTTCTATTAAATTTAAAATTCCATCAAGAATTTCTGTTTCTGATAATAAAATATCTTTATCATATAACTCTTGTAATGTTAAAATATATTTATATATAATATCTTTATTTTTTCCTTCTATCAAAAGCCTATTTTCATAAACTTTTAATATTGTTTCAAAATTAGAATGAATTTCATTTAATATGTTATCGTTTATTCCAAAAAAATATTGCAAAAAAGAATGCTTTTTTATAATAATCTCCAAAATTCCTCCTTAGAAACATTAAAGAATAAATTTCTTTAAATTCAATTAAAAGTTCTAAAACTATTACAATTGTAAACGTAGCTTTTCATATAAATTTTATATTTTTATTTTATAGGAAAGTATAAAATTTATTCAGAAAATAAGCCACGCCGTTTTTTTATGCGATTTTTCAAAACAAAATAACAAAATTATTTTTAGCCTCTCTTAATAATTAAAAGTCCGATACTAATGTATCGGACTATTAAATACTACTTTAAATAGCTTTGAACAATTTTATTTATTAATTTTCCATCAGCTTTACCTTTTAATTCTACCATAATCAGTTTCATAGCTTTTCCCATATCCTTTTTTTCAGATATTTCATTTTTTACCATGATACTTTTTATAATTTTTTCTACTTCTTCTTCCGAAAGTTGCTCTGGTAAATAATCAGATAAAATATCCAATCCAATTTTTTCTTCTTCTACCAAATCATCTCTACCGCCGGATTTATAACTCTCAATAGAGTCTTTTATTTGCTTTACAGACTTAGTAACTACACTAATAAATACCTCATCAGAAATTTCTTTCTTTTCATTTATCATAATGTCTTTTAATTTAGATTTTAACATCCTCAATGTCATAAGCCTGTTTTTTTCTTTACTTCTCATTGCGGTTTTTATATCTTCACTTAATTGCTCCCACAACATTTTTCACACACCTACTTTTGGTTTTTAAGTTTCTTTTTTCTTTCGCTTGGTTTCTCATAAAATTCATGTTTTTTTATATCTCTCAATATTCCTTCATCTTGCACAGCTCTTCTGAAACGCTTAAGTGCGCTATCTATGCTTTCATTGTTTCTAACTTTAATTCCAGTCGACACACGTTTTCCTCCTCTCCATTACTAAAATAACAGATAAATTATACAATATATCTTTAATTCTGTCAATACCAATATTAAACTTCTTTTATTTCTTTTTTATTACTTTCTATTTCGGATTTATCCTCTTTTTTCAAAGTCTTAAACATTTGTAATACATTATTCATCTCTGTTGACATCTCTCCTAGTTTTTTTGATACATCTAATACTCCCTCTGCCATTTTAACTTCAATTGTTGTGTTATTGGATACTTTTTCTATCTCTTCTTCACTTGATTGTACTATATTACTTATATCATTTATAACTGCTGCCATCTCTTCTGTTGAAGCTGACTGTTCTTCTGACGCTTTTGTTATATCTTTTATATTATTATTTATATTCTTTACTGCTTCTATTATTGAAATTAATTCTTCTCCTATATTTTTAACTATTTCATCTCCAGCTTCAACTTTTTTAGTTCCAGCTTCCATTTTATATAATACTTCTTTATTTTTTACTGTTAAACCACTTATAATTTCTTCTATATTATCTGTAGCTTTTTTACTCTCTTCTGCAAGTTTTTTTACTTCATCCGCTACCACTGCAAATCCTTTTCCTGCCTCTCCTGCTCTAGCAGCTTCTATCGCTGCATTTAATGCTAATAAATTAGTTTGATCAGATATTGTTCTTATTATTGTTACAAAATCATTTATATTTTCTGTTTGATTGCTTAATTCTATTGTAGCTTTTGAAGCTTCTTCTACACTTGAAGCTATCTCTTCCATTGTTCCTACTAAAATTTGTATATCTTCTTGTCCTTTTTCAGCTTTTATATTTGTTTCTTCTGCTTTTTCATTTATATCATGTGCTAAATCTGCTACTGATACTGATGTCCTTGCTACTTCTTCTATCCCACTTGAGGCTTCAACTATTGCACTTGAATTTGATTCTGTTCCTTTAGCTACCTCATTGATACTTTTTGCTATTTCTGTTACGCTTTCCATTGATTTTTCTGCCATATTTTTTCCATCTGATGATAATTTACTTAATTCTACTGCTTTAATTTTTATATTTTCTATTACTTCAGATTGATTGTCTAAAATATCATTAAATCTATTTGCCATTTTTCCTATTTCATCTTTTTGTTCTATTTTTATTCTTTGACTATAATCTCCTTGTGACATTTTTTCTGAAATATTTACTATTTGAGATATTCCAACTAATAATTTTTTTACAAAAATAGTTACACCAATCGCCACTATAAATAAAATCAAAATAATCATAATAAACGTAAAATATTTCACTCCTGTAAATGCACTTTTTAATTCATCTCTATAAACAGAACCCCCTATTGTCCAATTTAAACCAGGAATTTTTTCATATGCCACCTTTTTTGCTCTTCCTTTCCAAACATAATCAACTATCCCACTATCATTATTTACCATCTCTTTTGCAAAATCATATTTTATTAAACTTGTTCCTATCAATTTTTTATCAGGATGCATAATAACAGTACCATCTTTATACATAACATAATAATAACCAGTTTTTCCTATTTTTAATTTGTTTATTGAAGTTGAAATTTTACTTAAGTTTAGGTCAATTCCAACTACTCCTAATTTTCTTCCCATTTTATAGACTGCTTTTGATACTGTAATCATTGTCTCATTTGTAGTTGCATCATTATATGGCTCTGATATATACACTTCGCTCCCTGCAGCTCCTTTATACCATGGCCTTTGTCTTGGATCATATCCCGCTGGCATATCATGAATTGGACTTTGTATAAATTTTCCACTCTCTTGTACTCCAAAATAAACATTTACATAACTCTCTTTTGCAACTTTGAAACTATCTAAAATTCCTTGTGCTCCATCTATTCCATTTTCTTCAAATGATTTAGAGATTATTTGAACATCTCCTGCAGAACTATTCATTAACTGCGTAAGCTTATCTTTTGTCTGCAATAATAAACTTTTTACATTTTCTACTTGTAATGATTCTAATTTTTGTACTCCAATATTATAACTAACCGCACCTATTAAAATTAATGGTACAATTGCTGTAAAAAAACTAAACAGATACATCTTATTTCTTATCTTCATAATATCCCATCTCCTCTTTTATTATTTTTTCTCTTGATTTAATTATCAATCTTCCCTTTGGCAATGATTTTAAAAATTGTTTTCCATAATTTTTTGTTAAAATTCTATTGTCTAATAAAGTAATAATTCCCTTATCTGTTTTACTTCTTATTAATCTGCCAACACCTTGTTTTAATTTTATAACTGCTTCTGGTATTTGATACTCAAAAAATGGGCTTTTCCCTTCTGATTTTAATTTTTCTATTATAGCTTCTACTATTGGTTCTGATGGTACTTTAAATGGTAGCTTAATTATAATAACAGAATTTAATCTATCTCCCTTTACATCAACTCCTTCCCAAAAACTATCTGTTCCAAAGAGCACACTATTATTTCCCATTTTAAACATCTCAATTAGGCTATGTCTTGGATATTGTCCTTGAATAAGTAAATTAAACCCTTTTTGTGACAGCTCATCTCTTATAGCATAATATAGCATATTTAATGCTGAATAAGATGTAAATAGTAAAAATGTATTCCCTTTTCTAACTTCTATTAATTTTTTTATAAAATCTGAACTATCTACTAAAAATTCTTTGTCTGTTGGTTCTTTCAAATCACTAGGAATAATAATTTCCATTTGATTTTTATAGTCAAATGGAGAATCAATTACCTCTTCAATAACATCTTCTTCTAATCCTATTGAATTTTTAAAATAATCAAATTTATTATTTACAGCTAACGTAGCTGATGTAAAAATAATATTATCCAAATTTTGATATAGGCTTTCTTCTAAATCTTTTCCAACGTCCAAAGGTGTTGCAGATAATTTCACATTTGTTTGTTTAGCATTTATATATATCCAATATACAAATTCATTTTTTTCTATCTCCATAATAAAATCTAAATTTTTCATAATAGAGTGCAATCTTTCTATATATCTATTAAAATCTAAAATCACCCCATTTTTGTCTTCTGGATCTTCATCTTTTATAATCCCTTGAATTTTTATTATATCTTTTTTATAATTTATATATACTTTTTTTAATTCTGCAAACCTTTTCACAATCTCTTTTTCCCAATTTTTAATATTCTTTAAATCAGATTTTTTTAATCTTTTTTTTATCTCTTTTTTCATACCTAATTTTGCAAAACTGTTTGTTATAGAGTTAAAAAAATCTGCAAATTTATCTGAAAAATCTTTATGATTTAATATTATATTATTATGTACGATATTATCTATTACTGTAAAACCTTCTTTTGATATCTCTTTTTTTAAAAAATCAACTAATTTTAACAAATATCCACCATTTTGATTTTTATATTTTTTATTACTATATATAGCATTTAATATTTTAGATGTCATATATTTAGAAACTTCTATACTAAAATAATCTCTTGCCACTTTCTCTATGTTATGAGCTTCGTCAAAAACAACTAAATCATAACTTGGTAAAATAGAATAATTATTAAAAAAATAACTTTCTTTCCTAATAGATAAATCTGCAAAATACATATGATGATTTGTAACTAACACATCTGCTGAAAATATTTTTTTTCTTGCTTTAAAGAAAAAGCACCTGTCATAATATTTACATTTACTTCCTAAACATAAATCTGCTTCACAACTTACCATTTCCCATGCTAAAAATCCAGGCTCTATAACTAACTCCTGTTTATCCCCTGTTACAGTTAATCCATACCAATTTAATATTTCCATCAAATCTTTTTTATTTCTATCATCTAAAACTTCTTTATCTTCATTTGTGATATTTCCTATTTTTCTTCTACAGATATAATTTCTTCTTCCTTTAACCAAAACTTCTTTAAAGTCATATCCCATTGTTTTTTTTATAAGAGGAATATCTTTACTTAATAGTTGTTCTTGAAGATTAATTGTATTAGTAGATACAATTATTTTTTTATTATTTTTAACAGCCCATTCAATAGATGGAATTAAATAAGCAAGTGTTTTTCCAGTTCCAGTTCCAGCTTCTACTACAACTTTTTTATTTTCATTTATCCCTTTAGAAACAGTATTTGCCATTTCTATCTGTTCTTTTCTATGTTCATAATTTGAAAATCTATTTGATAACAATCCATCTTCTACAAAGTATCTTTCTACATCTATAGAAACTATTTTTTCAATTGAAGGCTCTACAATAACATATATATCATTAACTTCATTATTCACAATATAGCTACCGCCACCATAGCTGCCATAAATAGACGATAATTTTATATCATTATCAGAAGGCACTAATTTTCCTGATGGGTGATTATGGATTATAACTCCATTTTTTTTGATTCTATTTAAAATTGCAGGGACAGAATATTCATTGCCTCTAGCTATAACTTTGACTTCGGGTACTAGATTATTCTCATCTAAAATTCCAAAAAAAAATACCTCATTACCGTTAGCAAAAGATATTTCATTATATATTTTTTCTATTGCATCTTCTTCTATTTTTTCTTCTATATTCATTAAGTGTTCCTCCTGCTTTATATATTACCATATTTTTTTTTATTTCGCAAATTAATTTTAAACGTGGTTTAAGTTTAATTTTCCAATGCTTGTAGCGATATGATAACTTAAAATAACAGCAGTAATAATTATAAATAATCCTGTTATTTTACCTGCTAAAAAATTTCATCTTAAAAAATTAGATACTAAAAAAATGGTACTATTTTTCTTCTAAACAAATTTATACTTTATTATTAAATTAAAAAACACTTGATTTTTATAAGAAAAGATGATATTATTATTAGGATGAAATTTTAATAATAAGGAGGTGCAATCTTTTGGCACATTCAGTATCAGCAAAAAAAAGAATTAGAGTAGCTGAAAGAAATCGTTTAAGAAATCAAAGCGTTAAAAGTAGAGTTAAAACTACTCTTAAACAATTCGAAACTGCGATTGAAAACAATGATATCGATACAGCAAAAGTAAACTTGAGTGCTGTTTATAAAGAGCTTGATAAAGCTGCTCAAAAAGGTATTTTACATAAAAATACTGTTGCAAGAAAAAAATCAAGATTAACTGCAGAACTAAATAAATTAGTTTAAGCGTAAAAAAGAGGCTTTTAATTGCCTCTTTTTTTATTTGTTAGGAAAATATAAATTTATTCAGAAAAGAAGCTACGCTATTTTTTTTAGTATACAATTTTTCAAGGCAAAATTTTTCAGAAACCAAAAATTTAGAAAAACATTTATACTCTACGAGATGAAGTATACTGTACCCTATAAGATGGACATTTAAAAAAAAGTTGCATCAGATATGGTATTTTTATATAATATCTATAATGTTAATTTAATAGATTGGAGGATTTCATGAGCAACAAAATATTCACAAAAAAAGAGATTGAAATTTTATCAAAAAATAAATATGTCAAAACTATAAGTTCTAAGGCAATCACATATACATCAGAATTCAGAAGAATTTTTATTGCAGAAAGTCAAGATAAAATTTTACCTAGAGCAATATTTGAAAAATATGGATTTGACGTACAAGTATTAGGGATGAAAAGGATTCGATCAGCAGCAGCAAGATGGAGACGTGCCTATAAAGAGCAAGGAGTATTAGGGTTAGATGATAGAAGAAAAGAGAACTCTGGACGACCTTTAGAAAGAGAGCTATCTTTAGAAGAGAAATATGAAAGGCTTCAAGTAAAAAATGATTATCTTCAAGCGGAGATTGATTTGCTAAAAAAGCTAGACGTGCGAGAAAGAGAGGTGAACGGTAAATTAATTGAATTATCGCCATCAGAAAAGTTTGTTATAATCAAAGATGTAATAGAAACAAGTGGTGTAAAAAATATTATAAAATATTTATGTGAAGTTGCAGAAATTTCTAGAACAAGTTATTATAACTATTTGTCTGAAACTTCCAAAACAAATAAAAGCAATCAAGAATTAGAAGATGAAAAAGCAAGAGATTTAATCATAAAAGCATATGAATTCAAAGGTAGGCAAAAGGGAGCTAGACAGATAAAAATGACTTTAGAAAATGAATTTGCTACAATTTTTAATCTGAAAAAAATCAGAAGAATTATGAAAAAATATAGTATTGTATGTACGATTAGAAAGGCAAATCCTTATAAGAGAATAGCAAAGGCTACAAAAGAGCATACAACTATTCCAAATAAATTGAATAGGGAATTTAAACAAGAAATACCAGGGAAAATATTATTAACAGATATAACATACCTATCATATGGTAATGGTCAACGTGCGTATTTATCAACTATTAAGGATAGTTCAACAGGAGAAATACCTGCATATGTATTATCTAAAAATATTAAGTTAGAAATTGCAACAGAAACAATAAGAACTCTTATGGAAAACAAAAGCTTTAAAATTCATAAGGATGCATTAATACATTCTGATCAAGGAGTCCATTATACAAGCCCAACATTTCAAAAATTAGTTAAAAATAGTGGCTTAGATCAGTCAATGTCAAGAAGAGGTAATTGCTGGGACAATGCTCCTCAAGAATCATTTTTTGGCCACTTTAAAGATGAAGCAAATATTAAAGAATGTAATACATTTGAAGAATTAATTAATGAGATTGATGATTATATGGATTATTATAATAATTATAGATGTCAGTGGGGATTAAAAAAGATGACTCCTATAAAATATAGAAATCATCTTTTAGAAAATAAATCAGCTTAACTACTTTTTTTTTAAATGTACTTGACAAAGGGTACAGATTAAAGCGTAGCTTCTTTTTTTATTTGCCTATATTAAATTCTATTATAAAATTTTTAATTTCTATATCTGCTGGCGATTGTCCTGACTTTATTTTGTAATCTATAGTCAATAACTTCTCTAATTCAATTTTTAAATTTTTTTCATTTATTATTTTTAAAATTTTTAATCTATTAAATATTACATATGGATGCATCTTTCCAAAATATCCTTTTATATTTAAATAAGCTTTATCTCTAAAACTTGGATATCCACCTCTTACATCAATTTTTCTTTCATTTTCTAAAATTTTTAATTTCAATATTAATTTTAATTCTCTAACTATCATTTCAAAAAACATTATATAACTATTTGGATTCATATTTAAATAGTCCAATAAAACTCTTTTTTTCCCATTTATTAATTTATCAATTGATTCAAATATAGTATATTCTTCTCTTAAAGATACAATATTTTTTATTTTATCTATTTCAAATTCTTCACCATTTAGAAATAACTTTATTTTTTCTACTTCATTCTTTATTGTGTTATAATTATCTCCTATCATTTGCATTAATTCATGTGCTTCTCTGCTATCTATAGACAAATTATCTTTTATATATGATATAGCTTTTTCACCTTTTTTATATTCGTATGATTCTATAACTTTCCCTATCTCTTTTGCTATTTTAAGTGCTGTTTTTGAGAATTTTTTCTTTTCGTCAAAATAATCTACTATAACTTCATTATTATCATAAGAATATTTTTTTAAAATTTTAAAAAAGCTATCACTTCTTTTTACTAATTCGGCTCTTTTTAAAATAATAAATTTTTTCCCTCCAAAAATTGAATTAGAAGATACTGATTGTAAAAATTTCTCTTCCTCTTTTTGGCTTAAATCAAAATATTCTTCTGTTATTCCACTATTTTTTTCTTTAATTTTTTTCACAAGATTACTATACTCAAACTCTCTGCTTTTATCTCCTACTACTAAATACAACATTATACAAACACCTCATCCCAAACATATTTAGGTTCCATTCCTAAATATATATCAAAATTTCCATATTCTCTTATTTTATTTACAATTAATCTATACATTTTTATTCTTAAAGGCTTAAAATATCTTTCTTTTCCATCTATTCCAACTATAATTTCATTAAAGAACAGATCTGTTTTTACTTCTTTTAAAACTTTTTTCTTTAATCCTTTTTTATATCTCAATCCACCTATTCCTATATTTATTATTTTCTTTCTATCTAATGTTGAAAATATCTTTTCCAACATATTATTATAATAAATTTCAAAATCAGTAACTGCAATAATAGGATCTATTCTTATTCCAATATTATAACCTATGTTTTGTAATTTATAAGCTGCCTCTATTCTCTCATCAAGATTAGATGTTCCTAATTCATATTTATCTATAATTTCCTGTGGACTAAATGTAAATGATACAATAACACTATCTGACGGGTCTATATTAAGTAAGTTCTTTATATTATTACTCTTGCTTCTTATCTCCAGTTTTATATCATCTCTATTTCTAAAATAATTTATCAAATCAGAATTTATATTTGTAATATTATCATAAACTAAAGAATCGTTTACTATTCCGCAGCTTATCATAGAGCCTTTTTCTTTAAAATTATCTAATTCTAAAAACATATCCTCTATATTTACATAAAACATATATGCCCCATGTTGATAATAATCTCTTAAATAACAATAAAGACAATTAAAAGGACAATTATTCTCATATGTCAAATAATATTCCTCTTTTATTCCTACAAAATTTTTATCTAAATAATATTGTTTTAAAAATTTTCCTTTTTTTACTCCAAAAAACATATTTTTTTTCTCATCAATATAAGATAAATTTTGTTTCTTTATTATCTCTATAAATTCATTTTTATCTTTTACTACTTTATAATCAGATATTTTAGATAAAATTTCTTGTCCTTTTTTATAATTTTTTATATCTTCTGTTATAAATATCATATTCTACTCCATACTAAATTTTTTTGAATATTTTTTTCTTAATACTGCAACAAATTCTACAGATTTTGACATAATAAGAGGAATAATATATTGCTTTTTTTCTTTTGTAATAATATCTATACATTTTTCTATATTTTTTCCACCTGTTGGCACCATTCTTCTTAATGTTATTTTTTCTATATCTTTTAATTCAATTTCCATTTTTTTATATTTTAATTTTTCATTAACAATATCAATTGAAATTTTATATTCCATCATCATATATATAAATACTCCACCTACAAATATAAAAAAACCTGACATTAAAAATTGAAAATTATCTTTTAATTTTAAATTTTGATAAAAGAAAAATAATCCAACAAATAACAAATTAAATCCACTTATAAACCAAATAAATTTTCTTCTAAAATTAATGCCATACTTATATATTTTCTTTTCTTTTAAATCATATTTTTTTATTTTTTCTTTAAATCTTTCATAAAACATATTCTAATCTCCTTTCAAAAATAGTAATAATTCATATTTAAAAATTTATGTTGTTTATTTTATTACTCTTCAGACCTAACTTAAGTCCTCTTCTATCTTAAGAGAGGATTTTTTTACTCCCATTTTCCTAAATTAATAAAAATTAATTCAATCCTTTAACTTTTATTAATATAAAAATTAACAAACCACGAAATAACATTAATATACACAAATAAATTATCTATTCGCATATATCTGTATTAATTCGTGGTTGAAATATTCTGAAAAATTATATTATACTATATCCCATAAAAATATGATCAGGTCCACTTCCCAATGCGTGTCCACATTTTCCATAAGCAGCTACTGTTATCATATCTCTTCCTCTTATAACAGCAATTTTAAATCCTCCACCTAATCCTCTATTTATAATCTCTATTTGAGAGTACACATCTCTAACAGCATTAGATACAGCATTTTTTTCTCTTAAATTTTCATGAATAACTTCTTTTGCTATAGCAGCCACAATAGCACCTTCTCTAAGCTTTAATGGTAATTCTAATCCATTAGCTCCTACTTGAGTAACTGCAGCTTTATAATTCATTTTTTTTATCCTATCAAACCAATATTTTTCATCTTCATTTGTTTGAGTCATTGCTAAAAATATAACTGCTCTTTCTGCAGTCATTTTCCCATCTGATTTTGTTACTACAAAATCTTTAACAATATCTCCAGGAGTAACGACTCCAATTAATTCTTGATTTTTATTAACAATAGGCAAAAATTCTATCCCATATTCTATTATTTTTTCTGCTGCTTCTTTTATAGTCCTTTCAGGAGTAAATGGCTCTACTTTTTCTTCAGCTATTTCAATAAATTCTTCAGCAATTAAATTTTTATTATATTCATTAACTAAATCACTTACTTTTATCAAGCCTAAATATTTTCCATCAGAAATAACTACAACATACTTTTTTTTATTAATTATCATCTCTTTTTTTATATATTCTAAATTTTTTTTACAATCAATTGTAACAGGCCTTTTTTGCATAATATCTCTCACTGTAAGTCCCAATCTGTTACCTCCAATCCCATAAGTTATATAATAATATATAAGATACCAAGCATTTATTTCCCTTTTCTAGGAAAGTAATAAATCTATTCGTAAGATAAGCTTCGCTTGATAAAATTCTATTCCCATTCTATTGTTGCTGGTGGCTTCGAACTAATATCATAAGCTAATCTATTAATTCCTTTCACCTCATTTATTATTCTATTTGATACTTTTTCAAGAAATTCATATGGCAAATGTGACCATGTAGCAGTCATAAAATCTGTAGTATCTGCTGACCTAAGTACCGCAGTATACTCATATGTTCTTTCATCTCCCATTACACCTACAGATTTCACAGGTAATAATACTACAAAAGCTTGGCTAACTTTATTATATAGAGCATGATTCCATAACTCTTTTATAAATATATCATCAGCTTCTCTTAAAATATCTGCTTTCTCTTTTGTTACCTCTCCTAAAATTCTAATTCCAAGTCCTGGTCCAGGAAAAGGATGCCTGTCAATCATATGATCTGGTATTCCTAATTCTCTTCCTACTTTTCTTACTTCATCTTTAAAAAGTTCTCTTAAAGGCTCTAATAATTCAAAATCCATCCCTTCTGGCAATCCACCTACATTATGATGACTTTTTATTGTTGCAGATGGTCCTTTTACTGATTGAGATTCTATTACATCTGGGTATATTGTACCTTGTGCCAAAAATTTAGCATTTTTTAATTTTTTCTTTTCTTCATTAAACACTTCGATAAAATCTTTACCTATAGTTTTTCTTTTCTTTTCGGGATCAGTTACTCCTTTTAAATTTCCTAAAAATCTTTCAGAAGCATCAACACATTTTATTTTAATATTGTAATTTTTCCCATATGTTTCCATTACTTTTTCAGCTTCATTTTTTCTTAATAATCCTGTATCAACAAATATACAAGTTAATTGATCACCTATTGCTTTATGTATAAGAACTGCTGCTACTGATGAATCTACTCCACCTGAAAGTCCTAAAATAACTTCTTTATCTCCAACTTTTTCTTTAATATCTGCTACAGCTTTTTCTATATAGTTCCCCATATCCCAGTTCTTTTCACATTTACAAATAGAAAATACAAAATTCCCTAAAAATTCAGAACCATATATAGAATGTGTTACCTCTGGATGAAATTGTACAGCATATATATTTTTTTCCATATTCGCAATCACTGCAATTGAACTATCTGTATATGCTATTTTTTTAAATCCTTCAGGCAATTTTGTTACATGATCTGCATGACTCATCCACACTTGCGAAGCTTTAGGCATATTTTTAAAAATTGGTAATGATTTATCTTCAATAATCAAATCCGCTTTCCCAAATTCCTGTTTATCCGCTCTTGCTACTTCTCCACCTAATAAATGAGTTGTTAATTGCATTCCATAACAAATCCCCAAAACTGGTATACCTAATTCATATATCTCTTTTGAAATTGTTGGAGCTTCTTTTGCATAAACAGAAGCAGGTCCTCCTGACAAAATTATTCCTTTTGGTTTTATCTCTTTTAATTTTTCTATTTTAGTGAAATATGGAACAATCTCTGCATATACTCCTTTTTCTCTAACTCTTCTAGCAATTAGTTGATTATATTGTGACCCAAAATCTAAAATTACAATACCGCCTTTATGCATTTTCATCTCCTCTCAAATCATAATATAATTTTTTTTAATTCCTCTGATTTAAAATCTAAATTATGTATAGATTTTATATATCTTACAGTTTTTGTTTTCCCTCTGATTAATAAAGTTTCTGTTCTAGCAATATTTCCTTTTCGAGAGACCCCTTCAACTAAATCTCCTGGAGTAACTCCTGTAGCTGTAAACACTACTTGATCATCTTTTACTAAATCATCTAATGTCAATACTTTATTTATCTCAATTCCCATTTCTTTACATCTTACTATTTCACCTTTACTAATTTTATCATTTTCTAAAGTTATCCCTTTTACTTCACTTCTTGTTTTAAGTCGTACATTCATATCTCCACCCAAGGCTTTCATTGCAGCAGCAGATATTACCCCTTCTGGAGCTCCACCTATACCATATAACATATCAATTTCAGAATCTATTACTGCTACTAAAATTGATGCTGCTACATCTCCATCAGGTAATGCAATAACTCTCATACCCATATCTTGTAAATTTTTTATGATACTTTTATGCCTTGGCTTATCCAAAATTACAATAGTCAAATCTGATAATTCTTTGCCTAAAGCTTTTGATACGCTATATATATTTTCTTTTAAAGGTTTGTTTAAATCAATACTTCCTTTTGCTTCTGGTCCTACAATTAATTTCTCCATATACATATCAGGAGCTTTTAAAAAACTGCCTCTATTACCTACTGCCATTACCGCAATTGCATTTGCTTGACCTTGAGCAGTCATTCTTGTACCTTCTAAAGGATCCACTGCAATATCTACTGGAGTAGCTTCTTGACTTTTACCTACTTTTTCACCAATATATAGCATTGGAGCTTCATCTATTTCTCCTTCGCCAATTACTATTTCACCAGAAATATCTATTTCATTTAACATATATCTCATTGCGTCAACAGCTGCTTGATCTGCTGATTCTTTGTCACCTCTGCCTATCCATTTAGAGCTAGCTAAAGCTGCAGCTTCAGTTACTCTTGCAAATTCTAATGCAAGATTTCTTTTCATTTTATATAATTTACCTCCTGCTTTTTTTTGTTTTATTCAGTCTTTTATTAATTGTATTATAATTTTCTTCACTATTTTTCAAAAAATCTGCTAATTTATCTTCAAAATTGGCTGGCTTAGCTGGCTCTACTTTTGTATTTCTAGATGAGCTACCTCTTCTATCGAATCTTTCAGATGGCTTTCTATTGTAATTAGATTTAGTTGCTGGTCTTGTTGTTGGCCTACTTGCTTCTTCAGTTTTTTTTATAGATAAATCTATTCTTCCATCTGGTTTTATGGCTAAAACAACGACAGATACCTCTTGCCCAACAGTTAATACATCTTCTACATTTTTTATATATTTGTTACTAACCTCAGAAATATGAACTAACCCTTTTTTATTGTTCTCCAAACTTACAAAAGCTCCATATTTAGTTATTTTTTCTACTTTTCCTGTTAATTTCTCTCCCACAGTTACTTGCATTAATTTTTTACTCTCCTTCCGAAATTTTAATTTTTTTTATTTTCAATTAATTTTTTTACTACAATTACATGTAGTATGGAATATTTAAAAAATAAATTCCTAATATTTTATTATAAAAACAAAACTGAAATATTATTTTTAATCCATTCCTAAATTAAATTTAATATAATTTTATATACTATTTTAACATTCTATACACTTTTTCAGATTTTTTTTTCATGAAAAGTTTTTCTCTTGCTATTTTTTCTATAAATTTAGGATTGTCTAAATTTATATATTCTTTTTTTAATTCTTCATGTTTTTTTTCTAATTTTGCTACTTCTTCTTTTTTTATTTTTATTTTATTCTTTGTTTTTAAAATTTCTCCATTCAATGTGATTGATTCAAATATAATTTTTATTGCAAAAATTGATAATGCCAAATTTACTGTTAATAAAAAAGTTTTTTTTATTTTTCTAGAGTTCATATTATTTTCCCCTTTGCTTTGTCATTAATTCAATTATACTTTTTACTTTTTTAACATCTTTAGTCGAAATTGCATTTAAAATTTTAGCAACTTTTTTATTATCCATTTTTTCAAATATTCTTGCTACTATATTTTCATCTAATCCTCCTAATATTATATTTGAAACCGCATCTGGGGTCATACTAGAATATATAGAGGCAAATTTATCAATATTTGCTTCTTTTTCTTTATATGTTTTTTCTTTTTCTAATATAATTTTTTCTCTCTCTTTTAAAGATTTATCTTTTTCATTCAAAATTTTTTCTTTGGTGTTTAATTTCTCTTCTTTTTTTAATAATGAATCTTTTAATTCCTTTGTTTTCTTTTCTTTTAATGAAATTTCTCTATTTTTTAGTTGTATCTCTTCTTGATATTTATTAGACAATAATTTTAATCTCTCATCATCATCTAAGTGTATTTGATAACTATATTTTAAATAGCTTCCTACATATGGCATCTTAGCTATTTTAGATGTTGGTGGAAACAATTTTGATAAATCTAAAAACCCTATAATATCTAAAAATATAGTTCCTGTAAATAATGTGAATAAAAATATTAGAAAAAGAAAAGATGTAAAGAAAAAATATTTCTTCTTTTTTTTCTTTTTCCCTTCCTTATTTTTCTTTTTCCCTTCCTCTGCCATATTACTTTCTCCTATTATACATATTATTTGATATTTCGTCTATAAATTTTTGTTCTTTTTTTATTTCTTCTTCTTTATACCTTTCAAAATATTTTTCTTTCAATTTCTCAAAAGTTTTCTTTTCTTTTCTTTTTTCAAAGTATAATTCTTCACTTTTTTCTATCTCTTTTTCTTTTTCCTTAATATTTATTTCTGATATCTCTTTCTTTTTCTTTAATCTTAATAAAAAACTATCATAATTTTTAATCATCATTATGTTAATTCTATTTTGTTTCATTTCAGAATATTTTTTCATAAATATTTTAATTTCATTCTCTACTTCAATTAGTTTTTCTTGCAAAATATTTAATTCATATCTTTTTTGTTTAAGTTCATCTTTTATAATATCTTCTTCTTTTTGCTTAAATTCTAAAGCTTTTTGAAATCTAAATTTAAACATCTATCTTTCCTCAAGATCACTTAACGTATCTTCGCTTAATATTTTTCCATTGATTTTATAATTATCCAAATAATATCCATATATCAAAGAAATTTTTTCCAATACTTCTCCTTTTTTCCCTATTAATTTCTGCATATCCATGCCTAATTGTTTAATTAAAATTGCTTTCTTTCCTTCTTGCTCTAGATAATAAATTTGTTGATTTAGACTGTTTATTTCTTCTGACAGATCTTTATATTCAGAATCTAAATTTTCAAGTTTTTCAATCTCTGTTTCTTTATTATTTCTTATTAATTTTTCTTTTTCTAATTTCAATTTTTTAATTTTGTTTTTCATATTATTAATTTTATTTGTTTCATTTTCTGTAAGTAAGTACTTGTTATATTCTTCTATTTTTTTATCTATTGTTAACAATTGCTTATTGAAATTATTCGTAATTTCTTTTTTTATTTTTTCTAAAATTCCATTGTATTTGTTTGATTTTATCTCAATTTCATTTTTATAATAACTTTTTGGAAAAATTTCTAAATAATGTTTCCAAAGTTTTTGTTTTTTAGAAAATGATACTAATTTTTTTTCTTTTTCTATATACGATTTATACATTTTATTTTCAATAGTTTGCAAAATATGATTTTTAGTTTCTTCTCCATTGATTTCTCCGATTCTTTTTATTACATATTGTTTTAATTTAATGCTATAACTATTATCTTGTGTGATTTTAATAGCTAATTTTATAGCTAATTTTATATTATTATTAAATATAAAATCAATATACAATTTTTGATTTGATAAATTTCCTTCTTCTAATGCTAAATCATACAATATATTTATAAGTTGTATAGAATTATATGTTTGCAAAATTGATAATATATTTTTTGTATTTTTAGTATTCATTTTTTTTAATTCTTTTATTAAAAACTTTCTACTCTCAGGAGTATTTAATATAAAAATATCTTCTAAATATTCTGTTTTAGAAGAATTTATATAATTTTCTTTCAAAATATCAAACAGATTATCATCATGTAAAATTGCTAGACCTCTAAAAGCTAATTTTTTGTTTTTATTTAAATTATTCTTAAAAAATTCCTTACTTTTTTTCACTCCATACTTTGAGATTGCTCTCTTTTGTAAATCAATATTTTCAGAAAATAATTTTTCTTTAATATTCATTTCATTTTCAAAAATTAAATCTAATACTTTTGCTTTAAAATTTGCTTCTAAATTTTTATTTAAATAAAAATATAATATATTTTTATATTTTTCATAATTAGAAGAATCTATCTCGTAGATCATACTTTTAAATATATCAGAACTATTTTTTAATGTTTTTTCAAACCATTCTTCTTTATTATTTAAAATATAATTTATAGAAAAATATAAATTATATTTTAAAAGATTTTCAAACATTTCATAATCATTATTAGATATAGAAAGTTTTAATAGTTTTTCTAGCCTATCATTTGATTTTTTATATTCTATTCTCTTTATCAATTGTTCTTTTTCGTTTGAAGGAATATCTATTGTCTCACCATTATATTGTTTATAAAATTCACCATATTGTTTATTTTTTAATAAATAATTAAACAAATTCAACTTAATTGATTCTGGATAGATAAAGCTATCATATTTCAAAGATTCTTTAATAAAAAACTCTTTAAGAGTATCTTCGTTTATTGTTTCTGTAGTTAATACAGTTTCTAAACTATTTTTTGTAAATTTTATATCTTTACTTTTCAACATAAAATATGCACTTTTTCTTACTTCAGAGTCTGCCAAACTATCTTTTATTATATTTTCTAACTGAATTTCCTCTTTACTGTTTAATGTAACTCTTTTTTTTAATCTATTTATATCTTTTGTGTTTTTTATTTCTGTACTTCCACATGCAGAAAATAATAGAGTTATTAATACTATACTAAACAATTTTTTCATTATAAATCTCTCCTTATATAATTAATTTGAAAAAATATTTTCAAGTGATGTAACTGCTCCTTCCAAATCACTCTTTTCCATTATTTCTTGTTTTAAAAAACTATTTACCTCCTCTATTTTAGAAATAGCATAATCAGCTCTTACATTGCTACCTTCTTTATATGCTCCTATATTTATCAAATCTTCAATCTCATTATAATTCGCCAAAACTTCTCTGACTTTTCTTGCATTCATAACATGTTCTTTTGTAGCTACTTCTGTAATTAGTCTAGAAGCACTTACTAAAATATCAATTGCTGGAAAATGATTTTTTGCTGCAATATTCCTAGACAAAACAATATGTCCATCAAGAATACCTCTCACTGCATCTGCAATTGGGTCATTCATATCATCTCCATCTACTAATACTGTATATAATCCTGTGATTGTTCCTTTGTCTGAATTTCCAGTTCTTTCCAATAATCTTGGTAGCATAGAAAAAACGGAAGGTGTATATCCCCTTGTAGCTGGTGGCTCTCCTATTGCAAGACCAACTTCCCTTTGAGCCATTGCAAAACGAGTTAAAGAATCCATCATTAACATTACGTTCATTCCTTTGTCTCTAAAATATTCTGCTATTGCTGTGGCTGTCATTGCACCTTTTATTCTTACTAATGCTGGTTGATCTGAAGTAACTACTACTACTACTGATTTTTTAAGTCCCTCTTCCCCCAAATCTCTTTCAATAAATTCTCTAACCTCTCTACCCCTTTCTCCTATTAATCCTATTACATTTATATCCGCAGAACTATTCCTGGAAATCATCCCTAACAATGTACTTTTCCCAACTCCACTTCCTGCAAAAATACCAACTCTTTGCCCTTTTCCACAAGTTAAAACTCCATCTATTGCTCTTACTCCAACTGATAAAGGTTCCACAATTCTCTTTCTAGTTAAAGGATTTGGAGCTGAAGTATCTAAAGGCATATGCTTTTCAACCATTATTTGGCCATTATTATCCATTGGCTTTCCTAGTCCATCTACTATTCTTCCTAGCATATTTTCTCCAACAGGAATACTTAAACTTCTCCCTGTTGCCACTACTTCACAACCATGCCCTATTCCTTTTAGTTCTCCTAATGGCATTAATAATATTTTATCTTCATCAAATCCAACTACTTCCGCATCTACTCTATCATTTCCATTAAAAGTTTTTATATAACAATGTTCTCCTAATTGCACAATAGGACCTTCTGACTCTATAGTTAGTCCAACTACCCTTATTACTTTACCATTTATTTTCACAGTATCAATCTTTTTAACTTTCGATATATATTCTTCAACATTAATTTTCATTATACACTTCCATTCAAATTTAATCCTTCACCTTCATTAAACCTTCAAATAAAACTTCTAATTGTGAATTTATCGAAGCATCAATTGTTCCCATACTTGTTTCCAATATACAACCGCCTTTTTCTATTCTAGAGTCTTCTATCATCTCTATTTCTTGTCTATCTACCCCATTTATTTGAGAAATAACCTCCTCCTTTATATCCTTTAAATAATTCAAATCTTCCCAATTTATAAATATTTTTAATTTTTTACTAATTGGGACTTTTTTTATTGACTCTAAAATATTATTTTTTATTATCTTATTATTTTCTGAAACTTCTAATTTTATTATTTTTTTGGCAATCTCTATAGATAATTTTATTATTGCCTCTTCATTTTCTTTTATTGTATTATTTCTAATTTCAACAGTCTCATCAATAATCCCTTGTGCTCTAATAATCAAACTTTTTGTTTGCTCTATTATTTCTTCTTTTGCACTCTTTTCTCCAGCTTGATAGCCATCTTGATAACCTCTATTTTTGTTTACTTCTAGTTCATATTCAGCTTTTTGATTAGCTTCTTCTATTATTTTATTGACCTTTTCATTTAATTCTATTTTTTTTCGCTCTATTTTTTCGCTTAAATTTTTTAATTCTAATTCTTTTTCTTTTATATTTTTATTTAGAGTTTCTAATTCCTCTTTTTTGTTATCCAACTCTTCTATGCCATAATTTTTTATATTTTTTTGTTCACACTTATCACCTATTATAATAGGTTTACTATTATTTTGTATGAATTCTCCTTTTATGACATTAAACAATCATCTCATCCTCGCTTCCTCTAGCTATTACAATTTCTCCTGATTCTTCCAATTTACGTATTATATTTACAACTTTTTGTTGAGCCTCCTGTACATCTTTTATTCTTACAGGACCCATATATTCCATATCTTCATTTAAATTTTCAGCAGCTCTTTTTGACATGTTTTTTAGTATCTTTTCTTTTACTTCTTCACTAGATCCTTTTAATGCTAGAGCTAAATCTTTCCCTTCCACACCACGTAAAACTAACTGAATTGCTTTATCATCAAGAAGTATTACATCTTCAAATACAAACATTCTCTTTTTAACTTCTTCTGCTAACTCTGGTTCTTGTTCTTCTAAGCTTTCTATAATAGTTTTTTCTGTTCCTCTATCCACATTATTTAATATTTCAACTAAAGAATCTATTCCTCCTGTAGATGTATAATCTTGCCCTACAACTGAAGAAAGCTTTCTTTCTAATACACGTTCGACCTCTCTTATCATCTCTGGAGAAGTCCTATCCATCATAGCTAATCTTTTAGCTATATCAGCCTGTTTTTCTGGTGGTAGCTCTGATATAATAAGTCCAGCTTTATCTGATGATAAATATGATATAATCAATGCTATTGTTTGTGGATGCTCTCCTGATATAAAATTTAATATTTGGGATGGCTCTGTTCTTTGTATAAAATCAAACGGTTTTACTTGTAATGATGATGTCAATTTTGTTATTATATCTAAAGCCTTATTTTCACCTAAAGCTTTAGTTAATATATCTCTAGCATAACTAATTCCACCTTGTGATATATATTGTTGTGCTAACATTAAATCTGAAAACTCTCCATAAACAATGTCTTTTGTATTCGCATCTACTTTATGAAGTCTAGCTATTTCTAGTGTCAATTGTTCTATCTCTTCATCTTTTAAATGTTTAAAAACTTCAGCAGCTGTATCTTGTCCTAGAGATATAAGCAATATAGCTGCTTTTTGTTTACCATGTAATTTGGGTTCATCTGCCATTATATCCTCCTAAGAAATTCCTAAAATATAATTTTTTAGTCTTGAAGCAACCATGTTCTAATTAATCCTGCAACTTCTTCAGGCTTTTGTTTTGCTATATTTTTTATTTGCTCTTCTTTTTCTTTTCTTTCTTGTTCTTCCACAGTTAATTGTTCTCCTAGAGCAACTTCCTCCATCTCTGGAATAAGTTCTTCTACTGCTCTTCTCTCTTTTTCTCTTAACCTCTTTTCTTCTGCTTTTTTCATTACAAAATAAATAATAACTAATGCTATAATTAATATTATACTTGCAATAACTCCAATTACAATATACTTTTGATATTTTTGTTGTGTTTCTATAACATGCTGAAATTTATCAATTGTTTTTGTATCAAATGGTATTACATCGATATTAATTTTATCTCCCCTATTATCATCAAAATTAATTGCTGCTTTTACCATATTTTGAAACTTTGTTCTTTCGTTGTCATTAAATTTTGTTTTTTTAAAATAATCTGAGTTTTCATTTAAAACAACAGATACATTTAATTTTTTTATACTTCCAAGAGATTTCTCATATTGAGAGTTTGTTTTATTCAACTCATAATTTACAGTATTATTATTTTTTGAATACTCTTTTCCATTTTTTGAGCTATCTGTCGCTACATATCCTGGTATATTAGAAGATGTCCCTGGTACACCAGAAGCATTCCCATCACCAGTACCTTTATAAATTTCATTATTTTCTTGTTTACTTCTAACTAAACCTTGTGTTGATTGTTCTCCAGATATTGTTGGAGTTGTATATTCCTCTTTGTTTGTCAATTGTTTATCAAAATCTAAAGATACGGCAACTTTTACTCTATAATTACCCGCTCCTAAAACACTTAGCAGTCCTGTAACTTTCCTCTCTAGCTCTTTTTCCATTTTATTTTGAAGTTGTAATTTTTTATCATTAAATTCACTACTGTTCTTATTTATAGTTATATTATCAGATAATATATTTCCATTACTATCTATTACTTCTACATTATCTATCGTCAATCCTTCCACAGAACTAACTGCTAAAAGCATTATCCCTTTTACATTTTCTTCAGTAAGTTTTCCTAATGGCTGTAATTGAACTAAAATAGATGCCTTTGCAGAAACTCTATCCTCTGCAAAAGGAGAATCTTCTGCCGGAGTTATATTTACAACTGCTTTTTTTACTTGTGAAAGTGCTGCTATAGTTCTTTCTAACTCACCTTTTTGAGCTCTTAAAAACATCATTTTTTTATCAAAATCAGTAGATCCTATTTTTGCTTTATCAAATATTTCAAATCCAACAGTCCCTCCAGTTGGGACTACTCCATCTTTTGCTAAATCTAATCTTAAAGAATATTTTTCTTTGGAATCCACCTCTATTGCTGTCCCACCTTGACTTATTTTATACTTAACTCCCTTTTTATCTAAATCCGCTTTTATTAAAGAGGCATCTTTTGCTGTTAATTCTGTAAAAAGAGGTTCATAATTAGTTCTAGATGACGCCATTGAAAATAAAATTGTAAAAATCATTGTAGCTACTATTGAAACTATTATTAAAATTTTTTTTATCTTGCTTAACCCTTCCCATATACTCTTTGCTTTTTCTATAATTTTTTTTATAGTCTCATCCATAACCTATATATCCCCTTTTGTTTTTATATCTCATAAATTTATAAATTATACCTGCATTCTGCTAAATTCTTGATATGCATCTAACAGTTTATTTCTAACTTCTATTACAAAAGACATAGCTATCTCTGCTTTCTGTCCAGCAACCATTACCTCTTGGATATTATCTATTTTTCCTGATACAAAATTTTGTGTTTTTAAATTTGCATCTTTTTGTAAGTTATTTGCATCTTCTACTATTCCTTTTAAAACATTAGAAAAACTTGTTTCTGCTTCTTGTTTATTTTTTTTATTTGAAATATCACCCAAAATATTTGGGTTTATTATACCATTAATTTTCATTATTAGCCACTCCCTTTATCACTTAACTATTTCCCTATGCTAAGAGCTGAATTTGCCATACCTTTTGCTGAATTAATAACAGTAACATTTGCCTCATATGCTCTTGTAGCTGTAATCATGTCAGTCATCTCTTTCACAATGTTTACATTTGGCATAGCTACATATCCATCTTTATTTGCATTTGGATGATTTGGATTATATACATATTTAAAAGGTGCTTTATCCTCTGCTATTTTTAATACTCTTACTCCATTTCCTATTTCAGAGTCATTTTCATTCGACATATTCATTGGTATTTTAAATTCTGTGTTTTTTCTAGCTTGAAATATTACCTCTTTTCTTCTATAAGGAGTTCCATTTTTAGTTACAGTTGTATTTGCATTGGCAATATTTTCTGAGATCACATCCATCCTTAATCTTTCTGCAGTTAATCCTGATGCACTTGTATTAATTATTCCAAAAATCCCCATTTAAATCACCCCTTTATTTCCCTTTTATCACACTCTTTAATATGAAAAAATTTTGAGTTAATCTTGTTGCTGCAAATTGATATCTAATATTATTTTTTGCAAGCTCCCCTTGTTCTTTTTCTATATCAACACTATTTCCATCATTTCTCATTGTAGTATTATCTTCTCTAATAATCTTTGCTCCAATATTTTCTAAACTTGGAGTTGAATTAATTTCAAAATGTTTTGAATTTGTCGTAACTCCTTTTATTTTTTCACTATTATCTTTTGACAGGGTTTCTCTTAAAATAGATTCAAACTGAATATCCTCTCTCTTATAATTAGGAGTATTCACATTAGCTATATTATTAGCCAATACATTTGCTCTTTTTGAATAAGCATCCAACCCTTTTTCTAGGATAGTGATATTATTACTAAACAATTTCATTTTTTTCGCCCCCGTAAAATTAAAATGTTTTTTATTATATTTATTATTTATCAACTTTATTTTTCTTTTTATTCTTATATAATATAATATATATCACAATTATTACAAAAGAAATAACTATAACATAAATAGCTGCTTTATGTGAGTATTTTTTTATTAATTCTAGATTATTTCCAACTAAATACCCTATATATGCCAACACGGCATTCCACAATCCAGCTCCAAGAAAAGTATATAATGCAAACTTCCACTTTTTCATTTTTGTAAGACCTGCTGGAAAAGATATATATTGTCTAACTACTGTTATTAATCTTCCTATAAAAGTACTAATAGCTCCATGTTCATTAAAATATTCTTCTACCTTCATAAATCTTTTTTCTGTTAATCCAAAATATTTTCCAAACTTCAATACAAATTTTCTTCCATATATTAAAGCTATATAATAATTTAAAAAAGAGCCCATTAAACTTCCTATAATTCCACTAATAATAACTAAATATAAGTTCATTTGCCCTTGTGCTGCCAAATAGCCTGCTGGCGGTATTATAACTTCACTTGGGAAAGGAACAAAAGAACTCTCTAATGCCATGAAAAATATAATTCCTGGATATCCCATTATCCCTACAATATTCATTAACCCACTAAAAATATTTACTAACATCTCTATTCTCCATTTTCTCTATACTTCAAATAATCTATTGCCATTAAATATCCATAATATGAAAATCCTGTAATTTGCCCAATTGCTATAGGTGCAGTAACAGATTTATGTCTAAATTTTTCCCTCTTATACACATTAGAAATATGAACTTCTACAAACGGAATATTTACAGCAGCCAACGCATCTCTTATAGCTATACTATAATGAGTAAAAGCTGCAGGATTAATTATTATATAATCCACTGCATTATCATAAGCTTCTTGAATTTTATCTACAATTTCTCCTTCATGATTTGATTGATAAATTTCAATATCTATATTTTCTCTTTTTGCTTTATTTTTTATAATATTATTTATATCATCAAAATTTTTATTCCCATAAATTCCAGGTTCTCTTTTTCCTAACATATTTAAATTTACACCATGTATCACTAAAACCTTCATTAATTTCCTCCTAAATATTTAATCTTTCATATGAAAAATTAAATATAACTATAATAAACTATACTCATTTATTACTAATTTAAATTTACACCCTAAAAAATTTGCAGATTTTTTTGATATAACCATTCTTGATAAAAATATTTCAAAATATTCCATAACTTGTGATATTTGAGTATCAATTGATAACTCTAATGAAATAATTTTTTCCTCTTTATTTACTACTACAGATGAATGAATTGCTGCATAATTTACTCTATCATGTATATCAAATGATAGTTGATCCGTTCCTCTAACTCTTGAACGATGAACATCTGCTTTATCCGCTATTATTAATGCTGCCGATATTGGATTCACAGGCTCTCCTCCAAAGCTTTCATCATGATTCCCTATTGCACTCATTACTATAGCTGTATCTTCAATATTCATCCCTAAATCTAAAAGAATATCTTTTGCCATAAGTGCACTATAGTGTGGATGATTTACTCTATTTATCGCATTTCCTATATCGTGTAAATATCCAGCTATTGCTGCTAGTTCGCACATTTTTTCGCTATATCCTAATTCTTGTAAAATTCTTTTTGAATTTACAGATACAATTCCTGTATGTCTAAATCCATGTTCTGTATATCCTATTGCTTCAAGGCATAAATCAGCTCTTTTTATAAATGTTTTTACAATTTCAAGTTTTTTTATATCTTCTACTTTTATCATTTTTTATCTCCCTAAAAGTTCTAATAGTTTCTTTCCAATATTTTTAGATTTCATTAATGTTTCTCCTATTAAAGCAGCATCAATGTAATTTTTTTCTAAAAGTTTAATATCTTCTCTACTTTTTATTCCGCTTTCTGCTACAACTAATCTATCCATTGGAATTTTTTCTCTTAACTTAATCACGTTATATATATCCACATTAAACGTTTGTAAATTTCTATTATTTACACCTATAATTTTTGCAGGTGTATCTAATGCTTTTTTTAAAACCTCTTCCGAATGAACTTCTAATAATACACCTAATTTTAACCTGTTAGCTAATTCTATAAATTTTATTAATGTTTTATAGTCTAAAACTTCCCCTATTAATAAAATAGCATGCGCTCCTAAATATTTTGCTTCATAAATTTGGTATTCATCAATGATGAAGTCTTTTCGTAAAGTAGGTAATTCCACTTCTTTTGATATATCATATAGATATTTTGAATCTCCTTGAAAAAACTTTTTATCAGTTAATACTGATATTGCACTTGCCCCATTTTCTTCATATTCTTTAGCAATTTTCAAGTAATTAAAATCCTCTCTTATAATCCCTTTTGATGGAGAGGCTTTTTTTACTTCTGAAATTATTGAAATTCCTTTTTTAGATAAATTTTCTTTAAATTTAGATTCAAATAATTTAATTTTATTTATAAAATTATCTAAACTATTTTCTGATTTCAATTTTTTAATTTCAATTTTTTTATGATTTATTATCTCATCTAGAATCATTATTAACCCTCTTTTTTTATTTTATCTATCTCTTTTATGAAATTTTCTAAACTATCAAATTCATTATATACAGAAGCAAATCTGACATAAGCTACTTCATCAAGTTTTCTAAGATTTTTCATTATTAACTTCCCAATTTTTTTGCTTTTTATTTCACCTTTCAAATTATTATATATATCTTTTTCAATTTCTATAATTAATTCCTCTAATTTATCCCTACTAATATCTCTTTTTTCAGTTGCTCTTAACAATCCTCTTAAAACTTTATTTTTATCAAAATCTTCTCTTGTTCCATTTTTTTTCACAACTGTAATTACCATTTCTTCTACTCTTTCATATGTTGTAAATCTTTTTCCACATTTTGGGCATTCTCTTCTTCTTCTTATTGCATGCCCTTCTGATACTATTCTACTATCAATTACTTTACTATTATCGGCATTACAATATAAACATTTCATCTTTTCCTCCAACTTTCTACTATCTTCATAGCAACATCTAGTTTGTCTTTTTCTACATATAATTTTACTTCTCCTAAAGAACCAATTTCTATTCCCAAAACAGAATTGTTTTCTCCGCTTTTGTAATATTTAATCTCTTGACTTCTAAAAATTGATAATAAAATTTCTAGATTTATATTATCATTAAATTTTCCTAATTCACAAAACATTTACTCTTCTTCTTTATTTATTAATTCTATGATTTCATTTGGAGTATTTGCGCTTAATAATCTATTTCTAAATTCTTTATTTCTTATTAATCTAGAAATTCTAGCTAATACTTTTAAATATGTTTGACTATCTTTTATTGGTGAAGCAAAAACAAAAAACATATGTGTTTTTTCATTATCTAAAGAATCAAAATCTATCCCTTCTCTACTTATCCCAAATCCAACAGTTAATTTAGTTACAAAATCAGTTTTAGTATGTGGAATTGCAACGCCTTTCCCTATTCCTGTACTTCCTATTTTTTCTCTTGCGACTAACCCTTCATAACATTTGTCTGCATCTAAAATATTTATTGACCCATTTAATAATTCTTTTAATTCTTTCAATACCTCTTCTTTTGTATTTGATTTTAACTCTAAGTTGATTAATTTTTCTGACATGAAGTCTGTTATTTTTACTATATTCATTTATAAACCCTCCTTGATAATATTTTTAATTTTATTTTTTAAGAACCTTTTTAGGATGCCTTAATGGGAATGTTATTTTTAAGCCATTCCTAAATAATTTTTAAGCTGTTCTTTAATGTCAAAATGATAATTTAAATATCCTTCTAATATTTCTATAACACTAAGTAAGTTAAACTTATTTAAGTTTAACTTATATATACCCATTATGTCAACATTATTTAACAACATTAAATATTTTTTTTGATATTTTTTAATTTTTAAAACATTTTCCGTTTTATCAATCTGAAACTGTCCTTCTTCAAAATTAAAATACTCCCCTTCGTTTAATAAAAAGCTAGTTCCTTCTTGATTAATAATACTATTTAAAAAATAAGATACTAATACTAACATTTTTTCATTTTCTTTTTCTTTTGATATATACTTCAAGGAGTTGTATACCAATTTAAAAAGTTTAATGTTTTTTTCATTTTCCATAGAGAATTTATCTGCAATTTTTAGTATATATCCTGCAATATTTATTTTAAATAAGTTTTTTTTTATATCTAAAAATCCATCTGTCAATTCTACAGAAGATAAATATGATATCTCATTTTTTTTATAAATTATAAAATTTGATAACACCGCTAAATCAGTTCCATAAATTTCTCTTTTTTTGCTTTTTCTAATTCCTTTAGCTAATATTTTTATTTTTCCATTTTGCTTTGAGATTACAGTAACAATTTTATCTGCTTCCCCAAAATCTACCTTATTTATTACTATTCCTTCTATCTTTTTTATTTTCATTTTTTTATTATTTCATTCATATCAAATTCTAAATCTGAAATTTTACTATTTATTATAGTATTTTTAAAATAGATTTCTGAAATCAAGCTATTTCCATCAAAAATTTTTATATTTTTTGGAAACGTTTTTCCACCTACTTTTTCATAATTATAAAAAACTATGCTAACTCCAGTTTCATATTTTATTTTTAAAACTTTATTTTTCAATTTATTTAATATGAATTTTGTTTTTCCTATAAAAAATTCTTCTTTTAATTCTTTTTCTTTACTAATTTTATTAAATGCCTTAAATATATTTAAAACATAATTTTCTTCATCTTTTATTTTTTCATTTACAGTTTGCTCTAACATTGGATAATAAACTCTTTTTTCATTTTTATTATATAAATACAATTCTCCCATATTTATCTTAGGATATTCCATTATTTCCAATACTTTATCTGGCATTTTAATTTTCAATTTATATTTTTTAATTTTTGTTTTTTTATTCATATATCTTTTTTCTGTAACAATTGCCTTTAATGAATTTATATCAAAAAATGTATTAGCAAAACTATTAACAGTTATAGTAAACCCTACTATAAGTAAAATTATTATTTTGAATTTTTTCATTTCTTTCTCTCCTTACCAATAACCATTACTTCATGAATTTTCATTATTTTTTTTGGTATTTTTACATATAACATTCTAAACATATTATCTTTAGACTTTGAAATTTTTGATACTTCTCCTATTGTTATCCCTTCTGGATAAATATCACTTATTCCTGCTGTTTTTACAACATCTCCTATTTCAACTTTACTATCTATAATTATATTTTTCAACTCTAAATTAAGAGAATTACCACCAACTACAATTCCAATATTTTTATTAATTTCCGCTCCAACTTTAAAATTATTCTTACTAATTAAGTCTACTTGTGAGCTTTTTTTCAATACTTTAGTTATTTTTCCTACTAGAAATCCATTTGAAATAACCGCCATATCTTTTTTTACTCCATCATTCTCTCCCTTATTAATAAATAAATTTTGATACGCATTTAAAGAATCTCTATAAATGACATCTGCTACTAAACTTTTATATTTATATCTTTCTTTTAATTTAAGCATTTTTCTCAATCTACTATTCTCTTCTAAAATTTTTTTATAATCTAATTCTTTTAATTCAGTAGTATAAATTTTTTTTCTTAATGAATTATTCTCTTTTATAAGCTCTTTTATATATATAATATCGTTTATTTTTTCTTTTACAGAGCTTGTTAAATTATAAATACTACTTTTTATAGGCATAAAAATATATGTGCTAAATGCCCTGATTTTATCAAATCGCGTTTTAAACAATATAAGAATTATTAATATTGCTATTATTAATAGAAAATTTCTTAATTTTTCTTTTCTATTTTGTAACATCATTTGAAATCACCTTAACTAATTCCAATATAAGTTCTGCGCTATTTATCAAATCTTCCTTTTCTATATATTCGCTAGTAGAATGAACTTTGCTCATTCCTATTCCTAAATTCACAGTATCTATACCTTTTTTATTATAAACATTAGTATCACTTCCGCCGCCTAAGCTTTCTGCTTTAAATGGAAACTTTAAGTTGTCCGCAGCTTGTTTTACCAATTTTATCAATTCGTAATCTTCTGAGAAATTAAAGCCATCATATTCTCTTGTTAATTCATAATCAAGTTTAGCTCCATATTCTTCTGCTGTGTTTTGACAAATTTCTATAACAGTTTCTATTGTTTCACCTAATTTTTTTTCATCAAAGCTTCTGCTTTCTCCTACTATATTCAGCTCTTCCATTACAATATTTGTTGCATGTCCTCCATTGATAATCCCTAAATTAAGAGTAGTTTCTTCATCAATTCTTCCTATATTTAATTTTGAAATAGCTTTTGCTGCAACATATAATGCACTTATTCCTTTTTCTGGTTCAATCCCAGCATGTGCTGCTTTTCCTATGAATTTTAATTTTATTTGTTCATGATATGGAGCTTGTTTTACTACACTACCTGGTTTCCCAGAAGAGTCTAAAATAAATCCATATTTCAAATTAAATTTAGATTCATCAAAAGAAGTAGCTCCTAAAAGTCTAATCTCTTCTGCTATGCTAAATACTATTACTAATGTAGGATGTTTTAAATTATTTTCTTTTATTATATATAACATCTCTAAAATAGCAGCAATTCCAGCTTTATCATCTCCACCAAGTATGGTATCCCCTTTTGACATAATTTTTCCATCTTTTATTATTGGAATTATATTTTTGCAAGGTGTAACAGTATCCATATGAGAGCTAAACATCACTTCAGGCCCATCGCCTTTTAATATTCCAATAATATTTCCTGCATTCCCTTTGTTTATTTCGCCTGCATTATCTTCATAGACTTCTAATCCTAATTTTTTTAATTCTCCTATTAAATAATTAGCCATTTCCCTCTCTTCTAGTGAAGGCGAATATATTTTTACCATCTCTATAAATTTATTTATAATTCTCTCTTCGTTTATCATAATTAATTCTCCTCTCAATTTCTCACTATATTTTTATATCTAAAAACTCTTTTTCATAATGCAACTGATATCTATTTTTTACTATTTTAAAATTAAATATTACAAGTAAAAAATAAAAAAGCACTCACTTTTCCGCTACAAAATATTCTATTAATACATTATACAAAAAAAAGCATTATAAATCAAAGGATTTTTTCATAATTTACAATTTATTATCAAGAACAAAGGTGGCAAATACAGGGGTTTGCCCTGGGCTGTTAAACCTATATTTATCCTAGGAAAAAACATCATGCCACTTTTTGAGTCCCCAAAGCATCTCTTCTTCTTTTTAATAACGTTGATCCGATGTTTTCCTTTGTCCAATTTTCTATATCAATCATTTTAGTTTTCTCTAATGCCTCTTTTATTTCTTCTTTAGTTAATTTTAAGGTGAATGCAGGTATACATAAAACTAAATTTGTTATTCCTGCCATTGAATTATCACTTATATAATTTTTATATTTACCAAAATTTGATTCGATAATATCAGAAGTACATATCAGCTTTTCTTTATCTGGCATCAATTCTAAAACTTCTTCAAAATAAGAATTCATTTGTTTTGAAAATTCTTTTCCTTTTTCACTTTTTAATTTTTCTAAAATATATTTGCATTTAGATACTGTTTTTATTGAAAAACTTTGTTTTTTTAATATCTTTTGTATCTTTAATGTTGAGTTATTTATAAGTGATAGTTCTTCTATAAATTCTTTATATTCTTTTACCCAATTACTTTTTTCTCTTATTTTCTCTATCTTTTCTTGTTTTTTTAACATCTTTAATATCTTCATTCCATAATCAGATATTATATTTATATTCTGAAATCTTGATTTTTTCCTTTGTTTTGGTGGTATTATATGTGCTATATCACTTTGACTTAATTTTAATCTCATCTTTGACATATTTTGTGTGAATTCTATATATCTTTCATCCTTTTTATATAGTTTTTCTACAATTAATGCTATTTTATGCGTTACATCATGAATATGTTTTATGTTTGATAATTTTAAACCTTTTTTTATCACACTTCCATAATCTCCTATTGCATAACTTATACCACCTAAATCTTTTTTTAATTTTTCTAACTCTTCTTTTACTAATTCTCCTGTCCAACGTTTTTTTGATTTTTCTAATAATGGTACCATATCTGTATATTTTAAAGCTCTTTCAAAATTTACATTACTTTCTCTTATTCCCAATACTAATAATAATTTTTCTTGTCCTAATTGAATACTCTCATCTATTATTATTATCCAATCATCCGCTTTTTCTTTTGGCTTTTGTAAAGTATAACACCCTATTTTTCACCCAAATTATAATACTTACATGACTTGGACTTTTTATTTTTAAATTTAATGTTATATTTATTATTCCTATTAATTTTGAAATTGACCTGAAACTTGCTGAAGTATTCAACTTTATCATTACTATCATTTGAATTATGAGTATATCATATGCATAATTCCTTGGATTGTTCTTTATTTTTCGCTTTTTTTTTCATTATTTTTTAATACTTTTTTTTCTGTTTCTAATTTTAATATTTTTTCTGCATTTAATTTTGCTTTTATTTTCCATTTATTACGACTTTCTTTTAATTCTTTTATTCTTGTTTTTAACTTTTTATTTTCCGTTCTTCTTTCTTTTGCTTTTTCTTTCCATAAATTATATAAATTACTTTTTTCTATCATTTATATTCACCCACCATTTCTTTTCTTATGATTTTATAATTATTTCATAATAAAGTCAAGCTTAAAAATGGCAGGAGCTTTTTCCTTTGTAATTCCATAGGTTTAACAGTCCAGGTTTGCCCCTACGTAATAAATATCAACATCCGATTCAGTACATCATTTGAAAACATTAACAAGTAAAACATATAAAAATATAACATATATAGATTCTATATCGCCTCTATTTTTTAATTTAAAATTAATATTATTCATTGGACGGAAATAGATTCTACCCATACAAATTCAATTATTTTTAGGGCCAAGAACCTAAAATTTGTAGGGGTAGACCCCTGTGTCTACCCAAAGGCAAACAATAATAAAAAAATAAGTTGCACTTCATTTGCTAAAGTTTAAATGTTTCCCTAAATTTTCGGTTTAAAAACATGTTTAAAAAAATATAATAGTATTTATATATAATAATAGCTATAAAAACAATATTCATTAAAATTTATAGAAAATTCTTTATTTCATCATTTTACGTATAGTATTCATAAGTTCATCTATTACTTCTAGTTCTCCATTTTGAATTTGTTCTACTACACAGCTTTTAATATGAGCTTCCAGAAGTATTTTGCTAACACCATTTAACGCCGACTGAACCGATGTTATTTGATTTAATATATTATCACAATAAACATCATTTTGAACCATTTTGTTAATACCTCTAATTTGTCCTTCTATTCTGTTTAAACGATTAGATAAATTCTTTTTATCTTCTTCAGAATGATGAGCCACTTTACAACTAGGGCAACTATTATTATCCATAAATTTCTCCTTCCATGTAATTTTTATCCAGAACTATCATTTTATAAAAAAAAATAAGTTACGCTTCATCTGATAAAGTATAAATATTTTTCTAAAATTTTGGCTTCTCAAAAATTTTGATTTGAAAAATCGCATATTTCAAAAATGGCGTAGCTTATCTTCTGGATAAATTTATATTTCCCTAAATAAATAAAAAAAGTCCTGAATATAAAATCCAGAACTTCCTTTATTTAAATAATTTAATTAGTCAGCTAAACTTACGTTTGAAGCTTGAGGTCCTTTTTGTCCTTCAACTATTTCAAAACTAACTTTTTCACCTTCGTCTAATGTTTTGAATCCTTCTTTGTTTATTTGAGAGAAATGTACAAATACATCTGTTCCATCTTCTGCTGTTATGAATCCAAACCCTTTTTCTGCATTAAACCATTTTACTGTTCCGTTTACCATTTTCTAATACCTCCAAAATTTTATTTCCTTTAATTCTTTGACGCTTTGATGCTTTAATGAAAACTACTTCTTTATAATGTCTCTTTTATTTTGAAATACAATTACAACATCATTCAATGTATAAATGCTATCTCGAATCAAGGTACCCTTAGTATACTACATATACTCCAAAAAAGCAAGACTTTTTTTACTTTTTTATAAATATTTTTTAATATTTTAGATATGTTGTAAAAGTTATATCATCTTGAGAATTTCCATTGAAAATATCATCATTTCCAAAGTATTTCATCTCATATCCAATATCAACTCCTAAATCTATTTTTTTATTATTAAAATTTATATCCAACGGAAGAAATCCAACTCCTACAGTGTAACTTTTTTGGGCTTCTATATTATCTATAGAATTTAAATTTCTAGACATACCTACTCTTAAATCAAGTTTTTTATAATAATTTCTGCTAATTCCAATATTAAATCTATCACCATTTTCTATTTCACCTATTGCTTCTATATTTTCTTTATTATATGCAATAGAGAAAATTCCTTCTTTATCTAATGTTTCACTATAATTATCTTCATTTTTAATCTTCCACTCCAAAGATGATTTTATATTCTTAGCAAAATATCCTATTGTTATATTTTTATTTAAATCAAAAGATATAGCCATATCAACTCCACTACCTTGAGCTTTGCTCTCTGACAATGCTTCATATTTTATTCCTTGAGCTATAGCCTCTTTCATTATTACATCTGTTGCAGATACATCTTTTGAAACATTAACGTTATACAAATTAAAATTAAAACCAATTTTTATTATATTAAATTTATATGCAGTAACAAAACCTATTTTATCAGCTTTTAATATATCACCAGATTTTTCATATCTAATTCCCAATCCAAATTTATCTGTATTCTTACTTAATTCAAACTCTTTATAATCTACCACTCCAAGATTATTTTTTTGACTCATTTTCACATTCCAACTATTATTCTTTTTACTAATATATTTTATAGGACTATCTAAGCTTAGTAAGCCTCCCATACCAGATGATTTTCCATCTAATGGAATCGATGTAAAAATAGCATTCTCTGTAGCAAACGTAAAGCTTGAAACAACTAACATTAATATCAATATTTTTTTCATCATAAATCTCACCTCTCTCTTTTTTGCCCCTTCTATTTTATAATAGAAGGAGCATTATTTTTATTTTAATAATATTACTACTTTGTTCTCACTTAATTCTCCTGCGATATCTTCAATTGTTAATCTAACTATATATCTTCCATTTTTCACTTCATTCCCATTATTATCTAATCCATCCCACTTCTCATAATATTTAGTAAGTTTACTTCTCATATCATTGTCTACTAAAGTTTTTACTAATTTACCATTTTCAGTATAAATTTTTATAGTTGCATAAACTATACTTTGCTCGGCAGATGTAAATTTATATCCTATTAAAGTTCCACCGTTAGCTGGAGTAAATGGATTTGGATAAATCTCAAAATCAGTTATTCCTAAAGGCTCACTTAATACCATTATTGCATATTTACCAAATCTATTAATATTTACACTAATAGAATCACTATTTACACTTTTCCCATTGTCTATCTCTTCCCATTCTATTCCATTCCATCTATATATTCCAAGACTATCTTCTCCAACTTCCCTTAAATCTATATTTGACGGAATTGGTAATGTTAACACTGTATTGCTATTTCCTAAAATTTTAAATTCTGGAGATATTTTATATACATCTCCTGCAATATCCAAATTTCCTTCTGGTAAAGATGGAATAGCTGTTTTTATAATATTTATTACTTCATTATTCGTCAATGAATCTTCAGCTATATTTAATTTAACTCCATTTTCTCTTCTTATTTCTTTTGCATTGCTATTTGCTGTTTCATATACTTCAACATTTTTAGAAATAGTCTTATTTTTATATCTCACCGTAATCACAAATTTTCCAACTATTCCTTCTTGAGTTTTTATTTTCTGAGTATTTTCATCTAACACTGCATTTGAAGAATCAATTATCACATTGTCAGGTTTAACCTCAAATCCGCTTGTCCCTTCTGGAATTAACATTAACGAATATCCAACTGTCGTTCCTGCTTTTACTTGACTAGAAGTTAATTGTAATTCCAATTTTACTTTATCTAAATTAACTTCTATAACCTTTACATCTACGGAAGTAATTAATCCATCTACATTAACTTCTATTGTCTCTATCCCTACTTTATTTCCTGTTACGCTAACGATATTTTTATCAACTACCGTTCCTAATGTTGCAACTCCATTATCACTGATTTTTTCCCATTTAAAGCTACTTGAAGTTGTAGTTGCAATATGTCCATACTTATCATATCCTTTCGCTTCTAGCTCTATAGCATTTCCTTTTACTATAACTGGGATTTCAGGAACTATTTTTACTATTGACAAATCTCCAACTATCTCTATAGTTTTTGTTTCTGTTTTTGTTATATTTGCTCCATCACTTGCTTCGATATAATATGTTAAAGTTCCTGCGTCATTTAAGGTAAACTCTTTTACATACTCTCCATTTACATCTTTAGTTAAATCAAAACTGTTTATATTGCCATTATTAACAGTATAATATAATTTTGCATCTTTAACTATTTCATTATCTGTTATTGTTGCTACAAATTTTATTGTATTATCTTTTTTATATTCTTTTATTTCTGTTTTATCTTCTATAACTGGTGCTTCTTGGTCTGTTGATTTATCTATTTTAACAGAACTATTTATTACAAAATCTGTATCTGAAACGACTAAATTTTCTTTTGTAACTTCACTATAACTATTTTTTCTTACATTTAATTTATAATTTCCAGATTTATATTCCAATATTATATTGTAATATCCATCTCCACCACTATATCCTTCACCTAACAAATTACCATTATTATCCAAAATTCTTACTGCTGCATCTGAAATTTTAGCTCCTGTACTATCTGTTATTATTCCTTCAAATCTCATTTCCATAGGAATCAATGTTAAATCTTCCACTATTTTATCTTCACTATTTGTACTGATTTCTACTTGCTTTGAATTTTCTTTAAATCCTATTTTACTTAATAATAGTGTATATGTTCCCTTTCCTAAAACTTTTCCAGTATCATACGCACCTGTTGAATCAGCATCTAATCTCAAAACTTTTGCACCATTACTATCAAATATATTTATCTTTGCATTTTCTCCATTTATTATTTTTCCAGAAATACTGCTCTCTTTTCTTTCTATATTATATGTTTTTGTAATTGCGTTTGAACTAACTACTATAACATCTTCTATTTTAGAAATACCCTCTTTTATTGATAAATTATATTTAGTTCCATCTTCATTATATGGTATTCTATCAAACATTACAGTTCCATTTGTATCTGTTTTGCTAACTTCATTATTAAGAGTTATCTCTACACCTGTTATTGGATTATCTGATTTGTCTTTCACAATAATTGTAATTGTAGATTCCAATTTCTCTAAAGTAGAATTCACTACATTCTCTCCTTCTACTAAACTCTTAGTAATTGTAACTGTTTTATATCCAAATTTTGTTACTGTTATCTCTAAATTTGTTGCTGCTTTTAATCCTTTAATTTCAAATTTTCCTTCAGAATCTGCTGATATAACTATATTTGTATTTGTTTTAATTGTTGCATAACTACCATTTAATATATTTCCAGAAATATACGCTTCTTTTTCTAATAATACATTTTTTATCTCATTATTACTCTCATCTAACATCTTTCCATTTGAATCTACTGTTACATTAATAGATTTTGTTATATATCCATCTTTGCTAACTTGCAATATTCCTTGACTATTTTTTAATGCTTCAATCGTAACAGCACCATTTTCATCAGCTTTTAAACTCTCTACATTTTCATTTGTATACAATTTTATACTTGCACCTGTAGTTGTTTGTAATGAAATATTTGCTACAATAGAATCTAATTTTATTGTATTCACTGATGTTGTATTTAAAGCTTTAAACGTTGTATTTGTACCTTCAGGTATGTTATATCCATATTTTAATATATCTAATGTATAATCTTTATTCTCTTCTAAATCTTCAAATCTAACATTACCTTCAATATCACTATATTTTATTTTTAAAACACTATCTCCATCTTTTAATTTTACAATAGCATTAGGTATAACATTAATTCCAGATACTATTTTTGCTAATATTTTTGCATCATATTTTGTAACTTTTATCTCATTTACAGTTTGAATTTTCACATCTGTTGTTAATTCAGGTATTGTTATATCTGCAACTTTTACATTTGATTTAGATGGAATTATCTCTACTGTATATTTACCTAGATCTAATCTATCAATATTTAAACTATCAGAATTAAAATCTCCTCTTCTTATTACATTCCCTGCTGTTTTCAATATGTAACTAGCTTCTAAAGGTAAACTGAAATTTAATCCAATTTTTCCATCTAATATTTTTAATACTAAACTTCCCTCTTTATTTGAGCCAGATATTGTTATATCTAAATCTTCACTTTTATACCCCTCTTTTTTTACTTTAATTGTATATGTACCATCTTCTAATTTAGGAGTAGCATACTTTCCAAAATCATCTGCAAATCCACTCCAAACTTCTTGGCTATCTTTTTCCAATGAAAGTTTTGCATTTGCTCCATTTGTTATTGTACCTGTTATTTTTCCTCCTAATTGAGTCAAAGTTCCAGAAACTGATATATCTGTTGGAATAACAATTGATTTTGTTTCACTACTATATCCATCTTTTACAAATGTAGCTTTATAATCTCCATATGGCAATTCTTCATCTACTGCTGTTCCTGCTGTATTTAAATTTATAGTTCTTGAAACAACACCAGCTATATAAACCGTTACAGAATCTTGATTAGCAGAAATAGATATATTTCCTGTTTCCACTTGTAAAGATATATCAGACAATGGCTTTATCTCTTTTTCTGATACAGTTATTGATTCTGTATAATCTTTATATCCTATTTTACTAACTGTTAAATTATATGTTCCAGCTATAGCTTTCAATAAGAAATTTCCATTATCATCTGTATTAGCTATAATATCATCTATATTACTACTGCTTAATTTTACTTTTGCATTTGGAATATTTACTGTTCCAGATATAGTTGCTCTAACATCTTCTACATTTAATATTAAATTATCCATATTTTCAACTACATTAAATAATTTATTTATATCACTATATCCATATTTTTCTGTATGAACTGTAATATTTCCAGGTAATGTTCCTAAAATAAATTTTCCACTACCATCTGTGTAAGTTTCTGTTTTATCTGTATATACCTTTATTCCACTCATTGCATTACCTTGAGAATCTCTAACCATTCCTTTTAATGTCAATGGTTGCAATTCCAAATCATTAAAATCTTGAGTTACAGTTTTACTTAGATCTACAGTTACATTATCAACACTACTACTATTATAACCTGCTTTATTAACTGTAATTTTATATATACCAGGTATTAGCGCTATTTTATAATGCCCAATATCATTTGTAGTAATATTTATATCTCCTACAAGAACATTAGCACCATTTACAGGTATTCCATTTTTAGTGTACACATTACCTTCTATATATCCTATATTTTTTTGTATCAAAACATCTTTACCTAATATATTGCTTCCTGCCATCAATATTATATCAAATGCCTCTGCTTTGTATAAAGTTTTGTTAATTGTAATATTATAACTTCCTGGTAGTAATTCTAATCTATATTTACCAAAATTATCTGTAAAACTTTCTACATTTCCAGCTACAACACTTACCCCTCCTAATGGAGCTCCGCTGTCCTTGTCTAAAATTTTACCCTCTAATATTACGACATTTGCATTTAATGTGAAATTTTCTCCTGAAATAGTATCTCCAGCTCCAATTGTTATAGACTTACCTGCACTTGCATATCCAGCTTTATATGCCGATAAATTATAAGTTCCATCTCTTAATGTTAAGCTATATTCTCCATTTGAATTAGAATAAACTTCACTGTCTCCTGCTGTTATTTTAGCTCCAGATATTGGTTCTCCGTTTGAATCTTCTATTCTACCTAATATGCTGCTACTATTCACATTCATTAAAATACTTAAATTAATAGCTTCTCCATATCCAACTGATTGAGATATACTTTTTTGTTGTGTATATCCATTTTTTATTACTTTTACTGTATAATCTCCTTTTTTTAAAGATATTTGATAATTTCCTAAATTATCTGTATCAGCTTCATATATAGAACTTCCTTCAAAGACTAAATGAGCTCCTATAACTCCTCTGTTATAATTATCTAAAACTTTTCCTGTTATTGTTGAGGCATTCCCGACTAATGTTATATTTACAGTTTTATTTGCTCCTGGTAAGAAGCTTTGTATCTGCTCATTAGAAGTTACAAAACCTGTCTTATATGAATAAAGATTCCAATCACCAGGTTGTAATGAAAAACTATAACTACCATCTTGTAATGTCTTAACTTCATATCGGTTAAGATTATTATATAGCACTACATTCGCATTAACTATTGGTTCTCCATTTTCTGTATAAACTTTACCATTTAATGAAACATTATTTGCAACTAATAGTGTATCACCTAAATTTAAAGTAGTTCCAGGCAATACATTCATATCATTAACTATTTTAGTAGTATAACCTGAATATTCATATTTTATATTCCATTGCCCTGCATCAATTTTAAAGTTGAAATATCCATTTGTGTCTGATATCCCTTGATATTCATTTCCATTATAGTCAAATGCTGTAACAATTGCTCCTTTTAAAGGAATACCACTGTCTTTATCTTTTATTGTTCCTGCTAAATTTGAATTTTTAACAGTTAACAGTACATTATTAACATTAACTGTATCTGGAGATGTAGTTAATACATCTATTTTAGGATTGGTTGTTTGACTATATCCTTCTAGTACAGCTTCTATATAATATGTTCCTGGAAGCACATTATTTATTGTATATTTCCCATCTGTATCTGTAAGCTCTGGAATTATATTTATTTTATTACCTCCAGTGGTTACTAAATACACTTCCGCTCTTTCTAATGGCTTATTATTATTATCTAAAATTGCCCCATAAATATTTTTAGAAGGAACATCATATGTAAATGAAAACTCATCACTTTTAGAAGTACCTCCATCTTGTCCTTCTGTTATAACATACCAATAATATTTAGCACTTTTAAAGGTTCCAGGTGCATATATATTCAAATTAGTGGCTTTTGTTGCCTCATCATAAACTAAAGCTCTTGTACTTATCCCCTGCATATCAACTAATTCTTCAATATACACGTGATATAAGTTAGCTCCCTCTACAGAGTTCCAAGAAAAATTAATATAATCTTCTTGAGTTTTAATTCCATTTGTTGGACTTATTAATGATGTTGAACTTATTGTTGAATATCCATTCAAATTAAATTTTGTCATATCGGTAGTAGATGGAACAGATGTAGAAGTACTTCCTTCTGTAGTTCCAAACATTGGCATTATTATGTAATAATATTCTTTTATTCCATCACTATTATCAAATGTAAGTGGTGCTGGATTTCCTACATCAGTTCCTATATCCCCAGCCTCTCCATAAGACAATTTAGTTTTAGTTGTAGAAACCTGCCAAATTATATTTCCACCACTTATATTAGTATCTCCATTAGAATCTGTATCAACAGAAATTGGACTTCCTGATAATATTAATTTATATCCTGCTGCACCAACAATCGGTTCCCATTCAAAGGTAGGAGTTGTTGTAGTTATATCTCCTTTTGGAGATATAGGATTTATTATAACTTTTGCTTGTAATACTATATAGCTTTCTAACGAATAATATGTCCCACTACTTGTAACAGCTTCTATCTTATAAAACTGTTTAGTTGGAATTGCTGCATCATTTGTTAAAGTGTAACTATATTGAGAAGCTACTGTAGTTATTTTTGTTTTTTCAGTATAACTTCCATCTAAATTTTTAAATTTCAAACTTGTGCTAACAACAGTTTCTCCCGACTCAGGAATCACACTCCATTTTATAGTATAATTATCTCCTGAATCTACAGGAAATGTTGGTTGTTCTGTTATAGCTACTGTTGCTGCAAATCCAATACTCGTTATTAAAAACATAAATAAAAATATAAAAATATTTTTTAAATTCATTTTATTCCCTCCTCTCCTTAGAAATTATATCTAATTTTAGAATTCACACCAAGTCCTTTTCCTATGTCAACTCCAAATTTAAAATTATAATTTTTTACTGTTATATAGCCTGTTTCTATACTTAAATCAGAAGGTACAAATATAACTCCGCCTTTTTCCCCTTCTGCCCTTATCGCAGATACTGAACCATCTAAAAACAAAATATGTGCATATGCTTTATACATAGTATCTAAATGATATACGTCTGCAATAACATTATTCCCAAATTCTGTTACATCTTTTAAATCTTTATAGCCTGCATCATTATCTAAATTATCTTGTGTAATTTCAAAAGTAAATACAGGTTTGCTAAATTTTTCCATATCTACTCCTAATTTTAATATATTCAAATCAACCATTCCTGATATTTTTGAAGAACTATTATCGTCATAATTATTTCTTATATTCTCTTTAATTCCACTTTCTATTACTGTTCCTAATATATTATTTGCTTCTAAAATTATATCATCAATTGCAGCAGATGCTACTTTTATTTTTTCTTCCTCACTATTCCAATATTCAGGATAATTTTCTTGAATTAATTTTTCATAATCCTCTTTATCATTAATTTTACTTTTATCAGTGTATCTATTTCTTATTGTTCCTCTATACATATTATAACTATATCCCCATTTTAAAATCATCCAATCAAAATTTACTCCTAATTTATAAGTTGGAGCATATATCTCTTGAGTTCTAATGTTATTATAGTTTATATTTATATCATTTCCTTCTTTTCCATCAACTGTTAATTTTAAAATACCTTTCATTTTTTCGTCCAAATTATAATAAATACTTTTATAATCTACTCCTGCTCCAATACTTGAATTTAAAAAATTTAATTTTTTAGCAATACCTAATGAAATTTTTTGATATTCATATCTATATTTACTGTTTGTATTAAGTGATAAATTTGTTTCTAAATTTAAATTCATATCCTCAGTGTTATATTCCGCAGAGATTTTACCTCCAATCTCTTTACCCATTATATCTGCTCTTATGCTAGATTTACTAAATCCCATTCCAATTGTAAGGGTATCTTTTTTATATATAAAATTAAACCCATTTATTGATGGTGCAAATCCTGTAGAAATTGTTGTTTTTGGAGTAAATAAATTAGCTTTTGTAATTTTAAAATCTTCTGTGCTATCATCTTTAGTTACTAAATCTGTTTCTTGGTTTTGTACTTCATCTTGCAACTTTTTATCTACATCAATATCTAAATTTAATAAACCGCCTAAAAAAGTATCTCCTTTTAACATTTTATTTGTTATTAAAAGAGGAACTGATAAATTGGTACTAATATTACTTTTAGACTCATAAGATAAAAATGCTGGATTCCCATATAATCCACCTTCTCCAGTAAAACTATTTGCAGGCTCATAATATCCCGAAGAACCGATGTTTAATTTTATATTTTCATTATCAGCGAAACTAGCTAAACTAATAACTAAAAATATAAAAGTCATTTTTAAAATTTTATTCTTCATATTTATTCCCTCCATTCTAGAACTTAATATTTAAGCTCACTCTATTTACGTTTCCTAAATCTTCTTTTGAATAACTATAATCAATTCCGATTAAATTAATTAATTTTATCCCTAATCCAGCTGTTAACTTTCCACTATTGCTTCCTATCCTAAGAGCTAATCTATCTTTAATCCACACCTCTTCTCCAAATTTTAATGAAGACCTCTTTTTTAATCCAAGTTCATTTTCATATTGAATTGAAGATATAAAATTATCCTTAAATAATCTTAAAGCTCCACCTAGTTTCAAAGTAGATGGCAATTCATCAATAGTTCCTCTTGCTGTATTCCATTTTAATCCATCACCTTTTATATTTGTCAACACCATTGCTAAATACATATAATCTTTATGATTATATAACATTCCTAAATCAACTGTGTATCCATCTGCTTTTGCATTATCCAAAGATTGATTCATTAATTTAACCAAAACTCCAACTCCTAAGTTCTTTTCATATTGAAGTCCTATTCCAAAAATATTTGCTGACTCTTCACTTGAAAATGTCCCCAATTGAGTGTTTTCATCTTGCCATTTTGCAATATCATCAACGCTCAATTTTATATGTGAAAATCCTATAGCCAAACCTTTCCCTGCTGTTAATGGCAAAACAACTTCTGCATTACTCATACTGTTATATCCTGACTCTTTGTCAAATTGCAATAAAGTTTTATCACTAAATGCAAGACCTGCTGGATTATATTCAAATCCTTCTTTATCTGCTACAGCTATAAAAGCATCTCCCATTCCTGTTGCTCTCGTATTTGTTTTTTCTTGTAAAAACCCACCATATCTTTCTGCAGAATAAGTAATTGAAACACTTAAAATACATAAAAATATCGTTAAATATTTTTTCATGAGGCACCTCCTATTTTTTATCATTACTTCTTATGCTTCACTATTTTTTATTTTATATAAAGCAAAACATAAGAAGTGATGATTTTTATTTTAATAATGCTATTTTATCTATTTTTATATACTCTTTTCCGTCATATCCAATAGCTACTAGCCTTGCAAAATAGACCCCGTTTGAATATCCAGATGCTATCCATGGCACTCTATATACTCCAGCTTCATTAGGTAAATCCTCAATCATTTCAATCTTTTGTCCTTGAGAACTGTATAAATCTATTTTTACAGATTTCATATCATTAGGTAATCTATATTTAAAAGTAGTACTACTTTTAAACGGATTTGGATAATTATAAAATTGCTTAGTTTCCAAATCAATTCCGCTATTATTTATTTCTACAGGAATTATAAATTCGTCTTCTCCAATACCTGATCTATTTTGTGCTTCTACTTTTATATAGTATTTCCCATCTGCAACTGTATTTGTATCCCATGTATATATTCCATCATTAAAAGTAGATTTTTTAGTAATTTCTTTCCAAGTTTTAACTGTATTATCTTTATCATATAAAGAGTAATATAATTTAATATTAAGATTTTTGTCCTCTTCTATGATTCCTGTATTTGAAGTAGCCTCCCATCTTATATCCCTTTTTCCATACCAAATAATATTTTCTTTTGGTTTGTCTGCTATCCTTACTATTGGAATATAATTTGCTATTGTAAATAGATCAGTTTCTGCTGTTGCTGTAAATTTATCATTGTTTTTATCTGTAACTATAATTTTTATCTTTACATTTTTACTGTCTGGGATTCCTTTTAATCCTTTCTCATAATGTTTTTGTATTTTATCAACTGGATTATCTAATTTTGTATCAAATGTATAACTGTATTCATCTGTTCCTGCTTTTTTAAGATCTTTACTTTGAGTTAAATCTTCATACAATTTTAACCAGTTCGATCCTCCATTTACAGAATAAAGTAATGATATTTTCATATCTTCATTTACATTATTATTATCTCCATTTGGATTATCAGCTTTCCATTTTATTGTCATTATATTTTTTATGATATCTTGCGAAACTGGTGATATCATAAATATTTCTGGATTTCTATCAAGAGTAACATTTATTTCTTTAATAACATCACTTGTCCCATCATTTACTGTTACCTTTAATTTAAACTCTCCTGTTGACGTATTTATACTTTTTAATACATCTTCAGATAAATTACTTCCATTTACAAAGCCTGCAATCTCATGTTCTCCTAGGTCATCTATATAAGATAATTTTGTAGTTAAAGAATCTCCATCTGGATCATAACTGTTCCATGATACTTTAATTTGATTTTTATATACAATAGATTCTTGTGGAGATAAAATAGTTATGCTTGGTTTATGGATAGATTTTAAATTATTAACAATCAATTCGCTAGCACCATCATAATTTGTTTTTCCATCGCTTACAATAAATTTCAAACTTACATTATTAGATTCTGGTATTAATTTAGTATTTAAAGAAAAACTTCCATTATTTGAAATACTGCTATTTAGTACATTCCATGTACTACTATCTAATGAATATGCTATTGATAGCGTTAAGGTATCTCCATCTGGATCTTTAGCTGACCACAATATATTTTTTGTTCCACTTAATACTTCTCCTGACACAGGCGAAGATACTTCAATAGTAGGTTTATGTTTTATTGTGAATGATTTTAAATAACTTGATTCTGTATATCCATATTCTCCTGTTTCAGATGTAGCTTCTGAGTTGTGTCCACCTGAATTTTCTGCATATACTTTTATTTTATAGCTACCTTCATTAAATCCTTGTGTATCAAAATTAAATTGTCCATTTTGTGCTGTGACGTCTGTCGAATTAGAAAGATCTAACAAATCACTTATAACAGTTCCTGTGCTGTCTAACAAACTAATCTTTAATTTATTTATACTTACATTATTTGGATCTACTATATACCAACTTATTTTTTCACTACTTCCACTTAAACTATCTCCTTCTGCTGGAGATAAAAGTGTAACTTGTGGTTTTTGTCGTACAATTATCGCTTTTTCTTTTGTTAGATATCTTTTATTTCCATTAGAATCCTCTGAAATAATTCTAATATCATAATATACATCTGGAGTTAATGATGTTCCTAATGTATCCCAATTATATCCAGATAAATTATAATTTTTTATAATAATCCCTTTTTCTTCTGTAGAAGTTGTATCTGTTAATAAAGGCCATGCAGATACACTATTTTTCTTATATAAAATATGATATTTCAATGTATCAATTACATCGGGATCTGATGAATTCCAACTAATTTTCATTATTCTTCCTAATTGTAATAAATCTATCTTCTTATCTAATCCTGTCAACTTATTAAATTTAGGATAATGATTTAATATTGTAAATTCATTACTGTTTTCTGCTGAATTAATATTATCACTACTATTTTTTAAAGCTGTATTATTAGTTGTAGCTTCTATTTTTATTTTATAATTTCCATCAGTTAATGCACTTATATCCCAATCATATGTTTCTGTAATTTCACTATCTTTAGCAACTAACTGTGTATTTGTCATTGTACCCTCTATAAGAACTGGTGTTGCACTATCTTTAATGTAATATATTTTATAACTAACATCTCCTATGTTATAACTTCTTATATCATTATTAGTAATTTTAAATGTTACTTTTTTAGATGTTACTTTATCTCCTGATTTCCCCCATACTATATCATCCGATTTATACCCATAATTACTATCTTTCGTTAAGTTCAATTCTATGGGTTGTTCTACTACAACTGTTGGCTTATCTGCATTATCTATAACTATTTTTCCGCTAGTTTCTGAAATAGTATAATTATTAGCAGAATTATCTGTAGCTGTTAATTTTACATAATATTCTCCATCTGTTAAACTGGTAGAATCCCATGTATAATTACCTATTGCTGATGATGTAGTTACTATAACAGTAGAATTTGAAAAATCACTATTTTGACTATATTCTAATTTAACATTAAAAGTATCATTGTCTGGATCAGTTACATTCCATGAAAAAACAGAATCTTTATTTGCCCAATCTTTAGCACTATTTCCTAATTTTATACTGCTTCCTGCATTTTTTATATCCCATGTTGTTATTACTGGCGTATGTTTTGTTGTGAATTGTGTTGTTTCTGATGAGCTTACATAAGGTCCTCCATTATTTGGAACAGCTCCATTGTCTGTTGCTTCTACTTTTATTTTTACGTTAGTTGATTCTGGTATGTTATTTGAATCAAATGTATATTCTCCATCATTAGTTTCTCCTGGTGCTAATAATACATATGATTCACCATCTACTGAATAAGATATATTCACTTTTAATGTGTCACCATCTGGATCTGTTGCTGTCCATTTTATCTTTGCTGTGTGACCACTTATTGTGCTATCTTGAGTTATCGCACTTGAGCTTGTACTTATTGCATAAACTCCGCTTACAGTTGGAGTATGTTTTACTTCAAAAGTTCCACTTTCTAATGAACTTACATAAGGTCCTCCATTATTTGGATCAGCTCCATTGTCTGTTGCTTCTACTTTTATTTTTACATTAGTTGATTCCGGTATGTTATTTGAATCAAATGTATATTCTCCATCATTAGTTTCTCCTGGTGCTAATAATACATATGATTCACCATCTACTGAATAAGATATATTTACTTTTAATGTATCCAAATCTGGATCTGTTGCTGTCCATTTTATCTTTGCTGTGTGACCACTTATTGTGCTATCTTGAGTTATCGCACTTGAGCTTGTACTTATTGCATAAACTTCATTTACAACCGGTCTATGGCTTACTTTAAATAGTTCTGACTCTGTCCATGCGTAAAATCCACTGCTATTTTTAGCTATTAATTTTATTTTTACATTTTTATCTCCTACTGCTTGGTTAGCTGGCAGTTGTAATATTTTATTACTATTTATACTCATTGTATTATCTGTAGATCCAGTTCCTAAACTATTCCAAGTTGTTCCACCATCAGCACTATATTGTGTCTCATATGAATTCGCATTTGTTTCTGCTCCAGTCCATGTAATATTTTGAGTCCCACTCCATGTGGTACTATCTATCGGAGATGTAATATAAATATTTTCAACATCTATTGCATTTGATTGAGATGAAACTGCTCTTTCTGAATTACCATGATTTTTAACTAATATTTTTAAAGTATAATTACCATTTCCACTAACTACATTTCCTGTTGCTCCTCTTGTATCTAATGTATAGCTAAATAGTTTTGGATTGGCTGTTTTCCCTCCAGTTACAGATTCAATTTTATCTATACCATTTAATTGTATCTCTATATCACCATTATTTACCTTTTCTCCATTTTCAACTAAAAAACTAACTGTAGTATCATTTGCCCATGTTATATTAGTAGAGCTTGAATTTGGATTTAATAAAATTGGTTTAAAATTATTCAAAGTAAATCCTGCATCAGATTCATCAGTGATTCCTGTAATATCAGAACCATTTTGATCTTTCAATGCAGTAATCCTTACTTTAATTTGGCCATCAGTTCCATCAGTTGTTGATGCACTTGTGTCCCAAGGATAATATCCATAAGATGCATTTAAATCTGTCGCAATCTCCTTCCAAGTAGATCCGTTATCAACACTGTAATCCAATTTTACTGTGGACACATCCAAACTTGTCCCCCAAGTTATATAATATACTCCTTTTACTGATTCTCCACCATTTGGCGAAAATATTATTACACTGCTACTTCCAGCTCCTAAAGCTGAAATTGTTACTAAAAAAAACAGTAAGATTTTTAATAATAATTTTTTCATAATTATTCCCTCCCTATCCACTTAAAATATATTTCGTTATTTCTTTTTTTACAGTTTTTCATACTCCTTTCTAAAATTTAAGAATAATACTACTAGACAACTCATACATTGATGTGAATATACCACTCCCTTCCAATTTATAATAAACATTTTTTAATATATCTTTTTTGTAATAAAAAGTTAAATTATTATTATATCTGCTTTTATCTTTTATCAAAATATATGTTAACCCTTTATAAAAATCTCCATAATTATATAACAATTTATAATATAAGTTATTCCAACTGATTTCTATTTTATTTAATTTAGAAAAATAATATACTACTCCTTTATTTATAGCACTATCTTCTACATACTCATAAAACGGTTCTATTTTTTTATATTTAAAGGCTCCGTAAAATTCTTTTTTATTTTTTTTTCTGTTTACATCATTTTGATTTGAAACTCTTAATTTAAAATTTTTATTATATAGATAAAATTTTTCTTTTAAAATAAATTTTTTTTCTGTTTTATCAGTAGAAATTTCAAAATTTTTAAAATTAAATAACAAATTCATATTATATCTCTTATCTGTATAGTAAGTTGAATCTTGACTTATTCTAAGAATATTATTAAAATAGCTTTTATTTAATGCTAATCTGTAACTTTCTACTTTTGCACCTAAATCATTTTTATATATAAATCTAGCATAAATATTATAAATATATAATTTGCTATCAATCATACGGGATAAACGCTCTTCTAAGTATCCAAGATTAAAGTAATTTTTATAATAAAGAGTTGCTCCTATCTTTTTTTGATTTGTTATTTGTTCATTAGTAATATACTCTTTAAATCTAAAATTTCCTTTTTTTTGAAATAAATTTAATTCTTGTTCATCATTTCCAAATTTTGACATCCATGATTTATCATAAAGCCTTATGTCATAGAGTTGATTTAAAGAAAGTTTTTCATCTTTATAATCACTTTTCAACCCAATTTCTCCACTATACTCTATTGAAAATGATACTGTACTTAATATTATGGTTAGTAAAAATAAAATGTTCTTTTTATTTATCATAATTATATTCTCCATTACATTGAAATTTTAGTTTCCATCCCTATCTGATATTCATTATAACTATTAAATTTTTCTCTTAAATCATTATAACTCTCAAGTTTTATATATGGTAATATTTCTATGAATTTATTATATTGATATTTTCCATCAAATAAAGCATTATATTTAATATAATTATCTTTTTCTTCATCAAATACACTTTTTATTTTTAATTGTTCATTTATAAAATATGAGATAGAAACATCTATTTTTTCTGTTATATTTTTACTATATTCATATATGATTTTATATTTTTTATAAAAAATTGATGTTTTAGAATTAATAAATCTATCTGTTAAATTATTTTCCAATGATATTTCATAACTTTCCTTTTCATTTTTGCTATAACTATAATTTAAAATTGGAAAAAAATAAGTTTCTTTATCATTCAAATACTCTTTTTCTCTTTCTCTCTTTATACCTATTTTAAAAAAGTTATTTATCTTTTTATTAATCAACTCTTTATCATAATTATAATTTTTCTTATTTGAATATTCTAGTTCAGATTCAAATTTTATATTATCAAAATTATTATTCAACAATAAATTATTCTCTAAATCATAAGAACTTTTTTTTATATTATATTTAAATTTTATATTTTTAGAACTATATTTATAAATATTTTCTCCTTGAATCTCTTTGTTTTTATAGTACGAATTCCCACATAACTCATTTTTTTTATTTTTATATTTCCAATATAAAAAATAGGTTTTATTATCGATTTCATTTTTTAATTCAATTCTCTTTATGCTATCAAAATAAAATGCAGAATAGCTCCTATTTAAAATATCCTTATTTTTTTCGTAAGAATATGTAAAATTCAAACTATTAGAAATATTACTTTCTAATTTAAACTTATCAATGTCATCACTCTTCTCTATATTATACCTATATTTTCTATCCATATCTGTATTTTTAATCACTAAATGATAAATTTTAGAATTTCTATCTAATTCAATCACATTATCATTCCAATTATAATATACATAAAAAAAGTTGTTTATATCTATTATTTTATCTTTAAATATAATGCTATTAATTTTTAAATTTCCTTTTGTAACAAAAGTTATATCTTGCACAGATTCTAAATCTGATATATCTAAATTTAGTTCTTTAACTCCCATAATAATATCTTTATATTTTTCAACTCCATTTATTTTAATAGTTACTTCTGAATTATCTTCACTTTCCATTGAGATTTTTAAATTTTTATAATAATTCTTTTCATAAGAAAAATTATAGCTGAAACTACTATTTATATCTTTCCCATTTATTATTATATTATCTTCATTTATAATATAATTTTTTAAATTATTTGTAATTATATTGTATTTTATAAATTTAAAATCTCCTAAAACAACATAGCTATTATTTCCACTTGTATTTCCTATATCAAATTCAACCATATTAAATTTTTCTAAAGATTTACTGCCATCAATAAAAAACTCTAGTTTATGCCATCCTAAAAAATTTATTTTAGTATTATAACTATAAAATTCCTCATTTTTATCAATAACATTATTATTATTAAAATCTTCTGTATCTAATTTTTCATTATTTTTTCCTATTAAATTTCCACCTATATCTATTCCGTTATCCTCATTTGTATCTAAATATCCATTATTGTTTTTATCTTCTGTATCCAGCTTTCCATCATTATCGAAATCTTCATTTAAGCCCCCAATTTTTATAGTTAAATCTTCATTTTGATTATCACCATATATCCAAAATGATACTTTTTTTATATTTTTAGATGATATATTTAATTTTTTTCTAATTTTAAAATCAGAAGAATAATCAACTTTTATTTTATTTTCAAAATTATAACTTTTATCTTTAACATAATCATCTGAAACTACTGCATTTCCATTAACTAAAAAGTCATCTTTACTATTTGTCATCAAATCTTCACTATCTGATACAAATTTTATTTTATTTTCATTAGTTTTATAATTATTATCATAAATCTCTGTCCCAGCTTCTAACTTAAAATTTTTACTATTTATATATGTTCCAATTATATCTCTTTTTTTAGATTTTTCTAAGCTAAGATCATAATGGAAATTTAATAAATTATAATTTAAATTCAAACTATAATTCTGTATATCCTGTTCAGATTTTCTCTTATAAAATATTTCAACTTCATTATTTGTATTAATTATATTTTTTGAAAATGATAAAATATAGTTTGTATTATCCCAAAAATAATCTTTATTCAATTCCAATTCTCGATTTCCGCTATATACTATTAAACTACCTTCCAAAATATCATTTATATTGAATATCTCTTTTTTTTCATAATATTCAAATATAATTTTATCATCTTCATTTAAATTATCAACATATAATACGCTTTCATTTTCATAAATATTATAATTTTCATCTATATATTCTCCATATTTATTTTGAAATTTTACAGAATAATTCGGAGTAGAAAATTTTGGTAACTTATATATTTTTTCTGAAGGCAATATTTTAATTATACTATCATCTTCAAATTTGACCATTAAATCTCCATCTTTTGGATTTAACAATTCTATATATTGATTATCAAATATAATATAATCAACATCTTTTTTCAAAATATCATAATAATTTCCATTTATCATAATAGCTTTTTCGTTGTTTGTTTTATCATTATCGTTAAAATAAACATCTTTTATATTAGCAATATTTCCACTATTAGTAATTTTATAATACTTATTTTTTATATAATTATCTTTTGATACTATTGTTTTAATTTTATTCTCTCCAAATACAATTTTTTGACTAATTATATTTGATTTTGAAAAGTCTCCTAATATATAATTTTTACTATCTCCATAAAAAAATCCAAATATTTTTGATCGGTTTTTAAAATATTTCATAACAAAATTATTCTTTAATTTAATATCTCCCAATTTTAATTTTTTATAACTAAGTTGTAGTTTATTTTGATTTTCCAATTCTTTTTTATCACTATAATTTATCAGATATTTTATTTCATTTTGCTCCCCTTTTACATTTAAAAATATATTTTGTTCTAATTTCATTTCACTTTCATTTTGTTTTATACTACTATTATATTTTCTAAATGTATAAATAGGTATTACATTTTTTTCTAATGAATACTTTATAAAATCTTTATTTTTATAATTTTTGCTTTGGTTTTCACTTGATTCTTCTGCAAATATAAAAATATTAAATATAACAAAAAATATTATCACAACTTTTTTCATAACTCGCACCTACTTTACTACACTATTTATTTCTCCATCACTTAATATAGTTAATAATTCATCTGACTCTCTTATTTTTTCTACGCTTTTTATTATTTTCCCATTTAATTTTGTTATTGAATACCCTCTGTTTAGTATACTATATGGATTTAACATATCTATTTTGCTTTTTGAAATTTCAAACTTGCTTTTTTTTATTTCTAACATCTTTTTTAATGAATTATTTAATTTCTCTTCTTTTCCTATTAATATATTATTCTTATCAACTATATAATTTTTATAATTTTTTATAAAATAATTTTCTTTTCTTTGTTCAAACTCTATTTTTTTTAATTCCAATAACTTTTTCAAATTATTAGCAACTCTTACCTCGCGAATATTTAATTCACCTAGCAAACTCTCTTTTTCAGGAACTAAAATTTCTGCTGCTTGAGTAGGTGTCGCTGCTCTACTGTCTGCCACCAAGTCAGATAATAAAAAATCTATTTCATGTCCAACTGCAGATATTATAGGCTTTTCTGAATTATATATTGCTTCTGCAACCTCTCTCTTATTAAATGCCCACAAATCTTCTATGCTTCCACCACCACGCCCAATAATTATAACATCTATATAATCTAATCTATTTAAAGTTTCTATCCCTTTTTTTATCTCTAACTCTGCATTTTTTCCTTGCACTTTTGCAGGATAAACATAAATATTTAAATTTTCAAATCTTTTATGGGTTGTATTGATTATATCTCTTACTGCTGCCCCTGTCCCAGAAGTTACTACTCCTATATTATAAGGAATAATTGGCAACCTTTTTTTTATTGATTTATCAAAATACCCTTTTTTATCTAATTCTTTTTTTAATTTTTCCAATTCAACATATAAACTTCCCAATTTATTTTCTTTTTCAATTTCATCAACAATAACTTGATATTGTCCATTTGCCTCATATAAAGTAACACTTCCAAGTATTCTAACATTTTCTCCAGCTTCAAGGTCTACAGGTACATTTTTAAATCTATAGTTAAAAGCTGCACATTTTATAGATGCCTTTTTATCTTTTAATGTAAAATACAGATGTCCGCTTTTATAATATGTAATATTTGATATTTCTCCTTTTAAATAAAAATTTTTAAAATTACTATTTGTTTCTAATGTTAATTTAACTAATTTGTTTAATTCACTTACACTATATTCTCTATTATTCATATTAAACACCTCGATCTTTTAATTTTTATTTTAAAAATGCACTTTGTTTTTAATTACAAAGTGCATTCTCTTATTTTCTTATCTTATCTTATTTTATCTTAGGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTATAACAAAATTGGAATGTTATTTTTAAACCATTCCTTAATAAAGTATAACTTTTATTTTGTTCAAAATCAAGTATATATTTCAATATAAGTGCCCATAAACATTAAATTTTTCGTCTTCCCTCTATTGATCTAGAAATAGTTGCTATATCTGCAAATTCTAAATTTCCGCCCATTGGTATTCCACTTGCAATTTTTGTAACCTTCACATCAAAATTCTTTAATAACTCAGAAATATATAAAGCAGTTGTTTCTCCTTCTAAATCTGGATTTAATGCCAAAATTATTTCTTTTATCGGTTCTTTTGCTACTCTCTCTATTAATTTTTTTAAATTTAATTTATCGGCACCAATTCCATTTAGAGGAGATATTTTACCATTCAAAACATGATATACACCTTTAAAAACTCCAGCTTTTTCCATTGCTAAAATATCCTTTGAGTCTTCAACTACGCAAATAATATCTTTTTCTCTATAATCATCACTGCATATATCGCAAATATCACTTTCACTTAAGTTCCCACATATTTCACATCTTTTTATATTTTCTTTTACATCTCTTAAAGCTGACACAAATTTTTCTACTTCTTCTTTTGAAATATCCATTACATAAAAAGCTAATCTTTGTGCTGTTTTTCTTCCTATTCCAGGAAATTTATGAAATTCATCTGTTAATATTTCTAATGATTTTGTAGACATTTTTCCTCCTTGTATAATAAGCTATAATTAGTTGTATTCTTTTCAAATAAAAATTATTTTTTAAATCTTCTTTAAAAACATCAATAGTTTATCATTTTTATAATGGTAAGTCAATTTTATTTGTATCAAAAAAGCTTTTAATAAATCAATTTATTTTTTTAATTTACTAGGAAAGTATAAATTTGTTCAGAAAATAAGCTACGCCATTTTTTTATTATCCATTATAATCCTCCATTTATACTCTTCGCCACAGTATATCCCATAGAAAATGCTGCTTGTATATTATATCCGCCTGTATCTCCATCAATATCAACTACTTCACCTGCAAAAAATAGATTCTTTACAATTTTTGACTCCATAGTTTTACCGTTTATCTCTTTTAACGCTACTCCACCAGTTGTTGCCATAGCTATATTATAATCTCCCATTCTATCTATTTCAAATGGATATTCGCAAAACATTTTAGCTAATTTATTTCTTTTATCCTTACTTATTTCTGCCATTTTCGTTAATATATCCATATTAATTTGTTCTAAAACAGATTTTATAAGACTTTCTGGAATTTTATACCTCTTTAAATAATTTTTTATAATTACATTTCCATCTTTTTCAGTTTCTTTTATAAATTCTTTTTTAAATTTGTCTATCTTTTCTCCTATAAAATTCACTTTTAAAACATCATCTTCTTTTATATCTCTAGAAAAATCAAGTATTCCTGGACCAGATAATCCTACATGAGTAAATCCAATATCTCCTATATGTTCTCCTATCTTTTTATTCTCTCTATATAAATAAATTTTTATATTTTTCAATGATACTCCAGATATATTTTTAAATTTGTAATCTGTTATAAAAGCAGGAGCTAATGCTGGTTTTAAACTCACTATTTTATGGCCTAAGTTTTTTGCAAATATATATCCATCACCAGATGAACCTGATGTTGGGTATGATTTTCCACCTGTAGATATAACTAATTTATCACACATATATATATTATTTTTTGTTTTTATTATAAATTTTTCATCTATTTTTTTATCTTCTTCTTTAATCTCTTCAGCTTTTAACACAGTTTCGTTATTTTTAATAACTACTCCTTTTTTCATACACTCATTAATTAATATTTTTAAAATATCTTTTGATTTTTCAGTTTCAGGGAAAATTTTCCCATTTTTATCTACTATTATACCCATACCTCTTCTTTTAAAAAAATTTATCATATCTTTATTACTAAATTCTTTAAATACTGTTTTTAAAAATTTATAATTATTTCCATAATGATTAAAAAATTCTGACATTTCACCTTCGTGGGTTATATTACATCTTCCTGCACCTGCCATAAGCAACTTTTTACCAACTTTTTGATTTTTTTCAAGAATAAGAACACTCATCTCTTTTTTTATATTTATAGCAGTAAAAAGTCCAGCAGGACCACCACCTATTATTATCACATCATACTTTTCCATTTTATCCTCCAAATTCAATAAGAGTTCTTATATAAAATTAGAACTCTTGTTTTTATTCTTTTTTATTTTCAATCTATTTATAACTCTTCTATTTTTTCTAATTCTATCATAAAATATTCTAACTCTCCAAACACATCTACATTTTCTCGGATTATTTTAGCATAAATTCCAGGTTTATTATTAATCATCCAATATTTAACTTTCGAATCTCCATCAAATCCCTCTACAACTGTACATTCAAATTTTCCAGCTGGAACTGTAACAATTTTATTTCCTAAAATTCTATATGGATATAGCTCTTTTTCAGGAAAAAATTTATTATATATATTTGTATTTTCGTCTATATAGCTTTCGTGAATTTTCTTTTCTTCATCATTTACAATTCTAAAATCATTAAATCTTATACTTTCTTTTTCAGAATTAACCACAACCTTAGATATAACTTCACTGTATTTAAATATCCCTAATTCTTCTATTAAATCTGCTTTCCTATACTTTAATTTTTTTATATTTTTTAACTTATCTACCATTTGATAAAAATCATTCCAAGGTAAGTCAGAATCATTTTCTTTTTCCTCATCAAAATTATCATATTTAAAATTCAATCTCTCAATTTTACTTTTTAACACTTTTTTATTAGCCTCTATTTCTTCATCTCTATTAATATTTCTTAAAATAAATTTATTTTTTGTAATAGAAATAATTTTATTCTCCCCTCTTAATATATTTGGTTGACCTATAACTATAACAGTTTTATCTTTAGAGTTATATACCCATGTTCCTTTTGTAGTGCTACTCATCCCTTCTTCTATACTTATTAACGTAAAATTTCCTGATACATCTAATTTTAAAAAATTTATTGAGTCTTCTCCTTTTATTTCCCATACTCCATTTAAATTAGCTTTTTTATTTATATTTTCTATATTTTTATAATCAAACCTATCATAATATAATTTTTGTTTCCCTTTCACCATTTCTAAACTATTCGTTGTTAATTTTGTTATTTTCACATTTCCATTAAAATCATTAATTTCTTTTGATTTCATAATAATTTCATTATCATTATTCCACTTCCATGTTCCTACTTTTATTCCCATATATTTCAAAATTCTATTTTTTTCAAATGTTAATATAATAAACATCTTCTTAATATTACTACCTGTTTCTACTCTTTTCAACATCCAACTTCCTATAATATCTACCGATTGAGCATTTAATATAAATGTAAACGTTACTAAAAACATTATTACTATCCATTTTTTCTTCATTTCGCACCCTCCTATTTTTATTTAAACGTTCTTTAATTTTGTAAAGCCATAAAAAAATATAGTTAATACAAATCCTATATAAAATATTATTTCCCAAACATTCTTAACCCCATAATTAGAAATCATAAATCCTGAAATTAATGGTGCTATTGTAAATCCAATCATATTTAAAGTACCAAATATGCTATTAAACCTACCTCTATGAGTTATAGGTGTATGTAATGAAATATAGACTCCATAATTAGTAACGTATAATATCTCTCCTATGCTCCATAATATTGTAGAGATAATAAATATCATTAGATTTTTATTTGCAAAATATAACATTCCAAATCCTACTGTATATAAAATAGTCCCCAAAAACATATTATAATCTGAAGTTTTATTTTTAGTAAGTTTTAGTATATATGTTGTAAATACCACTACTACAATTGCATTTAATGACATAATATATCCAAAATATTTTCCACTATTCTTTCCAAACATCTCTGAAAACTGAATTGGAATAACAATCATATGCTGTGCATAAATAAATGTTCCTACAATATTTAATAAAACAAATACAATTAAAAATGGTTTTTTTATTATTACTTTGAGTGAAGATTCGTCTGTCGCTTTTTCATTTCCTTTTGCATTACTTATATCTTCTGCTGTCGGAGTTGTATCTTTCACATAAATAATTATTAAGATAGTTGCAATAAGTGTCGTTGTGCCATCTCCCCAAAATATCCAATTAACGTAATTTCTATATAATAATCCAGCTATAATTGGTCCTAGAGAAACTCCAATATTTGTGGCTAAATAAAAGAAAGAAAAAACTCTCTTTCTCTCTTCTGGAGTTGATAAATCTGTAATAATAGAATTAAATACTGGCCTTATTCCTCCTAAGAAAAAAGTTGCAATTATCAATAATATTGGTATTAGATTAGAACCATTTATAAATCCGCAACTTATTATGAATAAAGCTGAAGAAACATATAAAATTACCAATACTTTTTTTCTTCCAAAATAATCTGCTAATTTTCCAGATATCATTGTACCTGTTATTCTACTAACTCCTACAATCGTTAATATAATCCCTATTGCTTTTCCATTTAATTTTAAATTTTGAGTTAAGTATAACACTAAAAACAAATTTACAAAACTTCCTAATCTATTAATGATTCTCGCAACAAATAAAATATAAATCTCTTTTTTAAATCCTTTATACTCTGATGTAACTTTACTTATTCCCATAAAAAGCACTCCTATTTTTTTTAATATACAGTTCTAATAAAATCATAAATACAAAACAAGCATATTATCTTCCAACAAGAAAATAATATGCTTGTTTTGTATTTATTCTACTAGAAAATCATCTAAAAATCAATAAAAAAATAGCATAGCTCATTTTTCATTAGTGTTTTCTATCCCTTTATCTTATGTTCATCTGCGTTCATCATGTGGTTTCAAGTTCTTGACTTCTAAACTGTAGCTTTTTAAGCCATTACTTAATTTCAAAATAGATTTTTCATCTCATTTTCATTTAAAATATTTTTCTCAATTATTATTTCTTTATATGTTTTCCCTTTTATTTTGGCTTCTTTTAATATCTCTGTCAATTTATTATATCCAATTTTATCAATTAATAATGTCGCTACTGACCAGCTATTTTCTAAATAATTTCTGCAGACTTCTTCATTAGCTTTTATCCCTTTAATAACTTTTTCTGTAAATATTTTAACTCCATCTCTTAAAATTTCTAAATTTTCCAATATCAAATCTGCAATTATTGGAAACATTGCATTTAATTCAAATTCTCCATCTCCAGCAGCCATTGTAATTGCTAAATCATTCCCTACCACTTTATAATAAATTTGTTTAATAAATTCTGCTCCTACTGGATTTACCTTTCCTGGCATAATTGATGACCCTGCTTGCAATATTGGTAACTCTATCTCATTTAAACCAGCTCTTGGGCCTGAGCTCATAAGTCTTAAATCATTAGATATTTTACTTAAATTTACCGCTAAACTTTTTAAAAGCCCTGATATTTCTACAAAAACATCTAAATTTTGAGTTGAATCAATTAAATTTTCAGCTCTTGCCATTCCAAATTCAGTTAGATTTCTAATCTCTTCTGTTATTATAAATCTATATTTTAATGGAGCTCCAACTCCTGTTCCTACAGCAGTTCCTCCAATATTTACTTGCCTAATTCTTTCTTCCATCTTATACAATCTCCACCTATCTCTCGAAATTGCCTCTGCATAACTTCCAAATTCATCCCCTAATGTAATTGGAACAGCATCTTGTAATTGTGTTCTTCCTATTTTAAATACATTTGAAAACTGATGTTCCTTTTCTTGTAATCCTAATTGCAGTTCCATAACGTTATCAACTAATTCTCTTAATACTTTTATAGCCGCTATTTTAACAGCAGTTGGTATTACATCATTTGTAGATTGTGACATATTTATATCTTCTATTGGATTTATAAAACTATAATCTCCTTTTTCTTTTCCACTAATTTCTAATGCTACATTGGCAATAACTTCATTTGCATTCATATTAATAGAGGTTCCTGCTCCACCTTGCAAAGCACATATTTCAAAATTTTCATCTAAGATTTTTTTATCATTATAAATTTTATCACACGCTTCAATTATAATCTCATATTTTTCTTTTGATAATTTTTCTATCTTATAATTTGCATACGCTGCTGCTTTTTTTACTAATATTACAGCTTTTATTATCTCTTCTTTTACATTATGATAATTAAGTCTAAAATTATCTTTTGCTCTATATGTATGTATTCCATAATATAATTTTTCGTCTAATGATTCTTCTCCAATCAAATCTTTTTCTTTTCTCATTTTTTCTCCTTTCTATATAACTTACTCAAATCATCCAAAAAGAACCCTGTTTAAACACAGGGTTCTTTCACTATATTCAATATAATCTTTTTTTCTTCATATGTTATATTCTCAGCGAATATACAATATTCTTCATTTCCAAATATTAATTCAGTTTCTCCAAAATTAGTTTTTCCAACATTCCATACATATTCATTTCTTTTACCAAACTTTTTAGATAAAATTATATTTGACTTATTTACATCTATCTCTTTAGCTATTTTATCTTTAATAATATAAATCTCTTTCTCCATTTTTTATACTCTCCAATTTTTTTAATATACTATCTTTTGCATTTCCTAAATTTATTGTTTTTAACTCTTTTTCTACTAAACTATAACCAGCTTTTTTAGTTTCTGGTGATGCATAATCATCTAAATATTCTGATAAAGTTAGTAATGCATTTGGAGTACAAAAATTATGTATAAATCCAGGTTTTGAAAATTCCATAAAATGCTCTCCTGTTCTTCCTAATCTATAACAAGCTGTACAAAATGAAGGAATAAATCCTTGAGTCATTAATTCACCCATAACTTCATCCAAACCTCTTGAATCTCCTATTTTAAATTGTTCTTTTCTTAAATCTTGTTCTTTTTTATGCTTTGAATATCCTTGTAATTCTATTTTTGTACCAGCATCTATTTGTGATACTCCAAGTTCCATACACTCTTTTCTTAATTCAGCAGTTTCTCTTGCTGTTAAGATTAATCCTGTATAAGGAACAGCCAATCTAAGTATAGCTATTATTCTTTTTAAGTCATCATCTTTTACTACATATTTAGGGTCTTTTATTGCTCCATTTGCTTCATTAAGTCTTGGAAATGATATAGTATGTGGACCTACTCCAAATGTTTCTTCCAGATGAAGTACATGTTGCATAAGTCCCATAACCTCAAATTTCCAATCATATAACCCAAATAAAGCTCCTATTCCAACATCATCTATTCCTGCTCTCATTGCTCTATCTAATCCAAATAATCTCCATTTAAATTTAGATTTTTCTCCACTTGGATGTACTCTTTTGTAAGTTTCAAGATGATAACTCTCTTGAAATATTTGATATGTTCCTATTCCTGCATCTTTTACAACTTTAAATTCTTCTACATCAAGAGGTGATGCATTTATATTTACTCTTCTTATTTCTCCTTTTCCACTCTTTGTCTCATATACTTTTCTTATAGTTTCTGCCATAAATTCAGGAGTATAGTCTGGATGTGTACCATATACCAATATTAATCTTTTATGTCCTTCATCTTCAAGAGCTTTCACTTCTTCTCCTAATTCATCTAAAGTAAGCGTTTTCCTTATAGTAGTATCATTTGTGGCTTTAAAACCACAATAAGTACAGTTATTCATACATTTATTCCCTATATATAGAGGTGCAAACAGAACAACTCTATGTCCATAAACTTCTTCTTTTATCTCTTTTGCTGTTTTAAATATAGTATCAATTCTATCTTGCTCACTAGAATTTAATAACATTGCCACTTCGTCTAATTCTAATCTAATATGTTTATGAGCTTTTGCTATAATTTTATCAAATTCTTCTTTTGTTGGTTTTTTGTGTGTTTCTAATAAATTTTCTATTATTTCTTCATTTATAAAGCTATCTTCTTTTACTTCATCTTGCCAATTCATTTTTATCTCCTCCATTTTTTTATGATTAAACTTAAATTTCCCTAATTAAAAATAAAAACCTCTCAAAAGAGAGGTTTTATAAATAAAGTATATAAAATTTAAATTATTTTAACTTAAACTTTATTTTTATTATATCCTCTCCCTTTTACTCAGATAATTCCTTACAATCAGGAGTATTTAAAAACATTTAAAAAATAATTTTTCAAATAAGTAAATTATTTTTAAGCCATTCCTAAATTATTTAATTTTTGAAATTGCACTTTTTACAGATATACCTTTTATATTACCAAGTTTACCTGATAATGCTCCTATTTCATCTGTAGTTCCATTTAATATTACTACAATTACTGCAACTTGTTTTTCTCTATATGGAGTCCCCATCCTAGAAATAACAATTTTCCTAAATTCATGTAATATCTCATTTACTTTAGAAGACACATTTTCATTCTCTATAAATATAGATAATGTTCCTAATCTTTTTTCCATTTCTCATCACCAAGATAATTTTATCACTTTCTATGTTTTGTGTCAAGATATTTTTAAATTTGATTAATAACTATTGTATGCAATTTTGTTAATTCATCTATACTATATTTTAATCCTTCTCTACCTATTCCTGATTTTTTATTTCCACCAAATGGAAAATGTCCAACTCCATGTCCTGGTGCAGAATTTATACTTACAGTTCCATCCTCTAATGCTTTACCTATTTTTAAAGCTATATTTATATTTTCAGTAAATACACAACTGTCCAATCCATATTCTGACTTATTTGATATTTCTATGGCCTCTTCATAATTATTTACTTCGATTATTGGCATTACAGGTCCAAATATCTCTTCCCAAGCTATATCCATATCAAGAGTCACGTTATCTAATATAGTTGGTTCATAAAATAAGTCATTATATTTCCCTCCAATTATTAACTTTGCTCCTTTTTTTATAGCATCTTTTACTAATCTATCAACTCTTTCTATAGCTTTTTTATTTATTACTGGACCAACTTGAGTTTTTTTATCTAAAGGGTCACCTAATTTATATTTTTTACTTTCTTCTAATACTTTTTCTATAAATTCATTTTTAATTTCTTTTTCTATCAATACTCTACTTACAGCATCACATCTTTGCCCAGAATTTCTAAAAGTTCCTTTGACTATATGTTTTACCGCATTCTCTAAATTTGAATCTTTTAAGACAATAGCTGAAGCTTTTCCTCCTAATTCCAAATGAAGTTTTTTAACATCTACACTTTTAGCTATATGCATTCCAATATTTGTAGAGCCAGTAAATGTTATTGCTGCAATGTTTCTATTTTGTATTAGAGCATCTCCTACTTTTCTACCACTTCCAGTTACTATAGAAAATGCCTTTTTAGGCAGTCCCGCTTCTTCTAAAATTTTAGCAAAATATATTAATGTAATAGGAGTATCACTTGAAGGTTTTGCAATAACTGTATTTCCTGCAAGTATAGCTGGAATTATTTTAGCTGCAGCAATATATAATGGATAATTAAAACTAGAAATTGAAGCAACAACTCCAATCGGTTTTCTCATTACAATTGCAAATTTATTTTGTGTATCGTGCACCCATTCTCCTGCTATATATTCTCCATACAATGCCCTAACTTCTTGCAATGTCAATTTTAATCTTTCAGCTGTAGCAGATACTTCTCCTAATGATACGCTTATTGGCTTTCCTGATTCTTGTGTTATTATCTTCGCTACTTCATCTTTATTCCCTAATAATATTTCATAAGCTCTTTCCATTATTTCCAATCTTTCTATTGGAGTATAATTTTCTATTTTCTTATACTCTTTTAATTCATCTATTGCAGTTTCAATATCTTTTTCTGTACAATTTGGGACATAACCAACGATTTTATTGTCAGATGGATTTCTAACCTCAATTTTTTCTGTTGTAAAATAACAATCCCAACATCCGTTTATTAATATTTTATATTCTCTATCCCCATTTTCATTTTCAACATAAATATCTTTAAAAATACTCATAATAATCCCTCCCTCTCTTTTTTATAAACTCAAAATCCTCTTATTTTAATTATACCTTAATTTTACTAAATTTGTAAACAAATATTTTTTCAAATAAAAAATAAAGAGAGGTATCTATAAATTAATAAGATATCTCTCTTTGTTATAATTTTATATCTATTCTACTGTAACACTTTTTGCAAGATTTCTTGGTTTATCCACATCTAAGCCTCTTTTATTAGATATATGATATGCTAACAGTTGTAATGGTAAAACTGTTAAAATTGGTGAAAAAATTTCATCAACTTCATGTATTCTTAATATTATATCTGCATGTTCTTTTATTTTTTCATCACCATCAGTTGCTACTGCTATAATTTTACCACTTCTAGCTTTAATCTCTTGAATATTACTAATTACTTTATCATATGTATCACTTTTTACAGCTATTGCTACTGTTGGAACTTCTTCCTCAATCAATGCTATTGGTCCATGCTTTAATTCTCCAGCAGGATATCCTTCTGCATGAATATATGAAATTTCTTTTAATTTTAATGCTCCTTCTAATGCTATTGGATAATTTATATTTCTTCCAATAAACATAAGACTATTTACACCTTTAAATTCTTCTGAAGCTTTTAATATCTCATTATCTCTTTTTAAAACTTCCGCAATCATTTCAGGTAATTTTTTTAATCCATCTACAATATATTTTCTTTTCTCTAAAGATAAAATATTTCTTTCTTCTCCAAAATATAATAAAAATAGGTATAAAGCTGTTAATTGAGATACAAATGCTTTTGTAGATGCTACTCCTATTTCTGGACCAGCATTTGTGTAAATCGTTCCATCTGATTCTCTTGTAATAGTACTACCAACTACATTTATAATCCCAATAACTTTAGCTCCTTTTTTCTTAGCTTCACGAAGCCCAGCTAAAGTGTCTGCAGTTTCTCCTGATTGACTAATTACAATTACAAGATTTTTTTCGCTTAAAATAGGATCTTTATATCTAAATTCAGATGCTACATCAACTTCAGTGGGTATTCTCAAATTTTGTTCTATTAAATATTTTCCAACTAATCCTGCATGATATGAAGTACCACAGGCCACAATGTTTATCTTTTCAATTTTTTCTAAATCTTCTTTAGTAAGATTAATTCCATCCAGTTTCACACTGCTATCCGTTATTTTACCTCTTAATGTATCTTCTACAACTCTAGGTTGCTCATATATCTCTTTTAACATAAAGTGATCATATCCATTTTTTTCAGCCATTTCAATAGACCAATCAATTTCTGTAATCTCTTTTATTTTTTCATTTCCTTTTAAATCTGTAATAACTACTTTTTCTTTTGTTAAAATAGCTAATTCACCATCATCCAAAAATATAACTTTTTTCGTATGTTCTAGTACTGCTGGAATATCAGAAGCTATCATATTTTCATTTTCACCAAGTCCAATTACTAGTGGTGACCCTTTTCTAGCTGCAATTATTTTATCTTGTTCTCTCAATGAAATAACTCCAAGAGCATATGCTCCTTCTAAATATTTAACAGCTTTTTTTACTGCTCCAAATAGATCTCCAGTATAATACTCTTCAATAAGATGAACAATTACCTCTGTGTCTGTTTCAGATACAAATTTATGTCCTTTTTTTATAAGCTCATCTTTTAATTCTCTATAGTTTTCTATAATACCGTTATGCACAAGAGCTAACTCTTTATTACAATCCAAATGAGGATGAGCATTTAAAACTGTAGGTTTCCCATGAGTTGCCCATCTAGTATGACCAATTCCAATATTTCCTTGTATATATTTTTTATTTAATATTTCTCCTAAAGAATCTAATTTCCCAATAGCTTTATTTAATTCTATTTTATTATCTTCTATAATAGCTATCCCTGCCGAATCATATCCTCTATATTCAAGTTTAGCCAATCCATTATATAGGATTGTTTTGGGTGCTTTATCTCCTATATATCCTACTATTCCACACATAAAATTTTTTCTCCTCTCAAAATTAATTAAATTTGAATATTACTTATAAATAATGTTTATATTTAATTTGTAAAAAGCTCAAGATTATTTTATAAAAATTATTAAATATTATTTAATGCACTTTATATTTCAATTTTTCTATCTCATCAACTGATAATCCTGTTGAAGTTGAAATTATTTTTATATCTATTCCATTTTTTAATAATTCTATTGCTATTTCTACTTTTTCTCTATTTTTCCCTTGCTCTATTCCTCGCTCGATTCCTTGTTCGATTCCTTGTTCGATTCCTTGTTCGATTCCTTGCTCTATTCCAACTTGATATATATTTGTCATTTCCATCGTTATACCCATTTGTTCTTCACCTCCAGTTAGCCTTTTTACCTCATCTTCATATTCTAATTCCAATTCTTTTGGTAAATACAATAGACTATCTAAAAATTTAAATATTTTCTCTATTTTTTCTCTTTTATATCCTTTTTTCAATAATAATTTAGTTAATTGATATTTGAATTTTAATCTATCTAATTCTTTACCTTCACTTTTTATTGTATATAATCCTGCTAATACTACCATTGCAAATGGATTATTACTTTTTATCAATTCTTCTTCTCTTTGTTTTAATATTTTATAAGATATATATTCATACCTTAATTTTGTTCTATAAAATTCATATTCAAATATATTTGGTTCATAATCTTTTCTACTATCTGTAAATATTGATAATGCTACTATCTTTTTATTATATTTATCATATATTCTATAAAAATATTTGAACATTCTTTCACTAAACTCTTTTTCGTAATATCCTTGTATTTCTACATGAATTAATATCCAATTTTCCTCTCCTGTTTTCATATAAACTTTTACAATTCTATCTGCATATCTTTGCTCTTTTCTTGTCTTTTGAAATATACCTGACACCTCTTTATCCAAAAATTCATAGCCTCTTTCAAAATCTATATTGGGATACAGATCTGTCATAAAAAAACTTACAAATTCTTCAAATAAATCTTCTATTATCTCTTTCCATAATATATCTGGCATATATTTTTTCATATAATTCTCCTTTTAAGAACGTTTAAAACTAAATTTTTAAGTATATATATCACTAAAATTAAATATACTACTCAAAAATTATCCTTTTTCCTTAATGTACTTTATATTTCAATTTTTCTATCTCATCAACTGATAATCCTGTTGAAGTTGAAATTATTTTTATATCTATTCCATTTTTTAATAATTCTATTGCTATTTCTACTTTTTCTCTATTTTTCCCTTGCTCTATCCCTTGCTCTATTCCTCGCTCTATTCCTTGTTCGATTCCTTGCTCTATTCCAACTTGATATATATTTGTCATTTCCATTGTTATACCCATTTGTTCTTCACCTCCAGTTAGCCTTTTCACCTCATCTTCATATTCTAATTCCAATTCTTTTGGTAAATACAATAGACTATCTAAAAATTTAAATATTTTCTCTATTTTTTCTCTTTTATATCCTTTTTTCAATAATAATTTAGTTAATTGATATTTGAATTTTAATCTATCTAATTCTTTACCTTCACTTTTTATTGTATATAATCCTGCTAATACTACCATTGCAAATGGATTATTACTTTTTATCAATTCTTCTTCTCTTTGTTTTAATATTTTATAAGATATATATTCATACCTTAATTTTGTTCTATAAAATTCATATTCAAATATATTTGGTTCATAACCTTTTCTACTATCTGTAAATATTGATAATGCTACTATCTTTTTATTATATTTATCATATATTCTATAAAAATATTTGAACATTCTTTCACTAAACTCTTTTTCATAATATCCTTGTATTTCTATATGAATTAATATCCAATTTTCCTCTCCGGTTTTCATATAAACTTTCACTATTCTATCTGCATATCTTTGCTCTTTTCTTGTCTTTTGAAATATACCTGACACCTCTTTATCCAAAAATTCATAGCCTCTTTCAAAATCTATATTGGGATACAGATCTGTCATAAAAAAACTTACAAATTCTTCAAATAAATCTTCTATTATCTCTTTCCATAATATATCTGGCATATATTTTTTCATATAATTCTCCTTTTAGGAATATCTAAAAATAAATTTTCTCTATTTAGGTACAATAAAAAAATAAATTCGTCAAAATTGTTTGAGAAAATCTGTAGATTTATTCATATTTTTCAAACAAATGACTCATTAATTTTTTTAAAGTCCCTTAATCTCTAGAATTACCAAATATTCTAAGTATATATATAAACAAATTAATAAAATCTAAATATAATTGTAAAGCTCCGAAAATTGATGCTTTTTCTAATGCTTGTTCATCTCCATTTGCCATTTCAATTACCATATATTTTATTCTATTTACATCAAAACCAATTAAAGCAGTAAAGATAATCACACCCATATAACTAATAATCCAGTATAACATTGAAAGATGTAAAAATATATTAACAACTGATGTAATTATTAAAATTATAATTCCTGCATAAAGCATTGGACCAAATTTTGTTAAATCTTCTTTAGTAAAATATCCATAAGCTGCCATTACTCCAAAAATAATAGTAGTAAGAGCTAATGAAAAAATGACTGATGCTGGTGTAAAAAACATAACAAATATAGAAAATGTAAATCCATTTAATACTGCATACAGAAAAAACAATCCTTTTGCAGTTGTTGCTGACACCTTATTTATAAGAAATGATAAACCCATAACTACTGCAAATTCTAATACTATAATCACTATATAACTACTCATTACAATTGAAGTTAAACTTGGTGATGTCATTACTGCATATGCTGTCCCTGCAGTAACTAATAAAGCCATAAACATCCAACTGAAAATTCTGCTTACTAATTTTGATACAACAGTTTCATCCATATAACTATAATTTTGATTTACTTTAAACATAACTATCCCCTCCATATTTTTACAATTAAAATCCAAAAGCTTGTTTCTAAAAAAAATTATTTTTTTAATTTTTCATAAAATAAATTAATCTTATCATCACTAAATCCAAGTTCTTTAGACAAATACTCATATCCATCTTTATTAAACTTTTGTTCTAGACTATTAATTTTTATTTTATATAAATTTTCTAAAGAATATTTTAATAATTTTATATTTCTATATTCTCCCATTCCTACATCGTTTGTTTTGTCATAATCAGAAGATATTTCGCCCCAATCAGCTCCCATAAAAGATTCTATAACCGCTGTTACAACTCCGGTTCTATCACTTCCCAATCTACAATGTATTAAAAATGGTGGTTCTTTTTCTATTATAAAATTTACAACTTTTTTCATTAATTCTTTAAAATTCTCTGTATCAGAACCATAATATACGATACTATATTTTGTCTTTGCAAGTAACACATTTTTTTCATCTAAAATAGTTTTATAAAATTTGGTAATTCTTGGATCGTTAGATATCTCTTCTCCATCAGTTAAATTTATAATTGATTTTATTTGGTTTTTTTTCATTAATTCCTGAACCTTTTCCATTCTCAACTGTTCTTGTTTTGATTTTTTTGGATCTGTTTTTCTAGATGGAATAAAAGGGTGATAACTTCTATATAATGTTTTTTCTTTAATATTTCCAGTTGAAACTTCTCTAAAATTTGCTTGTTCATAATCTGAAATATATTTTGATTTTATTATTCTGCTAATTTTATCATTTTTTGCTATTACATCTTTATTATCTCCATCAAATAAAATAACATAATTGTACATATCTGCCCATTGATCATTAAATTTATAGCCTACTTCTAATTTATCAGATGGTTTTACCCAAGCTTCAGTAGGTCTGCTTCTTCCTTTTCTTTGATAAGTACCTTCTAAATAGAATGCAAATTCAGGTTGCCCAGAATTTCCAGGAATTGCTATATCAGTAATTTTTTTCTTCAAAAACCAAACATTATTTTTTGTAGATTTACTCATTTCCCACTTATCATTTGGTTTCCAATTATTAAAGCTTCCTGCTAAACTCACTGTAGATATTGTTGTATCTTTTTTTAATGATTTCTCTAAATTTTCTTTATTTGCAGACATATCAAAAACAAAAACTACATTCGATTTATCGAAAAAATATCCTTTTAACTTTGTTGAATTATCCAATTTCATCTTGTCATATTTGCTATAACTATTTCCCTTGATATTTTTCTTAACCTCATTTTTTAAACTTTTTTTAGAAATTCCAGTACAACCCAGCAGTAGAAATAAAACAGTAAATAAAACTATACTTTTTTTCATTTTCCACCTCACATTTTTTGTTTTTAATAATTTAATCGTTTAACTAGAAAAACTATTTCTTGTAATTTAGGCAGGTACAGACCAATGTCGTCAAGATAAGAATTTTATAAAATCTCTACTCCTTCCTTGTTGTCGTTTTCTCTTATCTATGAGAAAACTATTGCATGGATATTTGGCTTTTTTGCATTCACTCTAATCTCTCCCTGTAAGGGCAATTCATGAATTGCCCCTACATAAATTTTAATTTTTTCATAGCACTATTTCTCAAATTTTATTTTACTTTCTTCTACAATACTTTCTATAAATTCTGTTAATTTATGTCCTGTACTCTCTTTACTTCCAAATCTTCTAACATTTACCTCTTCTACTTCCATCTCATTTTTACCTAAAATAAGTTGAACTGGTATTTTTTTCATATTAGCTTCTCTAATTTTAAATCCTATTTTTTCATTTCTATTGTCTAATTCAACTCTTATATCTTTTTCTTTTAATAAATTTACTACTTTTTTTGCGTATTCTAATTGTTCATCAGATATAGTTAATACCTTTACTTGTACTGGTGCTAACCATAATGGAAATGCTCCTGCATAATGTTCTATTAGTATTCCTATAAATCTTTCTAAACTTCCATATATAACTCTATGAATCATAACAGGTCTATGTTTTTCTCCATCTACACCAATATAATTCAAATCAAATCTTTCAGGTAAATTAAAATCCAATTGAATAGTTCCACATTGCCATGTTCTTCCTATGCAATCCTTTATTTTAAAATCAAGTTTTGGACCATAAAAAGCTCCATCTCCTTCATTTATTTTATAATCCATCCCTTTTCTTTCAATAGCTCCTCTTAATGCGTTTGTTGCAGTTTCCCATATTTCATCAGCACCTATTGCTTTTTCTGGCTTAGTAGAAAGTTCTACTTCATATTCAAAACCAAATAATTTAGAATAAAATTTGTCAATTAGATCAATTACTCCAACAATTTCATCTTCTATTTGCTCTTCTGTCATAAATATATGGGCATCATCTTGTGTAAATGCTCTTACTCTCATTAATCCATGTAAAACACCACTTAATTCATGTCTATGTACTAATCCTAACTCTCCAGTTCTTAAAGGAAAATCTCTATATGAATGTACATTGTTTTTATAAACTAAAATTCCACCTGGACAATTCATAGGTTTTATAGCTACATCTTCATCATCAATTTTTGTTGTATACATATTTTCTTTATAATTAAACCAATGCCCTGAAGTTTCCCATAAAGTTCTATTTAACATAATTGGAGTTTTTATCTCTTGATAACCTGCTTTTTTATGTTCTTTTCTCCATAAATCTTCTAAGATATTTCTTATTTCCATCCCTTTTGGTAAAAAGAAAGGGAATCCAGCTCCATATTCACTCATCATGAATAGTTCTAATTCTTTTCCTAATTTTCTATGATCTCTTTTTTCAGCTTCTTCTAAAAATCTTAAGAACTTTTTCAATTCTTTATCTGTTGTGAATGCATATCCATATATTCTTTGTAACATTTTATTATCAGAATTTCCACGCCAATATGCTCCTGCAACGCTTTTTAATTTAAATGAACCTAAATACCCAGTTGAAGGCACATGAGGGCCTCTACATAGATCTAAAAATTCTCCTTGTTTATATAAACTAAAGCTATCTCCACCTAAATCATTAATAAGTTCTACTTTATATGTTTCTTCTTTTTCTGTAAAAATTCTTATTGCTTCTTCTTTACTCACAACAGTTCTTTCAAATTTATGATTTTCTTTTATTATCTTTCTCATTTCATCTTCTATTTTCAATAAATCTTCTTCATTAAATTTATGTTCTGAATCAAAATCATAATAAAATCCATTTTCTATTGCTGGTCCTATTGTAACTTTTACATTAGGAAATAATCTAATTACAGCTTGTGCCATTAAATGTGCAGTACTATGTCTAATTATTTCAACAGCTTCTTCACTTCTTGGAGTTATAATTTCTACTTCACTATTTTCACTTATAATTTCACTTAAATCAACTGCTTTTCCATTAATTTTACCTGCTATGGCATCTTTTGCTAATCTTTTCCCTATTGATTCTGCAACCTCTTTTACCGAAACCTCTTTTTCAAATTCTTTAATACTTCCATCTGGTAATTTTATCTCAATCATTTTTATCTCTCCTTTCAATATTTAAAAATTTAATTTTATAATTTACTCCTGGTCCATAATTTCCATATTCTCCATTTGACTTAATAACTCTATGACAAGGGAAAATTAATATAATTGGATTTTTCGCCATTACATTTCCTACAAACCTTGAGCCGTTTTTAAATCCAGCTTTTTCTGCTAATTCTTTATAAGATAATATTTTTCCATAACTAATTTTTCTACAATTTTCCAAAACTATTTTTTCTTTTTCTGTTAAATTTAATTGATACTCACCACTATATTCTATTTCACATCCACTTAAATATCCAACTAAATAATCATATAATTTTAATGGTGGATTGCTTTCTTTTATGTTTTGAGGGATATTTTCAATTATATTCAAATTAATAAGCTTATCTGAAAAATAATTTGCATAAAATTTTATATCATCTATCTCAAAATAAAATTCTTTATATTCCAAATCCAAATCCTTTCTTATTAGCTTCTTTTTTATACTCTAAATTTTTATCAGGAAATGCTAATATCCAAAATTTCAAGCTAATTACTGTATCAAATTTATTTTTAGAATCATTCCATGTTTCATCATAGCCTAATTTAAATTCAGTACAATGTATTTTATGGTCTAATGTATATGATACTTTGGTTAATTGATTTTTTAAATCATTATATTCTCTAGAATAACCTATCCACCACTCATAATCTTTTGGCCCAAGTCTAAATTTTATACTTTGTGCTTGAGTTTTCGCACTATAATCTAATCCACCTGCTGTTCTTGTCCAGTTATATTTATACCCCAATGTTAATAAAGAGCCATATGCAAAATCTGTTGTAACAGAAAAAGTCTTTAAGCTTTTTAAATAATCTGCTTTCTTTTTATAATAGTTTCTATCACTTACTGCAGATAAAGTTAATGAATAACTTTTTTTATTATTCTCTTTATCATCTTTTTTAGTTTCATCTCCAATTCCTGTCAATGTAAATAGATCTTTTATTTTTTCATCTTCTGTTAAAATATCATCAATTTTTTGTTCTTCTTCAGGAAAAAGAGTAAATTCACTATTTGTCGTTTCATCTTTTACTTCTTTTATTTTTTGTTGTTTTTTAGCTTTATCATCTTTTTTCTTTGCTTCTGTAAAAGTTAATTTTGCAGTTAAATTTGAATCATCTAGTTTTTCTGATTCTTTCTTTGAATTATCTTCTCCATCATTATAAGTAATTTTCAAATATTTATCAAATTTCTCACCTTTAAAATTAAATAGCAATGAATAATCCTTTTTTATCGTTTCTGATGAAATCTTATATTTCCCAGTTTTAACAGAATTACCCGCAGAATCTTTACTTTCAATTTCTTTTCTAGCTTTATTTTTTAAAATTTGATAACTTAATCCAATGTTTTTTGTTGTATATTTTATTTTAAAATTATTGTTTAATGATAATTCTAACTCTTGTCCCAATTTTTTATTAAAGTTTTTTGTATTAGAATTTGAATACTCTATTTTATTATCTCCACTTACAAAAGTTAAACCTAAAGAATTACCTTTTTTAGTTATAAAAGCTGAATCATCATAACTGTTATTTTTATCAAATTTCAAATTAATATAATCTTTATCAATTTTAGTTTGAAAAAAATTAGAAGTACTATCTGTTTTTTTCCAATTATCTTTCCCATCAAAACTTTCTTTTACTCCATATGTATAATTTGAAACTATGTTTCCTAATGTTAATGTTAAAATATTGCCATACTCTTTTCGAGTATCTGGAAACATCATGGTGACTGGTACCTCTCCCACAGAAAAAACATAAACTAAAGGAATTGAATTTTTTATTTTCAAATCAAAATTTCTATCTCTCTCCTTCAAATTATTATAAAGTGGCGTATCTATTGTTAATTTATTTTCATGTGTCATAAGCATTTCTTTTGTTACATACCAATTTCTAGATTGATGATATAAAAAATTCCCTTTACTTCCCAACAAAAACAGTGGCAATGAACTATTCCCAAAAGAAAATCCGCCTCCTTTAGAATTTTCTTTTTTATTATTCTTAGATGGAGTAGGATCCAAAATTTTATTTTTTTCATCTAGATATTTTATTTGATGCTCCTCTGAATCTTTTCTGTGAAAATCCAATCCATAAAAAAACTTTGTTTTTAAAATATAATAATTACCTAATTTTAATTTATAAGTTTCATTTTTATTCAGATCATAATCAATTACAGTAACATTTGGATCATAACTTGATTCTTTCCAATTATCTTGATTTTTATAACTATATCCTACAGTTATTTTTTGCTTTTTTATATTTAAATTTGTAGAGTAATTATCTTTGAATGAATATTTATCTCCTTTTTTACCTGGATTTAAATCTTTTGTATTATCATAATTTAAACTTAATTTATATATAGAATTATTTTTTGAAAAAGTCCCTCTTTTGTATATTTCTACTTTTACTTCATCTCCTGTATTAGGATTATTATTCTGATTTTGATTTATTATATCTTTTAAAATTTGTGCGTCAGTATACATTACATCTAAAGTTAAATTCATATCTTTTCCAAACTTTTGAGCAGACTTAATTTGATATTTTTTCATAGAACTAGTTTTTTTTGTATAGTTTATTTCATTTCCTTTATTATCTCTTAATAAATTTGTTGATTTATTTTCATAAAATATATCCCAATTTCCTTTTTTAAAAAATTTTTTTGGATTATCATTTGTTACCGCTTTATGTGTCCATATAAAATCCCATTCTTTTTCCATCCCTTTTTTAGGAATCAAAAACCTTTTTAAATGTAAATTTCCACTATTATTTTTTTGAATTTCATAATCATTTGACCATTCTACTGCCCAACCTTTTTTTTCACTCAATTCCATATCTACAAATCCTGATAAATATTTTTTATTCAATTCATAATCAATACCCCAAATAATATATTTACCTTTATCATCACTACTTCCTATTCTTGGAAATAAAGATGCTCTTTTAGTTCCTTTTTTTAATGAAGATACATAATATGGAAGCCACATTACAGGAACTTTTCCAATGTAAATAGCTGCATTATATGCTACTATTTTTCTTCCAGGATAAAATATTATTTTCTTTGCTTCTAAATGATAATGTGGATTTTTTAAATTACAAGTTGTAAAGTAACTATCTTTTACAAAAGCTTTATCTGGAAAATGAGCTTCAAAATCTTTCCCACCATAATATACTTTATCCATAAAAGATTTACCGTTAATTATTTTAGCTACCTTTGTATCTAAATTAACTTCTAGACTATCTGCTTCAACTTTATTTTTTCCTTGTACAAAAATAACTTTATCATAAGCAAGTAAAATGTTTTTATTTTTTATTTTTTTTATTCTCATAGCCTGTATTTTCATATCTTTATATTTAACCTGAATTCCATTATCTGCCCAAAATTCCTCTTTTTCAAAGTCAAATTTTGGATTGCCAGATACTCCCTCTATAAAAAATTTTGATTCAGCTAAAATTGATATTGAAAATATAAAATATATAAAAATAAATAGTTGTAGTTTATTTGTTTTTAAGTTCATTGTCATAACCCCATTACATTTATTTTTTTAAATTCTTTGAAATATTATATCATAATTCTTTTGTTTATAAAAGAAAAAAATAGAGGTTACCCTCTATTTTTATAAATGACTTTCTATTTTTATTTTTAATGTTTCTTTTGGCATTGCTCCAACTGATTTATCAATTATTTTTCCACCTTTAAAAAACAGTAAAGTAGGAATACTTCTAATTCCAAATTCAGCTGCAATTTCTCCAACTTCATCTACATTTAATTTTGAAATTTTAACATTTTCTAGTTCTTCTGAAAGCTCTTCTAATATTGGAGCTACCATTCTACAAGGCATACACCACTCTGCCCAAAAGTCAACTATAACCAATTTTTCTGAATCCAATACCTCAGATTTAAAATTACTGTTATTAAGATATACAATTTTATTCATAACTTCTCCCTCCTCATATTAATATATTAGAATATTAACATATATGACTAAAGTTGTCAAGTACTTATTTTTAAGCCATTTCTAAATAATTATTCAACTACTCTTAATCTAAAAATTCGACATCTACGTTTAATTTATCTTTTACAGCTGCTGCTTGAACTACTCCTCTTATTGCACTTGCAGTAATCCCATTTTTACCAATTGTTTTACCTAATTCGCCATCTCCAACTCTTAATTTTAGTATTATATTTTTACCTTTTTTTATTGATTTTATTTTTATACTGTCTGTATCTTCTACCAATTCACTTACTATAAAATATAATAATTTTTCTAATTTTTCCATTATCTTTCCTCCCTCAATTTTCCATATAACTCTTTATCGACTCTAATAGGTTTCCCTTCTTTATTAGTAAATATACTAATTGAACTTGCTTCTCCAAATTTTAATTTCATATCTCTATCCCAAAATTCATATTTAAATTCTATTATTAACCTTGTGAATTTCTCAATTGAAATACATATCATAACTTCTTCATCATATTCTACTGGATTTATATATTTAACATTTAATTCTTTAACTGGAAGTAAATAACCCATTTCTTCGATTTCTTTATATGAAATTCCTTTTACTCTTATAAATTCTGTTCTAGCTTCTTCCATCCATTTCAAGAAATTTGAATGATATACTCGTCCCATCTTATCAGTTTCATAATAATATACCCTATGACTTATCTTAACCATTTTTTCTTGCACCGCATATTAATTCTTTCATCTCTTTTATCGCATTTGGCAAACCTTCTACAATAGAACGTGCAATTATAGAATGCCCTATATTTAATTCTTCTATTTCTGCTATTTCTGCTATTTCTTGTACATTTTCATAATCAAGCCCGTGTCCTGCATTTACTGATAAACCTAAAGCTTTTGCCGATTTCACAGCTTCTATTATTTTTTCTAATTCTTCTTTTTTTTCTTTTTCATTTTTAGCTTCAGAATATTTTCCAGTATGAATTTCTATAAATTCAGCTCCTGTTGCTTTTGCAATTTTCATTATTTCAGGTTTTGGATCTATAAACAGACTAACTATTATACCTCTTTCTTGTAATTTTTTTACAGTATATATAGTTTTTTCATTTACTTTTTCATCAAGTATATTTAATCCACCCTCTGTTGTAAGTTCTTGCCTTTTTTCTGGAACTAATGTAGCCATATCAGGTTTTACTTGTAATGCTACATTTAAGACATCCTCATTTGTAGCCATTTCTAAATTTAATCTGGTTGTAATAACTTCTCTTAATAATTTTACATCATTTGTTTGGATATGTCTTCTGTCTTCTCTTAAATGAACTGTAATTCCATTTGCTCCTGCAAGCTCGGCTAAAACAGCAGCTTTTATCAAATTAGGTTCTTTTGCTAATCTAACCTGTCTTAAAGTTGCTACATGATCAATATTTACACCTAATTTTATCATAATTCTCCCTCCCAATTCCTTTCATCTATAATTTCCAATTCTACATCATATTTATATAAACCATTTAAAATATTTCTTATATCATCTTCATAATAATCAAGAGTAATTATTTTTATTAATCCATTTTTAGGATCTAAAGTTCTTACAATTCCCATTCCTTCATATGCTTCTATTGTTTTATTAATAAAATCTATATTTTTTTTATCTGTCTTAATATAAAATTCCAAACTATTCATTTGATGTCCTTTCTAAAATTTGAATAAGTTCTATAAACTCGTCTATTGAAAATGCTTCTGCTCTTTTATTTGGAGAGATATCATTTTTTTCAAGAAGAACTTTTAAACTATTTTTTTCAAATCCTAAACTACACAAATTATTAACTATATTTTTTCTTTTATTCGCAAAAGATGCTTTTACATATTTAAAAAAAGTTTTTTCATTTACTAATTTTTCATACTTATTTTTTTTATCTATGCTTATTTTTATAAATGCAGAATCAACTTTTGGCGATGGGAAAAATGCTTCTTTTGGAATATAAAAAAGCAATTCTGCCTCTCCAAAATATTCAACCGATAAAGTAAGCACACTTCTTTTCTTCGAAGACTTAGCTGTTATCCTTTCTGCAACCTCTTTTTGTATCATAATATATATATCTTCTACAAACTCTCTATTTACAATTAACTTTTGTATAATTGGAGATGTAATATAATATGGTATATTTGCAACAACTTTTACTTTTTCATTTATTTCTTCTTTAAAATCTAATTGTAATACATCTTTCATAATTAATCTGAAAGACGAATTTTCGCTATACTTTTCTAATAATATTTTCTCTAAATCTCTATCGACTTCTATACAAGTTACTTTTTTTGCATTCTCTAATAAAAGTTCTGTTAATGCACCTTCTCCTGGTCCTATTTCTAAGACAGAATCTTCTTTTGAAATATCAGATACTGCTATTATTCTATTTAAAATAGCTTTATCTTGTAAAAAATTTTGTCCAAATTGTTTTTTATGTTTAAACTGTTTCTGCATATTTATTAATCCTCTCTAAATCTTGTAAAAAAGTTTTTTATAATTTTTTTCTTTTTCAAATCGTTCCCAAACTCTTCTGCTTCTGCTCTTGTTTTAAATTTATTCCCAATAAGAAGCTTATATGAATATTTGCTTTTTCCATCTTTTATATAAAAAGCTTCATAACCAGATTTTTTTAATTTGTCTATCTCTTTTTCTACTGCTTTTAAATTTTTAGATGCTAATATTTGAATAACATAATATTTTTTCATAACTTGAATATTTGCTTTTTGATCTACTACATTGTTTTCTGAATTACTTTGAACTATATTTTTACTATTTTTCGATTCATCTAATCTTAAATTATTTTTTTCATTTTTAATTTTTTCATTTTTAATCTGATTTTCTTTTTTATTATTTTCAAATTTTATATTTGTATATACTACTTCATCTAAAAGGTTATTATTCATAGAAATTCCACTCTGTTTCCCACCATTTATAATAAATAAAAGAAATATAAATATTATTATTATTGAAATAAGCATCGAAACTATTGTTATTTTTCTCTCATCTATTGGTTCTCTTCTTCTTTTACCTCTCTTTTGTTTGGATTCATTCAAAATTGATTTTTTATAGTCAGCTTCTATTTTATCAAAATCTATGTTTTCCATCTATTTCACCTCTTTTACTATTCCAATGTATGGCAAATTTCTATGTTTTTGTGCATAATCTATTCCATATCCCACCACAAATCCATCTTCAAATTCAAATCCAATGTAATCTGGCGAAATATCTGCTTCCCTTCTTCCTGTTTTATTTAATAAAACAGATAATTTTAAAGAATTTGGAGAACGACTTTCCAAAATTCCCATAACTTTTTTTAATGTTAATCCAGAATCTAAAATATCTTCCACAATTAAAACGTCTTTTCCCATTATATTTTCATCTAAATCTTTTATAATTTTAACTTCTCTAGTACTTTCCATCTCGTTTCCATAACTTGATACAGTCATAAAATCTATAGATACAGGCAAATCCAACTCTCTTACTAAATCAGATAAAAAAATCACCGAACCTCTTAATAAACCAATAACAACTAACTCTTTTGTATTTTTATACTCATCTGTAATTATTTTACCTAACTTTTTAACTTTTTCTGCTATTTCATCTTTTGATATAAAAACTTCTATTTCATAATTATTCATTTACATCCTCCTTCATTACTCCTACATATGGAAGGTTCCTATATTCTTGTAAATAATCCAAACCATATCCCAATACAAATTCATCTGGAATATCAAATCCAATATAATCTGCTTTAATATTAACTTCTCTTCTTGCACTTTTATTTAATAAAGTACATAACTTTATTGAATTTGGATTTCTATTTTTAAGAATCTCCATAATCTTTGACAATGTAAGACCTGAGTCAATAATATCTTCTACAATTAGAATATCTTTTCCCATTACATTTTCATCTAAATCTTTTAATATTTTCACTTCTCTAGTAGTTTCGAATTGATTTCCATAACTTGACACAGTCATAAAATCTATTTTTAATGGTAGTTTTATTTCTCTCATTAAATCTGCCATAAATAAAATAGAACCTCTTAGAAGTCCCACAACAATCAATCCTTTTGTTTCTTTGAAATCTTTTGTAATAATTTTTCCCAATTCTTTTACTCTTTTTTGAATCTCTTCTTCTGAAACAAGCACCTTTTTTATATTTGATTCTATCATCAAATCCTCCTATCTTGAAATTATATAATATATACTATTTATATATATCTTTTTTATTTAACACATTATAGCAAATCCTTGATATTTTTACAACTATATGATATTATTATTATAAATTAAAATTAATTAAATTATTTTCAAATTGGAGGAATTTTGTGAAAAAAGCTATCTATTTATTAACATTATTAATATCTATTTCTATTTTTTTATTTTTGGGATCTCGTATATTTGTAAAACTTTTTTTTAATGAATATTATGTAATTACTCCATCATTTATTGGTATGAAATATGATGATGCTTTCACACTTTCAAAAAAGATGAGTTTAAATTTAGTTGTATTAGAAAAAGAATTTTCAAAATATAATAAAGATGTAATATTTGACCAAATACCTAAAATGAATACAAAAGTGAAAAAAAATAGAGCTATTAAAATTTGGGTTAGTAAAGGTAAAATTGAAAGAAAAGTTCCAAATTTATTTAGAAACGATTTAGCAGAAGTAAAATCACTTTTAATAAAAAATGGAATTGAAATTGAAAATGTAAGTTATACACATAGTTCATTACCTTTTAATAGTATTATTGCATGCGATCCAGCTTATGGTACTATTTTAAAAGCTAATCAAAAAATATCACTTTTAATTAGTTTAAGTCAAAACACAAAAAATGTTTATATGCCTGATATAATTGGGATTAATTTCGAATCTGCTAAAAAAATATTAGAAAAGAGTAATCTTATAATTGGTAAAACAGAATTTATAAATGACGATTTTGTTGACAATAATATCATTTTAGACTCATCACCTAGAGCAGGAGAAAAATTGCACCCAGGAAGTGTAGTCAATTTAACAATAAATCAAAAATAAAAAGGAGGCGATATAAATTCAAGGAATTGTTATTAGTAAAATAAAAGGCTTTTATTTTATTGATCATAATAATGAAACATATGAATGTAAGTTACGTGGCTATTTAAAAAAAACTAGAAATAAATTAAATTGTGTTGTTGGCGATCTTGTAGAATTTTCTATTGAGGATAAGGTAATAACAAAAATTATTCCCAGAACAAATTTATTATTACGTCCTTTAGTTGCAAATATAGATAGAATTTTTATTACCTTTGCCGCTAAAAATCCAAACATAGATTTTAATATGCTTAACCTACTTCTATTAGATTCATTTTATCATAATATAGAACCTATTGTTGTAATCAACAAAATTGATCTACTAGATGATATAGAGTTACATGAGCTAAAAAGCAAATTATCATTTTTAGATTTAATAAATATAAATTATTTGCTAGTTTCTTTAGAAAAAAATATAAATTTAGAAAGATTAAAAAAATTATTTGAAAATGGAATTTCAGCATTTGGCGGTCCTTCCGGTGTAGGTAAATCTTCTATTATTAATATTTTACAAAACAGAGTTAATCTAGAAATAGGAGAATTAAGCAATAAATTAAAACGGGGTAAACATACTACAAAAGGTGCTACATTATTAAAATTAAATAATAATAATGGATACATCATTGATACCCCTGGTTTTTCATCTATGGAGCTACCCAAAATTAAAGATTTAGAAGATTTGAAAAGATTATTTCCAGAGATTGAAAAATATGATTCTTCTTGTCGTTTTAATGATTGCATCCATATACATGAACCTGATTGTGCTGTAAAAGAAAATGTTCTTAATGGTAATATTTCAGCTACAAGATATGAATTTTATAAAAAAGTTTATTTAGAATTAAAAACAGAAAGGTGGAATAAATATGATTAAAATAGCTCCTTCAATTTTATCAGCTGATTTCAGTAAACTAGGAGAAGAGGTAATTCAAATTTCAAAGGCTGGTGCAGATTATATACATATTGATGTTATGGATGGAAATTTTGTTCCTAATATCACATTTGGACCTGCAGTAATAAAATCAATAAGAGATAAGAGTGATAAGATATTTGACGTCCATTTAATGATTGATGCTCCAGAAAGATATTTACAAAATTTTTATGATGCTGGTGCAGATATAATTACCGTACATGTTGAAGCAACTAAACATTTACATAGAACAATTCAAATGATAAAAAGTCTTGGAATTAAAGCTGGTGTTTCTATAAATCCTGCTACTCCAGTAGAAATGATAAAATATGTATTAAGTGAAATAGATATGGTCCTTGTAATGAGTGTTAATCCTGGATTTGGCGGACAAAAATTTATTAACTCTTCATTAGAAAAAATCAAAGAGATAAGAACTTTATCTAAAACTATTGATATCCAAGTAGATGGAGGCATAAATAAAGATACTATTAAGCAATGTATCTCAGCAGGAGCAAATATATTTGTGGCAGGATCATATATTTTTTCTGGTGATTATAAAGAAAGAATAAATAGCTTAAAAGAGGTGTAATATGAAAACTAAAATTGTAAATGAACTCTTAGAAGAATTTTATAAAGTATTTTATGAAATTGAAGAATTAAGCTTAAAACAAGGGATAAAAACTTTAACAACTACAGAACTTCACATTATAGAGGCGATTGGAACAAATTCATTAACCATGAATCAATTATCCGATAAACTTGGAATAACAATGGGAACAGCTACTGTAGCTATTAATAAATTATTAAAAAAAGAATTTATTAATAGAAATAGATGTGAACATGATAGAAGAAAAGTATATGTATCTTTAACTAAAACAGGTATAGATGCATTAAAATATCACCAAAATTTTCATAAAATTATTATATCTAACATTACAAAAGAATTAAGTTCAGAAGAACTTGAAAATTTTATTAATAGCTTTAATAAAATTTTAGGGAATTTAAAAAAACAATTTGAAAATATAAAACCAGATTCAATAGATAATTTTGATATTAACTCTGATTTAATAATTAGCGACGTAAAAGGAAGCTCTGCTCTAAAAACTTTTTTTAAAGAAAAAAATATTTCTGCTGGAAATAATTTGAAAATTTTAAACAAAACAGATAAAAGTATTGAATTGTTGATAAATAATGATAATAAAATGACGTTAGATATTTTAGACTCAAAAAATATCTTTGCAATAAATAATCAATTTAAAAAAATATAACAGGATATAATTTGATTTATAAAATACAGAATCTATTTTTTTCTGTTAAAAAAAATTAAGAAAGGGTCAATATGGAAGTTGACCCTTTTAGTTTATAATCTGTTTTTTTATTTTTTATAATTTATATAAAATTTCTTTATTTTTTCTAATCTCATTTCTGATAAAATCATTGCAGAAACAATAAAACTTCCTCCTATAATTCCACTTATTTTAAAAGTTTCTCCTCCTAATGTCCAAGAAAAAATAGCAGCAAAAACTGGCTCTAAAGAAAAAATAACAGCTACTTTTAAAGAACTTGTAAATTTTTGTGCTTCTAATTGCACTACAAATGCTGTTATGGTCGGAAAAATAGCTAAAAATAAAATTACATTTATTGATGACCTAGATAATCCTGACAACGGATATTTTGCAAATAATGAAAAAATAATGCTAAATATTCCTACAAAAAAAAATTGTTGAAAATTTAATAAATAAGGGTTATTTTTCTTTTTCATTATTTTACCAGCAAATAAAAGGTGTAAAGAATATGCTACTGCTGCTCCTAACGTAAATATATCTCCAATATTAATTTCTTTTAGCCCACCAGTTAATATCCATAATCCAATTGTAGCCAATATAACTGAAATTAATTTCATAAATGATGGAAACTCTTTAAAAATTAAATATGAAAATAACGGAACAAAAACTATAAATAATCCTGTGATAAAACCTGAGTTGGAAGCTGTTGTATATTTTAATCCAACTGTTTGTGGTACATATAATAGCCATAATAAAATTCCTAATAGTAATCCTGATTTAATATTGTGAAATATATTAATTTTTTTTATTATTAAATATGGCAATATTATAAATGAAGCTAATAAAAATCTATATCCAACTAGAACAACTGGATTTAACGCTCCTAAACTATCTTTTACTAAATAAAATGTTGCTCCCCATATTGCAGCTGAATATATAAGCCCAGTATCAGCTAAAAATATTTTTTTCTTGTTCATCCAATTCTCCTTATATTTATTTTAGAAATATTTAAAAAATAATTTCCTTATATTCTTAATAAATCTATTATTTCTCCTTCAATATTAGTATATGTAGCTCCTATATTTTTTATTAATTTTGGAGAATAATTTGTATGGATATAATATGAATCTATCCCTATATTATTAGCTCCTTTTATATCTGTAGTATAGTCATTTCCAATCATTATACTACTTTTTTTATCAAGCTTTTCTTTTTTTATTAAATAATTATAAAATTTTTCATCTGGTTTACAAATATTAATATCAGATGAAAAATATATTCCATTAAAATATTTATATATATCAAAATATTTTAACTCTGAAATCGAAAAACTTCTTTGCCCATTAGATAAAAGAAATATTTTCTTTTTTCTTTTTTTTAGTTCTTTTAATAATTCTAAAACTCCATCATATAAACTTATTTTTCTACTTGAAAGAATCCTAAATAATAATGATGTTTCTGAAACCAATTTTTTTGTTGCTTTTTTCCCTTTCATAAAATATAATTTTTCAAAAACTTTTAAAATTTCTATATCTGGATATTTTGTAAATTTTAAACTATTTTTTATCTCTTTACCTGCTTCTTCTTTATAATTTTTTTTTAACTCATCAAATTTATACTTAGCTCCATTATAACTATAAAACAAAGATAATTTTTCCCATAGTTCTTTATTTTCTTCATCTGTCTCCAAATCAATTAAAGTCCCATACAAATCAAAAATATAATTTTTATACATTCTATTCTTCTCCTTCTTTAATTTTTACTACTTTCAGATAATGTCAAAATAAATGATATTTTTGTCCCAACTCCTATTTTAGAATCTATTTTCAATTCTTCGCCATGTGCTTCAACTATTTTCTTTACTACGTATAATCCTAATCCTTTTAATTTCTCTCTCTCTCCAAACATTTTGTAACTTTTTTCAAATGAATCAAATATTAAACTATACATCTCTTTTTTTATACCAACTCCAGTATCAGAAATAGATATCTCTATCCTATTTTTATCCTTTAAAATATTATAACTAATCTCTACATTCCCTTTTTTTGTGAATTTTATACTATTTTCAATTAAATTATAAAATATTTTTTTTACACGAACTTTATCTCCACGTACGTATATATCTTCAGTTATATTATTAGAAATCTCTAAGTTTTTATTTAACGCATAAACGTTTAAATTTTTTATTTCATTATCTACTATATTTTTAATATTAAAATCTTCAATATCTAATTTTATTTTATTTTTTTTTAATTTAGAAAGCTCTAATACATCATTTGTTGTATTCATAAGCTTGTTTATATTAGCGTAAATCATTTTCAAGTTATATTCTTGTTCTTTTGTTAATTGTCCTATTACCTTATTAAATAAAACTTCTATTATTGCCAATGTATTTTCAAGATTAGAAATCAATTCATAAGATGTCCTTTCTAAAAATGAATCTTTTTCACTTCCTAACTCTTTTAATTCATTTATTTTATTCTCCAATTTTATATGTATCTCTTTTAGCTCATTATTATTTAATTGTATATCTTTGTAATTATTTTGAATTTCTTGCATCATCTCTAAAATAACTATTTTTATTTGTTCTAATTCATTTTTTTTAATATTATTTTCAAACATCTTTATGTTACCTATTCCAGATATTTTAAAGTTTTTTATAACAGCCAGAATTTCATTTAAAGGAGATATTAATTCCTTATAAAAAAATAAAAATAAAAAATATGTTTCAATTACTATTGTTATTATTAAAATAATTAATACTATCCAAATTATTTTTTTTAATTCGCTTGTTATATTATTAGTAGGTATTGCCGAAACTAAACTCCATGAATTACCAGAAAAATTTACCATATACACTACATATTTTCCATTATGAATATGTACATATGAATTTTCTTTTGTTTTTAATACGTTAACTTTTTTTAAAATATTTTTAAAATTATCTTTTTTTGAAATCTCGTCTAAATTTTTATAAAATTTTATTTTATTAGACTGTTCTCCACAAACAATCATTTTGCCACTATTATTTATAATAAAACTTTTTGAATTTTTTCCATAAAAAGTTTTATTTATAAATTTAGTGAAAAATTCCATTCTTAAAAGAATTTTCATAACGAAATCTGGCTTTTTTCCATTTGAAAAATAGAATGCTTTCCCTACAACTATTGTAGGCCAATTTATATTATCATAATCGCTTATATCATTTGGTAGTCCATAATAAAATCCGCCATTTTTGCTTAAACTATTTTTATTCCATTCTTCACTTTTAAATTTAGGATTATATTTAACATCTCCGTATGAGAAAAAATTATTATTTTTATAACTATACACACTAATTGAAGAGATTATATCTCCTTCTGATGTTACTATATTTTTTAACATATTTCTAATATATCTAGAGTCTTCCGCTTTATTATTCTTTTTTAATATAATATCTCTAGCTTTAATATCATTATTTAATAAGACAATAACACTTTCTACAGAAGATAACTTATTATCTAAATCGCTTTTTATCTGTAGCAATAATTGTTCTCGATTATTATTCATTTGAGTTTCTATTATTCCTGTAGAAATTTTAATTGAAACTATTGTAATAAATATAGAAGGAATTATAATAAACAGTGCGCTAAAAACAACTATTTTTTCCCTTAAAGTTAATTTTTTCATAATAATCTTCTCCTATTTTGATTTTATGGCATCTTTTATTTTCATTTCCATATTCTTTAAAGATTGATCTATTGTTTCTTCATTATTTATAACTTTTAATATCTCAATCTGCATAATTTCAGATACCTTTGGATACACAGGAGATACTGGTCTTGGAACAGCTGCTTTTAATGCTTTTAAAAATTCAGGATTTTTAAAATATGGATATAATTCTGTTAATCCTTTATCTCTGTATAATGGTATATATGTTGGGGAAACTCCATTTTTTATGGCTCTAATTTTTTCCCCTTCCTCACTTGCTAAAAATTTCAAAAATTCCCATGCTTCTTCTTTATGCTTCGTACTTTTGTTTATCATTCCAACCCATCCACCTAAAACTGCTGCAGATTTTTTATCTCCTTTTGGCAAAGGTGATATTCCAATTTTACCTTTCAAATCTGTTTTTAAAGATTCGCTCCATAGATATGGCCAATTCCTAGAGAAAACAGATTTCCCACCTAAAAAATTATTCTCACTTTCTTTTTCTTTATAATTTTTAATATCTTTTGGAACAAAATCAGATTTTTCTATTTCCATAAATTTTTCAAATCCTCTTTTTGCTTCTTTGCTATCTATAACTACATTTTCGTTTGAATCTAAAACTTCTCCTCCATAAGAATAAATATATTCTAAAAAGTTACATATTAACCCTTCATATGAATAGCATTGAAAATCATATCCATCGACAGTTCCTTTTTTACCTTTATATCTTTTAGCCATTTCTATTAGCTCATCCCAACTCTTTGGTGGGGTAGCAACTATATCTTTCCTATAAAATAACATTCCAGCATCTATAAATATTGGTAATCCCCAAATTTTATTTTTATAATATGTAGCCTTTAAACTTCCTTCTATATAATTTGATAAATTTATATTATCCCTTTTGATATAATCATCTATATCTAATATATATCCTTTTTGAGCCATTTCTGCGACCCATACAACATCGCCCAAAAACAAGTCAATATCATGACTTCTTCTTGATAATATTGTTTCATATTTATCATGTACTTCATTCGTTGTACCTGATAAATTCAAATGAACAACCTCTATTTTATTTTGAATAGCATTAAATCTTTTTATTACTTCTTCTGTTGCTGGAATTGGATACATATTACTTGCATAAATTATTTTTATCTTTTTTACTTGAGCTTTCTTTTTTCTACATCCATTTATTCCAATTAGTATTCCTAAGATTAAAATATACACCACATATTTTTTCATTTTTATCCCTCCTAATTATTTATGAAATGTAGATATCCATTCAGTTTCTGTTTAATACAACTTCTGACGGAACAAAACTTTTTTCTTCTAATGACATTTTTACTATCAATTCTGCAATTTCTTCTGGGTTCATAAATTTTGATACATTCACATCTGTTTCTTTCCAAAATTCTGTATTCATCCCTCCTGGAAAAAATGTAATTATATTTATATTAGAATTTTTTAATTCTTCTTCTAACGATTTTATAAATCCACGAGCTCCCCACTTTGAAGCACAATATATTGACTCATTTGCTTTCCCTTTTATTGCTGCTGTTGATAATACACTAATAATTTTTGATTTTTTTTTATTATTCCTTAAAAACTTTATCATATGGGATGTCATTAAAATTAATCCTATTAAATTTGAATTTAAAACTTTTTCAATATCTGTTTTTAAAATTTTATCTACAGCTCCAAAAATTCCAACTCCTGCTACATTAAATAAATTTTCAATTATAAAATTATTTTCAATTATAAAATTTTCAAGTTTTTTTATATCTTCTTCATTTGAAATATCCATTTGATATGAATAAATTTTAACATTATTATTTTCTTTTTCTAACGTTTTTTTAATTTTTTCTAATCTTTCTCCATTCCTGCCAATAATAATTATATTTTTATTATTTTTAACTAACTTCTTTGACATTTCTAATCCTAATCCCGATGTTCCCCCAGTAATTATTGATATATTCATATTATCCCCTTATATATATATATTACTTTCTTCTGATCTAAATTTTCAATAAAACCTTAAATCCAAACTCATCACTAACTCTTTTTTCTCCTGATTGATTTGAAAAATTATTTATAAACTCTTTATTATAAAAAAACTTTATATTTTTATATTTATACTCAATATTAAATATATCTCTAACTTCAATTATTCCACTTAACTCCATCCAATTTTTATCACCTATAGCTTTATTATAGTCAGTTTGTAAATTAACTTCTCCTTTTTCATATTTTTGATATATAAATCTGAAATTATTATAATCTATTTTCAAACTGTAAGTTCTCGCATCAGCCCCTAAAAAATATCCAATAGGATAATCTACAACATATCTACCTGAATTTCCATAAGTAGTTACAATTATTCTCCTATTTGTAAATTTTAAATATTCATTTTCTCTATTATATAGCCATTTAGAAGTCCTTGCATACTCAAAATTTAATTTAATATTTTTTAAATTATATTCGAATCCACCTAAATAACCTAATGCAGTTGGTTTTGAATTAGAGTCCTTTTCATCTGCCACCACTATATCATCTAAAACTCCACTTCCATATATTTCATATTTTTTACTTTTATAATTCATGTCAATTCCTGCCATAACATTAGAATATCCCTCTGTAAAACTATTATGATATATATATAACGGATTTATCAGATCTAATCCTGGGATTTTCCCTCCTACAACTTGTGCTTCTGTTAATGCCATTTTAATTTTTCTAGTCAAATTAAAAGTTAATCTATGTGCTATAAAAAATTTATATGGCTCAGAATAAATTTTTCCTTGACTATTTATTTCTGTATCATTATCTATTATATCACTTTCCACCTTAGTTAGATATGGATTTAAACTAATTAAAACATAATCAAAATCTACATATTTAAATTTATGTTTAAATTCTATCATATCATAATATTTAGAAAAATCGGATAATATCAAATTCCCAAATTTTCCAACACCCCAAGCTAATTTATCTCTTCCTATTTTTAAATCTTTATATTGTATATAGCATTTATAAGGAAAATTTTGATCCCAATTTTTTATATTAATTATTGGATAAACTACACTTTCTTTTTCTATATAAGTACCAAATCCTTCATATAATTCTATTTCAAAATTATATTTAATATCTTCTTTTGAATTTAAATTATCAAAATTTATATTTAAAAAACTTCTATTATTATCATAATCTTTTACTTTTAACAAAAAATCAGTATAGCCATTTGATACATCTTTTCCAGTTTTATAATTATTATAATTCAAATCATAATTTTCAGATTTTATATAACCCAAATTTAGTTTTATATTTGCAAAAATATTTATTGTTAAAAATAAAAACAATATAATTATTTTTATTATTTTCATAAAATTCTCCTTTTTTAAATCAAATAGTATTAAAAAACAGATCTCTTGTTAAAATCTATATTCTATTCCTATATTCAGTTCAAAACTATTTTCTATTTCATCACTTGGTCTATAAATTCTAATATTATTCCCAACAGTTTTTTTATCCTCTTCAATCTCTTTTAATTCCAATTTGTTTATTATTCTACCTAATTTCACACCACCTAGCAATGTATATTTTCCCATATTTTTATTTAATTTTAAGCTAAAATTTAAAGTTTTTTCTAATTTTTTATCATTTAAAAACTTAGTTCCCTCTCCTCCTTGCGAATAATTTGTATATTCATGCCAAGGATTTTCAGGAGATTTACTTCCAGAAACTACATATTCAAATGATGTATATAAATTAATTTTATTTATCTCTTTTTCAAAATCAACCAAAAATGCTATATTATTTTCTCCATACTTATATCCAATATAATTATCTATATAATTCAAATCATTACCGTAATATTTATTATCAGGATAATATGTATATCCATATTGAGTATTAGTTGCTTTATCATAAGTTCCATTTCCCATTGGTTCAAAAGTATATTTTGTAGAGCCGGCATTATAAATCCCTATTTTTCCTATATTTTTTATTGCTTTTTTATATCCAATAGACCACGCCATTTTATTTGGATTCTGATTTTTAGATTTAGGACTAAATATCCAATCCCAATTCATATCATCAATCAATAATTGAGAACAAAAATAATCATTTTTTCTTTTTCTGTCTAAAAACAATCCCATAATAGAATTTTCATTTGTATATTGTTTCCAAGGTGCATTTGTATCATTATAAAAGCTTTGAGACATATATGCTGGAATCGGATTTGTAAAATAATTAAAATCAAAACTTCTACCTGTATAAACTACAGATTCCTGATATCCAAATCTCCATTCATCACTTAAATTAATACCATAAACTCTATAATTAGCCCCTCTATCTGGATACCCTAAATCAGATAATACGTTCAATTGAAACCAATTTGTTTCAAAGAAAAATTTTTCATCACTATATTTAATTTGAATTCCTGATATACCCTGTTTTTCAGAAGAGATGAAAAGTGTATATGGAGTATTTATCACATCATTGTGATACATCCTTCCAAGTTTTACCGAAACATTTTTGTTTAACTTAATATTAAAAAACCCTTGATTTAATATATGATAATATCCAAAATTATATCTCTCTTCTCCAAATTTATATTTATCATTATTTATATAATCCAAATCAAAATAAAATGAAAAGTTTTCATTTGAATGATTTAAAATAAAATTTGTTGAATTATAACTACTTTTTTCATAAGTGATCATATCTTTAATTTCTAATTTTAGAGCTAGTGCTAAATTTGAAATAACTATAAATAGTATAATTAATACTTTTTTCATTTAATCTCCTTTTTTTCCCATATAAAATATTTTTATTTCTATTCTTTATTTATTCTTTATCCGCATTTTATCCCATGGTAAAACAGCTTTTAATCCTTATCACTTTTTCCCTACATATCATTCTTACAAATATTACATCTAACTGCAAGCAAAGTAATATCGTCATTAAAATCTATATCTTTATCAGTTTTTTCCTGCATAAATTTATATATATTTCCAATGAATTTATCTGGCTCATTATCTATACTATTCTTTACTATATCATAAAATTGTTTATCATCTTCTACTATATTATTTTCTATTAAAAATTCATATATCCCATCAGAATAAAATAATATCATATCATCCATACCTATTTCAATCTCTTTTCTCTCAAAATAAGCCTCTTCAAATAGACCTATTGCAAACCCTCCATCCTCAACTAGATTTTCCATCTTTTTTTCTTTTACATCTATTTTTATTGGAGAAGTTCCCCCTCCAAATCCAAATACAAATTTTTTATTTTTTCTATCTATATATCCATATGTTGTAACTACAAAAACTGCTCCCTTTGATATTTCTAAAATCCTTTTGTTAAATTCATCCAAAACCATTTCTGGCTCGTATATTTTCTTTTCCACAATCAAATCTTTAAATATATATTTTATTGAAGTTATATATAATGCTGATGAGACTCCATGTCCTGACACATCACAAAAAATAATTGCTGTTTTATCTTCATCAATTTCAATAAAATCAAAAAAATCTCCTCCAATAAAATTAAACGGAAGATATAAATGTCCAAAATTTATTTTTTCACTCCAATCATCATATTTTGGAAGTAAATTTTTTATGAATTTTTTACTTTTATTTAATTCTTCCCACAATACATTATGCTCTTCCTCTACTTCATCTAATCCTACTATATTTTCTATTTCTTCAATAGCATTCATATTTTCATCTTTATATTCTACTATTTTTTGATCTATTTTTTTTGAATAATATATCAACTTATTCAATATATTCAATATTTTATTACTTTCTGAAAATTCTTCTATATTATCTTTTTTTATCAATACAAATCCACAATTAACAGATAAATTTATATCTTTTATTTTAGTTAATTCCACTTTATTAATAATTCTTTCTATAACTTTAACTGCATATTTTTCTATTATTTCTGGTAAAATAACCATAAATATATTCCCACTTAATCTTCCTAAAACATCACTATTTCTAATAGTTTCACTTGTGATTTTTGAAACTTTTTTTATGACTTCATCTCCAATTAAATATCCATATTTTTTATTTATAACTTTTAACTCTCTAATATCTATTATTGCCACTGCAAAATTTCTGTCATGTCTTTTTACTCTTTCTAATTCTTCTTGTAATCTTTTTATTAAAAAATTTCTATTATATACATTTGCTAATTCATCTGTATTTAATTCATCTTCCAAAGTTTGAGATTTTCTAATTAATCTATTATTAATATCATTCAATTCTTTTATTGTATCCAATAAAAATTTCTTTTCTTTTTTTATTTTTATTAATTCAATACTATTATCTATTTTTTTTAAAATTTCATCTAAATTATCATCTTTTAAAATAAAATAATCTATTGGGAATAATATTTTAGATTTTATTTCATCAACTTTTGTATATGTATCTAATAATAATATCTTATGAATATCATTAATATCCTTTCTTTCTATTCTTTCTACTTCATCTATTCTTTTTTCAGAAACAATTATTAAATCTAAATTATTTTTTTTACATTCAGATATACTTAACAAATTGAAACCAATTCCTGATAAATAATTTTTCAAAAAATCATTATCGCTTAAAAATAAAATATTTTTCATAATTCCCCCTATTTTACAATTTTATTTTTTCCACTATTCTTAGCTTTATATAATCTCTCATCTGCTAAATTTACCAATGATATATCATTTAATCCTTCTTTATATTCTGCTACTCCACCACTAATAGTAATTTTTTCATCTGTTATAATCATAATATTTTCCACTGCTTTTCTAATCCTATATGCAATAGCAACTGCTCCTTCTTCATCTGTATTTGGTAAGATTATTAAAAATTCATCTCCACCATACCTTCCAGCAATATCACAATCTCTTTTTAAATTTTTTATAATACCAACAATCTCTTTTATTACTATATCTCCCATTTGATGTCCATATTTATCATTAACAGATTTAAAATCATCTATATCAAACATAATAACTGATAATTTATTTTTATATCTATTTACTTCACTAACCTCTGATTTTACTCTTTCATATATATATTGATGGTTATATAGCTTTGTCATTGCATCTCTTAAAGCTAAATTTTTAAGTTCTTTGGTCAACATATAATCTCTTATTGTTACTCTTAATCTTGCAATAAATAGCATTGGATTAAAAGGTTTAATTACATAATCATTTGCTCCGATTTGTAAGGCATTTGAAATATTTTCAGGATTTCCCATACCAGATATTAAAATTATTTTCTTTTCTGGATATTTTTCTCTTATATTACTTATTATAGTCATACCAGATATTTTTGGTAAAATTAAATCAACTAAATATATATCATATTTTGAAATATTATCCAAAAATTCATTTTCATCTTTATAATAGTCAACATTATAAAATTTATTTAAGGTTAATACACTTTTAGCTATATTTAACGCAATAGCACTATCATCAAGCATTCCTATTTTTATTCCTCTATATTGCTTTTCTAATGATGATAACTCCATTATTTTTTTTAAATATAAAACTAACTCTTCGTATGTCATATCTTTATGTAATACGTCCATAACTCCTAATTCAAACATATCTTTTTTATATGCTATTTCTTCTTTAGTTGTAGAAATTATTATAACTAAATCTTTTTTATTTATTTTTTTTAATTCTTTTAAAACATCTATTAGTTCCATTCCTTCAGTTTCATAACTAATTATTAAAAAATTTATATCTCTTTCTTTTACTATTTCAGATATCTCTTTTGTTTTCTCAACAGAATAAAGATAATTCCATCCTAATGAATTTATTGCTGAAGAAAATATTTTTCTAATAACTTTAGAAGATTCAATGTGCAATACATTTTTCATTATAATCACCTCCCTATTATAATTAAAATTATTTCGTTATTTCTTTGATATTTCTTCATAAAAAAAATCATTTTTCCACTATTACTTTTCTACCTTCTAACTTTATTTTTCCAGTTACAAATTTTTCTATTGCTTTTGGATATAATTTATGTTCTACTTTATGTATTTGCTCCTCTAATTTTTCCAAACTTATTCCTTCATCTAATCTAATTCCTTCTTGTAATATTATTGCTCCACCATCTTCTGATTCATCTACAAAATGAACTGTTACTCCTGTCATTTTTACTCCATATTCATAAGCTTTTTCTATTGCATGCAATCCTTTAAATGAAGGTAATAGTGAAGGATGAATATTTAAAATTTTATTTTTATATTGATTTACGAAATATGGAGTAATCCATTTTAAATATCCTGCTAATATTATTAATTCTACGCCATTTTCTTTTAATATTTCTACAATTTTTTTATCATACTCTTCTCTAGAATTATATTCTTTTGAATTTATATATATAGCTTTTATTCCCGCTTGTTTTGCTCTTTCCAGTCCATAAGCTGATTTCACATTGCTTACAACTACTTCTATTGTACTTTTTTTTATTATCCCTTGTGTTATAGAATCAATAATTGCTTGTAAATTTGTACCACTTCCAGAAATTAAAACTCCTATTTTCATATGTTTTCTCCTTTATTAGATATTATACATTATAATTTAAGATTTTTCAAAATATTTATTATTAATAAACATTTAAAAAATAAGTTTCTCATATTTCATTATAAAATTAATTAAATTATTCGTGTTTTAAAACAAAAAAATTAGCCACCAATCTACACTGATTTGCACAAATAAATGATCATTAAGTTCATTTAAAAAGAGCTTTAGATTTATTCATATTTTTCATAAATAAAAATCTCTGCTCCTCTCGTAATTCCAAAAAATTTTCTCCTTTGTGAACCTTTATGTCTTTGTTCTGAAATTATTTTCCTAAATAAATTTATACTTTACTACTATATAAAAAAACGCGGGAATAATCCCGCATTTATTTTAAGAACGTTTAAAAAGTAATTTTTCAAAACAAAATAAAAGGTTGTTTTTAAGCCGTTCATTAATGTCTAAAATGTCTCATGCCAGTAAATACCATAACTATACCTTTTTCATTTGCTGCTTGTATAACTTCTTCATCTCTTATTGAACCACCTGGTTGTATTATTGCTTTTATTCCTGCATCTGCTGCTGCATCTACCCCATCTCTAAATGGGAAAAATGCATCCGACGCTAATACAGAACCTGCTGCTTTTTCTCCTGCTTTTTTTACAGCTATTTCAGAAGAATCAACTCTTGACATTTGTCCAGCTCCTACTCCAACTGTTTTTGTCCCTTTACATAAAAGTATTGCATTTGATTTTACTTTAGCACATATCTTCCAAGCAAACATTAATTCTTCAAGTTCCTCTTTTGTTGGTTGCTTTTCTGTTACTACTTTCAAATCATCAATAGTAATATCTTTCAAATCTCTTTCTTGTACCAATAATCCACCTACAACCTTTTTATAATCATATTTACTTGTAGATGATTTTCTTTTTAAATCTTTAACTTTTAATAATCTTCTATTTTTTTTCTTTTTTAATATTTCTAATGCTTCTTCACTATATTCTGGAGCTATTATTATCTCATTAAAAAAACTGTTTAATTCATTTGCTAAATCTGCTTCCACTTTTCTATTTACAGCTATAATACTTCCAAAAGCAGAAACAGGGTCTGATGCTAATGCATCACGAAAAGCTGTTACAATATCGTCAGCAAGTGCTGCTCCACAAGGATTTGTATGCTTTAATATAGCAACTGCTGGTCTTTCAAATTCTTTTACAATTTCAATAGCAGCATCTACATCTATTATATTATTAAATGAAAGTTGTTTTCCATGCAATATTTCAGCAGTAGCCGCACAATCTTCTTCAATATCTAATTCTTTATAAAATACAGCACTTTGATGTGGATTTTCACCATATCTTAAATCATAAGCTTTTTCATATTTATTTTCCAAAATTTCTGGATAATTTTCCTCTTTTTCTAGTCCGCTCAAATAGTTAGTTATCATAGTATCATAAATAGCAGTATGTTTATAAACTTTTTTAGCTAATTCAAATCTTGTTTTAGCTGTTGTTTCACTGTTATTTTCATTAAGTTCCGCTATTACGTTACTATAATCTTTAGGATCTACAATTACTGTAACAAACTTATAATTTTTAGCAGCTGATCTTATCATTGTAGGCCCACCTATATCAATATTTTCTATTGCTTCTTCCAAAGTTACATTCTCTTTAGAAATTGTCTCTTTAAAAGGGTACAAGTTAACCGCAACAATATCAATATACTCCATATTGTGTTCCTTCATGATTCTTTGATGCTCTTCATTATCTCTTAAAGATAATAATCCAGCATGAATTTTTGGATGTAATGTCTTTACTCTTCCGTCTAACATTTCAGGAAATCCAGTATAATCCGATACTTGCTCTACCTCAATTCCATTTTCTTTTAATACTTTAAGAGTTCCTCCAGTAGATAAAATTTCATATCCGTTCTTCACAAGCCCTTTTGCAAATTCTACTACTCCTGTTTTGTCCGATACACTAATTAGTGCTTTCCTTGCCATTTAAAACCTCCTATATTTTTTTACAAACTCACGTTTGTTATTCTCTAAGTATTTTAACAACTTCAAATACAGCTCTTCTTAATTTAATATTTCTTTTCTTTAATAATTTTCTTATATCTTCAACAACGTCTTTATCTCCTATAACTCCCAATGAATAAACTGCTTCAATTATAACCTCTTCGTTTATATCATCTAGTAATTTTAATAATCCCGATACAGCTCTTATATCTTCAAAATTTCTTAATGATTTTGCCACCTCTATTCTAACATCATCATCATAATCAAAAGAGCTATTTATAATAAAATTTAGACTTCTATAATCTTTTAACATACCTAATGTTTTTATCACTTCTTTTCTAACTAAAGGTGATTCATCTGACAATAATTTTACTAATTCAAATATATATTGTCTATCTCTATTGTACGCTATTATTTTAACTGCATTAATCCTTATAAAATGGTTATATTTATTTTTCAATCTTGCCTTTATATCAATATCACTCATATTATTATATAATTCATCACTAGAAAATGATACTGATATTTTTGATAATTCTCTATCTACAAATTTTTTTCTTCTTAATTCATTTCTAGCTACTTTTATATTAAAAAACAGATCATTTAATTTTTTTTTATTAAATATTTCAGAAAAAAGGTATTTTACTTTATTACTTTTATCTTTTGACAGCTTCATAAAATTGTTTTTTATATCTCTATCTATATTTTTCTTCCTATTTTTACTTCTTTTCACATTTAAATTTTTTTTATCATATTCAACTCTTTTTATGGGATTACTTAAAATTTTATATGCTTTTATTACTTCTTTAAATTTCATTATATTATCTTCAGTTTTTGATATATCTGGATGATATTTATGTATTAGCCTTTTGTAAGAAAGTTTAATCTCAGATATTGTAGCATCTTTTCTAATTTGTAATACTTCATAATAATCTCTTTCCATTTCAACTTCACCTCGAAGTTTTTATTTTTCAATTCATTATAGCATATTTCACACAAAAAAAAAACCTCTCAAAAGAGAGATTTTTTTCTTTTTTTATTTTACTTCAATTTTAATTTTGTCTAAAGTTTTTATTGCGATAATTATTCCAATTATTCCCAATACAATTACTGGATAAAATACATATTCATATGTACCTAATTTATCCCTTATAACTCCTGATATAACTCCGCCTGTTAACGCTCCTAGCCCATATGATAAAAATATAACTCCGTAGTTTTCAGCATAATGTTTTGCTCCAAAAATATTCGAAGTTACAGTTGGAGCTATTGCAAGCCATCCTCCTAAAACTAACCAAAACATAGCAAATACAATAAAATATAAAAATTCTTTTCCTGCTCCAAGAGTAAGACCAATAACAGACGCTGTTATGATAATTATATATGATATAATTGCTGTCTTTTTCCCACCAAATTTATCTGTTAAAGTTCCAAATATGGGCCTACCTATTCCATTAAATATAGCAAATAAAGATACATAAATTGCAGCTTTTTCTGAAGACATCTTTATAACTTCCTGCCCAAATGGACTTGATATCCCTATTGCCATTAACCCTGCCAAAGTTCCTATTGTGTAAGTAGTTACTAATCCCCAAAATTGTTTTGTTTTTATAATATCTTTTATTGAAAAATCCAATTCAATATTATTAGTTTTCTTTTCTGCATGTTCTTTTTCATCAGGAAATTTTAGAGGCAAACTAAGCAATGTAATTAGAATTATAAAAACTACACCTATTATTTTAAAGGCAGATAAAACTCCATAATTATCAATTAAAAAGCTTGCTATTGGTGCCGTTACAAATGGCGATAATCCAAAACCAGCTAACGTAAGTCCTACTGTAAGTCCTTTCTTTTTCGGAAACCATTTTGCTACAACTGCCATTGGAACTCCATATACAATTCCAACACCAATACCTCCAAATATTCCATATGTCAATGATAACAACTCAATATTCCCTGCAAAGCCAGATATAACCCATGCTAGTCCAACTATAATACCTCCAACTATTATTAATAATCTTGGCTCAATTTTTTTTATAAATTTCCCTGCAAAAGGCATTGTCAAAGCATATGATGCCAAAAATAAAGTGTATGGTATCCCACTTTGTGTAGCACCAACGTTAAATAATTTCTCTAATGGTTTTCTAAATACACTCCACGAATATATCGTCCCCAAACACATAAATATCAATATTCCCAGCGGTATTACCAACATTCTTTCAACTCTTTTTTTCTCCATTTTTTCATCTCCTCCTGTTTTTAATTTAAGAAATGGCTTAAAAACACCCTTCCTATTTTATTTTAAAATGTACAATAATTTAGAAATGATTTGAAAATAGTTATCTGATTTATATCAAAGTATGTAGCGTTTCTAACATCTTTTCTATAAATTCGATAAAATATTTTTAAACATTCCGAAAAAAAAGAAAAAGAACCCCCTAATGGGAGTTCCTTCCAATTTCTAATATACATTTTTTCTGTAATTTTTTCATAAATCTTTTATATTTCAATTTATCTCCTTAGTAATTCTTTAACTATTATTTACTTACTTATAAATTTATAACCTTAACATCTTTTATCTCATCAATATTTTTCAAATTTTCCACAAGAATGTCTGGCATATTATTATCTACTGTTAAAATCATAATAGAACCATTCTCTTTACTGTCAGATACAATCATCTTTGAAATATTTACATTAAATTCTGACATTTTTATTCCTACTCTACCTATAACTCCTGGTACATTTCTATGTGGCAAATATACCAATTTTCCTTCTGGAACTAAATCTAATTCAAATTCTCCTATTCTTACAATTCTTGGATATTTTTTTTCTAATACAGTTCCTTCTATTTCAAATTTATCTCCTGAAATATCTTCAATTGTAATTTTCATAAGATTGTTATAATCACCTGTATCAAGCTCTATACTTTCTTTTATCTCAATACCTCTTTGTTCTGCTATATAATTAGCATTTACAAAATTAACTGTTTCAGGAACCGTACTATCTAAAATTCCTTTTATTGCTACTAGTGATAAAACTTTTACATCTTCTTTATTAGATATCTCATTACCACCAAAACTAAGACCTATTTTTTTTATACCTTCTCTTTTTATTTGAGAGTATATTCTTCCCATTTTTTCTGATAAAGCTATAAATGTTTTTAATTTTACAAATGTACTGTCAGATACACTTGGAATATTTACAGCATTTTTTACTATTTCACCTTTCAAACCAGCTAATACTTCGTTTGCCACTTCATCTCCAACTCTAAATTGTGCTTCACGTGTAGAAGCTCCTAAATGAGGTGTCCCAATCATAGTATTAAATTCATATAATGGATGTGTTTCTTGTGGTTCTGTCATCCAAACATCAATCCCTACAGAAGCTATCTTCCCTGATTTCATTCCTCTATATAGTGCATCTTCGTTATATAATCCACCTCTTGCTACATTGACTAATCTAACTCCATCTTTCATTAATTCAATTTCCTTATCAGAAATTATATCAATTGTTTCTTCTGTTCTTGGAGTATGAATTGTTATAAAGTCAGATTCTTTTACTAATTCTTCAATACTGTTTTTCTTTTCCACACCATATTTTTCAAATCTTGAATCAGATATATACGGATCATAAGCTATCAAATTCATTCCAAACCCTTTTGCTCTTTCAGAAATTAATCCACCTATTCTTCCTAATCCAATTATTCCTAATGTTTTTTGATATAATTCGCTACCTATAAATTTCTTTCTATCCCATTTACCTGATTTTATAGTATTATTTGCCCAAACTGTATTTCTACTTGTTGCTAACAACAAAGTCATTGTTTGTTCTGCTGCAGATACAATATTACTTTCAGGAGTATTTGCTACAATTACCCCTTTTTTCGTTGCATAATCAATATCAATATTATCTAACCCAGACCCTGCTCTTCCTACTATTTTTAAATTTACTGCTGCATCTAAAAATGATCTGTTTACTTGAGTTTCACTTCTTATTATTATTGCATTATATTCTGGAATTATTTTTAATAATTCTTCATGAGATAATTTATATTTTTCATCAACATTACATTGAGCTTTTATTTTTTCTACAACTTTTTTATCTACCATTTCAGCTATTAATACTTTCATATTTTTTATATTAAACATATTATCTTTCCCCTCCATAATTATATTTTTTAAACTATTCTTAAAAAATATTTAAAAATAATTTTATCTTATTTAACAATAAAGATACTTGAATCATTGTATACTTTATCATAAAATATACAGATTATTTTTATCTCAAATAGTACTTTTGAATAGCTTTCAAACTACTTCCAGCTTCAAATCCTTTATATCCTAAATCATTTAATGTCATTTCTAAAGCTGAAAACAGAGACAATACATCAAATCTATCTACATCTCCTAAATGACCTAGTCTAAATATTTTACCTTTTATAGCTCCTTGTCCACCTGCTATTGTTATTCCATATTTATCTCTCATTGTATTATTCACAGCTTGCCCATCTACACCTTCTGGCGCAACTACTGCTGTTACAGTATTCCCTCTTACAGCTTCATCTTTTACAAAAAATTCTAATCCTAAAGCTTTTATTCCAATAGCTACTGCCTCTTTTAAATTTTTATGTCTTGCTGTTACATTTTCTAATCCTTCTTTTTTCAGCATTTTGCATGCTTCATTTGTAGCAATAATTAAATTTACTGCTGGTGTTGTAGGATTTTGTCCTTCTGGAAGCCTATTCAAAGTATTCTTAAAACTAAAATAAAATTTAGGTAAATCTGATTTGTCTAATGCTTTTTGTGCTTTTTCGCTCAGTGACACAAAAGCTAATCCTGGAGGTGCCATAAATCCTTTTTGAGAACCAGCTACTGCACAATCAACTCCCCAATTATCCGTTTCAAATTCATTAGCTATCAATCCACTAATTGTATCTACAACAAATAAAATATCCGTACCTTTTAAAATTTCTCCAAATGATTTCACATCATTTAATACTCCAGTAGAAGTTTCATGATGAGTTAAGAAAACACCTTTTACTCCCTCTTCTTTTGCTAATACTTCTTTTAAATCATTTGCTTTTGCAGCTTCTCCCCAATTGTAAGATAATTTTACAACTTCTAATCCATAAATATCACACAATTTTACAAATCTTTCTCCAAAATTTCCAACAGATACAACCACAACTTTATCTCCTTTTGAGAAAAGGTTAGCTACCGATGCTTCCATTCCTCCTGTTCCAGAAGATGTTAAAGTTATTACTGGATTTTCTGTTTTGAATAAATATTTAAGATTTTTTGACAGTTCCTTAAATATTTCAGAATATTCATCTGTTCTGTGATGAATAATAGATTTCGCCATAGCAAACCTTGCTTCTTCTGGTATTGGCGTAGGCCCTGGTGTCATTAACAAGTTTTTCATAATTACCTCCTATATATTTACGTTATCCGTATTATTGTCTGCATACATTTTCTTTTTGGTAATTATATCACTTTTTCAAATCTTTTTCAACAGATATTGCTATATTAATTTATAACTTAAATTGATATACTAATATTTTACAAATCAGTAATTTATTTTCTAATCTCAAATAAATCATAAGAAAAATTTTATATCTATTTTTTAAGAATTCTGATTTGCTCTTCGCTTAAACCTGTTTTTTCTGATATTGTTTTTATATCTAAAATATCTAATAAGCTTTTTGCTATTTTTATTTTTTCTTCTTCTCTTCCTTCTTCTCTTCCTTGTTCTATTCCTTCTTTTTGACCTTTTTTAAAACCTTTTTTCTCAGCTGTTTTTATTGCTGCTTCTTCATCTCTTAGCCATTTTAATCTTGCTTCATAACTTTCTCGTTCTTCATAATTTAACGACATATCATCTAACAATTCTACTGCTTTTTTTATACTTTCTACTTCTGCTAACTCTTTTGGTAATCTATTTTTATCATATCCTTCTGCTTTTTTTAAAAAATTAACCCATCTATCTAACATTGTACTCATTTTCTCATCATATTTTTCTAATTCTATAAAATGTATTTCTAAATGATTTATAAATTCTTTTCCGCTTTCACTGTTTATTATCTTATATATATTATGATATTTTTCTTCATCTAAACATCTAAAATTCAATATATTTATACTTATAGTTTTCTTTAAATTATCATAATTTACTCCTGCAGACAGTTGCCCGGAATATAATCTTGCCCAATAATATAACGCTCTCTTATCAAAATATTCTTGATCGATAACCTGCATCTCTATATTATACCATTGCCCTCTTTGATCAATTGCTTTTATATCTAATATAGACAACTTGTCATTCCTGAAATTCTTATCATTATAAGGATTTTTTAATTCTAATTCTTTCACCTGATCTTCTTCTGACACTATTGAATTTATTAAATCTATTAATAATTTTTTATTTGATTCTGTCCCAAATAATTTTTTAAATGCAAAATCTACTCTTGGATTTATTCTACACATAATTTTACCTCCTATTTTTTATTCATTTCCATTAAATTCACTTTATTTTTTATATCCCATTTTTTTAATCATTAATCTTATTTTTTATCAAATTAATATCATTTATTCTCTCAGTTCTTACCTTATCCTGTAAATAATCCATTGTTTCTACTAAAAATATTCCAATTAAAAAATACAACATATTTTCCCAACGAAATCCAATATGATATCCTACACTATATTCATTAGAACCTATTTTCTCACTCACTTGAAGAATGCTCAATATCGAATATATAACTATGATTTTCCCAGTAAAATTTATTCTATTTAGTATAAACTCCGCTCTCTTATTATCCTTTTCCATAATTTTAAAAATAGATTTAACTTGATATATTATAAACATCAAAAGAAGAAAATTTTGATACTCTTTTGAAAAAAGAACATATTTTAAAGTTAATGGAGTATTACTTTTTATTTTCTTACTATCATCAAATATTCTCTCTTCAAAACAACTTCCTTTTATAACCATTTTTTCACTATCTGTAAAATTATATTTTATAATCACGATAATCTGTAAAATAGCTGCAAATGTCATAAATAAAAAAAGTATACTACTAAGAATATAGTAATCCCTATATCTTCTTTTCTTCAATAAAATCATCTCCTGAAATTTATTTAAATTCTAAAAATATTTCAATATTCCATTTTTATTGCATTTTTTCCATTTACCATATAAGATGACTTTATTATATTTTCATCTTTCTTTTTTTCTAAAATAAAATTCCCACCAGTTAACCTATCTTTTGGAAGTTTGTTCCTATCAGTTAATATAAAATTCAAAAGTTCTATTTTATCTAAAAGTCTTTCTTTTTTATAATACATCCTTTCATAATCTATATAGATAGCCTGTAAAACTATATGCCCTATTGGATTTTTAATAGACAACATATTAATTTTTACATTCTTTATTTTACCTTTATTTAAATAAAATTTATCTTTAGATATATCTAATATTTTTGAATAATAGCCCTCTATTAATTTTATAGTGTCTTCCTCGTTATAAAATGGCCATCTTATAAAATAATCATTTTTTTCTATTTTTCCTGTTTCTAAGTCTACAGTGGAAAACATATTCCCTCTATTATTTTTTAATGTTAATTTCATAAAATCAGATTCATTAATTAAAGCCTTTGAATAATTTATATTTACTATCTTCTTAATATCTCTAAAATTTTCCAACACCTCTTTTTTCATATCTAATATTTTATGATTTAAAGCATAATATCTAATAAATTCTTCAGTTATTGTATCATTTGTAAAAAATAACAACGTTCCATAGTCTGTATCCCATAATTTTTTAGATAAACTTAATAATTCCAGCATCTCACATCTTGCTTTTTCTAATTGATTTTCTTTTATTAAATTATCAATTTCAGCTATACCATAACGAAATATATATAATAAATTTATCCATTCTACATCAGCTTCATCCGATTTCTCTTTAAAATAATACTTTTGAAAATTATTATTTAAAATAAATTTTATTATATTTTCTCTAACAATCTTACTACTTTTTAGTGCTAATATAACATCTTCATCATTATATTTCTTCTCTTTTATTTTTTTATCAATTAAATTAGAGTTATATTTATCAAATTTCTTTAATTTTTCAGATAAGACTATATCATTTTTTAAAATTTTCTCATCTAAAGTTTTTACCTGAAATTTTTCTTTGTATTTTATTGGAAAATTAAGTATCATTAACAAGATTAAAACTATTGTAAGAATATTGACAAATTTTGAAATTAGAGAAAATATATAATTTATAATTCTTGGTAAAAATTCAATTGTAAATAAAATCAAAATATAAATTCCTATAAATCCCAATACGAACTTTTCTCTAAAAAAAATTAATAAATACACAAGTAAAACTATTGATAATATTTTTGAAATTGATCTATTCATAGTTTATATCACCTTTCCTCTAAAATTTTGGCTTCTGAAAAATTTTGCTTTGAAAAATCACATATTTCAAAAAAACGACATAACTTATTTTCTGAATAAATTTGTACTTTCCTATTAAACATAAAAAAATAACTTACACCTGATTATATCATTAAAAAATTATAAAATCAATTATTTTTTCCCTAAATTATACATCAAATACAGGTTTATGACATATCTAAATCACGCCACAAACCTATATTTACCAAATTTTCTTAAATTATTCACCCAAAATTCCTTTTAAATACTTTCCAGTATAAGACCTCTCTACTTTCACTACCTCTTCTGGAGTCCCTTTTGCTACAATCTTTCCGCCTTTATATCCTCCTTCAGGTCCTAAATCTATTATATAATCAGCTGTTTTTATTACATCTAAATTATGCTCTATTATAATCACTGTATTTCCTTTTTCTACTAATCTATTTAATACTTCCAATAATTTTTTTATATCTTCAAAATGCAGTCCTGTTGTAGGTTCATCTAATATATAAATTGTATCTCCTCTTGATATTTTAGACAATTCTGTTGCCAATTTTATCCTTTGAGCTTCTCCTCCTGAAAGAGTTGTTGCCGGTTGTCCTAATTTTATATAATCCAAACCTACATCCATTAATACTTTGAGTTTTCTCTCTAACGAAGGAATATTTTTAAAAAATTCATATGCTTCTCCTACACTCATCTCTAATACTTCAGATATGTTTTTGCCCTTATAATATACTTCTAATGTTTCTCTATTATATTTTTTACCTTTACATACTTCACATTCCACATAAACATCAGGTAAAAAATTCATCTCTATTTTTATAATTCCAGCTCCTTGACAAGCTTCACAACGTCCCCCTTTTACATTAAAACTAAATCTTCCTTTTGCATATCCTCTAATTTTAGCATCTCTTGTTTCTGCAAAAATATTTCTAATATCATCAAATATTTTTGTATATGTAGCTGTATTAGAACGAGGTGTCCTACCTATTGGAGATTGATTAATATCTATCACTTTATTAAAATTTTCAATTCCATCAATTTTTTTATATTCCAATGGATATTGCTTTCCTTTATTTAATTTGTTAAATAATATTGGGTATAGCGTTTGATTTATTACAGAACTTTTCCCAGAACCAGAAACTCCTGTTATTACAGTTAATATTCCTACTGGTATTTCTATATCTATTTTCTTTAAATTATTCCCACTTGCCCCAAATAATTTTAAAGTTTTATCAAATTTTCTTCTGTTTTCTGGAATATTTATCTTTTTTTTACCACTTAAATACTGCCCTGTTAATGATTTTCTATTTTTCTTTACTTGTAATGGAGTCCCTTTTGCTACAACATTCCCTCCAAAAACTCCTGCACCTGGTCCAATATCTATTAAATAATCAGCTTCCATCATAGTTTCTTCATCATGTTCTACAACAATTAATGTATTCCCCAATTCTTTTAATCTTTTTAATGTTTTTATTAATCTATCATTATCTCTTTGATGTAATCCTATACTCGGTTCATCCAAAACATATATTACTCCTGTTAATCCAGAACCAATTTGTGTAGCTAATCTTATTCTTTGAGATTCTCCACCTGATAAAGTTTTAGTTAATCGTGATAAAGTGAGATAGTCTAATCCTACATTAATCATAAATCCAAGTCTCTCTTCTGCTTCCTTTAATATTTCCAAAGCTATTTTTTCTTCCTTTTTAGTTAATTTTAAACTTTTAAAATAATCTAATGCCTCATTTATACTTAATTCTGTTACATCTATAATGCTTTTATCGTTAATTGTAACTCCTAAAACTTCTGGCTTTAATTTCTTACCATTACAAATTTTACAAATTTTTTCTACCATATATTTTTTTTCAATATCTTCTTTCATTGATTCAGAATTTGTCTCTTTATGTCGCCTTTTTAAATTATTTGCAATCCCTTCAAATTCTCTTAATCCACTATAATTAAAGTCTCCTCCACTATAACTCACTTTAAATTTCTTTCCCTTTGTTCCATAAAATATAATCTTTTTTTCTTTCTCAGTTAATTCTTTAAATGGCTTATCTAAATCTATTCCAAATGATTTTGCCATAGATTCTAATAATGTCCATACCCAGCCGTGTCTTGTAGCTGCCCCTGGTATTACAATTGCTCCATCTCGTATACTTTTTTCTTCATTCAAAATTAATTTTTTTACATCTATTTCCAATTGTTGACCTATTCCATTGCACTCTGGACACGCTCCATAAGGTGCATTAAATGAAAATAGCCTTGGAGTAATATCTGGCAGGCTTATATCACATATTGGACAAGCAAAATTCTCACTATACAATTCATCTTTTCCTTCTACATTAACAATTAAATTTCCCTCTGAAAGAGCTGTTGCTGATTCTACTGCTTCTGTCAATCTTTCCAAAAATTCTTTGTCTTTCTTTTTTAATATTAATCTATCCACAACTACTTCTATATTATGCTTTTTATTTTTATCTAACTTAATTTCATCTTCTAGGTATAAAACTTCCCCATCAACCCTTACACGAACAAACCCCTTTTTTTGCAAATTAAGAAACAAATTTTTATGAGTCCCTTTTTTATCTTTTGTTACTGGAGATAAAATTATTAATTTTGATTTTTCATTATTATTTATAATAATTGAATCCACAATTTCTTGTATAGTTTGCTTTGATACTTCTCTACCGCATTTTGGACAATGTGGCGTTCCTATATGTGCAAATAAAAGTCTCATATAATCATATATTTCGGTCATTGTTCCAACAGTAGAACGTGGATTTTTACTAACCCCTTTTTGTTCTATTGATATTGCTGGTGATAATCCTTCTATACTATCTAAAGCTGGTTTTGTCATTTGACCTAAAAATTGTCTAGCATATGCAGATAGACTTTCTACATATCTTCTTTGTCCTTCTGAATATATAGTATCAAAAGCTAAGGAAGATTTTCCTGAACCAGATACACCTGTAATAACAACAAATTTATCTTTTGGAATTTCTATATTTATATTCTTTAAATTATGCTCTCTTGCCCCTTTTATAATTATTTTATTTTTCAATTTAATCTCCCCTTTTGTATATGACATCTTTATGATATTTTATAATTCAATTTAAAATTATATAATCACATTATATCTTTTAAATCAAAATTTGTCCATAAAAAAAGTGGATGAAAATTAAATTTCATCCACTTCAATATTATTATTCTTTTTTATAAATTATTCACCTAAAACGTGTACTTTAAACATGTTAGTAGTTCCAGTTGTTCCTACAGGAACTCCAGCTGTCATTACTACAAGATCTCCTTTTTCAACTAATCCTGATTTTAATGCTGCTTCTTCAGCTTTTGCATAAAAATCATCAGTTGTTTTGATATCTTTAACTACTGCTGGATAAACACCTCTTGTTACCATTAATTGTCTTGCTGTTTGTTCATTAGAAGTTACAGCTAAGATAAATGCTTCTGGGAAATGTTTTCTTACTGTTATTGCTGCTCTTCCTGTTTCAGTTGAAACAATAATCATTTGAGCCCCTAAAGTTTGTGCTGCTTCTACTGCTCCTTTAGAAACTGCTTCTGTTACTGTTATAGTTTCATCAAATTCCATTGGATAATAAGTCATTTCAGAATCTGTTCTTTCACATATTTTAGCCATAGTTTGTACAGCTACTTCAGGATATTTACCTTTTGCTGATTCTCCTGATAACATTACTGCATCAGTACCATCTAATATTGCGTTAGCTACATCTCCTACTTCAGCTCTTGTAGGTCTTGGGTTTCTAATCATTGAATCTAACATTTGAGTTGCTGTTATAACTATTTTTCCTACTTCATTACATTTAGCAATCATTTCTTTTTGTGCAAATGGAACTTCTTCTAAAGGAATTTCTACTCCAAGATCTCCTCTTGCTACCATTATTCCATCAGTTACTTCTAAAATTTCATCAAAATTATCTATTCCTTCTTGATTTTCTATTTTAGAGATTATTTTTATATTTTCTCCACCATTTTCATTTAATAATTTTCTTATTTCCATAACATCTTCTTTTTTTCTTATGAATGAAGCTGCTACGAAATCAACACCTTGTTCACATCCAAATTTTAAATCTGCTTTATCTTTTTCTGCTAATGCTGGAAGTCCAATACTTACATTTGGTAAGTTAACTCCTTTATTTTCTCCTAATTCTCCATTATTTTTTACTAAACATTTTACTTCATTTCCTTCTACTCCTGTTACTTCTAATTCTATTAATCCATCATCTAATAATATTGTGTTTCCAGCTTTTAAATCATCAGCAAAACCAGCATAAGTTACAGCTACTTTTGTATTATTTCCAACAACAGTTGTATCTGTAGTTATTGTGAATTCTTGTCCAGCTTTTAACATAACGTCATCGCCATTTTCTAATTTTACAGTTCTTATTTCAGGTCCTTTTGTATCTAATAACACTGCTACATATTTTCCTGTTTCTTTCATAACTTCTCTTATATTGACTATTCTTGCACCATGTTCTTCGAAATCACCATGTGAAAAATTAAGTCTCATTACATTCATTCCTGCATTTGTTAATTTTGTAAGCAGTTCTTTTGATTCACTTTTTGGACCAATTGTACAAACTATTTTTGTTTTTTTCATTCTAAATCCTCCCAAATTTTATTTTTTATAATTTTTAAAAAATTATAATGCTAATGTAAGTGCTAATTCAAAATCTTTTTCATTTAGTTCTCTTTTATGTTCCCAAGCATAAGATATTGGATATGTAACAAGTTTATTTGACTCCATTCCAATCATTATTCCACTTTTACCTTCTATTAATTTTTCTACAGCAAAAGCACCCATTTTTGTTGCAAGAATTCTATCTAATGCAGATGGAGTTCCACCTCTTTGAATATGTCCAAGAACTGTTACTCTCATTTCACTTTTAACTTTACCTTTTAATTGACTTGCTATATCAGAAGCACTTCCTACTCCTTCTGCCACAACAACTATATCATGCAATTTACCTATTTCTCTTCTTTTATTAATTTGATCAGCCACTTCGTGAACTTTAAATCCCTCTTCTGGGATAAGTAAAGCATCTCCACCACCAGCTAAACAACTGTATAAAGCTAAATCTCCAGCATGACGTCCCATTACTTCAATAAGATAAGTTCTTTCATGAGAAGTTGCTGTATCTCTTATTTTAGATATTGCATCTAATACTGTATTTAATGCAGTATCAAACCCAATTGTGTAATCTGTCCCAGCAATATCATTATCAATTGTTCCAGGAATCCCAATAGCTTTTATTCCATGCTCTTTGTATATTAAATCAGCACCATGAAAAGAACCATCTCCTCCTATTACAACTAATCCTTGAATATCATGTTTTTTCAAAATTTTTGCAGCTTTTGCTCTTACTTCTGGTTGTTTAAATTCTGGGCATCTTGCTGTTAATAAAACTGTTCCACCTCTATCTATGATTCCACTTACATCTCTTGAACTCATTTCAAAGATTTCATCATTTAACATTCCTTGATATCCTCTTTTAATTCCAAAAACTTTTAATCCTTTATTCATTGCAACTTTTGCCGCTGCTCTAACAGCTGCGTTCATTCCTGGCGAATCTCCTCCGCTTGTTAATATTGCTATGTTCTTCACAATGATTCTCCCCTCCACTGTAATGATTTTATATTTTTTTACTTTTTTCACAAAGCAACCACTCAAAATATCTTTTGTTCTAATTTCAAATACCATTATATAACAACTTGTAAAATTTTTCAAGCTTTATATTTCTTTATACTCTCCATAACTTCTATATTTTTTATATCTTGCATCTTTTAGTTCTTCTATGCTTAACTGTTTTAGTTCTTTTAATGTGTCAAGTATCTTATTTTTTAATGCTTTTGATGTTGCATCATAATCTCTATGAGCTCCCCCAATTGGTTCTTCTATTATTCCATCTATTATTCCTATATTCTCAAGATTTTCGCTATCAATTTTAAGAGCTATAGCTGCTGTTTCAGCTTTTGAGGAATCTTTAAATAGTATAGCTGCACATCCTTCTGGCGATATTACCGAATAAGTACTATTTGAAAGCATAAGAACTCTATCTCCAACTCCCAATGCCAAAGCTCCTCCACTACCACCTTCCCCTATTATAACTGATATAATCTGAGTTTTTAAACCTGCCATTTCAAGTAAATTTCTTGCAATTGCTTCTCCCTGCCCATGTTCTTCCGCTTCTAATCCTGGATAAGCTCCTGCTGTATCTATTAGAGTTAATACTGGTAATTTAAATCTTTCTGCCATTTTCATCACTCTTAATGCTTTTCTATACCCTTCAGGATTTGCCATACCAAAGTTTCTATATAAGTTTTCTTTTACATCTCTTCCTCTTTGATGTCCAATAATCATAAAAGCTTGTTCACCAATTTTTCCAATTCCACATACTAATGCTGGATCATCTCTAAAAAGTCTATCCCCATGTAGTTCTTGAAAATCAGTTACCATTTTTTCTATATAATCAAGAGTATATGGCCTTTGAGGATGTCTAGATACCATATTTTTTTGCCATGGAGTTAAATTTGAATATATATCTTTTAACTTAGAATTTATCTCATTTTCCATTTTTTCTATTTCCAAAGAAAGATCTATCCCTTTTTCTTTAGAAAAATTTTGAATCTCTTTTATTTTTGATTCTAATTCTTTTATCTCATTTTCAAATGACAAATAATGCATTAATTTTTCACCTCACCAAATCCTAGATTTTTTATAAATTTATATAAAAATTCTTTCATCTCTTTTCTTTCTACAATAGCATCAAGCATTCCATGTTCTAATAAAAATTCTGATCTTTGGAATCCTTCTGGTAATTTTTGATGTATTGTTTGTTCTATAACTCTTGGACCTGCAAAAGCAATTAATGCACCTGGTTCAGATATATTTATATCCCCCAACATTGCAAAACTTGCAGTTACTCCTCCTGTTGTTGGATTAACTGGAATAGAAATAAAAGGTAACCCTTTTTCTCTTAATCTTTCTAATGCTGCTGACGTTTTAGCCATTTGCATAAGAGAGAATATTCCTTCTTGCATTCTTGCTCCACCAGAAGTAGCAATTGCAATAAAAGGTATTCCTAATTCTATACTTCTTTCAATAGCCCTAGTTATTTTTTCTCCTACAACACTTCCCATACTTCCACCCATAAAACTGAAATCCATAACAGCAATGCTAACTTTTATTTTATTAATATTTCCTATTCCACTTATAACGGCATCATTCATCTCTGCCTTTTCATGTGATTGCTCTATTTTTTCTGCATAACCTGGAAAATTCAAAATATCTTTCGAAAATAAACTGCTATCATATTCTACAAAAGTTTCATCATCTATTAATTGTTCTATTCTCTCCTTAGCACTCATCCTAAAATAAAATCCACATTTTGGACAACTATTTGCATTCTCTTTAACATCTTTTATATATACAATATCATTACATCCAGAACATTTTATCCACAACTTATCAATTATTTTATTTTTAGTTTCACTTATTTTAGCTTCTTCTTTAGTTGATATAGTTGCATACTTTTTCCTGTTGCTAAATAGTCCCATTTTTCACCTCTCCTCTTTTTAATTACATCTATTTTACAAAATTTTTACAAATTATGCAAATAAAAATTGATTTTTTTCTCTATTTATTATAAAATGTATGAAATAAATATATAAAAAGGAGTTGTTTTACTTGCTTTTAAACGAATTAAGAAAAAAAATAACAGCTATAGATACTCAATTATTAGATTTAATTTCTAAAAGAGCGGAACTTGTAAAAAATGTTGGTGAAGTAAAAATTAGTTCAGATACACACACATATATTCCAGAAAGAGAAAAACAGATATTTGAAAACTTAAAAAAGCAAAATCATTCTAGTTTAAGCAATGAATCAATAGTTTCTATTTTCACAGAAATTATATCTGCCTGTAGAAGCTTAGAAACTCCATTAACTGTTTCCTATTTAGGTCCAGAAGCTAGTTTTACCCATTCAGCAGCTATAAAAAAATTTGGTTCTTCTGTAAATTTTGTTTCTCAAAATTCTATAGATGCAATTTTTTATAATGTTGAAAGAAATTTTTCTGATTATGGAGTTGTCCCAATAGAAAATACTACTGAGGGAACTGTAAGTTATACTTTAGACAAGTTTGCAAATTCAAAACTAAAAATAGTTTCAGAAATAGAATTAAAAATATCACATTCTCTTTTGAGTAAAGAAGATGATATTAATTCTATAAAAAAAATATATTCACATCCACAATCTTTTGCACAATGTAAAAATTGGATTATTAATAATTTAAAAAATGTAGAATTAATAGAAGTCAGTTCAAATTCATACGCTGCAAAGCTATCATCTAACGAGCCTAACTCTGCTGCTATTAGTCCTAAAATTGCTGCTTCTAGATATAATTTAAATGTTTTAGCTGAATCTATTGAAGACTCTGAACACAATAGCACTCGTTTTTTTATAATCGGAAAAAATATAAACGCTCCTAGCGGGCACGATAAGACTTCATTAATGTTTTCTCCAAAAGAAAAAATAGGAGCTCTTTATGAAATTTTAAGAATTTTTTATAATTATAATATTAATTTAACTATGATTGAATCTAGACCAAATAAAAAAATCTCATGGCAATATATATTTTTCATTGATATAGAAGGTCATTATGAAAACGATATAATAAAAAAAGCTTTAGAAGAAATAAAAAATAGTTCTACTGATTTTAAAATTTTAGGTTCTTATCCACAAAAATAAATGTTTTCAAACATTATATTAAATCAAATATCGATATTTATTCTTATAAGGGCAAACCTCGTGTTTGCCCCATTTTTTTATTATTTTTTTGCCGAAAGAGTAAAAATAATTTCAGTTCCACTTTCTAATTTTGAAGTACACCAAATTTTCTCTCCCATTAATTCTATTATGTTCTTTGCTATTGTAAGCCCCATTCCAATACCAGAAGCCTTATATTCATATACTCCTGAGTGATGAAATTGTTCATTTACTATTGTAAAAAATGGCTTGAATATTTCATTTACATAAGTTTGTTCTATCCCAACGCCATAATCTTTAATAGATACCTCAATCTTTTGTGTATTCTTATTAAATTTAGCAATAAATTCTATTTTTGCTCCATCAGGCGAAAATTTTATTGCATTCATCATTATATTTACCAATGCAAAATATAACAATTTTTTCTTGTCAGTTATCGCAGATGGAATTTCTCCATCTTTTATTAAAATTAATTTTTGAGATCTTTTCTCTAAAAATTCTTCTACTAATATTTTTAAAGATTCAAATAACTCTTCTATAGTTACTTCTGACTTCTCAATTATAATCTCTTTTCCTTCGTTACTAACTGCGAAAACTTCTAACATAGAATTTACAATCCTAGTAAGTCTTTCTACTGATTTTTTTAATTTGGAAACTGTATTTTTAGTAGAATTACTATCTAATTCTATTTCTAACATCTCAGCATATCCATTAATTAAAGTAATTGGAGTCCTTAATTCATGAGATGAGATAACTAAAAACTTTTTATTTAATTCATATGCTTTTTTCAACTCTTCATTTTTATCTTTTAACTCTTTATTTATTTTTTCTAGTTTTGTATACAATTCAGAATTTTTTAATAAATTTATTGCATGAGAAATAAATATCTCAAACAATTTAAAATGTTCTTCATTAAAATCTAACTTATTATCTTTATAAATAATTCCCATTGCAATTAATTTTCCTCTATTTTTTAATGGAATTACTAAAAATTCACCGCTTATAAAAATATTTTTTTCTTTTTCAGCTTTAATTTTTAAAACCTCAATGTCAATATCAGAAAATTTTTCTAAATCAGTTTCTATTTTATTTTCAAAATAATTTTCACCATTATCATAAAAAATTATCATTCCTGATTTTAATTCTAAAATAGATAATATCTGTTTTAAAATTCCATCTAAAATAGTTTTTAATGCAGGTGGTTTTATTCTTTCAATTTTATCTATGCTATTTATTACTTTTTCTAACCCTTTTTTGCTATTAGATATAACTTCATATTTTTCCACTAACTCTTTTGAAAGTGACCATTTTAAAGTGAGAGAAAGCGCCATTTGTTTTATTTCCTCTATATCAAATGGTTTTTTTAAATATAACAATTTATCATGAGATTCAAGAGTTTTCAATATATCTGCTCTACTTTTATCACTATAGGCTGTCATAATAACTATTTCTATATCCTTATCAATTTCCCTTATTTTTTTAGCTGTTTTCAATCCATCCCACCCTGGCATACGCATATCTATAAATACCACTGCATATGGCAAATTTTCATTTTGACTTTTTTTTACAAGTTCAAATCCTTCTTCTCCTCTGTCTGCAATAGATACTTCATATTTCTCTTCTATTTCCACACTCTTTTTTTTATCATTCTCAAAAAAATCTCCTAATATATCTTCTATTTCATCCTTTTCTTCTTTTCCCAATATTCTTTTTAAACTATTTAATACATCTACTTGGTCATCTATAATCAATATTTTCCTATTAATAGAACTAATAATAGTATCCATTTCCTCAACTCCTATTTTCGATAGTATGTTTTTGGTGCTTTTTTCCACTCTTTTAGTATTTCTAGCTCTTCTTCACTAATATATCCTTTGTTTAAAGCAACTTCTATAAGAGTATTGTAATCTGTTAAAGTATAGAATTTCACTTTTTTTTCATCAAATCTATCTACTGCCTCTTTAAAATTATATGTAAATATTGCAACTAATCCAAGAACATTTACTTCATTTTCTTTTAAAACATCAACAACCTTTAAAGAACTTCCACCAGTAGAGATTAAATCTTCTACAACTACTACTTTTTCTTCTTTTTCTAATTTTCCTTCAACTTGATTTTTTTTACCGTGTCCTTTTGAACTTGATCTAACATATGTCATTGGCAAATTCATTTTTTGAGATATAAATGCCGCATGCGGTATCCCTGCTGTAGCTGTCCCTGATATGACTTCTACACCTGAAAATTTATCTTCTATTAAATCTTTCATTCCTTCTGCAATTAAATCTCTTATTTCAGGATAAGAGATAGTTAATCTATTATCACAATAGATTGGAGATTTTATTCCTGAAGCCCATGTATAAGGAGATTTAGGAGATAACGTAACTGCTCCTATTTCTAATAATTTTTCTGCTACTTTTACTTTATAATTCATACTTAAACTTCCTCCTAATATTTTATATATTTATTTTACAATATTACAATACAAAAATCAACCACTATATCTTATTTTACATCAAAACAAAAAGATATCTCGAATAAATCAAGGTATCTTTTTATATTTTCAATCTCTATTTTTTAATTTCTCATATTCATTTTTTATCAATTTCATATCTTGCCATGTATTCCACTTTGGACTTCCTTGTGTTGTACTTTGATTTCTAAGAAGATAACTAGGATGAAATATAGGTATTACTTTTATATCTCCTTCCCAATTAAAAATTTTCCCTCTTAATTTTGTAATTCCGATATTAGCCTTTTCTTTCAAAAACCATTTTGTTGATATTAATCCAACAGTTACAATAATTTTTGGATTAATTAATGCAATTTGGGTTTCTAAATATTGGCTACACATTTTTATCTCATCATCTTCAGGATTTTTATTATCTTTTGGATGACATTTCACAATATTCGTTATATATACATCTTCTCTTGACAAATTCACAGAATTAAATATTTTAGTAAATAGTCCTCCAGATTTCCCCACAAATGGTTTCCCTATAACATCCTCTTCTGCTCCTGGTGCTTCTCCTACGAACATTATAGGTGTGTTTATATCTCCTTCCCCAATTACAGGTATTTTTCTATTAAAGTGTAAATTACATTTACTGCAATGTTTTATTTCAAATTCTAATTCTTTCCACAATTCCATTTTTAATACACCTCTAATTTTATATATAATTTATCCATAAAAAATCTTCACTTTTCTTTTTACACGCACTATATATATCTATATTTCAAATATAGTGCTTACTCTGTCCTGATGTGCTACTTCTATATCTATTTTAATATCATTATCTTTTAAATAATTAAACAATGTTTCTTTTGCTTTCTTATGTGTATTATTATCTTTACTAATATGAGCTAGATATACTTTCTTTAATTTTTTTGAATAAATTTTATTTATAAACTTAGCTGTATCCATATTAGATAAATGCCCATTTCTTCCTTTTACCCTATTTTTTAAATCCCAAGGATACGGACCATTCATTAACATTTCATAATCATAATTACTCTCTATAATAATAGCGTCACTATCTTTAAAATTTTCACTAACTATATTAGTAGCATAACCTATATCTGTAGCTATAGCAACTTTTTTTTGTCCAAAATTTATTGAAAATCCTAATGTATTTACTGCATCATGCATTACTTTAAAAGGTTTTATTAATATTTCTGAATCAATTATAAAATTATCAATTATAAAATTTAAATTTTCATCTGATAATTTTCCAAGTTTTTTGGCACTATAATCATAACTTTTTTTAGCCATATAGATAGGAATATTATATTTTCTCGAAAATATTCCTGCACCTTTTATATGATCTGAATGTTCATGAGTAATAAGGATGGCTCCAATTGTATCTGGAGCCACTCCTAATTTATTTAATCTTTTTTCTATTTCTTTCCCGCTAAATCCTGCATCTACAAGAAATCTAAAGTTATTTTCTTCTACAAATACTGAATTTCCAGAACTTCCACTTCCTAATATTGCTATTCTCATTTTTTAAATACTGCTCCTTTATCTGCTGAAGTTACATTTTCTGAATATCTTTTTAAAAAACTATATTCTGTTTCAACTTTAAATTTAGGTAATTTTTTTAATCTTTCTTTTATTATTTTATCATCAACTTTTAAACTTATTTTTCTATTTGGTATATCTATCTCTATAATATCTCCATTTTCTACTGCTGCAATTACTCCACCTTCTGCTGCTTCGGGAGAAATATGTCCAATAGAGGCTCCTCTTGTAGCACCACTAAATCTACCATCAGTTATTAATGCTACATCTTTATCTAGTCCCATCCCTGCAATAGAAGATGTAGGTGTCAACATTTCTCTCATTCCAGGACCACCTTTTGGCCCTTCATATCTAATAACTATTACATCACCTTTTTCTATTTCCTTATGTAAAATAGCATCTACAGCATCCTCTTCTGAATTATATACTTTTGCTGGCCCACTATGAACAAGCATCTCTTTTGAAACTGCCCCTTCTTTTACAACAGAACCATCTTTTGCAAGATTCCCTTTTAATATTGCAAGTCCTCCTGTTTTATGAACTGGAGCATTAAATTTTCTAATTACTCTTTCATTTTTTATTCTAGCATTTTCAATTAATTCTGCTTGTGTTTTTAATGCTACAGTCATTGCTGTTGTATTTAAAACTCCATTTTCCGCTAGTTCTTTCATTACTGCAGTAACTCCTCCTGCATGATATAAATCTTCCATGAAATCTGGCCCTGCTGGAGACAATAGACATAAATGTGGAACTTTATGACTCATAACTTCAAAATCATCTAAACTAAATTCCACTCCTGTATAATTTGCAATTGCCGTCAAATGAAGAGCTGTATTAGTTGATCCTCCTAAAGCCATATCTACTGCAACTGCATTTAAAAAAGCCGCTCTTGTCATTATATCTTTTGGTCTTATATCTTCTTTTACAAGATTTAAAATTTGCATACCTACCTCTTTAGCTAATCTTATTCTTTCTGAATATACAGCTGGAATAGTTCCATTGCCAGGCATTCCCATTCCTAACGCTTCTGTTAAACAATTCATTGTATTAGCAGTATACATTCCAGAACATGAACCACAAGTTGGACAAGCATTATTCTCTACTTCTTCTAATTCTGTATCTGTTATTTTACCATTTTCATATTTTCCAACATCTTCAAAAACATTGCTAAGTCCTATCTTTTTATTATTTACTCTTCCTGCTAGCATTGCTCCACCACTAACAAATATACTTGGTACATTTAATCTTGCAGCACCTATTAACATTCCAGGAACTATTTTATCACAATTTGGTATAAATACAATTCCATCAAAAGGCATTCCAATACCAGTTGCTTCTATTGAATCAGCTATAATTTCTCTTGTTGGTAAAGAGGCTTTCATCCCATCATGATTCATGGCTAGCCCATCACAAACACCTATTGTATTAAATTCCATTGGAACTCCTCCAGCTAATCTTACTCCAGCTTTTACAGCTTCCATTATTGTTCTAAGATGCATATGCCCTGGTATTATTTCATTAAATGAACCTGCTATCCCAATTATAGGCCTTTTTATCTCATCATTTGTCAATCCTAAAGCTTTTAATAACGATCTATGTGGAGCTCTTTTCACTCCTTTTTTCATTGCATCACTTCTCATTAATATTCCCCCTCCTCTTATTTCCTTAAATCATTTTTAAGATGTTTTAATTCTTATTTTTGATAATTTGGTGCTTCTTTTGTTATTTGTACATCATGAGGATGACTTTCTTTTAATCCTGCTCCTGTAATTTTCACAAACTTACCATTTTTTATTAGATCATCAATTGTCGCAGTACCACAATATCCCATTCCTGCTCTCAATCCACCTTCTAATTGATATACTACATCATGCAATTTTCCTTTATATGGAACTCTTCCTTCTATTCCTTCTGGAACAAGTTTTTTTACATCTTCTTCTACATCTTGGAAATATCTATCTTTACTTCCTCTTTTCATTGCAGCTAAAGAGCCCATTCCTACATATACTTTATATCTTCTTCCTTCGTAAATCATCTCTTCTCCAGGTGCTTCTTCTGTTCCTGCAAAAAGTCCACCAATCATAACTGCACTAGCTCCAGCTACTATTGCTTTTACGACATCTCCTGAATATTTTATCCCACCATCTGCAATAACTGGTATATTATGTTTTGATGCTAATTGATAAACATCATTTACTGCTGTAATTTGTGGAACTCCTACTCCTGCTACAATTCTTGTAGTACAAATAGATCCTGGTCCAACTCCTACTTTTATTGCATCTGCTCCTGCTTCAATCAAATCTTTTGCTGCTTCTGCTGTTACTATATTTCCACCTACAACATCAATATTAAATTTAGATTTTATTTTTCTAACTGTTTCTATTACTCCATTTGAATGGCCATGAGCACTATCTACTGTTATTATATCTACTCCTGCATTTATAAGAGCTTCTACCCTCTCTAATGTATCTGCAGCTACTCCAACTGCTGCTCCAACTCTTAATCTTCCGCTTGAATCTTTACAAGCATTTGGATAAGCTTCAGCTTTATCTATATCTTTTATTGTTATTAATCCTTTTAATTTATAATCATTGTCTACTATTGGTAACTTTTCTATTCTATTTTCTAATAAAATAGATTTTGCCTCTTCTAAAGTTGTTCCTAAAGATGCTGTTATCAAATTCTCTTTTGTCATGATTTCATAAACTTTCATATTGTCATCTTTTCTGTATTTAAGATCTCTATTTGTTATTATCCCTATTAAATATCCTTCTTCATCCACTACAGGTAATCCAGATATTTTATACTTTTTCATTATTGCTTTTGCTTCAGATATATAACTATCTGGTGCTAATATAACTGGATTTGTTATCATCCCATGTTCATATCTTTTTACCCTATCGACTCTATCTGCTTGTTCCTCTATACTCATATTTTTATGAAGTATCCCTATTCCACCTAATCTTGCTAAAGATATTGCTAATTCCGCACTTGTTACCGTATCCATTGCCGCACTCATTAATGGTAAATTTAAAGTAATATTTTTAGTAAGTTTTGTTTTTAAAGATACCTCTCTTGGTAATACTGATGACTTTTGTGGCACTAACAAAACATCATCAAACGTAATGCCTTCTTTCACTATTTTCCCATTTAACATCTATTTACCTCCCTATTTAAATTGTTTTTTTTATTAAAAATAATTATATCATCTTTTGTATCATATTTCAAGGACTATTTAAGGGTTTTATAAAGTATACTTTTTGTATAAAAAACAATCTTAACACAGCAATCTAAAAGAAATATAATTGAATTTAACCTCTTTTTACATATAATTATTTTACATTATAAATATTTTTTAAATGATTAACTTCTATAATTCTTCCTAGAGAAAAAGCCATATATAGAGTTATATTTTTTTTAAAACTTCTAATCTTCAATTTCTTTGCCTCTAATCAACATTGAATTATTATAACATATCTGTTATAATAATTTTCGTCTTTGAAAAAGGGCCTATAGCTCAGTTGGTTAGAGCACTCGGCTCATAACCGAGTGGTCATTGGTTCGAATCCAATTAGGCCCACCATATATTAATTCCAAACAACTATTAATTATTAATAGTTGTTTTTTTTAATTATAAAAAATAAAAGAGCAAAGTTATATATAATATAGCCTTGCTCTTTTATTTTTATCTATTTTTGTCTTATTTTCATTAAATGTTTTACTGCACTAATTCCAGCAATAGCTCCATCAGAAGCAGCTGTTACTACTTGTCTTACCTCTTTTTTTCTAATATCTCCTGCTGCATATATTCCTTCTACTAAAGTTTCCATATTTTCTTTAGTTTCAATAAAGCCTTTTGAATCAAGTTTTGCAAATGTAGCATATAAATCTAAACTTGATTTAGTCCCTAAATATAAAAAAGCTGCTGAAGAATCATACTCTTTTTTATCCCCATCTATATTAACAATTACTTTTTCTACAAATTCAGTTCCTTTTATTTCTTCTAAATTCGCATTTGTTATTAATTCTATTTTTTCATTACTTTCTAAACTATTTTTCAAATCTGGTTCACATTTTATCTCATCTTCTTTTATGAAAAATAAAACTTTACTCGCATATCTTGTTAAAAATAGTGCTTCTTCTGCTGCTTCATCTCCATTTCCAAAAACTGAAACTGTCATATCTTTAAAAAATGCTCCATCACAAGTTGCACAATAGGATACACCTTTACCTAAATATTCCTCTTCTCCTAAATATTTTTTTCCTTGTTTATCTCCTTTTCCAGTTGCGACAATAATCGCATCTGCTTGATAAGATTGACTACTTGTTTTTATTGTTTTAGGTGAAGACATTGGATCTATTTCAAATAAAGTAGCATTTTTAAAATCTACTCCAAATTTTTTTGCATGATTTTTCATATTTTCATATAATTCTTTTCCAGAATGTCCTTTATCAAACCCAATATAATTATCTATTTGATGAGCCATTAATAAAGCTCCTTCATTCTCTTTTTCAATAACCAAAGTAGAAAAATTTGCTCTTGCTGTATATAACGCTGCAGAAAGTCCTGCTGGTCCACCACCTATTATAACCACATCATACTTGTCATATTCATGAGCATTTTCTGTATTTAGCCCCAAACTAAAATCCATTTTATCCCTCCTCTATATCAGCGAGTTCTAATTGTAATAATATTTTTTCTGCTGTTTTATCTGATATCTTATAACAAACTTTTTTTCCATCTTTTTTACATGATATTATACCACTATTCCTCAAATGAGCTAAATGTTGACTAACGCTTGATTGTGGTATATTTAAAATCTCTTCCATATTTCCTACACAAATACCATCTTCATTTTTTTTTAATAAATATAAAATTTTTAATCTAGTTTCATTTGCCATCATTTTTAATACGAGTACAGCTCTATCCGTATCTATATTATTACTCATTATTTCATCAACTCTTTTATTTTTTCTATAAAATGAGCTTCAGGATAATTCCCTTCAAAACTAACTGACTTTCCATCTTTAGATTCTATAACTATTTTTGGAACAGCCATTACTCCATATTTTTGAGATACAACTGGAAATTCATTAGCTTCTATTGCTTCTCCTAATATATTTTCATTTTCCATAGCAAACATATGTGCTTTTCTTGCTGCTCCTGGGCAGTGAGGGCAAGTTGGTGTTACAAATACTTTTATTGTTATCTCTTTATCTATTGATTTTACTTCTTCTAAAAGATCAGTTGCTAAAGCACTTTTATCTTTAGAAATATCTATTAAGTTTTCTATTAAAGCTGCAAATTCGTACCCTGATGGTATCCCATAAAATCTAACTCCATAATCTTTTTCTCCAACCATTGCAAATGCTGGATACATTGTAATTCCATATTTTTCTACTAATTCTTTATCCTCTTCTGAATAAAATTCTAATTTAATTCTTTCATCCAAATCGGAAACCTCTGTTAAAATATCTTTAAATGTATCATTATTTTCTTTATTTTGATTTTCTGAAGTAAACGCTATTACAGTTACCTCTTTTCCTAATTCTTTTCCAAATTTTTCTTTTAAAAATTTAATATCTGTATCTTTTAATAATCCCATTTTTCTCCTCCTTGAAATATTATAATATTAGAATATGTTTTTATTATACAATCTTTTTTTTATAAAGTCAAGATTTATTTTAACATACCTTTTACAATCATATCTGTAGCTTCATCTTCATCTAATCCTCTTGCCATAAGTGTTTCTAACTCTTTTTTATTTACTCTTCCAATACTTGCTTCGTGAGTCAATTCAGCCAAATCATTTGTAACTTTTATAATTGGAATTGCAGAAACTTCTGCATTTTTCCCTTTTACAACTTCAACACAATCAACATGCCCTTTGCAATATGGAGCGTTTCCATATATTTCTGTATATACCTCACTATATGTATTATCTGATGCAAAAACTCTTGCTTTTACTGTCCCTTTGCTTTCTTCTCCATCTAGCGAAATAATTTCTTTAACTTTTATAATATCATCTTTTTTTCCATATATTTTACTATCCATTTCAGCTATAGCTCTATCCTTCAAACTAAAATTATAATATATATCTAGTTTTCCAACTCTTCCTTTTACTAATTTAAAATCACTTCTAAAGTAACCCCCATCTTCTACTACCGCTTCTGTATAAGGTATCACTTCAACTCCGCCTGTTTCACTATGATAATGAACTTCTTCATATTTCATCTTTGCATTTTTTTCAATTTTTATTTTAGATGTCATTTTATGTATTACATTTATTGCATTGGGAAAAGAACAGTGTGAAATAAATTTAGCTTCTGAACCCTCTTCTAATAAGTATTCAGACTCTATAATTTGTTCTCCTATATCTCCAGTAATTCCAAAACACATATGAACCGGCTTTTCTAATTTATACCCTTTCAAGACTCTAATTTTTGCCTTTATTCCATTCTCTATCTCTTCAGCATTTACTTCAAGCCCTTCTACTGTATTCAATCCTAATACCTTATTCTTATCGACTAACATAAATCCATTTTGCGTTCCTTTAAATATATTTTTATCAGCTCCAGTTTTTTCTACTGCATTAACTAGTGCTTCAAATTCTTTATCCATATTATCTTGATTAGTCATTTTTTTGGCTCCTTTCTTCAATTCTAACTTTATCAGAATATTCTCCTGGTTTAAAATCACAATTTGTACAAGTTCTTTTAAAATAATTTGAAATTTCTAAAGGTTTTCCAGTTTTCTTTATTGTTTTATCACAAATTAAATAAGCATAGTCGACTATTGCTGCAATATCTTCGTTATGAGTTATAACTATAGCTGTGTTCCCTTTATTTTTTATATAATTTAATATATTCACGATATTTGGAATAGATAAAGCATCAATTCCAGAGTCTGGTTCATCAAAAATAGCTATTTTTGGATTCATCATCAAAACTGAAGCTAATTCAACTCTTTTCCTTTCTCCACCACTTAAGCTATCATCTACATTTCTATAAATATATTTTTTATATTCTAACCCAACAAGTTCAAAAATATCTTTTAAATTATCACCAGAAAATCTTCCTCCCAAAGTCAAATAATCTTTCACACTCATCCCTTCAAATCTTGCAGGTTCTTGCAATGCAATTGTCATCCCTGCTTTTGCTCTTTCTGTTATTGAAAATTTTGTTATATCTTTGGAATTTAATATTATAGACCCTTTTTCTATTTTTTCAAATCCAATTAAAGTTCTTGCCAATGTACTTTTTCCTGCTCCATTACTTCCCAAAATGCTATATATCTTTCCTTTTTCAAAATGTAAATTTATATCTTGCAATATCTCTTTTTCTCCTCTAAAAACATGCATATTACGAACTTTTAACATTTTTTCACATCCTTTCAAATTTTTTCATATTATATTAATATTTTATTTGTTCATATCTTTTAGAAAAACAAAGGTATTATACAATATATTGATAGTTTTGTCATTAAATATTTATTCACAAAAGAAATTAAATATTATAATATAATTATATAATAATTTATAATATTAGTCAAGTATTTTATTGCGCTTTTTTTCCTAAAGTTTTATTTCTAAATTCCGATATTTTTAATATGAAAATAAATAAAATAAAAGCTCACGGAGGAACTTTTATTATAAATCCAAGGAGGGTGATGAAAATGTATATAGCTAATAATATATCAACCAATCAAAATCATTATAATAATTTTGATTTTACAAAAGTTCCAGAAAAAAAGTCTGAATCTAATAGTTCTAAAATTGATTTTAAAAACATAAAAACTAAAAAAATTAAAGATGTACAACAAGATTATGATTATAAACAACAGATCAATAAATTAGCTAAAAAGATTGAAAAAAATCAATTTTATACAAAAGAAGCTTCTACTGCTATTGCAGAATCATTATTAAAAAGAAAAATTGAATATGTAGCATAAAAAAAGACCTTATATAAGGTCTTTTTTTATGCTTTTAAATTATCAAATAGATATCCATACGCAACCCATAATACGACTTCAAAAATTATTACTCCTAATAATCCTAAAATTCCAAAGCTAAAATTCCACCATACCAAAATCACAACTAAATTTATTAAAACGAATATAATTTTTTTAATAATTTCATTTTCTATTGCCTCCTCTGGATTCAAAGTCCTTCATATCAGATCAACTTTTCTTTATCATCTGCAACACCTGTTAAATCTGTAAAATTAAAATCAATCCCCAAAATTCCTACAAATTCTCCATTTGAATTTGTAATAGAAGCAGAAGCTGTAACACAAAGCTTTGAAGTGGTTTGAGAAATATAATATTCTGTTAAATGAGTATCTCCATCTTTAACTACTAATTTATACCATTCTCTTTCTCTTCTATTATCTCCTTTTTTAGATATATCATGTGCTCTTTCTATCCAAGGTTGAGCAATATTATCTGTTATTTGTATTCCATCTTCATCAGTAACATATGCCATTTGAACATATCTGTTGTTTTTTATTAAATTTTCCAATACCTCTGTTATTCTATCTGAATCCATACTCATAATTTCAGGTTTAGCTGCATATCTTTCCACTATTTCCCTAGCTACTTTATCTGATTTTTCTTCTAACTCCTCAAAACCAGTTTTAACTAATTCAGTCATATATTTTTTAGATAATCTTAACATCTCTTCGTCTGAAATAGCTGTTATTCTTCCATTATCATATTCATTTTGTATCCATTTATATATATTTGTAACTCCTGGATGCTTTTTACTAACTTCTTTTTTAGGATTCAAATTCGAATTAATCCAATGAGCTATTCCAGCTACACCTGATTTGTCTGTAATTGTAACTCTAAGCGGTCTGTTTAATATTCCAGTTGTATCAAATATATTGTATATCTCCTCATTTTTCATAATTCCATCAGCATGAATTCCTGCTTTTGTAACATTAAAATCTCTTCCAACAAATGGATATCTTGAAGAAACTTGTATTTTCATCTCATTTTGCATAAATTCAGCAATCTCTGTGATTATTTGAGTATTTAAGGTCTCATCTTTTCCTTTCAAAGATAAATAATCCATAACTAGAGCTTCAATTGGCGGATTCCCTGTTCTCTCTCCAATTCCAAGTAATGTCCCATTTACTCCAGCTGCTCCATACATCCATGCCGCTGTTCCATTTACCAATACTTTATGAAAATCATTATGCCCATGCCATTCTATAAGATGAGAAGGCACATCTAACTCTTCTCTTAATAAAGATATCATTTTAGGCACTGATCTCGGTAATTTTGCTGCTGCAAATGGAACTCCATATCCCATTGTATCACATAATCTAACCTTTACATCTACCCCTGATTCCTCTCTTATTTTCATCAATTCTTCTACAAAAGGTAATACCACTCCATAAAAATCAGCTCTTGTAATATCTTCTAAGTGACATCTAGCTACAACACCATTTTCTACAACTGTTCTTACTACATCAAGATATTGCTCTATAATAGTTTTTCTATCTTTTTTTAGCTTCATATATATATGATAATCAGAAACTGAAGTCAAAATTCCAGTTTCTTTTAATTCTAATTGTTTTACCATTTCAAAATCTTCTTTTTTAGCTCTTATCCAACTTGTTATTTCTGGAAAAGGAAGATTTAATTCTTTACATTTTTCTACTGCTTTTTTATCCCTCTCGCTATACAAAAAGAATTCTGATTGCCTTATTAGTCCATTTTCTCCGCCTAGTTCATTCATATATTTAAATAATTTCACAATATGTTCTTCTTTAAATGGTGCCATAGATTGCTGTCCATCTCTAAAGGTTGTATCTGTAATCCATATTTTTTCTGGAATTTCTGGCAAAACTATTTTTCTTTCAAGTTCCATTTTTGGTACTTCTGTATATGGAAACATTTTTCTTAATAAGTTTGGTTTTTCTAAATTTACTAAATTAAATTTTTTCATTTTATCACTCCCTATTACTTAATTTTTAAAATTGTACTACTTATAATATACTTTTAAAGTATATCACATCTTAAATATATTGTCAAAACTATTAAAATTTTCTAAAAAAGCAATCAATATTTTTATATTGACTGCTTTTTTTTTATATATACATCTATTTTATATTTATTTTTAATCTCTTCTGCAACAGCTTCCGCTTTTGAATACTCTTTATACTTAGGCGTAATCACTTTATATAATCCATTCTCAAAAATAACTCTTAATTTTATTTCTGGTATTTTCTCAATTAAATTCATACAACTTTCATAATGTTTATATACACCTAATTGAACAAAATAAACTGGTTCTTTCAAAACTTCTTTCTGTTGTTTTCTGCTTTCTAATTTTGTTTCTATTATTTTACTTTTCCCCGTATTATTTCCAAAAAATGAAAAAAAAATTCCTGCAAGGATAAATCCAACTCCAATTCCTAATACAAAAAATTTTCTCACCTATTTTCACCTCATCCTTTTTAACCCTAATACAAATTCAATTTCTCCCATACTTTTTCCCATTTTCTCTGCAATCTCATATATATCTAATCCTCTTTTATAATATTCTACTATTTCATCTTCATATCCTATTGTATTCCTAATCATTGGTTTTGTTTTTGGCTTTATTCTTAAAATTTTTTCTTCTGCATTTGATATATTTTTTAATTTTTCACTTAAATTTACTTCCGCTTCTAGTAATCTTCTATATAAAATATCCATATCTGTTATTAATTTTGTAGACTTAACTATTTTTTCATCTAAATTTAAATTTAATTCTGATATTGTCATTATTTTCTTATCTAAAGTATCTGTATTAAAATTAGCTGTTCTATTGAATTCCATTGTTAAATCTACTATTTGATTTTTTAAATCAAAAAATTCTAGCTCTAGTTCCCCTTTATTTATATTATTTTTAGTAGAATGATTTTTAATAACTTTTTTCTTTTTATTTCCAGTCAAAAAAATTGCAAGCAAAGAATATAAAGATATTACAATTCCTATTCCAATTAATATATTTGTCATAAAAATCCCCTCTTTTATGTATACTTACATTTTTTTAATTCGAATGGCTTAAAATTAGTTCTCTATTTACTTAAAAAATCGCATATTTCAAAAAAAAACGGTGGAGCTTATTTTCTGAATAAATTTATACTTTCCTAGTAAATAAAAAGAGCCATACACCGATATTTGCAGCATATCAATATACGGAAATTTGTTAAATAACTCAAGTAAAGCTACCCCATAACACCCAGAAAATGCGGGTTAGTGCTGCTTCCTTCCAGACCTGACACGGTTCCCCGTGTTTCTGCCGTATAGGACTCTACTATCAACATTACTATAACAACTCCTGCTATACCAACATACTTCTCGTATCGGACTTCACTCTCACTAAAGCGGGTTGTGAGTTACAGGGCACCGCTATCTCCCCAGCTAGTATGGCGAATATTATTATAACATTGATATTCATATTTGTCAACTAGTTGTATTCACTTTTTTCTCGCTTTTTAAGAGTTCTTATTATCTTTTATCTATAACTTTTTTTATTTTATAAAACTATATTATAAAAATCTAAATATATAATACTCAAAGAACACTTAAAAAAATTTATTTCATATTTTATTATAAAAGCACTTTAAATTATTGCACATTTTATAATAAAATATAAAGATTTAAGCTATCCTCACTATATAAGTTATGAAAAGGACAGGCTAAAAAGCCTGTCCTTCTTTTTTATTTCCCCCATGAAGGTTCTATATGTCCATATGTTTCATCTTTTCTTTTATATACTACATTTAGCTCTTCAGTTTCATGATTCATAAATGCATAAAAATCTTGGTTTAAGCTGTTCATTTGTAAAATTGCTTCTTCAATACTCATTGGTTTTGGTGAAATTAATCTACTTTTAATTATCATTTTGTCATCTTCTTTAGGTTCTAATTTACTAAAAATTTCTTTTATATTTTCTTGATGATGTTGTCTATTTTTTAGTTTTTCTTTATATTTTTTTATTTGAACCTCTAAAACATCTACAACTTCATCAATTGCAGCATATAAAATTTTATCACTTGATACAGCTTTTATTTTTGTACCATTAGCAAATAATAATACATCAGCAATATGTTTATCTCCTTCTGTTTTACTGTGTTCCACTGACAAAGTGATATCAATTTCTAAAATGTTTTCAAAATACTTTTTTATTCCTCCTATTTTTTTCTCTGCATAGTTTCTTATTGCATCTGTGATTTCTAAATGTCTACCACTTATGATAATTCTCATAAGTATCACTCCTTCCGTTTTTTAGTTTTAGATCTGCTATAATATCGTTCTAATTATATTATACTCATTTTTTTTTTATTTCCTCTTTTTTTTTTTATTTTTGATAACTTTTTTATCTTTTTTTTCGCACTACCTTCCTACCTCAATATATTTTTTGAAACTAAATTGCTTATATATTACTATAATATGAATTTAAACTTTTTTTTGATAAAATGGGGCTCCGGTTTGCCTATTAATTAGGCACCTCCTTTTCCGGAGTTCCTCTTTTTTTTATAACTTTATACATTTTTATTTCAATTTCATCTTTTGAATTATCATATTCTACTCTATCCATTATTTTATGTATTAAAAAGATCCCTCTACCATTATCTCCCAACTCTTCAACTTGTTCTGGATTTTTTAAAACCGCATGTTCATCCACTGTTTTTTGATTAACTCCATTTCCATTATATCTTATAATCAACATTACATCTTTTTCTGAGAGTTTAATTTCAAATTGAATTTTTTTATTTTTATCAAATTCAACCCCGTATTTCATTGCATTTGCAAGTGCCTCTCCTATAACTAATTCAATATAATATATTGTTTCAAAATCATAATTATATTTTTCTGATAATTTTCTAAATTCATACCTCATTTTTTGTATCTCTTCTAAGTTTGAATTCAAATAAAAAATATTTTCACAATACATACTAACCTCCTAATTGAAGCTTTCCTTTTTTTAATATATACTTTTTATTAGTTATATCTCCCAATTCTCGGCTATGAGTTACAACTACTATTGTTTGTTTTTTTTCAATATTAATTTTTTTTAGTAATTGGTATATATGTTCGCTTGTTTCATCATCCAAATTTCCTGTAGGTTCATCTGCCAAAATCAATGCTGGTTCATTTATTAACGATCTAGCTATTGCAACTCTTTGTTTTTCCCCGCCAGAAAGCTCTGATGATTTATGATTTAATCTATGTCCCATATCTACATCTATTAATAATTTCTTTGCCTCTGCCTCTACCTCTTCTTTAGATTTTTTTTTATTTATTAATGCTGGCAACATTACATTTTCTAATGCAGTAAATTCTGGTAGCAAATAATGAAATTGGAATATAAATCCTAACATTTTATTTCTTATTTCATCTCTATTTTTTTCTGTAAAATTGTTTATAATTTCTTTTCTATAATATACATTCCCTTCTGTTGGAACATCTAAGATTCCAATTATATTCAACAATGTACTTTTTCCAGAGCCTGATTTTCCCATTATTGATATAAAATCACCTTCTTCTACAGTTAGATTTAAATCATGTAAAACACCTACAGTAAATTTTTTATCTTTATATTCTTTCTTTATATTTTCTAATTTTAAAATTGAGTTACTCATATTTTAATGCCTCCACTGGTTTTAAATTTGCTGCTTTATATGCTGGAAAAATACTTGAGATCAATACAATTATAAATGTAGCTCCTGAAACAACAGCAAACTCTCTCCAAGATATATTAACTGGTAATTTATCTATATAATATATCTGAGATAAAAAAGATATTGAGTATGTTTTTAAAATATATAATATTATCCCAGAAATTACTATCCCTAAAATTATACCAACTACTCCTAAAATCAACCCTTCTAGTAAGAATATTTTCATAATATTGTCTTTACTATACCCAATTGCTCTTAATACCCCAATATCTTTAGTTTTTTCTCTTACCAATGTATTTAATATTACACCCACTACAAATCCTGATATTATTATTATCAAAGATAATACAAGTATCATAACCATCTTTTCTAATGATAAAGCTCTTAATAAATTTCTATTTTTTTCTGACCATGTTCTATATGCTAATCCCGTTTTATTAAATATTTCTTCTCCTATTTTTTTTGCAGCATATATATTTTTTATTTTCACCTCTAACGAAGTTGTTGTATCTCCAGAATCTGATAAAATTTGTACTGTCCTAAGAGGTATTATTACTAAAGAGGTATCAAAATCATAAAATCCAGATTGAAAAACTCCAACTATTGTTAAATTCAACTCTTTATTTTCTGAAGAAATAATTTTTACCTTATCTCCTAGTTTTGCTCCTAATGCATTAAAAAGTTCTTTCCCTACTATTATACTTGATAATTTATCAAACTTCAAGTGACCTTTTATTATTTTTTTATCAAAGTGAAGATTTTTTATAGCATCTTCTTCTGATATACCCTTTATGCTAATTCCAGAAACATAATTTCCAGAAACATCCTCATATTTTATTATCCCTTGTGTATCATATACTGCAGCTACACTTTTTACACCTTTTATAGAACTAATTTTTTTCTCCATCTCTGTATAATCTGATATAGAACTTTCTGAATTTGTAAGAGTTATATGAGCTGTCATAGATAATATATTTTTTATCATATTTTCATCAAGTCCACTGGCAATTCCAAGAGACACAAGTAAAACTATCATTCCTATTGCAATTCCTATTACAGAAATTATACTTTGCTTTTTTCTCTCTTTTATATGTTTTGTAGCTATAAATAATTCTACCATATATCCTCCTTTTATTTCTAATTTTTAAAGATTTTCTGAATAAATTTATACTTTCCTAGTAAAAAATAAAAAACAAAAGGCAAGCATAAAACTTGCCTAATCTCTTATTTTTTTCTCATATGTGGGAAAAATATTACATCTCTTATAGAAGAAGCATTAGTAAGCAACATAACTAATCTATCTATCCCTATCCCAAGTCCACCTGTTGGAGGCATTCCATATTCTAAAGCTTGCACAAAATCATCATCCATCATATGGGCTTCATCATCTCCGCCTTCTCTTTCAGATAATTGTGCCATAAATCTCTTTTTTTGTTCTATAGGATCATTTAACTCTGAATAAGCATTTCCTATTTCTCTTCCATACATAAATAATTCAAATCTATCTACAAACTCATCACTATCTTTTTTACTTTTAGATAAAGGTGATAACTCTTTTGGATATTCTGTTATAAATGTAGGCTGAATCAATTTTTTCTCTACTCTTTCTTCAAAAATTTCATTTAATATTTTAAAATATGACATCTTTTCTTCTATTTCTATTCCCAATTCTTCAGCCGCTTTTTTTGCTTCTTCTTGAGTTTTTATAACATTAAAATCAACGCCTGTATATTCCTTTACTGCATCTATCATTGTAATTCTTTTCCAAGCTTTTCCAAAATTTATTTCAACACCTTCATACTCTATAGATTCTTTTCCAAACATATCTTTCACTAAATTAGATACCATTTCTTCTGTCAAATTCATCATATCATTATAGTCAGCATACGCTTGATAAAGTTCCATCATTGTAAATTCTGGATTGTGTCTTGTAGACATTCCTTCATTTCTAAAATTTCTATTTATTTCAAAAACTCTTTCATATCCACCAACTACTAATCTTTTTAAATATAACTCTGGAGCTATTCTTAAATATAGTTCCATATCCAATGTATTATGATATGTTATAAATGGTTTTGCAGTTGCTCCACCTGCCACTGGATGTAACATTGGAGTTTCAACTTCTAAAAAGTTTCTTTTTTCTAAATATTTTCTAATATAATTTATTACTTTACTTCTAACTAAAAATGTTTCTTTTACTTCTCTATTCATTATTAAATCTACATATCTTTGTCTGTATCTTGTTTCTACATCTGTTAATCCATGAAATTTTTCAGGCAAAGGCCTCATGTTCTTTGAAAGCAATTCAAAATTTTGTATACGAATTGTTATCTCTCCTGTATGAGTTTTAAATAATATACCTTCAATACCTATAAAATCTCCAACAGCCATTTTTTTATAAATTTCGTAAGCATCTTCTCCTACTTCATCTTTTCTTATATAATATTGAATTTTACCTGTTGTATCTTCTACATGTCCAAAACTTGCTTTTCCTTGTCTTCTATACGCCATTATTCTTCCTGCTGTTTTTACAACAACTTCTTTTTCTTCTTCAAACATATCCATAATATCTATTATATTATTTTTTTTATCATACTTTCTACCATATGGCTCTAACCCCATCTCTTCTAACTCTTTTATTCTTTGCAATTTTAATTTCATAACTTGATTTAATTCTTTTCCTTGATTTGGCATTGCTTAATTCTCCTTTCTGTTGCTAAATTTTATTTTATAAATATTTGCTTTTACTTCCCATATTGTATTTGGAAATAAGTTTATTAATTTATCAAATTCACTTATACTTTTCTCATAATTTCCCTCTTCATAATATATAACAGCTATATTATATAATTCTTCTGGAGCTTTTATTTCCCCTTTTAAAATTATATTTTTATTAAAATATTTTAAACTTGCCACATAATCTTTCTTCAAAAAATTTAATTGCCCTAAATCAAAGTATATTTTTTTTAATAACTCTTCTTTTGGAACTTCTAACAAAATCTTATTATAATAAATTTTGGCTAATGATAAATTATATTTTTTTAATGATTTTTTCGCTTTTTTATAATACTCTTTTAATTTTATATCTTTTTTATAATTATCAATTTCAGACAAAATATCCTTTTTTTCATCATCAGGAATATTCTCTATTATATTTTTAATTTTATTTATTTCTCCATTTTTCAAATAAATATTAGATAACTTATACAAATTAGATTTTTTATAATAAACTATAGATTTTTTTTCATCTATAGTTAAATAATAATCTCCTAAAATCTCCGCAATAGATTTATCTAAAAAAATATTATAATAACCTTCTAATATTTCTATCCCCTTTTTTTTATCTATATTATTATTCAAATAATATAGTCCTAATTCTTTTTTATATCTTTCATCAAAAAATATTAATTTTTTTAATGAATATCCCTCAATATTAATATCACCTATTTTAAGACTGCTGTTATATAAATTTTTTAAAAAATAATACTCATCTTCATAGCTTAATTTAAAATTCTCTAAAATAAACAAGCTATATTTTTCCAAAATATTATATTCTTCTTTTTCATTTGATAATTTCACTATATCTTCTGCTTCTTTTTTTAAATTAATATTATTTGGAAAATTATTTTTTGTTTTTTCAAATATCTTAATTGTTAAATTTAGTTTTTTTTCTTTATATCCATTTTCAAATTCTTCCAACAAATTTTTTTCATCATAAACTGGGTTAGCTACAACTGTTTTAATCTTATAGTTATTCAAATCATCATTACTTTTTATCTTATATTCCCCTGCAATATCCAAATTTATATTTAATTTGGTTTTTTTTAAATTAAATTGCAAATTTGAAAAAATCGGTTTTTTTATTAAAGACCAATCTCTTTCTTCATTATTTTGATTATGTATAATCAATCTATCTCCAACAGTTATAGGGTTTTCTATTATTATATCATCTGCTACATTTTTTTTCTCTTCTGAAAATGAAATCGAATATATTAATAACATAAATATGATAAATAATCTTATTCTTTTTATTTTATTCATATTACCACCTATCTTGGCTCTATTATATAGTTGCCATCATTTTTTTTGCTTTTTTCAAATTCTTCTTTAAAAATTTTATTTCCAATTTGTTTTGCTACATACATATTGTCTGCAAATATTTCTATCTCTTTATAAAATATATTCATTGGTATATATATTTTTACAACATATTTCATTAGTTCACCTCTTTTATCAATACTTTTATTTTGTTTATTAAATTTTCATTTTCATAAATGTGATATTCAAATTCTAACATTTCATCTTGAATTAAAATATCTTTTGTTTCTAATAAAAACTCTTTATTTAAATAATCTGTCTTATATAAAAATTTTGTTTTCTTATTTTTTTCAATTAATTGATTACTATTAATTTTACCTTTCCTTTTAATTTGGATTTTTTTATTTTTTATTACATAAATAATATTACTTCCAAATTCATCTTTATATTCATATTTTATCCCTTTATCAAACTTCTGTTTTTTTGTATCAAAAACTTTATCAAAATTATTCCCATCTCCATCAAAGGTCTTTATTCTTAATTCCATTCTACACCTCAAATTAAAAAATAACAGGCGTTAGCCTGTGTAATTGGTGCGCTTGAGAGGATTTGAACCTCCGGCTAACGGTTTAGGAAACCGCTGCTCTATCCCCTGAGCTACAAGCGCGTTCTATTAAAAAAATCTGATTCTCTATATTATTTAATCACTCTCATCAATTAATGTATCAATATATGAATTCAAATCCTCTTCTTCTACTTCATCTATCTCTTTACTTTCATAGTCTTCTTCGTAGCTTTCCTCATTATTACCAGAAATCACTTCTTCATCTGAATACTCATCTTCCCAAAAATTGACTTCTTCTATAGTTCCATAATATTCCTCTTCCCAATAACTTATTAATTTCTCTTTTTCTTCTTCATCTTCAATATATTTAACCTCTTCTTCTTCATCCATATATTCAAAAACTATTTTTTCACTCTCATCTGTTTCTCCAATAATATATTCTTTTCCTCTAATAAATATATCTCCTACAATTGTAATTTCAATTTCTTCCTCTTCTATTGTATAGCTGAAGCTTTCCCCAACTGCGTACATCTTATCACCCTCATTTATGATATTTTGAATTATTCAATATTGAAAACCATCTGTATAATTGTTCAAAAAAAATCAATCTCATTAATTGATGTGGAAATGTAAAGTCAGAAAATTTAAGTCTTAAATCCACTCTTTTTTTAACTTCTTCTGAAACCCCGTATGATCCACCTATAATAAAATTAATTGTATCATTTCCTTGAATTTGTAATTTTTCTATTTTTTTAGAAAAATTTTCTGAATCAAACATTTTCCCATCTAAATCTAAAAGAACTGTATATCCTCTTAATTTATTTAATATTTCTACGATTTTTTTACCTTCATTTATTTTTACTAAATTACGGTTTTGGTCATTTCCAATATCTTTTATTTCATAAATTTTTGTTTTCACATAAAGCTTTAATCTCTTTTCATACTCTAAAATTCCATCTTTCAAATATTTTTCTTTTATTTTCCCAACGCAAATTAAATTTATATTCATATTGCCTCCAAAGCCTGAATATTATAGCATTTCTTCTTTCAAAAATCAACTTTTTTTTATCAATTCCAATATCTTTTGACTATTAACAGGCTTTAATAAATAGTTCATTGCTCCTGCTTTTATCGCCTCATACACTTTTTTACTATCTTTTAAAGAACTAAGCATTATTACTTTTGCATCTTTATCTATTTTTTTTATTTTTTGCAATGCTTCTATCCCATTCATCCCAGGCATTTCAATATCCATAGTTACAAAATCAGGATTAAATGCTTGATACATTTGTACTCCTTCACTTCCATTTGTAGCTATCCCTACAATATCACAATCTTTCATAAGAATTTGTTTAAGGCTCGCTCTTACAATTTTAGAATCATCAACTATCAATACAGTTGGTTTTCCTGTTAATTTCACTCCATAATCTTCTTCTAATTTATTTGTCTTTTTTTCTTCTCTTTTCCCTAATCCAGAAACTGAAGGAGTTCTTAATTCTATCCCAAATGGTACTTTATAAGGTTTTACCCTTACTGCCTCTCTTCTATCTTTTTTATCTTTTTTCTTTTCTTCATCTGTCATTGTTTTTCTTTCCACTTCTATCTCTTTTAAAACTTTTCTAAGTATTATAGTTTGCTCCTCTAGTTTATCTTTTATAGCATTAAGTTTTTTAGCTTTTAAATCTCCATTTAATTTATTAATAAATGGAGCTGCTCCCTCATAATCTCCTAATTCCATATTGATAACTGCTATCAAATATAACAAAACTGTACTTATAGAAAATTCATCTATTTCATTATAAGCATTCATATATGTATCCAATGCTTTTTTTAATGCAGTCCTATAAAAATCTATCTCTTTTAATTCTTTTGAATACCAAGCAGTTCTAATATAACATTTACCTAACTTCAAATAATCAATAGGGTTTTCTTTTGAATATATATACGCTGCTAAAACATATGTCATTCTTGCTAATTCATTATTTTTATATATTACATTAAAATCTGTATTTTTCCCTAATTTTTGCAACTCTTCTTTAAAGTCTATCCCCAATTTATGACGTCTTTTATTTCCTTTATCTATAAAATCTTTATGAAATCCTGCATAATAACAATGTGGGCACACATCTATTTCATAAGACATAGGATTCATTGTTTCAGTTTGATATATAGCTACAAGATACGCTTCAGTTCCTATGGGAGTTGTCTCTTTTATTTTAGTTTTAGTTTTGGTAGATTTAAAATTATGACCACAAGCAGGGCAAGTTAAATCTATCTCGTAAAAAATTTTTTCATCCATAATAATCTCCTACTTTCTTCTAAATTTTCTTTCCAACTCATCAAAAGATATGTTTATTATAATTGGTCTTCCATGTGGACAAGTATATTTTCCTATTTTATGCAATTTATCTACCAACTCATACATAGCTTCTCTTGTTAATATTTGTCCTGCTTTTATCGCTCCTTTACAAGACATAGAAATAATTATTTTTTCTCTAATATCTTTTACTCCGCTATTTTCCATTAATGATTTTAATATCTCAAAAAATATATTTTGAAAACTTTCTCTAAATTCAAATTCTGGAACATTTCTTATTAGAATTTCATTTTCTCCAAATTCTTCAATTTCAAATCCTATTTTTTTGAAATTCTCTAAATTTTCAAAAATCGCTTCCTTTTCTTTTATATTGACCTCTACTGAAATTGGAACTAGTAGTTCTCTAGAATATAATTTATTATTATAAAACTTTTCTTTTAGCTCCTCATATAAAATTCTTTCATGAACAATATGTTGATCATATATTGATAATTTATTATCTTTTTCTATTAATATATACATATTATTTAATTGTCCTAACAATTTATAATTTCTCTCTAGTTTATTATATTCTTTTTCCGGCTCTTTTACTCCATAAAAGCCTTCTTTTTTTTGAGTATTCTCTTCATAATTTTTATAAGACTTTTCTATATTAACTCTATCAATAATCTTTCCCTTTAAATCAATTTTATTATCTACACTTTTTTCAATTAATACATTTTCCCTCATTTCATTTCTAGCTAAAGAATTAAATAATTTATTTTCTTCAAATTTTGGGACTTCATATCTATTATCATTATAACTATTTTTACTAGGTTCATTACTTTTTTCTAAATCACTCTCTTTATACTCTGCACTATCATTTCTCTCTTCATTATTAAATATAACATTTGGAAGCATCTCTTCTTCATTTGTACCTATCGCTTCCTCAACTGCTGTTTTTATATCTTTAAAAACCTCTTTTTCATTTTCAAATTTCACTATTTTTTTTGAAGGGTGTATATTAACATCTATTTTATTAGGACTAATCTCATAAAAAATTATTGCTACTGGAAATTTTCCTTTTATTAATTTTGTATAATATCCTTCTAAAACAGCTTTTTCTACCAATAATGATTTCGCATATCTTTTGTTAAAAAATGTAAAAATATAACTTTTACTATTTTTTAATATATCCATATTCCCTAAATAACCATATTTAAATTTTTTTAAATTTTTCAAAATATTTTTTCCTAATAATTCTAATATTGTGTTTTCTATTCCATTCCCAGTAGTAAATAATACTCTTTTTTCATCAATATGTAGTTCAAAAGATACATTATAATTAGATAATGCTTCTTTAAACGCAACATCTTTTATTTTTCCATATTCTGTTTGTTTACTTTTCAGAAATTTTAATCTTACTGGTGTATTATAAAAAAGATCCTTAACTTCTATTTCTGTTCCCATATTTTTAGAAACTTCTTTGCTATTTCTGATTTTTCCACCATATATACTTATTTCATTACCTACTTTTTCAGTTCCAATTTTCGATGATATTTTTAATTTTGATACTGCTGCAATACTTGCAAGAGCTTCCCCTCTAAATCCATATGTAGATAAATTAAAAATATCATCTTTATTTGATATTTTACTAGTTGCATGTCTTTCTATACATAAAAACAGATCATTTTTTGTCATGCCTATACCATTATCTACTATTTTTACATATCTACCACTGTTTTTTATATATATTTTTATAGAAGTAGCTTTTGCATCTAAACTATTTTCTATAAATTCTTTTATCATTGCTGCTGGATTTTCTACTACTTCTCCTGCGGCGATTATATTTGATACTGATTCATCAAGTATTTTTATTTTATTCTCCATTTTATTCTCCTAATAAGTACTTTAAAAAAATTAATAAGTCTTTTTTTGAAAAAATATAAACATATTTACAAATTTACTTTTTTAATCTACCTAATTTCTATTCTTTTATAATTATACATTACCATATTATTTTTCAGAATTCAAGCAAAATTTACTCTTAAACTATCCCTAATCCTTCCAATATATTTCCAATTATATCCTTCAAAATTGGAATTACTTCTATATTATTAAGAGCTATGCCTTCGCCCAATATATCTTTCAATTCTTGAGTTGTTAATTTTTCTTTGCTATTTTCATTTTCAAACATAAATTCCCACTCTATATTTACATTTGCTGTTATTAATCCTACAATTGTTCCGCTTATATCTCCCAATGGAAGTATATCTATATTATCAGTTTTAAACATTGCTTTTAATTCTGTCCCTACACCTTTTTCTGATTTAAAGGATACTGCTCCTCCAGTTATTTCTGTATTCTGTTTTAATAATGGTAATCCTAATCCAACTTTTCTTATTTTTTTGTCCCTACTTGTATAAAATGGATCAAATATATGATCCATTTTTTCTTTTTCAATTCCTTCACCATTATCTTTTATATAGAATATAAATTCTTTTTTTTCTTTATCTAATTTAATTTTTAATATTATATCTTTTGAATTTGCTTTTATCGAATTATATGATATATCATATATATGATCTGCAATTGTTCTCATCTTCTACTCCTTTTATCTTAATTTTACCATAAACTTAAATCCTTAAAAAAAATATTTATCTTACTATATTTATCTCCCCTTTATTTATCGCTTTAAAAATATCATCTATATCTATATCTAATTTCTCAAATTCAAAATACATTTTTGCTTTTTCTATTGTATTTACAAAATGAGAATCAGAAGATGAGAAAATTGGATACTTTATATCCAATTTATTCACAAGTACATCTATTTTCTTTTTCATATATATTTCAATCCCATCAAATTTTAATTCTGGTATATACCCCAAATTTGATATAATACTATTACTTCTGTCTATATGAGCAGGAACTGCTAATCCGTTATTATTTTTTATTAATTTAACAACATCTTCTATCCCTAAATCTACAGAACCACTTAAAAATTCTTCTGCTTTTTCAACATATTCATCCTCTTTATCTAAAATTAATTGATATCCATATATATCTTCTCTATTTTTAATTTTCGGCAAATGATTATATATCACTTTTGTTACATTCTCTAAATCCTCTAAACATTTAAAATAACCTAAAGTATGAATTCCTTCTACAGTTTCAATTTCTATTCCAGGAATAAAAATCAATCCTTTTTCATTAGCACGCATTTTAAAAACTTTAGAATTTTTATTTGAATTATGATCTGTAATAGAAAATATTTTTATGTCATTTTCTATTAGTTTATCTATAATATTATTGGTTGTCATCAATAAGTCTGCACAAGGAGATAATACAGAATGAATATGTAAATCTGCATAAAATTTCATCCTTTTATTCCTAACTCAAATAACTTCCCTACAACATCAAAACTATCTTTATTTGTTTCAAATACAGATATTGACTCCTCTTTGGCCTTTTTCAAAAATTCATCATTTGCTTTGTGTCCCTCTGTAATAATTACAGCTTTTAAATCTAACATTGAAGCTACCGCTACCACATTCATATTATTATGAACTGTTACCCAGATACTTCCTTCTTTTGCTTTTCCCATTACTTCACTTAATAGATCACAGCAATATCCATTTTTTATGTTAACATCTTCACATAAAAATTTAGAATTTAAACCTATTTTTTCTGATATCTCACTTAATTTTGGCATTTTTTACCCCTTTCCTAATATCATTTAGTATATATATCCATTCCTCTAAAAAAGCATCATCAAATTCAACCAACTCTAAATCAACAGCTTCTATCTTTTCTTTTAACAAATTTAATCTTATATTTACAAATTCATCTTCTATTTTTTCATTTAATGTATTAATATTATCTTTTAGCATATCAAATAATTCAATATCTTTTCCATCTTTTATTTTCATGATAATTATTCCTATATTTTTTATATATTCATCCAACTTACCACTATCTTGTTTTATAGTCGTATATTCTGTAATTATATTTTTTATTTGTTGTTTCCTCACCTCTTCTAAAAAATCTACATTTCCATAATATACTTTTTTAATAGCATTTTCCAACTCATCCTTTAGAAATGGTTTTACTAATAAAGCTTTTGCTCCTCTTACAGCTGCTTGAATTTTTATATTTTCATCTACAGATGATGTCATTATAATAATTTTAGATTCTCTATTATCTGATTTCAAATTATTTATATCGTCCATCATTTCAAACCCATTTTTATTTGGCATTTTTACATCTATAAGGATTACTTCTGGTCTATTTTTTTTATATTCTTCTAACCCTTCTACACCATCTGAAGCTAAATAGATATTTTCAACTTCTAAGTCTTTTAACATTTTTGGCAAAATTTCTCTAATGACTTTTGAATCATCCACTATTAATATAGAATTTATTTTTTCCATTAGCTCCCCCTTCTGATAAATAGAAACTTTTTTGTTCTACTCTTCCCTTTGTTAAAGGTGAGGTTAGGCAATATCTTTAGCTTCCCAATATTACTTTATATTCACAAGCTCTTAAAGAAAATAGAACAGTTACCTGCTCTATTTTATAAGTTTATTTATATAGTTTAACAATTCTTCTATTTCTATATCTTCTTTTTCTCCTGTTTTTCTATTTACAACCTCTACTTTTCCAGTTGCAATTCCTTTCCCAACTATAACTTTCACAGGAAATCCAATAAGGTCTGCATCTTTAAATTTAAATCCAGCTCTTTCTTTTCTATCATCAATTGCAACTTCTATTCCGTTCTCTTTTAAATTATTATAAAGTTTTTCTGCTACTTCAACTTGTTCTTTATCTTTCATATTTACTGGTATTACATCTACAATATATGGTGCAATTGATATTGGCCATATTATTCCACTTTCATCATAATTTTGCTCTACTGCTGCTGCCATTGTTCTTGATACACCTATTCCATAACACCCCATTAACATTGGTTGTTGTCTTCCATTTTCATTTATAAAATTACATTTTAATGCTTCACTATATTTAGTCCCTAATTTAAATATTTGCCCAACCTCTATTCCTCTTGCACTGTTTAATACTCCATCACTACATCTTGGACATTTTTCTCCTAATTTTACAATTCTAATATCTGCAAAAGTTTCTACGCTATAATCTTTATTATGGTTTGTATTAATATAATGGTTATCTATATCATTTCCGCCAGTTACATAATTTTTCATATTTTTTATTGTTTCGTCTGCTATTATTTTTAATTTAACTCCTACAGGTCCAAGAAATCCTTTGTGTAAATTTAATTTTTCTATTTCAGCATCGTTTGCTAATGTAACTTCTGATACTTTTAATAAATTCTTTAATTTAACTTCATTTACTTCATAATCTCCTCTAATTAACACCATATAAAATTCTTCTTCTGTTTTAAATATCATAGCTTTTACTGTATTGATTTTCTCCACTCCTAAAAATTCTGCTACTTCTTCAATTGATTTTTTATTTGGAGTTTCTACTTTTTCTAACTCTTTTAACTCTTCGCTATTTTCTTTTGCTACAAATTTACTTTCTGCTTTTTCTATATTTGCTGCATATTCACATTTATCACAATACAAAACTTCATCTTCTCCAGAATCAGCTAATACCATTATTTCATGAGTTGTATCTCCACCAATATTTCCTGAATCAGCTTCAACTGCTCTAAATGTCAAGCCACATCTTGAAAAGATATTGTTATATGCTTCATGCATATTTTGATACTCTTTTTCTAATGAGTCTTCATCAGTATGGAAACTATATCCATCTTTCATAAAAAATTCTCTTCCACGCATAAGACCAAATCTTGGTCTTCTTTCATCTCTATATTTTAATTGAATTTGATATAAATTAATAGGCAACTCTTTATATGATTTCACTTCTCTTCTAACAATATCGGTAACAACTTCTTCATGAGTAGGCCCTAATACAAAATTTCTATTATGTCTATCTGTCATTCTCATCATTTCGTCACCCATTTTATCCCAACGACCTGACTCCTGCCATAATTCTGCTGGTTGCAATACTGGCATTAATATCTCTTGAGCTCCTGCTTTATCTAGTTCCTCTCTTACTATTCCTTCTATTTTTCTTAAAACTCTATACCCTAACGGCATATATGAATATATCCCACTTGCAAGTTTTTTTATCATTCCTGCTCTTAATAAAAGTTTATGACTAATTACTTCTGCTTCTTTTGGTGTTTCTTTTAATGTATGTACAAATAATTTTGAAAATCTCATTTCATTCATCCTTCCTTTGATTTATTTCTTTATTTTTTTATTTTCTTACATATAATAATATCAAAATTCATATCTAAAGTCAACGAAATAAAAGACTATAAAAAAATCTATAAATCTTAACTTTCCAAACATATTTTCGAGTTTCAGATATTTTTTTCCACTGTTCATTTTCTATCCTAGAAATTCCAGCATTATAAGCTGCTAAAATCTTCTCAAAATCTCCATTTAAATTTTCATATAAATATTTATAATAAATTACACCTATTTCTATGTTCGTTTTATATTTATACAAATCATTAATATCAAACTTAATTCCTCTTTTTTTAGCTATCCATTTTGCTGTAGATGGCATAAGTTGCATCATACCAACTGCTCCTTTTGAAGATATTGCAGTTTCTCTAAAATTACTTTCAGCTTTTATTAAAGCTAATATAGATATTCTTTCTACATTATATTTCTCAGAAATTTCAGTAACATAATTTATATATTTAACTGGAAATTTTAATTTTGAATATAATACTCCTAAGCTCAAAATTAAAACTAATAATAAACTAATAATAAAAAATTTTTTCATATTTAATCTCCAAAATTAAAATTATTTTGCCTCAATGCCTCGTATAATATTATAGCTGCTGTATTCGATAAATTCAGTGATCTTCCAATTGGAAGCATTGGAACTGTTATACAATTATTTTTATTTTTTTCTAAAATATCTTCTGGAATCCCTTTTGATTCTTTTCCAAAAACTATAAAATCATTACTATTATATTTAACATCACAATATTTTTGTTCTGTTTTTGTAGTTGCAAAATAAAAATTAGAATTTGGATATTTTGCTATCAATTCATCTAACGAATCATGTATAGATAATTTTACATTTTTCCAATAATCTAATCCTGCTCTTTTTATATGCTTGTCGTCAATAGAAAAACCTAATGGTTTTATTAAATGCAAATTCGTATTTGTAAGCACACAACTTCTCCCTATATTTCCTGTATTATATGGTATTTCTGGTTCTAATAAAACTATATTCAATTCTCCTTCACCCTTTCCTTTAAAATTTTTACTATCTTTTCTACATCATCCTCTTTATTAAACAGTTCTTCTGTTTTACAATTTATACGTTTTACTATCTTATCATATTTATATTCTATATTATATTTTTCTAAAAGCTCTTTAGCTAATTCACTTAATAAATGTGCATAGATTTTTTTTACATTCATCTTTATAATGAATGCTGCTGCTGCCTTCCCAATAATTTTATCTTCTATTTCAATTTCCTCTGTGTTCAAATTAAATTTTTCTATAAAAATTTCTGCATCAAATAAAGGATATATCCATTTTTTTCTACTTCTAAAAATAATTTCATTATTTTTTAAAATTCTCATTGTGTCTTGCAAAATCTCACTTCCTTTCTATATATTATTATTCAAATATTAAAAGTTATAATTCAACTTTTAAAAGTATCAATAACTAATACCATCCCAAAAAAACCAGCAATCACAAATCCTGAAATACCTAATATTGAATACCCATGTATACTAAAGCCTGTACGACTTTGTATCAGCATAGATGACCCAATAATAATAGCCGCTATAATTATACTTGTAGATAACTTATTTATTGTTTTATCAATTGTCGCATTAAACTCTTTAACATCTTTTGATTTTATTTCTATTCCTATTTTATCTTTTTTTAATTTTTCAAATAAAACTCCCATATTAATTGGAAATCCCTCAAAAAAATTATCATAATTTTTAATTGACTTCAACATCTTTTTCCCAACTCTTTCTGGAGATAATTTTCTAATTAATAACTTTTTTACAAAAGGTTTGGCCACTTCAATCATATCAAAATCAGGATAAAGAGCTCTTCCTATTCCATCTATCGTCATTAAAGTTTTTCCCATAAGAAAAAAATCTGCTGGAACATATATTTTATACTTAATAACTATATTTGACATTTCATATATTAATTTACCAATATTTATATTTTTTAATGACGTGTTATAATACTTTTCCAAAAGCTCTCTCATTTCACTTTTTAGAGCTCTCTCATTTAAATCATCAGGTAATGTATCAAAATTTTTAAAAGCATTTAATATTTTCACTATATCTTTTAATACAATTCCTTCTAAAATTTCTGCCATATTTTCTTGAGCTTCTTCGTCTAAAGTCCCTACCATTCCATAATCAATAAAAACTATTGTATCTTTTCCAACTAAAAAAATATTTCCTGGATGAGGATCAGCATGAAAAAATCCATCTTCTAAAATTTGTTTTAAAAATATATTCGCACCTAATTTAGCTAAAAATTCTCCATTTTCTAAATTTCCATCTAAAACATCATATAATTTTTTCCCTTTTACAAATTCCATTACTAATATATCTTCGTTAGTATAATCCCAATATATCTTAGGAACTTTAAAATTTTTAAATTTTTTAAAATTCATTCTTATTATATCATTATTTTTTCCCTCAAGAGTAAAATCCATCTCTTTTTTTATACTTTTTGAAAATTCATTTACTAATTTTACAGGATTATAATATGCTAATTCAGGAATTTTCTTTTCAATAATTACTGCTATATTATATAAAATTGATATATCTAGCTCCACTATATGGTCTGTATCTGGTTTTTTTACTTTTATTACTACTTCTGTGCCATCATTTAACAATGCTTTATGCACTTGTCCAATAGAAGCTGACCCCAACACCTCTTTTTCTACTTTTTTAAATACCTTTTTATAATCTTCGCCATAATTCAGATTTAATATCTCTTCAATTTCGCCAAATTCTATCGGTTCTATTTTATCTTGTAATTCTTTTAATTGTTCTATATAATCCATTGGTATTAAATCAGGTCTTGTGCTTAAAATCTGTCCAAATTTTATAAAAGTAGGTCCAAGTTCTTCAAAAGCCAGCTTTAATCTTTCTGCCCCTTTTAATTTTTGTTCTTTACCTTCTTTACTTTTGATTTTTAAAATTTTCTTTCCAGATTCAATATAATATTCCACATTTAATTTTTCTACAACATGCCCAAATCCATATTTAAACAATACACTTAAAATATGTCTATACCTTCTAAAATATTCTACTTTTCTCCTTAATCCAATCATATAGAACACTCCCTTATTTTAACAATTTTCTATATTCTTGTGCTGTCATTTTACTACTTTTTATTTTTGGAATTTTGTTATTGCTCTTAACTGATTCCATTCTACTATTTTTACTGTTAATATGAACTATTGCAATTGCTAATGCATCTGCAGCATCATCAGGTTTAGGAATTTCTCTTAATCCTAATAACTTTTTTACAATTTCTTGAATTTGCTTTTTGTCAGCTCTTCCATAGCCACAGACACCCATTTTAACTTGCAACGGCGTGTATCCATAACTTTCTATATTATTTCTTTCGCAACACAAGACAATTACTCCACGTGCTTGCCCAACGCTAATAACTGTTTTACTGTTTTTAAAATAAAATAGTTCTTCTATTGCTATTGAATCAGGTTTATATAATTTTATTATTGTCTCCAATTCATCATAAATTTTATTTAATCTCTTTGGCATTTCGTCATCTTTAGATGTAAAAATACATCCATAATCTAATACTTTAAATTTATTATTTTCAAATTCTATTACTCCATATCCAACTATTGCAGTTCCTGGATCTATTCCTAAAACTATCATTTAATAGTTCATCCTAGAAATAAGTATTATTGAGCTTCTAGCTTTTACTTTATAAGTTTTAGCTTTTATCTCTTTAGGGTTATCTAAAAAATCTTCTCCCATTTTTTTTGAACTGTCTACAACTAAATACCATTTCGTGTTTTTCATCTTAGGAATTTCAAACTCTATATCTTCCCAATAAGAATTTAATGCTACATAGATATTGTTATCATTTTCAATTTCTCCTGAAAAATCTTTGCCACTTATCATAAAAGCTAACGAATGAGATTCATTAGACCAATCAGGTTCATTTAATTTTGCTCCATGCCATGTTATATCGGGAATATCATCTCCTGAAAAATCTTTGCCTTTAAAAAAAGCTTCCCTTTTAAAAGATGGATGATTTTTCCTAAATTCTATCATTTTTTTAAAAAATCTATAAACATCTTTAAATTCTTCTTTTTTATCCCAATCAAGCCATGTCATTTTATTATCTTGACAATAAGCATTATTGTTTCCATTCTGAGTTCTGCAAAACTCATCTCCCATTAATAGCATTGGAATTCCTTGTGATACAGTCATTATAACTACGAAATTTTTAATTTGTTGTTTTCTTAATTTTATAATTTTTTTATCCTTTGTTTCCCCTTCTACTCCATGATTCCAGCTGTTATTATCATTTGCTCCATCTCTGTTTTCTTCACCATTATTTAAATTATGTTTCTCATTATATGAAACTAAATCCCACATAGTAAATCCATCATGTGCTGTAATAAAATTTATGCTATGATATGGCTTTCTACCATATTTTTCAAACAGATCAGGACTCCCAACTATTCTTGTGGCTAAATCTCCCACTTGTCCATTTTCTCCTTTGATAAATTTTCTTACAGTATCTCTAAATTTACCATTCCATTCTGCCCAACCTACTGGGAATTCTCCAACATAATATCCACCAGCTGCATCCCAACCTTCAGCTATTAATTTGCTCCCAGAAATTATAGGGTCATCTGCGATATCTTTTAATAATGATAGGTCTCCTATCCATTCTCCGTTAGCACCTCTTCCCAAAATAGCTGCTAAATCAAATCTAAATCCATCTACATGCATTTCTGTAACCCAATATCTCAAACTATCTATAACCATCTCTTTTACTACAGCATGACTACAATTTAATGTATTCCCTGTACCTGAATAATTAGAATAATATCTTTTATTATCCTCCAAAACATAGTATACATTATTATCTATTCCTTTGAATGAAATAGTTGGTCCAAACTCATTTCCTTCTCCAGTATGATTGTATACCACATCCAAAATAACTTCTAAACCAGCTTTATGAACAGCTTTTACAAAATCTTTAAATTGAAACACTTGCTCTCCTAATTTTAATCCATAACTATAATTTCCTGTTACAGCAAAAAAGTTTAATGGGTTATATCCCCAAATATCCTTTAATCTTTCTCCTGTTTTAGGATCAGTATTTATTATAGAATTCACGCTAAATTCAAAAATTGGTAACAACTCTATTGCCGTTACTCCCAAATCTTTTAGATATGAAAGTTTTTCTACAATCCCATCAAAAGTTCCTCTATTTTTCACTTTAGAATTTTTATTCATGGTAAATAATCTAACGTGCATCTCATAAATTATTGTTTCTTTTAAAGGAATTCTAGGATGAATATCATTTTCCCAATTATATATTGAGTCTTCTACTATTACGCTTTTCACTTGTGAATATTTAGAATCTAAATTTGAGAAACTTAAATCCCTCCTTCTATTTTCTTTTTCATAGCCATATATACATTCCAAATTACAATCTATAGTTCCAGCTATTGACTTAGCATATGGATCAATTAACAATTTATTAGCATTAAATCTTTGCCCTTCCTTAGGTAGATAAACTCCTCCTACTCTCCACCCATAAAACATTCCATGAAATACATCTTCTACAAAAATATGCCATATATCTCCAGTTTTATTTATATTTTTATCTAACTCTATTTTAAATAGAGGCTCTTCTGAATAGAACTCCTCATAAATTTCTAAAGTAACAGATATTGCATTTCTTGAAAATATTGCAAAATTTGTTCCAAATCCCTCTACAGTAGATCCTAATATAGGTTTCCCTTTTTTAGTTTTCGCCATTATTTCCCATCCCCTCAATAATACTTTCATTTTTTTCTTTTTCTTCTTTCAATTCATTTTCGACTATTTTTAATTTATATTTTAATTTTTCATTATTGCTTTTACAATTTTTTATTTGTGCTCTTTGATTTTCGACTATTTTTTGCAATTCCTGTACTTTTATCTTTTCTAAAACTACTTTTTTTTCAACATTTTTATATTTGCTACCTATTTTTTTCCTTTTTTCTCTTTCTCGTTTATATTTTTCAAATGTAATTTTTTCATCAATTTTTAAAATTAATTTTAAAAAATTTTTCCCTGTTTTTTTCATTATATTATATACTTTGTTTAAAATTAATTCTCTCATTTTTATCACCTCAACAATATTATCTTTAAAAATTTTCTTTATTTACTAGGAAAACATAAATTTATTCAGAAAATAAGCTGCACTGTTTTTTTTAATATACAATTTTTCAGATGAAGCGTAGCTTATTTTTTATTAATTTACTTTTCAAAAAATATAAAAAAAAGGGTGACAAGATTAATCTTGTCACCCCAAGTCTTACGCTACTTCCAGTAAGACCTAATGAAGTTGTAAAATTATTATACAACATTTTTACTAGTGTGTCAAGTTCTTTTTCTATTTAAGATTACTTTTTTTGCCTTAAATCAGTTGGATTTTTCAAATCTCTTTAATATCTCATCGAATTTCCCATTCTTTCTAATTTTTTTTAATCCAGCATTAAAATCTTTAACCATTCTTTCTGAATCTTTATTTTTTTTAGTAAAAAGTAAATAGAATGAATCACTAGATAATTCACCTATTTTATTTTTATATCTATTATTCTTTAATCCTCTCATATAATATTTAAAAACTCTATTTTCAGCAGCTATTACATCTACTATACCAGCTGTATATATTTTTATTAGATTTTTCGGCATAGAAACTTTCATCTTTTTTAAATTACTTTTTTCAAACTCTTCTGTATAAAAGTACCCTGAAACAACACCTATTTTATATCCTTTTAAATCTTTTAAAGTATTATATTTTATATTTTTATAACTAAAAAAACTAACAGTTATATCTATTATTTTATCAGTAAACAGATAATCTTCTCCCCGTTTTGCACTATAATATCCTCCTAAAACAGCATCATATATGCCTTTTTTCACTAAAGCCAAAGCTCTCTTCCACGGCATAAATTTTATTTCGCAACCGTACCCTTCTTCTTTTAATGCTTCTTTTACTATTTCGCTTAAAATCCCTTGATTCTTTAAAGAGCTTCCATGATATGGTGCCCATTCATCTGTTGCAAATACGATTGTTTTTTCTGAAAAAGAATTAGTAAATAGAATTATAAAGCTAAATAATATTATTATTTTTTTCATATTACACCTCCACTCTTTTATATGCAGCGTATAATTTTTATAATAAATTTAAATTCTATTTAATTATACTTTATTAATGAAGGAAAATCAAAATTTTATTTTTAAACAATATTACTTTTTTAGCCTTAAATCAGTTAGATTTTTCAAATCTCTTTAATATCTCGTCGAATTTCCCATTTTTTCTAATTTTTTTTAATCCAGCATTAAAATCTTTAACCATTTTTTCTGAATCTTTATTTTTTTTAGTAAAAAGTAAATGTAATGAATTAGTAGATAATTCACCTATTTTATTTTTATATCTATTATTCTTTAATCCTCTCATATAATATTTAAAAACTCTATTTTCAACAGCTATTACATCTACTATACCAGCTTTATATATTTTTATTAGATTTTTCGCCATAGAAACTTTTATCTTTTTTAAATTACTTTTCTCAAACTCTTCTGTATAAAAGTACCCTGAAACAACACCTATCTTATATCCTTTTAAATCTTTTAAAGTATTATATTTTATATTTTTATAACTAAAAAAACTAACAGTTACATCTAGTATTTTATCAGTAAACAGATAATCTTCTTCACGTTTTACACTATAATATCCTCCTAAAACAGCATCATATATACCTTCTTTTACTAAAGCCAAAACTCTCTTCCACGGCATAAATTTTATTTCACAATTGTATCCTTCTTCTTTTAATGCTTCTCTTACTATTTCACTTAAAATCCCTTGATTCTTTAAAGAGTTCCCATAATATGGTTCCCATTCATCTGTTGCCAATACAATTGTTTTTTCTGAAAAAGAATTAGTAAATAGAATTATAAAGCTAAATAAGATTATTATTTTTTTCATATTACACCTCCACTCTTTTATATGCAGCGTATAATTTTTATAATAAATTTAAATTCTATTTAATTATACTTTATAAATGAAGGAAAATCAAAATTTTATTTTTAAAGTTTAAAAATATATCATATCTTATTTTTTAAATAAATTTATACTTTCCTAGTAAATTAAAAAGATGACCTCTATAGACTCTAGAGATCATCTAATTACTAATAAAGCGAATTACTTTTATAAAAACAAGCCACAATTAAAATATACAATAAAAAGTTTTTTATCTTACCATAATACTCATCTCATTATCAATTTTAATTCTTTTCTTAACACCTTTATGTTTTTAGCTCTTTTTTTATAATCTAAATCCATATTTTTCAATATTATCTTATCTAATAATTCAACTTTATCTTTCCTTTTTTCTAAAAACAACTCATCCTCAACAACTCTATTTTTCGCCAAAATAGGGATTTTCTTATTCAGCATATAATATATTGTAGCCGCAATACTATATACATCTGAATAATAACCCTGTTTTGTATCATCTTCATAAAATTCTATTGGTGAAAATCCATTACTTATATTTATCCTTTTATTTTTTGAGTTTATATGACTTACTGCTCCAAAATCCAATAATATTGGTCCATCTTTTGTTATAATTATATTATTTGGCTTTATATCTCTATGTATATATTTTTTCTTATGCAGATACTCAATTGCATCTAATATTGGATATATATTTTTACAAATCTCTTTTTTTATATTTATTTTCCTTGCCTGTATATACCTCTCATAATCTAATCCTTTATAATATTTCGTCACTATATATACAGTATTATTTTCCTCAAATATTTCTTTGAATTTTACTATATTTTTATGTGATATCTCTTTTAATACTTTTCCTTCTTTTCTATAAGACTCTTTTGCTTCTTCTAAAATCCCTTTGTTTTTATTCACAACTGTTTTATTATCTAAGTCTCTAAAGCAACCTTTTACAAACATCTCTTTTATTACAAACATTTTATCAGTTTTCAATTCTACACATAAATATATATTTGATATATCTGTTCCTGCTATTCTCTCTTTCACTTCATATTTATCTTTTAATTTTATCCCTTTTTTTAATGATAATTCCAATTTACCTCCTAAAAAATACCCAATATCTTTTTCTTCTTTTTAGCATCTTTTATGCTTTTTTCCATTTCCATATACTCTTTTGTCTTTTCCAAACTTAAATAACTATTTTTTGCTATTTCATAATTTGCTATTGCATCATCATATTTCTTTTGTTTGAAAAATGTATCTGCTAATTCTTTATAACTATTTGCTTTAAAATATTCTCTTTCTTCTTCTACTTTTTTTAATTTTATATCTAATTTTCCTGCTTCTTCATACTTTTGTACCTCTTGATATGTTTTCTTTGCTTTTTCATATTTTTCCTTTGCTCCATCAAAATCTTTTGCTCCCAGTGAGCTATCTCCATCAGATTCTATGCTTTCTGCATCTTTTATCTTTGCCTGTTTTAATAATGATAAATTAACTAGTACTAATTTATCATTAACATCTTTTTCTTTTAAATTAAGTCCAACCTCTTTATATATGGCTTTTGACTCTTCATATTTACTTTTTGATCCTGCTAAATCTTCTCCTGTTTTTAATTGGTCTCCTTCACTTTCTAAATTTATTGCTGTTAATATCCTTTTTATCTTCTCTAATTTATCTTTCATTTTATTCTCTTTTTCTTTAGATTTAGCTTTCTTATAACTTTCTTTTGCTAATTCAAATTTTTCTATTGATTTTATATACTTTTGATTATTATATAACTCTTCTCCAGCATTTTCGTCTTGTTTTGCATTATTCAATATCTTAGATTTTTCTAGTTTTGACGTTATCTCTTTTGTATCATATTTTTTCACTTTCAAAAAATGTTCTTTTGCTAATCCATATTTTTCTATTGATTTATCATAATTTTCATTTGAAAAATATATATCTCCTACCTTCTCCAAATCTTTTGCTTTACTCATAGTTTCCACATTAAATATACTATTATCTATACTCTTACTATCTGCACCTTCTATTCCATCCAATAATTCTTTTGCTTTTATATAATTTAATTTTGCGTTTATATAGTCACCTGATTCATAATAACTATTAGCTATTAACAATAATTTGTCTGATTTTTCTAATTTCTCTGTTGTTTTTATTTTACCTTTTACTCTATCTTCATCTTCCTTCTTATCTAATTGAGTATATACCGCTAACGCTTCATTATAATTTTCTTTTGCAGTTACATAATCTTTTTTTAATAAACTATCATCTCCATTTTTTTCTACATCTTTTGTTTTTTGAAATTCTACTTCTTTCTCTTTTAATTTTTCTGATTTTAGCTGTTCTAACTTTAATTTTTTAGCCTTTAATTTTTCCAATTTTAATTTTTCAGCTTTTAATTTTTCTAGTTTTAGCTTTTCAGCTTTTAATTTTGATATTTTCATTTGCTGCATTTTACTCTTTGCTATTTTTATTTTATTTAAATGATTTCTAAATAATAATACCCCTACTATTAATACTATCACTAATGAAGCTGCCACTATCGTCTTTGTATTTACAATGCTTTTCTTTACATTTTCTATAAATATTTTCTGGATTGATATTGATACTATTGTATAATTATTTAGATGCGGATTCTCTTTTTCTAGCATCATATTCTCTAAATTCATTACAAAGCTCTCTACATCTTCACTTGCTTTTAATATATCTCCTATTTCTATATCTTTCATATTTTCCCAATATCCTACTGTTGCTAATAATAGCATATCGCCTTCTTTTAATTCAATTTTTTTATTACTTATATTCATTTTTAACTGTTTCTTTTTCCCTAAATACTCATATAAATTATTTTTTTCTATATTTTGGTTTATATTATTTTTTTCTACTTTCCCTAATTTTAGCATTAACTCTGCTACACTATGGTCTTTTGTTCTATAAAGTAAATTGTCTTTTCTATAATGATACAATCTTGTATTACCTATACTTCCATAAATAATCGAATGATAATCACTTATTATTACAACTATACTTGCTTTTAATAAATTTATTCTTGTTTCTTTTAATAACATCTCATTTGCTGTCTTCAAGTATCGCTTTAATGTTTTCTTACTCATTTTTGGATTTTCTGTGAAATCTTCTATTATACTTCCTGCCACTATTTCAGCACTTAATTTTTCTTCATCTGTGTCTAATCCATCAGCTAATAACCAACATCCATAGTCATCTAATTCTACATATGCAAAATAATCTCTATTACTTTTTTTACTCCCTTCATTTGTTACAAATTTAGTTATAAATTTACTATTTTCTTTTCTCATCTATTTTTCCTCTCCCTATTTAATTTTATTTTATTTTATATTATTTTTCTTTTATCCTTTTACTTTCTCTTGACCTGGTTTACTAATGGTTATCATCCCAGCCCACATGCAACTACACATTGATTTATCTGTTAATACTGGTATATACCCTATCGTTACTTTTTGATGCGGATTACTCCAAGGTGCTACTACTTGCGGAATACACGGCATTGGTTGTAATTTCCCATTCGCTGCCGCTGTTGCTGCTGCTACTTGTGGATTTGCCATGCTTTTACATTGCCCAAATGGAGATATATTTGCCATTGGTTTATTATCCATCATTGTCGCTACCAGCTGCCCGCCTATTGTTACTTTCATATTTTGCATTACTGTTAAACTCCCACTGCTACTTCCAAATGGACATTTTAATTTTGCTCCCTGACATACATATTTTATTCCCATTAGACTTTGACTTGCTCCGCTTGATGAACTTCCATCTTTATCTTTTTTCCTCTCTCTTTTTTTACTTTCACTTTTTTCATTTTCTGCTACTGCTTCCTCTGCTTTTTCTTTTTCCTCTTCCTCTTTTTCATTTTCAGCTTTCGTCTTTAAGCTTAATAATTCATCTGATTGAATAAATAAAAATCCATTCTCTATTCTCTCATCTAGCTTTATATAACTATTTTCCTCTATCTCTTTTACTTTTGATAACTCCTCTTCTCTTACTCCATTACTTATTTTTCCATTTTTCAATATATATGGTGGCTCTAATTCTAACCATATTCCGTGATTTCCCTCTTTAAAATTATCTATCTTTATTATTTTATTAGCTTCTTTTGAAGATTTTATTAATACTTTCCTATACAATGGTAATTTTTCAAATATATTTCCATCTCTATCTTTATAAAGATATCTGTTTATTTCATCTGCAAAATCTATATCTTTTCCTACTCCTTTTCCATCTATATCTATTTTAGTAAAGCCTATGTTTTCTCCTAATTTATATGGTATATATACTTTTGTTCCTATTTGCAATCTTTTAGCTTCATCTTTTGTAAATGACTGTCCTTTTTTATTTAATAACTTTCTCCATTTTGAACCTAATCCTAAATATTTTTCTGATATCTCATATAACGTATCTCCTTTTTTTACCTCATATACCTCTTTTGCTCTATGACCATATCTCTCCTCTAGTTCTATTGGTAATGATATGTTATAATCTCCATTTTTATAATTCCATATCTCTATTTTATAGAAATCTCTTATTATTAATTTTTCTTCATATAATTTTACTGATGTATCTTTAACATCTTTTCTTATTAATATTGTTAATTTATCATCTCCTAAATCATAAAGATATATTCTCCCTGCTTTGTCTGCTAATAATTGATATCTTAATCCTTTTTTGCATAACTTCATCAATAATTGTGTATCTTCTGTTTTTAATTTTGATTTTACGAAACTTTCTTCTGATTTTATTTCATCTTCTGATATATCTTTTTTATCTATTATTACCATTCCTTTTCCCAATGTATTCATATTTACTATTAATGGTGCTCCATTTACTATATTATATTTTATCCCTTTATTTGAGCTCATTCCTGTTCTGTCTTTACTACCAAACAGCACTCCATATCCTACCCCTAAATCTATTCCATAATCTTCATTTCTAAATTCTTTTATTAATAATTTTTCTCCATAATTTTTTCCATAGACTATTTCCAATTCACTATTTTCTAAATCATATATATAGCTATTCTTTTTCTTATCTTCATAATAATATTTTTCTCCATCCTCTTTTACATAACTTATATTTTCTCCTAATCTTTCTTTATTACCATTATTATATTTCAAATAAATACATTCTTGTTGCCATTTATCTTCTTTTGAATATTCATAAGTCGATATTGGCATTATTTTAAATTCATATCCTTTTTCATCTATATTTTTCTCTTTTTTTATTGAGCCTAAAATTATATTTTTATCTAATAAGTCTATCCCATAATCTTTCCTTTTATATTCTTCTATTTCTAATATATTCCACTCTTCTCCAAATTCTCCATAATATATTGTTACTGTTGGATTTTTAAAATGTCCAAAAAAACTACTTATTTTATATACATATATTACACTTAATATTTTATCTTCCTTACGTTGTATCTCTATATATATTTTCCCATCCTTTGATAACTTTTTTATTCTATCTTTGTAACTTTTTTTATTTTCTTTTATTATAGTTTCTATTGCTTTCTCTGATTTCAATTCTAATTCCTCTAAAAAATCTTCTATTTCAATTTGATTTTTTATATCTGTTCCTAATTCAAATTCATCTATCTTTATATATTCTGTCATTTTTTCTTCATTAAAACTCTTTCTATTATTTGTATTTGATAATATACTTATTTCTCCACTTGATTCTTTTTTATCTTCGTAGCTTCCTTTTAGTTGGTTGTAATTATTATAACCTTCTGCTATTGAAACTTTTATACTAAAATCTAACCCTATTAATTTTCCAACTATATATTTACCAAAAATATCCTTTCTATCTGAAAATTTAAATTGTATCTCTACTTTATCAAATCCTATATTTTTAACTTTATAATATTTACTTATATCTATATTATCTAATCTATTTCCTATCTCTTTTTTATCAAAAGGATTCAATTCTTTTAATAAATAACTCTTTAAATCTTCTGAATTACCAAATTCATCCAATGTTATATCTAATTTTAATATCTCTTCCTTTAATTTGTTTATCTTATTATCGTCAAACTTCCACTCTAATTCGTCATACCCTCTATAATTTGATTTACTCATTTTTATCTTAGAAGATAAAAAATCACTTAATAATAAATTTACTATATAATCATCGCTATATTCTTCTACTAATTCTCCTTCTTCATTTAAGTAAGTGGCAAATTTACATTCAAACGAATACTCTTTTAACACTTCTTCTGGATAATTTGAACTTTTTTTCAATTTATTTGATTTTGTTTTATAGATATATTCTATTAGGTTTTTATTGATTTTATAGTTATCTTGTATGTTTTTTATTATTTGTAATAAATTTACAAAATAATTCTTCTCTACGTTACTTATTGTATTATAAAATTCTTCAAACTCCTTTTTCTCTTTTTTATTCAATTCTTCTTTTTCCCACTTTGATAATAATTCATTATATATTATTATTATCTCATTAGAAAAATTAGTTGAATAAACTCCTGGAGTAATTGAATAGCCTCCTGAGGAAATTAATGTATTGTATAATATTAAATTTTTACTCTTTATTTTATAACCTTCTCCTATATTCTCCAATTTATAATTTTTCATATTACAATCTAATATTGCTTCTGAATTATCTTTCTTTTTATTTATTTCTACTCTTTCTTTATTTAATATTTCTCCTGATGTCTCCTTTAATAAATAGATAAAATCTGATTCTTTTAACTTTATTTTCTTCCCATCTTTATCTTCTATTTCCAGTCTGTTTTCTGCAACTTCTCCTATTACATCTCCTTTTTCTGTTATATATCCTATCTCTTTTAATCCATTATATACTCGTTTGTAGTTTGAATCTTTTAATAAATTAAATAATACTCCTATTGCTGCTCCTATTCCTAAAGCTATTAATCCTGGTAATACTCCTGTCCCTAATAGTACTCCTCCTATTAATTCATATGCTACTCCTATACTTATATTCTTTACTGTCTCTACTGTTATCTCTCCTGCATTTTTATACTTCTTATCTATATCATCATATGTAAATTCTACATAATCTTTTATATTTGAATCTTTTGAATAAAATACTGCTCCTTTTTCTCCATATAATAATCCACTTAATCCTGATAAATCTCCTCCTTCATTTAATCCTACAAATCTTATATTGCTATCCTTATTTTCATATTTTATTTTACTATATACTAATTGCAATACATCCATTTCATCTGGTAGTATCTCTTTTTCATCATTTTTGCTACCTTTATATGCTATTACTATCTCTTTTTCTTTTTTCAATACTAATACTTTAAAATCTGTATTTGACATATTAAATTTTCTTATTAAGCTTATTTCTTGTGTTCCTGACTTCTCTTTTTCCTTTAACTCTTTATACTCCTTTTCTGTTAGCTCTTTTTCTAATCTCCCTACTAATTTTTTATCCTTAACTCCCCCTATATTTTTTCCTAATAATCCTCCTGTTGATACAGCAGATAATGCCCAATTTTTTCCTCCGCCTTTATTTATTGCTGTTGATATATCCTTTATTTGGCTACCTGTTGGGACTAAACTTAATATTGCTTTTTCACTTCCTTCTAATATATCTTTTTTGACACTCTTTTCTAATAATTTAAAACCGCTTTCTACTCCCTCTTCTGCAAATTTTAAATTTACTCCTATTGGTATTAGATTGCTTGCTACATCTACTACTGTCATTGCTATTTTTAATTTTGCTTGTTTTTCTTTTGTTTTCTCTATCTCTTCTCTTGTGGGATATAACTTTGGTCTATTTGATTTATTATCTTTTCCTACCATTTCACACATTCCATCATATAAGCTATCTTTAAAATCTGATATTACTTTATATTGATCTCCTCCATAGATTACTTCCCAACCTTTTAATTCTTTTCCTTTTCCTGATATGTCTTCTATACATTCCATTCCTAAGCCTGCTTTTCTTCTCATGTTTTCATAACCAATAGATGTATCTTTTTCTGTTAATTCTTCTATTGATTTATTATATGCATTTGGTATGTAAATATATTTCCAATCTTCTTGATTTTTATCATCAAATCTTATAAATGATTTTGGCGTTAGTAGGTCTTTTAGTTTGAAAAAACTTTTTGACCCATCTTTATTAATTTTCATTAATTCTGTAAATTGCCAATCCAAATTTGTTAAATTACTAAAAACCAGTAATTCTTTATCTGTTATTTTTGTTGAATTATTAATATTTTCCATTTTTAATATCATCTCCTTTTTATTATTTAATAAATATAATTTTTATATTTTATCAATTTAATATTTTGTTTCTTTAAGTATTTATAATCTTCTAATTTATTATTTTCCTTTTCTTCTTCATATTCTCCTCTTAATTTTAGCCTTTCAATAGAAAGAATAAGAGATATATAATTTAAACTATATTTAAAATTCCCTGTATCAAAAGGGTCTAACTCCCCCTTACTTATCATATTCATTCTTTTTATTAATTCTTTTTCACTCATTTTTTTTACTTCTTCTCCTAATACTTCACTCATCTCTTTCCTTAATTTCATTGGTGGTAAATATACTGTTTCTCCTTCTACTTTTACCTTTTCATCTGGCATTATAAATATTTCCCTTTTATATTTCCTATAACTTGGCGCCAATACTCTCTCATCTATGAATATTACTCCCATTTCTAAATATTTAAATAACCCTTCCTCTTTTAAATAATTTATATATTTAAATATTTCTTCTCTTCGTTTTTCTTTCTCTTCTTCATTATTTATCTTATCAAATATGTAAATATATAGTGTTACTTCCAAATGAATTAAATCTTTTTTATCATTTTTTTCATCTTGAATAGCTTTTTTAAAATCATATTTTTTTTTGCCAACATAAAAATTATTATTTGGTACATCTGCTTTTTTCTTATATTTAACATCAACTTTTAATCTTACTCTATTCCCAAATATTTTTTTCACTTTTTGTATCAGATACTCTTCTGCACTATCATTCATTTTTTGAATCCAATAACTATCTCCTGCTTCATTATCTAATATTCCAAATGTTCCTATATCTACACTTGCACTCCCTTCATAATATTTATCTCTTATACCATTTTTTAGTTTTGATTTCGGATATATTCTCGCTTGATAAAACTTATCTTTATATGCTTTTCTTATGCCTATTCTGTCTACTATAAACTCTTCTCCATATTTCTTTAATAGACTTTCCTCTATTTGCTTCCTTACCTTTTCTGCTTTTCCTCCTCCTTGTACTCCTATAAGTTTTGGAACTAAATATACCATTACTAATACTATTATTGCTAATACTATTCCTCTTGCTTGTTTTTCTGTCATTCTTTTTCTCCTTTCTAATTTTCTTATATTTATTTCATCTGATTTTTTATACTCATTTTTCTTTAGCAGATGTTTTTAGTTTTTTTTATATCTATTTAGATTATTTTATCTCTATTTTTACCTCTTCATTTCTTTGTCTTGATACAAAGAAACGAAACAAAGAAAAATCAAGAAGCTAAAAAACTCGTTCGCTCTTAAGGTGCACGCTCTCTCAGACAGTTTTAGCTTCGGGAGATTTTATGATAAAAAAGCTATAAATCTTTTAAGTGATTTATTTTTTCAATTTTATTTATTAGTTTAGCAAGTTTTTGCCCTCTTCTTTTTCGCTTTTTTCTCACAAAATCTTATCTTTTTGATTTTTTATAACTTTTTTTTATTAATTATTTTTCATGAAATTGAGATGTTATAATATGATTCTTTTTTGAACTGAAATACAATTTTTAAACTCTATTCCGTTTCTAAAACAAATCTTTTTGTCTCTTTTCTGTATATTATTATATCATTTTTGGGAAATTTTGGGTATATTTTTTTTATTAATTTGCAAATTTATAATTTTAGCTTACCATTAATAATGGTGTATCATAAGTCGATATTGGCATTATTTTAAATTCATATCCTTTTTCATCTATATTTCTTTCTTTTTTTATTGAGCCTAAAATTATATTTTTATCTAATAGGTCTATTCCATAATCTTTTCTTTTATATTCTTCTATTTCAATTTGATTTTTTATATCTGTTCCTAATTCAAATTCATCTATCTTTATATATTCTGTCATTTTATCTTCATTAAAACTTTTTCTATTATTTGTATTTGATAATATACTTATTTCTCCACTTGATTCTTTTTTATCTTCATAGCTTCCTTTTAGTTGGTTGTAATTATTATAACCTTCTGCTATTGAAACTTTTATACTAAAATCTAACCCTATTAATTTTCCAACTGTATATTTACCAAAAATATCCTTTCTATCTGAAAATTTAAATTGTATCTCTACTTTATCAAATCCTATATTTTTAACTTTATAATATTTACTTATATCTATATTATCTAATCTATTTCCTATCTCTTTTTTATCAAAAGTATTCAATTCTTTTAATAAATAACTCTTTAAATCTTCTGAATTACTTAATTCACCCAATGTTATATCTAATTTTAATATCTCTTCCTTTAATTTTTTTATCTTATTATCGTCAAACTTCCACTCTAATTCGTCATATCCTCTATAATTTGATTTACTCATTTTTATCTTAGATGATAAAAAATCACTTAATAATAAATTTACTATATAATCATAGCTATATTCTTCTACTAATTCTCCTTCTTCATTTAAGTAAGTGGCAAATTTACATTCAAATGAATACTCTTTTAACACCTCTTCTGGATAATTTGAACTTTTTTTCAATTTATTTGATTTTGTTTTATAGATATATTCTATTAGGTTTTTATTGATTTTATAGTTATCTTGTATGTTTTTTATTATTTGTAATAAATTTACAAAATAATTCTTCTCTACGTTACTTATTGTATTATAAAATTCTTCAAACTCCTTTTTCTCTTTTTTATTCAATTCTTCTTTTTCCCACTTTGATAATAATTCATTATATATTATTATTATCTCATTAGAAAAATTAGTTGAATAAACTCCTGGAGTAATTGAATAGCCTCCTGAGGAAATTAATGTATTGTATAATATTAAATTTTTACTCTTTATTTTATAACCTTCTCCTATATTCTCCAATTTATAATTTTTCATATTACAATCTAATATTGCTTCTGAATTATCTTTCTTTTTATTTATTTCTACTCTTTCTTCATTTAATATTTCTCCTGATGTCTCCTTTAATAAATAGATAAAATCTGATTCTTTTACTTTTATTCTATTCCCATCTTTATCTTCTATTTCCAGTCTGTTTTCTGCAACTTCTCCTATTACATCTCCTTTTTCTGTTATATATCCTATCTCTTTTAATCCATTATATACTCGTTTGTAGTTTGAATCTTTTAAAAATTGAAATAATACTCCTATAGCTGCTCCTATTCCTAAAGCTATTAATCCTGGTAATACTCCTGTCCCTAATAGTACTCCTCCTATTAATTCATATGCTACTCCTATACTTATATTCTTTACTGTCTCTACTGTTATCTCTCCTGCATTTTTATATTTCTTATCTATATCATCATATGTAAATTCTACATAATCTTTTATATTTGAATCTTTTGAATAAAATACTGCTCCTTTTTCTCCATATAATAATCCACTTAATCCTGATAAATCTCCTCCTTCATTTAATCCTACAAATCTTATATTGCTGTCTTTATTCTCAAATTTTATTTTACTATATAACAATTGTAATACATCCATCTCATCTGGTAATATCTCTTTTTTACTATTTTTACTTCCTTTATAGGCTATTACTATCTCTTGCTCTTTTTTTAATACCAATACTTTAAAATCTGTATTTGACATATTAAATTTTCTTATTAAGCTTATTTCTTGTGTTCCTGACTTCTCTTTTTCCCTTAACTCTTTATACTCCTTTTCTGTTAACTCTTTTTCTAATTCCCCTACTAATTTTTTATCCTTAACTCCTCCTATATTTTTTCCTAATAATCCTCCTGTTGATACAGCAGATAATGCCCAATTTTTTCCTCCGCCTTTATTTACTGCTGTTGATATATCTTTTACCTGACTTCCTGTAGGTATTAAACTTAATATAGCTTTTTCACTACCATCCAATATATCTTTTTTTACACTCTTTTCTAATAATTTAAAACCACTTTCTACTCCCTCTTCTGCAAATTTTAAATTTACTCCTATTGGTATTAAATTACTTGCTACATCTACTACTGTCATTGCTATTTTTAATTTTGCTTGTTTTTCTTTTGATTTCTCTATCTCTTCTCTTGTGGGATATAACTTTGGTCTATTACTTTTACTGTCTTTTCCTGTTAATTCACACATTCCATCATATAAGCTATCTTTAAAATTTGATATTACTTTATATTGATCTGCTCCGTATATTACTTCCCAGTCTTTTAATTCTTTCCCTTTCCCCGATATGTCTTCTATACATTCCATTCCTAATCCTGATCTCTTTCTCATTGCTGTTTTTCCTTGGATTTTATCTTTATCTGTTATGCTGTTTTCATCTTTTACTCCTGGCATGTAGATATATTTTTCGAATTCTCCTTTTTCATTTTTTCTTATAAATGATTTTGGCGTTAGTAGGTCTTTTAGTTTATTTTTTCCGTTATTTTTTATCTTTACTGTAGAGTCTTTTAAATTAACAAACTGCCAATCTAAATTTGCTAAATTACTAAATACTAATAATTCTTTATCAGTTATTTTATTATTTGTTGTTTCATTTACCATTTTTAACATCATCTCCTTTATTTTTTATTATTATTTACATAAATATAATCTAAAACCCTTTCATATCCGATATCTTTTAATTTATCATATTTCTTTAACTTATATCCATTATCTAACCAAGAAGAATATCTAACTTTCACTTTTCCTTCAGAATAAACTTCACTTATATATTGAGCATTATACTTATTTATCCCCTTATGACTCAAACTTCCCTTAATTATACTATTCATTCTTTTTATTAAATCTTCTTCACTCATTTTCTTTACTTCTGCTCCTAATTTATTACTCATCTCTTCCCTTAATTTCATTGGTGGTAAATATACTGTTTCTCCTTCTACTTTTACCTTTTCATCTGGCGTTATAAATATTTCCCTTTTATATTTCCTATAACTTGGTGCTAATACCCTCTCATCTATAAATATTACTCCCATTTCTAAATATTTAAATAACCCTTCTTCCTTTAAATAGTTTATCATTTCATATATCTCTTTTCTCCTCTTCTCTTTCTCCTCTTCATTATCTATCTTATCAAATATGTAAATATATAAAGTTAATAGTATTCTGTTATGTTTTGGATCTTTTTTTATTCTATCTCTTACTTCTTTTAAACTCTTTGATTTATAACCTGCCCACCAACTACCATCTCCTGTTACTTCATGTGCTACATCTACTTTTAATCTTACTCTATTTCCAAATATCTCTTTTACTTTTGGTAATAAATATTTTTCTGTATCATCATTTCTATTTATATAGCTATAATCATCTCCTGATTCTTTATCTAACATCCCAAATAACCCTATATCTACACTTGCACTCCCTTCATAATATTTATCCCTTATACCATTTTTTAGTTTTGATTTCGGATATATTCTCGCTTGATAAAATTTATCTTTATATGCTTTTCTTATCCCTATTCTGTCTACTATAAACTCTTCTCCATATTTCTTTAATAGACTTTTCTCTATTTGCTTCCTTACCTTTTCTGCTTTTCCTCCTCCTTGTACTCCTATGAATTTTGGAACTAAATATACCATTACTAAGACTATTATTGCTAATACTATTCCTCTTGCTTGTTTTTCTGTCATTCTTTTTCTCCTTTCTAATTTTCTTATATTTATTTTATCTCTGTTTTTATATTCATTTTCCTTTAGCAGATGTTTTTAATTTTTTTATATCTATTTAGATTATTTTATCTCTGTTTTTACCTCTTCATTTCTTTGTCTTGATACAAAGAAACGAAGCAAAGAAAAATCAAGAAGCTAAAAAACTCGTTCGCTTTAGAGGAGGACGCTCTCTCAGACAGTTTTAGCTTCGGGAGATTTTATGATAAAAAAGCTATAAATCTTTTAATTGATTTATTTTTTCAATTTTATTTATTAGTTTAGCAAGCTTTTGCTGTCTTCTTTTTCGCTTTTTTCTCACAAAATCTTATCTTTTTGATTTTTTATAACTTTTTTTATTAATTATTTTTCATGAAATTGAGATGTTATAATATGATTCTTTTTTGAACTGAAATACAATTTTTAAACTCTATTCCGTTTCTAAAACAAATCTTTTTGTCTCTTTTCTGTATATTATTATATCATTTTTGGGAAATTTTGGGTATGTTTTTTTTATTAATTTGCAAATTTATAATTTTAACTTACCATTAATAATGGTGTATCATAAGTCGATATCGGCATTATTTTAAATTCATATCCTTTTTCATCTATATTTCTTTCTTTTTTTATTGAGCCTAAAATTATATTCTCATTTAATAAATCTATTCCATAATCTTTCCTTTTATATTCTTCTATTTCAATTTGATTTTTTATATCTGTTCCTAATTCAAATTCATCTATCTTTATATATTCTGTCATTTTTTCTTCATTAAAACTTTTTCTATTATTTGTATTTGATAATATAGTTATTTCTCCACTTGATTCTTTTTTATCTTCGTAGCTTCCTTTTAGTTGGTTGTAATTATTATAACCTTCTAATACTGAGGCTCTTATTGAAAAATATGCTCCTATTAAATCTTTAGCTTCATCTTTCCCTAATACATCTTTTATACCTGAAAACTTAAATTATAACTCTACTTTATAAAATTCAACATTTACTCTATAAGATACCATTGTCCAAAGTTTTGTCTTTATTTTTAATAAAATTCCATTCTCAACTTTTTCCTCACCTCTTATTTTAAATTTCTGGGATAATAACCAATTTTTAAAATTTTCGACCACTTCTTCAAAATCTTCTTTTTTTAATTCAATTACTCTTTTTTGCATTTTTTAAACCCTCCATTATAATTAAAATATATTTTTTTCTTATCTTATCTCAAGATTTATCAATCCTTTTTTTACAAAAGATTAGCACTAACAAAACTGCTAGCACTAATCTTTTCCTCATCCTCTATTTCTTTATACTCGCTGTTTCTAATGTAGATTTTATTGTGATTTTCCCTGATTTTATTTCATCTTTTTTTATACCATTTAAATTCAATATTAACGCAACTAAAATAATCAACGAAAATATTATAACCCTACTCCAATCAAATTTATTCTCCATTACTTTCTCCTTTCTTTATTTTTTTATCTTTTTTCCACCATTATTATTGTTGCATTATCTTGCCCTGATATTCTTTTATCTTCTATTTCTAGCATTATTTCTTCTGTTACTATTTCAGGATTTATCTTCTTTGATACATAATTTAATATCTCTTCTTCTGTCAAACTTTTATATACTCCATCACTACATAAAATTACTTTATCTCCTTTTAATAATTCTATCCCATTTTCATTATAGTCTATCTCATGAAAATTTTTATATCCTAAATAACTTGTTAATCTTTCTCGCTTAGAATTTGAAAAATATTCGCTTCTACTTATTTCTCCTGCTTTATATCTACTTAATAACACTTTGCTGTATGTATGCACATTATTTAGTAAATTTATCTCTTTATTTCTATACAAATATATATGACTATCTCCTATACTTACCCAATAAAGTTTATTATTATACATGTAACAAGATACTAATGTTGTTCCCATTTTACTATCCATACTAACTTTTAACAATTTATCATTTGCTATGTACGACGTGTTTATAAAAAATTGCCCTATATTTTGCAAGTTATATACTTTTACAAATTCTTCTAAAAATGTTTCTACTGCTATTTTACTAGCTAATTTTCCATTTAAAAATCCACCCATTCCATCTGCTAATACTGCTAACAAACCATTGTCTGAATTTATTACTGAATAATTATCTTCTTGCTCATTTCTTTCTCCTAATATTTGTGAACTCCCTACTAATATCTTTAATTTTGATTTTCTATTTCGAAAATAAATTATAAGAATAGAGATTGATATTATTAAAGTAAATAGAAAATATATCAATTGATTTATTTTAAACATATTCTTCTCCTTAGGAACAGATTAAAAATAACATTTCAATTTTGTTATAAAATACACAATAATATTGTTTTTTTTAATATTCTTTAAGAGTTTTTATAACAAAATATGAGAAACTTATTTTTTAAACGTTCTTTAATATTTTTTCTGAAACAAAATTATAATACTGATGTTACACAAATTAATATAATAAAATGTGTAACAACAATTATATTCTTTAAATATTTTCTCCTACATTCTCCCATTCAAAATAATCTCCACATAATGGTACAAAGATAAACTTACTTTTTCCCATCTCTATTACATCATAACCATTTAACTCTGTTGGAGTGTAAATCGCTTCTGTACTTTTATAAATTATCCCTCTCCCTTCTCCTGGGATTAATATGAAATTCCTCTCTTTTGGATTATAACTTATTATCGCATGATTTCTTCTTGATATTGCACTATCTCCTTGTATTTGAATGTGCATCTCTTCTGAACGTCCTATAAAGTTTTTTTCACTTTTTATTTGATAATCATTTCCTTTATCTGGACCCTCTATACAAGTCAACCACCCTACTACGTAGTCTTCTGTTCCTTCATCACTCCAAATTGCTTGCGTTCTCATATCATTATTTTCTTTTTGTCTCACTGCCCTTTCTGGTCTTGATTTTTCCTTTGACTTTTTCGCTACTGGTGCTGTCTCTGAACAATATGGACACTCCTCAAATTTTTCCGAATTAAATAGATGCCCATTATCACATTTTTTCATTTTCATTTTTTTATTCCTCCTGTTTTTTTATTTTAATAATAATTTTGTATTTGCTAAATATATTATATCTCCTGTTTCCACTTTGTGTAATTCTCCTGGATATATTTTATATCTTTCTTCTTCTCCTTTTTTCAATCCGCTTCCATTTGATGAACCTATATCTTCAAAATACCAGCATGAATTTGTATAATTCATCACTCCATGTTGTCTACTTACTAATGAAGAATATTTTTCTTCTGATAAATCTATATCTACATTTTCTTCACTTGTATTTTTTCCTATTAATAATGAAATTTTACCTTCTAAATCCCATTTCTTTGTTTTTTTACCTGATTCATCCAATAAATATATACTTTTTATTTTACTTTTAACTTTTTTATTTGATTTTTTTAAGATTAATTTACTTATCACAATTAATAATATATATCCAACTATAGTAACTCCTAGTGCCATAATATTTTTGTATAATATATTTAAATATATTACTGATAATCCTACTAACATATAGACTATATCTATTATTTTGATTTTTTTAAGTTTTTTGGTTTTCTTTAGTTTCTTACTTTTTATTATATTCTCATTTGCATGCTTTTCTATTTTTTTCAATATGAAATATTCTTTTATTCTCCTTATCATTTTTTTATCCTCCCTTTGTCTTTTGAGTTCTCTCGGAAAATATAGAACTCTTAAAATATTTATTGCACTATTCCACCTCTAAATCTACCCCTGTAAGGGCAATTCATGAATTGCCCCTACAAGAACAAATCTGTTCAAAAATTTTATTTTTTAAAAGCTCCATTAAAAAAATTATCAAACATATCATTTGTATTTACTTTCCTTACATCATCTTTTTTTCTACTTGCTTTTTTATCTCCTGTATCTGGATTAAATCCAAAAAAGTTTTCAAAATTTTTACTAAAATCATCCATATTAAATCCTTGATTTCCTGTGTTCCTTTTTCTCTGTTTAGTTGACTTATTATTTACACTTTCATTCTTTTTACTACCTCCTTCCAATATTCTATTATATTCTTTTCTCTTTTTTTCATCTGATAATATTTCATATGCTTTTTGCACTCGAAAGAATATTTCCTTTGCCTTTTCATTATTTCCATTTCTATCTGGATGATATTTCATTGCTAACTTTCTGTACGCTTTTTTTATTTCAGTTAATTCACTTGTTTTTTCTACTCCTAACGTCTTATAGTGATTTCCCATATTATCTCCTCCTACTCTACTATTATTCTCGTTGCTCTTCTTCTCCCTGTTTTTTCTACTCGTTCTTCTTTGCCTATGTTTTTAGATATTTTCAATAAATGATTATAAATATCTATATTTTCCAATTCATCTATTTTCTTTTTCAACTTTCTCTCTAAATATACATTAATCGCTTTCCTACTAACTTCTTTGCCATTTAATATATTCATTCCAAATGATATGTCTATGCTTTGTTCTCCTTTTCTTACTAAAACATCTCCAAATTTATCCAATATCTCTTTTTTTAAACTATTCCCACTTATTGTTGAATATTTTACATTTATAATATTCAACATATTATATTCTACTGAATAATCCATTAAATTTTCATAACTATCTCTTAATAATGCTCCCTCTCTCAATTTATACCTTCCTAATTCTATTTCATTTTTATTCTCATCCCTCTCTTTTATTTCATCTTTATTTTTACTTTTTTCTTTTAATTCTTCTATTACTACTTCGCCATTTAAATATCCATAATCTTTATCTTCTGTTTTTTCTTCTAATACCAATTTTATCTGCATCTCTTTATTTGTTTTTTCATAACTTATCTTTTCTTCTTTTTTTAAGTATAATATTCCTTTATTTATTTTTAATATTCCAGGTGAAATTATTAGCTCCTCATCTTTTACTTTAATTTCAAACCCTACTATTATCCCATCACTATAATCTGAAAAATATATCTCAAACATTTCTCGTGGATAATCTCTTAATTCTTCTAACATCTCTTTTTTTAATATTCTTCCTTTTTTAAATTCTGGATATTTTAATAATATCAATCTTCTATCCTCCCATTTTTTCCTTTTTCTATTTTAATCCATTAAAAAAATCATACTCATCTATTTCATAATCAAAGTCAAAAAATTTACTTCTATTTATATACAGCTGTTCCTCTTTTCTTATTATTGGGACTACATAAAATCCCCAACTTTCTTCTTCTGATACTATAAAATATCTTATTTCTCCATTTTTCATATTATCTGTATCTTCTTGATTTATATAACCTTTATATTTTTCTTCTAACTCTTCTACTTTTATTGCTTCTAATCCACTTAAATCATTCTTATAAATATATTGCCTTTTTACTTTCCCTTCTATATCTTTTAAATAAAATTTTATCTCTCTTGCTGATATTGGCCTTGATATATATCCTGTTAATTTATCTAATCTTCTTTGACCTTCAAACAATTCTTTTTCTTCTCCTGTAAATGTATGACTTACTATTGAATATGGTACTACTGGTATATCATTTCTTATTTCCATTACTATTCTTCCGTTCCTTTTATTGTTTATATAATTTATAACTCCTCTTAAACAAGCTAATTTTAACTCAAATGAATTTTCATTATTCTTCTGTTTGAATTCTATGCTTCGCCCTGGAACAAACTCTTTTATTGCTTCTTTAAATATATCTATCTTTGATGATTGCCCACTTAATTTTATTATTGAATATTCTGTCAACTCTTTATTCTCATAATATGGTTCTAAAAATTTTCTTATTACTTCATATATATCCCCTTTTATTAATTTTATTATCTCTTTTACATTAAATATTACTTCAGGAAATTCTTCTATTAATTCTAATCGCTCTTTTCGCGCTACTGATAAATTCCATCTGTTTAATTGCGTTATCTGCATATCGCTTTCTTTTTCATCTTGTGATATACTTTCAAATTTATTTCTCAATATATTTGTTTTCTGAAAAAAATCCTTCTTCATCATTTCTGATAATTCCCATAAAAAATAAAAATTATTCTTAACTTTTTTATATTCATCCAATGTCCTATTCTCGTATTCTCTATATCTTGTAGGTACTATATTTTCCGCTTTTATATACTCATCTTCTAATTTTTCATATACTTTATTTATTCCACAATCATCTATTACTCTAAATATATCTCCTTCTGAATAGCTTATCAAATCATCTATTGTTAATAATTTTTCTTCTTTATAATAATTCGATAATATTATTTTCATAAATTGCATTATTCTATATGTTATATTATTACCACCAAAATTGGTATCTCCATTTTCAAATCCCGTTTTTATTGATACGTTATATGAGATTTCTCCTTCATTTATTCTATAACTACACGATGATAAATCTGTCGTTCCTCCACCGCTATCTATTACCAATCCTTTATACTCTTCATCATCATCAAAATTATTTTTGCTTATCTGACTAAATATTGTATTATATAATACCGCCATTCCTTCATTTAATGTTTCTTTTTCTTCTATCTCATAATCATATAACAGTTCCTTAAACATTTTTATATATTGATTACTTAATTTTACTGGAGTTGTTAAATGTAAATTCTTAAATCTGCATTTAAATTGACTTTCCGCTTCATTTATTACATATTTCAAAAATGAACGAATTATCTCTCCTCTTTTTACTTTTAATATATTTGAATTTTCATCTTGTATCTCTTCCTCTTTATTATAATTTCCTACCCATCTTTTTATTTCTCTAAATGTTGTCGCCATTGTTATATAATCTTTTGACTTTATTCGCTTTTGTGCTTCATACCCATACAAATATTCTACTCCATCTGATAATATATTTCGTACATATATCAAACTTGGTACTATTTCTACTATCTTTTCTTTTTCTCGCGATACATCTTTAAATTTCACAAAATTTATATCGTTTAATTTTATTTGATTATTCAATATCAAATTACTTGGCAAAGATTCTATATAATTCTCATCTAAATATACCCCCAATGCTGTATTTGATGTCCCAAAATCTATACATAATACCGAACTTGTTTTCTCTAATTCTCTTATTTCTATTTCTGGAATTATTACATTATTATACTCTAAAGCCATCAACGACAATTCATTTTCTTCATTCACTACTTTATATAGATAATCCGAACTCTTCTTATTTAAAAATATTATTTCATAACTCTTTTTCCATACTTCATTAAATCTAAATAAACTTTTATCTCCTAATAAATAAAATTCATCTTTTCTATTTTCTACTCTTACTAGATTAAATACTCCATATATATATTTATTTTTAGGGTCTACTACTAACGCATTTCCTTCTTCTAATCCGCTACTTTTTATTCTATAATTATCATTTACTGTTACTCCTAATCCTTTATACAGTTGTATTTTTGCTGGAACTTCTACGTTTATATCCTTTAATTTTGTTGATTCACATTCCAAAAAATATTCCTGTAATTTAAAATAATTTTCATAACTTAAATTATTTATAAACAATCTCTCCTCTAATCCTCTGTACCTTAATATTATATTTATCAAGCTTTCTCTATCATTAAATTTCGTATAGCCTTTTACTAGTTTTTCTCTATTACATATTTTTTGTAATTCATATACTGTCATTTTTATTAATTCTCTTTTTGTATATCTTCCGTTCATCCTTTATTTGCCTCCATCCTGTCTTGTTTTCCTTTTCTTTTAACAAAGCCTTAATATAATGCTATTCTATCTATTTTTAATGTAGTTTTTTCCTCTATTATTCCAAAGTGATGTTCCCAATACACCTCGATTTTTTCTTTTAATGATAAAAATAGTTCTTTTATCAATTCTAATTTATTTTCTTTTTCTTCACTCCATTTACTTCCTATATACAATAAATATCCGTTTTCTTCCTCTTTTTTATATATTAAGCTATTTGCTATTATATCTCTTACACTTTTCCTAAAAAAATATATATTATCGTAGGAACTGTAATATCTATATAAATTATACGCTAACTCTTGCATTTCTGACCTCTTTAATTTTTTAAATTTATTCGCTATTTCTTCTCCCCAACGTCCATTTATCAATTCCTCTATTAATAGATTTATTAATAACGTTTCGTGATACATTCCACTATCTCTATCTAATTCTCCTAAAAAATAGATACTATAATCTAATATCTCTTCTGTTATTTCTTTTCTTTCTTGTACCCATTTACTTTCTGGATGTAACATTTCACTAAATATTCCCGCAAATCTATAATATGGATTTACCTCTATTTTTTTATATGGTACTCTATTTATATCTTGGTTATTCACTTCTATATATGGCGAATATGTTTTGGCTAATTTAAATTTCACATCTTCATTTTTTATCCCTTTTTTATTATTCTTTATTAAAATCTCTCCTATTGTTTTATTCATCTCATCACTCACTCACACATATATATTCTGGAAAATATAATCTTACTTCTGACATTAAAAATGCTATTATATCTTCTGTATGTTGACTCTCATTTACTTTTTCAAATTCAAATTTTAATATATTGCTTTTTTCATCTCCTCTTATTTCATCTAATATATAGTCATTTTCAACTTCCATATCATTTTCCCCTTCTATATACTCTTCTATTCTTACATTTTTTAATTTTATCGCTTTGCTTTCTTCAAATGAATTTATAAATCTATTTATTTCGCCTTTTGTTCTTATTACTCCTAAACTATCCTTCATATAATACTCCACTACATCTCTCAATTTATTATTTCCATATAAATTTTCCACTAATTTCTCTTTCTTTATTCTGCTACAATCCCTTATCTCATATGAATCCCATTTTTTTATATCTTCTCTTGTTGCTCTAACCATTAATTTATTCTCATCTCTTGATATGTTTATTATACTTTTATTATCTCCTGTTAAAATATATCCATTTGTATTAATCCCTTCTAAAGGAACGTCCAATTGATAGCCTATATTATGAGACAACTTTATTGGAAATCCTTGCGATCTAATTTCTGTTTTGCACACATTCCATACACATATATATCCTTCTTTTTTTAATCCTTCATATTCTTCTAAATTATATGTTAATCTTTCTATTTCTGCATCTTCTGGTATTTCATCTAAATACCCTTCTACTTTCACATAAAAAAATCTCTTGCTGTATGGATTTATTATTGTTTTCCATTTAGTTCCGCTTAATATAAATCCTTCATATAATTCTTTTTCTTCCTCTTTATATTTTCTATTTTGTTCTAGTTTTATTTTTACTCTGTAACTTTCACCATTTACATTATGTATTTCTCCTATAAACTCTTTTTCACACACTTTTTTTATTTCATGAAATTTTAAATCAATATATATTTGTCCTATTACAAACTTCTCTTTTCTTTTTATATAATCACTTAATAATTTTAATGGTAATATATTTTCCGATAAATCTTCTGCTAATATCGGAATTAATATATCATCATACAATGTCAACTCTTCTTTTTTTAATATTGTACAATATATATCATATCCCCAATTTTTATTTTCTACACCTTTTAATACTCTTTCCATTAGATTTTCATTAAATTTCATTTGTTCTACCATTAATTCTTTAAAATAATTTCCTAATAACGACTTAAATATTTCTTGGTCACTTATACTTGTCATCTCTTTTATTCTATTTTCTGCTCTTTCTTTCATCTCTTTTATATCCATTGTTTTCCCTCTGCTTTCTATCCTAAATTTATCTTTCCATTTCCTATTTCTATTCCTACTCCACCATTATTTAAACTTAATTTCCCATCTGCCATTGTTACTGTACTTTCCCCACTTGTTATATCTACTTTTTTTTCATCCATTACTATTTGTCTATCTTTATTCTTTATCTCTATTTTTCCACCTTTTAAAACTACCTCTTTTTCTCCTTTTTTCAAATTTACACTCTCTTCTGTTATTTCTACATAACTTTCATCATCTTTTCCTGTTATCTTTATTGATTTTGAATCAAATCTGATCTCTTTTCCAAAACTTGTTCTGATTACTTTTATATCTGGGTCATTATCGATATCTTCAGTTTTACTACTTACATTTCTTATACTTACTTCTCCTGCTTCATCTCCAAAATGCACTTCTACTAATGTATCCTCTTCCGGTGTAAAATATGTACCTGTATACATTCTTTCTATTGGATAATAGTAACTCTTACTTTCGTCATATTCGTTTTCCATTTCTGTATATTCTATTTGTGCTTTATGTTGTTTTGAGACTTTTTTTATTGTCCCTTTTAATGTTAGTCCTGTTATACTTTCTTCTCGTTTTACTTTTCCTATATTAAATTCATCTCGTCTTACAAAGACTAAATCTGATTTTAATACTGCGTCTTCTTTGTATATCCTGTTTTTTATTAATAATAATGAATCTTGTTTCCCTGTATTTACATCAATATTCAGATTATATGGATTACCTATTGAAAATAGTTCTTCTCCTTTTATTTGAGGATATCCTTTTAATTTGTAGCTATTTTCTATTGCTCCTTTTTTCATCTTTCTACTTAATAATAAATTTTTATTATCTATTGTTTTTTGGCTACTTCCAAATTCTCCTATTGCTATTCCTGCTACTGTTTTTGGATTTTTACCTTTACTATCATCTACTATTATTAAATCGCTTTCTCTTCTTAATATTCTCTTTAAAAAATCCCAATCACTTTCTTTATATTGCACTTCTACTGGGTTTAATTCTGTTATTAATTCTTGTTTGTCTATATGACTATTAAATCCAAATGAGTATTTATTTTGATAAGTTTCATTTAATTTGCTTATTACATCTTCATATTTTGTGCCAAGATTATGATATACTCTGTTTCTTTTTTCTTTTTCTAATTCTTTGCTTAATGAATAACTTTTTATTTTTACCTTACAACTATTTTGCTCTATTTCCATAGAATGTTCATAAATTAATCCTCTAAATATAGGCTTATTATCATCTCCGTATAATATTTCTATCCCTTGTGTTTCTACATTTAGAAATCTAGTTACTTCATCTGTATCTTCTCCTGCTATTATTCCTTCTATTTCTGCTACTGTGTGTTCATTTACTTCTTTTATTATTTCTAAATTTAATAAATTAACATATTTTATACCTTTTATTTTTACTTGATAATCCATAAATCCTTTGCCTAAATCTTCTTTTTTCTCTTTTGGTTTTTCTACTAAATCTATTCCTAAGTATCCTTCCATATAGTTGCTTATTGTTAAATAATCATCTAAATTATCTCCATAATAATAACGTAAATTACGGTCTATTAAAATAATGTTATCTCCATAATATTTGCAGCCTGTATCTCTATTTATTTTATCTTTTACTAGACTTTCTTCTTTATCTTTTCCTTTATATGTTCCACTTATATCTTTTCCATCTGCTGTTACTTTGGAATTTTTTCCTATATTACGAATGTTATAATACTTATCTTTATATCCCAAACTTGAATACAGCTCATAATCATTATTTGGTTTCTCTCTTTCTATATTTAAAAGATACTTTGAGGGTTCTATTATTTTTAGTGTTATCTCTTTCTCCTTAGTATCTATTCCTAATTTTTCATTATAAATTATTACTTTCTTTTCATCTTCTTCAAAGCCTAATTTTAATTTTACTTCTCCTTTTTTCATCTCTAATCCTACTAGATCCTTTAATTTATAGCTTTCTATATCTTTAATTATATTTTCACTATGTTTTGTATTTTTTATATATTCTTCTATTTTTTCTTTATTACCTTTATCTAATTTCGTTAACGAATTTACAAATCCTCTCCATCCAGCTATCTCTTCATATGTGTTATAAAATAACTCGTTTTTTATTTCTTCATTGTTGTCTATTCCTAATTTTTCTAATATATATTTAATCGCTGAACCTAAATAATCTTTATTTAACATACTTGTTATATCTTCCTGTTCTGTTCTTCTATAAACAGTCTTTTCCAGTTTACTCACATCATCTAATTTTATATGTGGATAAAACATTGTTAATCCGTGATAAGCTCCTGCATCTAAATGGTTCTTTTTAATTGCTTTCAATGTTGCAACTAACTCTTTTTTTTGCAATCCTATATTATTATCTACTAATCCATTATCTACTAATACACATTCTCCAATATGTTTTAACATTGTTCCTGTCAAATCTCTTGATATTGAATAAGTTACCATTGATAAATTTAAACCCTTTTTTTTATATGAATTTATAAACTCCATCTTTCGTTTTGCTATTTCTAAGGTGAATTTACTATCAATATGTTTTTTGATTTTTTCCCATATCTCATTAATCTCATTACTTGTTATTTCTTCTTCGTAAAAATTATTTATAAACTCTTTTTCCTCTTTTTTTACTCCTATTTGAAATTTTATTTCCCAATTCTTAGATATTGGAATGCTAAATATCTCTATTTCTCCCTTTTTTTGAGCTTTTAATTTTCTCATTTCATAATTTAATAATACTTGAAATATACTATGTTTTATTATCCCTTCAAAAGAATTATCTGAATTTATATCATAACTCGATATATTCCTTTTTCTATTACTTTCATTAACCATTTTATGCAACTGCTGATTAGCTAACTTAAGTGAATCATTTTGTTTATTTTCATTAAATAGTTCATCTAAATATTTATCAGTTATTTTTATTATTTCTCCTTTTTTTTCCTCTTCTAATATATTAGAGTTAACTAAACTTTTTCTTATTTCATCTTCTATTTCTTTTAAATGTGTTACATCCAGTATAAAATCTTTTACTCCTTGTGCTCCACCTAAAAATTCATTTCCGCTAAACTTTAAAAAATCTTTTATCCCTACTCCATTCCAAGCTACTCCTCTTTTTACTCCTTCCATTACTGATACATATTGAGCTAAGCCGCCTCCTAAACTGTGTCCTGTTACGGAGATTGTTTTGTCTTTATAATCATCATTATTTACTATATCCTTATAAAAATCTACGGCTAATTTAAATTGTATTCCAGGTATTCCTGCTACTATCTTTCCATTTGTTAAATAATGTTCCATTATAAAATCTCTATCTCCTAAATCTATTAAACCAAAGAAAATTTTAAAATCTTTATGACTATCATATTTTCCATTCTCTCCATCTGTACCTCTGTATGCTATTACTATTTCATCATCTTTTTCAAATGCTGCTGCATAAAATTGTTTATATTGTAATTCTATATTTTTAAATTCCTTACTCCCTTCCTTTTTTCCGCCAAAACTAGATTCATATTCTTCCTTATATTTATTTTTATATTCATCTAAATTAAATCCTTCTAATAGTTTCCAATCTTCCATTCTTTCACTAAAATAATTCCATCTTTGTTGACGTTCTGAATTATTAAACTCTTTTTTTAATAAAATATCTTTTAATGGATTATTATTATCCTTTTTTTCATACCTTTCATATGCTAAATCTGCCAATACTAAAAATTCTAAATCTTTTACATTTCCTCTTTCCATTTTTATTCACTCTCCTATTTTTATTTTTGATAATATTTTTTCATTACAGTAAATTGTTTCTTCATATCATCTAAACTTTTTATTTGGTAATATTCTTTTTCTTCTACCCATATAGAATATTTTTGTTTTCTTCTATACTTAAAAACATCAAATTCACTTATTCCTCTTGAAAACCAATTACTTACTTTCAATATATGGTCTATATCTTTATCTCTAAAAAATTCTTTATCATATATTTTTATTCTTATACTTGCCCATTCTAAATTTTGACTCTTTAAATACTTAAACAGTTCCCATACCTCTTTTATAAAAGCTTCTTTCTTCGCCTCAGTACTTGTTACATCTTCAAATATTAGTATCTGTATATTTACATGCATTTTATTTGAAATATTATTAAAAAAGAAATCAAATTTTTTCCTTTTTAAAATTTTTAGACTATCTCTTTTTTCATCATAAATATGTATTCCCATATTTCCCCAAAAATAAAGTTTTTTTTCTTTAAATATTTTTTTTATTATTGGTCTATAATATATTGTTGTTAAATTGGCTTCTTTTATCGAAGGATAATTCTCTATAACTCTCTCTTTCGGATCTTTTTTTACATATGCCACAAATGTTTCATCATCTATATTATTCTCTAACGGATATACCTCCAGCTTCCATTTATCTCTTCTTTTATCATATCGAATCCTCCTTATCTCAAATTTTTCATCATATCTTCCTTCTAATTCATTCATTACTAATGCTCTTATTCTTGTTTCCTCTAATGCTAATTTTTTCTTACTGTTTGTTATATCAATACTTTTACAACCTAATATCCCTAATATTAATATCAAAAATATTATTATTTTCCTTTTCATCTTCTCATCTCCTTTTTTATTTTTTTCTATATATAATTTTAAAACTTAATTCTAATATTAAATTTTTTTAATACCTTAATTAATTTTTAAAAAATCTTTTATCCCTACTCCATTCCAAGCTACTCCTCGTTTTACTCCTTCCATTACTGATACATATTGAGCTAAGCCGCCTCCTAAACTGTGTCCTGTTACGGAGATTGTTTTATCTTTATAGTCATCATTATTTACTATATCCTTATAAAAATCTACAGCTAATTTAAATTGTATTCCAGGTATTCCTGCTACTATCTTTCCATTTGTTAAATAATGTTCCATTATAAAATCTCTATCTCCCAAATCTATTAAACCAAAGAAGATTTTAAAATCTTTATGACTATCATATTTCCCATTCTCTCCATCTGTACCTCTGTATGCTATTACTATTTCATCATCTTTTTCAAATGCTGCTGCATAAAATTGTTTATATTGTAATTCTATATTTTTAAATTCCTTACTCCCTTCCTTTTTTTCGCCAAAACTAGATTCATATTCTTCTTTATATTTATTTTTATATTCATCTAAATCAAATCCTTCTAATAGTTTCCAACCTTCCATTCTTTCACTAAAATAATTCCATCTTTGTTGACGTTCTGATTTGCCTGTTTCTGTTGTGTCATTAAAATGGTGAATTGATAAAACTTCTTTTAATGGTCTTATGTCTTTTATTTTTTCATATCTTTCATATGCTAAATCTGCCAACACTAAAAATTCTAAATCTTTTACATTTTCTCTTTCCATTTCTATTCACTCTCCTATTTTTATTTTTGGTAATATCCTTCTTCATAAAGTAATTTTTTTCTAATTCCATCTATAGTTTTTATTTGTTTATAATCTTTTTCTTCTATCCAAATAACCCATTTTTTTTTTCTCCTATACTTAAAAACATCAAATTCACTTGTTCCTCTTGAAAACCAATTACTTACTTTCAATATGTGGTCTATATCTTTATCTTTGAAAAAATCTTCATCATATATATTTACTGTTATACTTGCCCATTTTAAATTTTGACTTTTCAAATATTTAAATAGTTCCCATACCTCTTTTATAAAAGCTTCTTTCTTCGCTTCTGTACTTGTTACATCTCCGAAGATATAAATAAATATGTTTACAAACATTTTATTTGGAATCGTTTTAAAAAAGGAATCAAATTTTTTCCTTTTTAAAATTTTTAGTTTCTCTCTTCTTTCATCATAAATACTTATCCCCATATTTGCCCAAAAATATAATTTTTTTTCTTTAAATATTTTTTTTATTATTGGTCTATAATATATTGTTGTTAAATTAGCTTTTTTTATTGAAGAATAATTCTCTATAACTACCTTTCCATATTTCACATATGCCACAAATGTCTCATCATCTATATTATTCTCTAATGGATATATCTCCAGCTTCCATTTATCCCTTCCTTTATCATACAACGTCCTCCTTATCTCAAATTTTTCATTATATCTTCCTTCTAATTCATTCATTACTAATGCTCTTATTCTTGTTTCCTTTAATGCTAATTTTTTCTTACTGTTTGTTATATCAATACTTTTACAACCTAATATTCCTAATATTAATATCAAAAATATTATTATTTTCTTTTTCATCTTCTCATCTCCTTTTTTGATATATATATATATCTTTAAAATTTAATTAAGATATTAAATACTTTAATATCTTAATTAAACTTTAAAAAATCTTTTATCCCTACTCCATTCCAAGCTACTCCTCGTTTTACTCCTTCCATTACTGATACATATTGAGCTAATCCGCCTCCTAAGCTGTGTCCTGTTACGAAGATTGTTTTATCTTTATTTTTTCTATCTTTTACTATATCCTTATAAAAATCTACAGCTAATTTAAATTGTATTCCAGGTATTCCTGCTACTATCTTTCCATTTGTTAAATAATGTTCCATTATAAAATCTCTATCTCCTAAATCTATTAAACCAAAGAAGATTTTAAAATCTTTATGACTATCATATTTCCCATTCTCTCCATCTGTACCTCTGTATGCTATTACTATTTCATCATCTTTTTCAAATGCTGCTGCATAAAATTGTTTATATTGTAATTCTATATCTTCTGATTTTAATAACCATTCTTTTTTATAATCATCTGGATCATATGCTTCTAATAACTTCCAACCTTCCATTCTTTCTCTAAAATAATTCCATCTTTGGTGACGTTCTGATTTGCCTGATTCTGTTGTGTCATTAAAATGATGACTTGATAAAACTTCTTTTAATGGTCTTATATCTTTTATTTTTTCATACCTCTCATATGCTAAATCTGCCAATACTAAAAATTCTAAATCTTTTACATTTCCTCTTTCCATTTTTATTCACTCTCCTATTTTTATTTTTTTATTAAACTCCAATCTAATTTCCGTAACTTATTTTTTACCTCTTTTATATTTTCTATATTTTTATAATCTTTTTCTTCTATATATAGTACATATATTTTTTTTCTTCTATACTTAAAAACATCAAATTCACTTGTTCCTCTTGAAAAACAATTACTTACTTTTAATATGTGGTCTGTATCTTTATCTTTGAAAAAATCTTCATCATATATATTTACTGTTATACTTGCCCATTCTAATTTTTGACTCTTCAAATATTTAAATAATTCCCATACTTCTTTTATAAAAGCTTCTTTTTTTTCTTTTGTGCTTACTACATCTTCAAATATTAACATTTCCATATGAAAAGATAATTTTTCTGGAACTTCTTTTATTATTTTATTAATATTTTTTATTCTTTTTAAACTTTTATTAGTATCATTACCTAAACCTGTCCAATAGTACACTTTTTTTTCTCTAAATATTTTTTTTATTATTGGTCTATAATACATTGTTGTTAAATTTGATATTTTCATTGAATAATAGTTTGCTATCACTCTTTCTTTAGGATCTTTTTTAACATATGCTATAAATGTTTCATCATCTATATTATTCTCTAATGGATATACCTCCAGCTTCCATTTACCTCTCCTTTTATCATATCGAATCCTCCTTATCTCAAATTTTTCATCATATCTTTCTTCTAATTCATTCATTACTAATGACTTTATTCTAATTTCCTCTAATGCTAATTTTTTCTTGCCGCTGGTTAGATCAATACTTTTACAACCTAATATCCCTAATATTAATATCAATAATATTATTATTTTCCTTTTCATCTTATCATCTCCTTTTTTGATTTTTGTTATAGACAATTTTAAAACTTAATTCTAATATTAATTTTTTTAATATCTTAATTAAACTTTAAAAAATCTTTTATCCCTACTCCATTCCAAGCTACTCCTCGTTTTACTCCTTCCATTACTGATACATATTGAGCTAAGCCGCCTCCTAAGCTATGTCCTGTTACGGAGATATTACTTTCTGTATTTTTAGTTAATATTTTATTATAAAAATCTACAGCTAATTTAAATTGTATTCCAGGTATTCCTGCTACTATCTTTCCATTTGTTAAATAATGTTCCATTATAAAATCTCTATCTCCCAAATCTATTAAACCAAAGAAGATTTTAAAATCTTTATGACTATCATATTTCCCATTCTCTCCATCTGTACCTCTGTATGCTATTACTATTTCATCATCTTTTTCAAATGCTGCTGCATAAAATTGTTTATATTGTAATTCTATATTTTTAAATTCCTTACTCCCTTCCTTTTTTTCGCCAAAACTAGATTCATATTCTTCTTTATATTTATTTTTATATTCATCTAAATCAAATCCTTCTAATAGTTTCCAACCTTCCATTCTTTCACTAAAATAATTCCATCTTTGTTGACGTTCTGATTTGCCTGTTTCTGTTGTGTCATTAAAATGATGCTTTTTTAAAACTTTTTCTAAATTATATCCTTCGTCATCATCTATATACCTCTCATATGCTAAATCTGCCAAAACTAAAAATTCTAAATCTTTTACATTTCCTCTTTCCATTTTTACTCACTCTCCTCTTCTATTTTATACAATTCATTTCTTATATCACTTAACGTTTTTATCCTCTTATAATCTTGTTCCCAAATTATTAAATTATATATCATTTTATCTCTATACTTAAAGACATCAAATTCACTTGTTCCTCTTGAAAACCAATTACTTACTTTTAATATGTGGTCTGTATCTTTATCTTTGAAAAAATCTTCATCATATATATTTATTGTTATACTTGCCCATTTTAAATTTTGACTTTTCAAATATTTAAATAGTTCCCATACCTCTTTTATAAAAGCTTCTTTTTTTTCTTCTGTACTTGTTACATCTTCAAATATTAATATTTTAAAAGTTATAAAACTTTCTTTAGAATATTTTTTTAATATATCATATATCTTTTTTTTCTTATCTAATTTTTCTTTTGCATAGCTCCCTATGCTAGAAAGATAATATATTTTTTTTTCTTTAAATATTTTATTTACTGTTGATTTATAATATATTGTTGCTAAATCGGTTACTTTCATAAAATAATAATCCTCTAGCACAATTTTACCATATTTGACATATGCTATAAATGTTTCATCATTTATATTATTCTCTAACGGATATATCTCCAACTTCCATTTATCTCTTCTTTTATCGTATAACGTCCTTCTTATCTCAAACTTCTCATCATATCTTGTTTCCAATTCATTCATCACTAATGCTCTTATTCTTGTTTCCTCCAATGCTAATTTTTTCTTACTGTTTGTTATATCAATACTTTTACAACCTAATACCCCTAATATTAATATCAAAAATATTATTATTTTTCTTTTCATCTTATCATCTCCTTTATTGATTTTTGTTATAGACAATTTTAAAACTTAATTCTAATATTAATTTTTTTAATATCTTAATTAAACTTTAAAAAATCTTTTATCCCTACTCCATTCCAAGCTACTCCTCGTTTTACTCCTTCCATTACTGATACATATTGAGCTAAGCCGCCTCCTAAGCTGTGTCCTGTTACGGAGATTGTTTTATCTTTATTTTTTCTATCTTTTACTATATCCTTATAAAAATCTACAGCTAATTTAAATTGTATTCCAGGTATTCCTGCTATTATCTTTCCATTTGTTAAATAATGTTCCATTATAAAATCTCTATCTCCTAAATCTATTAAACCAAAGAAGATTTTAAAATCTTTATGACTGTCATACTCTCCATTGGCTCCATCTGTTCCTCTATATGCTATTACTATTTCATTATTTTTTTCAAATGCTGCTGCATAAAATTGTTTATATTGTAATTCTATATCTTCTGATTTTAATAACCATTCTTTTTTATAATCATCTGGATCATATGCTTCTAATAACTTCCAACCTTCCATTCTTTCACTAAAATAGTTCCATCTTTGGTGACGTTCTGAATCGTTAAAATCTTTCTCTAATAATATCTTTTTTAATTCATAAGTTTTATCTTTTTCCTCATACCTTTCATACGCTAAATCTGCCAAAACTAAAAATTCTAAATCTTTTACATTTCCTCTTTCCATTTTTACTCACTCTCCTATTTTTATTTTTGATAATCTTTTCTATATCCTAATAATTTTTCTATATCTTTCATTGATTTTATTTTATAATAGTCTTGTTCTTCTATCCAAAGTCCAGCATAATTTTTTTTTCCAATATTCCGTCACATCAAATTCACTTGTTCCTCTTGAAAACCAATTACTTACTTTCAATATGTGGTCTATATCTTTGTCTCTAAAAAAATCTTCATCATATATATTTATTGTTATACTTGCCCATTTTAAATTCTGACTCTTCAAATATTTAAATAATTCCCATACTTCTTTTATAAAAGCTTCTTTTTTTTCTTTTGTGCTTACTACATCTTCAAATATTAACATTTCCATATGAAAAGATAATTTTTCTGGAACTTCTTTTATTATTTTATTAATATTTTTTATTCTTTTTAAACTTTTATTAGTATCATTACCTAAACCTGTCCAATAGTACACTTTTTTTTCTCTAAATATTTTTTTTATTATTGGTCTATAATACATTGTTGTTAAATTTGATATTTTCATTGAATAATAGTTTGCTATCACTCTTTCTTTAGGATCTTTTTTAACATATGCTATAAATGTTTCATCATCTATATTATTCTCTAATGGATATACCTCCAGCTTCCATTTATCTCTCCTTTTATCATATCGAATCCTCCTTATCTCAAACTTTTCATCATATCTTGTTTCCAATTCATTCATCACTAATGCTCTTATTCTTGTTTCCTCTAATGCTAATTTTTTCTTACTGTTGGTTAGATCAATACTTTTACAACCCAATATCCCTAATATTAATATCAAAAATATTATTATTTTCCTTTTCATCTTCCCATCTCTTTTTTTATTTTTCATTTTTTTCTTCCCCCGTGCATTTGCGTAAAGTAATAAATTTTCTTGGTGAAATTCCCGTTAAGCAGCTGACATTGTCTGAGCGTAGTGAGTTTGGCAGTTGTAGGGAATGAGCCGTAGAAAATTATTACTTGAAGCATTAGCACTTGATTTTTTGTTACTTTTTCATCAAGGAAAAAGTAACGTTTTTTTCTTTTCAAATTTAAATAAAAATATTATAAAACGTTTAAAAAATAACGTTCTTATATTTTGTTATAAAAATGGTTAAATCATTGCATATTTTAAAATAAAATAGGAAAATTATTTTTAAACCATTCCTATATAAAATAATACCTTTGTTTAAATTCAAAATATCTTTTATTAAATCTTTTCTCTGTTTTTTAATTTTCTCATTTCATAATTTGATAATACTTAAAATATCCTATATTTTATTATTCTTTCAGAAGAATTATCTAAATTTATATCACGATATATCATCACCCTAATAATAACAACCCCATTCCCCTTCATAATCTACAAAGAGGACAAGTAAACTTGTCCCCATTTTATTATTCTTACTCTTGTGCAAATCCACCATCGATGTCTGTTAATTCTGTTTTGTCTTTCTTTTGTTTGATTACTATTTCAAATGTTCCTACACCTTCTGTATCACCATATTTTTCTGTATAATCTACTACAAAAGAATTTGGTAATATTATTTTTCTTACTACTTGATCTGCTGCTATTACTTCTAATGTTGTTACTCTGTAGCAATCTGCTTTTTCTGCTGATACTACTGACCATTTTGCTAAGTTCAATGTATGATCTGCTTCTTCTCCATTTACTGCTGTGATAATTTTCCCTGTTACTATTATCAATGTCCCTACATCTGTTGATCTAGCGTTTGAATCATCCGGAGTATCTGTTTTATACTCTGCCTTTTGAATGTTTGCCATCCCTAAATCAATTGTTTCGTTTTGTCCTTCTACTTTTAATCTGAATCCCATACTGTGTAACCTCCTATGATTTTTTTTGGAATGTCTCAATCATAACTTATCATTTCTTCATATCAAATTTTATAAAATAATCACTATTTTCTTATGAAGATAATAAATATTTTTTCAACTATTCCTTATTCTAAAAGGGCGTCCCCCTTTATTAATTTATTAATTCGAGTTAGCACTCTTTGTTATTGCTATTTCTAAATTTTTCACACTTCCATTAAACGCTAACTCTATTTGACACACATTGTTTTTTTCATCTATTATATTACTTATACTATCCCCTGTTTGAAATATTGAATTCACAAATCCCATATCATTATTCCATATACTCTTTTGACTCTTTGGATTATTACTGAAAAATTTTATTATTTTATCTTGTCTAAAATCACTTGTATGAAATCTTAATATTCTTTCTATATAACTACTTACTGTTGTTTTATAAATTGGATCAAATCCTTCTTCTGTCAATGACAAGCTTCTTGCTTTATATACTGTTATTCTTTTTACTAATTCTCCATCTATTTGTGCATTTTCTGATGAAAATACAAATCCAAAATTATTCCTGTTTATTTCATCTTTTATTGTATTTGTAAATCCTGATATTTCTTTTGCTAATGTAGTTACTGTTTTTAAACTATTATCTCCACTTTCTAAATCATATCTTACTCCTGGATATTTGTTTGTTGCATTTCTAAATTTCCCTTTTAGATATTCTGGACATTGATATGATGAAACTAATCCTGCTGCTACATATGATGCATCTATATATACACCTTCTAGCCACAATTTCATTATATCTTCTTTTAATTTTGATAATTCTACTCCCCCACCATCATTTACTTTTAATCTACTATCCAATACCACTCCTGATTTATCTTTTGGTATTATTGTGAAATTCGGTAAACAAGGAATTGCAAATTCACTATATTTTTGCTTCATTAATGGTTCACATTTTGTTATATATTTTTCCACTCCTATTGTTGCCATACTATTGAATGTTGTCTCTTCTTTTGATTGGAAATTAAAGAAAATTTGAATTTTATAATCTTTCGCTATATCCAATATTTGTGTTAATGTTTCCATTGTATTTCCTTTTTCTTTTGATACTTTTTTACTACCTTTAAATCTTTCTCTTCTTAATTTAGGTTTTGCACTTGATTCAAATTCTATCGCTGGAACTATTCCAAACCATATTGTGTTATTAAAATCATTCTTTGCATTTATTGTATTTAAATATTTTAAAAATCTATCTTTATTATTGCTTTTTACCATCATATCCACTTTTGTATTTGTTATTATTAGTGATGGTTTCATCTCTTTACTTTTTGTTTCATATTGCTCAAAGTACATTTTTATTCCCAATATCTTTTCTATTAATGGTTTTGCTGCTTTTACAAATTCATCTTTTGAACTTTTATAAAATTCTAAATATGAATTATAATTTGCTACTTCCTTTTCTACATCTATTTCATCTTGAACTACTGGCATTGGGGCAAATGTTCTTAATACTAAATCTTTTACATATGGTGTTGGACTTTCTGTTATTTCAGTATAATCTTCTTCTAATACTTCTAATAATCTATTAGCATTTTCTTGTCCTTTTACCAATAGTGCACTACTTTCTGCTTTCGGAGCTTCCAATATTTTTAATTCTCCTTGTTCTCCCATTGTAAGCATTCCTACTTTTATTGCTTCTGACTCTGCATCTTCTGGTTTTTGTCCTAATAATAGTCTTGTTTTTATATCTTCTATTGCTATTGGTAACATTCCCATTACATTATTATAGTTTTTACTTGCTTCTTCAAATTTAGAATTTAATTTGTCTCCTATTTCGCCTTTACTTGGATCTTCTTCATCTAACTCTTCATATTTCCCATGTAAATATCCTATTTCTTTTCTTATTTGCTTTATATCTTCCATTACTTTCTTTGGCGATATCATTTCCAATACATTTTCAAATTTAAAATCTACATTTTTTATCCCTTGATTTTTCTTTGTATCTATTAAGGTAAATAGCATCTTTAAAAAATCATTATTTTCATCTAATGGTATTTCTGATATTGCCTCTTCTGGTAATCCTTCTGGTTTCACTAACGAATACACCACTTTTTGATTTGTTGCATTGTAAAACGAATACACTTTTGGTTCAAACTTATTCAGAAATTCATCGAAATCTCTTATTAACAAATGTTCGTTAATTTCTGTTAATTTCTCATCGCTCAAACTTTCATACCCTTTTACATCTCCAACTAATGTTAATAAATCTAATTTCTCCGGATTTAACTCCTCAAATAGCATTGTCCTATTTGTTTGTGTTATTATTTCCATTCTCATCCTCCTTATTTTATTTGCTTTTTTTATTTATAGTATGATTTTAGAAAACTACCTTTCGGGAGTTTAATCATAGTTTTTTACTATCTTTCTAATTTATATCCTCTGCCTATCAATGTTACCAACTTTTCTTTCATCAGTGGATCTTTCTGCCTTATTTTCTTAACAAACGCATCTACTCTTCTGTTTCCTCCTCTATAATTTCCTCTCCAAACTTTTTCTATTATTGCTTCTCTACTACAAACCACATTAGCATTTTCCCTGAAAAATTTTGATAATTCATACTCTTTATCTGTTAAATTTTCTGGTATTTCACCTATTTCTATTGTTGCTACACTATCCATTAATATCTCTTTGTTTATATCTCTTTTAAATCCTTTTTCTTCTATATTAAATGCTCTTTTTATTTTATGTATCACTTCATCACTTGTAAATGGTTTCCTCAAATAATCATCTGCTCCATTTTTAAAACTCCTTAATACTGTTTCACTGTCATCTATTGCACTTATTATCATTATATATGGGTTATTATATTCTTTTCTATTTTTGTCTATAAATTTACAAACATCTAATCCACTTATATCTGGCAAATTTAAATCCAACAATATTACTTCTGGTTTTTTTTCTTCCACAGTTCTTACTGCATCTCGTCCATTCTCACTTTCATACACTATAAAGTTTTCTTCCAACAAACTTATTTTTATAACTTCTCTAATTAAAGGATCATCCTCTACAATTAATACTTTCACTATTATCCTCCTCTTTTTTTATTTCGATTAATTTAAAATGACTTGTAGAAAAGAAAACGAAGTGTTTGATTTTTTTGAACTTTCAAATTTATTTATTATTTTCACACCACAGCAATAATATATCATATACAGAATATTTTGTCAACACTTTTTTTATCTATATTGATACACAATGTTCTTTATGTGCATATCTCGAATTCTCGTCCATCCACCGCTTCCTTTTGTACTTTTTTTAAATGCAGCTTTATTTTTTGAATTCTCGTGCTATTTTCTGTAATAGTTTTTCTTTTTCAAAATTATTCCTGATTTAGAACAGAAAAAGCTTTCTCCAAATATATAGGAGAAAGCTTTTTCTGTTTTATTTTTTTATGTGCTTCTCATAAAAAAGCCTTGAGCCTTTTAAAAGAAAATCAAAATATTATTTTAAAATCGTCCCTTATACTTATATAATAATCACTTTTATCATTTATCACTATCCAGATAATATTTCTCAAAATTTCCATTTGAAGTTTCAATATAATATATATGCTTCTTTTTTCCATATATATCAATATATGCATCTATTATCTTTTTATTAATATCTCCAGATAATATTTTTATAAATACTCTATCCTCTTCTACATAATTTCCTGCTTTATCATATAACTTAATTTCCATTGGATTTGTATCTGCATAATCTCCACTTGCATTTTGCCATATAACTGATTTATATAAATTCCCACTACTATCATTAAATTCACCAATCTCTTCTATACTATTATTAGCTATAATAATTTTCCAAATATAATTTTCTGTAGGATTAAATATCAATTTAACATCAATATCTTTATCACTTGTATCACAATCATTAGAATCAAATATATAGTTATATGCTATAGCTGTTCCACTTGTTAAAGGAATTATTATCTCACTTCCCTCTTTTTCTTGATACCCCAATTTATCTCCGTTACCATTTATTGCATTAAATACAGGAACAGTATTATCATAATTAAATATATTATTAAATTCACTTTTACTACCTTTTATTACTGATTCATTCCCTGCATTATCTACTACTTGTACAAATATATCTTTTTCTCCATCATTCCCTAAATTTAACGAAAAATCAGTTGGACTATTATATAAAATATAATTTTCACTACTTAAATCTCCACTCAATCCATATTTCATACCACCAACTCCTGCTAAATTATCACTAGCAGCTATATTTAATTTTAAATTACTACTATTTCCATAATATATTCCACTAGTTTCCCCAGTTCTGTATACATCACTATCATTATCTCTTAAATATATATTACTTATAACAGGTTTTGTTATGTCTAATTTTACTCCATTTGTCTCCACAACATCTGATATATTTCCTGCTTTATCATATACTTTCATTTTTTGAATATATATTAACTCATTTGGCTTTGTATTATCATATTCTGTTAAATTAAGAGCTGATTTTATTCCTGTCCCTGTTGTATTCCCTATATTTTCCCAATTGGACACTACTCCTTCACTATCCCATACTCCATATTCATAATGGTTCACTCCACTTAGATTATCTAATGCTCCTTTATAATTGTATTTTAATGTATATGTAACCCCTTCTGGTGTCTCTCCATTTGTCCATTCCACATCTTCCGTTTTATCTGCTCGTACATCTATTAAATTCATTCCACTTACATCTGGTTTTGTTTTGTCAAATTTAACTCCATTTGTTTCTACATCTATATAATTCCCTGCTTTATCATATACTCTTATTTTTTGAATATATATTGTATTATCTGTATTATCATATTCTGTTAAACTTAATCCTGATTTTGTTGTAACTCCTGTTGATACTCCTCTATTTTCCCAATCAAATACCGTAACATTTTCAGATCTGTTCCAAGCTCCATATTCATAATGGTCCACTCCACTTAAACTATCAGTTGCTCCATTGTACATACATTTCAATGTATATGTAGCCCCTTCTGGTGTTTCTCCATTTGTCCATTCCACATCACTTGTCAAATCTGCTCTTACATCTATTAAGCCCATTCCAGTTATATCTGGTTTTGTATCATCAATTTTCAATTCAAATTTCTTAATTTGTCCTTTTACTCCATCTGGATAAACTGCTCTTATAAAGAATGTTTTTACTCCTTCTGAAATATTAAAATCATCTAAATTTGTAGCAGTTGTATTACCTGTAAAATCTCCATCTGATATTGTTATGCTATCTTTTGATCCAGCCTTCATTCCATATTCATAACTACTCGCATAACTATCTTCTATCCATTCAATATAAATTTTACTATCAACTGGTTCTCCTGTATTATTCCATATACTTTCTAATATTTCATCTGTTTTACTGTTATTTTTATATATATTTATATTTCCAAATTCTGTTTTACAAATTATACCATCACTTCTTACTGGAGCTGTTTTTTTATGATTAACTCCATAATCTGCCCTAACCTCAATATAATAAGTATAATTATTTGTAAGAGGTATTCCGCCTTGAGATATTTCTAAATTTTTATTATTATTTACCCAATTCTGCACTACACTTTCTACTCCAGAACTATTTTTAACGTAAATTTTATATTCAAAATAGTTTATACTATCTACATTAGAAGTTGCATCTATTTTTATCATTCCATATATTCCAGAACTTCTACTTGTCACATCATAATCTTTAGAATTATCTCCTGATAACGTATCCCATACATCTGTAATATTGATTATTGTATTCAAATATACTGAATTACTAACATACACATCTGAATAAATAGTTCCTTTTTTTTCTCTTACATATATATAATAATTCCCTTCCAAAGTATATGAAGACAAATCTTTATTTATATCTGTCCCTTTACTTGGTATCTCTTCCCAAGGAACTATAACATTATCTTTAGAATAAACTTCACTATTTCCAATTGAAAATTCTATTGAATCAATATAATCTTTTGGTTCATGTTCAGTTTGTCCATAAAGATAATCTGCTATATTTATAGTAGCAGTTAATGTCTTATCTGTAAAATTAATTGGCGAAACCGAATTAATTTTAAATAATAAACTATTTGAATCTCCTGGTGTTCCTTTTCTTATATTTCCATATTTATCTAAGTTTTTTTGTATGTTACTGTCAGTTACTCCTGTAAAAGTGTACCAGCTAGTATCAAGAGTTCCATCTCCACTTGCAGTTCCAGGAGGAATAGTGTTTTCTTGAAATCTTTCCATAGATATTCCACCAACTTCATTTTTCCCTTTTGGCCAACTGCTATTTTCTATGTTTACCATATCTACTGTAATATAATTATTATCTTTTAATATCAACTGTTCTCCAGAATTATTCAAATTCATTTTATTACTATCTGCGCATACAAAAACTCTTACTTTCTCATTGCTGGTTACAGAATTATCTGCAATGGTCCAACCTGTTATATTGGAATTATCTTCATTTTGTATTAATAAATATCCATCTGCTGGAATAGTTGTACTACTTCCACTTATCCCTTTTGCATTAGCAATCTCTATATAAGGATTGCTATTTTGAGAATACTGTGCATTATTAATCATCCATCCTTCAAGGTCTACATCATATGGAGTTTTATTTCTAAGCTCAATATATTCATCTCCAGCCCACATTACTTCATTTATAACTATTTTTTGATATCCATAAATCTTTTGTAATTCTTCTAATGATAAAGCATCTCTATATATTCTTATCTCATCTAATAATCCAGTATAATAGAGACCAGTTCCTCTATAATCTCCCGAATCGTGAAATTTAGTTCCATTATTAACAGCTCCAACTCCAATATTTCCTGGATGTGGCCACAATTTTGAACCTTCGGCAGTTCCAACAAGCTCCATATTTAGATATGCTTTCATAGCTCCGTTTTCTAAATTTGATGTTCCATCCAATACTAAGACGGCATTATACCATCTTCCAGCTACAATATCTGCACTAATAAAACTATAATCCCAATTACTTTCACTTGTTGGTTCATTCCATCCGCCATAATATATTTTACCATTTTCTATATAAATATTTAAACCTCTTACAGTTCCTCCCTCTTCATATAAAACCTGTTTTGTCGTTACATCATCTGTTTTAAACCAAAGTGAAACTGTTCTTTTGCTAATAGTTGCCGTATTCAAATCTTCTGTATTTGGAACTTCTACATATGACGCACCGTCAAATCTGGCTCCTTGTTCTTGTTTACCAGGTTCATATATAATATTTCCATGTTTTACTCCATCATTTCCACTTTCGCTTTCATCTTTTACTTTCCCATCTCCTGTGTCTCTTTCAAATGGATAATATATCTCTAATCTGTTCTTATAGTCTTTATGTATCTCCTTATATAAGTCCGCTACCTCTTCATCAGATAAACCTCTACCATAGAATTTAACATCATCCATATTACCTTGAAAATAATTATTATTAATATCTTTTCCTAAAATCCAAGAATTTCCATAAACTTCATTAAATGCAGAACTTACATTCTCTTCTGATTTTTTCTCTCCATTTATATAAACTGTCACTTTAGAAGAGAGAGCAGTTAATTTTTCTACTTTTACTACAAACTGCTGAAATTCACGACTTTTAAAACCACTACTGCTAAAATCTATATTCTTATCATTCAAATCAACATATAATCCAGTAGTAGAATATCCTGCTGTAAATAGATTATCTCCGTTAGTAAAACTTTTCGAAACAAAAGCTTGATTTGTCTGTGTTTCATCTGGTCTTACCCACATTGCAACGGTAAATGTAGGTGGCACATAAAAATCTGTTAAATTTATATACCCATCTATTCCATTAAACAAAGCTTCCTTCCCAAAATATCCATCTTCATAACGTACTCCACCATATAATGTCCCATTGTTTCCATTCCCACTTTTATCATTAGATGTACTATCATCAAATGGGTAATATGCTATTACATCTAACCCTACACTATACAATTCATCTATTTTATCTTGATTAATTGCTTCATTAAAAGTATGAATTTCATCCATATATCCCTTAAAGAAATATTTTGTACTACCACCATCATCTCCTATATCATGAAATTTTGTTCCATTATTTTCTGCTCCTATCCCCACAAGTCCTGGATGTGGCCATAATTTTGACCCTTCCTGCTCATCAAGCAATCTGCTGTTTAAGTATGCTTTAAAAGCTCCTGATGTTAATTGATCAGTTCCATCTAAAACAAGTACAGCATGATACCATTTATCTACTTCTATCTCATCAGTTGAAATAGATGAATATTTCCAATTGCTTTCATTCGAAGGTTCATTCCACCCGCCAAAATATAATCTTCCATTATATATGTATATATTTAAACCTCTAACTGTTCCACCTTCTTCATATAAAATTTGCCTACTATTTAAATCTTCTGGCTTAAACCATAATGATATTGACCGCTTATCATGAACTCCTGTGTTAATAGAATCAGTATTTGGAACCTCTATATAATCATCTATTCCATCAAAATATGCTGTCTTTCCAAGATTTACTCTTTTAGTCTCATCTTGTATCGTTACTCCATTATGTAATATTCCATCATTCCCACTATTGCTCTCATCTTTTGTACTATCTGGTGTCACGCTATCTGGATTATTATGTGTAAATGGATAATATATTGTAAAATTTTCATTTGCTCCAGCTGCTCTATATAGTTCTGTTATTTCATCAACACTTAATTCTTTTCCATAAATTCTAATGTCATCTAATTCCCCATTAAAATATTTATTAGTTGAGTTTGCCCCAATTTTCCACCCATTTCCTATGCTGTCTCCAATTACACTGTTCATATCTTTTTCCCATAAAATCTCTGAATTTCTATAAACCTTTACATTCGATCTGTTTGCATCTATTTTCTTTATAACTACAGCTAAATGTTCCCATCCTTTTAATTTTATCCCTTCTGAATTAATACTATCTCTTATTTTCACAAAAACTCCATTATTATCATATCCAAAATCAAAAATATTATTCCCGCTTAAATCTGTTTTAGATATAAATCCACTTTCATCTATAGAATTTGGATTTGCCCACATTACCACTGAAAATGTTTCTGGCACACTAAAATCATCTGTTAGAATATTAGAATCCACTCCATTAAATACTCCAGCTCCATCCACTTCTCCATTTGAATCAAAAGATATATTTGTACCTGTTCCATTATGATTATTTCCACTATAATCATTAGTATCAGAATCTAATTTATAATGAGCTATTAATTTCAGACCATTTGTATATATCTTAGATATTTCAGAACTACTTAATTCTCGTGAATATATCTTAAAATCATCCATAATCCCATTAAACCAATAATCAGGACCAGTTGCTCCATCTACTGTTGTTGCTTCAGACCCAGTTCCTACAAATCCATATCTATCAGCTCCCGTACCAATCCCTTTACTTGCATGTACCCCTGTTTTTTCTGCTACTTTTTCTCCATCTACATATATTTTTTTACTCCCATTACTATAAGTTGCTGCAACTAAATGCCAATTTCCATCTACATAATCTTTATCATATCCGAAATCATCTGTTGCAGTTCCTAAAGAACTTGTATCCCAACCTATATTATTATTCATATCATCTTTTAATGATAATCTAAAATTCTCACTTCTATCAAAACTTGATATTATTTGCTTATTTTCAGATGAAGATTTAACCCAAGCCATTACAGTTAAATCTGTTATCCCATTGGCATTTCCAAAATTAAGATTATCAATACTTAAATAATCTCCAGTTCCATCAAAATATCCACCTTTTCCATCTATTCCACCATCAACTGTGTGAAATCCTCCTTTTATTATTCCATTATTGTTATTATATGACATATCTTTTACTTTTCCTGATATTTCATTATCAAAATCATAATACACCAATAGATCTGGCTTGCTAACATAATTTTTCCCTATTTCATCTGCTGTTAAAGCTTTTCTGTAAATTTTCACATCATCAATAGCCCCATTAAAATATCTATCATTATTTACACTTCTTCTGCCTATATCTAGTTTTTCATTTGATGTTAATAAATCTCCAGTATAACCAGTTGTTGTTTCTAAAGCCCCATTCACATATAGCTTCATATTAATTCCATCATATGTACCAACTACATAATACCATTTATCCGCAACTGGAGAAGTTGTACTTTGTATATATTTTCTTCCACTAGTTGTATTTATTGCAAATTCAAATTTATCATTACCACTGCTATGTTGTAATTGATATTGATCATCTCCATTTTTGGATAATATTTCTGCATAATTTTCTCCTGTAGTTGGATCTATATTCCATTTTATCCAAGCTGATAATGTTAATTGTTTTGTTGGATTCAAACTTTCTGAATCATCTACTTCAACATATCCTGTGCTTCCATCAAAACTTAAAGCTTTTCCAGAATCTCCATCTCTATTTTCAGTCTCTACTACTCCACCATTTATAATCCCATCATTATTAAAGCCTGAACTATCTAATGTTAATCCTCCATCAAATTTATATTCAGCAACTAAATCTTGTCCTTCTAAATATAAGCTATTTATCTCACTTTGACTTAACTCTTTTGAATATATTCTAAATTCATCTATATATCCATCAAACCAGTAATCAGGACCAGTCGTCCCATCTTCACTATTTGCTTCAGAGCCAGTTCCAACAAATCCATATCTTAATGTATTACTTCCCAAACCTGTTTCATTTCCAGCTTTGCTCTCAACTAAATTTCCATCTACATATATTTTTTTATTCCCTTTATTATAAGTTGCTACCACAAAATGCCACTTTCCATCTGTATAATCACTGCTGCTTCCAAAATCATCTGTTACATTCCCAGAAGTTGTATCCCAACCTATATTATTATTCATATCATCTTTTAAAGATAATCTCCAATTTTCACTTCTATCAAAGCTTGATATTATCTGTCTGTTTTTACTATCTGATTTTACCCAAGCTGCCACACTTAAATTTTCTAAATCTGCACTATTTTTAAAATTCAAAGCTTTTATCGCTAAATAATCTCCATTTCCATCAAAATAACCACATTTACCTACTTTCCCACTGTTTACTATAGAAAAGTCCCCTTTTTCTATCCCATCATAACCATTTTCAGTTGTATCCTTTACATATCCTAAACTGTCATCTTCAAAATCATAATAAAGTAACAGATCTGATTTCTGTTGATATAAATAATTTTCTGGTATAATTTCTCTTGTACCACCTGGAGGTATCCAAGATAATTGTGCTACTGCATTTCCTGTATTTTCATAATATTCCATTTTTATATAATACTCTTTATTTGCCTCTAAATTTATTGTTGCTGTATCATCTGTAGTTCCATGCAAAGTCCAATTATTAATTAAGGTATTAGTTGAATCTTTTATCCATAATCTAACTCCATCATCTGATGTTGTTATAAATTGATAATTCCCAGCAATATCTTTTGTTTTTACAAATCCTTCCCATCTCACTGAAAAATCGTCATTATTTATAAGACTATCTGGAGATCCAGTCCCCCAATTAAAATTTATTTCATTATCTATTCTAGTTAAAGCTGGAGTCCCATTTAGATCTATATTATTAAAATATTCTCCTTTGATACAATTATATGAAGGACTAGTTTCTTTATAATAATCTTTTATCTCTTGACCAGTTAAAGCTTTATTATAAATTTTTATATTGTCTATTGCTCCTTTTAAATTTTTTCCAGTTATTAATTTATTTGATGATATATTTATATTTCCACTTTTTCCAACAAAATTATCTCTAACATTATTTATATATATATCCATAGATGAGCCATCATATGTTCCGCTTACTAAATACCATTTTTTAGCAGAAATATTACTATTTGAAATTAATTTTGTACCATTTATTTCAAAAAATAATTTTCCATTTTCATATCCAATTCCATACTGTCCATTTTTTTCAGTTACATAAGTAGCTATAGTTGGTAATTCGTCAAATTTCACCCAACTCATTACAGATATTTTATCTGTAGGATTTAAACTTCCAGAGTCGGCTGTTTCAATATAGCTATCTACATTCCCTGCGAATCCATATGCTTCATTCGCTTTTCCACTATTATTTCCAGTAAGTGTTATATTATAACCTATCCCAGTATTATTATTTCCACTACTGTCATTAGTATCTCCTATAAATTCATAATCTAATATTAGATCAGAATAGGCTTGTGCTAAATTTAAAGCTGGAATAATCTCTCTTGTCCCACTTGGTGGAATCCATGATAATTGTGCTACTGCTGCTCCTGTATGTTCATAATATTCCATTTTTATATAATATTCTTTATTTGCCTCTAATGTTATTGTCCCTGTATTATCTGTGCTTCCATGCAAACTCCAGTTACTTATTAATGGCGTACTGCTATCTTTTACCCATAATTTCACTCCATCATCTGATGTTGTTATGAATTGATAATCTCCAGCAATATTTTTTGTTTTTACGACACCTTCCCATCTCACTGAAAAATCGTCATTATTCACAACAGTATCAGGAGAGCCAGTCCCCCAATTAAAATTTATTTCATTATCTATTCTCTCCAAAACTGGAGTTCCTGATAAAGTTATATTATTAAAATATTTTCCTTTTATCCCTTTATATGACGGCTTTTCTTCATTATACATATTTAATATTTCAGTGTTATTTAAAGCTAAATTATAAATTTTAACTTCATCTATAATCCCAGAAAAATTTTTCCCCGTTAGTATAGAGTTTGTGTTAGTAATTATAGGATCGGAATAATTTGTTTGATTTTCTAAATTCCCATTTACATATATTTTTAATGAACTTCCATCATAAGTCCCAACTACAAAATACCATCTATTAGTATTTACAATAGAACTACTTTCTATACTTTTATTCCCATTTAATCCAAATGAAAATTTACTATTATCACCATTATGACCTAATGAATATTGTCCTGATTTATCAATAATTTTATTGTTTAATACTCCATCTTGAGGATTTATATCCCATTTTACCCAACTAGCAACAGTAATATTTGATGAAATATTTAAACTATTCGAATTTGAAGTAGATATATAACTACTATTTGTTCCAGCAAATTTATACGCACTATCATTTCTATTATTTCTATCTTGAGTTAATACTGCATTAGATACTATTCCATTATTATTATTTCCACTACTATCTTTTGCATCTCCTATTAATCTATAATCTAATACCAAATCAGAAAAAGCCTCTTTTAAATTTGAAGCAGATATAATCTCTCTTGTTCCACCTGGTGGTATCCAAGATAATTGTGCTACTGCTGCTCCTGTATGTTCATAATATTCCATTTTTATATAATATTCTTTATTTGCCTCTAATGTTATTGTTCCTGTATTATCTGTAGTTCCATGCAAAGTCCAATTACTTATTAATGGTGTACTACTATCTTTTATCCATAATTTTACTCCATCATCTGATGTTGTTATAAATTGATAATCTCCACTAATATTTTTTGTTAATAATACTCCTTCCCATCGCACTGAAAAATCGTCATTATTAATAGTACTAGGACTCCCACTCCCCCAATTAAAATTTATTTCATTATCTATTCTCTCTAAAGCAACTCCTCCACTTAAATCAATACTATTATAATACTCTCCTTTTATTCCCCCAAAAACAATTACAGATATAATAAAATATAATATAATCCCCGCTCTTTTCATAATAATCTCCTCCAAAATTTACATTGTAATTTTTATAAACTTTTGACACTCCCAATTTAAAAATATTTTACTTTTAATTATTAATTATCAGTTATCCATTATCTTTTTCTCTACTATATATTATACCCCATTTTCACCTATTTTCCTACAAAAAAAAAGAGTTGCCATTATAATATGACAACTCTTTTATAAATTATTTTTTTAATTTAAAATATACACCTGCAAGTGGTGGCAAAGTTATATCAATCGAATAACCTTTTCCTTGCCATGGAATTTGCTCACTCCAAACTCCACCATAATTCCCATTATTACTTCCAAAATAATTTTCCGAATCACTATTTAATATCTCTTCATAGTAACCTTCATCAGGAACTCCTAATCTATATCCATATCTAACCATAGGAGTAAAATTAAATACACAAACTATTCTTTCATCAGGATTATTCCCTTTTCTTACAAATGAAATAACACTATTGTCTGCATCATTAAAATCTATCCATTCAAATCCTTCACCAGAAAAATCATTTTCCCATAATCCATTATTTTCTTTATATACTCCATTTAAATCTTTTATAAAATTTTTCAAATTATTATGTGGAGCATATTCTAACAAATCCCAATCTAAACTTTGTTTACAATTCCATTCTTTCCATTGTCCAAATTCTCCGCCCATAAATATTAGTTTCTTCCCAGGATGAGCGTACATATATGAATAAAATAGTCTTAAATTAGCAAATTTTTCCCAATATTCTCCAGGCATTTTATCTAACATAGATTTTTTTCCATGAACTACTTCATCATGAGATAAAACTAATATAAAATTTTCTGAAAAAGCATATACTAAAGAAAAAGTTAAACTATTTTGATGATATCTTCTAAATATAGGGTTTTTTTCAATATATTCAAGAGTATCATTCATCCATCCCATATTCCATTTCATAGAAAAACCAAGTCCACCTAAATATGTTGGCTTCGATACTCCTTGCCAATCTGTTGATTCTTCAGCGATTGTTACTATTCCAGGATAATATTCATGAGAAATAGAATTAAAATATTGTAAAAACTCTATTGCTTCAAGATTTTCCCTACCCCCAAATTTATTAGGTACCCATTCATCTGCTTCTCTGCTATAATCCAAATATAACATTGATGCTACAGCATCCACCCTTACACCATCAAAATGAAATTTATCAAACCAATATAATGCGTTACTTATTAAAAAGTTTTTAACTTCATTTCTTCCATAATTAAATATATAAGTTCCCCAATCTTTATGCTCCCCTTGTCTTGGATCTGCATGTTCATAAAGAGCTGTTCCATCAAATCTTCCTAATCCATGTACATCTTTTGGAAAATGTCCAGGAACCCAATCTAATATAACTCCTATATTCTTTTCATGAAATTTATCTATTAAATACATTAAATCTTCAGGTTTTCCAAATCTACTTGTTGTTGAAAAATATCCTGTAACTTGATATCCCCAAGACTCATCTAATGGATGTTCTAATATTGGCATAAATTCTACATGTGTAAAATTATTTTCACTTACATAATTTACTAATAAATCCGCCATTTCTCTATAAGTTAAAACTCTATTTTCCTCTTCTACTTTTCTTGCCCAAGAACCTAAATGTACTTCATAAGTTGACATTGGAGAGTTCAATTGATCTTTTTCTCTTCTATTTTTTAGCCACTTATCATCATTCCAGTCATATTTGTTATCTATTTCATAAACTACAGAGGCATTATCTGGTCTTACTTCTGAATAAAAGGCATATGGATCTGATTTTAATAAAATATCATTATTTTTAGTTTTAATCTCAAATCTATACAGTTCACCTTCTCCAATATTAGGAATAAATAGCTCCCATACTCCAGAATTTCCTAATATTCTCATTTGATTAACTCTTCCATCCCAACTATTGAAATGTCCAACTACACTTACTCTTTCTGCTTCTGGTGCCCATACTCCAAAAGAAACTCCTTTTACTCCATCAATCTCTTTTATGTGTGCTCCCAATTTCTCATAAATTCTATGGTGATTTCCTTCATTAAATAGATACATATCATATTCTGTTATTGAAGGTAAAAATGAATACGCATCGTATCTTTCCCATTCAACACCATTATGACCTGTATATTTAAATTTATATTTTGCAAAATCTTCTAATTCTACTTTTTTTTCAAATAACCCATCTTCTGTAATTCTATCCATTTCTATAGGGCTTTCTAATTCATTAAAAATTATTTCTATTTTTTTTACTGCTGGATTATATGCTCTAATTGAAAAATCTTTCTCATTTATTTTATGAATTCCTAAAACACCATGAGGATCTCTTGAAGTAGCATTTACTATTTGATTAATTTCCCATTCATTTAATGTTGTCATTGCTCTCCCCCTTATTATTTTTAATATTCTCTTTTTAATCTTCTCTTAATGCTAATGGCATAGTTAAATATATAAATTTATTATTACCTTCTCCCTCAATTAAAACTCCACTACTTGCATTTGACATATTCAATTCTATATTTTCTTCTTCTACTTGCAATATATAATCTAAAATAAATTTTACATTTAAAGAAATTTTAAGGTCATCACCCTCTTTTAATATATCTAACTCTTCATTTACTTTTGCTTTATCTGAAATACCTTTTATATATAATTTATTCCCAACAAAATTAAATAATCCACTATTTTTACCTTCTTTATTATTTCTAACAAATAATAGCACTCTCTTCATTAATGATATCATCTCATCTTTTTTCATAAAAATTTTCTTACTATATTCTTGATTTTTTAATATATTTGCATAATCAGGATAAGCTAAATCTATAATTCTACTTAATATTGCAACTTCTCCAATTACAAAAAATATTTGGTTCCCCTCAAATTTTAAATTAATGACATCACCTTCAATAGTTTTTAAAGTTTTTATTAAACTATCTACCGTTTTTAAAGGTATACTAATTTTTAAAATTTTATTGCTCACTGTATCTGTAGATAAAGTTTCTTCAAAATAAGCCAATCTAAAACTATCAGTCCCTATCATTTTTATCTTTTTATCTTCTATTTCTAATCTAACACAATTTACTGCTAAATTCTCTGTATCACTTGTTGCTATACTCACTTTTTCCAAACCGTCTAAAAATATAGTTTTGTTAATATAATATTCATTTCCATGCTCTAATAATTTTATTCTTGGATATTCATCAGAATCATATACGTAAAATTCTGATTCAGAATATTTTGTTATTACTTTCAATTCCCCATCTTTTTCATTTATCTGTACAGTTTCATCTGAAATTTCTTTTAAATATTCCACTAATAATTTATGAGAAAATGCGACTGTCCCTTCTTCAATAACTTCCCCTTCTATTGTTGAAGTAATTGTCATCTCAAGATCTGTTCCTTTTAATGTTATTATATTTCCTTTTGCTTCCATAAAAAGTCCAGAGATTATCGGTCTTATTTTATTTTCTGATATTGCTCTTTCTACTATTTGAATTACTCCTAAAAATTTTACTCTATTTACTTTTATATTTAACATATTCTCTCCTATCCTCCTAGTCAAAACTTTTCAACCCTTCTGCTTCTGTGTTAAAAATTTCAAAAAATTTATTTAATCTTGTTAATTCGAATATTTTTCTTATACTCTCTGTTAAATTTGTTATTTTTAAATTTCCTTTTTCTTTTCTGCTCTTCTTTAACATTGCTACTAAAACCCCAAGACCTGAACTGTCCATATAAGATACTTTTTCTAAATTTATTAAAAGTCTATTTTTATTATCTTCTAATAATTTATTAAGCTCTTTTTTCAAAGATATCGAAGTATATACATCAACTTCACCATCTATCTTTACAATAGTAACTTTCTTTTTTTTATCTTCGCTATATGATACTTTCATTTTTACCTCCATCTATTTATTCTATAATTTTAAAATATTTTACTTTATATTGCTTTCATCATACTCTATTGTAAATACTTTATCAAGACTTGTCAATTCCAAGACTTGTTTTATTGCATTTTTAGGAGATAATAAAATCATTTTCCCATTTATTTTTTTTAATCTCTTCATTGTAGATACTAAAACTCCTAATCCAGAACTATCTACATACTCTACATTTCTAAGATCTATTATTATTTCTTTTACTCCGTTATCTATCATTTCTGATAATTCCTCTCTTATTTCAGAAGCGTTATATACTTCAATCTCTTCCGTGGGAATATATATTGCTTTTTCTTCTGTTATTTTTTTTATTTCTCTCCCCATACAAATCACTCCTTTCTCTATTTCAGCCCTAACAAATCTTTTTTTAAAACAGATTTCAATTTTTTTAATGCTTTTTTTTCTATCTGTCTAACTCTTTCTCTTGTAATATCATATTTTTTACCAAGTTCCTCTAATGTTAAAGGCTTTATTCCTCCCATACCAAATCTAGAAATAACTATATCCCGTTCTCTTTCATTAAGAATTTCCATTTCCTTTGAAATGTTTTCTTTTATAACTTCATCTAAAATGTCATCTTCTAACATTTCGCTTTCTTTTTCTGGAATAATATCTTCTAAAAATATATCTTCCCCAACTGATGTACTTAAAGATACCATATCTTGAAACTCTATCAAAATTTGATGAACTTTATCTTTGTCTAAATTTAACTCTTCTGAAATTTCTTCTGGTGAAGGATACTTGTCATAAACCGACAAATATTTCCCTATGTACATATTTATTTTATTTAAAATATCATGTTTATATGAAGGAATTCTTATCCCTCTCCCTTTATTTATTATAGACTTTGTTATAGTTTGTTTTATCCACCATACAGCATAAGTACTAAATCTAAACCCCCTTGAAAGATCAAATTTCTCTATAGCATAAATTAGCCCTATATTGCCTTCGCTAATCAAATCCATAAAACTAAGTCCTTTGTTTCTATACCCTTTAGCAATTTTTATCACAAGTTTTAAATTTGATAATATAAGCTCTTCTTTTGCTTCTTCATTTCCTTTCTTAGACTCTTCTATTAATTTATATTCTTCTTCTTTAGTTAAAAGTTTAAAATCTTTTATATCACTTAAATAAAGTTTTATTAAATTTTGTGCATTTTTCATTCGCACCACTTCTTTACAGATTCTTTTAACTCTTTAATATCATTAATCGGCTTAGTTATTAATCCTACAATCCCTAATTCTGTTAATTCTTTAATTAATTCTTCTTGCTTTAATGCTGATATTATAACTATTTTAGTTTTCTTCAACTTTCCAATTACTTGTTTTATTACTTCTTCTCCTCTAATAAACGGAAGATTTAAATCCACCAAAGCTAGATCATAAGTATCAGATTCTAATTCTTCAATTGCTTCAATTCCATCTTCAACTTCTGTAAATTCATAATTTTTCCCTAATATTTCCATATATAAAAATCTTGCATATTTCTCGTCATCTACTATTAATATTTTTTTCATTTATAAAACTCTCCTTTTAGTTCACGAGACATTAATTTTTGTAAAATAACTTTCGGCTTCTCGCTCTCATATATTATTTTATATACTGATTCCACCACCGGCATTTCAATCCCTTTTTCTTTAGCAATTTCATGGACAGCTTTTGCAGTTGGAACTCCTTCCGCCACCATAATCATCTCTCTCATTATATCTTCTATTGTTTTCCCTTCCCCCAATTTTTCTCCAACAAATCTATTTCTACTATGTTTACTTGTGCAAGTAGTTATTAAATCCCCTACTCCTGATAATCCTGAAAATGTTTTAAAATCTGCTCCAAAATACTCTCCAAATCTTATTATTTCAGCCAAACCTCTCGTTATTATTGCTGATTTAGAATTATCTCCAAATCCCATTCCATCAGTAATCCCTGCTGCTATTGCTATACAATTTTTTAATGCTCCTCCTATCTCTACCCCTATTAAATCATTATTGCTATAAACTCTAAAAAAATCTGTATTAAATAGTTCTTGAACTTTTTTTGATACTTTCTCATCTTTAGAGGCTGCAACAATAGCTGAAGGAAACTCTTTACTAACCTCTTCAGCATGTGTAGGCCCTGATAACACAACTATATTATTATGAAACTTTCCTAATATTTCATCTTTTATAACTTCTGAAAGCCTTTCATGAGTCGAAATTTCAATCCCTTTTCCAGTATTAATTAATATCATATTTTCTTTTATTTGATCAGATACCATTGAAACAATTCCTCTTAAAAATTGTGACGGAATCGAAAAAATTAAATATTCACAACCATCTAATAATCCATTTATATCATTAGTTACTTCTAATGTGTCTGGAAATTTTATCCCTTTTACATAATCTATATTTTCTCTATTCTTTTTTAATTTCTCTGCTCTTTCTTTCTTATATTCCCATAAAGTAACTTGATTCCCTTTTTTAGCAAGTAAAATTGCAAGAGTTGTTCCCCAACTTCCTGCTCCCATAACCACTATTTTAGCCATTTAGCCTCCTTACTTTTTCTTGAAATTAAATTTATTTTCTTCACCTTTTAATAATCTTCCTATATTTGATTTATGTTTATATATAATATATGCTGCTACTAATGCCCCCAATATAGTTACCTCTATTTTATTATTTTTATAAAAAAAATAATTTGCAAATGGAAACAAAAATGCTGCTGTTATAGATCCCAATGAGATATATTTTGAAAAATAAACAATAATAGCAAATACCCCAAATACAAATAATATAGTTTTAGGAACTAATATTAAAAATACTCCAAGACTTGTAGCAACTCCCTTTCCTCCTTTAAATTTTAAATATGGAGAAAAAGTATGCCCAATTATAGCTGCTACACCTAAATAAACCAGATTATGCGGAGCTATCTTAAATGACATTCCTATTAAAATTGGAATTATTCCTTTTAAAACATCAAAAATAAAAACTATTATCCCTAATTTTGCACCTAAAACTCTATATGCATTTGTTGCTCCGCTATTTTTACTTCCATGTTCTCTTATATCAATATTTTTAAATTTTTTCCCTATTATTACCCCACTTGGTATTGCTCCAATAAAATATGAAAGTACAATTCCCATTACTAATTTTATCATTAAAATATCCCTCCAAAGATTATAAATTTATTTTTAACGTTTTATTATAGTGTCAAATAATTATAAAATTTTAGCCACCAATTTTTGTTTATCAGTTTTAATCTATATTTTTCCTGTGGTTTTAAATTTTTTTCTTTGTGTACCTTTGCACGCTTTGAGCCTTTGTGCTGAAATTGTTTCACACTATGCTTTTAAGTTGTTCCTAAACATTCTTAAGTCTAATTTTCCCCACTACCTCTATATGGCTTGTTTGTGGAAACATATCCACCGGATGAACTTCCTCTAATATATATCCATATTCCTCTAATAACTTAACATCTCTTATAAAAGTAGAAGGATCACATGATATATATATTATATTTTCTATTTTTCTTTTACCCAAAACTTTTATTATAGAGCTATCTAATCCTTTCCTTGGTGGATCAAAAACCACTATATCAATATCTTTTAATTTATCAATTTCATCTTCAACTTTTCCAGTTATAAATTCTACATTTTTAATGCTGTTTTCTTTTGCAGTTAATTTTGCATCTTTCACAGAACTTTCTACCATTTCTATTCCATATACAAATTTTGCTCGTTTACTCATTAATGTACTTATAGTTCCAGTTCCTGAATAGGCATCTAAAATATTTTTATTTTTAATATCTCCCAACAGATCAAGCACCAAATTATATAATCTTTCTGTTTGAAATAAATTTATTTGAAAAAATGATTTTGGAGATATTCTAAATTTATAACCACAAATATCTTCATATAAAAAATATTCTCCATATAATCTTTTAACTTTTTTCCCAAGAGCAACATTTGTTTTTATTGTATTAAAAGAAACATATACTGATTTTATCTCTTTTATAGAATCAGTTAATTTTTTTATCAATGGATTTAATACTTCATATTTGTTACTATTAATTATAAAAACCACCATAGCTTCATTTTTTTTATTAACTCTAACCATTACATTTCTTAAAAATCCTGAATGTTTTTTTTCGTTATAAATAGTTATACTCTGTTTTTGTGCAATTTCCTTTATTTTTCTTATAATTTTATTGGAAATTTTTGGTTGAATTATACAATTATCCATATCTACAACTTCATGTGTCTTTTTCATATAAAATCCACTTATAATTTTATGATTTTTTGTGCCAAATGGTTGTATAACTTTATTCCTATAATTATATGAATTTTTCGACCCTAAAGTTTTATTAACAATAACTTTTTCATCTCTTATTAAATTTTTTACAATATCTGTTTTACAATCTAACTGAGTTTTATAATCCATCATCATAAAGTTACAGCCACCACATTTATTAAAATATTTACATCTTGGTTCAATTCTACCACTAGATTTTTCTAAAATTTCTTCAATTAATCCTCTTGCATAATTTTTTTTCACAGATATTATCTTTATTTTTACAATATCTCCAGGCACACTCATTGGAACAAAAACTGCTAAATTTTCATAAAAGCCCAATCCTTCTCCACCGAAAGCAATTTTATCTATTTTAACGTTAATTATATCTCCTTTTTTCACTATCCACTCTCCTTTTTTTAACTGACAATTGTCAATTGTTTTCATTTTTACTCTTTTAAATAATTAATTCTTGTTCCAATTGATGGATGTGAATATGTCAAGAATTCTATTATTTTATTTGGATTTTCATCTGCTAAATTTTGTTTTGATAATTTTTTTAAAGCTTCTATTAAATACTCTCCTGTTCCCATTATCTCTTTAGCATATAAATCTGCTTCTTTTTCATTTTTTCTCGAATACAAATTAAGTAAAAACGATATAAATAATTGAAATATAAAAAAATAGAATCCAACTTGATATATTACTATAAAATTATTATAATCTAAATAAAAATAACTATTAATTAGAAAAAGCAATATAAACATAATCACTGAAGAAATTACCACTTGTTTCAATATATGTTTTTTTACAAAATGTCCCATTTCATGTGCAAATACTGCTACAATTTCATCATCTGAAAATTCATTTAATAAATTATCTGCTATTATAATTCTTTTATTTTTTCCCAATCCAGTAAATGCTGCATTCGCTTTTTTAGTCTCTTTGCTCAAATCAAATTTATATATCCCAACTAGTTTTACTTTTACTTTTGAAGTTAAATCTAAAATTTTACTTTTTAGATTTTCATTATCAAGTTCTTTAAACTTATAAAACAGAGGTAATATTACTGTTGGAGCTATTACTCCTAATATAATATTAATAATCATCATAAAAATATAAAAATATATCCACCATCTATCTTTAGATATTTTTATAAAAAAATATAATGAAACAATTAAAATTTCGCCTATAACTAATCCTATCCCAAATTCTTTTAATGTTTTTATAATCCATTTTTTTATATTCTCATTAGACAAATTATTCTTTTTTTCTAAATAATATCCGCTATAATAAGAAAAACCTATTTCAGAAATAAAAAATATTATAATTGTAATTAATCCATAATAAAAAATATTATTACCACTGATATTTTTTATATATATACCAATTTTTGAAAATCCCAATATAAATATTATAACTAAATTTATTATCGTTGAAATTATTGAAATTATTAATTTTATATTATTATATTCTTTTGATTTCTCCATTGTTCCTCCGCTTTGTTTTTTTCTAAACCAACCAGTTTATTATACACTATTTTCTTAAATTCTTCAATTTTTTTGACTGATATATTAAAAAAGTTATATATTTTTAATATATCTTCTTCTCTGAATAAATTTATCCTTTAAACACAAATCAAAAAGCTGATACAGCATTATCTTTATGACATCATATCAGCTTTTTTATTTAATTCAATTAATCTTTCTTCTACTAATTTTATTCCTTCTTCAACAGAAATATCTTTTTCTATTTTAATCGGCTTCCCTATTATATATATTGCCTTTGTAAATGGTTTTGGAAATTGAAAACTATCCCAAGAATTAAATCTCCATTTGTTTTTAAAAACACCTGCTAATGGAACAATTTCTATTCCAGTTTTTTGAGCTGTATATACTATTCCCTGTTTGACTTTATATATAGGGCCTCTTGGCCCATCTACTGCAAATCCACCACTATAACCATTCTTTACCATTTTTATTAATTTTACTAAGCTTCTTACATTGTTTTTATTTGATGACCCTCTTACTAATTCATACCCATACATTTCAAGCATAGTAGCAATTATTTCGCCATCTTTTGAAGGACTAACTAAATTAGCGATTTTTTTTCCATTTTTAGTCATATTTACCATTGGTAAAAATATACTACCATGCCAAAACCCATATAAGTAATTGTTTTTTTCATTATAATCATCACTTTCAATAATCACTTTCATATTTATCGTTCTGTTTATAATTTTACTTATAAAATATAATATTTTTCCATATCTTTTATATTTTCTATATGATTTTTCTTCTTTCATTTCTTCTAGTTTTGACATATCATCACCTTTTTCATTTGTATATTTTTTCTTTTTTTATAATATCTAATACATTCTCATTTACTAAATATTTTATAGATTTCCCATTTTTTATTTTCTCTCTTATTTCTGTTGCTGATATTTCAATTATTGGTGATGATATGATTTTCACTTTCTCACCATAAATATTTTTAAAATTATATCCTTTTCTATTTACTACAATAAATTTACACATTGTTAAAAGTTTTTCTATATCTTTCCACTTATCTAAATATTCGGCAGAATCTTCTCCTATTATTTCGTAAAACTTATAATCTGGATATCTTTTTTTTAATTCTACTAAAGTGTCTATTGTATAGGAAGTTACATCTTTTTTTATTTCAATATCTAAAACTTTAAATTTAGGATTATCTTTAATTGATTCTTTTACCATTTTATATCGTAATTCCCAATTCACTAAATTATTTTCTCTATGAGATGGGATTCCAACTGGAATAAACCATATTTCGTCTAAATCATATCTATCTTTTATCCATTCCGCTAAAATTAGATGCCCCATATGAATTGGATTAAAACTTCCACCATAAATACCTATTTTCTTTTTTTTTAAATCTTTCATATTAATTTTTACCCTTCAAAAAAATTTGCTATATTTTCTATTATATCTCCTTCTGTTTCTGATTCAATTATAGAATCCCTAAACGCTCTATTTCTAAATGCTTTTGAAATAGATGATAATAAATTTAGATATTCTGTATTTTTATCTTTTGGTGCTCCAACTAAAATTATAATATTTACTTTTTCATCATCAGGAGTATTAAATTCAATAGCCCTTTTTAAAACTCCTATTGCAAGAACTATATCCTTTAAATCTTCACATCTTGCATGAGGCACTGCTACTCCTTTTCCAATTCCTGTGGTTCCCATAACTTCTCTTTCAAATATCTTCTTTAAAAAATTATCTTTGTTAATTATAATATCTTCATTTTCATAAATTGAGTTTATTAATTTTTTTATTATTTCATCTTTTCCTACAGAACCATTCTCAACTAAAATTGATTTTACCTTAACATATTTTAACATCTCAATTCCCCCTCATAAAAATAATTGTACCTACATCCTGTAATCTCCCTAAATTAAGAGAAACCATTTCCACATTATTTCCAACAAATTCTTTTATTTTTATATAGTAAGGATTCTTTTTTATTTCACCTGTAAAAAAAAGTTTATTTTCAAAAAATCCTGTTGCTCCTCCAATAAATCCATAGTTCATTCCTATTAAATCTACTTCCACTTTATTTAATTTTAATATCTTTTCTCCTCTATTTTTTAAATTTTTATAGATACCATTATCTTCTGTAATTAATTTGTCTTTTAAATTAATTATATTACAATTTGTATATCCTTGCTTTACATCTATTTTTTTATATTTTTTCTTTTCAATATGCTTTAATATATTTTTTTCAGTATATTTAAAATTATGTACTACTTTCTTTTCAAATTTAACTGCATTATATTTTGCACTATTAGGATATCCACCTTCTACAGCTTCCCCTTCAATAATCTCATAACCTTTTATCCTTTTAGCATAATATTCATAAAATTGTTTATCTACAAATATTTTCTTTTCTTCTTCATCTACAAAGAGTTGTATATCAGGATGAAAAGATATAGCATCATATACTTTCATGTTTTTTTTAGTAAGTATAACATTAAATCCATATTTTTTCAATTCTTCCCCAATAGATTTAAATCTACCATCAATTATTACATAATTATTCAATTTTATCCACCAAAATTTTATATTCTTTTTTCAAATCAAACTCCGCAACTATTCCAAACAATGAATAATAGTTTTTTATTTTAACATCTTTTGGAACCGTTATTTCAATTCCTATATTAACCTTTTTATTTAATATTTCTATTTTATTATTACTATTTTTTATATCTAAAACTTTTTTCCCATTATTAACTATTGTAAAATATCCTGGTTCAAATTCTGATTTAACATTTATATTTTTCACATCATTTGATATATTGAGATAATCAACTTCAAATCCATTTTTAGTAAATTTTATTTCTTTTTTATAATTATCTGCTGTAAAAATCAAATAATCTTCGTTATATTCCACTTCCATGTCAGCTTTATAATAATCACTTATTTTATAATTATTATTATCTGAATTTTCATATTCAAACTTTTCATTTAGTCCTTTAACTCTTGTTAGATAAACTCTTTTTTCAAAATAATTTAATACAGAATTCATTCCATTCAAAAATCTTATATTATTTTTTATAGAAAACGGCTGCGTAGGAAAATTACCATCATAATACTCTTCACCTAATTGAACTCCTAACTCACCACCAACAATTTCTTTTCCTGTTTTCAAATCATACCAAAACAAAAGTCTGCCTCCTCTTGCTTTAGAAAAAACATAAAAATTATCATTATTTACTACAATAACTTCTTTTATATTATCCATATTTACATCTTTTTCATATATTTTATTTTTTATATTTTCTTCAATATCCTTAACAGCTTCTTCTATAACTGAAACTGTTTTTATATTTTCCCAAACTCCTAATCTTCTCCCATTTTTCCACTCTTCATCTGTTCCTGCTATCCCAGTACATCCAAATTCAAATTGATGTGATAAAAAATTTTCTTTTGCTAAAGCAACTAATTTTTTTATATTTTTTTTATCACTATTTTTATATTCATTAATAAATTTTTCATATTTTTTATGTAATTTCCTATAATAAGCTAATTTTGGAGAATTTTTATTAAAATCAAACCACCCATCGTAACCTTTTTCTGAATATTGCCCTTCTCCTTTTGCAGCTTTTTCCATCCATGAAGCGTATCCATCTTTTATTGGAGTAATATCTTCTGCCTTTTTTTCAGATAATATATCACTATACTTTACCAACTTAATCCATTTTTTATTTTCTAATTTTGTCAATAAAAAATCTAAATTTTCAAAATCCCATTCAGGATTTTTTTGACTAGAAAAATCCCAAAGTCCTGTAACTTCTGCATCATCTGCATAATTAAGTAAAAAATCACTTTTTTTATCTTTTTCATATATTTTTCTAATATATTTAAATAATTTTTTATAATTTTTACTTTTTTCAGTTAAATTTGCTCCTCTTTCATCTCTTTTAACTTCATTGTCTCCAGTATCAATAGCATTGTTTACCAGTGGTAAAAAATTTGTATCATCATTTACAATAGTTAGTTTCCCATTTTCTGTGGTTCTTAATACCCAATCTGCATCTTTTGCACCTGATTCTTTTAAAATATGATTTTCTACAAATGTATATTTATAGCCATATTTCAAAACTAATTTTGTTATATTTTGATTCCAAGTTCTTTCAGCATTCCAAAATCCTACTGGATTTACTCCAAAAACTTTTTTTATAATTCTTTTATGTTCTTCTATTTGCCATATATTCGATTGTTCATCTGTTGAATACATAACATTTTGAGCGTATGTACTTCCTAAGATTTCAAATTGTCCACTTTTTATTCCATCTTTAATTAATTTTATTGTTTCAGGATTATACCATAATAAATCTTGAATTAAAGTCCCTGAAATATGTAAATTAAATTTTAAACTAGGATGTTTTCTTAGAGTTTTTATTAAATTATAATATGTTACTTTATCTGCAATATCTGCATGTGGATTACTTCCTTGATTTAAGTGAAATAAAAAAGCTATATCCAATTTTCTATTATTAATCACTTTATCTGAAATTTTTATATTTTTATAATACAAAATTTTCCCAATTTCAATTCCACCAAATATCAAAAAAATTAACAATGATATAACTAACATTTTTTTAAATCCACTATATATATACGATTCCTTTTTTATTGTTTTTTTACTATCGCCAACATTATGACTTTTTAAAATATCCCCCGACAAATCAAATCTGCTAAACTGTATCCCTTTTATTACTCTTTCTACTTCATTCTCTTCATCTTCTGTTTTAGCTAATTTTCTAGCTTCTTTTAAATATTCCAGAGCTTTATCATAGTCCCTTTTTACTTGTAGTAATTCTGATTCTTCTAGCAAAATATCATAAAATCTTTTTTCACATTTTTCACATATTCCATTTTTTATTTCGCTACCACATTTTGGGCAATCCACCTATTACATCCCCCTTTTTTCTATGTATTCCATTCCTAATATATTTATAATGTTTTTCTTAGGATGATTAAAATTTTCGTTAAAATATTTTAATCCTTTTAAATATCCATAATTTTCTATATCTATTTTTTCTGTTTCTATCTCTTTAGATATTTCATCATATTCAATTCCATCTTTATTTACAGCTTCTTCATATTCATTAAATTCATTAGGGTATCTTCCTAATAATCTCATTCCAATTATAAACGGATAAAAATAGTTTTCTTTCCCAACTTTTTCTATAATATTTATCATTGACAATACAATTAATGGTAAAGTTTTATTTTTATTATTAATTAGTGAATAAAATAAAATAGTTTCATAAAATTTTTCTTTATTTCTAAAAAACAGCTCATTCCCATATCTAATAACTTGAGCTTGTTCATTTTTTTGTAATAAATTAAAAAAATTCTTTTCTATTTTATCAATCTCTTTTGAGCTTAATCTATCTATTTTCTTTTTTACCTTTTCTCTTTCAATTTTTAATATATAATTATCTAATATTATTTTAAAATTCTTTTCTATCTCATCTCTATTTTTTGTATCCAAAATATTATTAATTAAAGGTAACATTAAATTAATATCTTTTTCCACTATTTCTCCATCTAATTTAATTTTAAAATAACTTCTCCAATTAGCATATTCTGAAAAAATTTCTAAAATTGGGACAATCCCTTTTTCCATATATATCTCTGTAATTTCCCTGTAATCTTTTTCTAACATAGCTTTTTCTATTTTTTCTCTCATTCTATTTTCTCCTTTATGAAAGCTTAATTATAATACACTAAATAACGTTTAAAATATAACATCAACTTATATTCAAATTATTTCTAAATTTTTTATACTGTTTCAAATTCTATTTTTAACACAAAAATTTTTTCTTTCTCTTTTCTTATTACTACATCATTCTCAATATCCTCTAACGGAAATTTTATAAAATCTTTTTCAGTAGTTAAAATAATATCAAAATTTTCTTTATTTTTTATCTCTGTAATACCTTTTATATCCTCAATATTATAACTATAATGATCTGGATAATCAACTCTTTTTATCTTTTTAGGATCAAATTCCATAACTGTATTTTCAAAAGATTTTGGATTCCCTAATCCAGATACTAATAAAATTGATTTACCTTTTATAAAATCCAATTTTCGTTTTTCTAATTTCAAATCATATATATATTTAGCACTATGTTTTGCTAATAATATATCTTTATTATATTTCTCTAACTCTTTTTTTATTAAATTAATTTTATTTTCATCTACAAGATTTGATTTTGTTATTATAAATTTGTCAGCTCTTTCTAATCCTTCTAACGGCTCTCTTAATATACCATATGGCAACATATATCCATTCCCAAAAGGGTTAGTTGCATCTATTAAAATTATATTTTCATCTCTTTTTAATTTCAAATGTTGAAATCCATCATCTAAAATTATTGTATCCACTTCAAATTTATCAACTGCCAATTTACATGCTTCATATCTATTTTTTCCAACTATAACTGGAATATTTTTCATAGTTTTTGCATGGAAATAAGCTTCTTCTCCAGACTCATACAATTTAGCAATTATTTTTTCTCTATTACTTATAATTAATGGATCGACTTTTCTTTTTCCTTTATATCCCCTTAATACTATTGCTATTTTATGGTTTTTTTTCATTTTTTTAACTAAGTATTGAACTGTTGGAGTTTTTCCTGTTCCACCAACTGTTATATTCCCAATACAAATTATTTTTACACCATCTATTCCTTTAGATTTTAATATATTAATTTTATATAAATAATTTCTAAAATTTATTATAAATTTATAAATATATGATAAAAATTTCATTTTGTCCCCTAATTGTATTTTTTATTAAATATAGTATAATATTTATAGAATTATAACATATACTGTAAATTATTTCAATAATTAGTCAATTTTAATACTTTAAAATAATTGTAAAAAAATAAATTTAACCCTTAATAATTCTCCAACACTTTTAAATTTTCCAATAAATGTTCCACTTTCCTTGAACCTACTATGACAGAAACTACTTCCTCCCTTTTTATTAAATAATCTAATGCAGTCTTACTAACTGGCTTTTTTAATTTTTTCACAAAATTTATAGAATCACTAAATTTTATTTTATCGTTAAATAAAGGATTAAACTTTCTTGCATCCTTTTTACTAAGTTTAAAATTTTCGTCTATTCCCCCAGTAAGCAATCCTTGTGCTAATGGACTATATGGAATAAAACTTATATTATTTTCTTTACAAAATGGTAAAATATTTTTTTCTACTTCTGTTTGTAACATATTATATTGATTTTGAATAGATACTATTTCAGAAAATTTTAAAGATTTCTCTAAATTTTTTATATCAAAATTACATACGCCAATATGTTTTATTACTCCATTTTTCTTTAAATAATTTAAAGTTTCAAATAGTTCTTCTAAAGGTGTTTTACTATCTAGCCAATGTACTTGATAAATATCTATATAATCAGTTTTTAATCTTTTAAGACTTAATTCCACTTCTCTCAAAATGGAGCTCCTAGATAAATCATGAGATATCCATTTTGTATCATTCCATACTAATCCAAATTTTGTTGCAATTACAATTTTTTCTCTTGCTCCTTTAAATATTTCTCCTATTCTTTCTTCAGATTTACCAAATCCATAAATTGGAGCTGTATCATAAAAGTTAATTCCATTTTCATAACATATTTCTAATAATTTTGCAGCACTATTTATATCCCATTTTCCCCATCCATGCTCTCCTAACTGCCATCCTCCATATCCTATTAAAGATAATTCTAAATCAGTTTTTCCTAATTTTCTATATATCATATCTATTATTCCTCCTAAAAAAAAAGAGAACCTAAATGGCTCTCTTTTTATTATTCATCTCCTAAAATTTCATTAATTTCATCAACTATTACATCCGCATTCAAACCATGAGCACTAATTCCTTCTCCTATTGATTCTCCTGCTGCTACCATACATCCTATACATCCTAATCCATATTTTGCGAAAACTCCATTTATTTCAGGATATTTTTGTACTGCCTCTAAAATATTCATATCTGTAGTTACTTTTGCCATTGTTTTTTCCTCCTATGTTTTTTATAATTTATTTTTTTACTTTTTGTTATTTTTAAGCCATTTCTGAATAAATTTACAGCTTCCTAACAATTAAAATAATTATACTACTTTTAAGATATATTGTCAAGAATTTATTACTATATCAATCAAGAATTATTTCACCTTACCAATTAGATCATGAATTCTAATTATTCCAACTATTTTTTTGCTTTCCACCACTGGTAAAACAGATATTTGACTCTCTCTATTTTCCATTATTTTCAGTGCTTCAATAGCCATCATATCTTTATTTACTGATATTGGATTAGAATTCATTATATCTTTTGCAGTAAATTTAAAAAAACTATCCCTTTGCATCAAAGCTCTTCTAATATCTCCCTCTGTTATTATCCCTTTGAATTCTCCACTTTGCACTACACAAACTGCTCCCATTTTTTTATTTGTCAATTCTAAAATGATTTTTTCTATTTTTTCATCTAAATTTAATATAGGCAACTCTTTTCCAGAATGCATCAAATCTTCAACTGTTAATAAAAGTCTTTTTCCTAAACTGCCTCCTGGATGATATAATGCAAAATTTTCTTCTTTGAAGCCTTTCATTTTAATTAAAACTGTAGATATAGCATCTCCCATAACAAGTGTTGCTGTAGTTGATGATGTTGGTGCTAAATTAAGAGGGCACGCCTCTTTTTTTACTCCAATATCTAATGCTATGTCTGCATTTTTACCAACATAAGATTTTTTATTTCCTGTCATTCCTATAATTTTAGCACCTATTTTTTTTATTGCCGGCATTATTGCTATAACTTCTTCACTATTCCCACTATTTGAGATTGCAATTACTAAATCCTCTTTTCTAACAACTCCTAAATCCCCATGAATTCCTTCTGCTGAATGCATAAATATAGATTGAGTCCCTGTTGATGACAGTGTAGCTGCTATTTTTTTAGCAATTAAACCTGATTTTCCTATTCCAGTCAATATAACTTTTCCTTTACAATTATAAATTTCATTTACTGCTCTTTCAAATTCATTATCCATTTTATCTTTTACATTATTAAGTTCTTCTATTTCTAATTCAAAAACTTTTTTGCCTTCTTTTAATATATTCACATTACACCTCATTATAATTTAGGAATGGCTTAAAAATAGCCTTTAAATTTTATAATATTTTTTTAAATCCTTTATAACTCTTTTATTATTTTGTCTATCTCCAATGATTTTATTAATATATCTTCTAAATCATCCAATCTTAACATATTTGGTCCATCTGATTTTGCATTATCTGGATCTGGATGTACTTCTGCAAATATAGCATCAACTCCTATTGCAAGAGCTGCTCTCATTAACGGATAAACATATTCTCTATCTCCACCTGTAGTATCTCCTTGTCCACCAGGTTTTTGTACTGAATGTGTCGCATCAAAAATAATAGGATATCCAAATTTTCTCATTTCCATAAGGCTTCTCATATCCACTACCATATTATTATATCCAAACATAGCTCCTCTTTCTGTAAGCATTATGTTTTTATTTTCTGATTCTTCTAATTTTTTCACTACATTTTTCATATCCCAAGGTGCTAAAAATTGCCCTTTTTTCACACTTATTGGTTTTCCTGTTTTTGCTGCTGCAATTAACAGATCTGTCTGTCTACATAAAAAAGCTGGTATTTGTAATATATCTGCCACTTCTGCTACTTTTTCTGCTTGCCAAGGTTCATGAATATCTGTAATTACAGGAATATTAAATTTATCTTTAACTTTTTGTAAAATTTCCAATCCTTTATCTACACCTGGTCCTCTAAATGAATGTATTGAACTTCTATTAGCTTTATCAAATGAAGCTTTAAATATATAATCTATTCCAAGTTTTGTTGTTATATCTTTTATTTTTCCAGCAACCTCTAATACTAATTCTTCTGATTCTATTACACAAGGTCCTGCAATTAATGTAAAATGTTTTTGACCACCAATCTTTACATTTTCTGAAATTTTTATTTCTTTAACTTTTGATATTAACATATTATATCTCCTCTCAAGTTTTTTTGTTTTACAAAAAAATTATAACATAAAAATCAAAAAATATAAATAGTTAAGTTATTAAAGAACATTAAAAAAATAAGTTTCTTATATTTTGGCATAAAAATACTAAAATCATTACATATTTTATGGCAAAATTCTTCACTAATATGTCATATTCAAATAATCATACCTCGAATATTCCCCCGTCTTCTTCATATTATTTCTATATATTCTTTCTCCTAATTTTTCATGATCTTTTGGAGTCTCGTCTAACATATAATATGCATATGAGGTCATATCTTTATAGTCATCCCAAGTGGTGTCCACAAAATACCATTTGTCCTCTTCTGCTACATATACTTCTGACCAAGCATGAGCAGCTTTAGAACCATCACTTTCTATTCCATATCCACTTATTGCTTTAGCTTTTATTCCACTTGCTCTTAATAAGGCATCAAACAGCGAAGTATATCCCTCGCATACAGCTAATCCTGTATTCATACAAGTTATCGCATCTTGTTTTTTTCTTTTTCCATCTTCTAAAGAATCAAAATCATATGTTAAACTGTTTACTACAAAATCATTAATTTTTTTTATTTTATCTTTAGTGTTAGTTACCCCATTTGTTAATTCTAATGCTTTATTTTTTATAATTAAACTATCTGACTCTAATGGATCTGAAGGATAATAAAATTTACCATCTTCATCTCTTGTATTTATTATATGAAATTCATAAATTGGTACCCAATAACTATATCCTATTCCACTATCTATTCCTATATCACCTGTATAATTCAAATTATTATTAGATAATTGAGTTTTATAAACAAACAATGTATATTCTCCTTTCCCAAATCTAAGCCATATATTTTTTTTAAATGTATCTTTTACCCAATATTCAGTTTGCTCTTTTGCATTAGATACTGAATTAGCAAAATCATCAGTATTAGTATAATCTTTTAATTTATAATCACCTTTTATCAATTGAATTCTTAAAAATTGATAATCATCTTTATAAGTTGAACTCCCTTTTATCCTGAAAAATCCATCAGCATTAAAACTTCTTTCTTTTGGTTCACTTACTAATATGCTTCCTAAAGGATCATTATAAACATAATTTATTGGTGAAGAACTATCTATAACTTCACCTTTTCCATTATATACTATATCATTATATGTTATTTTTTTTGCTTCAGGAGCTATAATTTTTATATTTATATAATCAGAATATTTATCTCCTAACTTAGCTCTAATTTTTACATTTCCTATTTCAGTTGCTGTAAATTTTCCATTTGTATCTACTGTCCCAGCTCCATCTCCAGCTTCAACCTCAAAACTTATATTTTTGCTATATACATATTCTCCATTTATATCTTTCGCATTTGCATTAAAAGAAATTGTTTCTCCTCTCTCTACTATTTGCTCAGCATTTGGAGTTATCTCAATATTTTTTATATCGCTTTCGTTATTTGAAACATATGTATTTTTATCTCCTTTATATATCCAAAATTCACTATATTTTTCTAAATCTGGAAATCTTCTATCTATATCTAAATCCTTTTTATCACCATTATGAGGTATATAATTTAAGGGTTGACTTTTATCTATTACCGATATGTCAAAATATGCTCCAAAATCATCAATTCCATCTGACATTTTAGGTTTTAGCCAATCTGTTTCTGCACTTACTGCTCCTCCCCACAAATGAAGGCCCCATCCATCATAATCTCCATTACGTCTATTATAATGGAGTTTTATTTTATACGTTTCTGCTTCATCTGAAATTTTTACAGGTAAACTATCATTATATTTAAATATCTTAGTTCCATACCCATTTATTTTGAGTTTATTTCCAATTATAAAATCTCCACCACTTATTAACTCTGTCGTGTTATTTGTTACTTCTAACTCTTGAGCTGTATCCATTTTATTGTCTACAACTAATAATTTATATCCAACATTTATATCTTCAATTGTATAAGCATATAAACTACTTCCTAAATTCACAACGTTATAATCTCCTGTTACAAAAATTGAGTTTTCTTTTCTTATTTTTATTAATTTTTTATACCAATTAAACAAACTTTCAGAATTATCTTTTTCCTCTTCATAAGATATATTATCATTAGCTTTTGTATATATCATTGGATTAAAAAATCCACCTTTTGACATATCGGTCATACCTGTTCCGCTAGCTGATCTATACCAATCAAAAGGTTCTCTTTTGTTATCATCTTCTCCTTTTCCCAATTGCCCTAATTCTTCTCCATAATAAATAAATGGAGTTCCAGGTAATGTTAATAAAGCCGCTGCTGCTAATTTTTCTTTTCCAATATTATTACCTAAATCACTTGCAACTCTACCCATATCATGATTTGTTAAAAATGTAGAATCTGTAAAATTACTATTAGCTTGTTTATATGTATCTCTTATATTTTTTAATTTTCCGACTATATCTACATATTCTCCATTTGCAAACGTTATTAATTTACCATGAATAGGAAAATCAAAAGATGAATCCATATCTTTATAAAATGGCGCAATATTTTTCTCATTAGTCCAATTTTCTCCAACTATAAAAGCATTTTTATTAATTGATTTTACCGTCCTATTAAATTCTCTCCACCAGTTATGTGTAATATTTGCATCTTTATCTATATGCATAGCCGCATCAAGTCTAAATCCATCTACACCATCTGATAAGTCTCCATCTTTATTAGGATCAATCCAAAACTTAGCTATATTTTTCATTTCAGTTTTTACAGCTTCATTTCTATAATTCAAATCAGGCATCCCACTCCAAAATATAGCATAATAATATTTATTGTTTAGAAGATACCAATGTTCTTTTTCGTTTAGAGCATCATATTCCGTAGCCCATACATAATAATTTGTATATTTATTCGATTCTGTCTTTTGAGATTCTAAAAACCATTTATTATCTATTGAAGTATGGTTAGCTACTAAATCCATTATTACTTTTATCCCATTTTTATGAGCTGCTTTTAAGAAATCATGAAATTCAGTCAAAGTACCATAATCTGGCTCTGTTTCATAATAATCAGTTGTATCATATCCATGATAACTTGGAGATTTTGTTATTGGCATAAGCCATAATGCATTCACTCCAAGTTCTTTAAAATAGCTTATTTTATCTTTCAAACCTTTAAAATCCCCTATTCCATCTCCATTCCCATCATAAAAGCTTCTCACAAATACCTCATAAAACACGGCATTCTTAGCCCAATCTACTACTAAATCATTTGTTTCTTTAACTTCCAAATTATTTTGATTACTATTTTGATTACTATTTTGATTACTATTTTGATTACTATTTTGATTACTATTTTCATCCTTATTAACTTCCTTATTAATACATCCAAAAGAAATTAAACTCAACATTAAAATTAAAACACTTATTCTTATTTTTCTCATAATTAATCCTACTCCTATTTTTTTATTTTATATTTTTTTAATATTTTTTCATATATCCCATTTTCCTTTATTTCTTTAAAAGCTTTTTTACATTTTTCTACTATTTTATCATCTGTTTTTTTACTAAATGCAAATTCAAGACCTACTGATAAATCATCTATAGTATATGCAATTTCAAAATCATTAATCGAAAAATTATATTTTTTCCCATATTTTTTTAAAACCCAGTATTTAAAAGAAGAAACATCATATAACATCAAATCTATTCTAGAATAATATAATTTTAATATATTCAATCCTCCTTTATTTGTATATTCAAACTTTTTAAATTTTTTAGATTTTAAATATTGATGCCCAGCATCTTCTAATCTCACTCCTATTTGATATTTCTTAGCATCTTCTAATTTTTTAACAACAATATCTTTTCTGCTTTTTAGCTTTATCAAACTAGATTGAGTTTTTATTAATTCACCTCCCCATTTAAATTTATTTTCTCTTTTTTTAGTGTGTAAAATCGAATAAATTAATATATTTTTTTGAGTTTCTGCCATGTTATATGCTCTCGCCCAAGGATATACTTTTATTTTATAATTTATATCTGCTTTTTTTAATATTTCTTTTAATATTTCAGTAGATATCCCTTTAACTCCCCCATTTTCTTCATAATTATATGGGGGAAAATTTTCTGTTACAACTAATACACCTTCAGATAAACTAATTTCAAAACTAATTAAAAAACATATAATTAATATTATTTTTAATTTCATTTTAACCTCCCTAAAACCCCTTTATTTTATAATACACAATTCCAATATATTCCCATACCCCTCTTCTCATATACTCTATATTTAAAGCCGATGGGAAAAATGATGAAAATTGATATCCTGCTCTTCTTGTTATATAATCACAGTTATCTGGGATTACATCTATTTGGTTTTTCTTAAAAGTATACACACTTCTTGGCATATGCGTTGCTGACGTAATGAGTATTGGATGTTGAAATTTGTTTAATTTTAATAATTTTTTTAAATTAATTACATTTTCATAAGTAGTTCTACTTTTATCATCTATTAATATATCATTTCCATTCACACCTAAACTAATTAAATATCTTCTGTATAATTTTGCCTCTGGTTCTGTATTGCCATAGACAGATCCACCTGATAATAATATTTTTAATTTTTTATTAGTTTTATTATAAACTCTTATAACTTCGTTTATTCTTGCTAATGCAGAATAGGAAGGTATCCCCTTTTCTCCAAAACTAAGCGGAGCATTATCAATTATACCTCCGCCTAACATTATTATTGAATCTGCATTTTCTAAATCTTTATATTTAATCGGAGCATATATATTTTCTAACGGCATAACAACTAAATCTTTAATTGGTTCTATTGAAAATAAATACAAAATAGTTCCTGTCCCAATTAATACTATGCCAATTATTTTGAATTTATATAATTTTTCTTTGTTAAAATAAAATATTAATCCTCCAGTAATGAAAAATATTAATATAAATATTCCTGGTGGTAATAAAAAGCTTAATATCAGCTTATATAAAATTAAAAACATTACTTTTTCTCCTTTAAGAATTTTCTTGCTATTTCTCTATCATCAAAATGTATTTTTTCTTTTCCAATGATTTGATAATCTTCATGCCCTTTGCCTGCAATTAAAACTATATCATTTTTCATAGCAATCTCAATCCCTTTTTTTATTGCTAGCTCTCTATTTTCTATTACTTCATAATTTTTATAATCTATATCTTTCATTCCTTGTTCTACACCATTTAATATTTCTACTGGATTTTCTGTCCTTGGATTATCAGATGTAATAATCACAAAGTCGCTAAATTTAGCAGCTGCTTTTGCCATTTTAGCTCTTTTCGTTTTATCCCTATCTCCACCAGCTCCAAAAATTGTTATTATTTTGCTTTTTTTTATCTCTTCTAATGCTGATAATATATTTAATAAACCATCTTCTGTATGTGCATAATCTACAACAACCATAAAATTTTGATTTTCACTAATTGTTTCAAATCTACCAGGTACTCTTTTTGCATTTGATAATTTTTCAACTAAAACATCTTCTGAAAATCCTAAAGCTATACCAGCTCCAAATGCTGCCATTATATTATATAAATTAAATTTCCCCATTAATTTCGTTTCAAAACTACTCTTTTTAATATAATCTATTTCTAAAATCATATTATGATTTGTATAATTTGTTATTTTTCCAACTATATCTCCGTTAATATTTGAATAAGATATTCCATTTGAATATTTGTTATATAATCTTTTTCCAAATTCATCATCTATATTAATAATTGCATTAGATTTTTCTTTTAATTTTGAAAACAGTTTTTCTTTTGCCAAGAAATAATTTTCCATATCTCCATGAAAATCTAAATGATCTTGTGTCAAATTTGTAAATATCGCTACATCAAATTCTAACATATCAACTCTTCCTAATTCTAACGAATGTGATGATACTTCCATAATAAGATACTCTATATTTTTTTCAATAGCTTTTTTACACATTTTTACAACATCCAATGATTCAGGAGTTGTGTTTGGCGCAGCTATTATTTCATCTCCTATTTTATATTCAATAGTTCCAAATCTTGCAACTTTTCCTAATATCTCTTCTATTAAATATGTTGTAGTTGTTTTCCCATTTGTTCCTGTAATCCCTATTATTTTAAGTTTCTTTTGTGGCCAATCGTAAAAATTAGAAGCTATAATCCCTAATCTTTTCCTTAAATTATTTACTTTTATATATGTAACTTTTTCATCTAATATCTCCACTTTTTTTGATACAATAACCATTTTACATCCATTATTAATAGCAGTCTCAATAAAATTATGTCCATCAATAGAAAACCCTTCTAATGCTACAAAAATATCATTTTCATCTATTTTTCTAGAGTCATATTCCATCTTGTTATAATCTGTTTTTTCTCCTTGATTTAATATTTCAAATTCTATATTCTTAAATAATTTTTCCATTTCAACTTCCTCTTTTCAATATTTTTTTATTTTTTAGTTTGCTTTTTTTATAAAATCATTTTATTTTCTAAAAAAACTTATTTTTGTTAGATAATCATACTCTTCATACAAATTATATCACATTTGTTTTTAAATTTAAAGATATTTTAATTTTTAAATTTTATAGTTCTAAAAAATTTTGCTTTGAAAAATCGCATATTTCAAAAAAATTGAATGGCTTATTTTCTGAACTTTCCTAGTAAAATATAAAAAGGACAGAAATTTAATTTCTGTCCTTAATAACGTTATTTTTAAACCGTTCCTTAATAATTATTAATTTTTATTTTCTATTAAAATAATGTGTATGTAATAGATGATGAGCTTTTTCTCCCAATGGGCTTCCCAAATATGTTGAATATAACTCTTTAATATATGGGTTTTCATGAGATTTTCTAATTGCTTTTCCTTCATCTTCTCTATATATTGCTTCTGCCCTTTTCTTTAATATATCTAAATCTCCATGATGGTAAGGTTGACCTCCACCACCAATACATCCTCCTGGACAAGCCATTATTTCTATAGCATGGAATTTTGATTTACCAGATTTTATATCTTCTAATAATTTTCTTGCATTTCCAAGCCCATGTGCTATTCCTATATTTAAATCTAAATCTCCAACTTTTACAGTTGCACTTTTTATTCCATCTAGTCCTCTAAAAGAAGTAAAGTTTACATCTTTTAATTCTTCTTTTGTAACCCATTCGTATGCTGTTCTTACTGCTGCTTCTATAACTCCTCCAGTTGCACCAAATATTACTCCAGCTCCTGTTGATTCTCCTAATGGATTATCAAATTCTTGATCTTCCAAATCTACAAAATCAATATTAAACTGTTTTATCATTCTTGCTAATTCTCTTGTAGAAATTGAAATATCTACATCTGGATTTCCGTCTACTTTAAATTCGTCTCTTCCAACTTCATATTTTTTAGCAAGACAAGGCATAATTGAAACCACTACCATATTTTCTCTTTTCACACCTATTTTTTCAGCATAATAAGATTTTGCTATAGCTCCAAACATTTGTTGTGGAGATTTAGCTGTTGAAGGTATATCTTTCATCTCTGGGAATTGATGCTCAAAGAATTTTACCCATGCTGGACAACAAGAAGTAAGTATTGGTAATTTTACTGTTTTATCTCCCTCTAAATGTCTTGTTAATCTATCTAAAAACTCACTAGCTTCTTCCATTATTGTTAAATCAGCTGCAAAATCTGTATCAAATACATTATCAAATCCTAATTTTTTTAATGCAGTTACTATTTTTCCAGTTACAAGAGTTCCTGGTTCCATTCCAAATTCTTCACCTAAAGCTGCTCTTACTGCTGGAGCTACTTGCACAACTACTGTTTTTTCAGGATCAGCTAATGCAGATACTACATCCCAAGTATAATCTTTTTCTGTTAATGCCCCTGTTGGACATACTGCCACACATTGTCCACAATAAGTACATACAGAATCTTCTAAATTCATTTCAAATGCTGGTGATACTACTGCATCAAATCCTCTATTAATTCCAGATAATGCTCCTACTGTTTGTACTTCATTACACATAGTTTCACATCTTCTACACATAATACATTTATCCATATCTCTTATAATTGAAGGAGAATAATCTTCTCTATATGTTGACTGAGCTCCATCACATCTTATTTCTCTTATTCCAAATTTTTCTGATAAATCTTGTAGTTCACATTCACCTGATTTAGCACAAGTTAAACACTCTTTTGGATGATCCGATAAAAGTAATTCTAATACAACTTTTCTAGCATTTAATGCTCTTACACTATTACTTTTAACAACCATTCCATCTGTAACTGGTGTTGCACATGAAGGTGCTAAATTTCTTCTTCCTTCAACTTCTACAACACAAGCTCTACAAGAAGCAGTTTGATTTACTAATCCTACGTCATGTAAATTCAAATGACATAAAGTAGGTATTTCTACATTAACTTTCTTTGCAGCATCTAATATAGTAGACCCTTTAGGCACTTCTACAAGTTTATCATCAATAGTAATTTTTACCATTTCCATCTATTTTCACTCCTTTGTTATTATTTTTTTTCAATAGCCCCAAATTTACAAGCATCATAACACGCTCCACATTTGATACATTTTTCTTGGTCTATTACATGCGCAGTTTTAACTTTTCCAGAAATTGCTCCTACTGGACATACTCTTGCACAAGCTGTACAACCAATACATTTACCTGGATCAATTACATATTGAAGTAATGCTGTACATTGTCCTGCTGGACATCTTTTATCTACTACATGTGCTACATATTCATCCCAAAAATTATCTAATGTTGATAATACTGGATTTGGTGCTGTTTGTCCAAGACCACAAAGTGCTGTATCTTTTATTACTCCACTTAACATTTTTAATTTTTTAAGATCATCCATAGTTCCTTGACCTTTTGTAATTTTATCTAACATTTCATATAATCTTTTTGTCCCTACTCTACAAGGAGTACATTTACCACAAGATTCATCAACTGTAAAATCAAGATAGAATTTTGCAATAGATACCATACAATCATCTTCATCCATAACTATCATTCCACCAGATCCCATCATAGAACCTGCTGCTACTAAGTTATCAAAATCTATTGGAACATCAAGATCTTTTTCTGTTAAACATCCTCCAGAAGGACCTCCTGTTTGTGCAGATTTAAATTTCTTTCCATTTTTAATTCCGCCACCTATATCAAAAATAACTTCTCTTAAAGTTGTTCCCATTGGAACTTCTATAAGTCCTACGTTATTTATTTTTCCTGCTAATGCAAAAACTTTTGTTCCTTTTGATTTTTCTGTTCCTATTTTATTAAACCAGTTTGCACCTTTATTAATAATTACAGGTATATTTGCAAATGTTTCTACATTATTTACATTTGTAGTTTTTCCCCAATATCCTGATTCTGCTGGAAATGGTGGTTTTGTTGTAGGTTCTCCTCTTTCACCTTCCATAGAATGAATAAGTGCAGTTTCTTCTCCACAAACAAATGCTCCTGCTCCATATTTTAACTCAATATCAAAATCAAATCCACTTCCCATAATATCTTTTCCTAATAGTCCCATTTCTCTTGCTGAACTAATAGCATTTTGCAGTCTTTCTATTGCCAATGGATATTCTGCTCTTATATAAACAAGCCCTTTAGTAGCACCAATAGAATACCCACAAATAGACATTGCTTCTATTACACTATGAGGATCTCCTTCTAAGATTGATCTATCCATAAATGCTCCTGGATCTCCTTCATCAGCGTTACATACTACATATTTTTGTTCTCCAATGTTATATTTACTAGCAAATTCCCATTTTAATCCAGTAGGGAATCCTCCTCCACCTCTTCCTCTTAATCCTGATTCTTTCATTTCAGCAATTACATCTTTTGGAGTCATTTCTGATAAAACTTTTCCTAAAGCTTGATATCCTTCTCTTGCTATATATTCTTCAATTTTATCAGGATCTATAAATCCACAGTTTCTAAGTGCTATTCTCATCTGTTTTTTATAAAAATCCATATGTTTAGAATCACTTATATGTTTCTTTGTCATTGGATCTTTATATAATAAACTATCTACTTTTCTACCTTTTATTAAGTGTTCTTCTACAATTAATTTTGCATCTCCAGGTTTTACTTCTGTATAGAATGTATTATCTGGTAAGATTTTTACTATTGGTCCTTTTTCACAAAATCCGAAACAACCAGTCATTAATACTTGTACATCATTTTCCATATTATTTTCTTTTAATAATGATTTTATATTATCAGCTATGGCTTTACTACCTGACGATAAACATCCTGTTCCACCACATATAAGAACATGCATCTTATAATTTGCCATTTGTTATACCCTCCTTCAAATTATTTTTCTTCTTCAATAGTTGTATACCCTACTGGTATTATTCCATCTACCAATTCTCCATTTTTAATATATTTTTCAATTATTTCTTCTGTTTTATCTGCATCTACATTTCCAAACACAACTGCTTCTTTACCTGGTAAAGTTATTTCTACAGTTGGTTCTGAATGACAATATCCCATACATCCAGTTTGTGTTATTACAGCATTTTTTATATTTTTTTCATTTAATTTTCCGATAAAAGCATCCATTGTATCTTTAGCTCCTGCAGCAATTCCGCAAGTTGCCATTGCTATTTTTATTTGAACTAAATCATCTACATTTTCACCTTTTTCTCTTAATTCTACTTTATTTTGTAATTTTTCTCTTAATTTTTTTAATTCATCTAATGATTTTATTTTTGCCATTAAAATCTACCTCCTAGTTATGGAACGGCTTAAAAAGTAGTTACCCTTTTCATATCAAAATATGCAATGCTTTTAGCATTTTTAATATGAATTTAGGGAAAGTTATTTTTTAAACGTTCTTATATTCTTTTAAAATATCTTTAACTTGCTCTGGAGTAACTCTTCCATATACTTTTTCCCCTACAAGTACAACTGGAGCTAATCCACATGCTCCAACACATCTTAAAGCATCCAAAGAAAATTTACCATCTAATCCAGTTTCTCCTACTTCAAGATCTAATTCTCTTTTAAATTCATCTAAAACTTTCTCTGCTCCTCTTACATAACAAGCTGTCCCCAAACATACTGAAATTGGATATTCCCCTTTCGGTGTCATTGTAAAAAATGAATAAAAAGTTACAACTCCATAAACCTTTGCTAAAGGTATATCTAGCTTTTCTGATATAAATTTTTGTACTTCCGCTGGTAAATATCCAAAAATATCTTGAGCTCTATGAAGTACTGATATTAAAGCCCCTTTTTTTTCTGGCAATTCATTAATAAACTTTTCAAGTTTACTATAGCAATCTTGTGCTAATTTGTTTTGACATCCATTAGACATTGTTGTTTCCTCCTTCTTTTATTATAGTTCTTATATTTACTTTTTCTAATATTTTAATATTAGAATGTGTTATTTTTCACATTCTAATATCTTTGATAAGTATATCACATATAAAAAATATTGTAAAGTATTTAAAGCCCATTTTAGTACATTTTTCAAAATTTTCTTTCTTCTCTTATTTTTTCATACGCTTCTTGAATTTTTTTGAATTTCTCCTCATATATTTTCTTCTCTTCTTCTGGTTTATTATGATGAATATCTGGATGATATTTTTTTGCTAATTCTTTATATTTCTTTTTTATATCCTCATCTGATAAATCTTTGCTTGCTCCTAATATTGAATAATACTCATCTAAATTATTGATGTTATTATAAAAACTTTGAGAACTATTTTGGTAATTATTAGACTCGGTATTGTCCCATTTATAATAATAATTTTTATTTCCTCCATCTTCGAAAAAATTTTTATAAGATTTATATTTATAATTTATTTTATCCTTATTTAAAAAATAATATATCAACCCTATAACTATTAATACAGGAAGAAGTGAAAATAATACTCCAAACAATGTGAAAAAAACATATATAAAGAATAATGTAGTTAATATTGCAATCATATTTTCAAATCCAAATATAAAACCAATACCTATTAATAATATTATATATAGCATTTGTTCCTCCTAAAAAATAGAGAGCACTAAGCCCTCTATTTCATTCCTTCTAATGTTTTTATTTTTTCTAATATTTTTTTATCTTTAACATCTATTTCATAAGCCGCTTTATATTCTTTTAACGCCCTATTTATTCTTCCCATATCTTCATACTTTTTAGCAAAATCAAGATGTGCACTATACATATCAAAATCTAAAAATATTGCAAATTCATATGCGTTTACTGCATCTACTACTAACCCTGCTCTTGAATATGCATTCCCTAATAAAAAGGATACAAATGGCGAATCAGGAGCTATATCTAATATAAAATTAAACTCATCAATGGCTTTTTCTAAATTATTAATTTCATAATATAGATACCCCAAAAAACCTCTGATATCTATATTTTTAGGTTCTAATTTTTTTAATTTTTCATATATATCTATAGCTTCTATATCTTGTCCACTATAATGATATATAGTTCCCAATTCTTCCAAAGCTTTTATGTTGTTAGGAGCTTGTGATAATATTTCATTTAATTTTTGTATTTTTAACCCTATCTTTTTGATATTAGATATTTCATTAAATATTTTAGTTCTTAGCACTTTTCATCACCTCTCAACGGTTATTTTTAATCCAAAACTTAAATTATTATATCATATTTTCATCTTTTTTTAAAGTTTTTATTTTTTACTTATTTAAAAATTCCATATATTCTTCTAATGTAGGAAATTTTCCTAATATTGCACAACAAGCCGCTACTAAAGAACTTCCTAAATAAGCTCCTGAATTTGCAGGCCCGAGTCTTCCTTGATAATTCCTAGTTGTAGTTGTAATTGCAGTAGAATTTGATCCAATTCTTCTTTTATTACCCATACATAGTCCGCAAGTTGGCATTATTACTACTCCACCAGCATTAATAATTTTATCTAAATCTTTATTATCAGCTAATCTTTCTGTAATATCCTCTGCTGCTGGACTTACTACAAAATTTATTCCTCTTTTTATTTTATTTCCATCTAAAATTCTTGCAGCGCTGCTTATTGACTCATATTCTCCACCTACACAACTTCCAATATATACTTCATCAACTTCTGTCCCTGCTACCTCTGATAAGAATGCAACATTATCTGGATGATGAGGTACCGCAACTATTGGTTCTTTATAATTATTTAAATTTATTTTTATAACTGCATCATATTCTGCATTTTCATCTGCTCTTAAAAAGATTGGATTTTCCAAAAATTCTTCTATTGATTTAGATGCTTTTTTTACAGATTCTGATATGTTGGCATCAGGTCTATTTTTCAAATATTCCAAATCTTTTTCCAATTCTTTTATTGTATTTTCATCTGCTTGAATTAATCCAGCTGATGCTGATCTTTCTGCCACTGCATTTGTTAATATATATTTTTCTTCAGACGTTAATTTTTCTATACCATACATCTCTATAATTTTCCCAGTATATACACCTTTCCCATACCCTTGTTTTTCAGCTTCCATTACTAACATTGATACCATATCTCTGGCAGTCATACCTGCTTGTAATTCTCCATAAAATTCAACTTTAACTACTTTATCCATTATCAATTCCATTTTTCCATATTTCATACAACTTGCAACTATATCTGAAGCTCCAGGAAACGATATTCCTCTTGGACTTCTTGTATGCGAATCTCCACCTACAATAATATCTGTTGGCGTTACAAATCTATTCCCTATTGTGTGTATAATTCCTTCACCTGGTCTTAATCCAACTCCACCTCTATCATCTACAAACCCTACTAAAAATTTGTGTCTATCTCTCTCTTCTGAACTTGGTGCCTCACAAGTATGACATAACGATTGAACTACAAAATCAGCTCCAAATGTCATTCCACCAGCCATTGATTGATATTCTTCCATTGTCATAGGTCCTGTTGTATCTTGAGAATAAACTCCTCTTACTTTTACAGTAGCAGTTTCTCCTGCTTTAACTGTTGTTTTCCCATCTATTCTATTATACGCAACTAACTTTTCAGCTAAATTCATGGCAACTTTTTCATCACTATCTTTTAATTTTTCTGGCATTTTAGAATTATCAAAATCAATATTATTTTCTATACAGTAATCTGATGCCCAAGCTTGCAATTCTTTCCCAGCAGTATAATTATTAACTCCGCCAGCTTTAATTTTTTCCAAATCAAGATCTTCTATTTTCTCAAATTCTATCTCTTTTTCATTATTAATTATCAATTTACTATTTTCTACATCTACTTTTATACTATCTTCCTCATTTATACCATCTGTATTACATAAAATTGGTAATATTGCAGATGAAACCAAAGAATTTCTAAAAATAGGTGCCATAGTTTTTGCAATTACAACTCCACCAGTTTTATTTTCTGGTTCTCCTTCTATATTTTCTCCTATAACTTGTAATACAGTATATGTAGCTGACTTTCTAGACGAACCTTCTCCAAATCCTTCTCCACCAACTATATATATACTCTTACTTTTTTCTTTTAATTTATTTAATCTTTCCATAAAATCTGCTTCATCAGGTCTTCCATCCATAATATATGTAGCATGCAATGGCTTATCTGTCCTAGAATTAGCTCTCTTCCCAGGTGATAAATGATCTGTACTTATGAAATCTCCTACTTTTATCCCAACTCCTAAATATTCAGATTTTAAATTCCAAGTTTTTGAAAATTCTTTTTCTGCCCAAGCTTTAATTAAATTTGCAATTTCAGAACTATTTTTTGACAATTTAGCTAATTTATCAAAATCTTCTTTGTTTACTAAAACTACTTTTTTTAATTCTTCCACTACTCTATCAGACTCAATTTTTTCTTCAATTAATTTTATCATAATTGGAGTTGCTGCTCCACCCTTCATATTAAAAAGAGTAATTAAAGCATCTTCTTTGTTTATAAAACTATTTTTTATATTTTCAGATATTATTTTATATAAATATTCAGCTTTTTTATAAGTTTCTGGGAATGTTCCTCTTAAAACTTCATTTTTTATTAATTTTACTAATAATTCTCCAAAAACAAATTTTTCTCCTAAAAATTCAATATTTTCTTCTAAATTTTCTCCTGCAATTAACATTTTAAAAAATGATTCTACCTCTTGTGATTTTATAGGTCTTGGATATAATCCATATGACTTATATCTTTCTTCAGCTCTTTTTTTGTAGCTTTTAAAAACTTCCATATTATTCCTCCTTCAATTTTTTATTCATTATTTATTATAAAATATTTTTTCAAAACTTGTACCTGTTAAGTGACCTTATTATATAACATAATCTAAAAAAAAACAAGGAACTAATTACGCTAAGGAACGTTTGAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTATAACAAAATGGAAATGTTATTTTCAAGCCATTCCTAATTAACCCAAACAAAATATGACAACGCAGAGTCGTAAAATAATCAGAGATTCACAGAGGAAAATAATAATTGGTAATTAAAAACTCTTCCAATCCTATCTATCTCTGCGTAACTTTGCTTTCTCTGCGGCTCTGCGTTGAACATCCTTTTCTCTAATTATTTTATACTATATGGTTTACTTATAAAATTAATTTTCTAATCTTATAATTTCTTTATTATAATATCTTTCTTTATCTTTTCAATTTCTTCTTTCTTACATAATTCGTCTGAAAAAGCTGTTGCTGTTCCTGATGCCACTCCTATTCTAAAACATTCTATTAGCTCTTTATCTTCTTCCATTGCAGATAGAAATCCTCCTATTAAAGAATCTCCTGCTCCAACAGAATTTTTAACTGTTCCTTTAGGAACCATAGCTTTTAAAATATCTTTTTCATTTATTAATAATGCTCCATCTCCAGCCATTGATACTATTACATTTTTAGCTCCCATTTCCAAAAGTTTTTTCCCATATACAATAACATCTTTTTCGTCTTTCAATTTAACTCCAAATATATTTTCCAATTCAAAATAATTTGGTTTTATCAAAAAAGGATTATACTTTAATGAGTTTACTAAATATTTTCCAGTTGTATCAACTACTATTTTCACTTTTTCATCAACTATTTCAGATAATTTTGCATATATATCTTCCTCTAATGAAGTTGGAACACTTCCAGCTAAAACTAATATATCATCTTTTTTTAGAGATTTTATTTTTAAAAATAACTCCTTTTTTTCAGATTCTGAAATTTTTAACTTTTTATCATTTATTTCTGTTTCAGACTTTTCACTCTTTATTTTCACATTTATTCTACTATCTTGATTTATTTCTATAAAATCACATTTTATATTTTTTTCTTTTAGATTTTTTTCTATATATTTGCCAGTAAATCCCCCAATATATCCAAGTGCAATTGAATCCTTTTCTAAATTTCTTAAAACTTGACTTACATTTATTCCTTTACCCCCAGCTGTTTTATATTGAGATACAATAGTATTTAATCTTCCTTCTTTAAATTCAGATAATTTTATATTATAATCAAGTGAAGGATTTAATGTTACAGTATAAATCATTTTTCTGCCTCCCTATGGCTCAAGAACGTTTAAAAAATAAGTTTCTCATTTTTTGTTATAAAAACGCTTAAACCATTGCGTATTTTAAAACAAAATCGGAAGGTTATTTTTAAGCCGTTCCTCAATAATATATTTCAAAAACAAATGAGCAGATACAAATTTCGCATCTACTCATCTATATCTTTTTACAATTTTTCTGCTAATTCTTTCAGATACTCTCTTAATCCTTCTCCAACTTCTTCATGTCTTAATCCATATTCTATATTTGCTTTTATAAATCCAAGTTTATCCCCTGTATCATATCTTTCTCCAACAAAATCATATGCTAAAACTTTATCTCCATATTTTATCATTTCTAATATTGCATCTGTTAATTGTATCTCTCCACCTTTTCCAGGTTCTATTTTTTCTAAAAATTCAAATATTTGAGGTTCTAAAATATATCTTCCTAAACAAGCATAATTAGAAGGTGCTTCTTCTTTTGTCGGCTTTTCTATAAAATCTTCTACTTTTACAGTTCTTTCATCAAATCTATTTCCCGGTTTTATTATTCCGTAAGAAGATACCTTATCATCTGGAACTTGTTGTACACCTATTACAGACCCTCCTTTATACTTTTCTCTTACATCTAACATCTGTTTTACAACAGGAACATCATTATATACTATATCATCACCTAATACCACAACAAATGGTTCATGCCCAATATGATGTTTAGCTTTTAAAATTGCATGCCCTAACCCTAATGGCTCTTTTTGTCTTATATAATAAATATTTGCATATTCAGATATTTCTCTTACAACTTTCAACATTTTATCTTTATTCTTTTTTTCTAATATATACTCAAGCTCTACTGAATAATCAAAATGATCTTCTAATGCTCTTTTATTTCTACCAGTAACAATAGTAATATCTGTTATTCCTGATTTTACTATCTCTTCTACTATATATTGTATAGCTGGTTTGTCCACTATTGGTAGCATCTCTTTTGGTTGTGCTTTTGTTGCAGGTAAAAATCTTGTACCTAATCCTGCTGCTGGAATTACTGCTTTTCTTATCTTTTGCATAATAACTTCCCCCTAGTATTTTTCTATCCTATCAATGTACCTTCTGGAACACTATTATCAATCTCAATTAATTTTATTCTTTTTTTCTCCATAGTTGTCAAAAACATTCCTTCTGATAATATTCCTCTTAATTTTACAGGTTTTAAATTTGATACCATTAATACTTTTTTATCTTTTAGCTCTTCTACTTTATAATATTTAGCTATTCCTGATACAACTGTTCTTTCTTCTTTTCCAATAGATACTTTAAATTTCAAAAGCTTATCTGCTCCTTCTACTTTTTCTGCTAATAAAATTTTAGCTACAACCATCTTAGTTTTCTTAAATTCATCTATCTCAATTGTCGGTTCAATTTTTTTAGATTTAACTTTTATCTCCTCTTTTTTCTCTTCAACTTCTATTCTTGGAAAAATAGGTTCTGCATTTTTTACTGTTGTGTATTCTGGAACATTTCCCCATTCTTTTAAATTTTCTAATCTAGCATCTTCTATATTTCCGTTAATCCCAAGTTGATTCCAAATTTTAGCAGCTGTCTCAGGCATATAAGGATATACTAATACCGCTATTTTATATAAAGATTCTACTAAATTATACATAACAACTGCTAATCTCTCTTTTTTAGTTTCATCTTTTGCTAATTTCCAAGGCATTGTTTCATCTATATATTTATTCATTCTTGATATAAATTTCCAAATTTGCTCTAATGCTTTTGAAAATTGTATATTCTCCATCTCTTCATCTACTTTTACTAACATTTCAAAAAATAGTTCTTTTATTTGTACGTCAAATATCTCTTCACCTTCACCTTTTGTCACTACACCTTTAAAATATTTTTTTATCATACCTATTGTTCTATTTAATAAATTTCCTAAGTCATTAGCTAAATCTGCATTTATTCTTTGTACCATTGCTCTTGTAGAGTAATCTCCATCCATTCCAAAATGAACTTCTCTCATTAGAAAATATCTAAAAGCATCTAATCCATATTTTTCTACTTCACTCTTAGGATTAACTACATTTCCTTTTGATTTTGACATTTTTTCTCCTGCTGCTGTCCACCATCCATGTGCAAATATTTTACTAGGTAATTTTTCTCCTGCTGCCATTAACATAATTGGCCATATTATAGCATGAAATCTCAATATATCTTTTCCTAACAGATGTACAACTTCTCCATTATTCCAAAACTTATCAAACATTTCAGGGTTGTTTTCATATCCTACTGCTGTTAAATAGTTTGTCAAAGCATCAAACCATACATATACTACATGCTCTTTATCTATTTCTAAAGGTATCCCCCATTTAAATGTGTTCCTCGAAATTGATAAATCTTTTAATCCTTGTTTTATAAATGAAGTTACTTCATTTTTTCTATATGAAGGTTGAATAAAATTAGGGTTATCTTCTATATATTTTAATAATTTATCTGCATATTTTGACATTTTAAAAAAATAAGATTCCTCTTTTACAACTCTTAATTTTTTTCCACAATCTGGACAACTGTCTCCTTCTCCCATTTGTGATTCAGGAACAAAATTTTCACACGAAACGCAATAATGTCCTTCATATTCTCCTTTATAAATATCCCCATTTTCATATACTTTTTTTATAATTTTTTCTACAGATTTTATATGTCTATCTTCTGTTGTTCTTATAAAATCATTGTTATTTATATTTAATAAATTCCACATTTTTTGAAATTTAGGCGTTATTGAATCTACAAATTCTTGAGGACTCATTCCTTTTAATTTTGCAGCTTCTTCTATTTTTTGTCCATGTTCATCTGTTCCTGTTAGAAAAAAAACATCATATCCTGCTGTTTTTTTATATCTAGCTAACACATCAGCTGCAATTGTAGTATATGCTGAGCCTACATGCGGTTCTCCATTTACATAATATATTGGCGTTGTTACATAAAAATTTTTACCCATTTTTATTATTTCCTCCTATTTTTTATTGTTCCTAAATTCAAATTTCTTTTAATTGATTTTTATCATTTTCCTCTATTTTAAAATTGCTTATGTTTTTAGACAGATTTAAAGTTAAATCTATCAGAATATTTATTTCAGCTAAAGAATAATCCAATAAATCTCTAACACCTTTTGAAATGTCACTATTATTTATAGATAACTCTTCTATTCCAGTAGAATTATCTGTGATTTCTTTTACTACTTTTGTTATTCCCTCAGAAGAATTAGTTTGATCTTTTGTTAATTCTGTTATTTTTCTTATCTCTGTATCATTTTTATCAATTATATTTATAATAGATAATATTACTGTTTTTACACTTTCTGTTATCTCTAATCCTTTCCTCACACTTATTTCTATATCATCATTTGCCTCTTTTACAGTACTTACCTCTGTTTGGATATCATTTACAAGTTTTTCAATTTTTTCTGTTTCATCACTTGTTTTTTCTGCTAATTTTTTTATTTCATCTGCAACAATGGCAAACCCTTTTCCTGCCTCACCTGCTCTTGCAGCTTCTATTGATGCATTTAATGCAAGCAAATTAGTTTGATCTGACAATGAATTTATAGCTGTTATAATATCTCCAATTCCTAAAGATATACTTATTAAATCTTTTATCTTTTTTTCTGCTCTTTCAACACTACTGCTTATATCTAACATCCCAACTGCCATTTCTTTTATTTTACTTTCACCTATTTTCGCTGTATCTATTGTCTCTTTTGATAATTTCAAACTATCTTCCACATTATTTTGAACTTTTTTCCCAGTTTCTGCTATTTCTTCTAGCTCTGCTAAAGTCTCTTCTATTCCTGCCGTTTGATTTCTCACATTATCAAGAACTACCTCTATATTTTCTTCTAAATCTTCCATTCCTTTTTCAATTATCTTTTCATTTAAATTATTATTTCTTTTATTATACCTATTTCCTTTTGAGACATTATCTAATACAAAAGTTATTTTTTCTGTCTTTTCACTAACTTCAAATATTAATTGTTTTATACTATATATTATATCGTTTAAATTACCAACAAAACTATTAAAATATGTTGCTAATTCGCCTATTTCATCTTTTCTTTTTACAAAAATTCTTTTCGTTAAGTCTCCTTTCCCTTCAGCTATTTTTTTTAATCTATCTGCAACTATTTTTAAATTTTTTAATAAGTATATTATAATAATATAAATTCCAATAAATAGAACAATTATTATAAATAATAATATATACAAACGCAATTTCAAACTATTAATTTTTTTATAAAATGATTTTGTATTTTCATTTAATTGAGTTTGTATAATCTCATCTAATTCTTTCATGCTTTTTAATGCTGGACCATCACTTATCTTCACTGTTGAATCTATTTCTTTTACAGTTTTATTCTCTTCTTTTAATTTTATTGCTAATTTTAAATTTCTATTATATTCTTCAAAAGTATTATTAATTATTTTCAAATCATACTTTTCTTTTTCTCCTAAATCATTAAATTTTAAATACTCTTTATAATTTTCTCTAAATGAATTCATCTGTTTTTCAAAAGATTTTATTTGCTTTTCTTGACCTCTAATTATATAATTTTTAAATTGATGTATTGCACCACCATATCCAAAATTATCTCTTATTTTTGAAATTAATACAGATCTTCTCATTATATTATTATCAATTATACGCCACTGCTGTTGTAAATTATTTATTTCTATAAATATAAATAATCCCTTAACTACTAAAATAGCACCAATAATGCTCATAAAAATATTTAACTTAGTCTTTATTCTCATTATATATTCCCCCTTATTTTTTCAACTTTTCAATCTCCTCTTCACTTAATCCCGTCTTTTCCATTATAGTTTTCAAATCTAAAACATCTAATAAACTTTTTGCTATCTCTATATTTCTCTTTTTTATCCCTTTTTCAATCCCTTTTTCAATCCCCTTTTTTTCAGCTTTTTTTAGAGCTGCATCTTCATCTCTTAACCATTTTAATCTAGCTTCATAACTTTCACGCTCATCTTTATTTAATGACATCTCTTCTAATATCTCTACCGCTTTTTTTATTGTAGATACCTCTTCTAGCTCTTTTGGAAGTTTATTTTCTTCATATTTTTCTGCTCTTTTTAAAAAGTTTACCCATCTATCTAACATTGTACTGAATTTTTCATTATATTTCTCTAGTTCTATAAAATGTATCTCTAAATGATCTATAAACTCATCTTTACTTTCCATATTTATTATTTTATAAATATTATGATAATTTTCCTCATCTAAACATCTAAAATTTAATATATTTATGCTTATTGTCTTCTTTAAATTATCATAATTTATCCCTGTGGATAGTTGACCTGAATATAATCTTGCCCAATAATACAATGCTCTCTTGTCAAAGTATTCCTGATCAATTATTTGCATTTCTATATTATACCAACGCCCTCTTTGATCTACCGCTTTTATATCCAATATTGATAATTTATCATTTCTAAAATTCTTATCATTATAAGGGTTTTTAAGTTCTAACTCTGTTACTCTATCATCTTCTGATACTACTGAATTTATAAAATCTAATAACAAATCCTTATTATCTTCCGAACCAAATAATTTTTTAAATACAAAATCTACTCTCGGATTTATTCTACACATAACCATCACCTCTACTTTATAAGTATTTTATCTTAAATAACATTTAAAAAATAAACTTCTCATATTTCATTATAAAAACTCTTGAATATCTATATATTTCAAAACAAAAATATTGTTTCTAATCCATCCCTAAAGAATTTTCTATTATTATATTTGCTACACCCACAGCTTTTTTCAAAGAACCATAATCAGCTAAATTTTTCCCAGCTATATCATATGCTGTCCCATGATCCACAGAAGTTCTAATTATCGGTAATCCTACAGTTATATTTACTCCAAGTCCAAAAGATTCCATTTTCATTGGAATTAATCCTTGATCATGATACATTACAACCGCTATATTAAATTCATCTTTTAACATTCTAACAAAAAGTGTATCTGGAACAATAGGTCCTTCCACTTCTATTCCAAGTTTCTTTGCTTCTTCAACTGCTGGTAAGATTTCTTTTATCTCTTCATCACCAAATAATCCCCCTTCTCCATTATGAGGATTTAATCCTGATACAGCTATTTTAGTTTTTATTCCTAACAGTTTTTTTGCTTTATTGGCAAGTTTTATCTTCTTTAATATATTTTCTTTTTTTACCTTTTTTATAGCATCATTTAAAGATAAATGAGTTGTATTTAAGACAACTGTTATTTTATCACCTTTTAAAATCATTGCATAATTTTTTGTATTTGTATTATCTGCTAAAAAAGATGTATGCCCACTATAATGATAACCTGCTAAATTTATAGCTTCTTTACTAATTGGTGCTGTTACCATTGCATCAAAAGTTTTATCTTTTGTTAATTCAAGAGCTTTTTCAATATATAGCATACTCATCTTTCCAGATTGTTTTGTAGGAATTCCTATTTCTAATTCCTTAGCTTTAGCAATATTTTCATCTATAGTTTTATGCTCAACATTAATAATTGGAATTATATTTTTAGAAATAATATTTTTTATCTCTTCTCTATTTTTATAATTTCCCAAAATATCTTCTACTTTTAAATCTAAATTATACTTTCCTATGTAATATTTTAGTATTTCTTTATCTCCAACAACTACTGGTATAAAATTATTTCCACTTTTTGAAAAAAAATCTTTATAAAATTTCAATATAATTTCTGGTCCAATACCTGCTGGATCTCCCATTGTAATTAATATTTTGTTTTTCATAACTACTCTCCAATTTATATTTATTTTCCTGAATTATAACACATTTTTTAAAATATATTAAGTGTTTTTTATAATATAAAAAATAAGCTACGCTTCATAATGTAAAGTATAAATGTTTTTCAAAATTTTTGGTTTCTGAAAAATTTTGCTTTGAAAAATTGCATATTTCAAAAAAACGGCGTAGCTTATTTTCTGAATAAATTTATAATTTCCTATTATATCAATGAACGTTAAAAAAATCTTTTGTTCTTATATTTCCAATAATATCTCTTTTATTTTTTTCATTTCATCTCTAGCTTGTATAGCTTTTTCAAAATTTAACTCTTCTGCATATTTTTTCATATCTTTTCCTAATTTTTTTATTTCTGCTTCCATTTGAGTTTTATTTCTATATATTTTTTTTACTTCTAATATTTTTTTATCTCCAATTATAGTTTCATAATCATAATTTAAAGCATCTTTTGGTAATTCTTTTATTATTTGTTTTGGATCTATATTGTTATCTATATTATATTTTTTTTGTTTTTTCTTACGCCTATTTATCTCATATAGTGCTTCTTTCATTGATTTTGTTTCTTTATCTGCATACAAGATCACTCTTCCATTTATATTTCTAGATGCTCTCCCCATTGTTTGAATTAATGATCTCCTTGATCTTAAAAATCCCTCTTTATCAGCTTCTAATATTGCTACTAATGAAACTTCTGGAATATCAAGCCCCTCTCTTAATAGATTTATTCCAACCAAAACATCAAATTCACCCATTCTAAGACCTCTTATTATATCTACTCTTTCTAATGTGTCTATTCCAGAATGCATATATTTCACTTTTATCCCAAATTCCAAATAGTATTCTGTTAATTCTTCTGCCATTTTTTTTGTTAATGTTGTTACTAATACTCTTTCCTTTCTTTTAGCTATTTTATATATTTCACTCATCAAATCATCAACTTGGTTTGTAGTTGGTCTAATCTCAATTTCAGGCTCTACAATTCCTGTCGGTCTAATTAGTTGCTCTGCAATATTAGCTTTAGAATTTTCTATCTCAAAATCTCCAGGAGTAGCAGATACAAATACCAACTGTTTTGCTTTTTTTAAAAATTCCTTAAATTGCAAAGGCCTATTATCATATGCAGATGGCAACCTAAATCCATTTTCTACTAAAACTGTTTTTCTTGCTCTATCCCCATTATACATTCCTCTTATTTGTGGAGCTCCAACATGAGATTCATCTATAAACACAATAAAATCTTTTGAAAAATAATCTAATAAAGTATATGGAGTTTCTCCAGCTTTTCTTTCAGCTAAATATCTCGAATAATTTTCTATCCCTTTACAATAACCAATTTCCCTTATCATCTCTAAATCATATTGTGTCCTCTGCCTTATTCTTTGTGCTTCTAATAATTTTCCATTTTTTTCAAAAAATTCAACTTGAGTTATCATCTCTTCTCTTATTTGATTTAATATTTTTTCTATCTTTTTTTCTTCTGTAACATAATGAGTTGCTGGCATTATCATTATTCTTTCTAAATTTTTTTTTATTTTTTTCCCTGTTAATGGATCTATTTCAGAAATCTCTTCTAATTCATCTCCAAAAAATTCTAATTTATAAGCTGTATCCATATATACTGGGTATATATCTACTGTATCCCCTTTTACTCGAAACTTTCCTCTTGAAAACTCTATATCATTTCTCTCATATCTAATACTAATTAATTTTTTTAATATCTCTTTTCTAGGTGGTGCATAGCCTTTTTCTAATGGCAAACTCATTTTCCTATATACTTCTGGAGCTCCTAACCCATAAATTGCAGAGACAGATGCAACAATTATAACATCATTTCTATTTAATAACGCTGCTGTAGCAGCATGTCTTAATTTGTCAATTTCATCATTTATAGATGAATCCTTTTCAATATATGTATCTGTACTTGCAATATATGCTTCAGGTTGATAATAATCATAATATGACACAAAATATTCTACTGCATTTTCTGGAAAAAATGCTTTATATTCTGAATATAATTGTGCAGCTAAAGTTTTATTAGGAGCCATAATAAGCGCAGGTCTATTAGTCTTAGCTATTACATTAGCTATTGTAAAAGTTTTTCCAGAACCAGTTACCCCTAATAGAGTTTGATATTTATTATTATTATCTAAACTATCAATTAATTTTGCAATAGCAGTTGGTTGATCTCCTGTAGGACTAAATTTAGAAACTAATTTAAACATATTTAATCTCCTTTCAATAAAAAGTAAGATACACTTTCTACTATTTTCATCTTTTTCTATTATATCCAGATATCATTATTAATTTTAATAAATCTTTCCAGTTTCAAGAATTTTTTTCCTCTCTCCTATCTTTACCCTCTTTTATTCTTTTATTCTTTTATTCTTTTATTCTTTTTATAATTCCCGTGCATTTGTGTAAAATAATAAATTTTCTTGGTGAAATTCCCGTTAAGCAGCTGTCATTGTTTGAGCGTAGCGAGTTTGACAGTTGTAGGGAATGAGCCTTAGAAAATTATTATTTGGAACATTAGCACTTGATTTTTTGTTACTTTTTCATCAAGGAAAAAGTAAAGATTCTCTAATTTCAAAAATAGAAAACAAGCCGAAACAAATGTCTCGGCTTATGAATGTTCAAAAAATATTATTCTTTTGTTCTTTTGTTCATAAAAAACTCTTAAGCCCAGTAAATAAACAAATTGATATCCTATTTTAAAACCATTCTAATCTTCTTTTATTTTATTCCAATCTACTCCTTTAATAAATTCTTTAAAAAATGCTAAGAAAATCCCTAAAAATATTCCCAACACAAATCCAATTATTACATTTAATTTTTTATTAGGCTTAATTGGAACTTTTGGTGTTATTGCTGGATCCAATATATTAATAACACTATTTTCTTTAACTTCATCTATTTTTGCTGTTTCATTTTGAGCTAATAACATTTTATAAATACTAACTGTTGTTTCCACTTCTCTTTGTAACCTTGACATTTTTATTTTTATATCTGGCACATCTTTTAAAGCAATCATCTCTATTGGAAGTTTTTTATTCCCTTTTTCCAAAGCTGTAATTTGTCCTTGATATACAGATATCTCTTTTTTTAATTTTTTAACTTCTATATTTTCATTTCCTGTAAATTGTTTTAACACTTCTAATTTTCCGCTTAATTCAAATACATTTGTTTTTAATTTTGTTAATATTTCTGTTAAAGCTTGTGCTTCATCCATAATTGAAACTGTATTATATTTTTTTTCTATATTTTTTAATTTTTCTTCTTGTGTCTTTAATTTTTTTTCTACTAATTTTAATTGCTTTCCTATAAACTCTCTATTTCTTTTTGCTTTTGTAAGATTTTTTTCTTTAATATATCTTTCTAATTCCGTATAATAATAATTAGATATTTCTGCACTTTTTTCCGCATCATCTAATTCTACATCTACTGTATAAGTTCCACTTTTATCATCTTGAGCTACTGTAACTATATTTTTAAGCCATTCTGCAATATCTGTAATTGTTGGTTTATCTTTCTCTTCAAGCTTTGATAGATCTATTTCGTTTTTTTCTATATAATAATCATATAATTTTAAATTTTTAACTATATCCTCTCTAAAAGTACGACTTTCCATTATTGTTATGAAATTAATTCCTGATTTTCCACCAGAACTACCCAACATACTGGCAAAAGGTATTGAGCTAGCTAATGCACTAAGACCGTTACTACCATCTCCTTGTTCTGCCATAAATACCATTTCTGATTTATAAATTTTTGGCATTCTTATAGAAACCACCGCTGCAATAATTGTTATTAATATTGTGATCCCTATAATTAATTTTTTATTTTTCCATATAACCTTTATTAAGTCCAATAGATCAATTTCATCTTCTTCTACATATTGTCTGTTTTCTTCCACTTCTAAGCCTCCATTATTTTAAATTTAATATTTTGTTTATTTCCTAAATATTCTTCAACATATCTATTTCTAATCCTTCAATTGCTAAATCACTATTTTCAAAACTGTTTTTAGCAACTTCTAGTTTTTTTTCTATATCTTCTTCACTATCTTCTGGATCATGATGAGTTAAAAATAGTTTTTTTACACCTGCCTTTTTTGCATTTTCTGCTGCCATTTCTGGAGTACTATGCCCCCATCCTTGTTTTTTTAAATAAGTTTTATAATCATATGCTGCATCATGAACCAACACATCTGCATCCTTTGCAAATTGAATTAATTTTGCATCTCCACCAATGTAACTTTCTACATCTGTTGCAAAAACAAAACTTTTACCCAAATATTCAATTCTATATATATACACTCCATTTTTAGGATGATTATACCCTTTTAATATTTTTACTACAACATCATTTTCTGAAGATACAAAATCAGCATGATATTTATTATATACTTTTAATTTTTGACTATCTTTTTTTAAAATCAATACATCTGTATGATTTATATCTGTACAGTTTTTCAAAGAACCCATTTCGTCATAACTTACTGGAAAATATGAATATGCCATAGAACTAGAAATCACCTCTTCTATACCATCTTTTAAAACCTTTGGACCATACAAATTTATTTTATAATTACCAAAATATGCTGGCAAAAATGAAGGAAATCCTTCTGTGTGATCTTTATGAGTATGTGTAAATAGTATATTTATATCAGAATGTTTTTTTTCAGCTGCTATTTTTTTCCCTAAACCTATTATCCCTGTTCCTGCATCTAATATTATTATCCCAAAATCTGTTTCAACCTCTATACATGTAGTATTCCCACCATATTTTACCCCTTTGTTTCCTGACAATACATAACTTCCTCTTACCCCCCAAAACTTAATATTAAAAACTGCCATACAGTTCACCACCTTATATTATCACTATTTTGTTCAATTCTTTTTTATATAATTCATAAATTTTTTCTTTTACAAATATCTCAAATATATACTTGTCCAAATGGTTATCTTTCACTTCAAACTCCAATATTTTTAGAGCTTTTTCCACAGCCATTGGTGGTTTATAAGGTCTATCTCTTGCAGTTAAAGCTTCAAAAATATCTAAAATTGCAAGTAACTTTGCCTCAAAAGGGATCTCATCTCCCACTAATCCATGCGGATAACCACTTCCATCAATTTTTTCATGATGCCCAGAAGCAATTTCAGGAATTCTTTTTAATAATTTAGTCCATTTTATTCCTTCAAGAATATCATATGTAAATGTAACATGTAAATTCATTTCTCTTCTTTCTTCATCTGTTAAATTCCCTTTTTTTATCATAAGATTTTCTATCTCAAATTCATCTAATAAATTCCTATTTGTGCCATCTACATCAATAAATTCAACCATTGAAATTTTGCTAATCATATTTTCCTCATCAACAGTTACAAAACCCTTCTTATTTATATCGGAAATTATCTCATAATATTTATCTATTTTTAATAAAAGTTCTGTTTCATAATCAGATAGCCTGTGTAATACTTTTCGCAACTCTAAGTTCTTTTTGAAATATTGAAATCTATATTTTATAGTTTCCATTCTATCATCTGTTAATCTGTTTCTTTTTAAAAGTATATTTTCTTTTATTCCTACTTTTCCAATATCATGTAATAATGCAGCATAATAAAGTTGTCTTATCTCATCTTTATTAAAAGTTTTATCTTTGTATGGTCCATAATCTATTCTGTCTATAGCTTTTGCTAATTCTATAGCATATCCTGCCAACCTACGCGAATGTCCTGATGTAGTAGTATCTCTTGCATCTAAAGTACTTACCATTGCTTCTATAAATGATTGAAATAGTTCTTCTATCTCATTATATAATCTTGTTCTTTCTAATAATATTGCTGCCTGTGACGCTAAAGATGTTATTATTTCCTCTTCATCTCTTGTATAAGAAATAATATTTTTTTCAATTGTATCAGGCTCTCCTAATACAGTTCCCTCTTCCTTTTTTTTATTTAATAATTGTAAAACTCCAACTACATCTCCACTATAATCTTTCATAGGAATAACCAACATATTTATAGTTTTATAATTTATACTTTTATCAAATGAATTATTATATGTTATTTTTAATAATGAATCTATATTATTTACATTTTTAATATTTAACGTTTCTCCTGTTAATCCAACATATCCAGATATACTTTTTTTATTTAATGGCAATGTAAACTCTTTAAATGGAAATTCTCTAGAAAAATTTTTTGTGATTTTAAATTTTAATTTTTCTTCTTTGTCTATAATTTCTTTTATATATAAACTTCCACCATCACTATTTGTTATTTTAATGCTCTCTTCAAGTATTAATTGTAACAACTTATTGGTATCTTTTTCTGCTGACAAAGCAATTCCTATTTTATTTAATTCTTTCATCAAATCATTTTTCGTTGCCATATCATTTCCCCCTTATACTTTTTATGCCCTAATTAATTACATCAAAAGTCTTTTCAGAAAATTTTAAATTTTTTATCAACTCTATAAATTTATTTTTATTTATATCTGACAACTTATCATAATTCTCCAATCCAAATTTATAAACTTTTTCTTGAGAATGGTTAGTTGATATATCTATTTTTAATAATTTTGATATGTTAAACAGTTTTAATATATCTTCAATTATCTCAATTTTTTCAAATTGCAACTCATCTATGAGAATATTTAATTTTTCTTTCAATCTATCCTTCATTTTATCGTTAACTATCTTATAATTTAATTTTTTAGAAGACATAATAGCTGATACTAATTCACTCTCGCTAGATTGTGAATTCAGATTTTCTAAAAATTCTTCTAGTAAATTTGTTATCTTATTTTTAAATGTATATTCTGCTGCTATTCTATATTCTTCAGGTATTGATAATTCAGCATCTAGCAAAGCAGATATTACTTGAGAACTTTCAGTATAAATTTTTTCGTATGTATTTTTATAATCTTCAAAAAATTTACCTGTAACTTTTTTTAATATTTTTCTTTTTGTTTCTAATAAAAGCTCATTAAATGTATAATATTCACTATTAATATACATATCTAACGCTCTCATAGATTCAACTATTGAAAACTTTTTTTCTATTTTTTTTAATATCTCTCTTTTTATTTCAAAATATTCTGTATTTGAAAAAATGTTTTTAACAGAACATCTAAAATCCATATTCCCGAATTTTAAAACTCCATACATCACATATCTAAATTCATTAGTTATAAGATTTTTTATTTTTACTTTTCCTATATTTAATATAAGATTTCCATCTTCTATTTTACTAAAATCATCTCTTTCTATCTCATATGTGAATATCTCACTTTTTTTACTATATTTATAAAAAGATGAACTTATCGCATAATGAGCTACCATTTTATCAAAATCAACTATTCTGCTTTTTACCATATTAAAATATATATCTTTCCCAGTTCCAAATTCTTTTATATTACTTTTGGCTTCTTCTAAATAATTCGTAAATATTTTTTCTATATCTTGATTTGTATAATCTTGTGCAAGTTGAATTGCTTTTGATGCATAACTCAAAATTTGAATTGTCTCTAATCCTGATATTTCATCAAAAAACCATCCACAACTTGTAAACATTAACAATAAATTTCTCTGTATTTCTAATAATTTCAATAAAAACTCTTGTTCTTCTGTATCTACTTCTTTTTTTAAATTTCTCTTAAAATAATCATTTACATTTTTAAGGCTTCTGTTTAAAACAACATCAACATATTCATTCCTAGCTTTCCATATATCTTTAAAATATGGAGTAGCTTCTTTTCCATATATTTCTTTTAAAATGTCCCTCAATTTATTCAACCCATCTCTTAATGGCTTTCTCCATTTTTGATTCCAACCATAATTCCCACCCGAATTACAACCACAATCATCTTTCCACCTATCAACTCCATGTGCACAGCTCCAAGAAGTTCCTTCTCCCTTGCCTTCGTTTAATTCTACTTCATCAACTACACCAAATTTCTCTAAATAATACCCATAATTTATAACTTCAAAATTATTTTTTGGAGCTAAATCAAATAAAAGATGCGCCAATGTTAAATCAGCAAATTTTTTATGATGTCCATAAGTTTCTCCATCAGTAGCTATATTCACTATTTGAGAATGTTCTGCCTTTTCATTTAAAGCTAGTTTTAATCTTGAGATATATTTAGATGAATCCTTAACTGTATCTTCAAATCCTATACTACTAGATATAGGTCCATCATAAAAAAATATATCAATATATTTATTCGGATAAGTTTTTGAATAACATCTATAAGGTTTTGTAGAATCTATTTTGCCACCCAAAACATCTTTCCACTCTTTTTTTTCCATTTCCCTTGTATTTTTTGCTTGATAAGGAGACAATATTGTAAATTTTATATCATTCTCTATTAAAGCATCCACTGTTTTATAGTCAATTGCTGTTTCTGCCAACCACATACCTTCAGGCTTTCTCTTAAACCTTGATTCAAAATCTTTTATTCCCCATAAAATTTGAGTGTTTTTATCTTCTTTATCTGCTAACGGCATTATAATATGATTATAAACTTGTGCTAAAGCATTTCCATGTCCCGAATATTCCTTTAAACTTTCTTTATCAGCTTCTAAAATTCTATTATAAGTTTCAAAATCATTTTTCTCTAGCCAACTTAATAATGTAGGCCCAAAATTAAAACTCATTTTCGAATAATTATTCACAACTTTTATTATCTCTCCTTTAGAATTGAATATTTTAGAAAATGCATTAGGCCTATAACACTCTTCATTTATCCTTTCATTCCAATCATGAAATGGATGAGCACTTTTTTGTATTTCTATTGCTTCTAACCAAGGATTTTCTCTAGGCGGTTGATAAAAATGTCCATGAATAACCAAATAAGATTTTTTTATATCTTTTTTATTTTTCATAATTCTCTATCCTCCATTAATTTTAAAAAAACATCAACCAATTTTTCTTCAAATTGTATATTTTTATTCTTTTTTAGTTCTTGTACAGCAAATTCATGACTTAATCCTTTTCTATAAGGCCTATCTGATGTTATTGCATCATAAGTATCTGCTACAGATATTATACGAGAAGTTAATGGTATTTCCTTTTTTTTCAATCCTAAAGGATAACCTGTCCCATTCCATTTTTCATGATGATGCCTTATTATTTCTGCAATATTTTTCATATTATTAATTTGAGATACTATTTCATACCCATTTTCAGGGTGTTTTTTTATTTGTTCAAACTCATAGTCAGTTAATTTTCCAGTCTTATTCAAAATATATTCTGGCAATCCTATTTTCCCCACATCATGCAAAACAGCTGCCATATCCAATTCTTTTAATTTGGCTGGTGAAAATCCCAATTCTTTTGCAATCATATATGAATACTCTGCAACTCTTTGCGAATGCCCTTTTGTGTAAGTATCTTTAGCTTCTATTGCCTTTACCAATGATTTTACAATTTCAAAATTCATATTCTTACTTTCTTCAAGTAAGTATGCATTTTCAATAATAATTCCTGCATGACTTAGAATATCTATTATTATTTGTTCCTCTTTTTCAGACAGTTCTAATTCTGAATGTTTCACTAATAATAAATATCCTCTTAAATTATTTTTTATAATTATCGGGAAACTATACCATGATTTACTATCTAAAAAGTTAGGTATAAAAGCTATAGAATTTTCTAATATATCAATTAACATACTGCTTTTACTATATTTTAATAGTTTTTTCAAAAAACTTATTCTTTCACTTTTTCCATCTTTCAAATAATAATGTTTTTCTTTTTCATTACGCTTTAAAACAAATAATGAAAAGCCTGAAACTAAATTTTCTAATAAATATAATAATTTTTCTATTACTTCTTCAAATGCCAATTCCAGCCTTAATATTTTTGTCATTTCATACAAAACCTGATAGTCTGTTAATTCATTTTCTATTTCTATATTTCTTTTTTCTAACTCTTTATACCCAAATCTATCATAAACTCTTTCATCTAATTCACTAATTATATCAACTATATTGTAATCTTTTATCTTTCCGTTATATACACAAGATGCTCCAAGTTTATAATATTTTCTAGCAAATCTTATTACATTAACTTCAGAAAAAATTGCAAATTTAAAATTTAACTCTAAATCTAACAACTCTTTTAAAATATTTTTATTCCAATTCTCTTCATCAATAAGAAGATAAAATTTTTCATTTTTCTCTATTTTTTTTAAATCAAACTCATTTTCCCCAAATATTTTTACATCATAAAAGAATTCAATATCCTCTATAAATATATTTTTATCATTAGATAATATAATTATTTTACTCATATAACGATTACTCCCCCACTAATAATATGATTCTACTTCACTACTATATTTCCCATTTTCACTATATACGTTTAAAGGTGTTTCTATTGCTATATTTTTTTTTCGATTTTTTATTGCTTCTAACATAAATAATTCAGCGTTTTTATCTACTTTAGTATGAATGAATCTTAATCTTTTTATATGAAAATTATGTTTTGTAATAACGTTTACTAATTCTTGAAATCTTTTACTCCTATAAATAATATTAAAACTTCCACCATCTTTCAATACTTTATTTGAAGATTCAATTAAAGAATTTAAATCTAATTTCAGTTCATGCCTAGAGATTGCTTTTATTAAATTATTACTTACTTTTCCATTTTTAACTTTCATATATGGCGGATTTGTAACAATCATATCAAACTTTTTTTCAACTTCATAATCTTTTATATCTATATTTTCAATTTTTATTTTATCTTCTAATTTATTTATCAATACACTTCTTTTTGACATACTTGCAATATTCTCTTGCAGTTCTACTCCTGTTATAGTATTAATATTTTCATTATTTACTAATAGCAATGGAATTATCCCAGTTCCAGTCCCTATATCTAATAAATTTATTTTTCTTTTATTATCAATTTTAACAAAATTAGAAATTAATACCGCATCCAAAGAAAATCTAAATCCATTCTTTTTTTGAATGATTTTCATATTAAATTTTGTTAACTCTTCTAGTGTTTCATCTTCATAAATTTTCATTATAATTTATTCCTTTTCTAAGCTAGCTGTTTTGCTCCCATGTTCACCTAAATTATGACTCTCTTTCATTTGCTTTGCTTCCTCTTTATCAAAAGCAATCTCATCTATGTTAAATTTATTTACTCCTTTATCTTTTACGTCTACATATATATACCCATTTAACGGATTTAAATTTATAGTTTTTCCTCTTCCAGAAGGAGTCTCTACTCTTTGCCCTACTGCTGGATAATCTGCTAATATTTCTTTATATTGCTCATATTCATATTTCATACAACATAATAATCTTCCACAAACTCCTGAAATTTTAGATGGATTTATTACAAGTCCTTGTTCTCTTCCCATCTTTATTGATACTGAATCAAATTTATCTATAAATTTTCTACAACATAACTCATGCCCACAAATTCCAAATCCACCTAAAATCCTAGCTTCATCCCTAACTCCTATTTGTCTTAATTCTATTCTCAATCTAAAAGAAGAAGCTAAATCTTTTACTAAATTTCTAAAATCTATTCTTCCTTCAGCAGTAAAATAAAAAATAAGTTTATTTTTATCAAATGTATATTCTGCTGTTATTAATTTCATAGGCAAATTATGTTCAAATATTTTCTTTTTACATATTTCATATGCTTTCTTTGCGTCTTCTCTAAGCTTATCATACTTATCTGTATCATTTTTATTTGCTTTTCTTATTACTGGCTTTAAGGGCGATACTAAAGCTTTTTCATCCATCACTCTAACTTCTGCATAGACTGTCCCTATCTCTTGCCCTCTTACTGTATCTACAATTACTTTTTCACCTTTTTTATATTGTTCATCCCCTATAACTTCAAAATTATACCTTTTTTTTGTAACTTCAAACATTACTCCAAGCACATTATGTTCCATCTATTGTATTACTCCCTTCGTCGATTGTATTTTGTCATTTATTATATTAACTGCTTCCTGTAACGCCTTTGCAAATCCTTTAAAAAAGCTTTCTATAATATGATGTGTATTTGTTCCTCTAATTAAATCCATATGTACATTTATTCCACCATTATAAGCAAGTGAATAGAAAAATTCCTCAACAAGCTCTGTGTCAAATTCTCCAACTTTATCTTTGGTAAATTCACAATTAAAACTTAAAAAACCTCTTCCGCTTAAATCTAATGATACTCTAGTTAAAGCTTCCATCATTGGGAGATGAAAAGTCCCATATCTTTTTATTCCAATTTTATCTCCTAATGCTTCTTTTATTGCAACACCTAATGATATACCAACATCTTCAACTGTATGATGAAAATCAATATAAGTATCTCCTTCAGCTTTACATATCAAATCAAAACTTCCATGTTTTGCAAAAAGTTCTAACATATGATCTAAAAATCCAACTCCTGTTTTTACATCATATTTCCCATCGCCATCTAAATTTATTTTTACATATATTTTTGTTTCAGTTGTATTTCTTGTAACCTCTCCTATACGTTTAATTCTTACCACCACCTATATTAAATTATTCTCCAAAAAACTATAATAATTATTAGTAGTCAATATAATATGATCTAATAATTCCACTTCAATTTCTTCCAATATATTTTTTGTTTTTTTTGTAAACTTTATATCATTTTTTGAAGGAGTTTCATCTCCACTTGGATGATTATGAGCAAAAATTACCTTTTTAGCATTTGAAAATATTATTTTTTTTATAAGTTCCCTTGGATAAATATAATTTCTATCCAAAGTTCCTTCAAATAAAATTTCATCTTTTATAATTCCATTTTTTGAATCTAAAAAAATAATAATAAAAAGTTCTTTACTATTATTTGATAACTTTGCTTTCAAATATTCTATTAACTCTAATGTGTTCTCTATTTTATTTTTTTTATTTAATTTCTCTTTTAAATTTATTTTTAAAATTTCATTAATAATGTTAATTAATATTGCGCTATTTTCACCAATACCATTTATCTCCATCAATTCTTCTTTGGTTAATGAAAATATATTTGTGAAATTTCCATACTCGTTTAATAACTCTTTTGCAATTATTTTACAATCTTTTCTTGGAATAGCATAAGTTAATAACAACTCTAGTATCTCATATTTATGTAATCCATTAGCACCTGAATTTAAATATTTTTCTTTTAATCTTTTTCTATGTCCATTTAACAACTCTTTTTTCATAATAAACCCCATTTTCCCAAATTAGATTATATCTTTTATTTATATTTTTGTCAAACCATTATTCTTACAATACATATATCTTAAAACAACTTTTAATTTTTTTACACTAAAATATAAAAAATTTACTTATAAATCTTTTCAAACTCATCAAAATAATTAGGAAAAGTTTTAGATACACATTTTGGATCATTTATTTTTGTATTAGGTATTAATAATCCAGCTAGTGAAAAACTCATTGCCATTCTATGATCGTCATATGTATCAATTAAAATTCCTTCATTATATTTTTTAACTGGTTCTATTATTAAGCCATCTTCTAATTCTGTTACTTTTGCTCCAAGTTTAGTTAATTCATTATACACTGCTTTTATTCTATCGGTTTCTTTTATTCTCATATTATACACATTTTTTATTTCTGTTTTCCCTTCTGCAAAAAGTGCAACTACAGCAAGAGTTTGTGCCACATCTGACATATGATGCATATCCACAGTTACTCCTTTTAGTTTTCCATTCCCTCTTACAATTACAAAATTTTCCCCATACTCAACTTCTGCTCCCATCTTTTCTAATACTTCTAATAATTTTATATCTCCCTGCATTGCATCTTTTTTTACATTATTTACTTTTATTTCACTATTAGTTATTGCAGCCATTCCAAAAAAATATGAAGCCGACGAGCAATCTCCTTCTACACTGTATTCTCTTCCTTGATATTTTTTGCCAGATTTAATCTCAAATTTTTTAAAATTATAATTTTTTATTTCCATTCCAAAATCCTTCATCATAGTTAAAGTTATATTCACATAAGGGATAGATACCAAATTCCCATCAATATTTATAGTTATATCATTTTCCCCATATGGAGTAGATAATAATAAAGATGTTAAATATTGACTACTTTTATTCCCTTTTATTGTAACTTCTGTCCCATTTAATCTGTTTGCATTTATAATAATTGGCGGATATCCATTATTTTCCATATAATTTACATCTACATCTAATTGAGTCAATGCTTCCACTAAATCTTTTATTGGTCTTTGTTTCATTCTCTCTATTCCAGTTAATATTACCTTTCCTTTTCCTGTTGATATATATGTTGGTAAAAATCTCATTGCTGTTCCTGCATTTCCTACGAAAAGTTCACATTCTCCAAAATTTCTATTTTGATTTCCCTCAATTGTTACAACTTTATTTTCTTCATCTATATCAATTTTATTTCCTAATTGTTGCAATGCTTTCATCATATATCTAGTATCATCGCTAAACAACATATTTTTTAAAATTGTTTTTCCTGTTGCTAATGCTGACAAAATTAAAGCTCTATTTGCTACTGATTTAGAACCTGGTATTTCAACTTCTGCTTTAAAATTTTTATGTGGTTTCACTTCATAAATTTTATTCATATTTATTATCTCCTTAAATTTTTATTATTTTAAAAAATGGCAGCCATTTCTAGACCGCCATTTATTCATATTCTCTTTTCCAACCATATTACTACTGAACCATAAATCATAAGTTCTAGAAAACCTGGTAATGTATCAAACAAATTCCCCATTGCATAACTTCTAAAAAAAGCTATTAAGATTGCAAAAAATAATATTATTTTTCCTGATATTCCATCTTTAAAAAGTTTTATCACTGTACTTTCTAATACAAATATAAAAAAACTTACTATAAAAAATGATGGTATTGACAAAATTAAAACTGCAAGTATATATCTAATATAAAAAAAATCAATATTTTTATCTACTCCAACATATATTGTTACACAAAACCCTGGTATAAACCCTCTTAATATATACATTTTTAAATTTTCTTTAAATTTATTTTTTTTATACATTTTATTTTCTCAACTCTTTCATATCTGTCCCTCCATTTATTTGTTTTTTTATATTCTCTTTTCCAGCCATATCACTACTGAGCCATAAATCATAAGTTCTAGAAAACCTGGTAATGTATCAAACAAATTCCCCATTACATAACTTCTAAGAAAAGCTATTAAGATTGCAAAAAATAATATTATTTTTCCTGATATTCCATCTTTAAAAAGTTTTATCACTGTACTTTCTAATACAAATATAAAAAAACTTACTATAAAAAATAATGGTATTGACAAAATTAAAACTGCAGGTATATCTCCAATGAAAAAAGAATTATCAAATACTCCTATAGATATTGTTCCATAAATGCTTGGTATAAGCCCTCTTAATATATACATTTTTAAATTTTCTTTAAATTTATTTTTTTTATACATTTTACTTACTCAACTCTTTAGAATCACTTATAATAGGATTTATATCTCTCGCTGTTGCTCCCCCTGCTAATATCATATATGACATTTTATATTTTCTTACTGCATAAGTAAAATTTTTATTAAATTTTATTCTGTAACTTATGTTTTTTCCATATTTCAATGAATTGGTTACTTCTTTCAAATCAGTTCCTGCACCAAGTAACGCTCCCGATAAATCCACCCAATTGTACGCTTCTTTACCAATATTTTTACCTTTTTTTTCATAATAGTTTCCACCTCTACTTTTATCAAAACTTTTACCAATTAATGCTCCAAGTTCTTCATAAATAGTTTTCAACGGATTAACTTTCCCTACTCCTTCTTCATATCCTATTGCTTTAAAATATATATCTGCTGATGTTGATATTACTAAGTTTGTTCCATGAGTTGCTAAATAATATAAATTAAATCTCGCTAAAAAACTCATATCTGTCTGAATAAAGCTTTTCGTTCCTATCCCTAAATATCTTAATGCCACATTTTTTCCTGCATTTAAAACTACTAAGCTTCCTGCTGCATTTAATCCTAAAGATATATTATTTAAAAACATATTTGTTTTTTCATCTTTCCCTTGTAATACTAAATATCCTCTTCCATATTTTGTTTCTACTGGCATTGATTTATATGCACTGTTCCTATTGTGTTGAGCTAACGATATTGAATAAGTCATTGTCCCATAATTTCCATCATAATTTATAACATGTACATTATTTATTTCTATTTCTCTCACTATATTATCTGCTTTTACTATCCTTAATATCATTTTTCTCAAATGCTCTTTTTTTTCTGATGAAACTAAACTCCATTTTGCTAATTTTAAACTTTCGAAATCATCTTCCAATATTCTTCCTGATATAAAAAACATCTTTGCTTTATATTTCATAATTAAATTTGTTAAAGACTTTCCTTTTAAAACTATTGTGTCTTTTTCGCCTACTAGATGTAATTCTGTTTTAAATCCTTTTTCTTCATATCTATGCATTTTCATAAATTTTATATTCCTCCCTAAAACATTAAAAATTTTAATGTTTTATTTAGTCCCACTTTTTAATTCTCTCACAAATTCCTCTATCTCTTCTAACATTTTCTCCTCATTATCTAAATTTTCTTCTATTTTCCTAACTATTGCACTTCCTACAATTGAAGCATCTGCAAATTTAGATATTCCTTTTACATGTTCTTTACTTGAAATCCCAAATCCAATTCCAATTGGAATCTCTGTTTTTTCTTTTACTTTTTTTATTAAATTTTCCAAATTTTCATTTACATTTTTTCTAGCACCTGTTATCCCTGCTACAGATACAAAATATATAAATCCATTAGCTCTTGATATAACTTTTTCTAATCTTTCTTCTGTCATTGTTGGAGCTAAAAACATTATTAAATTAAAATCATATTCTTCAGCTATAATATAGAATTCATCTGATTCTTCAGGTGGTAAATCTGGTATAATTACCCCATTAACTCCTACCTTCTTTGCATCTTTTATAAATTTTTCTATTCCATAACTGTAAATAGGATTATAATAACTCATAAATAAAAGTGGGTTTTCTATATCTTCTTCTCTTAATTCTCCAACTAATTTTAGAGCATCTTTTAATGAAAATTTGTTTTTCAATGCTCTTTCTGCAGCAGCTTGTATTACAGGCCCATCTGCCATTGGATCAGAGAATGGTATTCCAATTTCAACAATATCCGCTCCACCTTTTATTAATGCTTTTATTATTTTTTTGGAACTGCCATAATTTGGATCTCCACCAGCTACATATGTTATAAGAGCTTTTTCATTATTTTTCCCTAATTTTTTAAATTTTTCTGAAATATTCATTATAATTCCACCCCCAAAACTTTTGCAACTGTATTCATATCTTTGTCACCACGTCCTGATACATTTAATATTACTATATCATCTTCCTTTAATTTTCCTTTTAATTTCAATAAATATCCAAGAGCATGCGAACTTTCCAAAGCTGGTATTATTCCCTCTTTTTCAGTTAAAAATTTAAACCCTTCTAACGCTTCATCATCAGTTACAGAGACATATGTCCCTCTTCCTATACTATGAAAATAACTATGTTCTGGCCCTACTCCTGGATAATCTAGTCCAGCTGAAATAGAATGAGTATCTAATATCTGTCCATTTTCATCCTGTAATAAATAAGTCCTATTTCCATGTAGAATTCCAACTTTCCCACCTGTAATTGATGCTGCATGCATTCCAGAATTAAGACCAAATCCAGCTGCTTCTACTCCTATTAATTTAACACTTTTATCTTCTACAAATGGATAAAATAGCCCCATCGCATTACTTCCACCACCAATACAAGCAATTAAATAATCAGGTAATCTTCCTTCTTTTTCCATAATTTGTCTTTTAGCTTCTTTTCCTATAACTGATTGGAAATCTCTTACCATAATTGGATATGGATGTGGTCCTGCTGCTGTTCCTATTATATAAAAAGTATTTTCTACATTTGTAACCCAATCTCTTATGGCTTCATTCATAGCATCTTTTAACGTTGCTGTTCCTGATTTTACTGGATTAACTTTTGCACCTAAAAGTTTCATTTTAAATACATTTAGAGATTGCCTTTTTATATCCTCTTCTCCCATGAATATTTCACATTCTAATCCAAAAAGTGCTGCAACTGTAGCTGTAGCTACTCCATGTTGTCCTGCTCCTGTTTCAGCTATAATTCTCTTTTTCCCCATTCTTTTAGCAAGTAAAATTTGTCCTATTGTATTATTTATTTTGTGAGCTCCAGTATGATTTAGGTCTTCTCTTTTTAAATATATTTTAGCTCCTAATTCCTTACTTACATTTGCAGCAAATGTAAGAGGAGTTTCTCTTCCAACATATTCTTTTAAATAATAATTTAATTCGTCCAAAAAATCTTTATCATTCTTATATTTATTATAATTTTCTTCTAGTTCTTCTAATGCTGGCATAAGTGTTTCCGGAACGTACTGTCCACCAAAAATTCCAAAATGTCCTGTTTCTTTTTTCATATTACCTCGGCTAACACCGAGCCACCTCCTCTATTATTAAATTCTTTTAATATGTTTCAACTTTTTATAGGTGAAATTTTATCTGCTTCTTTTAAATTTACAATTAATAAAACTACTCTTCTCATACATTTTACTACAATTTCAAACTTTTTGTCAATAGAAAAAGGCTTTATGGCAAATCAAACATTTTTTTACATTTTCAGTTTCTTATTCTCCTTATTTAACTTTATAATAATTTTATAAATATAAACGTTAAAAATCCTGAAATCAAAATAGAATATATCCATCCAGATACTATTTTTAATATTATTTTATAATTTATATTTCTCACGCTTTCTGTCATTCCTACCCCAATAACTCCTCCAACTATTGCTTGAGAGCTTGACACAGGGACTCCTATTACAGAATATAGATGTATTACTATTGCACTTGCTAGTACCGCAACTAACGCACCATAATTATCTAAATATACTATATCTAATCCCACTGTTTTCATAACTCGCTTACTATATGTTACCAATCCAAATGATATTGATATTCCGCCTAATATTAACCATAAATTAATAGAAAAATTTGTACCTTTAGCAAATATTCCTACAACATTTGCAACATTATTAGCCCCTAGACTATAACTACCATATATTCCTATTAAAATTGCTAATATTTTTATAAATTTATTAAATACTAAAACATTTTTAATCTTATTTCTTATAAATTTTCTTGAAATTTTATATATAATATATCCTAGTCCCATTGCCCCAATTGGGCTCAAAAACCAAGATGTAAAAATTTTAAATAATGGTGCTACATTTATATTCCCTGAAATTAAAGCCGATACAACTATTCCACTTAAAATTGAATGAGTTGTTGAAACTGGTATTTTAAATATTGTCATTATCAAAACAGAAATACCTGCTGCAAAAGATATTGCTAATGCTATTTTTAAATCCTGTCCATTATATAAAGAATTGTATGTTTCTATCCCATTTTTACCACCTATAACCGCTCCCAATATAACAAATATGGTCCCTATTATCCCAGCTGTTTTAAATTTTAATATCTTATTTGATATAATTGTTCCAAAAATATTTGATGCATCATTAGCTCCAAGATTCCATCCTACAAAACTAACTGCTATTATTATAAATATAATCATATTAATCTACACCCTTCTTATTGTAGATATTTTCTCTACTTCATCTCCTATATCTTCTATTAAATCTGAAATATCTGCTATTTTGTTAATAAAATCCCTATAATAAATTTTACCATTTAAAGATATTTCACTATCTCTTAATTTTTTCAAACATTTTCTTTCCAGTTCATCAACTGATTGTTCATCTATCTCAAGTTCTCTTGCTTTTTTATATGCAATATCAAAATCTAAAAATAGGTTCGATACTGCATCTTTCAACCGTAAAACTTGATTTTCTGTTATGGTTAATATTTCTTTTATAATATTAATATCTATTTTATTTTCATCAATCTTTTTTACTAAAATATTATCAATAATTGTTTCTGACATATTTGCAATTTTATCTATCAATTCAATTAATCTAATAAATTCTTCCATACTTTTTAATAGCATTTCACTTTTAATAATATTTTCTATTAATTTTCTCCTTAAAATGTCTGCTTCATATTCTAATTTATGTATTTTTAAAAACTCATCTTCAACTTCCAAGATTAACCCCTGTTCCATATATTTTACAATTGAATATTCAAACTGCTTATATGTTTCTATTACTTTATCCATATAACTTTCCAATTCTAATCTTAAATCTTCAATTCTAATTTTTTTACTCACATTTATCTCCTCTTTCCAAAATAGAAAAGAAGCTATACTTTATCCTGTAAAATATAAACATTTTATAAAATAGTATAGTTTCTTTTCTAAACAAATTTATATTTTCCTATTAAATAAATTAAAAAATCTTTTATCTACATATATTCATATATATTCACTTATATTCGTTACTAAATATCTCTGCGTAGCTTTGCGTTCTCTGTGACTCTGCGTTAAATATCCTTGCTTTTTTCTGCTTTATTTTATAATAATTTTGCTGCTATTTCCGCTAATTCTGATCGTTCTCCTTTTAATAAAGTAACATGCCCTGAAATTTCTTCCCCTTTTAATCTTTCTGCTAAATATGTTAATCCATTACTATTTGCATCTAAATAAGGATTATCTATTTGATATGGATCTCCAGTAAATATAACTTTTGTATCTTCTCCTGCTCTTGTAATTACTGTTTTTATCTCATGTGGAGTTAAATTTTGTGCTTCATCTATTATAATAAAACCTGCTGGAATTGATCTACCTCTTATATATGTCAATGCTTCTATTTTTAAAAGTCCCATAGCTTCTAATGAATCAGCTAACTTTTCTGCTTCTTTTCCTTCTTTATTTGCTGATAAAAAAGCTAAATTATCATATATCGGTTGCATCCAAGGTTTTAGTTTCTCCTTTTCTCCACCAGGTAAATATCCTAAATCTTTTCCCATTGGCATAATTGGCCTTGCTATAAACAGTTTTTTATATAAGTGTCTTTCTACCACTTGTTCCAATCCTGTTGCTAGAGCTAATAAAGTTTTACCTGTTCCAGCTTTACCTATTAACGTAACCACTTTTATATCCATATCCATTAATAATTCTATTGCATATTTTTGTTCTTTATTTCTTCCATCCACTCCCCAAATAGAAGCTTTTCCAAAAGTCATCTTTTTTAATCTATCTTTATTTTTTTTATATACAGTTAATCCTTGTTTTTTATGACTTTTTTTCGAAATCACTGTAACTGTTTGATTTGGATAAAGATTAATCTCTCCTATCTCTTTCCTTTTCAAATATCCATTATTATAAAATTCATTCACTTTTTCATCTTCAACTTCTATATCTAAATTACCTGTATAAAATTCTTCTATTCTAATTTTATTCGTTTCATAATCTTGAACTTCTAATCCTAAAGAATCAGCCTTAATTCTCATATTTATATCTTTCGTTACAAAAATAATCTCTTTTTCGCTATTCTCATTACTTATCTCATAGGCTACAGATAAAATTCTATTATCCATAACTTCATTTTGCAAAGCATCAGGTAAATTTTTAAAATTCCCTTTTGTTTCTACTTTAAAATATCCACCGTTATCTAATTTTATCCAATTTGATAATGTTCCTTTTTCCCTTAATTTATCTATATTTCTAGCAGTTCTCCTAGCCGCACTTCCTACTTCTGTTTGTTCTTTCTTTAGTTTATCAATTTCCTCAATTACATAAATTGGCAATATCACTTCATTGTCCTCAAAACTAAAAATTGCTTCTGGATCATGAATTAATACATTGGTATCAAGAATATATACTTTTATCATCGTTGCCACCCCTTTCTTAATCTATAATCTGAACTTATAATAAAATTCAGTTATAAAATATTATACGAGATTTTTTTATTTTTCCTTTTAATAAAATTAATATTATATAAAAAAGGGTCGATATGGAATCGACCCCTACAGTTAATATAAATTTATATTAATATAATTAATTTTTTTTACTTCTTTTTCTTAATGATGCATTTAATATTTTTTTTCTCATTCTGATACTTTTAGGTGTTACTTCTAAAAGTTCATCATCAGCTATATATTCTAATCCTTGTTCTAAAGTAAATTGTCTTGGTGGTACTAATTTTACAGCTTCATCAGTTCCAGAAGACCTTGTATTAGTTAATTTTTTACCTTTACACGCATTTACCACTAAATCATTTTCTCTACTATGTTCTCCTATGATCATTCCTTCATAAACTTCAGTTACAGCAGGTATAAATATAGTACCTCTATCTTGAAGGTTAAATAGTGAATATGCTACTGAAACACCATTATCTATAGATATTAATACACCTCTTGTTCTTGATGGAATTTCACCTTTATAAAATTCATATTCATAAAAACTATGATTTATTATTCCAGTTCCCTTTGTTTCTGTCATAAATTCATTTCTAAATCCAATTAGTCCTCTTGCTGGAACTTTAAATTCCAATCTTGTATATCCGTCATTACCTTGAATCATATTAATCATTTCACCTTTTCTGATTCCAAGTTTTTCTATTACAACTCCTACAAATTCATCTGGAACATCTATTAAAGCAAGTTCTAATGGTTCTGTTTTTTTACCATCTAATTCTCTAAAAATTACTTGTGGTTTAGAAACTTGTAGTTCATAACCTTCTCTACGCATATTTTCTATAAGAATAGACAATTGTAATTCTCCTCTACCTTTTACTATAAAAGCATCAGCAGATTCTGTCTTTTCTACTACTAAACTAACATTAGTTTGTAATTCTTTTTGTAATCTATCCCATATATTTCTTGATGTAATCCATTTTCCTTCTTTTCCTGCAAATGGAGAATCATTTACCATAAATGTCATTGCAAGTGTTGGTTCATCAATATCTATAATTGGTAATGGTATTGGATTTTCTCTATCTGCAATAGTCTCTCCTACATCTACCATTTCAAGTCCTGCTACAGTTACAATATCTCCAGCAGAAGCTTCTTTTATTTCTACTTTTTTCAAACCATTATATGTATATATTTTTGATATTCTATATAGTAATCTCTCTCCATCTCTTTTTAATAAAACTACTTCTTCCCCTAATTTTATTTTTCCGTTATGGATTTTTCCAGTTCCCATTTTTCCTATATAGTTATCATATTCAATTGTTGTTACTAACATTTGTAATGGAGCATTTTCATCTCCTTCAGGTTCATCAACATGTTTTACAATTGTTTCTAGTAATGGAATTAAATTATCATTATCATCTTCTAAATTATATTTTGATACCCCATTTTTTGCTGAAGCATAAATTATTGGAAAATCTAATTGAGCTTCATTTGCATTAAGCTCTACAAAAAGATCAAAAACCATATCAACCACATCTTCTGGTCTACTATTTGGTCTATCAATTTTATTTATAACAACAATAGGTCTAAGTCCTAATTCCAATGATTTTTTCAATACATATTTAGTTTGAGGCATAGGTCCTTCAAACGCATCTACTAGTAGTAATACTGAATCAGCCATTTTTAAAATTCTTTGTACTTCTCCACCAAAATCAGCATGTCCTGGAGTATCCACAATATTTATTTTATATCCATCATAATTTAATGATGCATTTTTAGAAAATATTGTTATTCCTCTTTCTTTTTCCAAGTCATTAGAATCCATAACTCTATCAGTAACGGTTTCATGACTATTAAATACTCCTGATTGTCTCAGCATAGCATCTACAAGTGTTGTCTTTCCATGATCAACATGGGCAATGATTGCAATGTTTCTTATTTTTTTCATTAAATATATCTCCTCCATAAAATTAAAATACTACCTATTTTATACCTTTATTTTAATTTTGTCAATGTAATTATAATTTTCGTAATATTTTTTATAAATAAACTATATTTAGTACCATAAAATTTAACTTATTTTATAATTTTTTATTCTTATCATAATCAGGTAGTAAAGATGCACATATCTTTGGAAAGAATGTCCATCCAACTATTAATTATTTAGATACAAAATTATTACTCGTGTTTCAACATCTCCCATTCTTCTTTCAATATTCCATAGCTGACTGAATCATAATACACACCGTTTACTATTCTAGCATTTCTATATTCAGCTTCTTTTTTCAACCCTAGTTTTTCTGCTAATCCCATCATTCGCACATTTCCAGACCATGTAGTTAGACCTATCCTTACCAATTCATCTTTAGTCTCAAACACTTTATCTATCCATAATGCTAAAGCTTTATATCCAATTCCACAGCCCCAATAGTTTTCGTTGAAAATTACTATTCCTACTTCTAGCCAATTAGTTTCTTTTGACTTCCAATACCAATTTACAAGGCCTATTATTTCATTAGTTTCCATATCAGCTATTATTTCTCTGTTTCCCAATACGTTCTGTTCTCCTGATTCAAGTCTACTACGAAGAGTTTTGATGTTTTCCTCATGTTCTTTTTCATTCGCATGTTTGTAATATGGCCCATTGTATTTGTGATAAATTCTTGATGGATGTGTCCATACTTGGTAGTCTTCAATATCTCCCAACTGTAATTCTCTCAATTTTAGTTTAAATAGCCTCTTCATTTCACCCCTCCAATATCATTTTTGACTATTTCCATTCATATTCAAATCCATCATATACTAATTTTCTTCATCGATGCTGCCCACAGGAATGGGTAAGTTTTTTCTAATTTAAAATCTTTATTAGTTTTCGTACTTCATTAATATTGTTACAAATTTCTACATTAAAATTTTTTGACAATGCTCGCTTTTGATTAATAACTTCTTCTATTAGTTTATTATTTGGTTCAACAATAAAAAAAATATTTTTGCAAGTACTATCCTTTATCTTGGGAGAAAATTCATTTAATAACCATTCTGTATCATCAGGATTATTTTCAAATCCATCATTTGCATATGTTATCCAATTTTTTAAATTATTATTCTGAATTAGTTTTAATCCATATATTAACGGTTTCCTATAATTATCATATTCACAGAATTTTTTCCATTTACAATAAACCGCCTTTTCTTTTTCCAATAAATCAACTTCACAATATTTAGAATTAAACATCTTCTTATCTCCTCCAATTATCTTTTAACTTTTAATAGCACTATAACTATAATTTATTCATAACTTTTTCCACTTTAAATCTTAGTTTCTATAAAATTCTTTACTTCGTTTAAATCTATACAAATATTTTCTATGGATTCATTCGTTCTATTAATTTTATTTCTTTTTAACCAAATTGATTTTATACCACAATTTTTTGCTCCTAAAATATCACTTCCAATAGAATCCCCTATATGTATCACTTCATTTTTATATATATTAATCTTTATAATTTGATATATTTTTTTATTTTACACTTATTTTAATTTCAACTTTATCAACTAAATTTATTTCTGAAAAACCTCCAATCGGAAAAGTAATTTGTGGTGTTGTATGTCCAAAATCTACATTTGATACTATTGGAATATTTCTTAATTCTTTTTTTGATTGAATTATCTTCAAAAATATTTCTTCTTTCATCTTTGATGTTATTTGAAATCTTCCAAATATTATACCTCTTACTTTTTCAAAATTTGGTTGTTGTATTAACGATTGTAAATCTCTATCAAAATTTTCTGGAAAAGTTAATTTATCATCTTCAATTAATAATATTGTATTTTCCAAATTCGGCATATATTCAGTTCCTTGCAGTAAATTTAATGTAGATAAATTTCCTCCAATTATTTTTCCTTTTCCTATACCTTTATTTATAATTCTATATCCTTCATTCTTATAAAAAATTCGATTTTCTTGATCTAAAAACCATAAATCATCACTCCATTCTAATGATTTTTCAACTATAAAATCTTCATTATTAAAAAAAATCTTTTTAAAATAATTTTTTGTATAATCTATACCTTTTTTCATCCCAAATGTTGAATAATATGGTCCTAAATAAGTTATCATACCCGTTTTTTTATATATCGCATTTAATAATACTGTTATATCCGAATAACCACAAATTATTTTAGGATTATTTTTTATCAGTTCATAATCTATGAATTTTAACATTTGATTTGCATTGTATCCTCCAAGTGCTGTAAAAATACCTTTAATTTTTTTATTTAAAAATGCTTCATGTAAATCTTCTATTCTTTCTTCAATTGAGGATGAATCGAATTCATCTGATTTTTCGCAATTTTTTGAAAAGCTAACCTTTAATCCCATTTCTTCAAAACATTTATTTGCAATATCTCTAGTTTCTTCACTTATTAAACTCAAACTTTTTGAAGGAGCTATTATTCTTATTTCATCTCCTCTTTTTAATTTCTCTGGAAATATCATCATCTTTTTCCTTTCTCAATTAATTCTTTAGTGATTTTTCTACTTTTGCTATTAATAAGTATCCTCCCTATTGTAATTAAAATTATTTCGTTATTTCTTATTTTTTGCAGTTTTTCATTATAAACCAATTTATAAAATATGAGTTCTTATTTATGTTCTGATTCTACCGAAAAAGTTCAGTTTTGCATTTATTATACATCTTAAATCCTTGATTCCATAGACTTTTCTATATTCTAAAGAAAAGTTTTTTAGTGCTATCTTTTTTTACTTTGTTTTAATACTTCTTATAATACCATATACAATCAACAGTAGTCCTACCAGTATATTCAATATTTGAATCACCTTTTCTGGAATCATTGTTTTCATAAATGATAATATTATTACACATAAACCAAGAAACAAAAAAGTGGCTAATCCTGAAGCAATTCCAAACACTATCAATTCCTTTTTACCCATAGAATATTCTATCATTTTTGCAGTAAATATACTCGTCCAAAAAACAATAGTTAATGGATTTGAAATTGTTAATATAAAAGCTAAAATGAAACTTTGTTTTAATCCACTATTTATTATTTCAACTTGAATATTTTTTGGCATAAAACTAATCCCTTTCACAATCATTAGTAATCCAAATATAATTAAAATAACCGAACTAATAAACCCAACTATTCTTTTGGTTTTTTCTTCCTCTAGAATTTTCCCCACTCCCATTATAGCTAAAATTATATAAATATAATCTACAATTGTTACAGCAATCACCGCAGATAAAGCAGTTGTTGCTCCATTTTGCAAAGATATCTTCGCAATAAAAACAAAAACAGGTCCGATTGCCATTTGTAGTAATAATCCTGTTGTTAATCCTTTAAAAAATATTTTCTGCATATTTTCTCCTTTCTTCTTCGATACTCCTTATAAAATAACTTTAGATACGAATATTTTTCTTATTTGTATTTATAGATAAGTTTATATTTTGATAAATCAATTTATATCATTGTTCTGCATAAGCATATGTAATCTTGATTTTGTTAAATTTCTATATTTTTTGAAGGAGCATATACTAAAAATAAATCAAAAATACTGTCCTTATATTTTTAATCACACGTGCAAGATAGTACATAACATCCCGACGATATATGAAGTCTAACACGCAGTGTTAGATTTGTCGAAGATCGCAGCGAAGCGGAGCATATATTGTCTGTTATATAAAGTTGTTAAATAATTTTACAATTGAAATGTTTTGTAGTTTATCCATTTCCCATCGTATTTTATATTTAAATTAATCTTATTAAGTTTAATATTTGGGGGTATTTTTTCTTTTAGTAAAGCTAACTCTTTTTCTATCTGGACATTATGATTCTTACTTGAACTAATAGTTATATGTGCAGATAAGTTATCTATTGAAATTTTACCATTATAAGGAGGTGTTTCGATAAATTCAGTTGCAAACTTCTTTATGACATCTAATATAGGTTCTTGTAGAGTAGGTTTGAAATACATTATTTCGTTAGACATAAAATATCCTATATCAGTAATTGAAATGTCTATTTTTGAAATTGTATTACATAATTTTTCAAGACGACTTAAATTATTGTTAATATCACTTAAGTTACGAAAAAAAGGATATATGATTGAAATATGAGGAAGCATCCCAATAGCTCCATCTTTGGTATATTTTTCTCTATATGGCTGAATATATGGTATTAACTCTTCTATAGTAAAATCAATAGCTGATGCTTCAACTTTACTAGGATCTAATTGTTGCATATTCCCTCCCTATTATAATTAAAATTATTTCGTTATTTCTTATTTTTCGCAGTTTTTCATTATAAACCAATTTATAAAATATGAGTTCTTATAGACTATAAACAATATTTATATGCTTTTAAGAAAATTAGACGCACTTTAATAAAACGTTTGTCATTTTATTTTTTTTGGCGTGGTAATCCCTAATATTCTTATAGCAACAAACATCCCATGTCTAACAGGATCTATGTCCTAAATTCCTTCGTTCTGTATGTCTATAAGTTAGGTGTTGATTAAAGCTCTTATTTAATTATTTTATATAACGGTTCAGTGCAAGACGCCGTCAGTGAGAGCCAGCGTAGCGTTTCTCGAAATGATGGCGTCTGCACGTTGTTATCAGATGATAGCAGTCTGATTAGTTTTATCCCCCCAGAAAGGATTTTACTCTTTTAATCTAACTCTATCTCCATCAATCTTTCATCCTCGGATACTTCAAAGCCTAAAATACCTTCTTTTTCCAATTCTACCTTTTCTACTTCTGCTTTTGGGATTTTTAATGTTAAGTCATTTGGTCCATCTACACTTATTATTTCTAAGTTATGTTTTTTTTGAAATTCCCAACTACCAAATACTCTAAAATATCCATTTTCTGCTTCATTATGTATATAAAAATCTCTCCCCTTATACCATATAATTGTTCTTAAACTATATGCATTCTCTATTTCTTCCAATGGAACTATTTTGCTATATATTCCTATTTCTGGTAGTTTAGTTCTCTCATTATAAACTAATTCAAATCCATTTTCTACTAAGTCTTCCTCATCATGTGATATTAATTCTACTTTGGTTTTATCTCCTTTTATTCTTAAAACTCTATATTCTTTCCCTTTGTATATTGCTTTTCTTCCATTCTTTATTTCCATTAACTATACACCTCTTTTTATTTTAATTTTTTCCATATTTCTTTTTTAGAATTAAATTCTCCTATCAATTCTTCACTGCCATCTTTTGATACTATATATACTTCTCCTTCTGTTGGCATTAACCCTTCAGGTTTTCCTTTTATCCAACTTTCATATTCTGGTATACATCTGTCATTCTTTATAAATCCATGCCCTGTTTGCGGACTATCTATGTTATCCATTTTCTTTGTATTTATATCTATTTTCTTTGAATATGGTACTGTTAAATATTCTGGTTCTTCTACCTTATATCTTATTGCTACACATTTATCTGCTTCTGTAAATAATGAACCTTCATAATCTAATCTTAACCCATCATATATCTCTTCTATAGTTTTTAAATCTTGTACATCTCCTGCTTTTGCTGTACAGCCTCTTATTGTTGTATAATTAAATATATCATCTAATTTCTCTATTGGCATAACTTTTTGCAACAACGTATCTTCTGTTGGCGATGAGATACTATCTCTTACTTCTTTTATAAATTTTGCTTCACTTTCGCTTAACTCATCCCCTTGTTTTAATAATAATTTCTTAAAATATTTCATATCTTTTCCTAATTTCAATACCCTTTTCTTTATTATTTCCTCTGAACTTTTCAACCCTTTTACATACTTCCTTGTAAATCTTCCCTCTATCTTCAATACTTCATCTGCATTTTTTACTGCTCTTTCTTCTAAGCTTTTTCTCTCTAATTCACTTTCCTCTGTCTTGGCTATTACATTCCCTTCTCTTACTTCTGTTTTCTTTATTTCCCTTATGTCTTCTATCTCTTTATAGCTTGATTTTGGTACTGCCTTCACTTTTACTCTTATTCCTGTATTTGCTTCCACCAATTCTTTATTACTTAATATCTCGCTTAATTTATCTTGCATCTCTTCAAAAAACTCTTTTACTCTTCTATTTATCTGTACTTTTAATTTTTCTAATCTATTTATTATATCTTCTAATGTTTCTATTAACTCTTTAAATTTCCCTATTCCTGGTATCTTTTCTTTTATTTTCTTAAATCCATCTATACTACTATCAAATACCTTTTGTAAATTCTTTGTACTACTTTTTCTTAATTTCTCCCAATCTAATTTCTCTAAAAATTTTATTGGGTCTCCCTTTCCCATTTTCCTTAGTAATTTTAACATTCCTTTTAGAGCTGCTTCTCCTGTTTCTTTTAATATTATTTTAAATATACCTTTTAATGCACTTCCTGCTACTGGAATCATTCCTACTGTGGTTAATATTAAACCTAGCCATGCTTGTTGATCATTTTCCTCACTCTCATCACATAAATGTAATATATTCGCTACTATATCCTCTATATCTCCTATTTGATCTATTACTGGTATCATTGTTAATAGCATTCTTGCTATTATTTGTCCTGTTGTTGGATTTTCTTCAAAATCTCCTAATAATACCCCTTTACTCCAATTTCCTGCTTCCTTTAATCCTTTTAAGGTTTTATTATATATTTCTTCATACCAACTATCCTCTTTTATAGACTCTTCTTTTGTTAATATCTCTTCTATACTCGCTCTTGGATTATAGTTTGGATTTACTTCTGGTTTTATTTCTGGTTTATACTTTCTTTCATCTTCTCCTAAATGTGCTTCTAATTCTCCCTCTGGAATCTTGCCTTCTATTAATATTTTTCCATTTTTATCTAATTTTCCTTCTTGGAATAGTTCTCCATTTTTATCTAATATTTTATAATAAGCTGATTCTACTGCACTTCCGTCTTGATAAAGATAATTTATTCCTATTATTTTTTCTTCTTCTTTTTTTAATTCTTCTTCCTTAAATTCTTCCCTTATTGGACCATAATTTTCTTCTTCATTCACTATTCTTCTATCATCTTCTTTTGCCTTCATACTTACAACTAAACTTCCTGAACTTCCTGATTTTTTTACTTTCTCTTCTCCTAAAATTCTACTTATTTTGAATTTTATATTTTCTTGCTCTACTACTTCTCTTAAATCTTTACTATATAAATACATTATAGATGATAATTCACTTTTTTTCAATTCTACTCGCTCTTTTGATAATATCTTTTCTGCTATATAACTACCTACTGCTCCTATTAATCTTTTTAATTCCATTAATGGTTTTTTATAATTTAATAATATTTCATACCCTTCTTTTGATAAATATACATTTAATCTAAAACTTACTTTTTCTAAATTTTTACTTAACGCAGATATCCATAATTCCATTACCCAATAATTTATATGTAAATCTTTTTGTCTTCTCATTGCTTTTTTCTTTATATTATTATTTAATAATATATGGCTACTTTCTTTATATTCTGATAAATTATAGCTTTCTCCCAATTTTTTAAATACAAAATCTAACCCTTTATTTTCTTTATATGCTTTAAAAGTTATTTGTAATATCTTTTCACTTTTGGGAAATATCAGATTATTATAATATGGCATTTCCTCTACTTCTCTTAATGTTAAATAAAAATAGTGTTCTACTCCTATATATTCTTCCTTATAGCTTAATGCACATCCTTCAAATTTTATTTCTCGCTCTACTTGACCTGCTTTTACTATTCTTATCTCTATTTTCCTTATAGAAGATGTTGAGTTATTAAAATCATTTCTATTTACTAACCCTGCCCATTTGGCTAATTTTATCCCTTCTTTTGTTTCTTCATAATCATTATTTGGATAATACCCTTTTATTTGGTATACTTTTGAACTATAATCTAAGTTCATACCTTTTATAAAGTTTGATGTTAAATGGATTTTTTCTCCACTTCCATCTGTTGTTAATGGTTTTAATATTATTTCCGTTCTTACACTTTCTCCTAAACTATCGTAACTATATATTTCTAGCATAACTCTTTCCTTTCTACTTTCTACTTTATTTTTTTCAAAAATAGGGACTAAGACTGATATTGTCTGATAACTCGTTTATACACGCATAACACACCTTCGCATATCCCTCCATATAGTTCGTATATACGCAAATTACTTCATATTATACAATTCAATGTCATCAAATAGCTATACCGCCTTTGCCAGCAATTTATTACTTACATGAGTATAAAATTCTTATATCATAAACTATATACATTATAATTTCTTTTTAAATTTTAATCTTTTAATACTTTTTGAATACTACTCAAATATTCCTTGCACCATATTTCCCAACCCCATTTCATCCGTCAAATAAATGTTTTTTATTTATCTTTTTATACTCTTCTAATTTGAATAAAGTTACCACGCCATCTTTATTCAAATTAAATTTTACTATATCCATTATCTTTATGTTTACTGCTCCACTTAACCAATCTATCTATCCCCCTCCAAAAAAATCAAAAACAGGTGGTGGGGCCACCTGTTTCGTGTGGGGAATGAAAAATTCGGAGGAATTTTTCTTTATCAAAAATGTGCTTAATCTCTATTGTTGACTTATTATACTCCTCCATTTATATTCTGTCAAACCCCACTTTTGTCCTGAATAGATACTTTTCCGACCTGAACAGGCACTTTTATGACTCAAATAGATACTTTTATGTCCTAAACTAAAAAATTTAACTTTTTTTAATTTTTTTTAAATATCCATCTTTAACTACTTGTCTAGCTCTAGCTATTGCCAATGAATCCTTTGACACATCTTCTGTAATCGTTGATCCTGCTGCTATCAAAACATTATCTCCAATTACTACTGGAGCTACAAACTTAGTATTACTTCCTACAAAAACATCTTTTCCTATTATAGTTTTAAATTTATTTTTTCCATCATAATTACAAGTTATTGTACCTGCTCCAATATTTGTATCTTCTCCTATTTCCGAATCTCCTATGTATGTTAAATGTCCTGCTTTTACCCCTTTTTCTAATGTTGATTTTTTTATCTCTACAAAATTACCTATATGTACATTTTTTTTCAAATAAGCTTTTGGTCTTAAATGCGCAAAAGGTCCAATTGTAACGCCCTCTTCAACTACAGACTCTTCTATTACAGATGATTCTATAACTACATTAGCTGATATTTCACTATTTACTATTCTACTATTCCCAATTATAGTTACATTTTCTCCAATTACTGTATTGCCTTGAATTATTGCTCCAGGATATATAATTGAATCTTTACCTATTTTCACATCCATCTCTATATAAGTTGTACTTGGATCTATTAATGTAACTCCCGATTCCATTAACTCCATATTTTTTCTGTCTTTCAATATGCTTTCTGCGGTTGAAAGATGTACTTTTGAATTAACTCCATAAACCTCTTTATTATCTGAAATTTTATGAGTTTTTACATTCTCTCCATTTTCTTTTAAGATTTTAACTACATCTGTTAAATAATATTCACCTTTTTCATTGTTTTTTCCAACTTTATGAAGAGCTTTAAATAATTTTTTGGAATCAAAACAATAAACACCAGTATTAACCTCTTTTATTGCTTTTATCTCTTCTGTAGCTTCTTTTTCTTCTACAATCGCTTCTATATTTCCACTTGTATTTTTTACAATTCTTCCATAACCAAATGGATTTTCAAAATCTGTTGTTAAAACTGTTGCTGCCTCTTTATTATTTATATGCTCATTTATAAGCATATCTATAGTTTTTGCAGTTATAAGTGGTGTATCTCCACATAAAACTACTACAATTCCATCATAATCTTTCAATTTTTCTTCTGCCTGCATTACAGCATGTCCTGTTCCTAATCTCTCATTTTGCACTACATATTCAACTTCGCCTAATTCTTCCAAAACTTCATCTATCTTATGCCCTAATACTAAAATATTTTTTTCAACTTTTGCTTTATCTAATTCTTTTATAACTTGTTTTACCATTGGAATCCCATTAACTTTGTGTAAAATTTTTGGTAAATTTGATTTCATTCTTGTTCCTTGCCCTGCTGCTAAAATAATTGCTATTGCTTTCACTTTATCTTCCTCCCTATAGTTCTATTATATTTTGTGCCATTTCTCTAAATGTATCATCATGCGTCACAATTATAGCTTGTTCTAAATTTCCAACTATTTCTTTAAATGAATCTGCTAAAGCCAATCTTCTTTCTTCATCTAAATTAATAGTCGGCTCATCAAATATTGCAAAATTTGTATTTGATAAAAACTTGGCCATTGCACTTCTAACTGATATTGCCACTGCTATCTGTTCGCCACCAGATAACATATTAAAACTTTTTTCTATATTTGCACCTTTTAATACTAAACTATAATTATCATAAAATTTCACCTCTTCAGATCTTCCAGTTATTTTTCTGTAATTATCTGTTGATAAAATTTCTATTTTTTCCATAAACTTTTTAGCTATTTTAGGCCCTAACTCATTTAATCCATCTCTAAATTCTTTTAATAAACTGTTTTTTAAATTTATTCTCTTTTCCTCTTTTTCTTTTTCTTTTATTTGCTTACTCTTTTCCTTTTCTATTATTATATTTTTTTCTATATGCTCTATCTCTTGTTTTACCTCAATTTTCTCTTCTACAATATTTTCTTTTTTTAATTTTAAGTTTTTTATTTCTAACAAAATATTTTCATATTCTTCTTTTATAAATTTCCCTTCTAACTCTGTTATCGCTTCAACCGTTTTAGATTGTTTCTTTAATAAATCTTTTTTCTTTTGTTCCTCTTTTTTTATACTCTCTTCTATTCTATCTAATTCTTTTGATTTATTTATATTTTCTTGATATATTCCATAATTCTTTTTTAATATCAACTTTTTTCCTTTCAACTCATCTATCTCTATAGTTAATTTTTCTAATTCATTAGGAATATTTTTTAATTCTTCTATCTCTTTATCTAATTTTTCTATTTTAGTTTCAATAATTTCATTTTTTCCTTCTATGCTTTTTATTAAATTCTCACTTTCTTCTATATTTTTTTCATATTTTCTTTGTTCTTCTAATTTATTTTTTTTACTCTTTTCTATTTTATTATATTCATCTATTAAATTTTCTAATTTACTTTTTATTTTAGATAAACTCAAATCCAGTTTTTCTTTTTCTTCATTTGTAAATTCATATTCTCTGTTTTTTAATTTTTTTATTTCAATATTTTTATCTATATTTTCAATTTCTAATTTTAACTTATCTAATTTTAATTTATCACTTTTTATATTAGACAATTGTCCTTCTAGTCTATTTTTTTCTGTTTGTATTTTCTTTAATTCCTTTTCTACTTCTTTATAATTTTCCAATTTTTCATTAATATTATCTATTTTTTCTACATATTTTTCTTTTGTATCTTCAAAATATCTATTTGTATTTATAGAATTTAAATTTTTACATTTTTCCTCAAAATATGGACATTCTCCTTTTATTAAACTTTTCTCTGCATTTTTAAGTTCTTTAACTCTATAATTTAAAATTTCAATTTCTCTATTCAAACTATTTTTTTCTTCTATTTTTTTATTATAATCATCTATCTCTTTTTCTAAAATATCTTTTTTTTGTAAAAATTCTTCTTCTAATTTTATATTTTTTTCCGTATTACTCTTGTCTTTTATTTTTATTTTTTTTTCATTATTAAGATCATTTATAGAATTAAATATTTTTTTATAATTATTAATTTCTTCTTCTAATTTTTCTTCTGATTTTCTATACTCTTTTCCATTCTTTTTAATCTCATTTAATTCCTCTTCTAACTTTTCAACCTCTTCTTTGCTTTTTAAAATTTGATTTTTATCTTTTTTAGCTAATTCTATATATTTGTTAATTTCACTTTTATTAATAGATATTTGATTTTCTGATTTTAATTTTCCCTCTTTAATTTTTTTCAATTTTAAATCAAATTCTAATTTATCTTTATGTAGCTTTTCTAATTCAGATATTTTTTTCTCTACTTCTACATATTTCAAATAATCTTTTTCAGTTTCAACAACTTTTTTTAAAGCATCTTTTGAATTTAAAAGTTCATCTTCTCTTTCTAAAATATAATTTTTAGTTGTTTCTAAATTTATTAATATGCCATTTTCTAATTCTCTCTCTTTTTCTAATTTTCTTTTTATTTTCTCAAAATTTTCTTTTTTAATTTCAAAATCATTTAATTCTAAAATTAGTTTATCTAATTCTTTCTCAATATCTACTTTTTTAATCTTTCTTTCTTCCAAACTCTCTTTTAATAAATTTAAATCCTGCAAATTAGATTTTAATCCATTTATTTCTCCTATTAATAAATTCAAACTATCATTATATTTATTAGCTAATGATTTTGAATATCTATCATATATTTCTCTATAAATTTGAGTATTAAATATTTTATTAAATAATTTTTTTCTATTTTCTCCTTTTTCAGTAAAAATATTCACCATTTTATTTTGATAAGCCATAATTACATTCTCAAAAATAGCACTTACATTATTTTCTATTCCAATAATTTTTTTCAATTCAATATTTATATCATTTGTTCCTTTTGCTAATATTACATTTTTATTAAGTGCCCTTAATTCATTTACAGGAGATGTCCCAATTTTTTTCTTTACTCCATATTCATTCCCATCTACTCCTACAAATTCCACATATATTTCAGCTGATTTCTCTCCATACAATATAGAATCTTTATTAGGTCTTTCTTTTTGAGATACATTAAATAAAACCATCCCTATTGCTTCCAAAATTGATGATTTTCCTTTCCCATTTTTTCCTAATAATAGATTTATTCCATTAGTAAACTCTATCTCAACATCTTTATGTACTCTATAATTTTTTAATTTAACTTTTTTTATTCTCAATTTAAAGACCCCTAATATAATTTATTTTAGGAATGGTTTAAAAATAACATTCCTATTTTATTGTAAAATACTCGATAATTTTAGAAAACTACTTTTTTGTGGTCTAATCATAAAATATTAAAAACTTATTTTTTAAATGTTCTTTAATATCTATTTTTAACTTTGCACTATTTTTTCTAAAAACTGATCAAAAGTATCTATAAAGATATCCTCTTGTTTTTCCTCTTGTAAATTTTTTAATTTTTCCAAAACTTTTACCGTTTCTTCTGAATTTGCAGAAAAATCATTTTCCCATTCTATAATAATATCCTTCTCTATCTCCTCTATGTTTTTACTTATATCTCCAATGCTTCCCTGTTTTTCAATTTTAGGGTATTTAGATTTCACAATAGCTTTTAATGCTCCTTTTTCTTCCAATGCTTTTTCACACCAGTTAATATCTATAAAAAAATATTTTTTAAAAGTCATCTCTACAATTACTATATCTTCCTCTTTTTCAATTTTTATATCTTCAATTTTTTTTATAAATTCCTCTTGAAATTGATTAATATTGTTACTTTCAACTTCAAATTTTATATCTATTTTTTTTCTAATAAAATCTTTAAATGTTATAAATTCTCTTTCCATAGTTTCAGTGTCAAAAATTATAGCTCCTTTTTTTTCTCCATTTTCTGCCAAATCCCAATATTCTAATGAACCAGGTAGAAAAAAATATGGATTTTCTTTTGGATATTCTGCATATGAATGAAGATGCCCACCAGCAATATATTTTACTTTTCCTTTAAAATTATTTAAAATATCCCCATTAATTGTTCCCGCTAAAAAGTCATTTTTTGCAATTCCAGTATGTACTAATATTATATTTTCTTCTTTTTCATCTATAAAATCAGATAATTCTAATAAAACTTCATCTACAAATGCTCCTGGATATCCTACTCCCCAAAAATAAATATTATTTATAATTACTGGCTCAAAAATATATTTTTCATTTTCAAAATAATAGGTTGGTCTTTTAAAATATCCCTTTTTTTCAAGATATATTATCCAAGATTCAACCTCCTTATTAAAATAAATATTATCATGATTTCCTTCAATAACAACACAATTAATATTATTTTCTTTTAAGTTTTTTAATATATTTTCAGTTTTTTCCAATACTTCTGGATATAATTCTTTTTTATCAAATATATCTCCAGCAATTAAAACAGTGTCGACTTTTTTTTCAATAGCAATTTCAATAGCTTTTCGAAATGCTTTAAAATAATCTTCATATCTTTTTTTAGCAAATAACCCTTGTCCACCAACAGGTTTTCGCCCTAAATGTATATCGGAAATATGCATTATTTTCATAATTTTTCTCCTTTTTATGGGCCAATCATTCTATAAAATCTATATTTACAGAGCAATTATACCATATTTAATTTCTCTTCTCAATATTTTTTAAATAACACAGCTTATTTTCTGAATAAATTTATACTTTTCTAACAAATTAAAAAATAGGATAAGCAAGATTTTAAAAATATCTCATCTATCCTATTATCATTTATTTTTTTAATATCTTTTTTTTATATTTTTGTTCTTTCCAATTAGTTTTTGGATTAATAATTGCAGCTGTCCCTAATGCTGTTATATAAAATGGAACAAAAAACACTATTGCTATTTTATCAACTATTCTTAATATTCTCCCATTTTCTATATCCAATTTTGAATATAATAAATAATCTCCTATTAATTTAAAAATAACACTCTTATCTCCAGTAAACAAAGAGTAAATTGTATATATATTAAAAAAATATTGTACAAAAACTAAAAGTCCTGATGGAGTGAATATATTTAAACTTCCAACTATCCATCTTTTATGTTGGTTAAATAGTTCTTTATAAGATTTCATTGGATTAGTTTCTACAATAGAATTTTTTGTAAACCCTGCCGCTAATTTATATCCTTTTCTTGCAAAACCTCTTATTAAAATTTCATCATCCAATATAGATTCCCCTAAATTTTCATATCCGCCTATTTTTATATACGCATTTTTTCTAAATGCTAAATTATTCCCTATTCCACTAGTATAATACCCAAACATTATTGGCACTTGGGCTATTTCCATTAAAAATCTATGTGCCACAGTTTGTAATCTATATAAAAAATTAGGATTTTGCATATGAGTTATTTCTGTCTTTCCTATCACCATTCCTAAATCTTTCCCAGCAAAATACTTTGACATTCTTCTTACCCAATTTTTATTAATTTTACAATCTGCATCTGTTATTAATATTAAATCTCCAGTAGCGTTTTTTATCCCTACATCCAATGCATTTTGTTTCCCATATAAATTTGATTCTTTTTTCTTTATAGTTATTATTTTCAAATTCTTAAATTCTTTTTCAAACTTTTTTGCTAATTCTAATGTCTTATCTTTAGAACGATCATTTATTAAAACCACTTCATATAATTCTTTTGAATAATTTTGATTCAAACAACTTGTTAATATTGTTTCAATGTTATTTTCTTCATCTTTAGCTGGTATTATTATTGATATTTTTTCACTATATACATTTTTAGATGCCATATTCCTAATATATCTTTTTTTATACACTCCTGATGAAATAAAAAAAACAACTATTAAAAAATATAAAAACATTATCACTGTTAATTCCTCCCCCATTTTTGTGAATTAAAAAAAACAAATTTATCTATTTTTTTTAATAATATGATTATAAATTAGTTTCATCTGCTATTCTACCAAAAATAATAAAAAATTTCTACAAAAAAAAAGGAAATATTATTTTTTGTAGTATATATTAATTGTGAGCGTAAAAAAATCAAATTTGGAGGGATATTATGAACATTACAGAATATCTAAAAGATATTAGTTACAATGAGCTGCTTTCTAAAAGCGAAGAAAAAGAACTAGCTATTTTAATTGCTGAAGGAAATATAGAAGCCAGGGAAAAGCTTATTGTATCTAACTTAAGATTAGTAGTTAGTATTGCTAAAAAATACATTGGTACTGGAATGTCTATTCAAGATCTTATCCAAGAAGGAAATATTGGATTAATAAAAGCTGTTTCTAAATTTGATCCTTATATGGGCAAAAGATTTAGCACTTATGCTACTTGGTGGATCAAACAATCTATTTTACGTGCTATTTCTACAAATAAAGGAGCTATGCGATATCCAGCTTATGTCCATGATTCTATTTCCAAAATAACTAAGTTTATTCGTTCTTATAAAGTTTCTTTCGAATCTTATCCATCAGTTATCGTTATCGCAAAAAATCTTGAAATGCGAAACGAAGAAGTAGAAAGAATTTTAAATCTTATTAATGTATCTTATGTTTCTTTTGATGAAACTTTTGCAGATAATATAGATTTCCATAATATCATTGCTGATGATGATTTATTAGAAGAACAAATTTTTGATGATTTTGAGAACCATCAATTAATGAATCTATTAAATTATCTTAATCCAAAAGAAAAAATCGTATTAATTTATCGTTATGGATTATTTAATACTAATCCTCTTACTCTAGAGGATATTGGAGAAAAATTAAATTTAACAAGAGAAAGAATTAGACAAATTCAAAATGCTGCTCTTTCTAAATTAAAGAAAAAAGCTACTTTATATTTCTCAAATTAATTATTAATTGTAATTAAATTTTATCTCCATAATTTATTCTACTTTATAAAAAGTCAAAAGTCAAATAAAAAAAATAAAAAGCAGATATAATTAAAAATTATATCTGCTTTTTATTTTTTTTATTTGAAACTCTCCATATCAATTTTATATTTACCATTTTCGTTTATTATTTTTAAATTGTAATCATTAGAAGTTTCATCTTTATCTTTTGTCCCATATTTCAAAGAAATCACTTCGATTTTAGTTATTTCTCCTGAAACGTTTAATATATCTTTTTTTTCTTTTCCATCTTTAAATATAGAAACTATTGTTTTTATACCTCTATTTCTCCCTATTCCTATTGAAAAAGTATTTATATCACTAAAACTATACTCAATATCTTTATTTATTGTTTTTTCATGTTTAATCCCTTGATTATCTGTCTCATTGTAAAAACATTCAATTCCTATATTTATTTCTCCCACATTTTCATTAAAAATTAAATTTTTATATTTTTCAGAATTTTCGTTAGGGTAAACTATTATTGGGTCATCTATTTTTTTTACAATCTTTTTTAGTTTTAATATTTTAATTTTAGCTATATCATTTTCTATCTCTACGCTTAATATATTATAAAAATATAAATCTTCTATTTTTATTTTATTATATAATTCATCGCTATAATTAACACTATTTTCTCTAATATAATTCTCATCTGAAATATTTGTTATAAAATCTTTTATTAATTTTTCTTGTTGAGATTTTTTTACCGTTTCTTCACTAATAATAATTGTTTTGCTTGCACACCCTAATATACTTAACGCGAGTATCATTGTTAATATTATTCTTTTCACTCTTTCCTCCCTTAAAAATTAAAAATTATGTTCATACTATAATCTCTATTTGGAACATATTCATTCTTATCATTATCATAAAAATATGTTTGTTTTATATCAATTGCTACATTTGTAGGTCCTGGCACACCAAACATATACCCTGGAGCTATTATATGTGCTTTAACATAAGTGTCTTCATTTAAAAAATTATCTTTATGATTTTCTGCTCCCATATTTTGTTGTTCATATATTATTGTTGATTTCAATTTTTTTGTTGGAGTTACATCTAATTTTGCAAACAGATGTGGTTTTATATTTTCATCTTTATAATCTTCATAACTAAGAGTAAATTTAGCAGTTCCCATAAAATCAAAATCTACATTTCCAAAATATCCCTTAACTTTCTCATTACTTTCTGTGCCTATTAGATAATTTAAATTATCAATAGCAGATATTTCATAAAACTTTCCAAAATATCCTGGAATTAAATTTCTATCAATATCTCTATATTCTAATCTATAATCTATTATTGCAACTTTTCCCATTACACCAATAAAATTCCCTGATCCATCATTTGATTTTTCTCCTAATTCTCCATTAACTTTTACTAAATCATAATAAGGAATAAAACTAGCATTTTGATCTTCTAATAAAGGTATTGCGAACTCATATGCAGTCCCGTCAACACTACCTTTTACACCACTAAACTCATCTCTATTATCTGTTACATATGTAACGCCTATTTCTGAATTGTTTATAACTGGTATTGCAGTTCCCATCACTTTTAAAGGTCTAACATATACTCTTCCTCCAACTGCGTGTGGCTGCTCTTCTGTTGGTATAGCCGAACCTAATATATCTTTTTTTAAAGGCATAAATCCCTCTATTCCTGCAGCTTTCTCAGGTAAATTAATACCTAAAACTAAACTTGTTTTTTCATTATTAGAATATCTATTTACTAAAGTCCCATGTCCTAAAATATAATTATTCAATACTCCATATCTAAATTTAAAAATTTCTCCATTCCAGTAAATATATTTAAATCCAAAATCTATATCATGCATATCTTTTTTACCATCATTATTATAATCAGCCAATCCTCCTGATGTTAAATAAATACCTAATTTAAGACCTAACCCTAATCTTCCAAATTGCAATTCTGGTGAAAAATTCATTTTTAATACTGGAGTAGATTCATCTCCCTGTTTTAAAACTCCCATCCCTACGCCAGCACTTCCATTTTCTTGAGAAAAAGAGACTGCTGTTAATACAAATAGCATAATTATTACTAGATTCTTTTTCATATAACCCTCCTTTTTTTATTTTTTCTGTTTTAATACAATAATATGATTTTTTTTACACAATCAACCATTTTTTATATTATACCCTATCTCCGATATTATGTCAATTTAAAAAAGGATAACTCCTGCACAACAGAGGAGTTATCCTTTTAATCATTTTATTATTTTTTTACTATCTAATATCTATTATCTATACAACGGAAATCTTTCAGCTAATTTACGAACTTCATTTTTAACTTCTTTTATTATATCTTCATTATCTATATTATCTATTACTTTAACTATTAATTCAGCTATTTTTACCATTTCTGTCTCTTTCATCCCTCTTGTAGTCACTGATGGAGTCCCTATTCTTATTCCACTTGTAACAAATGGTTTTTCTTTATCAAATGGTATTCCATTTTTATTTACTGTGATTTCTGCTTTAACTAATGCGTTTTCTACTGCTTTTCCAGTAAGTCCTTTTGGTGTCAAATCTACAAGCATCAAATGATTGTCTGTTCCACCTGAAACAATTCTAAGCCCTGCTTTTGTTAATTCATCAGCTAAAACTTTAGCATTTTTCACTACTTGAGTTTGATATTCTTTAAAAGAATCTGATAAAGCTTCTTTAAATGCAACAGCTTTTGCAGCTATTATGTGCATTAAAGGTCCACCTTGTATTCCTGGAAATATTGCTTTATTTATTTTCTTTGCAATTTCTTCATCATTAGTCATAATCATACCACCTCTTGGACCTCTTAAAGTCTTATGAGTAGTTGTAGTTACAACATGTGCATATGGTACTGGACTTGGATGAAGACCTGTAGCCACTAGACCTGCAATGTGTGCCATATCTACTACAAAATATGCTCCAACTTCATCTGCTATTTCTCTAAATTTTTTAAAATCAATTATTCTTGGATATGCACTTGCTCCTGCTATTATTAATTTAGGTTTATTCTCAATAGCTATCTTTCTTACCTCTTCATAATCTATTGTTTCTGTCCCAGCTGCTACTCCATAAGAAACAGAATTATAGATTTTACCAGAAAAACTTACTTTTGATCCGTGAGTTAAATGTCCTCCATGTGGAAGGCTCATCCCCATTACTGTATCTCCTGGATTAATCAAAGCTATATATACAGCCATATTTGCTTGTGAACCTGAATGCGGTTGTACATTTACATATTCTACATCAAATAGTTCTTTTGCTCTTGAAATTGCTAATTTTTCTGCAATATCAACTATTTGACATCCTCCATAATATCTTTTGTCAGGATATCCTTCTGCATATTTATTTGTCAATACGCTTCCTGCAGCCTCCATAACAGCTTTTGACACAAAATTTTCAGAAGCAATTAACTCAATACCATACTCCTGTCTCTCCTCTTCTCTTTCAATTACATCTGCTATTTCTGGATCTTCTTTTCTCAAATACTCCAAATTCATTTTATCTCCTCCTATTTTTTAGAATATAAAACTCTTATCTCACCCGGACTAAGTTTATATTTGTAAAAGTTATTTATATCATTTTGTTTATCTTCTGGTGAAATATCAATAATCTCATCACCATCTAAAATAGATTTTAAATCTTCAATTTTTATTTCAATATGATTATCAAAATCTAAATTTATTATCAAAAGAACGTTTTCTATATCAGTAGATTTCTTTAAAACTACAAGTTTTTCCTTTTCAAAATCTAAAAAATATAATTCAGTTTCCTGCTGAAAAATATTATAACTATTTTTTATTTCATTTATTCTTTTAATATAATCACTTATATTAAATCTTTTATCTTCACTCATAATTTGAGAACTCATAATAACATCTAATCTATCTTCTACTCCAAATTCATAACCAATTGGCAACATAACTCCTGAATTCATAAACGCTGACAAACCATACCAAGATTTAGAACTACACATTTCTCCATATTCTTCTACAATTCTTTCTGTATTATAGCTCTCTGGAAAACTTATTAATCCAACTAAATTTTTCAAAGTATAATGCTGTTCTAAAAACCAAGTTTCATTAAAGTCCCACCATTTTAAACTTGTAAAAAGATAGTCAAATTCTCCTCGTGCCAGCTCAACCATTTTATTAAAATCAGACCCTAAATTATCTGCAATAAAAATTATATCATTTTTTATTTCTTTGCTAGATTTTATAATCTTGTTCCACAATTCAATTGGCACTTTGTATGCTGTTGAACATTTAAATCCATCTATATCAAAAGTTGATATATAATATTTAGCTAACTGTTCCCAATAAAGCCATAAATTTTCCTTTTCAGCTGAATTATAATTATCAATTTCAGCTAAATCTGCCCATTCAACAAAACCTAAATTATCATTTGCTGAAAAACTTTTTACTCTATCCCCATTGTATTTATACCATTCAGGATGATCAAGTAATAGTTCAGAATCAATAGATGTATGCGTTACAATCATTTCAAATATAACTTTTAATCCTCTTTTATGAGCTTCCTCCACAAAATTTTTCAGTTGCTCTTCAGGAGAACCATCAAAATAATCATCTATAAAATTATTATTAATTTTATAAAAATCTCTTGGTGCATATAAACTTCCCGAAAACCCTGTTTCATATATGGGATTTAGATATACAGAGTTAAATCCCATATATTTTATTTCATCCAAATAATCTATCCAATCACTAATTTTTCCTGCTGCTTTTGGAAATAAATTATACAAAATAAGATTTTTGTTCATTATCTTTACCTCTTCTCGTAGTATTTGCATGCTCTACAAGTATACCGTCCTATTATGAGGTCTATTTTTTTACAACGATATACTTTATTTAATTTTTTACAACTATAACATCTTTTAAGAGTTGAAATTTTATATTTACAAGTCATTTTATTTTCTCGCTTCATTTGGGAACGTTTAAAAAATAAGTTTCTCATTTTTTGTTATAAAAACGCTTGAATCGTTGCGTATTTTAAAACAAAAGGATAAGGTTGTTTTTAAAGCGTTCCTAAATCATTCCGTATTTTAAAACAAAATCGGAAGGTTATTTTTAAGCCGTTCCTTAGTATAAATTTTTAATTTATTATATCATAAATTATACCAATTTACAATTTCTTTTCCCATTTACTATTCGTCCTATTTTATATACTTTTTCTCCATTTTCTTCTAATATAGAAATTGATTTTTCTGCATCATTTTCTTTTATAATCACAGCCATTCCAATTCCCATATTAAAAGTTTTATACATCTCTTTTTCTTCTATATTCCCTAATTTTTGCATTAATTTAAAAATTGCAGGAACTTCATATGATTCTTTTTCTATTTCTACATCTACATTTTCTGGCAATATTCTTGGAATATTTTCTATAAATCCTCCACCTGTAATATGCACTAATCCTTTTATTTTTACATCTTTTTTCAAATTTAATAAAGATTTAACATATATTTTAGTTGGAGTTAATATCTCTTCTCCTAATGTTTTTCCAAGTTCATCTACATATCTATCTATTTTCCAATCTAATTTGTCAAAAAATAGTTTTCTCACAAGAGAATATCCATTACTATGTATTCCAGAAGAAGCTAATCCTAATACAATATCTCCATCTTCTATCTCTTTTCCATCAATAACTTCATCTTTTTCTACTACTCCAACGGAAAATCCCGCTATATCATATTCTTCAGAATTATAAAAACCAGGCATCTCTGCTGTTTCCCCACCTATTAATGCACATCCAGATTGTTTACATCCATCAGCAATTCCTTCTACTATTGCCGATTGTTTTTCAACTTCTAAATTTCCAGTTGCCAAATAATCTAAGAAAAATAGTGGCTCTGCTCCCAAAACTACAATATCATTTACACACATAGCTACAGCATCTATTCCAATAGTGTCATGCTTATCCATCATAAATGCTACTTTTAATTTTGTCCCAACGCCATCTGTCCCTGAAACTAATATTGGCTCTTTATATTGTCCTAATTTAAATAATCCACCAAATCCTCCTAAATCTCCAATTACTCCATCTCTATATGTACTTTTCACACTTTTTTTTATTGCTTCTACAAATTTAGCACCAGCTTTTATATCTACTCCTGAATCTTTATACGTTAATTTATCAGACATTTTAACCTCCAAATTATATAATTTTTAAATATTTTTTAATGAATTACATATCAGGAAATTTTATTGGATATTTCCCTGTAAAACAAGCATCACAAAATTCATTTTTCTCTGTTCTTATTGCTTTATGCATACCTTTTACTGATAAATAACCTAAATAATCAGCTAATATATATTTTTTTGTTTCTTCTAAAGTATGTGTTGCTGCTATAAGCTCTTTTCTTGTTGGCATATCTATTCCATAATAACATGGAGCTACCACAGGGGGTGCTGCAATTAGCATATTTACTTCTTTTGCACCAGCTTTTTTAAGTAATTTAACAATTTTTCTACTTGTGGTTCCTCTTACAATAGAATCATCTATCACTATTACTTTTTTCCCTTTTATCACATCTGCAATTGGACTTAATTTTTTCTTAACTCCAAGCTCTCTATCTAATTGAGTTGGCTGTATAAATGTCCTACCTACATAATGATTTCTCATTATTCCTTTTTCAAATGGTATTCCTGATTCTTCTGCATAACCTATTGCAGCCGATATCCCAGAATCTGGTACAGGAATTACTATATCTGCCTCTATTTTATGTTCTCTTGCTAACTGTTTCCCTATCTCTTTTCTTATTAAATAAACATTTCTCCCAAATAGATTACTATCTGGCCTTCCAAAATATATTAATTCAAATATACATTTTGCAGTTTTTTCTTTAAAAAATACTTTTTCAGATCTAAGTCCATTAGAATCTACAACCACCATTTCTCCTGGCTCAACTTCTCTTATATATTCAGCATCAATTAAATCTAATGCAGGTGTTTCAGATGCAAATACATAATCTCCATCAATTTTACCAATTACCAATGGTCTTATTCCTAATGGATCTCTTATAGCAATTAATTTATCATTTGTCATAAACAATATAGAATATGCCCCTTTTACTTGACCAAGAGCATCTACAATAGAATCTTCTATATTATCCTCTAATGATCTTGCTATTAAATGTAATATTGCTTCTGTATCATTTGAAGTTTGAAATATAGACCCTTGTTCTTCAAGCTTTTGTTTTAATACTCCTGTATTTACTAAATTCCCATTATGTGCAATTGCTAAATCTCCTTTACTATGTCTGATTACTAAAGGTTGAGCACTTACCACTTCTGAATCTCCAGTTGTTGAATATCTAACATGACCTATTGCAATGTTTCCTTTTAATTTATCAAAAGTTTTTTCATCTTTAAATACAGATGAAACTAATCCCATATCTTTATGATAATTTATTCCATAACCATCAGTTGTTGCTATTCCTGCACTTTCTTGCCCTCTATGTTGAATAGCAAAAAGTCCATACATAGTTAATTTTGCATTTTCTTGTTTATTTGAATATATTCCAAACACTCCACACTCGTCATGAATTTCATCAAACATTTTTTCCTCCAATATAATTTTTTCTTAATTAAAAAATAACTTAAACATTTTAAGAAACTTATTTTTTTAAACATTCCTCAATGGCAAAACCCTAACTAAGCCTTTTCAACATCTCTTTATAAGCACTTTCTACATTCCCTAAATTCCTTCTAAATCTATCTTTATCCAATTTTTCTTTTGTTTTTTTATCCCAAAATCTACATGTATCAGGTGAAATTTCATCAGCTAATATTATTTCTCCATCTGATGTTCTTCCAAATTCTAATTTAAAATCAACTAATATAACATTTCTATCATCAAAATATTTTTTCAATATTTCATTTATTTTAAAAGCGTAATTTTTTATTTTTTCTATCTCTTCTTTTGTAGCTAATTTTAACGCTAGTGCATGATAATCATTTAATAATGGATCGCCTAAAGCATCTTCTTTATAAGAAAATTCAATAGTTGGAGAATCAAATACTACTCCCTCTTCTACTCCATATCTCTTAGAAAAACTTCCAGCTGCAATATTTCTAATTATTACTTCTAATTTTACAATTTCTACTTTTTTTATAAGCATATTCCTATCATCTAATACTTCTACTAAATGTGTATGAACTCCATTTTCCTCAAGTAATTTAAATAAAATAGATGTAATTTTGTTATTTACTACACCCTTACCTACAATAGTTCCTTTTTTTTCTCCGTTAAACGCTGTAGCATCATCTTTAAATTCTTGAATAACCAAATCTTTTTCATCCGTACCATAAACTCTTTTGGCTTTTCCTTCATACAGTAATTCTTTCTTTTCCAATTCTATAACCTCCTTATTTTTTGAATAAATCTATTCTTTCATAGCAAATAAATAAAAAAACCCATAAAGACACCTTGGTCCTTTATAGGTTTAGTTGTTTTCTATATTAATTATGTATATATTTGTTTTTATGTTTTTAATTTTCTGAAGCTTATTTTTCATTTTCCCTCCAAAATTGTCCTCGTTCACTAATAAGATATCTTATTGTATAATATTTTTTGATTTTAGTCAATAAAAAAATTTAGTTTTATAGTGTCAAATTTTGTAGTTTAATTGATATATTAAATAAAAAAGCCCCACCTCTTTAAATTAAAGAAATGAAGCTTTCTATTTTCTATTTAAGAATTAAATTACTTCTTTATTTCTGTATTATCAGAAACTATTACATCATTTTTATCTGCTGTGACAGAAACAGCCTCTTGATTTACTTTCACTAATTTTTCATTTGTTTTATCATATACATAAATATCATACTCTCCAAATGGAACAAATGAAAATACAGCTTCTATTTTTTCTCCATCTACAGATACACTAGAACTTATTGCATTAGCATATGGTTATATCGTCACGGTGTACCATTATCATCTTCTGATAAATTCAAAAAATATAATAAGCTCTTCTTCTATAGTTTTATTCATCATTTTTCATTTCTTCTCAAAAAAGATTGTTCTAATCCCAACGCTCTAATCTTATCCACCCATTCATAAACCATCATTGGTTTATTCACCCTTTCTCCATTTTCATCCAGTAATTTTTCCATTGCCAGAGTAATTAATGCATACTCATTTTCCAAATAAGTCCCAAAAATACCTTGATCATCTGTATTAATTGATACTGATAATTGCGAACTCTTTTGATTTTCCTCTTCACTCACATTCAATCCAATGTTATAAAATTTAGTTATTGGGTGTCCATCATATCTTTTAAAGTTTCCTATCACATAATTAGAACTTGGATTTGCTTCAATACAAATATTTTTATTTGCCAGTTCTTTTTGTATAGCATATTGAATTTCTGTTACGATTTTTCCCATTTTTTTATTTATTTTAATCTCTTCACTTTTTATTCCTCTTTCTTTTACGTTCTTATTAAAATGATATTTTCTATAAATTTCTACTATCTCTTCATTTTTTCTTATTTCAATCATTTCTTTTCTAGGATCAATAGAGCATTTTTCCCAAAAAGTTAAGCTCGATTTAAGTTTATAATCTTTATCTTTATAAATATTTGGATCATCTCCCCTTAATTTCCAAGCTCTATAATAATTTTCATAAGAATATTCTTTTTCATATATTTCAGAAACTAATCTATAATAATCAGAGCATAATTTTGATTTTAAATTTTCATCAATTTCAATATTTAACTCTCTTATTTTTGCCAGCATCCAAGCTATATTATCTAAATATATTTGTTTTGGCATAATTAGTGTATAATTTTTATCTTTATAATATTTATTTGCATCTACCCCCAATGCTAATGCGTGTCCAATCCTATCTCCTTGTTCATAGCCAAGAAATCTAATGGTTTCATCTATTGCTCTCAATCCATCAATTAAGCTCAAAAAATCTTCTCCTGCGTGATAAGTAATCCCTAAATTAAATATTTCATCTTTCCCAAATTCTTCAAACTTATTTGTTATTTTATAATTCCTCAAATATCTAAAGCATTGAGCAAAGACTTCTGGTCTACATCCAATTTCAAAATTTGCAGCATCTATTCCATATATTCTATTTTTAGCTTCTCCACTACTTTTTCTCAAATTTATTATTGCATCTGCCTGTTTTTTTAGTAATCTTCTCAACTGATAATTCAAAGGTTTTACGTATAATACAATAGGAGTATTCTTTGCCATCTCCATTATCTCTTTATATTTTTCTTGTTTTTTTATAAAGTGAATTACATAAAAATATTTCTTTTTATCTTTCACCTCTTTTTTTATACTTGTATTCTCAAAATTCAAATTTTTAAAATCTTTAACATCATAAAACATTTCACTTTCTATATTTTCATCTAATTTTTCAATTGTTTTAGACAATTCAGCATTATTTTTTTCAGGTGCTATTCTGGCTTCTAAATAATTAATATGTTGGTCATAAAGAGATGAATTTATAGCCATACTTACAACAGCTTTCTCATAAATTCCTTTTCCTAAAAATATATTTTTTCTATTTTGATAATCTGAAAAATTACCAAATCCCACTCTTCTATTTATTTGAATCAACTCATCTCTAAAACGTTCTTTTATCAATATGTAAGTATGAATTAATCTTTTGTATTTTATTATCTCTTTATCGCCTTCAAAAAATGTTTTAAAAATAGTATACAAGAAAAATCGTTCACCATATAACAATATATTTCCATTATATTTCATATTATCTTTATTATAATTATTTAAGCTAATCTTTTTTGGAATAATATAGTCTGGTATTTCTCCATTTAATTTTTTTCCATTTGAATATTTCAACTTATTTATTTCATTTTGAAGATCTCTAATGAAAAGTTTTATTTCTGAATTATTTTTTGATTTTAAAATATAATTCATTTTAAAATTTTCTACTTTTTCTATTTTTTCTTTTAAAATAAATTTTTTATATAAAAACAATCTGATTGCAGAAGCTTTTTTGACTAACGCTTTTAATTCTAAAGAAAAATTTTCAAATCCATAATTTACATCTGGAGATAATCTAGTCTCTTTTTCAATTTTTTTAAATTCTTTATCTCTGCCTTCGATATTATTCATCAAAGAGATCCAAGCTAATTGAAAATGAGGTGCTGATCCTTTTAAGTGAAAATGGTTTTCAGCACATCCTTTTTTCATTATTTCTTTTAGCATTGTATTATCAGTTGATATTATTGGTTTCCAAGCAAAAATTGTTCTATTATATGATATGGTAAAATCTTTGTATGCAAAATATGCTGTTGTCAATAAATCTTCGCCCAATAAATATGACAATTCTCTCCATCTCAGTAATTCTTTGTATTTACATAAAGGAACTCCTTTGTTTTCTATTAATATTCCTTTTGTAAAGTTTGCTAATACGTTAAAAATACTATCTTCTTTTACTCCTTCTAATTTTTTCCAGTTTGAATCTAGCAAGCTATATACATTTTCTATTTCATCTTTGTTATATTTTGTTGGATTTTCATATGAGTATGTGGCTATAAATAGATCTCTATCTACATTTTTTTCTTTTATGGAGTTGTAGTATTTATATAACATTTTTTCTGGATTTTGCTTTTTAAAGAGAATTTCTATTGTGGCTCTAATGTTATCCATTATTCTATTCCTTTAGTTGAATTAATTTTTTCTTTTATTTTTTCCACAAAGTCTTTTATCCTAATTTTTCCTTTTTCAGTTTTCATTTCTTCTGCTTCTGTTTCTTTCCCTTCAATAAAATCAATTATTTCTTTTTTATAATCTTCACTTATTTTTTTATTATTTTCAATAATATTTTTTATATTTGAAAATGAATTTCTTATAGTATTTATATTAGTAATCCTATTAGTAATCTTTAAGCCATCTATTTCAGTTATAAGTTCTCCTATCAATTTATCTATATCAACTTCTACTTTAAATATATCATTAAATTTCCCTTCTAATTCTTTTTTTTCAATATCTATAATAAAATTATAAATATCACATATTTGAGCATCATCTTTCAATTCTAATTTTTCATCTGCACCTAAATTAAAATTAATTTCTAATTCTTTAAAATTTTTAAAGAATGTTTTGAAATGAACAAAATAACTTTTGTTTACAGCCTTATAATCTTCATTTAATATGCGTTCTAATATTTCAATATTCCCAATATAAAAATCACTATCCGAAGTAGGTTCTCTATTAAATAAAAATCCTAGAATATCAAATTGAATTTTTGTTGGTTTACTATTATCTTTTTTATTATAGTAAACTTCTTTTTCTTTTCTATAAATATTATTTTTTATAAAATTAAATTCTGATGATTTTATATTAAATTTATTTAGTAATTCTTCAGCATCTAGTTTCGAACCATTTTTTTTATATTCTTCACTAAAACTCTTAATTTTATCTACTTTCATATCTCTTCTATCTCTTTTTTCGTTCGAATCCTGTTCCTTTCTCATAATTTTATATTCAATAGGATTATATAAATATCCACCTAATAATTTTTGATAATCACTATATGTTTTTTTAGCTGCCGCTTTTTCAACTTCTGCAACTTTTATAACTTTTGTAAATTTTGCCTCTTTTGCTTCTTTTACTGCTTTTGCATATAGCTCATACAACATAATTGAATAAATCATTTTTATTGCATAAATAAATTTTTTATCTTGTAATTCTATTTTATACCTATCTGCCTTATTCAAAACAAATAGCAAATCTCCCAAAGATACATTTGCCCCATTGTTATTTAGATTTACTATATTTTGATATTCTATTTCCTGTTCATAATCGCCTTTACCTCTTGCTCTTGCTCTTGCTCTATATTCATCATCTTTATCCAACAATGAATAAATATCTTCAATTTTATTTATTATAAATTTATTTCTTTCTGTAACATCTCTTTTTACAAGTTCTTTTAAAGCATTTTGTTGTTGATAAGTCAAATATGTTTTTATCCAATTTTCAAATATATACTCTTTAAATTTAATAAAATTTTCACTATTTATAATTTCAATTCTTTCTTTTTTCCTTTTTTTCAAATCTCTCACATCTTCCATTTTGACTAATAAAACAATTAATTCTACTAACCCTCTTAAATTATCTGGAATTATATATTTACCATCAATAAATATCATATCAGTTTTTAAATATATTTGCTTTCTTACGAATTGATCTATTATACCCCCTTCAATTTTATTACCATTTTCATAATTCACTTCCACTTTTGAAGTCATTCTTATATCTTCTAATTTCGGCAAATATAATCTTCTTTCCAATGGTATCAATTTTTCAAGATATTTTTCAGTCATATTTTTAATTTCATCATAGCTCATAGCTTTTTTATCTAATAATGATTCAAATTCTTTTAAATAATTTCTCTCAACTATTTGTTCTAATTGCTCTATTTTAATTGCCATTAAAATCACAACTTTTGGAATAATTAAATATTTTCTAATTTGCTCGACCATCTCATAGGCATACTCTGTATTTAAATCAATATCATCTACTTCAATTACCAATATCCCATTTTTCTCTTTCTTTTCATCATTATTCATAAATTCCAAATATGATCCAATTAATTTTTCCACATCACTCTTTAAGCTTGTACTTTCTGCTATTTTTAATAAAGCATCTAAAGCTTCTTCTTCAAAAACATCTCTTTTGTCTTTTATAATTTTTATATTTTCATAAACCTTTTCAAAAGAACCAATTATTTCTCTTTTCAAATTTTCATTTTTCACTTCATTTTTTGTTTCAATATCATTTTTAAAAGTTTGAAACATCTTTGCAATTATTATTTCCAAAATATTACTATTACCTGATAATAAAGCCGGATCTATTACTCCAACAGAGCAAAAATTATAAGAACTTAATTTTTTATCTTCAACTGACAAATTATAATCTTTATTATTTTTCAATTTATCATTATCTTTCAATACTCCCGCAAAAGAAAGCATTGCAGATGTTTTTCCAGTTCCTCTTTCTCCTGCAAATGCAATTATATTATTATAATTTTCATGCAACTCAATTCCTTTACTCTTTAATATCTCCGCTGTATTCTTAAAAGCTTTCAAATAAACTTCATTAAATACCGATTTTTCAAATTCATTAATCTTTTCTACTTTTGCTTTGTACTCTTCTCCCAAATTAATTTTAATTACTGATTCATCTGCCATTATTTCTTCATCTCCCATTTTGATTATATCTATATTTAATAATACTATACAAATTCACGTTTTTCAATTTTTTTATTAAATTTTCACACAATTCAATTTCTACTATTTTTTAGGATTTTCAATTTTCTATTTCAATAATTAAATGTTTTTTTATGCCTCATAGAACATTTAAAAAATAAATTTTTCATAATTTGTTATAAAAGTACTTTAATCATTGTGCATTTTAAGCCGTTCCTACATAAAAAAAGACAGGTTTACACCTGTCTTTTCACTAATTATTATTATATCTTCTATTTTCTATAATTTTACTATAAACCCTTTTTAATATACTTTTTTAATACTCAACTAGGATTTTTTCAATAGCATAAGAAGTTTTCACTTAATCAACTTATTATACTCACTTATATCTTTATTTAAGCTTTTTGAAATATTCCCAAGATCAACAATAATAGAATGAGTTCTCATTCCAGGCCCTATAGCAATTTCTGATTTCCCATTTACCTCTTTTTCAAATTCACTAATAATTTTTTTAGCTTCATTTTTCTTATTATTAATTTTTTTAATTACCGCTTCAATTTTACTGATTTTCTTTTTTTGTTTACTATTCAGTTTTTTATTTTTATTCTTATTGATTTCTGAATTAATCTCATTTACATTAGTTTCTATTGTTCCAATCATTTTATTTACTTTTGTTGAAATTTCTATTACATTTATTCTATTTATTTTATATTTATTCATAATATTAACAAGCTTAGATGCTTCATTGTTATAACTCGCCGAATAATTTTCTATTGTCTTTACTGTCTCTTTTAGATTATTATTTATTTTGTTAAATTCAGGCCATTCCTTACTGCTATTTTTTATCACAGCTGTTTTTAATGAAATCTCTTTTATTTTCCCTTTCAACTTATTAATTTTCTCAATTTCTTTATACTCATTTTCTCTAATTTGAGTTATCTTTGTCATTAATTCTTCAAGATTGTTATATGGAGATATATCTTTTTCATTTATATTCAGATAAATTTCATCAAGAATAGTTCTTGCTTTTTCAAATTGAGTCTTTTGTTTTGCAAGAGATTGATTAATTAAAACTGTATTATTCCCAATTTGTTTTAAAATATCATTTAAATTAAATACTTTTATTAATTTATTTTTATTAAAAATCTTAACTACATCATTCATTCCTGATTGAAATTCTTTTCCATTTTTTATAATTTTATTTTTAACTACATTATATTTATTTTTTACTTCTTGAAATTGTTTCCACTCTTTCTCATCTGAACGAAATTCTTTTTTATTTTTAGAAAGTTTTTTGTACTCTATTATAATACTATCCATCTCTTTTTTAAGGCCATTAAATTCATCTAATTCTTTTCCTAATTTTTGCATTTTTTTACTTAATAAGACAGCTATCTTTTTGTTATTAACGTTTAATTCTTCTTTTAACCCTTCATACATACCATTATAACTTAAAAATGCATCATTATAAGCTTTTGACGATTTATTTATTTGTTGTTCTGCATTATTAAAAACTTTAGTAACTTCATTTGTTTTATACGTCATTACTATACACCCTGATAAAGATATGCTGATTAAACTTAACATTAAAAAAATTCTTACTAATTTCATTTTTCCCTCCAATATTTTATTTTTATCTCTCTAATGAGACATGTGCGTTATTATAACATCTCAAATCAAAAAAATCAATCTTTTTTAATCGGTTGTGTACTAAAACGTTTCATATTATACTATATATCTCTTTTTTATTAATATAATCTGCATTAAATTATTTCATCTTAAAAGCACCTCTCCGTCAGCTTCGCTGCCACCTCTCCTGAAAGGAGAGGCTTTTTTCTTCAGGCTCTCCCTTTGGGAGAGCTGTCACGCAGTGACTGAGAGGGCGAATCTTTCACTTTTGACTTTATAATTTCATCAATACTTTCACATACTTCTTCAAATCTATTTTCAACTTCATAATTTGAAAATCTAACCACTTCTAAATTATAGCTATTTAAAACTTTTGTCCTTGCTTTATCATATTCAATTCCATCTTCTGTATAATGTTGACTTCCATCAACTTCTATTACTAATTTCGCTTTATAACAATAAAAATCTACAATAAAATTATCAATAACTTTTTGTTTGTATATCTTAATTGGGTAATGTCTAAGAAAATCATACCATAAATGCTTTTCTTGTTGTGTCATCTCTTTTCTAAGTTTTTTTGCTATTGAAATTAGTTTCTTGTTATAATTCATTATACCTCCTAAAAGCACCTCTCAGTCAGCTTCGCTGCCACCTCTCCTGAAAGGAGAGGCTTTTTCTCAGGCTCTCCCTTTGGGAGAGCTGTCACGCAGTGACTGAGAGGGCGAATTTGCATTTTAAATCCCCCCAACTCATTATAACATATTTTTCACAATCACATAAATTAAAAATATAACATACCCTACTTCTAACATTTACACCAAAACAAAAAAGCTCCCCAGCAATTTAAAAATTGCCAAGAAGCTTTTCTATTTATTCTTTTTTATCCTCTACTATTTTTTCTTATTCTTCCCATTCATCAAATACTCATCAATAGCTTTTGCTGCTTCATGTCCATCAGCAATACCATGAATTACATCTGGTCCTTGTACAATATCTCCTCCTGCGAACAACCAATCTACACCTTCTACTTGTCTATTTTTTCCTATTTTTGTTATTTTTCCTCTTGTTATTCCTAGTTTTTCTTCTAATTCTTTATCCAAATATGAATAATCTGGTGATTGTCCAATTGATACATAAACTTGTGTTCCTTCTACCATTTTTACATCACTTGTATCAAATTGTGGATTAAATCTATGTTGACCATCAAATATTGATAAACATTTAAATCCTTTTACACCTTTAATATTTCCTTTATCATCTAACATTACTTCTTGTGGCCCACATCCAAGTTGATATTTAATTCCTTCTTCCATACCTTCTTCATATTCTTCTCTATCTGCTGGAAGTTGCTCCTCATTTTCAAGAGCTATTAATTTAACATCACTTTTACCATATTTTATTTCTTGCAATCTAATTAAACTTCTCGCTACATCAAATGCAACGTTTCCTCCACCTATAACTACTGCACTTTTATGTACATCAATATCTTTTATTACACCTCTAGCGAAATCTCTTACTTGTGGTAAGAAATCCATTGCTAAATGTACATCTTTATGGTCTGAATTAGGTATATTAAGACCTCTTGCTCCAAAAAATCCTGTTCCTAAAAATACAACATCATATTTTGAATGTAACTCTTCAAGCTGAATATCTTTTCCAACTTGTGTATTTGTATGTATTTTTACCCCAATTTTTTCTATAAAGCTAATATCTTTATCTAATGAATAATCAGGCAATCTATATTGAGGTATTCCATATCTCATAACTCCACCTGCTAAAGGCATAGCTTCAAATATATCTACTTCATAGCCCATTGTCCTTAAGTAATATCCTGCTGAAATTCCTGCTGGTCCAGCCCCTACTATTGCTACTTTTCCTTCTCCACCTTTTGAAACATTTGCCAAAACAACTTTTTCATAATCTTCTTCAGGCGTATTATCTACAATATACCTTTTTAGCCATCTTATAGATACTGCTTCTCCACGATTTCCCAATGCACAAGCTGTTTCACACTTGTGAGTACATATTCTTCCACATACTCCAGGTAATGGATTAGTTTTGTATAACCAGTCTACTCCTTCTTCCAGATCATCTTTCCATATAGAAAGAATATATTCTGGTATATTCATTGTAGCAGGACAAGTTTTTGTACAAATTCCACACTCTACACATCTTGAAGCCTCTGCTATTGCTGTCTCTTTTGAAAAACCTTTTACAATTTCAATAAATGAATCTTTTCTTTCATCAGCTTCTAATCCTACCATATCATATCTTTTCAAATCCAAAAGTTCTGACACTTCATCTCTTACATAAGCATTTTCATATTTTATATCATGAATACCATTTTCTTTTGGTAAAAAATAGAAATCATCGACATCTTTTGATATATGAACATATTCTTTTGTCATTGTAAGAGAATTTGTAGTACAAATATCTACACACAACCCACAAAATGTACATCGTCCATAATCTATAGCTGGTTTTTCTGGTTTAGAGCCATCTTCATCTGGCAATTCTTCTCTTTCTTGCATAACTATTGCATTTGTTGGACATATTTCAGAACAAGTCCCACACCCTATACATTTTTCCCAATCATTTGCATGAAATCCTCTATATCTATCTGCTGCTTCTCTTGGATTTTCAAATATATCTTCCATGGGAATTGATATAGGTTTTTTTACTAAGTATTTCCATGCTTTTATTGGTGCAAAAAAATTCTTTTTATTTCCCATATTAATTCCTCCCTACCTATCAATTTCAGGAGCACAAACTCCCATTGTATCTAGCCAAATTGCCACATCATCTAGTCTAGTCCCTGGCAAATATTTTTCAATTCCAAGAAGCCCTTGAGGATATGATGCTCCTCTTACTGCTATTCTATAAGGCTGTCTACTTCCATCAGAAACTATATAATATCCATATTCTCCTCTTGAAGATTCTATATGTGAGAACACTTGACCTTTTGGTATTCTCCATTTTAATGCACTTCCAGTAGATACTTTTGCTCTAACTGGTCCATCTTTTGGCATTTTCTCTAAAACTTGTCTAATTATTCTTATACTTTGTTTTACTTCTTTATATTTTGTTTCAAGTCTTGTATATGCATCAGAATAATTCGCCACAGGTACTTCAAATTCTACTTGATCATATCTTGCATATGGATCAACTTTTCTTATATCATAAGCCTTTCCACTTGAAGTCCTAAGCCCTATTCCAGTAACTCCCAATTCTCTTGCTACTTCTTCTGGTAAAACTATATTATCTTTTGTCCTATTTATTATAGTAGAGTTTCTTAAAATCAGGTCTTCATATTCAGAAAGCCTTCCTTCTAATTTATCTAATACATTTTCTATCTTTTTCTCTATCCCTTTTGGCAAATCTTTTCTAACTCCGCCTACTACAATATACATATGGTATACTCTTGCACCAGTTATCTCTTCAAATATATCTAAGATTAAATCTCTTTCTGTAATTGCCCAATTTGGACCAGTATATAGACCTGTTGGTCCTCCAATTCCTCCAAATGCCATCATATGTATCCCAATTCTTGCTAGTTCTAATATTATCATTCTTATCCAATGAGCTCTTTCAGGCACTTCAATATTTCCTAATGCTTCTGCTCCCATTGCATATACCATCTCATTAATATCAGGTTCTACCACACATATTCTTGGAATTAAAGCTATATTATTTGTCCAAAGTCTTCTTTCCATCAATTTTTCAAATCCTCTATGTAACATTCCAGGTAATGGTCTTGCTCTTTTTACTATATCTCCATCCACGTATAAATGCACACTAAAATTTCCATGCATTCCAGGATGATTAGGCCCTAAAAACAGTTTTAATTCTCTCATCTTTCTTCACCTTCTTTTTTAAAATCCACATTATAATCTCTTTTAGCATATTTTTTATCTGAATATTTTTGTGGATCGAAATCTTTTCTCATTGGCGGAATATCATCCCATAATTCTAAAAACAACCCTTTTTTAGAATCTTCATTTCCTTCAAATTCAACACCAAAAAATTCATGAACATCTCTTTCATAAAATTTTGCTCCAGGAAAAATAGGTACAATTGTTTTAAACAGAGGTTTTTCTCTATCTAATCTTGTTCTTACTTGAATTGTAATTCCAGTTTCCCAATTCATCAAAATAAACACTAATTGAAACTCTTTATCATCAATAAAGTCAACGCATGTTAAAAATGTTAATTGATTCCAACCAATAGATTTTAAATATGCTAATATTGCATGAATATCTCTACTTTCAAAATCAAAACTAACTTGTTGCTTGGTAGGCTGTTCTATATTAAGTACATTATATTTAGATTTAATATCCTCTATTATTTTATTCATGGAATTCATCTTTAACATCCACCTCCCCAAGTGCTAACTTTTGATTTTCTTCATACCACTCTTTATTTTCCTGATATTTTTTCCATCCATTAGCTGTTCCTGCTTTTATTTTATCCATTAAATCTTTAAAAGCATTCATTACCGCTTCTGGTCTTGGCATACATCCTGCTACAAAAACATCTACTGGAATATAGTTATCTAATTTGTTTATAGTTGAATAAGAATCATAATACACTCCTCCATTTAATGTACAAGAGCCAAATCCTATTACATATTTTGGATTTAACATTTGCTCATAACTATATATTACTCTTCTTAATGTTTTAGCACTTAAATACCCAGTTACTAATAATACATCTGATTGTCTTGGTGTTGCCATTGGTCCCATTCCTATTCTTTCCATATCAAATCTTGATGTCATTGCAGGTGGTAACTCTATGGCACCACATCCTGTACAAAAATGCATCATCCACATTGATTTTCCTCTAAAAAAATCTCCTAATTCTTCCCATGTTTTTCTATCTTTTTCATCTAAAACCATATTGTCACCCCCAAACCAGTAAATACTACAACTAAAGCTTGAACAACTGCCATAGCTAATGGTACTTTATAATAGAATTTAATTAAATCATCTATTTTAAATCTTCCTACAGCTGTTGCTATCATTGTAGTTAATGTATATACTAAGAAATATTTTGTTAAAAATGCTATTATAGTTGGTCCTCCACCTAAAAATAGATTTACAAACAAACTCACTTCTATAAATGTAGAAAACTCATGTTGTAAAATAAGCATTGCTAAATGTTTTCCACCATATTCTACCAATGGTCCTGATGCTATTTCCGCTGGAGCTATTGGTGTGTCAAATGGTTTTTTCCCTAACATTCCCATAAGAGAAACAAAAGCAACTATCCCACCTAATGGAAATCTAAACATATTCCAATATAGAAATCCGCCTTGTTGCAAATGAGCTATTGTTGATATAGAAGATGTTTTAAATCCAAATATAATAGTCATAACTGTTATTATAAATGGAAGCTCATATCCAACCATTTGAGTCAAAGCTCTCATTACTCCAATACTTGCCCAAGGATTTCCTGACCCAACAGCACTCATTGCCATACCAAGAGAACCTATTGCAAGCAAATAAGTTATTACAAAAAAATTATCCATATTATCAAATGATATAATTCCTGCAACTGGCATAAATATTAATGTAGCCATAGTTCCACCTAACGCCATCATAACGCCAAAATCATATATCCAACCATGTGAGATTGGTTCTTTACTCATTGCTTTAAATATATCTAAAAATGTTTGATACCAAGGCGGTCCAAATCTTTTGTGTATTCTAGCTGTGATTTTACGCTGAATACCATCAAGAGAAACCTGCCATGCAAATGCAAATAGCAAAAGTCCAAATCCTATAATAAATCCCATATAATTCATGCCCTACCTCCTAACATAAATATTACAGATACTATAACTACTATCCACAAAACCGCAACTGCTGGTCTAAAACTAAAGAATATTTTTGATACCATATCCCCTAAATCTTTTACTCTTGTTCCTATTGAAAATAAAAATTCCTCAACTTTAGGATGTTTTTCATAAAGTCTTTCAAATGGTGCATAATAATTAGATGAATAATGATATAGCTCAGGAGAATGAATAAACTCTGCTGAAGTATAAGTATCCATTAATCCAACTTTTCTTGATTTTGGTAATACCAAGAATATTATTAATGCTATTATAAATCCAAATGTAAATACGACTGACATCCAAGTTGCATTTAAATTTCCATTATTAGCTATTATATTTAATCCATCTATTTTTATTGGAATCATTCCAACTGATTTTTCTATTTTTCCTATATATTTCAACATAACTGTTGGAAATATTCCAAAATATTGTGTTAATGCTGAGATAGCTATCATAGGTATAAGCATTAACATAGGAGCTTCTTTTACATCTTTATGTTCAGGTAACTCTTGTCCCAAAAATACTGTTGACAATGGTCTAAACACGTATAAGAATGAACCTACACTTCCAAAGAAAGCAGCCATTGCTATAAATACCATTCCATGTTTTACTAACGATTGAAATATCAACCACTTAGATACAAATCCACCCATAGGAGGAATTCCAGCTAAAGATATTATCGCCATTAAATACACAACAAATGTAACTGGCATTTTATGAATCATTCCACCTAATTTTGACATTTTAGTTGTACCAGTTCTATATGCTACAACTGCTGCTGCTAAGAACATTGCTGAAGTTGCCATTGCATGATTAAATATATGCATTAGTCCTCCTGCCATTCCAATTGAATCATTTAATGCTATTCCTATTAATATATATCCACTATTACTTACAGTAGAATATGCTATCAATCTTTTCATATCATCTTGCTTTATGGCCATTAATGTACCTACTACAATACTTATAGCTCCTAAAATCAATAAAATATAATTTTGATAAGGAACTCCTAATATTTTTAAACTGCTTCCAAATGCTTTTCCTGACGGCAATACAGCTACTGTTAAAAATGCTATAAATGCTCCCATTTTTACTAATCCACCTGATAATACTGGTGAAAATGTATGTGGTGCATTCCCATGCGCAAGAGGAAGCCAAATATGGAATGGAAAAATTCCAAGTTTGGTAAGTCCTGCCATTACTAATAGGAAAAACATTCCTGTAGCAAGTAATGGATCTTTTGCGACACTAGCTAACACTGCCACAGTGTCAAATGTATTATATTTTGAATATAAAAACATTATCCCAAACAGCATTGAAAACGAACCTGCTGTACTAATTGTATAATATACAACTGATGCCTTTCTTGATTTTCCTAGAGGTATTATGAACATAGAACCCCAAACAACTATCTCCCAAAATACAAATATTCCTAATAAGTTGCTCGAAAAAAACAATCCTATTGTTCCTGCTAATGACAACAAATATAAAAAATTATATGATGCAGGATATATTAGTCTTTCCATCCAATATATATTAAAGAACGAAGCTCCTACATAAGTTAATGTCATTACCATTGCAAAAAACCATCCATAAGGTGTTATCTTAAATTGAAAAATATTTTGACCTGAAACCACAGATAAATCTTTATAACTATACAATACAATTAATGTTATTAATGATATTATAACAGTTATCCATGCTCCAGATTTTTTATTTAATTTTGTGGTAAAATAAGCTGCTACTCCACCAACCATAATTAACAATATTAAATTTATTAAGCTCATCGATTCCCCTCCTTTCTATATTTTTAATAAAACTAGAGGCATTATACCCATAAATACTATTAATACTCCCAATATTCCTACACTACATTTTAAAATAAATTCTCCATCTAAAGAAAGTGATGTTACATATTTTTCAGATGTTTCGACTCCTTCTTCTCCAGGAACCCATAATTTTGATAACAATCTAACATAATATACACCTTCTATTAAACTTGAGATTAATAGTACTACTGCTACCCATTCGTGATTTCCATTAAATATAGCAATTAAAACTTTTAATTTAACATAAAATCCAAAAAACATTGGAAGTCCTATTATTGACATTGCTGCTGTTGTAAATCCAAATCCCATTATTTTATGCTTATTAAATATTCCTCTTAAATCTTCTACTTTATCACTACCTGCTTGAATAGCTAATGCTCCTGCTATAGAAAACATAATTAATTTTGCAACTGCATTATTTACAATTTGTAATATAGCTACATCATCAAGTTTCAATAAAAATAGAGTAACTATAAGACCTGCTTGAGCAATACTTGAAAATAGAAGTATCTTTCTTAACGAATTTCCTGAAAATGCTGCTGTTTCCGCTAAGAATAAAGTCAATAATGAAATTGTTATTAATACTATTGATAAATTTTGTGATATTAATAATGTTTGAGAAAATAATCTACCAAACACAAACATTATTGCTGCTGCATATACAGAGGCAAATATCGGTCCTGATAATTTATTTGTAGAGTTATAAACTCCTTTTACCCAACCATTAAATGGAAATAATTTTGATTCTACTGCAATTCCAGCAAATATTAAAACTATTGGTAATAATAATACTCCGCTTGTAACTCCAGGAGCATATAATTTTCCTCTCAAATCAGCCATATTAAGAGTTCCAAATATATTATATATAATTATTATTCCAAATAGATATAAACTTGATCCAACTGTTCCAATAATCAAATAATTAAATGAATGTCTATATTTTTTAGTCATTGCAGATATTATATATCCTGATATTGAAGCAATCTCTAAGAATACAAATAAGTTAAATAGATCTCCTGTAAGTACCATTCCGTTTACAGCTGCTAAAGATACAATTAATACAGAAGCATATTTTTTCACTTCACTATATCCCATAATAACTGCTAATGCAAAGATTATATTAACGATTAATATTCCTGTAAAACTATATCCATCCAAAACAAGTGTAATTCCAAATGGCGGTTTCCAATTACCAATATTATAAATTCCATATTTCACCACTGATAAAAGATATAAATTTATAGCTATTGATAAAGATAATAATATTTTAGCTCCTCTTTTCCACATTACTGATATAAATGCTAACAATAGAGGAAATGCTACTAACAATACTGGACTATTCATCATCTTTTACCTCCATTTCATCCAAATCAAAAGTTCCATATTTTGCATAAATATTTTTTGCAAATGCAAGTCCTACTGCAGTTACTCCTACTCCTATTACAATTGAGGTAAGAACTAACGCTTGTGGCAATGGATCTACAAACTTTATCATATTATTATTAAATACTTTTGTAAATATAGGTGCTACTCCACCTTTTACATATCCTATAGATATTATAAATAAATTTAATCCAACATCAAGCACATTTAAAGAAATTAATATTTTTAATAAATTTCTTTCTGTTAACATTCCATAAATTCCTATTAATATTAATATTATAAATAAATATTGTATCATTATTCCACCTCCCCTGAGATGAAGTTCACTATGATTCCTGATAATTCAGCTCCAACTTTTAATCCTACAAGTACATATATTATAGGTATAATTCCTGCACTAAATAAATTTCCTATTGTGCCTGTTGGTAAAAAATTATACAAAAATGCTCCACCTAACAAAATACCTGTTAATCCTATTATTACATATAAGCTTCCTGCTATTCCTTCAACTAATTTTAGCGAATGAACTTTTGCTTGGAAATCTTTATGTGATACATATAAAAGCAATACTATACTTGCTAACATACTTCCTCCTGGAAATCCTCCTCCTGGAGTCAGATGCCCATGAACAAATATATATACTCCTACAATAAACATTAATCCCACAATTACTTTTACTCCTGCTTTTACTATAAAATTAGGTTCTACTGCAAATTGAAGTTTTGTCCCAACTCCTCCTAAAAGAAGTGCCACTCCTAATGCAGATACAAATAAAACTGTAACTTCTCCTAAAGTATCAAATGATCTATAATTTACAACAATAGAAGTTACCACGTTTGCTGAACCTGATTCTAAATCCTTATTTTTTCCATATCTAATACTCTCATTGTTTCCATTTACATTTTTGTTTAAAAATTTATTAGAAACAGATTGAGAGATATTAGCTTCTCCATATTTGTTAAATTTAACTTTTGAACTGTCCAAATATAGATTACTAAAAATAAAATATCCAAATAAAATTACAATTAATAAAGCACCTATTTTTTTCATCTATTTATCGCCCTCCTTTTTTGCAGAAAAAAGAGTAAACAGAAATAATGCTGTTGCCATTCCTGAACCAATAACAGCTTCTGTAATACCTACATCAGGTGATTTCATAAATACAAAACTAACAACTGCAAGCATACTCATAATCGATAAATAAATTATAGAATTTAAAACTTTTTTAGATGATACTGCCATTATGCCAAATAATATTAAAATCAATCCTATTATTATTTCAGAAATCTCAATTATCCCCATTTTCATCACCTCTTTTATACTTGTCTTCCATCTCATCAACTACAACTTTTGCTGGTTTCACTCCAATTAAATAAGCAGCTCTTCCTATAGCAGAACTTCCTACTGGATTTGTTATAGCTAAAAATATTACTATTAATATAGTTTTTACTAACCAACTTGGATGCAAAAATCCTACTCCTAATATAAGAGATATTGCTCCAAGAGTTGTTGCTTTTGTTCCTGCTTGAAGTCTATTATATACATCTGGCATTCTAAATATCCCAAGTCCGCCTAGGGCATAAAATAAAGCTCCTATTATTATTAAAACATAACCTATTACACTCATTTTCTCCCCTCCAAATACCTTGCCATTAATACTGTCTCTACAAATGCAAGTATTCCATATACTAAAGCAATATCCAAATATAGGCTATTCCTAAAGATATGTGCTAAAAATACTATTGCTCCTGTTATAATTACATTTAATGTATCAACTCCAACTACCCTATCTGGAACTGAAGGGCCTAAGATTACCCTTAATATAGAAAAAAACACCCCAATTCCAAGTAAACTAAAAACAACTAAATTAATCATTCAAAAATCCCTCCTAACACCTTCTCAAAGGTTTGAGATATGTTTTCTTGATACTCTTTGCTTCCACTTCCTTTTACATCAATCCAATGAATATAGATATTTTCATCATCTACATCCAAAGTTAATGTTCCTGGTGTTAAAGTAATTGAATTTGCTAAAGCTAATTTTCCAACTTCTCCTTTTAAAGATGTTTTGATTTTTACAAATCCTGGATTAATAGGAAGTGATGGCGACAATACTCTGTATGCCACATCCAAATTGGATAATATCATTTGATAGATAAATACTGGAATGTAAACAAACACAAATTTAAATATTTTTACAATACTATCAACTCCAAATGAATAGCTGACTTGTTTATAAATTACAGCAGCCACTATAAGTGAAGCTATTCCTCCAACAACTATTTCTTGGATAGAAATTCCTGTTGCAACAATCCAAATTAACCATAGCAAAACAAACGTTGAGATAAACTTTTTCATTTTTGTCCTCCTTTCTTTTTTTGTTTTTATGTATCTGTAAAATTTAAGATTTTCTTAAAAGATTGTGAAATATAGGTACTTTTTTCACATATCATTGTATGATAATATTAACTTATTAAAGCTGACTAATATAATATACAATATTGCAACTGCCTGTGTCAAGTTTTTTATCTTTTTTGGTTTGTTTTTAATCATATTGTAACTCGTTTTTATAATATTAACCTATAATTTAACAAAAATCAATTTTTTTATTTATTAGAAAATATAAATTTATTCAGAAAATAATGCAAAAAATAAAAAAACAGGATTTTACTCCTGTTTTTAATCTGTTTTATATAATTTTAAAAATTATTTTTTACACCCTTTTCTTAAAACTATACATTCTGCTGCTTTTATTATTGGATATTTTGTAGGTGCAGAACTAAGCAACGGATGAGTTCCTATTTGAGTTGTATATAACTCAGTAACTGTCATTCTATTTTGAATAGCTAATCCAAGAACATTTATTAGTTCTCCAGCACTTTCTCCTCCAATTACTTCTGCCCCAATTATTATTTCAGAATCTTTTGCTACTATTAATTTTACAAATTGTTTTTTTGTTCCAGGTAATGTTCCAGGATGTTTGTCAACACCTTCATTTCTACCTACCATTACTTCAAATCCACTTCTTTTAGCTTCTTCTTCTGTAACTCCTGCTGCTCCAAATCCAATTTCTCCAATTGCTGTTGAAAATATTGCTACTGTTCCTATAAAAGTTCTTACAATAGATAGGTTATATAAATTCATTCCTGCCATTCTTGCCTCTGCTGCTGCTGTTGAAGCAAGCATAATTGGTGTAGATTTTCTTGTAATAAAATCTACTTTTGCTGCACAATCTCCAACTGCAAGTACATCTTTATCATCTGTTCTTAAATAACTATCTACTCTTATTGCTCCTAATTTATTTAATTCTAATCCAGAGTCTGCTGCCAATTTAGTATTTGGTCTATATCCCATTGAAAGCACTACTGCATCAGCTTCTATTCTTTCACCATTTTCCAATACTACTGCTTCTACTTTCCCATCTCCAACTATCTCTTTTACAGCTACTCCTGTTTTTAAACTCACTCCTCTTTTTACCAATATTTCTTGAGCTCTTTCTGCTATTTCTACATCAAATGCTCTTCCTAATATTGTAGGTAATACTTCTACTAAAGTTACATTTTTTCCTATTTTATTTAATTCATCTGAAACTTCTACTCCAATAAATCCAGCTCCAATTACAACTATTTTTTTCATTGAGTTAAATTTTTCTTTTATTGCATCAAGATAAATTTTATCTTTAGGAATTGAGAATACATTTTCTAAATCTGAACCTTTTAACCAAGTTGGTTTGTATGGAGTTGAACCAGTTGCAAATACTAATTTATCATATTGAAATTCTTCTCCTGAAGCAGTTTTTAAAACTTTTTCTTCTCTATTCACATCTACAACTTCATCCTGTTTAAATTCTACTCCAGCTTTTTTTAATCCACCTAAAGGGATAACATCTTTATCGCTAGAATCTAATGTCCCAAAAATGTATGGAATTCCACAAGGAACTAAAGCATCTTTCTCTTTTCTAATCAATAATACACTTTTATCAGGGTAATGTGCTTTCCCTGTCATTGCTGAAACTAATCCTGCTGCACTTCCACCTATTACAATTACATCAAATTTTTTCATCATAAAACCTCCATTAATTTATTTTTTTGCATTATATATATCTTATCATCTTCATATCATTATAATACAATATAATCTTTCTGTCAATTGTTATGTTAAAAAAATCTTTTGACACACCAATAAAATTTCACAAGAATATTCTAAACACAGTTATTTTTTCTTTTTTAAAAAATAATGTAACTCTACATTTTCAGCTTGGCTTAATCTCCTACAAGTTTCTCTTGCAATATTTAATATTACTCTACTAAATATATCTTTATCTTCTTTAGCTAATTTCATTAAAGCTTTTTTAGATATAATCAATAGCTCTACATCTTCTGTTGCAATTGCTGTAGCACTTTGTGGCTGTATTCCAATCAATGCTGTTTCTCCAAAACAACTTCCAACACCAAATTCTATTAATTCAAATATTTCATTCTCTTTTTCAAAATAGAGTTTTACTTTCCCTGAATTAATTATATAAATATTACTTGGAGAATCGCCTTGTTTAAATATAATTTCATCTTTTTTATAATAAACACTATTTAAAACTCCAAAAATTCTATATAATTGCAAATCATTTAATCCACCAAAAATTGAAATCCTATTTATTATAGGAACTACTTTATCTATATCTATAAGTGGATAAAAAATTTCTTTTTTCATATAAAAGCACCTCTTTTAAAATTATCATAATATAACTCTACACAAATTATAACTTATATTATCTCCAAATTCAAGCATAAAAAAAGAGAATCTAAAAGATTCTCTTTTTAAAAATTATTATTTTACTTCTGTAGCTTTTATTTCCCAAATTTCATCTGCATATTGTTGTATTGTTCTATCACTTGAGAATTTTCCACCATTTGCAACATTTATCATGGCTTTTTTAGCCCAATCAATTTTATCTCTATATGTTGCACCAATTTTTCTTTGTGCTTCAGCATATGATGCAAAATCTCTTAAAACATAATATTGGTCTGGTCTATTTCCTTCTACACCATACATTAATGAATCATATAACTCTCTAAATATTTCTCTATTATCTGGGCTATATGTACCATCAACTAATTGATCAATAACTTTTTTCAATTCAAGATTTCTATTGTATTCATCCCATGGATTATATGAATTTGTTTTATTTAATTCTAAAACTTCATCTGCTTTTAATCCAAATATGAATGCATTTTCTTCTCCAGCTTCTTCTACTATTTCAACATTAGCTCCATCTAAAGTACCAATTGTTAAAGCTCCATTTATCATAAATTTCATATTTCCAGTTCCTGAAGCTTCTTTTCCAGCAGTAGATATTTGTTCTGATACATCTGATGCTGGGAATATTTTTTCTGCAACTGATACTCTATAATTTTCTATAAATACAACTTTTATTTTTCCTTTTATAGATTGATCATTATTTATTTTATTTGCTATACTATTTATTAACTTTATTACTAATTTAGCTCTTCTATATCCAGAAGCTGCTTTTGCTCCAAATATGAATGTTCTAGGATATATATCTAAATCAGGATTTTCTTTTAATCTATTATATAAAGCCATTATATTTAATACATCTAATAATTGTCTTTTATATTCATGTAATCTTTTTACTTGAACATCAAATATTGAATTAGGATCAACATCTATATTATTATGTTCTTTTATGTATTCAGCTAATTTAACTTTATTTTCATATTTTATTTTCATAAATCTATTAACAACTTCTTCATCATCAATAAATTTTTCAAATTTCTTTAATTCAGAAAGATTTATTGCCCAATCTGTTCCAATTTTTTCATTTAATAATTTTGCTAACTCTTTATTTGATTTTAATAACCATCTTCTTTGAGTTACTCCATTTGTCTTATTATTAAATTTTTCAGGATATAATTCATACCAATCTTTTAATTCTTGATTTTTTAATATTTCTGTATGTAATGCTGCAACACCATTTACAGAATGAGACCCAACAATTGCTAACCATGCCATTTTTACCATACCATCAGCTATTATTCCCATTCTATGAGTTCTCGCCCAATCTCCAGGATATTTTTCATTTAATTCAGCTAAGAATCTTCTGTTTATCTCTTCTACTATTTGATAAATTCTAGGTAATAATCCACTAAATAGATCAATTGGCCATTTTTCTAATGCTTCCGCCAAAATTGTATGATTTGTGTATGCACATGCTTTAGTAGTTATATCCCAAGCTGTATCCCAATTTAATCCTTCCCAATCTAAGAATATTCTCATTAATTCAGGAATAGCTACAACTGGATGAGTATCATTTAATTGCATTGCTACTTTTTCAGCAAATTTAGAAAAATCATTTCCATATTTTTTCTTATAATTTCTAACAATATCTTGTACACTTGCTGATACAAAGAAATATTGTTGTTTTAATCTAAGTGCTTTTCCTGATGGACCACTGTCATTAGGATATAATACTCTTGAAATATCTTCAGTTATACTTTCTTTTGACATTGCTTTTATATATTCTTGATCATTAAATAGTTGTAAGTCAAAACCATCTTCTGCTTCTGCTTCCCACAATCTTAATGTATTTACTGTCTTATTATTGTATCCCACAATAGGCATATCATATGGCACAGCTGTTATAACTTCTGCATCCACTCTTTTAAATCTTTCTCTTCCATTTTCTTCTCTAACAAGAGTAACTTTTCCGCCAAATTTAATTTCTATAGATTCATCTTTTCTTTTAACAGACCAAGGATCTCCATTTTTTAGCCAGTTATCAGGAAATTCTACTTGATATCCATCTATTATTTTTTGTTCAAACATTCCATATCTATATCTAATTCCATATCCATGTCCTGGTAATTTTAAACTTGCCAATGAATCTAAGAAACATGCTGCTAATCTTCCAAGTCCACCATTTCCAAGTCCAGCATCTGGTTCTGTGTCTTCCACTTCATTATAATTAAATCCAAGTTCATTTAAAACTTCTGCCACATCTTCTTCTATAAGCATATTTACCAAATTATTACTTAAAGCTCTTCCCATTAAAAATTCTGCTGAAAGATAATATGCTTGTTTTACCTCTTCTTCTGCATAAGTTTTTTTTGTATCTAACCAATTGTCAAGTACATAATCCATTGCTGCTCTTGATACTGCATCAAATATTTCTTGCTTAGTTGCACATGAAATTGTTTTACCAAATTGTTCTTTTAATTTCAATTTGATATTTTCCTTAAACTCTCCTCTGTTAATATTCATTCTCTTTTCTCTCCTTTATTTTAAATTTAAACATTACCTACTTTTCTAAACATATTATATAAATTTGAGAACACTTTGTCAAGTAAGTTAATTTTTTAACAATTTATAACAAAAAATAAAAATGGAGCCGCCTATCCGATTCGAACGGATGACCTGCTGATTACAAGTCAGCTGCTCTGGCCAAACTGAGCTAAGGCGGCTCATCATTATTAAATTGCTATTATTGTATGGTGCCCAGACGCGGAATCGAACCACGGACACGGGGATTTTCAGTCCCCTGCTCTACCGACTGAGCTATCTGGGCATATACTTTATGGCGGGGCTGACGAGGGTCGAACTCGCGACCTCTGGCGTGACAGGCCAGCGCTCTAACCAAACTGAGCTACAACCCCTTTAAGCGAAAATGAGTATACCATACTATTTCTTTCTTGTCAAGCATTTTTATAGAAAATATTTTCAGCACAAAGAAAGAAGAACGCAAAGGTACACAAAGAAAAAAATTTGAAACCACTATTATATCTATGATTTCGCCAATAAATCTTTTGATAACATTGGAATATATCCTTTTTTCACTATATCTTTTCCATGTTGTAATTTTTCATCCATCGTAGAGACACGATTTATCGTGTCTCCTGTTCTCGTGTCTATGTTATCACGTCTCCATTTATCATCTTTTATTTTAATTTATTTTATTTTTTGTGTTTTATGATTCAACCACAAAAACTATGTTTCTGATTAATTTCCTAAAATTACTCTTGCTCAAACCATTGGTTCTATTAGACTGATTTTTTGAAAAAATTAAAAAATACATTTTTGTGGATAAATCATTTTATTAAAAAAACACGATAAATCGTGCTTCTACATATCATTTTTGTTGTTATAGAGACGTAGCATGCTACGTCTCTACTGTTAATTATTTCAATTTTTTATATACTTCTGAACTTTAACCCATTTTGCTCCCAAATCATATAATTAATTTTTTTATTTCATCTATATTTTTGTCAGCTTCTTTATATCCCTCTTCTATAATCTTTTCCCCTTTAAAAAAATTTAATTGCATATATTTTAAAACATCAGGTTTCAAAAATATATCTGCTTCTCTTTCTGTCCTTTTTAAATCTCCCATAAATAATATATTTAAAAAATTTTCAATAACTAATATTTTTTCTTTTATCCCCTCATTTTTTGTCAAACTAAACTTACTTTTTTTTAAAATTGTCTTCAAAATTTCATTGTTTGCTATTTCATCTATAAAAATTTTCCCTGGATTTAGAATTAATTCTTCTCCATCTTTTAAGAGTTCTTCATCAACTACTTTATCATCTTTATTAATTTTATCTCTAAAACCAATAGCTATTATTTTTTCAGCTCCATATTTTTTAGCTATATGTATTGGCAAAGGATCATATACTCCTCCATCAGTTAAGTATCGTCCTCCTCTTTTTACCGGCTTAAATATCAAAGGAATACTTATACTTGCTCTTACCCCTTTATATAGCTTACCACTACTTATTATAACTTCTTCTCCTGTTAAGAAATCCGTTGCATTTATATAAAATGGTATTTTGCAATCAGAAAAATTTCTTCCTCTTGTTAATATTTTAATAAACTCTTCTGCATATTTACCTTTTAACAACCCATTTTTTCTCTCTTTTGTAAAATCTAACAATAAGGAATAATTAAAATTTGAAGCAATTCCTTCTATATATTTAATTGGCATTCCAATTGCATAAAGTGAACCTATTATAGAACCAATACTACTTCCCACTATTAAATCAGGTTTTATTCCTTCCTCTTCTAATCTTTTTATTACTCCAATATGTGACAATCCCCATGCACTTCCACCACTTAAAACCAATCCCAATTTTTTTCGTGATTCTTTCAAAATTATCACCTCTTTATATTATCTTCAACTTATCTTTTTAATCTTACTTTAATTCTTTTACTTCAAATCCAGCATTTTTTAAAACCTCTTCTGCTTTCTCATTTTCTTTATTAACATCAAATCCAACTCTTATGCTTCCACCATAGTTTTCTCTAATATGTAATACCTCTATATCTTTTATATTTATATTATTTCTACCTAATATTTTAGTTATATCTCCAATTATACCTGGTTTATCTGGTACAAAAACTATAAGCTCTATCATTGGCGACAATATACCTTTTCTTCTTTGAGGAATTTTATCTCTTACCTCTTTTCCATTTCTAAAAAGTGCAGTCAACATCTCTTCATTGCCATTTTTTATATTCTCTTCAAAATTTGACAACTCTTTTTTAAATTTATCTATTGCATATAAAATTTTATCTCTATTGGTCAAACATATATCCCTCCACATTTCTGGGCTCCCTGCAGCTATTCTAGTAGTGTCTCTAAATCCTCCTGCAGCAAGAGATAATATAATATTTTGATTATTATTGCTAATATCATTGGCTGTATTTACTAAACTACTTGCAAGAATATGAGGCAAATGACTTATAGAAGCTACTGCTAAATCATGAATTTCAACATCTAACTCCAACAGTGTTGAATCAAGTTTTTTTACCATCTCTTTTACTTTTTCAAATGCAGATAAATTTGTATTTTTTGTTTTTGTTAATACATATATTGCATTTTCAAATAGATATGGATCCAAAGCTTCAACTCCTGTCTTTTCAGAACCAGCCATTGGATGTCCACCTACAAAATATATATCTTTTGGCAATATATTTTCTATTTCCTTTGTTATATATTCTTTTGTACTTCCAACATCAGTTATAATTGCACCTTTTTTCAAATATGGCAATGCTCTTTTTACTAAATTCGGCATTAATTTTACTGGAACTGATAGCACTAAGATATCTATTTCACTTAATCTATCATCTAGCTCTATCATATATTCATCTATCGCATTAAGAGAAACCGCCTTTTCAAGTTTAGAGCTATTTCTTCCAATTCCTATAACTTTATCCGACCATTTTTTCTTTTTTAAAATATAGCCGATACTACCACCTAATAATCCAACTCCCCAAATTGCAACTTTCATAAATTCACCTCTTTTGTAATTTTAAAATTTTTCTTTGTGTGACTTTGCGTTCTTCTTTCTTTGTGCTGAAATTATTTCCCCTACAAAAACTTGACACTATCAAAATTTTATTTTTAAACATTTCCTGATTTTTATATTTTTTATCACTTTAAAATTACTTTTTCTTTATCTTCTTTGTAAAAATTTTAGAACCAAAATAAGCTGTCAAAGGAACAGCTATTAATATCCCTATACTTCCTGCTATTGATCTTAAAAATTCTGTAGAAATAAATTCAAAATTTAAAATTCTAATAAGAGGATAATCATTTTTTTGTACCATAAACATTAAAATTGTAAACATAGAACTTCCTATATATGCCAATATTAAAGTATTTACCATTGTTCCTATGACATCTTTTCCTATTTTCATTCCCGATTTCAAAATCTGTTTTTCTGTTAATTGATTATTATGTTCTCTTATTTCATTTAACGACGATGCAATTGATATCGCTGTATCCATCACCGCTCCAAGGCTTCCTATTATAATTCCAGCTGATATTAATTCTACTACATTCACATTCTTAAATAAATTTGAAGCATATATAGATTCCAAATCAGTATATCCTGTTAATTTCATTGCATATATATATATTTGTGATAAAACTCCCGCTATTATTGTACCTCCAATTGTACCTAAAAATGCAACTAGCCCTTTTTTACTGTCTCCTGCCACAAAATATATTGTAAATAGTGCTATTAAAAATGAAAATATCACTCCTAACCATAACGGGGAATATCCTTTTAAAATTAGTGGTAACATTCCATAAAAAATAAAAAATATAGATATTGCTATACCCATTAATGCTTTTACTCCTTTACCTTTTCCAATTACAATTACTAAAAATATAAATATAAGTAAAATAGATATCATTAATCCTCTTTTATCTATATCAATAATATTATAAGTAATCATCCCATCTTGATTATGTATATCTAAAACAACATCTTCATTTCTTTTTATTGGAACATTATATGCTTTATCTTTAAAAACAGGATGCATAATAAGGACTTTTTTATTTTTATAATCTCCTGTTTTTATCTCTACTATTACTTTAATTTTTTTTGATATACCATTTTCTACTTCATCTTTATTTGCTGAAATAGTTCTTAAAATTTCAGTGATTTTTCCTTTTTCATATTTATCATTAGAACTAGCAAATATAAATATTGGAAAAATTAAAAATATAATTAAAATTCCTATTTTTTTTATAAAATTCATTTTCTCCTCCTATTTTCTATCTATTTAACCTTAGTAAAATTTATATCTACTACTTTTATTCCATCAACTGCTGCGCTTACAATACCTCCAGCATAACCTGCACCTTCTCCTATTGGAAATAAATTTTCTATATTTATAGCTCTACTCTTTTCATCTCTTTTTATTCTTACAGGCGAAGATGTCCTTGTTTCCGCTCCTATTAAATTAGCTTTATCTGAAATGAAATATCTATTTTTACTCCAATAATTAAATGCTTTTTTTAAATTTTTGGAAACATATTTTGGCAACAAATTATCCATTTTATATGATTTCAATTCCATTTTAAAACTGCTTTCTATATTTTTATTTGTTTCTTTATTTTCTAAAAAGTCTATTAAATTTTGATAAACAGCTCCGTAATTTCCAACCTCTTTATATGTCTTTCTTTCAATTTTTCTTTGTAATTTTATTCCATCAAATAAATTTTTTCCATAATCTTTTTCTGTTATTCCTACCACTACTGCTGAGTTTGAGAACGCTCCATCTCTTGTGCTATAACTCATTCCATTTACTAACGAACTTCCTAATTCTGATGCAGAATTCACAATTTCTCCTCCTGGACACATACAAAAAGTGAAAGCTCCTCTATTTTCATTTCTATTATTATATGTGAAATTATATGTTGCAGCTCCTAAATTAGGATTATTTGCAAATTTACCATATTGCATCTGATCTATAATTCCTCTTGGATGTTCTATTCTGACACCTATTGCAAAATCTTTATTTTCAAGATATACTCCATTTTTATTTAACATTTCATAAGTATCTCTAGCGCTATGTCCAATCGCTAAAATTAAATATTCAACATCAATTTTTTCATCTCTATTTATTTCTATTGATTTAACTTTCCCATTTTTTATATTAATATCAGTTAGCTTTGAATTAAAATAAACTTTTCCTCCAAGAGCTATTATTTTTTTTCTCATATTCTTTACCACTTCTTGCAGTATATCAGTCCCTATATGTGGTTTATAATCATATAAAATATCTTTTTTAGCCCCGTTTTCAACAAAAGTTTTAAATACTTTATCTATATATTCACTTTTTATTCTAGTAGTTAATTTTCCATCAGAAAATGTTCCTGCTCCACCTTCTCCAAATTGAATATTTGAATTTTTATTTAATTTGGCATTTTCAAAAAAATTATTAACAGTTTTAGCTCTATTTTCTACTTTTTCTCCTTGTTCAAATAGTAATGGTTTTAACCCATATTCTGCTAATCTAAGAGCAGCAAAAAGACCTGCTGGTCCTGTTCCAATAACGGCCACTTCTCCTTTTAATTTTACAGGTTCTCTTTTTACATTTTCTAATTGTTTATATTCTTTTATCTGAGAATTTTTTATATCCATATGTTTATTTGTTGTTACTAATAATTTATATATAAATTTTATATTCCCTTTTTTTCTGCTGTCAATTGACCTTTTAAGGTAATCAATTCCTTTTACATTATATTTTTCTATCCCCATTTTCTTTAGTTGAAACATTATTGCCTTATCTTGATTCTTTTCAACTGGTACAATTACATTATTCACTTCATATCTCATATTTATATCTCCCATCTAAAAAATTTATCTATCTTTTCTTGATTTTCCTGCGTATAATTTTCAATTTGTTCTTTTACTAATTTAGAAATATATTCTATTTTTTCCAAATTATCTGGATAATATATTGGAGTACTTTTTAATGGTGTAGAATAAAGTTCTAAATCTTGTCCTTTCTTTTTACCATTATAATAAAACCAATCAAAAAACATTTTGCTATTTAAATAACCTAAAATATAAAATAGATTTAATTCATATATAGTTTGTTTTAATGTCAAATAATATATATCTGCGCTTCCATAAAATGAACTATTTGAATATGAAAAAAGATTTTTTGAGCCTCTTTGTCTTCCAACTATTTTTTCATTTTCAAAAATTTCTTTTTTTCTTCCCCACTGCAAATTATACCAATTAATCAAACCATTTTTCACTTCTCTCCTTTTTTCCAATCTCTCTTTGAATGGCAGGAGTTCCTTTAATAATTCAGAATCAACTTCTATATTCTTATCCAAATATAATATCCAAAAATCATTTTTATCTTTAATTTTATAATTTAATATATCTTTACTTTTATAAAATGGCTTTAAATATTTTGAAAATCTCTCTTCAAAATTTTCTCTTACAAATGCTTTGTCATATCCACTTACAATCCCTTGATTTATATTTAAAATATCTCCCAATTTAAAATTACATTTTTTATTCATTTTATTAAAAAATATCAATTTTTCATTAGAAGCAGTTACTATTTTACAATTATCTGTATATAATAAATTAGAATTTATAAATTCATCTATCTCATCATTTATTACTCTTGTTTTTATAGTTTTATCCATTTTTATTAATGAAAATATCATATTATGCTGTCCCAACGCTCTTTTAAATACAGATTTATTCAAATCCTCAATATAATAAAATTGGCTGTTTGCCTTTACAGTTGCTCTTAATTTTTTAGCATAATCAGCTGTAAACCAATAATTAGTAGTTATATATGTTAAAATTCCATTTTTTTTTAAAATCTCTATCCCTTTTTCTATAAAAAAATATAAATAATCCATTTTTCCTTCATAATATTTTTTACCAAATTCACTATTTTTTATATCAATAAAAAACTCTCTATTATTTTTTTCACCTAAATATGGTGGATTCCCAACAACTATATCATAATTAACTTCAAATGTTTTTAATAAAGAGTTTTCTATATTTAACTCTTTTTCAAAAGAATAATCATTAATATTATAACTTTTCAATATTTTTTTTAATCTAATTTTTGCTATATCAATAGAATCTTTATCTATATCATATCCAGTAATCCAATTTGAAAAAAATTTATATTCTCCAAAATATATTTTAGATATTTTTATTAAAAAATTTAAACTTTCTACTAAAAAATTTCCTGTCCCACAAGATAAATCTATTAATTTTAAATTTTTTAATTTTTCTTTTCTATCTCCATCTTTAAAATATTTATAAAATGATATTGCTAACATTTTTCTAGTTATTTCTTGTGGTGTATATACCGAAAACTTTTTTCCTAATTCAGTTTCATATTTATCACTAATATCGTATCCAAATTTATACATTATTTCACATTCCTTCTTTAAATTTTTTAATAATAATCAGAAACAAAAAAGAACCTCCTAATAATTTGGAAAGTTCTTCTTTATTCTTAATAATTTTTTGAAAATGTCATTAATTGCGTCAAATCATTAATTATTCCAATAGAAGTAAATCCAACTTCTTCATAACGTTTTATTAATTTTTCACTATTTTCATCTTCTAAAACTTCTATTAAAATTATTTTCCCTCCAATTAAAGATTTAACTTCATCTATTATATCTAATATATAATCAATTATTTCCTCAAGTCTAATTATTTTTCTATTATATTTATCGTCTCTTCCTATTTGCCCAATTAGAAATGAATAAAACACCTCATCATCATAGCCATTGCTAACATTAATTTTCATTTTATTTTTTTTATTTGCAGATATTTTATGTTCTTCTCTAATTATTATCGGCTTTATTGATAATGCAAAATATGCTATAATATTTCCATTTTCTTCATCGATAATCAAATAAGTTCTAGAAATATTTTCTTTTTGCATTCTAATAGAATTTATATGCAAAAAATTTTCAACATCTTTATTCCTATGACAAGAAAACGTTGATAAATACTTTTCAACTCTATTTTCTGCTAAATGGAAGCATTCTTTTTTACTATCTTTTGAAATTTTATTTTTATTAATATAAATCTCTTCACTATTTATGTAATTAATATCTTTAGATTCTATATTTTTAGCCTTTGATATTTCATCAATATAAAAATTTTCAAGTAATTTTTTTAAACTTAATATTTTATATCGCATTCTTAATATTTTTTTAAAAGAGAACTTATAGTTTTTTTATCAGCTTCTCTTTCTTCCTTGCAATTATTTATAACCCTTGTAGCAGTTTTTGTTGAAAACTCAGATTTTAACATAGAATGAATTTTATCTATTGCTTCTTTATTTTTTATTATTATATTCCTAGTAAATGATTTCGTAGCCATTATAATCACTTCCTTATATTTTATTAAGGAACGGTAAAAATAACCTTCCGATTTTGTTATAAAATACGCAACGATTTAGGAACACTTTAAAAACAACCTTATCCTTTTGTTTTAAAATACGCAACGATTCAAGCGTTTTTATAACAAAATATAAAAAAATATTTTTTTAATGTTCTTTAAGCGTTTTTATGACAAAATATAAGAAACTTATTTTTTAAACGTTCTTAAGGAATGGTTTAAAAATATTTTAAACTATTCCTTACTTATATTATACTATATCTAAAAACTATTAACAATGATTTATTTTGCCTTCCAAATATTAAATTTTCAATGTACAAATTAAAAAAAACATTTTATTCTTCTATATCTCATCTCAACTATTCAAAATTTATTCTTAAATCCCTACCCCTTAAACATATTCTTCCCATTCTTTTTATACTCAAAACTCCAAAACAGCAAATATAACAATGCAAAAAATATCAATTTAATTATTATCCAAATTTCAAACAAATTCAATATAGCAACTACTACAACTAACTTAAAACTAACAACTAAAATAAATTTAACAATCCCCATTACATTAATTTTAAAATATCTTTTATTAAAAAAATAGAGTAATAACGTAAAATTTATTCCAGAAGCTATAACTGTAGCTAGTGCTAATCCTATATACTTATACTCTTTTACCAATAAATAGTCCAATAGTATATTTGTTCCAATTGCTATTATAGAAATTTTAACAGGTGTCTTTGTATCTTTATAGCTATAATATCCTCTTACTAATATATGAATTCCTGTATAAAAAAGCAGTCCTAAAGAGTAAGTTGCCAAACTTTCACTTGTAATTTTAATTGCTATATTACTAAATTTCCCATATCCTAAAATTAATTTCACAATATCCTTTGAATAATATATTAAAACTGTCATAGAAGGTGCTACTAAAAATATTAATAATTTAAAACCTTCTTCTATATTTCTCTTTGCATCTTCAATCTTATTTTCAGTTATATTTTTAGATAACATTGGAAATACAACTGTTGCAATTGATATTCCAAACATACCAAGAGGTAAATTATATAGTCTAGTTGCATTTTCAAGTGCTGATATAGTTCCGCTTGATAAAAATGAAGCAAAATATTGATCTACAATAACATTAATTTGTCTTGCAAAAATTCCAACTAGCATAGGCAATAACATAATAAATATTTTTTTTAATGCTGGGTCTTCAAAATCAATTTTTAATCTGAAAAATCCAACCAACTTAAAAAATTGAGGTAATAAAATAATCAGCTGCATAAAACCACCGACCAAAACCCCAATAGCTAAACTATATATACCAATTTTATTATGTAAAAAAGCTGCAAATAGTATTATTGATATGTTAAAAATAATAGAAATTGAAGCTGGAAGTAAAAACTTTTTAAAATTATTTAAAATAGCCCCTATCATACCTGCAATTCCTATTGCAACTATATAAAAAGCCATAATCTTCAATAATTTCCCAGCAAGTTCTTTTGTTTTATCACTATATCCATTAACCATAATATTAACAATATCATTTGAAAAAACTATTGTTAATATTGCCAATAATGATAATATAATAAATAAAATATTAATTATTGAAAATATTAATTTTTTACTCTCTTCTTCTCCTGATTCTTTTAATTTTTCATTATATATTGGGATAAAAACATTTCCCAAAGCTCCTTCTCCTAATAATTGCCTAAAAAAATTAGCTATTTTAAACGCAGAAAAATAGGCATCTGTTAAGACACCTGCTCCAAAAAAATATGCTATAATAACTGTTCTACCAAGCCCTAATACTCTACTTATTAAAGTTATAATCATTACTACAAAGCTATTTCTTAGCATTTTCTTCAAAAGCCTTTCTTTCTTTATATTTAAGCCAATCTTCCTCTTTTACAAACTCTGATTTTGGAGCTATATCTGTTTTCCTAGAAGTTGGAAAAATATACATCCAAGCATCTATCTCTTCATTTGTAGAATCAATAAAAACTTTTTTATTAATTCTTACATATTTGCTATTTGAATAATCGTTTTCATTAAATTCCATAACAAAATCAGTTCTTCTTAATAATTTATCTATATCACTAGCTACCAATAAATTTCCATATACGAAACCATCTTCAGAATCAAATAAAACTGCTGAATCATCATAACTATACAGTTCTCCCTTTGTCTTTACAGGTAATGTTATTAGACTCTCTATTTCTAAATTCTCTTTATCAATATATAATTCTCTTAATTTTCCATATACAAACAAAAAATTAATTTCCATTTATACCTCTCTCCTTTTAGAAATTATATAATCATATCCACTTAGACTAATTATAACTTTCTTCATTTTATATAATTCTAAAACTGCTAAAAATTTTATAACTTTTTTAATTTTTTCAGTTTCTTTATAGAATAAATTTTTCAAATTTATACTTTTAACTTTTTCTAATTTTTCTGTAAAATCATAAATTGCTTCTTCTAATGTATAACTATTCTCATTATCAGATTTCACAACTAATTTATTATTTTTTTTATTCAAAGATTTATCAATAGATTTTATATTTATATATGTTTCATAAATTTTTTCAGTTGTCAAATTAGATAAATCTATATCTCTATTTATTATATTCTTTATTGGCTCTCCTGTTTTAGTATATGAAATATTGTAAATATTTTCCAATTCTCTTATTTCATTTGCCAATTCTTTATAAAATTTATATTCTGCAATCCGTTTTTCTAATTCTTCCTCTTTTTCTTTTTTTTCTCTTTTATTTAATATTGCTAATGATTTAATCTCAAGTAATTCTACCGCTATATTTAAAAATTCTACTTTAATTTTTAAGCTTGACTCTTTAGCTTTATTTATTATACTCAAATAATCATCTATCAACTTAGATATATTTATAGAATATATCTCAACTTTATTTTTCTCCACTAAATGCAGAAGTAAATCTAACGGTCCTTCAAAGTTATCTAACTTAATTTTTATTTCCATTCTCAAATCCTTCTATTACTCTCTTAGCAGTTTCTTTTGCTTTTACTAATGAATGATCTCTATAGTTCCCACACTCTTTTTCAGTTGCTCCAGGAATTTCTGTTGTTTCTAATATCTTTTTTAAAGCATAAATCAAAACTTCTTGTATATCCTCTTTTTTATTCTCATTATAAACACTCATATAAAATCCAGTTCTACATCCCATTGGTGATACATCTATTATATTATCCATTTTATCTCTCATATATGTAGCTATTAGATGCTCTAATGTGTGTACTGCTGCTGTTTCCATTGGTGTAGTGTTTGGCTTTACAAATCTCAAATCATATACTTCTACAATATCCCCTTTGGGCAAATTCATAACTTTTGCTTTTCTAACTTGTGGAGCTTTCATTATTGTGTGATCTACTGTAAAACTTTCTATTAATGGCATTCTAACCACTCCTTCCAAATTTTAATATCATTTTTTATCTCTTTTATCAGGTTTTCAACTGTTTCAAATTTCTTTTCATATCTTATAAATTTCATTAATTCTATTATTATTTTTTCACCATATACATTTTTATCAAAATCAAAAATATTAACCTCTATTGAATGTTCTCCAGGTTTTAATGTTGGATTTTTCCCAATATTCATAATCCCATAATATGATTTATCTTTTTCAGAATCAAAAATTATTTTCACACCATATACTCCATATGGTGGATATGCTTTATTTACTATTTTTAAATTTGCAGTTGGAAAGCCAAGTTTTCTTCCTATTTTTTTCCCCTGCACAATCTTCCCTGAAATCATTACTGGATATCCTAATAATTTTTCTGCTTTTTTTAAATCCCCATTTTTTATATATTCTCTTATAAGAGTACTACTTACAATTTCATCTTCTATTTTCATAGGTTCTACTACGTTTAATTTTATATCATATTTTTCGCTTAATTCTTTCATATAATCTGTAGTTCCTATTGCATCTTTTCCAAAAGTATAATTAAATCCTACAAAAATTTCTTTTACATCCAAAATATCTTTTAATACATTTTTCATAAATTTTTCTGGATGTAAATCTGAAAATTCTACTGTAAAATTTGCAAAAATAAGTATATCTACTCCTAATTTTTCTAATAAAAATTCTTTTTCATCCTTGCTATTTATCATTTTAGGCCCAGCTGAGCTCGTAATTACCTTTAATGGATGAGGACTAAAAGTAAACAATATAGATGTTCCATTTAATTCTTTTGCTTTATCTATTGCACTTTTTATAACGCTTTGATGTCCTAAATGTATTCCATCAAAAGTTCCAAGTGCTACACAAGGATTTTTAAATTTTTCATCTATATTTTCTATACCATATATTACTTTCATTATTTCCTCCTGCTAACTCTTATAAATCCTGAACCAGCAATAATATCAAAATCTATTCCGCTTCTCTCCTCTATTTTATCCAATAATAAATTAACTCCAAGACTGTCACTTGCCATATGTGGCATTACTATTACGCTTATATTACATTTTTTAGCTTCTTTTATTTGATCCTCTGGAAGATGCATACATATAAATGTAGATATACCAATATTTTCTAAATGTTTAAACATTTTTTTATTCCCACTTGTACCACCATTAAATTTCACAAATATTTTCCCTACTCTATTTTCTCCTGTTCCAGCTACAATTTTTGGCTTTAAACTATTTTTAGCTGTTTCATGATACTCTTTTATTTCTAACACAGATTTAATAATATCTTTTAATTTATATACTTTTTTTTCTTCTAAATAATCAATCATATATTTATTAACAAGATTATCCGCTACTGTATGTAAATTAGCAAATGATAAATCTAATAATTTTGCTGCATCCACACTTCTATTATAATTTTGACCATGTAATCCTCTTTCTAATTCTGCTTCTCTTTCTGAAACTAATCTTTCTGCTATATTAACTGGTAGCCCTGATTTTATTAATTCTTCTTGATGAATTTCTAATACTTTCCATAATTTAAGAAGCCCTTTTCCTTCTGGATGATGCCCTAAAATTAAATCTACCCCTAATTTATCTGCTAATAAAATTTCTTGAACTTCTGTATCTATTCCTACAAATATTTTTTTTATATCTTTTCCAGAATTATAATATATAGCTGAATCCAAATATGGATTCATTAATTCATCTTTGTCAAAATATTCTTTTTCTTCATCACTTAATGCCTCAAATTTTTCTTTTTTATCATTCAAAAATTTTTCTATTTCCTCGTTGCTTCTTGGATCACCATCTCTACCTGCTTTTATTCCAATTTCAAAAAATTCGTTTAATTTCATTTTAGTTCGTCTCCTCCTCTAGTTCGTTATATATCTTTTCTAATCTTCTAAATCTATTTCTAATTCCAGATTTGCTAATTCCTATTATCTTTGCCAATTCAGTTAATGAACTTTCAGGATATTTTATCCTAACTTTTGCTACTTCTTCTAAAACTCCAGTTAATGATTCTAATCCAACTTTTTTTTCTATCTCTTTTATCATTGTCAACTGTTTTTCTGCTGTATTTATTATTTTAGTTTCATTTGCTACTTCCCAATTTATTGATCTTACTGTTTTATTTTTTATATCTTTAAACATTATAGTTTCTTCATATTCAAAAAAACTTTTCATTGCTCCAGTCATTACTAAAATATCCATTATATCTTCTGAATTCCTTAAATAAACCAAATATTTATTTTTCTTTTGAGTATATCCAACCTTTTTATTTATTCCTTTTAAATTATCATAAAGTTTTTTAGCATCATTTTTATCTTCTAAAAAAAAATCCATAGAATATTCTTTTTCAGGTTGTTTTATATATCCTGCCACAAGAAATATACCCCTAATATATCCAGCTAATTTTGACTCTGCTTTATTAATTTTTTCTTTATCCATATGTTTAAAATTATCTACAAATACTTTATATCCTTTTTGTTTTCTGACTATGACTCCATAAACTCTATGCTCTCCAAATCTTTTACTAATAGAATATTTTATCTCTATTTTTAGATTTGTAAAACTTTTAATAATGGAATACACTCTTTTTGCTATACCTATATTTTCAACAGTAAAATCTATTCTGTCATTTTTAAAACTATTTTTAGCTTTTAAAACTGCATAAAGTTCATATCTTTTTTCTATAACATTTATAACCTCTTTTTGTAAAATCTCTTCTTTTACTAATTGTGTATATGACATTATTTTGTTTCACTCCACCTTTTCCCACTATTTATATTAGTTATTAATTTTATATTCTCAAAATTTATACTATTCTCCATTACATCTTTTATTAATTTTGAATATTCCTCTATTTTACTATTTTCTATACTAAATACAAGTTCATCATGTACTTGTAAAAGCATTTTTATATCTTTTTTATCTTTTAATTCAGCGTATAATTTTATCATTACAATTTTTAATACATCAGCTGCTGTCCCTTGTACTACACTATTAACAGCCATTCTTTCAGCTTGATTTTTTATATTTTTATTTTTACTATTTATTCCTATAATTCTTCTTTTTCTTCCAAAACGTGTTTTTACATATCCATTTTCTTTTGCAAATTCTACTGTATCATCTATAAACTTTTTCACATTTTCGTAAGTTTCAAAATATTTATCAATATAAGTTTTAGCTTCTCCAACTGTAATTCCTATCTCTTTTGATAATCCAAATGGAGTTTTACCATAAATTATACTAAAATTTACTATTTTTGCAATACCTCTTTCTGCCCTTGTAATCTCTTCTGTTTCATCTTTACCTAAAATTTTTCGTGCTGTTAAATCATGCAAATCCAAATCTTTAGAATAAGCTTCTATTAAATTTTTATCTTTACTTAATTCCGCTAAAACTCTTAATTCCACTTGTGAATAATCTGAAGCCACTAAACTATATCCTTCTTCTGCAAGAAATCCATATCTTATTTTTATACCTTCTGATGTTTTTACTGGTATATTTTGTAAATTTGGATTCACAGAAGATAATCTACCTGTTGTTGTACCAGTTTGATTAAATGTAGTGTGTATTCTATCATTTTTATCAACTAATTTAGGTAAAGCTTCCACATAAGTTGTTTGCAATTTTTTATATTGCCTATATTGTAATAGTTTATCTGCTATTTCAATCCCTCTATTTTTTAAAGTTTCCAAAACTTCTACATTTGTAGAAAAACCTGTTTTAGTTTTTTTAACTGGGTTAATCCCCATTTTTATAAACAGTATTTCCGATAATTGTTTTGGAGAATTAATATTAAACTCTTCATTTGCCATTTCATAAATTTCTTCTTCTAATTTAACTAATTTTCCGTATAATTCTTTACTATATTTTTCAAAATATTTAATATCAATTTTTATTCCATATTTTTCCATTTTTGCTAAAACTTTTACTAATGGCAATTCTATATTTATAAAAAGATCATATAGTTCTTCTTGTTTTAGTTCCTCTTCAAAACTTTTTTTTAAATTTTCAAAATATAAAACTCTCTTGCAATAAAATTCAGTTGCTCTATTTATATCAATTTTTTCTATAACTTCTTTTCCAAATGTCTCTTTATAATTGGCTAATTGTATTCCAAATTTACTATTTAAAATATTTTCCAAATCATACTTACTATCTGAATCCAAAATATAATATGCAATCATAATATCAAAATAGTTTTTCTCTTTTATATACTCTTTTTTTATTAAATTTTTAAGACTATAACCAATAACATTACACTTTTCAATTTTTTCTTTTAATAACATCTCATCACAATTGGTTGCTCCTAAATAATTATGATAAAGCGAAATATAATATAATTTTTCATTACTAGATATTGCAACCCCTGCACCATTAAATAACAAGGCTATTTCATCTGCAAATTCAATATCTCTTAATTTTTCATTATTATCTATAATTATTATATCTTCTTTCTTAAATTCAATTAAATTTTCATTATTAATTTCTTTTTTATTTTCTTCTATTGTTGCTTCACCAGCTTCAATTTTTAATTTTTTCAAAAGTGATTTAAACTCTAACTCATTAAAAATTTTATATAATCTGTCATTATCAAGTTTTTTGAATTCCAGTTTTTCAACATCCACTTCTACTGGAACGTTTTCATCTATAATTGCTAATTTTCTACTTAAAAATGCTAATTCTTTATCTTGTTCTAATTTTTCTCTCATTTTACCTTTAGTTTTATCTATATTTTCATATAATGTTTCTAAATCTCCATATTCAGATATAAATTTTACTGCTGTTTTAGGCCCCACTCCTCTTACTCCTGGAATTCCATCTGAACTATCTCCTTGCAATCCAAAAAGGTCTGGTATCTGGCTTGGTAATACTCCCAATTGTTCCACAACATCATCATCTGTTTCTAAAACCCTAAATTTCCCAACACCTTTTCCAAGAAGTGATATTTTTCTATTTTCAGATAAAAGTTGTGATAAATCTTTATCTCCTGTAACAATATAAGTTTTTATATTGTTTTCAGCTAAATTTTTAGATAATGTCCCCAATAGATCATCAGCTTCATATCCAATAACTTTAAACTTTTTTATATTAAATCCATCTAAAATCTCTTCTATTTTTGAAATTTGTGCTATCAATTCTTCTGGTGCAGCTTTCCTTTGCTTTTTATATCCTTCATACATCTCTCGTCTTTTTAATTGCTCTCTTCTTACATCAAAACAAGCTGCAATATAATCAGGTTTAAATTTATCAATTATACTTAGCAGTGTATTTGTAAAACCATATGCTGCTCCAGTTGGCTCTCCATTTGAATTCCTCATATTTATCAATGAATAATACGCTTTGTACATTACAGCACTTACATCTATTAATACTGCTTTTTTCATAATATATCATCCTTTTTAAATGTATTTTTTATCATTTATTATACCACAATAAATGATTACTTTCAACTATAGTATCTGCAGAAAAATTTTTAAAATTTATCAAAAAATAAAAAACAGCTTCCTAATTAAAGAAAGCTGTTTTTTTATTTTATTCAGTTGTAACCATTGTTAATTGCTTTGCTGCCGACGTATTTTTATTTGAACTGTCATCTGCAACTTTCAGATATACTGTTGCGGCACTAGATGCTTTTATACTAATTTGTACAACTGTATTTTTAACACCTAATTTTACTACTCCTATTAGATTCGCATTAGCTCCACTTCCATCATATGCGTATACCGTAACATTATCTTCTTCAGTTTGTTTTATACTTAATTGTAAATAATCAACTCCATTTAAACTAACTGTGTCTATACTTCCCACAATAACAAGAGCATCTACATTTGGAGCTTCATCATCACTTGCATTTATCGTAACTTCGCTAGTTTCATTTCCTGCCAAATCTTTTAATTTTAATTTAAATGTGCTACTATTATTCACTGTTTTATTGTATGTTAAATCAGAACCAGTCCACTCTTTTGATTCTCCATCAATATTAACATATATTTTATCACTACTTCCAATACCAACTAATGTTGTATTTAAAGCGTTTGATGAGATTGTTATTGTATCTTTTTTTACACTAGCTACTATCTTTGTGGTATCCAATGCCGTTATATCAGGTATAGATGAATCTATATCAAAAGTTGCTGTTCCTGGTGTTGAAGTCTCAAATCCTAATTTTGATTCCCCATAAACTTTTACAGTTATTGTTGTTAAATTATAATTTCCTAAATCTTCAGTTTTTACTGTTGTACTATTCGTTGTTACATCTTGAGTATATATTTTTGTAGAGCCATTATAATAATCTACTCTATAAGTTCCTAATACATTCCCTTTAGCTACATCATCATTTGTTTCAGCAATAGCATTCCAACCAACGGTTACTGTATCTCCTTTTTTCAATTTTCCTGAAGTTGCTGTTACTCCTGTAACAGTATAACTATAACTTTGAGCAAATTTACTCGTTATAGTTTCATAAGCATCATGTAATGTAGAAGTTGTTGAACTATTTCCTGAACTATCAACCACCTCTAGTTTAATCATTGAATATGAATCCCCATTTATATTTAATTTAAAATCTCCATTACTATCTGCTAAAGTGTTACCTATTTCATTATTAGAACTGTCTTTAGCTTTTATTGTGCTATTTGCTTCTGCTTTTCCTGATATTTCATCTAATTCAGGAGATTTTTTATTTGTAACAACTACACTTGTAGGTAATTCTGGTGGTAATTTATCTTCAACTTTTAAAGAGATCGAATTTGTTTTATCTCCTATAAATGTGCTATTCCCATATTTATCAACTGCTTTTATTACTAAAGTATCACCAGTATTAATATTTCCAGATAAAGGCAATGTATATCCATTTGCCCCACTTAAATCTATTCCTGGAGCAGATAAAAGAAACTCTCCACTTAAAGAATCTTTATACATATTTAATGTAACATATGTTAAATTTGGAGCTTGTGATACAGAAAATTCTCTTAATGGAGCTTCCTGAGTAGCTCCTTCATGTATTGCAGCTTTTACATTTGCCAATGTTAAATTTAAATAAATAGTGTTTTCGAACTTATAAATATCCGTCTTGTTTAAATGTTCATCTTGAAGATATACATTTATTTTATCATATTGATTATCTCCTAAATCTACTACCAGCTCCCTATTTTTTCCTGTATCATCTTTTCTAATTAATTTTCTTAAAATAACATTTCCTTTGTCATCAGTTATAAATACTGTTATATTTTCTCCAGAAGTAGTTGGAGTTCCAAAATTATCATAATCCCCATTTGGATTAGAATAAGGAATATACGCAATTAAATAATCATCATATCCACTGTAATTTTCTACAAGAGTCATCCATCCTTGATCTATATCTGGACTCACAGTTGCCTCATTTATGCTAAATGTATAATTCCCACCTGGATTTTTTATAGTATAATCTGTACCAGTAGAATCTAAACCTGTATATAGTGCATCTGAACTATCTTCTTTTAAATTTCCTGCAAAATCAAAATATATCTTGTTTATCCCTTCCCATTCTGTAGTTGTAGTTGTCCCAAATTTATTATATACACTTAAAGCATCTCGTTTATGATATTCTGTAGGTGCTAATGTATCAAATGTCCCAACATACTCATAATCAACAGAAGCTCCATTTATTTTTGTTGCTCTAATTTTTATAGTATACTCATTTCCTTCTATAATTCCATTGTTATTATTAAAATCTGTATAAACTCCATCGGTAGAAGTTACGCTTCCAGCATAAATAGGATCATCTGCTAAATTGGGACTATAAAATGTTCCGTCAGATAGCAGTGTAAGTGATTTTAACGTTGTAGGTATAGTTGTAGTCCCGCCTTTCCATGCAATAACATTTCCAGAACTATTTTTTACACTTACAATTTCAACTATATCTGCATTGTCAACTTTTCCAGTTATTACAAAATCACCTTTATACTCTGTATTTAACTCTGGAACTGATACAAATTTAGGCTTTTCTGATTCTAATGGCCTTGTTAGAGATACTATTCTCTCTATTTTTACTATTGGATTAGTAAGAGTTTTTATTGTACCCACTATTTTTATAGAACTTATACCTGTTAAATCTACTGATGCAAAATCTGTACCTGTCCCATTTGGCGAACTATTTTTCTCTTTTAATTCTCCATTTAAATATAAATCTAATTCACTAAATTTATCTCCATTTAATATATCTATATTCTGAATTTCACTAGCTATCTTCCAACTTAAATCAGAATCATTAATTCCATCTATTTCTACTCCATTAACTCCTAACAGATCATCTGTATTATCCGAATCTAGGTCAAAACTAGTTGGAGTTACCGTTGTTAGTGAGTTATCAGCTCTTATTTGAATCATATCATAATTTTTAGGCGAAACCTCACTATAATTAAAAATAATGCTTCCTTCAAAATTTATATTACTATTATCAATAGCATTTTTTTGAAATCCACCTATCCAGGCTGACTCGTTTGCTGATTTGTTTATAAAATCAGCTTGTATATTATATTCGTCAGATATTTCAGCAGGCATATTTATATTCCCTTTTATATACATCTCCTCTTTATTTTGCTTTATTGTAACTTCAGAAAGAGATATTTTAGTATCTGTTTTAGTTCCATCTTCATTTATATCTCCATTGTTTACCAACAAAATAAATGTTATTGATTTTATCAAACTATCTCCTAAATATATCTGTAAATTTGATTTTTGTATAGTTTGATTTAAAGTTATATCATCTATATTATATTTTTCCTTATCCGCACTTACAGTATAACTAGTATTATTTCCAACTTTTATTTTGTAATCCAGCTTATCTGGATTATTAATTTTAATTGATTTTAATACAACATCTGTACTACCATCATAATCAAAATAATACTTATTTTCTATATTATCTCCTAAAGGATTAATCTCTTGTCCTGAAGTAGAATTATCATCTGAATAAAATGTTATATCTGAATCTTTTATATTTATCTCTGTTGCAAGAGCATTTTCATCAATATATCTAAAACTTAAAACATCTGTGCTATGATTTAAAGCTTCATCTGTCATCTCAATTTTAAATCCAACCATTTGACTTGATGCTAAAGAATCATATCCAAAATCTTTTTCTAAATCATATGTTCCAGAATACAATTCTGTATCTGGTTCATGTTGTAATGTTACTTTTTCTTTGTCTACAATAGTACTATTAATTTCTTCTATTCTTATTAAATTTATTGTCGCATTTTTATCATTTTTACTTGTATATTGAAATGTAATTGTTTTACCATTTATTTGCATTGGAGCAGAAGGATTTCCTTCATATTTTCTTATAGATTCCTCTCCAACTTTTATTTTTAAATTAGCTGTATCTAAGTCTGCCAAAACATCAGCTTTAGCTATTTCTCTTTTTATCAAAGTTTCATTCCCATTAGCATCCTCTGCCAAAATATATAAAAACCATTTTGTTCCAGTAGTTCCAGAATATTTACCGCTTGTTGCTGGATCTTTATCAATAAATAAAGATATAATATCTGTAGTTAAAATTGTTGTTGAAAGAGCTGAAGCTATCTCTACTCCATCTTTTTTTATTTTATTTCCTTCTGATTTTATCTCTTGTGCAGTTGACTTCCCATCATCTTTTATTAATGCTCCATATAATGTCACTTTATATTCATCACTTGTTTTTATTTCTAAATTTACATTCCCAAAATCTGTTAAATTTTCATCAAAATTTAATTTATTCCCATTCACAGGATATAAAACTTCTAATTTCGGAGGTTTTGCATCTACAGTTACCTCTACAGGCCCTGTTCCTGATGCATTCCCTACATAAGCTGTACTTTCCGCTCTTAAATTTATCAATAATAATGATATACTGTTTTTCCCTTCAGCTAAAATATAATCATCTACATTATCACCTTTAACATTTAATATTATTTTTCCTGTTCCAGAGCTTTGAGGATATTCTACTTTTTTTGTTCCTGAAACTTTTCCGATTTTATAGTCTACAACTACTCCATTTATAAATACATATATCCCTATTTCATCATCTGCTATATAATCAGAGTTTGATGTACCATCATATACTGCTTCTATTTTATCTAATCCTACTCCACCTTGAATATTAGTTCCATCTGGATTTAAAACATCTCGATTTATACTTCTACTTAAATTTTTATTGCTTTTTTCATTAAATATTTCTCCATTATTAGGATATAAAATTTTTCCAGAATCTTTTGAAAAATTTTGATTATTAATATTTACTTCTAACCCCTCTTTAAGATAATTAACATCTACCTCTTTAGATAGTTTCGATTTTTCTCCATAATTAGTTATCACGGATTCAACTATTATTTTATTTTCTCCTGGCTGCAGCTTTATATTTTCATTATATACTCCACTCAAGCCCCCATTTATTTGAGTGCCATTTATTTTTAAAGTATCGCCATTTGTTACTATTTTTATATTTACGTTATCCTTATTAACTATTACACTTTCTGGTATTACTTCTAAATTTATTTTAGTATTATATTTTTCACTTTTTAGACATCCAGATATAAATAATAATGCTAGTAAAATAAGTATGCTAATCCCCTTTTTTTTCATTTCCACCCACTCCTCTTATTTTTTATGAAACTAATTTAAAACAGTAATTCCGCCATCTTTATCTATTGTAAATATTATTTCTGAACTGTTATTCCCACTATCATAAGCTTCTATTTTATAATTATATAAAGAATTATTATCAAAATCTAAATCAGTTTCACTAAAATATTTTTCATTAATATCCGTAATATCTTTTAATTTAACATACGAATTATTCTCTTTTCTATATACTGAATATTTACTAAAATCTTTTATGTATGGAAATTCCCACCAAATAGATACGAAATCTCCTGAAACATATCCAACTATATTTTTAACTTTAGCTGGTTTTAAATCACAAGTTTTTATTGTAAATATATTTGTCTCAGAATACTCATCTTCATCATTTACACTATTAACATCCAAATCTTTATCCCAAGCTCTTATTTTATAGTAATATTTACTATTTTCGTTTAGTCCATTTTCAATTAAGTTTATTTCATTATTTGAATAATCAACAGAACCATTTGAATAATATGTTTTATTGTATTTCCCTCTATATATTAATATTGAAGGATATATTACAGTTGTGTTATCTACTGAAGTTGATATACTTCTATACACTTCATAATATTGTAAATCTTTTATTTTAGTTGATACATCATTAATTTTTATTTTCATTCTAACTTTATTATTTTCATCATTACTTCCATAAAATTTTGTGCTATCATAAGAATAAACAGAACCACTCGATTCTTCTTCAAATTTCATTTCAAAATCAGTTGGTATATCTGGTGGCAAATTATAACTGTACGCTGATACACCATTTGACCTATCAGATATTTTATACCCTTTATCCCTAACTACGACCTCATATTTGTACAATTTATTTTCATTCTCTTTTCCTATTTCATCTTTGTAATATGTTTCATTTGCATTTTTTATTGTAGCAATTTCTTTATAATCATTTTCATTGTCTGAACCAGTGTCATTTCTGTATATTACATATTCCAAAAAATCATGTCTATCTATCTCAGAAACTTTATCCCAATATATTTTTATTCCATATTTTTGTAATGTATCTATCTCTTTTTCTACATTTCCAAAATATATTGTAAGCTTTTCTGGTTGTTTATTTAATGTCTTTATCTCTAATATATTTGACTGCACTTTGTTTTCTGAATCTTTTATATATTTATCATAACCTAATATATAAAATTTATAAATAGAATCATCGTCCAATCCACTTATAACATTATATAATTTTGTCCCACTATAGACCCTTTCATAATTTTCATCATCTCCTTCTTTTTCCATATATAATTCATATTTCAACAAGTTATTTCCAGGGTAAAGGCCTGTCCAATTCAACGTTAATGCTGTTTGACTTAAATTACCATATGAAAGCTCTATTGGAAGCAATTTATAAAAATTAATATATAATGTTTTTATACTTATATTTCCTGCTTTATCTTTCGATAAAATATCTAGTTTATTCAAACCTTGAGTCAATAAATTATTTGTAATTGATACACTATAAATCCCCTTTTCTAAAGGTGATGCATTTATAGTGTTATCCCCTATTTTTAAATTAACTTCACTAGATTCAACTTCTAAATCATCAGTAACTTTAAAATCTATATAAATATCTCCATCCATTGGATAATTCATATTTTTTGTATAGTTAATTTCTGAATAAATCAAATTTGAAGAATCTTTTTTATATACTTTAATTTCACTTGTTATCGGTGGTAAGGCGTCATAATATATTTCATAATTATTTTCTTCTGATAATCCATTTTCATTTTCTAAATATATATTTATATCATTATTACTATTTTTTTTTCCTAAATATATTGGATATATCCCATTCGATTCCTCTTTTGAATATAATATTTCACCATTTAATTTTAAAATAAATTTATCAATTTTCATCTTTATATTTTGAGAATCTATTTTTATAACAAGCGATACATCTCCATTAGCAGAGTATTCTATTTTATTTTCAACTATATCTTTATTATCTAATTTTATCTCTTTTATAATGGGAGATTCTTTATAATACCTAACCAAAATATTTTTTTCATTTTGGTTTCCTGCAAAATCGTAAAAAATTAATTTTCCAGAAAATTCACTATCTTTTATCTCTTCTGATGTTATTTCAAATATATATCTCATATTTGATTTTATTTCTTTAGGAGATTTATCTCCTAATTTCACATCTTTTATCCCAACATTATCCTCTAAAGTAACATCAATTAATATATTTTTATTATCTTTCAAATTCACAATCATATCATCTGCATATAACTTTCCATTTATAGTTAAGCTTTTTACTGTAGGAGATTCTGCATCTAATGATACCATCTTTTCTCCAGTTAATATATTCCCTGCTTTATCACTAACCTCATAATATATTGAACTTTTCGTAGTTGTTATATCTTTCGTGAATCTATTTGTAGAACTATCTACTGTAATTTCACTATTTTCAATTAATAATTTTTCAAAATTATCATCTTCTACTTTTCCTGATAAATTAATGGCATCTTCTTTTGATTTTATCCAAATTTTATCATTATATTCATTATCAAAAGTTACAATTGGTTTAGTATTATCATAATATATATTTTTCTCAACAGACTCCTGATTTCCAGCATTATCTCCAACTTCTAATTTTATAATTTCATCTTTTTTAGGTTCACTTAAAATATAATCTAAATTAAAATCCCCACTGCTCTTGTCCCAATCAGCATTTTCAGAATTTAATTTAAAATAACTTAAATTTAAATGCACATCTTCTGTTTTTAATTCTCCTGTTATTGAAATATTTGGAGAATTCACATAATATATATCATCCTTAGGCAAAACTTCTATACTGCTTTCTAATATTTTTATATTATCCATTTTAGGTTTTGTTATACTGTTATATATTTTTATATTTTTTTCTTCAGTTACATTTCCAAACTCATCTAAAAAAGAAAATTTAATTACATTACTTCCGTTTTTAACATCTACTGTTACTTGTTGATTAATAAACTTACTTTTGTCAATTTGTATATCATTTACAGATAAATAATTTAAATTAATAATATCACTTACATCTTCTAACTCAAATTTTAATGTAACTTTTGATTTATTTGTAATATATTCTTCTCCTAGATTTACTTCAGTATCATCACAATATATTTTGTGATAACTAGGAGGTACTTTATCATAATAAAATTTTATTGCACTTGTTGTTACATTCCCAACTTCATCTACTACATTTATACTTAAAACGTTATCTCCTGATTTTATATTTTCATAATTAAGCGTGTATGAATCAGTTCCCTTTGTAAAAGTTTGCTCCTCTAAACTCACTTCTTTTATTCCACTCTCATCAGTTGCATTTAACTCAATTTTTATTTTATTATTATTCCCACCTACAATCATATTATCTATATAATCTTTATCATTTATCTTAAGTTTTGAAACTTTAGGAGAACTGTCATCCTTTATTAAATTTATTTTTATATTTTTTTTATTACCTCTCTCATCTTCTGCTATTAATGTTATTTTTTGAATTTTAGTAGTATCTATATATAGAGTAAATTCTCCATTTTTTAATTCTACATTAATATCATTTTCTTTTAAATATTTTACTTTATCATTATCTTTTACACTACCTTCAATCTTTACTATACCATCTTTATAAGGAAGATTATATTCTCCTTCTTTTATTTTTATTATATTCTTATTTTTTAATACTATTGTTGGAGCTTCTTTATCAAAATAATTCATTATACATCCTGCAAAAATTAAGCTTAATAACAATATCAACAACATTTTTTTATGCATAATATATCACATCCCTATAAAATAATATAATACTACTCTTAATTATCGACAAATTCATAAAATAACTTAATAAAAAAACAGCTGCCTTATTTTCTAGAAAATTTTATATTTTTCATTAGTGACAATCACTATTCCTATCATGGTTACAAAAAATCCTCCCCTTTGTGAACCCTTAGTGCCCTTTGCGTCTTTGTGCTGAAATTATTTTACTAATAAATTTACACTTTCCTAACAAATAAAAAAGAAGCTACACTTCATCTCGTAAAAAAATGGCGTAGCTTATTCTATATATATTTTTTAATTCCAATCATATCTATTCTCTTTATATCCCAATATAATAATCGTCAATTTAATCCACTTTAGTTAAAATTTCTACTCCCTTAGAAGTTACTAAAACAGTATGCTCAAATTGAGCACTAATACTATTATCAGCTGTTGTAACTGTCCATCCATCTTCTTTTGAAGTAATTGTTCTGTGAGATTTTCCCATATTAATCATTGGTTCTACAGTAAAAATCATTCCTTCTTTAAGTCTAATTCTATTTTTGGCTGTATAATTATGAAAAACAGCTGGCTCTTCATGAAATTTTGCACCAATACCATGTCCTGTATAATCTCTTACTATAGAATATCCAAATTTATTTATGTATTTTTCGATAGTTTTCCCAACTTCATACAAATATTTCCCTGGTTTAATTGCCTCAATTCCTTTATACATAGCATTTTCTGTTCTTTTTACTAAATTAACAACTTCTTCATCTACATTCCCGACCAAAAAAGTTTTAGAAGTGTCCCCATGATAACCATCTAAAATTACTGTAACATCCAAATTTATAATATCTCCATCTTTTAAAATTTCTTTTTCAGAAGGAATTCCATGACAAACTACATTATTAATAGATGTACACATACTTTTTGGAAATCCATTATAATTTAATGGTGCTGAAATAGCTCCATGTTCTTTTGTGAATTCTTCTGCCAAGTCATTAAGATATTGAGTTGAAACTCCTTCTTTTACAAAAGGCTCTAAATATATTAATAATTCTCCTGCCAATTTACCAGCTTTTCTCATCTTTTTAATTTCTTCTTTAGTTTTAATCTTAATCATCATATTTCTCCTTCTATTTTATATTATATTTTTTATTTACGTGATTTTTTCAATATATCTTTAATAGCTTCCTCAATACTAGTATACTTCATTATATCTTCTGTTTTCAATAGTTTTTTTATCTCTTTTTCTCCATATCCAAGGGATTGTAATGCTAAAATTATATCTTCTTCTAATTTATATCCATTATTTGTCTCTGCTGTTTCTTCTCCAATTTCCCCAGTTAATTTTATTTTGTCTTTTATATCTAAAATTAATTTTTGACCTTTTTTCATTCCTAATCCTGGTACTTTAATTAATCTTTTTAATTGCTCGTTAATAATAATATCTTTTAATTCAGCTATACTATAAGTTGATAATACTGCAATTGCTAATTTAGGTCCAACTCCACTTGCATTTACTAATATTACAAAAAATTTTCTCTCTTCTTCAGTATAAAACCCAAAAAGCTTAAAAGCTTCTTCTTTCACATGTGTGTAAATATATAATTTTTCTTCACTATTTTTTATACTTTCATATGTTTTTAAAGATATGTATATTTTATATGCAATCCCATTTATATCAATAGCCACATAATCAACCCTTTTAACTACAATTTTTCCTTTTATATATTCGTACATAATTTCTCCTTTTTTTTATTATCAATTAACCTTCTATATAATTCCCATCTGGCAACATCTCATCTGAATGATACTTTCCAATTTCTTCCATTTGATACCTAACACAATTTTTCCAATTGCTTTCACTTAAACAATATCTATCTATCCATTTTCTCTCTATTCTTCCTTCTTCATATGCAAATTTCATAGGACAAACAAAATACCACTTACATCTCATCCATTCCACCTCACTAAAATTCAAAAAATAATCTTTTCATCTTTATTTATATTTTTTATTTTAATCTCTTTTTTTATTTTACTAATTGTCAATTTCCTATTATATTTTCAACTATTTTCTTATACTATCTCTTTTATATTTACCCCTTTTACAAATAATATTGTTGGCATTCCTTCTGACAATACATTTAATCTCTCTATATACAATTGTTCATTCCCTTCTATTGGTTCTGCTAACCCCATTACAACTAAATCTGCTCCATTAGATTTTTTATGTATTAATTCAATTACAGTTTCATCTTCTGCATTATATAACTCTATATTTGCATCTATTCTCATTTCTTCAAACATATTTTTTAGCTTATCTTTTAAATTTAAATTATTATATTCTTTCATTACTATACTTTTAATGTTTATTGTTGCATTTTTCCATTGTTCATTTAAAGATATTACATGAGCCAACATAAGCATTAAATTTCCATTGTTTTCTAATCCACCCCACCAAATATCAATTCTTTTTTTTCTTCCAAAACCTAATTTAGCATTCTCTTTAAATATTATTATGTTTTTTTCAATTTTAATCATATCGCCAATAAATCTTACATAATCTATCATTTTATTTTCATCTTCTGAAAATCCCAATAATACTGTATTTGGTTTTAAAGTTCCAATCCCATTTGCTTGAACTATTGCAGTTGCAGACTCTTTAAAACTATTTGCTATAATAACTTCTTGAAATGCTAAAATATTTCTACTATTAACATAATCTTTAAGATTCTCTGTTATAATTTCTTTTGATTTTAATTTATCTTTTATTCCACCTGCAACTATACTTACTAATGTTACAATTCCATTCCCTTTTGTTAATAAATTAGATAAATAAACTAATCTTTGCCTTTGCCTTGGTGTTCCTGAAAAAACAATTATATCTGGCTTCCAATTTTTACCATTTTCTTCTTTATTAAATCTTATTTTTAATAATGCAAATCTAGCTAAAGCTATCCAAATTCCACCTCTTAAATCTCCCCAAGTTTTGGTAACTTGTTTCCTGCTTAAATATAAATATATAAAAAAGGTTACAATTAATGATATAATAGTTGCCCATTTATTAATTAAAAACATTACCCAATAAGAGCCTAATGCCCCAACTAAAGAGATACTCCAATGAACTTTAAATGTTGGTCTATAACTTGGATTCCCAACTACCGACTCTAAACCTGCAGCTAGATTTACTGCCCCATAAGTATTCAAAAAAAACATTGTTATAATTGGAGCAACTACATCTAAATTCCCCATAATTATAAATATAAATGCTATTATAAATGTGATTATTGATGCAATTCTAGGCTCATCTGCAGCTCCACTCCCTTTACCCAATTTTTTAGGTAATACTCCATCTTTTGCCAATGCTTGCATAGTTCTTGGTGCTGCCACAATACTTCCCAATGCAGAAGATAAAGTTGCCGCCCAAATTCCTAGAATAATAAAATATGGAAATTTTGTTATTGATATTAATATTAATTTATTGCTCATAAGAGTTTGACTATCTACATTTAAGCTAAACCATATAGTCTGTAATATATAAACAATAAATGTAATACCTATTGCTAAAAATGTTCCTCTAGGAATATTTTTTCTAGGATTTTTTAAATCTCCAGACATACTTACTCCTGCTAAAATTCCTGTAACTGCTGGAAAAAATATAGAAAATGCTACCCAAAAACTTTTTGCCTCTTTAAAATTACCTATATATGTAATTGGAGTATTATAATCTCCAGATATAAACACTGTCCCTACAGCTAAAATTATAGACCCAAATATAAAATATTGTGCTTTTATAGCAAAATCAGCTCCTACAATAGATATTGCTCCTATTATTAATGCTACAACTATAGACACTGCTGTCTTATTTACTCCAGGAAATATAATCTCTACAGACTCAATAAATCCTAAAACATAAAGTGCAACAGAAATAGCTTGAGATAAATATAATGTTATCCCTATACTTCCTCCTACTTCCAATCCCAAACTTCTAGAAATTAAATAGTAAGCTCCTCCACCTTTTACTTTCATATTTGTCGTTATTGCAGACATAGATAATGCTGTTGATATTGTTATAATATGTGCAATTATAATTATAGCTATTGTTCCTATTAACCCAGAATTTCCAACTACCCATCCTAATCTTAAAAAATATATTACTCCAACTATTGTCAAAAAAGTAGGTAAAAACACTCCATTAAATGTCCCAAATCTCTTCTCCATAAATAACCTCCAAATAAAAAATAAGATACGCTTCATATCGTACATAAAAATTATTTTATAATATAGCCTTTAATCTTCTCATTATTAATTTTTATTATCGTTTTCATTTTTTATTATCATTATCAATTATTCTCTCCACTATAGCTTTCTATATCTATATATTTTGCTTCTTTTAAATCAGTTCCTAAAAATATTTTTCCAATCTCTTCAAATTTTTTAGGCATATCGCTTACAAAAAAATCTGATTCTTCTCCTTCATCATTTCTAAGCAATCTTTTGCTATACAATATATCTCTAACTTCTATAGCTGTTTCCTCTGCAGAATCTATTAAAATAACATTTTCTCCTACTATTTTTTTTATAGTTTTTTTTATTAAAGGGTAATGTGTACATCCCAATACTAATGTATCTACTTTCCCCTTTACTCCATTTAAATATCTGTTTGCCATTTCATATGTCACACTGTCTTCTAATAACCCCTCTTCAATTAAAGGCACAAATAATGGGCAAGCCTTCTGATATACATTTATATTTTTATTTATATTTTTTACTTCATTATAATATGAATTACTTCCAATTGTAGCCGTTGTTCCAATTATACCAATATTATTGTTTGTTGTTGTTCTAACCGCTCTTCTACTTCCAGGTTTTATTACCCCAACTACTGGAATATCAACCATATTTTTTATCTCTTCCAATGCCATTGCTGTAGCAGTATTACAAGCTATCACAATTATTTTAATATTTTTTGTCATCAAAAAATTTGTTATCTCTTTTGAATATTTTACAATTACTTTTTTAGATTTTGATCCATAAGGAACTCTTGCAGTATCTCCAAAATATATTATTTTTTCATTTGGTAATAATTTTCTTAATTCTTTTACAACTGTAAGCCCACCCAATCCTGAATCAAATACTCCTATTCCTCTTCTTTCCATTTTCTTCTCCTTGCTGTAACTCTTTTTATTAAAATAGATACTACTATAAATATAGACGTTAATATAAGTAGCGTAGATATAAATATATCTTGAAATACATTTTTCCCAATTGATCTAATATATGTAAAATCCTTATTAAAGACTTTCACAGATTTATTTGCTCCATCTGTAACATAAATATAATTATCTGTTACCCATATATCATTTGCATCTCTAAATTGAGTAGGTTTATCACCTCTTTCTCCAAATAATAATAATATTTTATAATTTTTATTAAAAACTTGTATTCTTTGATTGCCATTATCAACTACAAATATTTCTCCAGCTGTATCTGCAAAAATATCAAGTGGTGCTTTATAAGATAGATCAAGCTCTTTTGATTTTCCATAAAGAGACCCTTTAAAAATTCCATTTTCATCATAAATCATAACTCGATTATTTCCACTGTCAGATACAATTATATCTCCATTTAATTTTGTTATTCCTTGAGGCTGTATCATTCCTCCTACAGTAACGCTTTTATATCCAAAATCTCTAATTGCTTCTCCTTCTAAATTAAATATTTCTACTCTATTATTATCTGTATCTGCTATATATATTTTTTTATCTGATACATATATTGCTTTTGGTCTTTCTATTTCTCCAAGTAATTTTCCTGCTTTTAAATCAATCTCTTTTAATAATTTCCCTTTTAAATCAAATATATATATTCCATTATTTGTATCTAATAAATATACTTTATTTCCTTTTACAAATAGATCTACCGGTGAAGGATATACTCCACCCTCTTTATAATTTTTTCCTCCTGTTTGTTTTATACCAAAAGAAAACAAATATTTCCCTTTTGAATTAAATTTTTTCACACTATGTGTTATTCCATCTACTACATATGCGTTTTCAAATTTATCTACAGCTACTGACACTGGAAAAAATCTAGTACTCAACTCTTTTTTCACAAAAAATTCCTGTGAAAATGTTATTGAGCTTAATATTATAATTAGGTAAAAAATAGTCTTTTTCATTTTAAACATCTCCTATGTAATTTTTTTCTAATGAGTTGCTTAGTTTACATAATATCTCATCTGGAATAGTATCGACTATTTTAGCTAATCTATTTATACCTATTTTACCACCAATAACTATAACCTCATCCTCTATTTTCAAATTTTCTATTTTTGAAACATCCACAATTATTTGATCCATACAAACTTCCCCTACTATATTACATTCTATTCCATTTATTTCAACTAAACCTTTTGATGATAATTGAAATAAATATCCATCACTATAACCTATTGGAATAATTGCTATTTTCATATTTTTTAAAGCAGCTGTTTTTAATCCATATCCTATATTCTCCCCTTTTTTAACATTAAAAACTCCAGAAATAATAGACTTTAATGTTAAAACTTCTTTTATATTATTATTATATTCTTCTAAAGGCTGTAATCCATAAATTGCCATTCCAACCCTAACATAATCATAATCAAATTTTCTATATAATAACGTGGCTGCACTATTAGAAATATGTTTTACTCTAAATAAAATATTATTCTCTTCAAACTTCTTTATAATTTTATTGAAATTATTATCCTGAAATCTTGTATATCCTTCATTTCCACTAGCATTTGCAAAATGACTATATATTCCCTCTATTTTCAAATTATATTTTTTGATTAATTTTATTGCTATATTTAGATCCTCTTCTCTAATCCCTAATCTATCTAATCCAGTATTAACTTTTAGATGAATTTTTAGTTTATTTATATTATCTCCCATATAATCAATATATCCATTTAATTGTTCAATTGAATATATTGTTATAATTATATTGTTTATATTAATTAATTTATTCAAATACTCTTTTTTTATATAATTAAATATTAATATTTTCTCTTTTATTCCACTTTTAATTAATTTTATAGCCTCTTCATAAAATGCTACTCCAAAGAAATCTGCTCCTGCTTTTTTTAAAACTTTTGCAATTTCTACTATTCCTAATCCATAAGCATTTGCTTTCACTACAGCCATTACTTTTGAATTAGTTAATCCCTTAATATAATTATAATTTTCAACCACTTTATCTAAATCTATTTCTAAATAACTATTTTTACTATTTCCCATATTAAAATATCCCTTCACGAAATCTTTTTATGATAATTTATATCTTAATCTTACCACATTTCTTATATTACTTCAAATAAAAAAAGATGATTTCAGCACAAAGACGCTAAGAACTCAAAGTTACACAAAGAAAAAATTTTTTAGAACCACTGAACAATGATGGATGGAAAATGGCGACTAATTATCTGTATTTATATATATATATAATTCACGAATCTCCATTTTACAAAAAAATAACAAAGTGAGAAAGTATAAAACAAAATAAAAAAAAGCCCCTCCAAAATTGAAGGAACTTCTTAATTTAATATTTTAATTATAAATCTCTTAAAATGCTGTAAAAGCTAAATCTAATAAAGATAATGCTCCTATAACCCACATTGTAGGTGATATCTTTTTAAAATCTCCACTTACTAATGTTATCAATATATATGATAAAAATCCAAATATAAGGCCTGTACTTATACTATATGTAAGTGGCATTAATATAATAGTTAAAAATGCTGGTATTGCTACTTCAAAATCTTGAAAATCTATTTTTTTTATATTTCTAAACATATATACCCCTACTACAATTAAAGCTGGTGCTGTAGCAAATGCTGGCACTATTCCAATAATTGGAGTAAATAATAAAGCTAATAAAAATAATATAGCTGTAACTGCTGCTGCTAATCCAGTTCTTGCTCCATCTGCAATTCCTGAAGCTGATTCTATATATGTAGTTGTTGTACTTGTTCCAAATAATGAACCTACAACTGTAGCAATTGCATCTGCTTCTAACATTTTATCTATTTTTTTTATAGTTCCATCTTCTTTTACCATATCTGCTTCATAAGAACATGCTACAATTGTACCTATTGAATCAAATAGATCTACAAACATAAATGAGAAAACTGCTCCAATTAATCCAAAACTTAAAGCTCCCATTATATCTAATTTTAATGCTATTGGAGCTATTGAAGGTGGTACAGATATTATTGCTGTAGGAATTGAAACTTCTTTAAATATTATTCCCAAAATAGTTGTTAATATAATTCCTATTAAAATTGAACCTTTTACTTTTTTAACTTCAAGTACAGCTATAGTAATTAATCCAACTAATCCTAATATTACAGGTGTATTAAATTTCCCCATTCCAACTAAAGTTGCAGGATTATCCACTACAAGCCCCATACTTTTAAACCCTATAAAAGTAATAAATAAACCAATTCCAGCTGATGTTGCTAATCTCAAAGATAATGGAATTGCATTTACTATCTTTTCTCTTACTCCCAAAACTGTTAATATTAAAAAAGCTATTCCAGATACAAAAACAACTCCTAAAGCTGTTTGCCAACTTACTTTTTGTCCCAAAACTAATGTAAATGCAAAAAATGCATTTAAACCCATACCTGGCGCCATTGCAAATGGTACATTCGCCCATACTCCTACTAATAAAGTTCCTATAAATGCTGCCAAAATTGTTACTGTTATAAGTGCTCCTTTATCCATTCCTGTTGCTGATAATATATTTGGGTTTACAAATATAATATACGCCATTGTAAGAAATGTTGTCGCTCCGCCTATAACCTCCTGTTTTACTGTTGTGTTGTGTTCCTTGAGTTTGAATACTCTTTCCACTTTTTTCTCTCCTCCTATGATTTAATTTTGACAAAAAAAAGAAACACTTCATGAGTGAAGTGTCTCTTTTTTATCAAACTTCACCCATAGTCGGGTGTTTACGGCAACCCGGTAGAGACTTTCAGGCCATATTCCTGAAATTATATGAGTATATTTTATTTATTTTTAATCTATTCCTAACTATTGTATAGATAGTATATCACAATTTCAGAAAAATTAGAACAATTTTTCTGAAAAATATTCTGGTAATTCTAAATTAAATTTAAAATTTTCTTTTTCAATTTCTATTTTATGAGAAAACAGAAACATTTTTTTTCCTGATTTCACACCATATTTATAATCTCCTAATATTGGATAACCTTTTTCTGCTAATTGTACTCTAATTTGATGAGTTCTTCCTGTTACTAATTCTGCTTCTAATAAAGAATATCCATTATTCACTTTTATAGCTTTAAATATAGTTTTACTCCATTTACCTTCTTTATCTTCAGCTACTTCATTTACATTCTTTTCTCCTTTTAGAAGATTACTTTCAATAACAAATTTTTTCTCTTTTATTTCACCTTTTACTAATACATAATAATATTTTTTTATCTCTTTATTTCTTATATATTCTGTATATGTCCTAATAGTTTTTAAATTTTTACCTGCTAATATAAGTCCAGATGTCATTTTATCTATTCTATTTACAAAATTTATATCTGAATTTTTATAATAACTTTTCAATATTTCTATTAATCCATAATCATGCCCACTTCCCTTATGCACAACTATCCCATAAGGTTTGTTAAATAATAATATATTCTCATCTTCATATACTATTCCTTGAGTTACTAATTTAGAGTCTCTTTCATCTAATTTTATAAATTTTTTCTCTTTTACAATATCATTTGTTATAACTTTTAAAATATCTCCTTCTAAAAGTCTATATTTTTCTTTAGTTTTTTTTCCATTAACTTTTACTCTACCTTTTCGTATCATTTTATAAATACCCATTAATGGAATATCTTTATATTTTTTTCTTAAAAATTTGTCAACTCTTACATTATCATAATCTTCATCTATAATGTATTCTGCCATATTTTTTCTCCTATTTTAATTTTTTCCATAATTCCTTAAACTATCCTTATAGAGTTTATTCTAATTCGAATAATTTTTTATACTTTGAACTATACCTAGCATCATAAAACTAAACATAAAAGAACTTCCACCATAACTCATAAGTAATAATGGCAATCCTGTTACCGGCATTATTCCTATTGCCATTCCAATATTTACAAAAACATGAAAAAAGAAAATCCCTGCAATCCCAAATGCTACAAATTTTCCATATCTATCTTTTGTTTTTCTTCCTACATTTATAATATATATAATTAATGTTAAATATAAAATTATCAAAATACTACTTCCTAAAAATCCTAACTCTTCACTTAATACTGAAAAAATAAAATCCGTATGTGATTCTGGCAAGAATTTTAATTTATTTTGAGTACCATGTAAAAAACCTTTTCCAAAAAGCCCACCTGAACCAGTAGCAATCATTGATTGAACTACATTCCATCCGCTTCCATGTAAATCTTTAGTTGGATCTAAAAAAGTATCTATTCTTCCTCTTTGATAATCCTTTAATAAGAAAAAATATGCTATGGGTATAAAAATAATTCCTGCTCCCACCAAAGAAAATAATGGATACAGATCAACATCATTTAGAAATATTAATAAGAAAAAAATAAATATTAGCACTAAAGATGTTCCTAAATCAGGTTCTTTTAATATTAATAAAAATGGAATTAATATATGGAATCCACATACAATAATATTTTTCCAACCTCTAACTCCTTTAGAATATTTATTAGCAAGCAACTCTGAAAATGTTAGTACTAAAAATATTTTTGCAAATTCAGACGGTTGAATACTCATAAAACCTAAACTTATCCACCTTTTAGCTCCTAATATCTTTTTCCCAATCACATATACAGATAATAACAATCCTATATTAAGTGTATATATAACTTTAGAATATTTAGCATATTTCTTATAATCAATCAAAGAAAAAATTATAAAAACAATTGTTCCAAGTAATGTCCATACAATCTCTTTTTTAAAAAAAATTCCATGTTTTTTTAAACTAGCACTGTAAACAAAACTTAAACTTAAAAATACCAATATATATATATTTAAAATAAATTTTATATCAACTTTCCTTACTTTCCTTAATAATTGTCGAATACTTTGATTATTTTTCATCTATACTATCTGTATCTGATTTAACTTTTTTTATTGGAATATTAATAGATAATCCTACATTATCATCCTCTTTTTCAAGATTAAATTCTAACCCTTCTGTATCTATTTCTAAATATTTAGAAAACACTCCTATTAAATCTCTTTTTAAATTTTCCATTAAAACTGGTGTAAATGTAGTTCTATCTTGCATTATCACAACTCTTAGTCTATTCTTAGCTATTTCTCCACTTTTTTCTTTTACAAATAATTTTTTTATTGCTTCAAACATTTTTATCCCTCCTATTTTCTCAATAAAATTTACCCCTATTTTTTAAACAAAGTAGCAAGTTTTTTCAATATACCTTTTTTTTCTTCAAGAGTTAATAATGGTACTTTTTCTCCCAATATTCTTTTCACAACATTTCTATATGCTTTACCAGGTCTTGACTCCTCTGTTTTTACAATTGGTTCTCCTCTATTAGTTGAAATAACTATATCTTCATCATCAGGAACAATTCCTAATATTTCAATTTCTAATAAGTCCAATACATCTTCTATTGATAACATTTCTCCTCTTTTTACCATATCCATTCTAATTCTATTAATTATTAATTTAGGGGGATTTTTTTCTGCAGCTTCTAATAATCCTACTATTCTATCTGCATCTCTTACTGCTGATACTTCTGGATTTGTAACCACTATAACTTCATCAGCTCCAGCTATTGCATTTTTAAATCCTCTTTCTATTCCAGCTGGAGAATCTATAAATACATAATCAAATGTTTCTGCTAACTCTTTTGTTATTTCCATCATATTTTCTGGCGTCACAGCATCTTTTTCTCTTGTTTGTGCTGCTGGAAGCAATTGTAAATTTGCTTTTAATTTTTTATCTTTAATTAATGCTTGTTTTAATTTTGCCCTTCCTTCTACTACATCAACTATGTCATAAACAATTCTATTTTCCAATCCCATTACAACATCTAAATTTCTAAGCCCAATATCTGCATCTATAACTGCTACTTTTTTTCCCTGCATTGCTAACCCCGTACTAATATTAGCTGTTGTCGTTGTTTTCCCAACTCCACCTTTTCCAGAAGTTATTGCATAAATTACACCTTTTCCCATAATTACCTCCTATTTTTTATCTTATCCTAATTCTAATTCTTCCCTGTATGTCCAAATCCACCTTCACCACGTAGTGTATTTTCTAATTCTGATACCACTTCTAATTTTGCTTTATCCACTTTTTTTAATATAAATTGTCCAATTCTATCATACGGCTTTATATTATAAGATTCTTTTCCTAAATTTATCATTATAATTTTTATTTCACCTCTATAATCTGAATCAATTGTACCAGGTGAATTAACTAATGTTAATCCATGTTTTAAAGCTAGCCCACTTCTTGGTCTTACTTGCACTTCATATCCAACAGGTATTTCCATTTTAACTCCCGTTGGAACTAAAACTCTTTCTAATGGAGCAATCTCTAAATCTTTATTAATAAATGCAAAAATATCCATTCCTGCTGAACCAATTGTTTTATATTCTGGAAGTTTTGCCCCTTCTTCTAATATTACTCTTATATTTATTTCATTATTTTTTATATTATTATTATTATCCTCTTTATTATTCTCCTCAACTAATTTTTCAGCCATTATAAATTTTTTAACCACCTTTCAATCTTTAATTTCTTTTTAATATTTTTTTCTGCTTCTTCCATTAAATTTTCAATACTTTTATTTCCTTCAAATATAGAATATCCATAATTTAATTTTATTACACTGCTATCCTCATAATTTTTTAACTCTACTAAATTTTTTATTCTTTCCAATACTGTATGTAATTCCTCTACAGAAATTTTATTTAATAATATTGCAATTTTATTATGCATATATCTAATCACTATATCACTTTCTTTTATATTATCATCAATTTTATTTATAATTTCATTAAACTTTTGTATTGGTATATTTAATTGTTTTTGTGATTCATAATCTATATAATAGTCTATTTCACAAATTAACAATATAAATTTTTGATTTCTTTTTCTTTCAATATCCAAAATTTCTTTTAAATATTCTTTTTCAAATTCGATTTCTTCATCAAAATTTATTATATGTCCTGATAAAGCTATCCTTTCAATTGCAAGTTCTAACATACTTATAAATGGTTTTAATACAGGAAATTCTTTTTCAAATATAATGACTCCATATTTTTTTCCTCTTACATTTAAAATATGTTTATGTCCATTATTTATACAATCTATATCATTTAATTCTTTATATAATTTTTTACCCTCACATTGAATTGCTATATTTTTTTTATAAATATCATTTTTTTCATCATATTTATAAAAAGCTATTTTTTTTATATTATACTCTTTTTTTAGCATTTCAAAACTCTCGTTCAAAATTGTTTCAAAAGATACAATGTTTTTTAATTTTTCTATAAAATTTTCAATAAATTTTATATTTTTCATTCTTATATATCCCCTAGTGCAACTACAGAATAATTATCCTCTTTAAAATACGTTTTGGCAAAATCATGTATATCTTCTAATGTTATATTTTTTATATCTTCTAGGATTGCTTCTATTTTTCTTATTTCTCCATATCTAATATAAGCTAATGCCATCCTTGCCATTCTTGAACGAGTTGTTTCTAATCCTAATGTTAAATCACTAATATATTGATTTTTACTTTTTTCCAATTCTTTTTTAGTTATTCCATTTTCATAAATATCTTTAAATTCATTTTTTATTATTTCTATTGCCTCATTATACTTATCTTTTGTACTTCCTGCATAAGCTGTAAAAAATCCGCCTTCTTTATACATCGAACTATAAGTATATACAGAATAAGCTAATCCTTTATCTTCTCTAACTTTTTGAAATAATCTTGAGCTCATACTTCCGCCTAGAATATTAGATAATAAACTTAATATATATCTATTTTTATCTAAATAAGATATACCCTTTGTATTTACACATAAATGAACTTGATTACTTTCTCTTTTCATCTCTTCAATACCTGTGTTTATAATTACCTCTTTATTATATTCTCTATCTACTTTTGTTCTATTTAATTTACCAATATTTTCATTTAGCTGTTTTATAACTTCTTCTTTATTAAAATTTCCAACAACTGATATTACTGTATTATCTTTTGTATATCTATCTTCCCAATATTTTTTTAATAATTCTCTACTTATATTAGTTACACTTTCTTCTGAGCCTGCAATTGGAAGTCCTAAATTGCTTTTGTTTAATACAAATCTAGAGTTTATTTCATGAATTTTTTCTTCTGGTATATCTTCATACATTCTAATCTCTTCTATAACAACTTTTTTTTCTTTTTCTAGTTCCTCTTCTGGAAATGTAGAGTTAGTATAAATATCTGCTAATACATCTATTGCTAAATTTAAATATGTATTAACAATACTAACATAATATGCTGTAACTTCTTTGCTTGTATATGCATTTATTTTTCCACCTACATTATCTATATCTTCCGATATCTCTTTTGCATTTCTTCTTGAAGTTCCTTTAAATAACATATGCTCCAATAGATGAGATATTCCCTTCTCTTCATAATTTTCATATTTAGAACCTGTTATTGCATATATACCTATTGTTGCTGATTTTACATTTTTTGTAACTTCCATTATTACAGGTATCCCATTTTCTAATTCCACTATTTCAAATTTAAACATATTTTTCCTCCCAATTTCTTAATATTCACTTATTTTAACCAATGATATCCCTAAAACTAAAAAGAGTATATCTGGTATCCATCCACTTAACATTGGTGATAAAAATCCTCCAACTCCCAATGCCTCTGTTGTAGCTGTTACAACGTAATATATATACCCTATTACTACACTTAATCCTATACTTACTGCTGATGCTCCTCTTATATATCTACTTCCTAGAGATAATCCTATAAAGCTCATTATAAGTGCTGCAAATGGATACGCCATTTTTTTATACATTGCCACTAATATTTTTTTTACATCCCCACCTGTTTTTTTTATAAAATTAGCTGCATCTTTTAATTCACTTATATTCATCTCTTTTTCTCTAACTTTATCTCTTAGTAAATCTGAAGGAGTTTCTTTAAAAAAATCTGGCTCATAAAATCCCATTGTTTCTATTTTATTATTAATAATGTCATTTATTTTAACTCTAGAAAAATACCATTTCTTCAATTTTATATTATATTTTCCTCTTTTAACTGTTATAATTTTCTCTATTTTTGAAAAACTATTATCCAATAATACTATTTCAGAATCTGAAATATTGTTTCCATTTACAAGTCTTATATAAGTTAAATAATTTCCTTGCCCTTTCATAAATACATCAGTTTTTATTCTTGATTCTTTCACATTATATACTTCGTTATTTTTTAATTCTCTATACTTTTTATTTGAATTTGGAACCACATTATTATTGAACCATAATAATCCAATTGAAATCAAACCACTTAATATTACTGGAGCTAAAATAATTCTTTTAAAACTTACTCCTGATGTTTTAAGAGCCATTATTTCTAAGTTAGTAGCCATCTTATTTACCGTCATTAATCCACCTAATAAAACTCCTAATGGTATGACATTTATCATTACTGTAGGTAGCCCATTTAAAAGTAATATAAATCCTTGAATAGGTGTTAATTTCCCATCCATTATATATCCAATAATTCTAAACATTTCACTTAAAATAAAAATTATTAAAAATGCCATTACTCCTAATAAAAATGATTTTATAAAACTTTTTAATATATATTTATCCAATTTTTTCATCTATCTACTCCTTGTTTGCTTATAAAACAATATTAGACTAAGTAATAATAATAATAAATTAGGATACCACATTCCTACAATTGGTGACAAAACTTTATTATAAATTAATAATCTTCCAAAATTAATTCCCATTATATAAAAAAATATAATTACTAAACTTATTCCAAAACTAACCCCTTTCCCATTCCTATTGTTCTTTACAGATAGCAATACCCCTAAAAATGAAAGTATTAATGCTGATATTGGTATTGCTAATTTTTGCTGATATTCAATTTCATAAGATAATGAATTAATTTTTTTCTTTCTTCTCTTAATAATAGCTTCTCTAAGTTCTGTAATACTCATCATAGATTTTCTCTTTTTATTTATACTAAAATTCCCAAAAAAAGTATTTATTGGTATTGATTGTTTCTCAAAACTACCGCTTAATTCTTTTTCCCCTTTTGAATTTATATTATAAAAATTAGCATTTTCCAAAATCATATCACTTTTTTTCCATTTTGCCTTTTTAGATATTATTACTTCTGGAAATGGTGTATCTGATTCTTTTTTAAATACTATTAAATTTTCTGCTTCACTCACTTCATTGTCCATTTTATTTATATATATATTATAATCTCCAATTCCTTCTACAAAAACTTTTTCTTCTATTTTTACTGCAGGTTTTCTATATGCTATTTTTTTGCTTAACATTCCAAATTTTGTATATGACTCGGGAACAACTTCTTCTTCCAAAAAAAATACAAAACCCATTGTTAATACCCCTAATATTAATGCAGGTCTTAAAAATCTAGTCATACTTATACCAATTGATTCTAATGCTACAATTTCACTATTTCCAGATAGTTTCCCATAAGATATCATTACACCTAACAATAACCCCATTGGAATAGTTTGCACTAATACTGGTGGGAAATAATAAGAGATCAAGGATAACACATCTTTTACAGGTACATTTTTTACTATTATATTCTCCATCATCTCTACTAATGCATCTATTAAAAATATAAATGTAAATAAACTTATACCAAAAATTACAGGTGCTCCCATCTCTTCGTAAAAATATCTATCTATTATTTTCATTTTACTTCACCTTTCAAAGCTTTTTGCAATATGTCATTAATCTCTTTTTCATTTTTACTATTTTTTAATATTTTTTTTGTATCTATGTTTTTTAAATCTTTAAATTTTACATTCTTTTTTACAGATTTGTTTATAATCTCTTCTATATTTATATTAGTATTAAATTTTTTAACTTCCTCTTCTAAATTTTTAGGCATTAGCGAAACTAATTTAGGCGAAATTTTACTTATAGCTTTTCCAGAATAACTTTTATATAACTCTTTATGAAATTGGTCATTAAAATTAGAGATAGCAGCCATAACTAAAAGTATAACTATAGCTATAAAACTTCCTTTTAAAAATCCTGCTAATCCACCAAGCACTCTATCTAACCATCCTAATAGAATTGTATGGAAAAATTTCTTCAGTAGTAAAATAATCATATACATAATAATATATGATACTAATATTGTCAAAACATATACAATCAAATAATTAGTATTATTTTTTATATGCTTACTCCCAAAAACTATAAGATAAATATTTCCAGAAATCCTTTTCGCTATTAATATAGATATTAATCCACCAAATAATGAAAAAAACTCTAAAATAAACCCTTTAAATATACCTATTATCATACTTAACGCAATTATTGCAATTATAATAGAATCAATATACATATTTCCCTCCAACTTTATTTTTTTATATTATTTAATTCATCACCTTTACCCATAAACATTTAAGATATAAACTTTCTGGAATATGTAAAATCCAAGGATGATCTTCTGGTTGATATGTAACTCCAACCACTTTTAATAATTTCCCATTTTTAGATGCTGCCATTCTTGTTACTTCAATCAAATCTTGTAAAGTAATGTGATATGCACATGTGCATACTCCTAATATTCCATCTTTTTCAATTAATTTAAATCCATTATCACATAAATTATAGAATAGATCTCTTCCTTTTTTTACATCATTTTTACTTTTTACTAATGCTGGTGGATCTAATACAATTAAATCATATTTCTCTTTTTTTTGAGATAATATATTTAATATGCTAAAAGCATCTCCTTCTATTGTAGAAAAATCGCCTTCAAACTCATTTAAACTATAATTTTTTTTAGCTACTTCTAATGCCTCAGGTGATTTATCTATTGCAACTACTTTTTTACTACCTTTTTTCAAAGCAGCCATTGAAAATCCTCCACTTGATGAAAAAACATCTAAAACTTTACTGTTAGGTTTTATATAGTTCATTATAAATTTCCTAGAATCTCTTTGATCTAAAAAGAACCCTGTTTTTTGTCCATTAACTATATCAATAATAAATTTCATACCATTGTCTTCCATTATTATTTCATCTGGAATTTCTCCATATATAAGCCCGCTTTTTAATTCTAATCCCTCTTTTATTCTACTTCCCATATCTGATCTTTCATAAATCCCTTTAGGTTTTATTACTTCCCTTAATGATTTTATTATCTCTTCTTTAAATTTTTCTATTCCTAATGTTCTAAATTGAACTGATAAATATTTACCAAACATATCTACAATTAATCCAGAAAATCCATCTGCTTCAGAGTAAAATAATCTAATTGAATTTGTTTCATTTAAAATATGTTTTCTATTTTCATATGCTGTTTTTATCCTATTTTTAATAAATTTTTTATCTATTTTTTCATCTTGTGTTGTTAATACTCTTACCAAAGTACTTGCATTATCATTAATATATCCTCTTCCTACAAAACTTAAATCTTCTGACACAACATCTACTATATCTCCATTTTCATAATTTCCCATAATAGATTTCACTTCATCTTTATATACAAATGGGTAAAAATTTCTTATTTTTCTATCTTTCATTTTTTTTAATATTACTCTTACTTTTGCCATTATTTCTCCTTTTATACTATTTTCTTTTTATACTATTTTTTTATTTTTTATATTATTCTTATTTTTTATATTATTCCAACTATTTCATTTCAAACATTTTAACATTAATACTTTTTTTCCTTTTTAATTTTTTTATCTCTTTTTTTAAAATTATTAATTCATTAATATCATAAATTTTCTTATCTTTATTTATAATTTTAAATAATTTAATATCTAGTTCACTATAAAAAAAGAATAAACTTTTTTTTACATTAATCACTTTACCATAAATTATAGAACCTTTCTCAGCAATACCTTTTATCTTTTCTTCTAAAATAAATTTAATAATTTCACCATTTTTTAATTTTATTTTTCTAAAATCCCTATATAGTTTTAGTTCTATTTTGTTATTTTTCATAGATTTTTTTAGCTCTTTTTCCTGACTAAAAAATATTTTTTCTTCACTGTTTTTATTACCTAAAAATTTTTTTATTTTTTTTATTCTATCTAAAAAATTCAATTTATTATTATATTTTCTAAAACAACCATATTCAATTTTTTCTATTCTATCAAGTATAGATTTATCAAAGCTTTTTTTCCCAAATATAATTAATTCAGATTCTCCTAACTTATTTTTAATATTATCTTGTAAAAAATTATATAATTTATTTTCTCTCTCTTCTATACTTCCTTCTCCTACTTCTCCATATACTTTTTTTTCCATAATACCAATTTGTTTTTCAATCGTAAAACTATCATCTAATGTAAATCCATATAATATATTTTCAATTTCTATATATTTATTATTATCTCCAAAACTAAATAAAAATATAAGAAAAAACAATAGCACGCTTATAATTTTTTTATCCATAATTATTAAATCCCCCTAATATATTATGAAACAATATATGCTCAAAGTTTCTTAAAAAAATATAAAATATATCTTCTACTAAAAAATAAGCAAATAATTATTTTTTACAACCCTAATTTATAAAAAAATTCATATCAAATTTTATATTAAAATCTTTACTATATATATGTAATTCATATTCACCACTATTTATAGCTTCTTCTGTATTACTTTCATTCATCCATAAATCTGAAAAAACAATTTTACTATATCCATTTATTTTTAATTTTCTTTTTCCAGAAGCATTCTTTTCTAAAATATCTTTTTTATATATAATCTTATCCCCTTTTGTAATTATAAAATTAAAGCTGTTTTCTTTTTTCAAAATAAAATATTTTGGCTTTTTACTTCTATTTTTAATTTCTACTTTTATAAGTAATGCCTCATCTTTATCTATTTTATATTTACTAATAATTGCACTGTATTTCACATTATTTAAAATTAACTCCTGCTTTGTAGGCATCTTTTTTTGAAAATAATAATTTAATAACAAAATAAGTCCAAATATAAAAATTAAATCAAGAATAGTTATAATGTTTGATTTTTTTTTAAAAAAACTATTCATTATATTTCTTCCTTTCCTAAAAGAGAATTAACTCTAATAATTTTCCCATTTTTCCAATATATTCTTGGAACTCGATTATTAATATTTGTTAAAATTTCATATGATATTGTTCCTGAGATTTTTGCTATTTCATCTATATTTATATTTTCACCAAATATTTCTAATTCATCTCCAACCTTTACTTTTCCTATTAGAGTTTTTGGGATTTTTATCATCATTTGATCCATGCAGACTCTTCCAATTATTTTACATCTTTTTCCTTTTAAATAAACTTCTCCTGTATTTGATAATTTCCTATTTATTCCATCTGCATATCCTGCAGAAACTGTTGCTATTATTTCACCTTTTTTAGCTATATAAGTTTTCCCATAGCTTATAGGCATATCTTGCTTTACTTCTTTTAAAAATATAATCTTACTTTTAAAAGACATTACTGGTTTAAATTCTTTACTAAATCTATTTTTAACCACAGGAATTCCATACAAAATTATTCCTGGTCTAACCATATTCCCTTCATTAATAACATTTAATATTCCTGCGCTATTTGATATGTGAAAATATTCAATATCTTTATTTTCATCTACTATTTTTTTAAATATTTCAACTTGTTTTTGAGTATATTCTAAATCCTCATCTGCAACTGATAAATGTGTAAATATTCCTTTTATATTTGCTATATTTTTATTTTTTATATATTGTATAGCTTTTTCTGCTTCTTCATATGAAAATCCGATCCTTCCCATACCTGTATCTATTTTTACATGAATATCTGGAAATAGCCCTTTTTTTTCTATATAATTTATTTCTTCATAAGAAGACAGAGTAAGCTGTATCCCTAAAGATACAGCTTTATCCCATTCTTCAAGAGGTGTACATCCCAATATCAAAATTTTACCTCTTATTCTATTCTTAACTAATTCTTCCGCTTCTTCTATGCAAGCCACTCCAAAATTAGACACTCCATTTGCAGATAATTCTCTTGCAATTTCAACTGCACCATGTCCATAAGCATTTGCTTTTATAACTCCAAGTATTTTTTTATTATTAGAAGTCAATTTTTTTATTAAATTTAAATTTATTATTAAGTTATTTAGATTAATATCTGACCATACTCTCATATATACAAATGCCACCTTTTCTTATACTTTAATCGACTCAAAAAAAGTAATTTTATTTCAAGAAAAAAACTATTGTTCTTCCTTTTTTTTCACTTCCTATTTTTTCTTCTCTAAAAAGCCAACCTAATGCCAATAAAACTTCATCTTTTTTCAATTCACTGTTATCTACCATAGCTTTTATTCCTGTAGCACCATTTTCGTTTAGATAGTTCCAAACTTTTCCTGCTGCTGCTCCTGTTTTTTCAAAAGAATATTTCATATTTATCACTCCTTTTTTTATTTTGCTTCCTTCTTTTCAAGAAGATTAACTATTGGGCTTGCAACAAATATTGAAGAATAAGTCCCTGAAAGTATTCCTATTAATAAAGCTGTTATAAATGTTCTAAGCGATGCTCCTCCAAATATTAATACTGCTAGTATAGCTAATAAAGTTGTAACTGATGTATTTATTGATCTTGTAAACACTTGATTTATACTATCATCAATTAAATCTCCTATATTTTTTTTGGATTTTTTCTTTATGTTTTCTCTAATTCTATCAAATACAACTATTGTATCATTTATAGAATATCCTAAAATTGTTAATATCGCCGCTATAAATGGTGTATTAATCTCATAACCAAGTAAAGCTATAGCTCCTACTGCTATTATTAAATCATGCAACAAGGCTACTATTGCACCTACTGCGAATCTAAATTCAAATCTAATTGTAATATAAAGTACTATTAACAAAGAACCTATTAATAAAGCATTTATAGCTTTCCATTTTAATTCTTTTCCAATTGTAGCACCAACTTTATCTACTTTTAAAATTTCAAATTTACCCTCTTTTGCCTTAAAATCATTTAAAAAATTATCTTTTTGAGCTTCTTCAAAAGCGTTTGTTCTTATTAATACAACATTTCCTTCTGAAATTTGTATTTTTTTAGATTCTAATTCTTTATATTTTGCACTCATATCTTTTAAATCTTTATTAAGATCACTTAATTTCACACTTTTTTCAAATTTCAATTGAAATAATGTTCCACCAGTAAAATCTATACCATAATTAAGACCTTTCACCATAAATAGTAATAATCCAGCCACTACTAAAGTTATTGATATTGTAAACCATATTTTTGTATTTTTTATTATTTTTAAATTCATTACTACCTCCTAACCCCAAATAATATTGGATTTTCAATTTTAAATAAATATATAAATCCTTTTAATAAAACCCTTGTTACAACTATTGCTGTAAACATACTTGCCAATATACCTATTGTCAACGTAACTGCAAATCCTTTTACTGGACCTGTACCTAACGCAAACAATATAGCTGTAATAATAAGAGTAGTAATGTTTGAATCAAATATTGCCATAAACGCTTTTTTGAATCCTGCATCTAAAGCTGCTAAAATACTATTCCCCAATCTTAATTCCTCTTTTAATCTTTCAAATATTATTACATTTGCATCAACTGCCATTCCAACTGATAAAATAAACCCTGCTATTCCTGGTAAAGTCAATGTAGAATCAATAAAATTTAATGTTCCAAAAGCTATTATTCCAAAAATTAACAATGCTAAATCAGCTATAAGTCCTGGCAATCTATACCATACTACCATAAATATTGCAATTAATATCAAAGCTACTATTCCAGCTTTATAACTTGCTTGTATTGATTCTTCTCCAAGTGTTGCTCCTACTGTTCTTGTCTCTAACATTTTTACTTTTACTGGTAAAGCTCCAGCATTTAATAATGTAGCCATTTTTTTAGCTTCGTCTACTGTATAACTTCCAGTAATAACACCTTTTCCTCCTGGAATTTCTGATTGAATTGTAGGTGCTGTTTGTTGTGCTCCATCCAAAGTTATTGCTAATTGTTTACCAATGTTTTTCTTAGTTATATCTGCAAAGATTTTAGCCCCTTTTGTAGTAAGCTCAAATCCTATTTGAGGTCTTCCTAATCTATCAAAACTAACATCTGCCTTTTTCAATTCTTTTCCTGTTAATAAAACATCTCCTAATGAACCATCACTTTTTAATAATCTAAACTCTAATAATGCTGTTTTTCCTATAACTTTTATTGCTTCTTCTGTATCTTTTACTCCTGGTAATTCAACTATTACTCTTCTGTCTCCACTTCTTTGTATTACTGGTTCTGATACTCCTAATCCATTTACCCTTCTATCCAACACTTCTACCAATCTGTCCATTGCTTGATTATCAACTTTTGCTTCCTTTGTATCTTGTGCTTCTAATACTACATACACTCCACCTTTTAAATCTAGTCCCAATCTTACAGGTTTTAGAAATGCAAACCAAACAGCAAGTCCTAATACTACTGCAATCAAAGCTAAATTAACTAATAAACTCTTTTTCATAAATACTCTACTACCTCCTTCGTTTTTCCATATCTAAGTATGTTTGTAAGATTATCGTTGCAGCTACTTTATCTACAACTTTGCGTTTCTCTTTTGCATTTTTTTTCGTTGTAACTTTTAGCATGTTATCTGCTGAAACTGTGCTATATCTTTCATCTACTGTTTCTATTGGAATATCATGTAATGATTTACCCAATTTTTCGATAAATTCTCTAACTTTTTCAGCTTGCCTTTTTTCCGTACCATTTAAGCTTAATGGTAACCCTGATACAATTTTTTCTACTTTTTTTTCTTTTGCCAATTCAACTATTCGTTTTATGGCTTTTACTTTTCTTCTATCTATTACTTCTAACGGAGAAGCTATCATTCCTAACGGATCTGATATTGCTACCCCAATACGAACATCTCCAACATCGAGAGCTAAAACTCTCATAGTTTTTCTTCCAATAATTTTTTTGCAAAATTTAAAGCTTCTTGCACTTTATTTCCTGCTTTACCACCTGCTTGAGCAAAATCTGGTCTTCCTCCGCCATTTCCTTCAGCAATTTTTGCAACTTCCCTAACTATATCTCCTGCTTTAATCCCTTTTTCAATTAAATCTTTTGTTACACTTACTAAAAATATTGCTTTTCCATTATTAGTACCAAATACAACTACGCAACTTTTTAATTTATCTTTTGCTTTATCTGCCATTTTCCTTAAATTTTGTGGATTCTGACCTTTAAATGCTTTTATTATTACATTTATTCCATTTATCATTTCAGGATTTTCTAAAAATTTATCAGCTTCAATAGATGCCAATTTTGAATTTAATTCAGAAATATTTTTCTTAAGCTCTCTGTTTTCATCCAATAATTTATTAGCCTTTTCTTCAAGCTTATCTTTATCTACTTTTAATATCTCTGCTAAATCCTCTGTTCTATCTTCTAATTTTGTTAAATATTCTAATGAATTTAATCCTGTAATGGCTTCTATTCTTCTTGTTCCTGCTGCAATACCTGTTTCTGTAACTATTTTAAATAATCCTATTTCCCCTGTGGAATTAACATGTGTTCCCCCACATAATTCAATAGAAAAATCAGAAATTTTTACAACTCTTACAACATCTCCATATTTATCTCCAAAAAGTGCCATAGCTCCCATTTTTTTTGCTTCATCAATATTTTTTAGAGAAATATCAACTTTATGATTTTTTAAAATTTCTCTATTCACAATTCTTTCTATCTCTTCTATTTCCTCTTTTTTTATAGATTCATAATGTGAAAAATCAAATCTAAGTCTTTCTCTATTTACATATGAACCTGCTTGATGAACGTGCTTGCCTATCACTTCTTGCAATGCTGCTTGCAATAAATGTGTAGCTGTATGATTTTTTGTTACTGCTTCTCTTTTTTCTTTATCCACATTAAGAGTTAAATTATCTCCTATTTTTAAATTTCCTTCTATAATTTTAACTATATGGATAAATATATCTTTTCTTTTTTGAACATTTAACACCTTTCCCTTAAATGTCCTGTTTTTTATAATTCCAGAATCTGCAATTTGTCCTCCAGACTCAGCATAAAAAGGAGTTTTATCAAATATAACCTCATATGTTTCAGTATCAATATCTTTCTTATGTAAAACTTTTCCTTCTAATTTTAAATTTTCATATCCTAAAAATTCTGTCTTTCCATTTTCTTTATAAAATTCTTCTATAAAGCTATCCTCAATTTTTTCTTTTATAACTTCTCTTGAATTTCTAGCTCTATTTTTTTGCTCTTCCATTTTTTCTTTAAATTCATCATATACAATTTTAATATTATTTTCTTGACAAATTTCTTCTGTTAATTCAAATGGAAATCCATAAGTATCATATAATTTAAACACAATTTCTGAATTCATCTTATCTTTTTTTTCTAATTTTAACTTTTTTATCTCATTATTTGTTAAAATTATCCCTTGATCTAATGTAGCTTCAAATTTCTCTTCTTCTATTGAGATCACTTTTTTTATATGATCGCTATTTTTTACTATTTCAGGATAAAACTCTCCCATCATATCAATGACTTTATCAGATAACTCATATAAAAATGATTTTTTATATCCTAATAATCTTCCATGCCTAGCTGCTCTTCTTAAAATTCTTCTTAAAACATAACCTCTACCATCATTAGAAGGAAGTACCCCATCTCCTATTAAAAATGTTACTGCACGAATATGGTCAGCTATAACTCTTAGAGAGAAATCTATATTTTCTTTTTCGTTATATTTTACACCTGTTGCTTTTGCGACCTCTTCTACTAACGGTTTTAACAAATCTGTATCAAAATTTGAACTAACATTTTGAATTACAGATGTTATTCTTTCTAATCCCATTCCAGTATCAATATTTTTTTTAGGTAATGGCTCTAACGTCCCATCCTCTAATCTATTATACTCAGTAAATACTAAATTCCATATTTCAATATACCTATCACAATCACATCCAACACCACAAGTTGGAGAATCACAACCTTTATCTTCTCCTAGATCAACATATATTTCACTACTCGGGCCACATGAACCTGTTGGACCTGCTGACCAAAAATTATCTTCATCCATTTTTACTATTCTGTCTAAAGATACCCCTGCTTTTTCATTCCAAATTTTTATACTTTCTTCATCATCTTTATAAACCGAAATCCAAAGTTTATCTTTTGATAATTTTAGTTCTTCTGTTATAAATTCCCAAGCCCAAACAATAGCTTCTTCTTTAAAATAGTCTCCAAAAGAAAAATTCCCAAGCATCTCAAAAAATGTTTGATGTCTTGCTGTCCTCCCTACATTTTCTAAATCATTCGTTCTAATACATTTCTGACAAGAGGTAGCCCTTTTATATGTAGGAACTTGTTTTCCCATAAAAAATGGCTTAAATGGTACCATTCCTGCTATTGTTAATAGCATTGTTGGATCATCTGGAACCAAGGAAGCACTCTCGTATTTTTTGTGCATTTTTTGCTCGAAAAAGTCTAAAAATTTTTTCCGTATTTCATTTCCTGTAAACATGTACTTTTTACTCCCTTCCAACAATATTTTCCTATATAATATCCAATTTTAATACAATTGTCAAATATTATTTTTTTCAAATACTTTATTTTCTCTTAACGGCCTGTATTTTTACAAAAATCAATGGATGTTTAAAAAGTAACTTTTTTATATTTTATTGTAAAAACGCTTAAATCATTGCGTATTTTATAACAAAATCAAAAGGTTATTTTTAAGCCGTTCCTAAAGAACGTTTAAAAAATAATTTTCTTATATTTTGTCATAAAAACGCTTAAATCATTGCGTATTTTATAACAAAATCAAAAGGTTATTTTTAAGCCGTTCCTAAGATAATATTTCTATTATTTCATCATAATTTTCAATAAAAATTTCTACTAATTCTGGATAAAATCTTTTTCCACTTTCATTTTTTATTATTTCTTTAGCTTCTATATTACTATAAGCCTTTCTATAAACTCTTGAACTTACTAATGCTAAAAATGTGCTCACTAAATTCAATAAATTAGCCGAAATTGGAATTTCTTTTCCATTTATCCCTTTTGGATATCCATTTCCATCATATCTTTCATGATGGTTTTTAATTATTAAAGCATGCTCTTCAAAATATGGTATATTTTTTAAAATATTATAACTGTAATAAGTATGTTTTTCTATTATTTTTTTTTCCTCGTTTGTTAAGCTAGTTCTTTTATGTAATATATTTTCAGTTATAAGTATTGTTCCTACATCTTTTAAAATAGCTGATAATTTTAATGTTTCTATTTCTGTAAAATTCATTTCTAATTTTTTTGCCATAAATTCTAATAAAAGTAACAACTTATCTATATCATAAAAATTCCCATAAATATAATTTCTATACTCTAATATAGAAGATACTTTTTTCAAAATACTTATATATATATTTTCTATATTTGATTTATAATTTCTTATATTATAAATTGTTTTTATAACTTCAGATAAAATTCTTATACCTTTAAGTTTTTTTTCTACAGTGTTACTATCTAATGCTTTTTCAAATTCTATTCCTAGAATTAACTCATCTCTTGCATTATACACTACAATTGATTTTCTTTCAATATTTTTATGAATATATTCATCTTTTGAGTTGCTTTCTATTATATTTCCTATTATGTTTTCTATTATTTTATTATTTTTATTAGAATAAAATTTATTTTTATATTTTATAACAAGATTATCTACTTCTAAAATCATCATTCCTAAATTTATAATTGTATCTATTAACTCTAATTCTGATATATTTCTCCCACCTAAACTTAATAATTCTGATAAATTATATATTTTTTCATAATTCTTTGTATTTTCTTCTACAACTTCTTTATATTTTTTATTAAGTTCTAAAAATGGTGCTAATAATTTTATAATTTTTTCTTTATCTCTTTTCGGAGTTACTTTTATATTACGTCCACTATCAATTTCTATTTTAACATTAAATACTTTTTCAAAATTATTTATTATCTCCTTTTCTTTCATTTTTTATCACGCCCTTTTATTTATTTCATTACCAATCTCTTTTTCTGTCAATCCTGAAACATCTGAAAGGCCTAATTTATCTATGCTTTTAGGCATTCCATAAACCACGCATGATTTCTCCTCTTGAGTTAATACAAAACTTCTTTTATTTTCTTTTAAATTTAAAATTCCTTCAGTTCCATCTCTGCCCATTCCAGTTAATATTGCAATTAATGGATTTATACTGCTTATTTTATTAACACTTTCTAAAAAATAATCTACAGATGGATTATAAAATCCAATTCTTTTATTTTCAGGATATAATTTCAACACATTCCCAACTTTTACTAATTTGCTGTCTTGCCCCCCTGGCAAAACATAAACTGTTCCTGCTTTTATAACTTCATTTTCTCCCTCTTTTATTTCCAATTCAGAAAGTTCATTTAATCCATCAGCTAATATTTTTGTAAATCCTTTTGGCATATGCTGAATAATAAATATTGGTAATTTTATTTTACAACTCAAGGCTGGAACTAACTTTCTTAGTGCATTTGGACCACCTGTTGAAATCCCAATTATAATCATATTATATTTTCGCACCAGAACCCCCTTTTACAAAGAATGTTTAAAAAAGATAATTACAAACTAAAATTTTTACCTAAATAAATTTTTCTTGCAACTTCATTTTCTGCTATTTCATTACTATTCCCGCTAATTAAAACCTTTCCTTCCGACATAATATATGCCCTTTCTGTAATTCTTAACGTTTCCTTTACATTGTGATCAGTAATCAAAATTCCAAGACCCTTCTTTTTCAAATATAATATTATCTCTTGTATATCCTCTACAGCAATAGGATCTACTCCTGCAAAAGGTTCATCTAACAATATAAAATTTGGTTCATTTGCTATTGTTCTAGCTATTTCAACTCTTCTTCTTTCTCCACCAGACAGAGAATATCCTAAACTATTTTCTATATGTGATATTTTAAACTCCTCTAATAACATATCTTTTTTTTCTATTCTCTCTTTTTTCGAAATTTTGTTCATCTCTAATATTGTTAAAATATTTTCTCCAACTGTCATATTCCTAAAAATTGAAGGTTCTTGTGCTAAATAACCTATTCCTAATCTAGCACGTTTATACATTGGATATTTAATTATATCCATTTCATTATACATTACTTTTCCACTTTCTGGCTTTATTATTCCAACTATCATATAAAAAGTTGTAGTTTTTCCTGCTCCATTTGGTCCAAGTAATCCTACTATTTCTCCTTTATTAACTTCTAAACTCACCTTATTTACAACTAATCTTTTTTTATAACTTTTGCATAATTCTTGTACTGCAATACTATTCATTATTTACTCTCCTCTTTAGGCTTTATCCTCAATTTAAATTTAGTTGTACCTATTCCAGATAATATATTTGTTTTTAAATCCATAACTCCCTCTTCTGCTTCTACTTTGTTTTCACCTTGATAAACTATAATATTCCCTTTCATTTTCACTTTTTTATCTTCATTATTTAAAGAAGCATCATTTGCTGTTGCATTTATTGTACCAGCTTCTTTAGTTATATTTGTTAATTTTACATTACTTTTCATTTCACCTGTATTTGTATTTAAATTTAAATAAACATAATCTGATTTTATTGTTGTATCTCCATCTATTTTTAATACTGGATTACCTTTTCCAAAAACTAAATTTTTCATGTTATCCATTTCAAGATAATCACTTGAAAGATTCATATCTTTATACCAAAAATCAGTTTTATTTTTTATTTCTCCTCTTGTTACATCAAATTGATCATCTTTATTTTTTTTAAAATACATTTTAGCTATATCTCCTGAAAATTTCATCTTTTCTGATGGCAGATCAGCTTTTAAATTATCTTTAAAATTAAACTCCTTTTTTGAATAATCGCCTGATAAAAAATCTCCTGTTATCTTATCCCCATCTTCTGTTGTTATTACTCCTTTTTCTCCATCTAAAGTTTTATTCTTCAGATCCATTTCACCTGATTGAATAACCATCTTTAGATTTTTTTCTGTAACTGTAATTGGAGTTTCTGATTTTATTTTTTTTGTTTTAATAAAATATCTTAGTTTATCAGAGTCTATATTTAGTTCTTTTTGATTTATATTTACTTTTTTTATAAAATCAATTTCATTTGATTTTTCATCATATTTTGCTAATTCACTTTTAAATTTTATATCTTCTTGATGCCCTGAAATTTTTCTTAATTTTAAAATTTTTAAATTATTGTCATATTCTCCTGTTTCATAATTCATAATTATTTTTTCTGTTTTATTTTCAACTTTTCCTGGTGTGATTAAATATCCCATTTTTTCTTTATATTTATACACTATTTTTTCTGTATTTCCATATATATCATCTTTTTTTAATCTAACATCTCCATATATATCCATCTCTTCTTTATATTTATAAGTCAGCTCATTAGCATTAACTATCAAATCATCTTTTCTGTTTTTTATTTCAACTGTTCCAACCAATTTTCCAAATTTATCATCTAAATTATATGTAAAGCTGTCCCCTGATATTTCATAATCATCTTTTACAACTTTTGTTTTTCCTAATAAACTTATCAGTTTAGAATTATCGTCATATTCTCCATTCTTTGAATATATTTTTAAATCGTCCTCTTTATTATAAACTTCAAAATTATCTTTCATATATATTTTTTTATTTGCTTCATCAAGATCTAATTTTTGTGTTACAATATTATATTTTTCATAGTTTATAGATATATTTTTTTCTAAATTATATATCTTTTTCTTTAAATTAAATTTAACAAAATCACTTATTAAATTATTTTCTTTTTTCTCTATATATATTTTTTTAGAAGTACCTATTTCATCTTTTGTATAAAATATTAAATTAGAACCATTTATTTTCATTCCATTTTTAACTACTCTAAAGTTTTCTGGAATAACCAATTTATTTTCATCCACAAAATAGTGGAATTTTTTACTTTTCATTCTATAGTCTTTTCCAAAAACTAATATATTTTCATGTCCAACTCCTTCTATAATATTATTTTTTTTATCATATGTAATTTCATCGGCTTTCATTGTAGATTCTTTATTTTTTATTTCTATGTTATTAGATAATTTTATATTCTCTGTAACTTCATCTATTTGCATATAATCGGACTCAAAATTATACTCTTTTATTTTACCTTTTACAGGTTTATTCAATACTATTTTTTTAGTTTTGCCATTATAAAATGCTTTTGGAGTATTAATTTCCATATCATCTTTTTTTAATTTTACATTATCATATACATCTACATTATTAGTTTTTTTATAATAAACTAAATTATTTGCAGTTAGTGTATACCCTTTCATTCGTGCTTTAAATTTACCCCATACAATTAATCTGTTATTATCCATATCATAAATTGCATAATTTAATTCTCCAGTTACTAATTCTATTTTTCCCTTTTCACTATTAAGATTTTTAACTTGTACTTTTATATTACCATTTAATTTTACTATATTTTTGTTTCTATCATAAATCACTCTATCACAGCTTAAAGTTACTTTATTTGAAGTTAATTTAACGTTAGTATATAAATTTATTAATGTAAATTGACTATTGGCTTCAAAATGTCTTGCTGTTATTTTTATATCATCTTTTTTTGCTTCCACTTTTGAAACTGAATAAAATTTCTTTTTATTTTCATCATATCTCATTTCAGTTGTTTTAAATTTCCAACCATTGTCTGTTACTCCTGTTATATTTCCTTTTAGTATCATATTTTTCAATTTATCAACTATGGCTTCATTTCCTTTTAATGACATATTTTTGAAAAAAGCTTGTGCCTGTTTAAATACTGTTGTCTCATTAGTTTGATTCTCAATAAGTTGATTAGCAGAAATTTTATAACTATTTCCTATATCATATTTTATATTATTTGTTTTAATATCTTTTTTTATCTCTCCTATATTAATATCTGACATTTTTTTTATATAATTATTATATATAAAAAGTAAAAATATTCCTAACATTATGAAATATAATATTTTTTTCAACATTTTATCGCTCCTATTGAATGTTTAAAAAGTAATATTTTTATATTTATATGAATGTGTAATCAACTACATAATTTATAAATAAACAAGAATATTCTTTTTAACCCATTTCTATTTTCTATTTTCTATTTTTCTTTTTATTTCATTTAATTTGTTTAAAGCTTCCAATGGTGTAATGTTATTTAAATTAAGTTCTTCTAACTCAATTAATATTTCATCTTCAACTTTTTCTTCTTCCTCTACTATTATATCATTATTTCCAAAAAGTGACAACTGTTCAACTTGTATTGTACTTTCCACTAATTTTCTTCTTTTTTCTAAATTAAATAATATTTTTTTACTTCTATTAATTATATCATTAGGGATTCCTGCCAATTTTGCAACTTCAATTCCATAACTTTTATCAGCTCCGCCTCTAACTATTTTCCTTAAAAATATAACACTGTTTGAAGTTTCTTTTACTTCTATTCTAAAATTAACTATATTCTCAAATTTCTTTTCCAATTCTGTAAGCTCATGATAATGAGTAGCAAAAATTGTTTTAGATTTTACCTTATCATGTATATATTCGCTTATAGCCCACGCTATTGATATTCCATCAAATGTACTTGTCCCTCTTCCCACTTCATCCAAAATAACAAAACTTCTTTCAGTTGCATTATTCACTATATTAGCTACTTCACTCATCTCTACCATAAATGTACTTTGCCCTGATACTAAGTCATCACTAGCTCCCACTCTTGTAAATATTTTATCAACTACTCCAATCTTTGCATATGTGGCAGGCACATAACTCCCTATTTGCGCTAAAATTATTATTAGTGCTATCTGCTTCATATATGTGGATTTCCCAGCCATATTAGGCCCAGTAAGTATTATCAGTTTTTCCTTTTCTGTAAATTTTATATTATTACTCACATAATCTTCACTACCTATTAATTTTTCTACTACAGCATGTCTTGCATCTTGTATATCAATTTCAAAACCTTCATCTATTTCTGGTTTTATATAATTATTTTCAATTGCTACAACTGCAAACGATATTATCATATCTAAATTTGCGATTTTGCTCGCCACATCTTGCAATGTTTTTTTCATATTTTTTATATTAGAAGTTATTTCTTTAAAAATTTTATACTCTAATTCTTCTATTTTATCCTTTGCATTTAACACTTTGCTTTCATATTCTTTTAATTCAGGAGTAATAAATCTTTCTGCATTTGACAAAGTTTGTTTTCTAATATAATTTTCTGGAACTAAATCAATATTACTCTTAGTTACTTCTATATAATATCCAAAAACTCTATTATATTTTACTTTTAATGATTTTATTCCCGTTTTTTCTTTTTCCTCTTTTTCCAAATCTAATATATATTTTTTACCCTGTTTTGAAATATTTCTTAATTCATCTAATTCTTTATTATAATTTTCTTTTATAATTTTCCCTTCTCTTATTGAAAATGGTGGCTCTTCTATTATTGAACTGTCTATTAATTCATATATTTCAATCAAATCTTTTAATTCAAATTTTAATATATCACTATCTTTTAAAATGTTTTTTATCTCTATTACAGATTTTAATGATTTTTTCAATGCAATTATATCTCTTCCATTTTCAGTTCCCAAAACTATCTTTCCGATTATTCTTTCTATATCATAAATATTAATTAATTCTTCTCTAATTTCTTCTCTAATCATTAAATTATCTATAAAATATTTTACATTATTTTGTCTTTCTAGTATTTTATCTATATCAATCAAGGGACTTACTATAACTTTTTTTAATAATCTACCTCCCATAGAAGTTTTAGTTTTATTTAAAACCCATAATAATGTACCTAAACTATTTTTTTCTCTGTTATTTTTAATTAAATCTAAATTTCTTTGTGTTGTTACATTTAATTCCATTTGATTTTTTGTATTTACATATATCAGTTTATTTACCGGTATTTCTCCAAATTTCTGTAACTCTAAAATATAATTTAAAACCGTTCCTGCAATTTCTATTGAAATTTTTTTATTGTTTATCCCAAAACTTTCTAATGAAATAATATTAAAATAATCTTTTAAAAATTCCTCACTATCATCTATTAAATTTATAGTATTTAATAATATATTATTTAATTTAGTATATTCTTCTATTTTTTCTTTTAATATTTCATATGATACGTTGTCTATTAAAATCTCTTTTGGAGCTATTTTATTAATTTCATTAAATATTTTCTCGCTTAAATTTCCCTCATCAAATTGTGTAGTTTTAAATTCACCAGTAGTAATATCAATATATGAAATTCCTGCTCCAGAATCTTTTATTTCAATTCCCAATAAATAATTATTACTATTTTCGTCTAAAGAATCTGTATCAATAACAGTTCCAGGTGTAATTATTTTCACAACTTCTCTTTTTACAATTCCCTTAGCTTTTTTAGGATCCTCCACTTGCTCGCATATGGCAACTTTATATCCTTTTGACACTAATTTAGATATATATTGTGCTGCTGAATGATAAGGAATCCCTGCCAATGGAACTTCTACTCCCTTCTCTTTATTTCGAGAAGTCAAAGTAATCCCTAGCTCTTTTGAGGCTATTTTTGCATCTTCAAAAAACATCTCATAAAAATCACCTAATCTAAAAAAAAGTATTGAATCCTCATTTTCTTTTTTTATTGCTTTATATTGTTTCATTAATGGAGTTTCTTTTTTTATCATTTAATTTCACCCTTTATATTAATATTTATTTTTATTCTATAAAAACATATAACATATCTAAAAAAACCGCCAATAATAAAGGAGTTTTAGATTTTCGATTCTAACACTGAACGCCCCCCTATTAAAGCGGTTTTTTTATCTGAATATTTTTTTTACATAATTCGGCAATACAAAGCTTGCTTTATGTATTCCACTATTATAATATTTTGTAAATTTTTCTATTTTTTCAGCTTTTTCTAAATTAAAATCTTCTATTGGATTATATCTTTTAGACCCTATGCTAAAAGACCAAAACCCACTTTGATATGCGAGCAAAGATGCCGTTGCAAGTTTTGATATTGGAAATATTTTCCTAAATGAATCCTGAACATCTTTTATTATTGGTAAATGATACCATGGTGATTCTGATTGTGCTATCACTATTCCATCTTCTGTTAATGATTCATAACATAATTTATAAAAATCTTCTTTAAATAATCCTACTGCCGGTCCAATAGGATCTGTAGAATCTATACATATTATATCATAATAATTTTTTTTATTCTCTAAAAATTTTATACCATCTTCAAAATATAATTTTACTCTTTCATCACTTTTTAATATTCCTGCTACATTTGGAAAATATTCTAAACAAACGTCAGTAACATGTTTATCTATTTCGCAAAGATGAATCTCTTCAAAGCTATCATATCTTGCAAGTTCTCTAATTGTTCCTCCATCTCCACCACCTATTACAAGTGCTCTTTTGGGATTTGGATGAATATTTGATGATAAATGTGCCATCATTTCATGATATACAAATTCATCTTTTTCCGTAACCATTAAAATTCCATCTAATGTAAATGCTCTTCCAAACTCTTCTGTTTCAAAGACATCTAATCGTTGATATTCACTTTTACCACTATATAAACATTCTTTTACTTTTAATGAATATTTTAATCCTGGTAAATGAAATTCAGAAAACCAAAATTCCATATTTTTTAATTCCTCCCTTTTTGTGGGTCAATCACTCTATTTATATAATTTCTCAATTCTATTTATCCCTTCTTCTATTTCATCTAATGAATTAGCATATGAAAATCTAATAAAACCATCCATTCCAAATGCAGCTCCTGGTACAACTCCAACTTTTGCAATATCTAATATTTCCTCAGAAACCTCTTCTGAATTTTTACCTATTTTTTCAATATTCACAAAAATATAAAAAGCACCTCCTGGAATATCAGGCAATATAAATTTATCTATTTTAGAAAGTTTTTTATACATATAATCTCTTCTTTTTTTAAATTCTAAAACCATACTATCTAAAATTTTATTATCTAAATTAAGTGCTGCAATTACAGCTTTCTGTGCTATGCTGTTTGGATTGGAAGTTGTATGACCTTGAAATCCAACCGCCAATTTTGCTATCTTTTCTGGAGCTGCCATATACCCTATTCTCCATCCTGTCATTGCATAAGCTTTTGATACTCCATTTATTACAATAGTTCTATTTTTTATACTCTCAGAAATAGAAGCAATAGATACATGTTCATTATCATATATTAATTTTTCATATATTTCATCCGAAATAATATAAAAATTATATTTTATAGCTAACTCTCCAATTTTCCTTAATTCTTCTCTTGACATTACTGACCCAGTAGGATTATTAGGTGTATTAATAATTATAGCTTTTGTTTTAGATGTTATCTTTTTTTCAATAGCTTCTGCAGTTAATTTAAAACAATTATCAAAACTTGTATCAACTAAAACAGGAACTCCTCCTAATAATTTCACCATTTCACTATAACTCACCCAATAGGGGTTTGCAAATATAACTTCATCTTTTGGATTTAAAATAGCCGCTAATGCGTTATATAGAGAATGCTTTGCTCCGTTAGATACAATTATATTATCTCTTGTATATTTTAATCCATTGTCTCTAAGTAATTTGTTAATTATCGCATCTTTTAATTCAACAATTCCACTAGCTGATGTATAATGTGTAAATCCATCATCAATAGCTTTTTTTGCCGCTTCTCTTATTGGAAGTGGAGTATCAAAATCAGGTTCTCCTGCACCAAAAGATATAACATTTTCACCTTTTTCTCTTAATTCATTTACTTTTGCTATAATCTTTAAAGTAGCTGACGGAGTTATACCCTCTAACCTTTTAGAAAATTCCATTATTACACCTCTATTTTTATTTTTTCTTTCTGTCTTTCAGCTTGTGATTTTGATATATATTCAGGTTCTAATAAGTATATATTATCATCCTCTTTTTTTTCTGCAATTTCACATAAAACACCAGCATCAATTTTAGACCTAGATATTTTATTAAATTTAATATTTTTAATTCCATTTTCTAATATTAACTCTCTATAATTTATACTACCATCGCCTGTTAAAATTTTCTTGCTATCTTTATATTTTTCTAAGATATCTAAAACTTTTCCATCTCTAATCTGTTCTACTACCTTCAATTTAGAATCAACATATTTATAAACACCATAATATACTCTTTCTTTCCTTGCATCAATCATAGGAATAATCAAGTCAGAACTATCTGATATCCCATTTGCTAAAATTTCTAAACTATTTATTCCAATAATTTCTTTATCTATTGCAAAAGCAATTCCTTTTGCAGTTCCTATTCCTACTCTTACTCCTGTAAATGAACCTGGACCTATTCCAACAGCAACTCTATCTACATCTGATATTTTTAATTTAGAAAATTCAAACAGGGTATCTATTCCTTTTAACAATGAGTCTGAATGATTAAATTTCACTTCTAAATCTAATTTAGATATAATTCCATTTTCGCTATCATATAATGCCACACTGCTTATTTTTGTAGATGTATCAATCCCTAAAATTAACATATTGGATAATCTCCTCTGCTCGTTTTTCATCCCCTATTACTTCAATTTTCATCATTCTACTTTCTTCATCTGAATATTCTAATGTAATTCTTATATATTTGTCTGGCAGCTCTTCTTCTATTAAATCAGCCCATTCAACTATAACTATTCCATCTCCATTTATATAATCTTCATATCCTATTTCATAAACTTCTTCTGGCTCTCCTATTCTATATACATCAAAATGATAAAATGGACATCCAATTTTAGTTTTATACTCTCTCACATAAGTAAATGTAGGACTTTTTATCTCACCTGTTATACCTAAATTTTTAGCTATTTCTTTTACAAATGTTGTTTTTCCTGTGCCTAAATCTCCGACTAAGGCAATAAAATCTCCTGATTTTATTGCCTTAGATAATTTTTCAGCTATTTGATTTATTTCGTTAAAATTAACTTTTCTTTTCATCTATTTGTCCTCATATTTTCATCTAAAATGTTGCTTCTGCTAATTTATAAGCTGTTACTACCCTTATAAAGAAATCTAAAACAGTCATTGTCTTTTTTATCCAGTCTGTTTTTTCTGTTGTATTCTTAGGTATTACTATTGTATCTCCCGCTTTTATTTTCATACCGCCAAACAGGCCTCTTCTTAATGTTTTTCCATTTTCCCTAATAACAAAAATTTTATTTTTAGCTGCTGTTTCTTTTATTCCACCAGCTAAATCTAGAAAATTATCTAAACTAATATTTTGATTATATGTAACTATCCCTGGCAAATACACTTCTCCTATTATTTTTACATAATTAACTTTTTCTGGAATATAAATTGCATCTCCATCTTTTAATATTACATCTGGAATAAATCTTTTTTTATTACTATCATATTTTAAATTTACAATTCTTGCATTAGCTGTCAAATTAGATATATCTATAGTTTTTTTCATATCACTATCTATATTAATGTTTTGTAATTCAGATGCAATTTTTTCTTTTCTATAAAGTTTTATTCCTTCTGGAGAAGCTCCTTTTTTAAACCATTCTGCTCTTTTCATTACATCATTTAAAGTTTCATTTTTTGTTATTGAATATTTTCCTGGATAATTTACATATCCGCTTATATCTACAGTTGCTTTCTTTTCCCAATTAATTAATTTTCTTACAAATATTTGATCATCCGCTTGCAATTTAAAATTAGGATTCTTATTTATATCCACATCAATAACTGATGTTTTTTCTCCATTGACACTATTTCTAACTACTTCAACTTTAGTTTTGTCAGAACTATTTTTTAATCCTTTAGCATGAAATATCAAATCGTTTATAGTCATTTTATCATAATAATCATATTTACCTGCTGCTCTTATTTCTCCATAAATATATACCTTTGAAAATTCTTTAACTTCAGAATAATTATAAACTCTTAATGTATCATATTTTTTTAACTCTATATCTGATTTTTTATCTCCATCTAATATTTTACCTAAGTTTACAGGTATTACATTTATTCCTCCATCTTTTTCCACTCTAAATATATCAGCCCTTTTTAAATATACTCCTGTATCTTTTAATCCACCTGCTTGGAAAATTATTTGTGATACTTTTCTATTATTTCCATATAACAGATAACTCCCTTGTTTTTTAACAGAACCCAATACCGTTACATACTCTCTACCTTCTCCTACATCTTCTATATTATAAACTTTTAGTGTATCATATTTCTTTAATTCTATATCCGCTTTCTTATCTCCATCTAGTATTTTCCCTAAGTTTACAGGTATTACATTTATTCCCCCATCTTTTTCTACTCTAAATATATCGGCTCTTTTTAAATATACTCTTGTATCTTTTAATCCGCCTGCTTGGAAAATAGCATCTGAAACTTTACTGTTTTTAAAAGATTCATATATCCCTTGTTTTTTTACTGCTCCCATCACTGTTACATAACTTCTTTCTCCTATATCTTTTAAATTATAAATAAAAATTGTATCTCCTGTTTTTAATTCTGGATTTTCTTCAAATGAAAAAGGAATTTTTTCTCTAAGCGTATCTTTTCCTATTCTAAATATATCTCCTCTTTTGAAATATGTATCTGGTAAAATCCCACCTGCTTTTTTTAATATCTCCTGTAATCTTTCATTCTTATTAAGTTGATACAATCCTGGTCTCACAATGTTCCCATATATATATATACCATTTTCAAAATTATTTTTTATTTTTCCAATTTCTATTATATCTCCTGATTTCACAACAAAATCTTTCTTATCTGATACATCAAAAACTTTTAAGCTATCTCCTGATATTCTTTTTAATTTAACACTTAATTTATATGCGTTATCTAAAAAACCACCTGCTAATTTTATAATACTCTCTACTGTATCTTTTTCATTGAATTCATAACTTCCAGCTCTTTTTATCTCTCCAGTTATTGTTACTTTTGATTTTATAACAGGAACATATACTACATCTCCATCTTTTAATAAAATATTACTCTTTTCATCTTTTCCTAATAAAAAATCGTATATATCTACATCTATAGTTTTTCCACTTCTTAAAATTCTAGCATTTCTCAAACTTGCGTTTTGAGTTATTCCATCCGCCATATAAATGCTACTTACAATCCCTGACATTGGATTTAATATATAATTTCCTGGTTTATTTACTTCACCTAATACAAAAACTTTTATACTTCTCATTTTTAGTAATGATATGTCTACATTAAAATCTTTATATTTTTTATTACCTTTCTCTTTTATCTCTTTTTCTACCTCTTTAATTGACTTACCTCTTACATATAGTGCCCCAAAATTATTTAAAAATACATTTCCAGAACCATCTATATATACGTTATAGCCTTGTTTTGAATTATTCGTATTAGATAACTCTGAAAAATTTTTGCTCCAAAATTTCACTAAAATATAATCTCCGTTTGAAAGTATATAATTTTTCCCTACAGATACAACTGATGGTAAAAATTGTTTTGAATTACTTTTGTTATTAAAAAAAGAACTTCCAAACATTGATATATTATTTTCATCATTAAAACCTCTTTTTTTCAATTTACTATATAAATCTTCTGTTTGTCTTTCTAATTCCTTTTTATCTTCTATCTTTTTTTTTGAATTATCATCTTTTAATATCTCTTTATTATTATTTAATTGTTTTTTATTTGTGTTAATTTCGTTGTTTTCTAAATTTAAATCGTTTACATTATTATTTACATTATTATTTGAAACATTGTTTAAGCTGCTTAAATTACTATTTAGGTTACTCAAATTACTATTCAAATTACTCAAATTATCAATTGTAGTTCCAGACGATACACTATTATTAGCCAAATTAACTTCCCCATAACTTATAATATTTATTAATAATAATACCAATAGTATAACTATTTTATTTTTCATTAAATATCCTCCCGATTTAATATTTCTTTTATTATATTTGTAGTAGATTTTCCTTGTATCAGCGACACTATTTTTACAATTCCACCATTTTCTTTTACTACTTTTGCTTCAGGAAGATCTTCCTCTTTGTAATCTCCTCCTTTTATGTGAATATCTGGTTTTATTTGCTTTAATATTTCTATTGGAGTATCCTCTTCAAATTTCACTACATAATCTACTGATTCTAATCCAGCTAACATTTCCATTCTTTCATTTTCTGGAACATATGGTCTTTTTTCTCCTTTTAATCTCCTAACAGACGAATCAGAATTAACACCTACCACTAATATATCCCCATAACTTTTAGCTTCTTCCAAATATCTCAAATGTCCCACATGCAAAATATCAAAACACCCATTTGTAAAAACTATTGTTTTTTTTTCTTGTTTTAGATTTTTAATTATTTTTTCAATATTATTTTTTTCTATTATTTTCAAATTAAAATCCTCCTTCAAATCTTTTTCATTCAACAACAAACTATAAATTTATTCAGAAAATAATCTACACCGTTTTTTTTGAAATATGCAATTTTTCAAAGCGAAATTTTTCAGAAATCAAAAATTTTGAAAAACATTTATGCTTTACATTATGAAGCGTAGCTTATTTTTTTATTATAGCATATCTTTTTATTATCTTCAAGAAAAAAAAGTAGGCAAATTTTGCCTACTTTGTCCCAAAAATTCTATCTCCAGCATCTCCAAGACCTGGATAAATATATCCTTTTTCATTTAAACCTTCATCTATCTTTGCAGTATATATATCTACATCAGGATGCTTTTTTACCACATTTGCAATTCCTTCTGGTGCAGCTATTAACGATAAAAAAACAATATCTTTTACCCCTTCTTTTTTTAAATAATCTATTGCATAATTTGCAGAACCACCTGTAGCTAACATAGGATCTACCAAAATAACTTTTCTATCTGCAATATCTTCAGGTAATTTGCAATAATAATATACAGGTTTTAAAGTTTCTTCATTTCTATAAACTCCAATATGACCTACTTTAGCTGTTGGTATAAACGTAATTATTCCTTCCACCATTCCAAGACCTGCTCTCAAAATTGGAACTACCGCAACCGCTTTGTCTGGCAATATATATGATTTTGTCTTCATTACAGGTGTTTCCACTTCTATCTCTTCTAATTTTAAACCTTTTGTAACTTCATAAGTCATAAGACCTGCTATCTCATTTAATGTTTCTCTAAAAAGTTTAGTATCTGTATTTTTATTTCTCAAAAAAGTTAATTTATGAGAAATCAAAGGATGATTCACTTCTACTACTGCCATTTATTTCACTCCTAACTCTTCTAATTTTTTTTTAAACTCTTTCAAATTTATTCTCATTGTAACAACGCAACTATCATCACTGTCCCATTCTCTTTTGGTCATTTCCGCTTCTCTTATAAATGATATAACAGATGTTTTTATTGTAGAATCTTTTACCATAGCATCTTGAACTATCATTCCACTTTCTAATTTCACTCCATATAAATATGAAGCAATATCATTTAATGCCGCAGATTTAGCTGTTTCATATGAAGTTTGACGCCTAAAAGCTTTATTTGAAGCTTTTATATCTGGAGCTCCCATACCTATTGCTTCATAAAATTGTTTAGAATCATTCGAATTTACAGCAACTACTACTTTTTCTTTTTTCATTTGCGATTTTGTTGTTGTTCCACAACCACTCAATGATATTAATCCTAAAATCACTAAAGTTAAAAATATTTTTTTCACAGATATCACTCTCCTTTTTCAGCTTAAAGAACGTTTGAAAAATAATTTATATTTTTTTATAAAAGCTATTAAAAATATTTAAAAAACAATATATATATTTTGTTGTAAAAGCGCTTAAATCATTGCGTATTTTAAAACAAAATTAGAATGTAATTTTTAAGCTGTTCCTAAATTATCGCGTACTTTAAAACAAAATAAGAAAATTATTCCTAAGCCATCCCTAATCTCATTATACCACGAAAATTATACTCTTTCAACTATATTGTTTCAGTGAGCCAAATCACATTTTAAACCTAAAAAATAAAAACAGAGCTATCTGCTCTGTTTTTATTTAAGACCATATTTTTTTCTGAATTTATCAACTCTACCTGTTTCGTCAACAAATCTACTTTTACCAGTATAAAAAGGATGGCAATTTGAACATACTGCTACTTTCAAAGTATCTCCTTTTGAATATGTTGATTTTGTTTCAAAACTATTACCGCAAGAACACTCTACTGTAATTAGTTTATAATCTGGATGTATTCCTTCTCTCACTTTTTTTCACCTCACCTTAATTTAAAATACGTATTATTTTATCATATTTATCTTAAATTTTCAAGATATTTTTAATATTTTTCCAATCTTTTTCTTTCTTTCCCTAAAACAGTGTTTCTTCCATGCCCAGACATAATAATTAATTCATCTTTAAATATTAATATTTTTTTTATACTATCTTTTAGTTGCATAAAATTTCCAGTTGGAAAGTCCGTTCTTCCTATTGCATTTTCAAATATAAAATCCCCTACAAACATTATATTTTCACTTTTAAAATAATAAGATTTACTTCCAATTGTATGTCCAGGTGTATTTATTACTAAAAAATTATCAATTTCATCATTTTCTTTCACTTTTATTAAATTCAATTTATTTATATCAAACTTCAATTTTTCATTTAACATTTCTGATAAATTTAATTTTTCATTTTCTAAAAAATTTATTTCTTCTTCTCCAATTACTATTTCCACATTTTCAAAATAATTTAAAAAAATTTTCAAACCCATAATATGATCAAAATGACCATGTGTTAATAAAATTCTTTTTAATTGCATTTTATTCATGTTCATATATTTTATTATATTTTCAACTTCATAACTTCCAGGATCAATTATTGTAACCTCATTGCCATTTGTCAACATATAACAATTTGACTGAAATTTTCCTAATATAAATTTCTCTATTTTCATTATTTACCTCATTATCTTATACATTAAATAAGAATTCCATCAAATCTCCATCTTGCACTACGTATTCTTTTCCTTCAATCCTTAATCCACCTGCTTCTTGAGAACCTTTCCAACCGTTATATTTTATAAAGTCATCAAAAGATACAACTTTAGCTCTTATAAAACCTTTTTCAAAATCTGTATGAATTTCACTAGCAGCTTTAGGTGCTGTAGCTCCTATTTTTATTGTCCAAGCTCTAACTTCTTTTACTCCAGCTGTAAAATACGTTTGCAGATTTAAAAGTTTATATCCTGCTCTTATTAATCTATTCAAACCAGGCTCTTCTATTCCTATCTCTTCTAAAAACATCTCTTTATCTTCATCATCTAATTCAGAAAGCTCTGCTTCCACTTTAGCAGATACTATTACAACTTCTGCATTTTGTGTGTCTGCATATTCTTTCACTTTATCTACATACTTATTACCACTATTTATCTCTTCTTCTGATACATTTGCTGCAAACATCATTGGTTTTATTGTTAAAAATTGATATTGTTTTACTAATGCCATCTCTTCTTCATTTAAATTCAAAGTTCTTATTAAATTAAATTCTTCTAAATGCTCTTTTATTTTTGTCAATACAGTAATTAAATTTTTAGATTCTTTATTACCACTTTTAGCTAATTTTGAATTTTTTACTATTCCTCTTTCAACAATTTCTAAATCAGACAAAATAAGTTCTCCATTTATAGTTTCAATATCTCTAATCGGATCAATAGCTCCATCTACGTGAGTTATATTTTCATCTTCAAAACATCTTACAACTTGACAAATTGCAGCTGTATTTCTTATATTAGATAAAAATTGATTCCCCAATCCTTCTCCTTTAGAAGCACCTTTTACCAATCCTGCTATATCTACAAATTCGACAGTTGCAGCCTGTATTCTCTGTGGATTTATTATTTTAGCTAGCTCTTCCAATCTCCTATCAGGCACTGTTACCATACCTACATTTGGTTCTATTGTACAAAAAGGATAATTTGCAGCTTCTGCAGCTCCAGCTTTTGTTATTGCATTAAAAAGTGTTGATTTGCCTACATTTGGTAACCCTACTATTCCTATTCCTATCATTACCTACAGCTCCTTCTAAAATTTATATACTCTGTTTAAGAGACATAATTTTAACACAAATATTCTTTTTTTTCAAGAAACTATTTCAAGGTAACTATAACTTCATCTTTTATATGATTATCTGAATAAAAAGGTTTATTGCTCCAATTAAATACAACTATCAGAAATAAACATATCAGAAATATATAAAACAAAATTTTATCACTTATTTTCATCTTAATCATCTCCTCGATTATACGCTTAGAAACAGATTAAAAATTACATTCCCATTTTGTTTTAAAATACGCAAGATTCAAGCATTTTTATAACAAAATATTAAAGAATTGCTTTTTAAATATTCTTTAAGCGTTTTTATAAACAATATATATTTCTTTTTAAATGTTCTTTATTTTAAATTCATCAATTAAATTAACTTCTTTAAATAGTTTTAATATATTAATATTTAATTTTTCCAAACATATTTTAATACCTCTTTTTTTATATTCTCTTTTCATTTTTAAAAAAAGCAATACACCTGATAAATCTATATAACCTACATTTGACATATCTATTTTTAAAATATCAGTATATTTTTCTAAACTATTATATTTTAACTTTTTTTCATATTCCATTATATTAAATAACTGTATATCTCCTTGTAGAATTATTTTATTAATCATTTATATCACCTCCAAAATAACAATTCCTAATTACAACAATATATTACTACATAATACTTTTTTATTCTGTAATTCGTATCACAAAAAAAAGAAAGAGTTTATTAACTCTCTCTTTTTAAAGCTTTATGTGCTATATCTTTTCTATAAAATTTATTTTCAAAATTTATACTATCTATTTTATTATAAATATCATCTACTGCAGCTTTTATATTATCTTTTATCGAAACTACATCCAGCACTCTTCCTCCATTAGTTGTAACTTTCCCATTTTCATCTTTAGTCCCTGCATGAAATACTAAAAGTCCATTTTCTTCTGCTTCTTTTATCCCAGTAATCAATTTCTCTTTTTCATATTTTCCAGGATATCCTCCAGATGCCATTACTACACATACAGCTACTCTATCATCCCACTCCAATTTTATTTTATCCAATTTTTCTTCAGCTACTGCTTCAAAAACTTCAAATAAATCAGTTTTTAATCTTGGTAATACCACTTGTGTTTCTGGATCTCCAAACCTAACATTAAATTCAACAACCTTCACTTCTTTTCCAGATATCATAAGTCCAGCATATAATACACCTTTATACTTTATTCCCTCCTCTTTTAATCCCTTTATCATTGGAACTAAAATATCATTATAAACCATTTTATAAACTTCGTCAGTTACAACAGGAGCAGGCGAATATGTCCCCATTCCACCAGTATTCGGTCCTTTATCTCCATCATATATTCTTTTGTGATCTTGAGATGATACCATAGGATATATAGTTTTCCCATCTGTAAAAGCAAGAATACTAGCCTCTTCTCCATCCATATATTCTTCTATAACCACTTTTGCTCCTGATTCTCCAAATATTTTATCTAACATAATATCTTTTAATGCATTTATTGCATCATCTATATTAAATGCAACTGTAACTCCTTTCCCTGCAGCTAATCCATCTGCTTTTATTACAATAGGAACTCCTTTATTTTTTAAATATTTCAAAGCTTCTTCATATTCTGTAAAAGTCTCATAGTCTGCTGTTGGTATTTTATATTTCTTCATTATCTTTTTTGCAAAATCTTTACTACCTTCTAATTCTGCTGCCTCCTTTGAAGGACCAAATATCTTTAGACCATCTTTTCCAAATTCATCTACAATCCCTAAAGTTAAAGGTATTTCAGGCCCTACAACTGTCAAATCAATCTTATTATTTACTGCAAATTTTTTCAATTCTACAATATTATCTACACTAATATCTATATTTTCTCCATAATTCAAAGTCCCACCATTACCAGGGGCAATATAAATTTTGGAAACTTTATTTGAATTAAATAATTTCCAACAAATTGCCGATTCTCTACCACCATTTCCTATAACTAATACTTTCATCCGTTCAACTCCTTATTATTTGTTTTATTATTATTATTATTAAAAAATAAAATCTGAACCACTATATAATTTCACTACTATAGTAATACATTTCTTTATGTTTTGTCAATAGTTTTAATAAAAAAATAAGCTACGCTTCATAATGTAAAGCATAAATGTTTTTCAAAATTTTTGGCTTCTGAAAAATTTCGCTTTGAAAAATTGCATATTTCAAAAAAACGGCGTAGCTTATTTTCTGAATAAATTTATACTTTTCTAGTAAAGAAAAAAAAGAGAAGCTAAAAAGCTTCTCTTCAAAAATCAAATATATGATTATTTTATTATTGTATTTCTAACTTCTAATTTATAATTGTCTCCATCAATTAATTTTATTTTTTTGATGTAATCAGCAACTAAATCAGCTAATACATATCCTGTATCCATTCTATTTTGACCTACAGTTAATGTTTTATATCCATCTCCACCATTAGCCATATAATCATTTGCTGCTACAGAGTACATTTTATTTAATTCTAAAGCTTCTCCATTTACTTTTACATTTTCAACTTTTCCTTTGTTATTTGTCCAAGTAAGTCCAGCTGTATGTAAATGAGCTCCAATAGTTTCAGGTAATCCTGCTGCATAATTTAATACAGCCATTACTTCTTTTCCTGTCATATTCATTTTAAATACAGTGTTTCCAAAAGGTAATACTGTCAATACATCTCTATATGATATTTTTCCAGGATTAATATCAGCTCTTATTCCACCACCGTTTTGCAATGCAATATCAGCTTTTGTAAAATCTTTTATTGAATCTGTAATAATTTCTGCTAAAAGATTGTCTTTAGTTTCTGCAGTTCCATGAGAAAGAAGTATTTTTGTTTCTCCTATAGGTTTGTTTAACCCTTTTCCAGCTTCTGCTTTATATTTATCTAACATATCTTTTACAGCTTTATCTTCAGGTATTACATCTCCAATTGGATAATATTTATATTTTTTTATTTTTTTACCATCTTTTTCAACATAATATTTTTCTCTTTTTTTGAAGTTTATTTTTATTAATTTACCATTATAACTTACAATTTTTTTATTTTCTATATCCAAATCTAATCTTCCTAAAAATTTACCCCAAGAAGACGCTTGTACAATTATGCTTCCATTTACCTCAACTGGTTTATCTAATTCAGTATGAGTATGTCCATCAACAATAACTATTCCTGAAACAGCTTGTGCCAATTGTCTACTTCCTGCATATTTCTCTCTTTTATCTGTAAAATATCCTAAATGAGATAAAACTATTATTAAATCAGGATTATATGTTCTTTCTAATAAAGCTTTATATCTTTTTACATATTGAATTGGATCTCTAAAATCTAAATCTCCTACATGTTTAGGATTTCCAATCTCTTCTGTAGATTGAGTTGTTACTCCAATAACAGCAACTTTTAAATTTCCAACTTTCATTGTTGTATATGGTTGAAAATATGGTAATATATCTCCTTTTTTAAATATATTACAAGATAAAAATGGAAAATCTGCCCATTTCATTTGTTTTTTTAATACATCTCTTGTATGATCAAATTCATGATTCCCTATTGCTACTGCATTTAGTCCCATCATATTTAAAGCTTCAATATCTGGTTTTGCGTTTAATAAATCTGATTCAGGCATTCCTGTATTTATATCTCCTGCATGTAAAAATAAAGTATTTGGATTTTCTTTTTTTATCTCTTTTACTTTTGTAGCTATAGCTGCAAATCCACCTATATTCGGCATAGGATAACTAAAATATGGCCATGCATGACCATGCGTGTCATTAAGATGAAGAATTGTAATTTTCTCCGAAAATGCTCCTACTGTTACTACCAACATTGCTAATAATGCTACTAAAAATCTCTTTTTCATTGTAAAACCTCCTATATTAGTATTTTATAGTAAAAGGTTACCATCTTTTGAGCAAAAAGTCAACTTTTTATAAAATATTTTCTTCTATTTTTTTCATTAAAAAAAAGCTTTAAATCTGTTGCGTTCATTGACCTAAATCAAGTATACAATATCTATATTAATCTCTGTGTTGAAATAAGAAACAGTATATGATATAATATATTATAATATAATTTATAAGGAGGTGTTGGTAATGAAAAAGGTTGTTTTATTGTTGCTTTTATTAAGCTTTTCAGTTGTAATGAACGCTCAAGAAAACCTTTTCAAGGAAATTAAAGTAAAAAAGGCTATTCTATGTGAAAACGTCAAAGACAGAGCCCCTATTAAAGAAACAGACTCTTTTTTCAAAGGAGAGCGTGGATGGTTATTTTCTAAAATAGAAGGTACTGGAAAAAAAGATTATATTTTTCATATCTGGTATCATTATAATGAAGATAATTCAAAAAAAGTAATCGCAAAAATCAAATTAAATATAAACGGTTATCAATGGAGAACGTGGTCTAATAAATATTTAGCTCTTTCTGGAAAATGGGAAGTTGTAATTTTAGATTCTAAAGGCAATCAATTAGATTCAAAAGAATTTTATGTTTTAGAAAAGGAGAATAACAACAATGAAAAGTAGTGGTATAATTCAAGAAATCAAAGGAAACAAAGCAAAAGTATTAATGTATAAATCATCCTCTTGTGGTGGTTGTAAAACTTGTACAGAGGGTAGTAGATTTGCAGGAGAGTTTGAATTTATAATTGATGCTCCTGTAAAAAAAGATGAAGTTATATATTTCGAGTTAGATGATAATAAAATATTAAATTTAGGTTTTTTATTTTATATTTTCCCTGTTATATTTTTGTTCATAGGATATTTCATCTCTACATATTTTACAGAAAAAGAAGCTTTTAGAGTTTTGATAAGTTTTATAAGTTTCGCTGTATCTTTTTTCATAATATTTTTAATTGATAAATTCGTAGGAGAGAAATTTATCAAACAAATAAAAATCTCTGATGTATTTAAAAGTGATGAATTTTGTAAATAAGTACCCCTTTGAAAAGCACATTTTAATTTAGTTAAAAATGTATAACGATTTTAGAAAAATACTTAAATTAAAAAAGTCATAACTAAAAATAGTTATGACTTTTTTAATTTAAAACATCTTATCATAAAAAAATGCAAGGCATATAGCCTTGCATAAAATTTTTATCTTTTTGAAAATTGTGGACTTCTTCTTGCTTTCTTTCTTCCATATTTTTTTCTTTCTACCATTCTTGAATCTCTTGTTAAGAATCCTGCTTCTCTCAACACTTTTCTTAAAGTTTCATCATTTAATAATAGTGCTCTTGATATTCCATGTCTTATAGCTCCTGCTTGACCTGAAATTCCTCCACCTTTTACATTAACCAATACTTGAAATTTATTTAATGTATCTGTTAATTCTAAAGGTTGTTTAACTATCATAGATAATATTTCTCTTCCACCGAAATAATCTGCCATCTCTTTGCCATTTATAACAATCCCGCTTTCGCCAGGTATTAATCTAACTCTTGCAGTCGATGTTTTTCTTCTTCCTGTACCCCAAATTTGAATTCTTTCTGCCACTTATCTGACCTCCTTAAAGTTCTATCTTTTCAGGCTTTTGAGCCATATGAGGATGACTTGGTCCAGCAAATACTTTTAATTTTGTAAGCATTTGATTCCCCAATTTACTTTTTGGTAACATTCTCTTAACTGCCAACATAATAACTTCTTCTGGTTTCTTTGATATTACTTCTGCCAAAGTTCTATCTCTTAATCCCCCTGGATAACCACTATGGTTATAATATATTTTGTCATTTAATTTTGCACCTGTAACAACTATTTTTTCAGCATTTACAACTACTACAAAGTCTCCATTATCTACATGTGGTGTATAAGTAGGCTTCTTTTTTCCCATTAGCATCATAGCTATTTCTGTAGCCATTCTTCCTAATATTTTTCCTTCAGCATCTACTTCATACCATTTTCTATCTGTATCTTCTTTTCTAAGCATGAAAGTTTTCAATTGTTTCCCTCCTTAAATTTTCTTTGTTACGTTACGGGAACCTTTGTGGGAAAGGTCTATTAATTTTACTATATTTACTATGCTTTGTCAACCACTTTTTTTGAAAAATTAAATGAAATTCTAATATTTCAAAAATAAATTTAATAATTAGGAATGGCTTAAAAATAACATTCCCATTTTGTTATAAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCCTTAGCAACAATAAAACTAAAAATATTTATATCCTTTTAATCTAAAATCTATAATTCTTCCTAATCCTATAAACTTATCTTCAAAATATACCCTGTATTTATTGTTATTCCAATCTTCCTTTACTACAGTATTTCCATTTTTAAATAATTTCAATTCTGTTTCATTCTCCAATGTTAAATTTTCAAATTCTGAAAATGCTTCCTCTACATCAACTACAAATCCAAAATCATTATATAAAGCCATATCTTCTATCTTTGATAATGTAAAACTATTCTCAACTAAATATTCTCCTACGCTACTCCTTTGTAGCTCTGTCATTGTCCCATAACAGCCTAATTTTTCCCCTATATCATATATTAAAGTTCTAATATATGTCCCTTTTGATACTTTTGTCTCTATCATTACTTTTTTATCTTCAAATTTCAATAATTTTATATAGTCTATTTTTATTTTTCTAGCTTCTCTCTCAACTTCAATATTTTGTCTAGCTAATTCATATAATTTTTTACCATTTATTTTTATTGCAGAATACATTGGCGGCACTTGCAACTGTTCTCCAACAAATTCAGATAATACTTTTTCTAATTTTTCTTTTTTTATTTCAAAATTATCAACTTTTTTTATTATTTTTCCTTCTGTATCATAAGTATCTGTAGCATATCCTAATTCAAATTCTGCCCTATATACCTTTTCTTTTGCTTCTATATCTGATACTAATTTTGTTGCTTTACCAACACATACTACCAATACTCCTGTTGCCAATGGATCAAGTGTTCCTGTGTGTCCAATTTTTTTTTCATTTAATAATTTTCTTAATTTTCTTATTACATCAAATGATGTTATCCCTTTAGGTTTATTTACATTAATTATCCCTATCATAATTTTTCTATTATCCTCTTTCTATTTTCAAATCTCAAATATTCTGAATATCCAAAACTTTTTGCATATTCAGATGCTTGTTTTATATAATTTCCAGCATCTTCAGGTTTATGAGCATCCGAAGATAATATTATTGGCAAATCATATCTCTTTGCCATTTTCATAAATTCATTATATGGAGAAATCTCTTTTATTGGGTATCTATATAATGTTCCTGTATTTACATCTACTGCCATATTGCTATTTTTTAATGCTAAAACTGCTCTTTCTATTAATTCTCTCATATCCTCTTTTGGAAAATACCCATACATCCTTAAATTAAATGGATGTCCCAATATATCATATAATCCGCTTTTTGCCACTTTCTCTATCTCTTCAACATATTTTTCATAAACATTATATATATCTTTATTATCCCACTCTTTTTTTATTTGACTACTATCATAAGCCCATCCTTCTATAAAATGTATAGAAGTAATTAAATAATCGAAATTATATTTATCTAATATTTTTTTTACTCTATTTTGATTTTGAAAATTACAAATTTCCATTCCAAATTTTACTGGGTATCCTTTTCCTTTTAGTTCATTTATAAATTTTTCATAATCAGATATATAACATTTAAATTTATTTGTTTTCAACCATTTTTTTTGAAATTCTCCAATAAAACTATCATCTAATATCAAATCTTCATAATAAAGCTCTTCAAACTCTTTAAATCCATGACTATGTTCAGAAATCCCAAGTTCTGATACACCTCTTTTTTTAGCTGCATCAAAAAAACCTTTTACCCATTCTTCATCATAACTTCCATATTCAAAATGCATATGATAATCTGCTAACATAATTTATACACCTCTTTTTATTATTTCCAATACTTTTTTATAAACAATCCAGCTATTCTTATATTCAAATTGTATTGGGTAAATCTCTACTCCACTTTTCAATGCTCTATAAAAATTTTCTGCAAATTCTACATCAGTCTCCCAATTAGGCATAAATTTTTCTGCTTTAGATAATACAAAAATATACAAGCCTGCTCTTTCACCTTTTTCTTTTAATTCCATTAATTCTTTTAAATGTTTTACTCCACGTTTTGTTGGAGCATCAGGAAATATTGCTATTTCATCTCTACTTAAAGTACAACCTTTTACTTCTATCCAAATATTTTTATTATCTTTTGTCACTAAATAATCTAATCTACTGTTTTTATACTTTACTTCTGCTCTTATTGTATCTAATTTTCCTAATTGATTTAGATTATTTATTAATAATTTATCTCCAATTTTTCTATGATATGCAGAATTTATCAATATCCATTCTTCATCTTTTTTAGCTGCAATAACATCCCAATTTGTTTTTCTATTGGGGTTAGCAGCTCTTTTTATTAATACTTTGTTACCTTTATATAAAAGTTCTTCTAATCTTCCTGGGTCATGAACGTGCACTAATTCTATTTTATCACCTAATTTAACTTCTGCTAAATATCTATTTGGTCTTGATAAAAACTCTCCTTCTTCATCCCAATCTATTTTTAAAATTCTCATAGTTTTTCCCCTCAATTATTCACTCAATAATGGTACTGTTAATGAACCATATGGCATAACTAATATTTTTGAATCTTTTCCTTTTTTTTCTAATGCTTTTTCTATTGCTTCATCTAAATTTTTAAATGGTTTTATATGAACTGCTTTTATCTCTTTTTCAGGTAATTCTGTTACTCCCCAAGTTTCAGCCCACATATTTATTTCTGCCATTTTACCTGCTTTATGATATCCTAATTTATAATCTTTTTTTATTTTATCTAGCACCTCTTTTGGCGTTCCACAAGAAGCCATTAAATCAAAAAAAGTTTTACCTCCAATTCCCATTCTACATTGAGATACAAAAATTAAAATTCCATTTTCTTTTAATGCTAATTTTCCATTATCTATTGCTTTTTGAGATTGATATAAATCTATATCCATTGGATAAGGCGCTGCTGAAATAACAATATCCGCCTTTTCTTTAATTTCCACACAAAATACTTCATTTGCTTTATCTATTGCATTATAAAATGATTTTTCCAAATCTCCTGCTGTAAGTGCATATATATCATGTTCTCTATCTAACACTGTCATTATAGAAAATATATCTATATCTTTTAATACTTTCATTGCATCCATCATATCCTCATGAACTGGATTTCCTTTTAATGATAATGCTTTTGCAGTTGAATTTAAAGCTAATTTATGATTTTCAGTTATTGTTTCATATGATGCTACACCAGGTAAAAATCCTTTTCTTCCACCTGTATATCCTGCAAAATAGTGAGGTTCTACTGACCCTATCACTATTACTTTTTTAGCTTTAGCAACTATTTCATTTATATACATAGGAGTTCCATTTTTAGATTCTCCTAGATATATCATTTCATCTTTTTTAGAATCATGAGCCCATATTTTATCTGTTCCTTTTAATTCTCCATATATATCTTTTCCAAAAATAAATTCATATTCTTCATCGTTTGGAGCTCTATGTGCTCCTGTGGCAATTATAAATTGAAAGTTTTTACTCCTTAATTTAGGAAATATCTCTTTTAAAACTTTTATTGTTGGAGTTGGTCTTGTGCCATCATTTACAATTATAACTATTTTTTCATTTGAATCTATAAATTCGTTAAATTTTTCTTTATTTAACACTTCTTTTATTTGTTTTGTAGAATTAGTTTTTTCTACACTATTTGGATATAATATTTCTAATAAATTTTCCTCAGAAATATTCACTTCTAAATTATCTTTTCCATATGGTATCTTTACTTTCATTCTTTATTTCTCCTCCATAAATTTTTTGAAATTTATTTATTCTCTATTTAGGAACGGCTTAAAAATAACCTTATAATTTTGTTTTAAAATACGCAACAATTCAAGCGTTTTTATAACAAAATATAAAAAAATATTTTTTAACTATTCTTCAACTTATTTTTTTCTTTTTCAACATACATTTTTTCATCTGCCTTTTTTACAAAATCATCTATAACTGTATTTTCTTCATATTCTACAATTCCATGACTTGCAGTAACTTCAAACTTTAAATCTTTAGAATATTCTTCAAATTTTTCTTTAATTCTATCCCAAATAAATTCTGCTTGTTTTACATTACATTTATCAAATATAATTAAAAATTCATCTCCACCTATTCTACATAAAATATCTGAATCTCTCTTTACAGAAATTATTGCTTCTGCTACAGTTTGAATTAATATATCTCCATTTGAATGCCCAAAATTATCATTTACATACTTCAATCTATTTACATCTACAAAACATATTGATAAATCATTCTTATAACGATTAGCCTCTTTCATTTTTTGATTTAAAATATCTAAACCAATTCTTCTATTAAAAAGTCCTGTTAAGCTATCATAGTTGGCAAATATTTCTAACTGTTTTTCCATTTTCTTCCTATCTGAAATATTTATTGCAGTAATTAATATTTCATAGCTTTCTTCTTCCTCTATTATTGCATTAGATATAGATATCAACAAATATTTTTCTTTCATAAATCTATCATATACTTTTACTTCTAAATCTTTTACCTCATCGCCTAAAAATATGGTTTCAAAATTTTCTAAAAATTTTTCTTTATTGCCATCTGCAATTATTTCAACAAAATTTTCTCCAATAATATCTTTTTTCTCATAATGAAGAGTTTCTTCAAACATTTTATTCACATCTAAAATATCCAAACTTTCTGAAATTAACATATGTATTGCACTATTTTCTTCATATAAAAGTTTATACTTCTCTTTTTCTCTCTCCAATGTTTTTTGATATTTTTTAGTCTCTGTGATATCTATACCTACTATCCATATTTTCCATCCTTTTATATGAATGTGCGACATATTTATTACTTTTAAACTTCTTATAGTTCCATCTTTAGTTATTATTTCTCCACTTATGCTATCTTCTGCTTTTCCATTTTCCATATAGTCTAAAATTCTTTCTTTTTTATCTTTATCCTTTTTAGCTAATTTTTCAATTAGTTTTTCTAGTGTACTTATATCCTCTCTATCATAACCAAATTTTTCTTTACACATTTTATTCCACATTACAATATTATGTTTTTCATCTACAGCACCAATATATATTGGCAAATTATATATTATTCTTTCCAGTTCATCTTGCTTTTCTTGATTTTCTTCTGTTATTTTTCTAATAGTATCTAAAAGTCTGTTTAAATTATTTTTTATACTTGATACTTCATCATTACCATTAACATCTATATTTAAAAAGAACTCTTTTTCTTTTACCAAATATTTCAATCTGTTATCTAAAGTGTCTATTCTTTTTAAAACTTTTTTATCAATAATAAGAATTATTATTATTTCAATAAGCACTATTAATAAAAAAAATATTATTTCAACTGTTTTCAATATCTTTTTTATTGAATTATAATAATTTCTATATTTATCCAATATTATTTTTTCTTTTAATTTTTCAGAAGAAAAGTATCCTGTTATAGTTTTATCACCTATTTTTGTTATTTTAATTCCTTCATTTTTATAGTTTCCTTTTTTTATAATAATATTAATCTCATTTAAATTAGAATATTTCTTTATTATATCATCATTTAAAATATTTTCTTTTATTTGAACTGCCATAATATTATATTCTTGGGTTTCTATTTTTGTTACTTTTTTTAATAAAACATTATTAAATATAAATGTAAATAAGAATATAAACATTAATATAAATAACTCTGATATAATGACTTTATTTCTTATTGTCATTTCAATCACCCCTTTTAATTTATACCAGATATAAAGAAAGAGCCTTAGGCTCTCTCTTCATATCTCAATCACTCTATATTAGTATCTCTTAATATTTTGGCTGCTTTTTCTGGTAATTCTGGATTAATATAAAATCCACTTCCCCACTCAAATCCTGCTACTTTTGTTAATTTAGGCATTATTTCTATATGCCAATGATAATAATGTTGACCTTCTCCATTTATAGGAAGTGTATGTATCACAAAATTATATGCCGGATCACCTAATGCACCCTTTATCCTTTTTAATACATTTTTTAATATAACAGCTAAATTCATAACCTCTTTCTTTGTTATATTTTCAAAATTAGATGAATGTTTTTTAGGTAATATCCACGTTTCGTATGGAAATCTTCCTGCAAAAAATACAAATGCTATAAAATTATCATTTTCTTCTACTATTCTCTCTTTATCAGCAAGCTCCTGTGTTACAATATCACAAAATACACATCTATCTCTAAATTCATAATAATGCCTTGCTCCAGAAATCTCTTCCTCTACTCTTTTTGGCACAACTGGAGTTGCTATTAATTGCGAATGAGAATGCTCTAGTGATGCCCCTGCATCTTTTCCATAATTTTTAAATATCAATACATATTTCATTCTCGCATCTTCTTGAAGAGTCATATATCTATCTCTATAAGCCCAAATTACTTTTTCTACTTCATTATACTCAAGATCAGAAATACACTTATGATGTTTCGGTGTTTCAACTATTATTTCATGATGCCCCACACCATTCATTTTATCATAAATTCCAACACCTTTTTTCCCTATTTCCGATTCATCTTGTAATGCTGGATATTTATTTTCTAATACTCTAACCCACCATCCTGGTGAATTTGGTTTTCTGCCAGGTATTTTTTCATATGCCAACAATTCATCTCCAGATGTTTTTTCTTTTCCCTCACAAAATGGACATTTTCCACTTTCTTCTTCTAAATCAACCTTTACTTCTTCATCTTTATCTTTTCTATAATCACTTGGTCTTTTTGAACGCTCAGGTGCAAATATAACCCATCGTTTACTAACAGGATCTTTTCTTAGCTCTGACATTTTAGTCACCCTCTTTTAATTTTTTTCAAATAATTCACTTAGAGATTCATTATTATATACTCTTCTTATAGCTTCTGACAATAATAGATCAACTGATAAAACCTTTATTTTATCCAATTTTTTATCATCAGGAAGCTCTATAGAATTCGTTACAATAATCTCTTTTACTCTTGATTCTTTTAATCTCTCAATTGCAGGACCAGAAAATACAGGATGAGTACAACAAGCATACGCTTCTATTGCTCCTCTATCCAAAATTGCATCTACTCCACTTGTTATTGTTCCTGCTGTGTCTATCATATCATCTATAAAAATAGCTATTTTCCCTTCTACTTTCCCTATTACATTCATAACTTCAGCTACATTAGGTTTTGGCCTTCTTTTATCAATTATAGCTATTCCAGATCCTAACCATTCTGATAAAGCTCTAGCTCTCTTCACGCCCCCAACATCTGGTGACACAACTATAACTTTATCTCCTGAAAGTCCTTTATCTAAAAAATATTTAGCAAGTATCGGCATTGCTTCTATATGGTCTGCTGGAATATCAAAAAATCCTTGTATTTGATTTGCATGTAAATCCATAGCCATAATTCTATCTGCACCTGCTGAAGTTAAAAGATTAGCAACTAATTTTGATGTGATTGGTTCTCTTGGCTTTGATTTTCTATCTTGTCTTGCATATCCATAATATGGAATAACAGCAACAATAGATTTAGCTGAAGCTCTTTTTAACGCATCAATAAAAATTAATAATTCCATTAAATTTTCATTAACAGGATTTGATGTAGGTTGGACAACAAAAACTGTATCTCCTCTAACTGTTTCAACTAACCTTACATAAGTTTCACCATCTTTAAAGTTTACTATTTTAGCATTTCCTAAAGGTAGACCTAAATTTGATGCAATTTTTTTTGCTAAACTTACATTTGACGTTCCAGAAAATATTTTCAATTTTTCTCCTCCTAAAAGTTTTTATAGTTAATAAAAGTAAATACTTTTTATAAAAAAATAAGCTACGCTTCATCTGGTAAAACATAAATATTTTTCTAAATTTTTGGCTTCTTAAAAATTCCACCTTGAAAAATCGCATGTTTTAAAAAAATGACGCAGATTCTTTTCTAAATAAAATTTATACTTTCCTATTAAATAAAACAGTTATATTATACTATATTTATTATACAAGATTTTGCTAATTTTGTCCATTTATTTAATTTTTTTAAAACAAAAAAAGAAGCATAGCTTCTTTTTGTTTTAAAAAATTAATTTAAAAATTTCAAATAGTACCATTGTTAACCCTGCAGCAAAAGGTATTGTTATCAACCAAGATGCTACTATATCTTTTACAATAGCCATATTTAAAGCTGCAACCCCTCTACCAAGTGCTACTCCAATAACTGCCCCAATTAATGTATGTGTTGTTGATATAGGTAATCCCATTCGAGAAGCAACTAATACTGTTGTTGCTGCACCAAATTCTGCTGAAAATCCTCTTGTTGGAGTTAATTCAGTTATTTTTTCTCCTATAGTCCCTATTACTTTATAACCCATAGTTGCTACACCAACGACAATTCCTACTCCACCTAATGCTAATACCCACATTGGAACCGCTGCTGTTGTTGCAATAGATCCCGTTTTCACTACTGCCACAATCCCTGCTAAAGGTCCAATAGCATTTGCTACATCGTTTGCTCCATGCGCAAACGCTACATAACAAGCTGTTATTATTTGTAAATATCTAAATATTCCTTCTACTGATTTATATTCATCTCCTTTTGAATGTACATTTCTAAGTAAAACAAAAGATATTATATATATAACTATCGCTACTCCTGTTCCAATCAAAGAAGCTTCTCCAAAACTTAAATCTAAATGTAAATTTTTTAACCCTTTAAAAACTAATGATAAAGTCAATATAAAACCAGTCATTCCAACAAACAAAGGAGCTATTTTTTTCGCTCTTTCTACTGGCTTATCTTTTTCTAAAATAGTTCTTTCTATTATTTTAAAAACTATAAGAGCAATTATTCCTCCCATTAATGGAGAAACTACCCAACTCAAAACTATATTCCCAATTTTACTCCAATGAACTGCTCCTATCCCTTTTGACACTATCCCAAATCCTACAACAGAACCAACTATTGAATGTGTTGTTGAAACAGGAAGTCCAAAATGAGTTGCTAAATTTAGCCATAATCCTGCTGCTAATAATGCTGCCAGCATCCCAATTACAAATATCTTAGGATCAGTAAATACATCTGGTGATACTATTCCTTTTCTTACTGTATTCGTTACATTCGATCCTGCCAATACTGCACCTAAAAACTCAAAAATCGCTGCTATAATAACTGCCTGTTTCAATGTAATTGCTTTTGACCCAACTGATGTTCCCATGGCATTAGCTACATCATTCGCTCCAATATTCCATGCCATATAAAATCCAACAATTAATGCTATTCCTAAAATGATTGTCATGCTTGACATAATGTAAAATTCCTCCTATTTTTTTTTAGAAATCTTTTTTATAATCTATTCCATAATTTGCAGAAAAAATAAAATCTGCAAAATAAAACAATTAATTTAATATCAGTCTAAATCTATTACTTAATTTTTCTGATATATTAGCCAAATCTCCCATTACTTTTATTATTCTCATCCACATATAAATTGCAACTGGCGACTCTTTCCCTTCAAGTGCAAGTAATTTTCTTGTAAAATCTAACCCAACATCATCAGCTAAACTTTCTTTTCTTTCTAAATGTTTTAATATTTTTACAACTCTCTCAACCTCTGGACCTTTAAATCCAACTTCAAACAGATTATTTATTTCTTTTATAGTTTTAATTCCATCTTTTGCAGCTTTTAATATAGCTTCTGTTAATTTTTTATAATCCTCTACTAACTCTTTAGGAATTTCCATCTTTCTAAGTGAAAATAATTTTGCTATATCTTCCGATACATCTGCAATCCCATCTTGAGCTGTTAATATCGATAAAATTTCTCCTTTATCAATTGGTAATAACAAATTTTTTGACAAAGTAACCCTAAGTTCATCTTTTACCACATCAGCTTCATGTTCGTACTTATAAATTTTTTCCGATACTTCTGAAATTTGATCACTCTTTCCTTCACCTACAAGTTTAAGTAATTTTTCTAATTCATCCAAACATAATTCAACTTTTTCGATATGCTCTACCATCCCTGTAAATGGCGATTTAGCAAAGATGCTTTGAAATTTTATCATTTAATTACCTCCTTCTATTTTCATAATATTAAGTATAGCATATTTTACAAATTTTTAAAATTATTTTTACATTTTTTTTACATTAAAATTTATCTTTTTAAGTTTTTTAGTCGATAATAAAAGTACAAATACAATTAGGAGGTGTTTCCAATGAATTTAGATGAATCGAATTTTTTACAAATCTTTTTAATTAAAGAAAGTTCTTTAGACACAGAAAATTGGATTTTGACCTATAGTTCAAAATTTAGAGAAATTGTAGAAGGGGGTGTTTCCAAAATTGAGGATATTAAATTTTTTCTTTATAACAATTAAATATATAAAATTATAAAAAGGTGAGTTTAACTATTAAAAAATAGATAAAATCACCTTTTTATATTATAAACTTTTTTTTGATACTTCTACTAATTTAGCAAACTCTTCTGCATTAGATACTGCAAGCTCTGCTAGAACCTTTCTATTTAATTCAATTCCTGCTTTTTTCAAACCATACATAAATTTACTATATGATAATCCACTTAATCTTGCTGCTGCGTTTATTCTAATTACCCATAATTCTCTCATTTTTCTTTTTCTTTGTGCTCTATCTCTTGTAGAAAAAGCCATTGCTCTCATTACAGCTTGTTTTGCTTGTTTAAAATTAGTACCAGATGCACCTCTAAATCCTTTTGCTTCATCTAAAACTTTTTTATGGTTTTGTCTTCTTACTTTTCCAGTTTTAACTCTAGCCATCTATATCCCTCCTAACTATTTCTTATATTTATCTTCCTTCTCCAGTTGGCAATAATTTTTTAATCTTTCTTGCTTTTCCAGGTTCTACTACCATGTCACCTCTTAATTTGTTCTTTCTCTTTTTTGATTTTTTAGTCATTATGTGATTTGTTCCCGAATGTTTTACTACAAATTTCCCAGTTCCTGTTACTTTAACTCTTTTTTTTGTTCCTCTATGAGTTTTCATTTTAGGCATAATATATCCTCCTTCCAAGATTTTATTTTTTTGGTGTTAATATCAAAAATTTTTGATTTTCTTTTGAGCCAAATTTTCTTTCTACAGTAGCTATTTCTTCAAATTGTTTAGCTACTTTTTCTAATAATTTTATACCAATTTCAGCATGCATTCTTTCTCTTCCAAAAAGCATTAAACTTACTTTTACTTTATTCCCCTTATTTAAAAATTTTAATATTTTATTGCTTTTAACTTCAAGATCATGAGTATCTATTCTTGGTTTAAATTTTATCTCTTTTACTACAATTACTTTTTGATTTTTTTTAGCATCTTTTTCTCTTTTTCCTTTTTCATACTTAAATTTTCCATAATCCATTATTTTACATACTGTTGGATTTGCATTTGGAGATATCTCCACCAAATCTAATTCCGCTTCTTGTGCTATTTTCAAAGCTTCTCTTGTTGAAACTACCCCTAATTGATTACCATCTGCTCCTATTAACCTAACTTCTTTTTTTGTGATTCTTTCGTTTATTCTTGCATCTTGACTAATATTAAAACACCTCCCTAAAAATTCAAAAATAGCAGAGCGTACTTAGCCCTGCTACTTATCAAGTCAATTATAAATTACTTTTTCGTTAACCCTATTAAGCTAAAATTTTATAATGCCAATAAGGTGAGAAACAAGGCCGTTTCTTCTTTATTAAATATCTACTATTCATTTTTATATATTATACATAATATTATACAATAAGTCAATCATTTTTTTATGGTGCGCCCAGGGGGAATCGAACCTCCAACCCCTTGATTCGTAGTCAAGTACTCTATCCAATTGAGCCATGAGCGCATAAAAGAAAAATAAGCTACGCTTCATATGGTAAAACATAAATGTTTTTCTAAAGTTTTGGATTTTAAAAAATTCCATCTTGAAAAATCGCATATTTCAAAAAAACGGCATATCTTATTTTCTGAATAAATTTATACTTTTATAATTAATAAAAAAATAAGCAGGTAAAGTACCTACTTTAAAGTTACTAAAATTATGGCGGAGAAAGAGGGATTTGAACCCTCGATCCAGGTTTAAGCCCAGATACTCCCTTAGCAGGGGAGCGCGTTCAACCGCTCTGCCATTTCTCCATATATAAATCTCAAAAATAAAAAAGTGGCGGAGGAACTGGGATTCGAACCCAGACACCTTTCGGTTTCGCCGGTTTTCAAGACCGGTCCCTTAGCCATTCGGACATCCCTCCATCGCGAGAAGTATATTACCATATCTTTATTAATTTGTCAACAACTTTTTTTATTTACTAAAAAAATAGGTTACAGTTCAGGTGTCAATGTTATTTAGTTAAGGATTTTATAAAAACTCTACTCCTCCCTTGTTGTCGGTTTCTCTTATCTAGGAGAAACCTATAGCGTGGATATTTGGCTTTTTTAATACTTTTTTCCCAATATTCTGCACTTTAATTTTTTCTTATCTAGGGTCTTTAAAAAAATTAATGAGTCATTTGTTTGAAAAATAAAGTTCTTCTATCTTATCATTTTTAAGTCATTTATAAATTACCATTTACTTTCAATTTCATCTTTTAATTCATTTAAATTAATTTTTAAAATTTTAGCTTCTTTAATAACTTCATTTAATTTCTCATTACAAAATTTTTCTTTTTTATCTCTTAATATTTTTTCTACTACTCCATCACATACAATATTTCCTATTCCTCTTTTATTTTCTAAAATTTTCTTTTGTTGTAAGTCTTTCAAAGCATTCATTATTGTATTTGGATTAACTCCAAATTCTAATGCAAAATTTCTTATACTTGGAATTTTATCTCCCTCTTTCCAAACACCTGACAAAATATTATCTATTATTATACTTTTTATTTGTTCATAAATTGGGACCTTTTTCTTAAACATTTCCCTACCCCTTTATGTTTTGTCTTTTAGATATAAAATATAAAATTGTTCCTAATAAAATAAAATTTATACTAAATACTATTAATGTTTGATTCATTCCATAAATACCTTTATAACTGAAAAAATATTGCAACTTCTTAATAAAAATATTTTCTAAAATAGTTGTTATCCATAAAAATGCAAAATTATATATTGTAGAATTATTTTTTTTAACAATATAATATATAATTGCATATGTAATCAGATTTAAATATATTAATCCATAATATATTACATCTATGACCTTTAATAAAGGAATTGTAAAACCATACGAATCATTTAAATCATTACCAAATATCATAATCAATAAAAAATATATTGCTGTATTTAATATTATCCAAATAAACGAATATAAATATACTGAATAAATTTTCACATCTAAATCAAATGGCAAAAGATAAAAATATCTCTTTTCTCGAATAAAATTTTTTAACATAAAAAATACTCCTGCTGAAATATTAAATATCCAGGCAATTTTAGCTCCAATAATAATAAACATATCTATCTTTGACATAGCTGTAAAATAATTAACTCTAAATACCCAATCTACAGTTATAGGATTTAAAAAGGATAATATCACAATTGCAACATATGAAAATACTCCTAATATTAATATTCTTTTATGCTCGATCTTAATATTCATCTTCAACAAACAATAAATTTGTTTTAATTTATTTTTCATAGTTATTATCCCCTTTCATCTTTATTATACTTTCTAGAAATGTTGCTATATCTATATTTTTAAAATTAATATCTGAATACTTTTTTATATTCTGTACAAGTATATACTTTTCATCAAATATTTTTCTTTCGTTAATTATATCTTCAGCCTCTATATTTTTGCTCTCTTCCTCTTTTGCCCAACCAAAATTTTGGTCTACATAATCTTTTTCCCCTTTGTACAAAATATTACCGTTATCAATAACAATAAATTCATCTAATATGTTTTCAAACTCTTCAATGTGATGAGAGGCTATCAATATAATTTTTTCTTCGTTAAAATATTCTAATATATCTCTTATAACTTCTTTTTGAGCAATTATATCTATCCCTTCTGAAACCTCATCTAAAATTAAAACTTTTGGATTTACCGCTACTGAATAATAAAACCATATTCTTTTTTTCCAACCTTTAGAAAAAGATTTTATCTTTTTCTTTTTATTAATTTTTTCTCTCTCTATAAATTCTAAAAATTTCGTCTCATTCCAATTTTCATAACACCTACCTAATATAATTAAATCTTTTACTTTAAAATCATCTTTTTCTATAACTTCTGGTAAGTAAAATATTTTTTTTAGATAATTTCTACTTCTTTTTTTTGCTTCTTCTCCATCTAACATTATATTTCCATCATAACCAACCAATAAACTTGATATCATTTTTAATAATGTTGTTTTTCCACTTCCATTTCTTCCTAAAATTCCATAAATTTTTCCTTTTTTTAATTCTAAAGATAAATTTTCATACATATTTTTTTTAAATCCATATCCAAAATTTAAATTCTCAATTTTTAACATATTTTTACCTCCTTTTCTTATTCACTGTTGCAGTATACTATAACAGTGAATACTTGTCAAACAAAAACTATGCTTATCTCTTTTCTCTTCTCCCGTGCATTTGCGTAAAGTAATAAATTTTCTTGGTGAAATTCCCGTTAAGCAGTTTCCGCTGTCTGAGCGTAGCGAGTTTGGAAACTGTAGGGAATGAGCCTAGAAAATTATTACTTGGAGCATCAGCACTTGATTTTTTGTTACTTTTTTATCAAGAAAAAAGTAAAGATTCTTTCTTTCATCATAATTAACTTAAAATTAAAATTAATAGTTTACAAGAATATAACTAGCTATATTCTTGTAAACTATTAAAAAAATTATATTTTTTCCCTTATAAGACCTTTTCTATATGCAAATAATAGATGTTTTAAAAATTCTATCTGCTTGCTGATATTTTTACCTGCATCAGTATCTCTTATTGACTGCATATCATCTGCATTTTCTAATATAACTTTTGTAGAAATTATATCTTTTTCTTCATCAATTGCAGTTTGTCTAGATGTAAAAGGTTCATGTGCCGCTATTACTAATCCTTTACTATCACAAATCAACGTATACCCTGCTATACCAGTAGTTCTTTGATAAGCCGCTGTTAGTCCACCATCTATAACTAGAAGCTTTCCTCCTGCTTTTAATGGATTTTCTCCTTTTTTAGCCTGCACAGGAACATGCCCATTAATTATATGAGCTTTTTCTGGTTCCAATCCAAACTCTTTTAAAATTTTTACAGCATATTTTTCTTCATCTCTATATTTATAATATGGATTTTTTTCCTCTTTTTTTATTTCTTTATCATCTAAAAAATAACTTTCAAATGTTGCCATTTTTTTCTTTCCAAATAAAGGAGAATTTATTCCTAACCACAAATACCACATTATAGATTTCCCATAATCTTTATCTTCATTTTCAGTTTTATTAAAATATCCATCTCTAACATATCTTTCTATTGCATTCATTAGAGCTTTTCCTTTATATTTTTCCCCTTTTAATCTCATCTCTTTAAAATTTCCATTTTCATCCATTGGTATACACCCATGATATAATAAATTAGAATTATATTTTAGATACATACTTCCATTTGAAAATAAAAATCTAACATGTTTTTGTAATTTTTCGCTATTCATAAATGATGTCTTTAATTTTTTTATAACCTCTTCCTCTTCTTCGCTTAATTTAAATACATCTTCTCTATTAATAGTAGGAAAATTCATATCTTTTAATTTATAAATTTTATCATCTATTTTTATTGTACCATTTTCAAAATTTATTTTATCTAATAACAGCCTATCTTCCATATTAAATTCTGGATATTTTTTTATTATTTTTGCTTCTAGTTTTAGCTGTATAATAGTTATAGCTTTTTGCATTTTGGATATTAATTTCATCTCTTTTTCACTATGTTCATCTTCTTTTACTATAGGTTTAAATTCTTTACAATCATCATCTCCATAGACTTCATTTGCAAGAGTGGCTAACGGGAATAGATTAATCCCGTATCCATTTTCTACTGTATCTAAATTCCCATATCTCAAGCTTACTCTTAAAGCATTTGCTATACAAGCTACTCCGCCTGAAGCTGCTCCCATCCATACAATATCATGATTACCCCACTGAATATCTACTGAATGATAATTCAGTAACAAATCCATTATTTTTTCAGCAGCAGGTCCTCTATCATATATATCTCCAATTATATGCACTCTATCTATTATTAACCTTTGAATTAATTTTGATAATGCAATTATAAAATCATCAGCTTTATCTATCTCTATTATTATTTTTATTATTTTATTAAAATATTTTTCTTTATTATTTTCTTTCTCATGTAATAATTCTTCCAATATATAGCTAAAATCTTTTGGAAGAGCTTTTCTAACCTTAGAACGAGTATATGAAGCTGATACTTTACGACAAACTTTTACCAATCTATACAAAGTTATTTTATACCACTCTTCAAGCTCTGTCTCTTCCTCTTTTATTGTATCTAATTTTTCTTCTGGATAATATATTAAAGTTGCCAAACTTTTTTTCTCACTTTTTTTCATTGATGTTCCAAATATATTTTCTATCTCTTTTTTTATCATACCTGACCCATTTCTTAAAATATGAGAAAAAGCTTCATACTCTCCATGAATATCACTTAGAAAATGTTCAGTCCCTTTTGGTAATTCTAAAATTGCACCTAAATTTATTATCTCTTTACTTGCAGCATTTATTGTTGGATAATGTTTTGATAATAATTTAAGATAATCTAATTCTCGATTTATCTCTTTTAAATTTACGTTTTTCATAGTTGCCCCCTTTTGAGAATTTTATGATATTTTAATACATAAATAATATCATATACCGCATATTATTGCAATAAATCACTATTATCACAGTGTAAGGGCAATTCATGAATTGCCCCTACAGCATTCACATCTTAAAGTTACTACTCCCCAAATTATCATTCATATCTCAAAGCCTCTATTGGATTCAAATCAGCTGCTTTTTTAGCTGGATATACTCCAAATATTATACCAATCGAGCTTGATACTGCAAATGCTATGATTAACATTTGTAAACTCAATTTTGGAGTTATTTTTAGAAAATGTGCTGCTAAAACTCCTCCTCCATATCCAAAAGCTATACCTATTCCACCTCCGATTAATGTTAAAATTACTGCTTCTATTAGAAATTGTATTAAAATATCTCTTTTTTTTGCTCCTAAAGACTTTCTAATTCCTATTTCACGCGTCCTTTCTGTTACTGTTACAAGCATTATATTCATAACACCTATTCCACCTACAAACAGTGCAATACTCGCTACAAACGTTATAAACGCTGTTATTCCAAATAATATTTTATTAAAATTATTCAAATATTTACTTACATTTTCCACAATATAAACATTTTTATTTCTATGAACTCTTTCTAATATTTTTATTGTATTTTTTGCTGATTGTGCAATATTTTTAGGATTTTTCGAACTTATTTCAAAATATTCCACAGAATTTGTTTTAAATAAAGAGTGTGCTGTTTTTATTGGAGTTATTATACTAAAAGATTCTTGTTTAAATAGAGTCATAAATTTCTCCATTGGATTTTTTATTACTCCAACTACTATATATTTTTGAATACCTCTTTCTGTTTTAACTTTTACAAATTCTCCTACTATGTTCGCTCTTCCAAAAACTTTTTTTCCTAATGTATTATCAACAACAGCCACTCTTCTCCTATTTATATTATCATCTTTATTTAATAATCTTCCATATAACAATGTAGCCTTATTCACTTTAAAATAATCACTATCAACTCCCAAAAGTTGTAAATTAGCTTTCTTTTTATTCTTCTTTTTCAAATTATTAATTACTTCTCCGCCCCAATAACCATATACAGATGATACATTTAAAATTTGGGGATTCTCTAAAATTATATTTTTATCAACCATTCTCAACAAATCTTTTTCTCTAACATTTTCATTATAATTTATATACAAAGAAAACATATTAGAACCCATTTTTGTCAATTCTCCACTTATTCCATCTTGGAATCCTCTTCCTACAGATGTTAGCATTATTACAGAACTTATCCCTATAATTATTCCAAGCATTGTAAGAAAAGATCTCATTTTATTTGCAAATACGCTTTTTATTGCTGATATTCCAGCTTCTGACAGTTTCATTTTCTCACCTCACATTATTAATATCTGATATTATTTCTCCATCTTTTACTGTTATAATTCTTTTTGTATGTTCTGCTATATCTGGCTCATGCGTTACCATTACAATAGTAACTCCTTCTGCATTTAATTTTTTAAATATTTTCATTATCTCTTCTCCAGAATGACTATCTAAATTTCCTGTAGGTTCATCTGCCAAAATCATAGCAGGTGAACTAACTAATGCTCTTGCTATAGCTACTCTTTGTTTTTGTCCACCACTTAATTCTGTTGGTTTATGTTTTACTCTGTCTACTAATCCAACTCTTTCTAATGCCTCTAATGCTAATTTTTTTCTTTTGGCTTTATGAACTTTATTGTATATAAGTGGCAATTCTACATTTTCAAAAGAATTTAGTCTATTTAATAAATTAAACGCCTGAAATACAAATCCTATTTTTTGATTTCTAATTTCTGATAATTCATTATCATTAGCTTTTTCCACTTCTAATTTATCCAAAATATAATATCCAGAAGTTGGTTTATCTAAGCAACCTAATATATTCATTAATGTAGATTTCCCTGAACCTGAAGGCCCCATAATAGATACAAATTCTCCTTTTTTCACTTGAAAATTTATATTTTTTAATGCTGAAACTTTCAATTCACCGTTTATATAATCTTTTTTTAGATTTTTTATATCAATTATCATTTTTTACACTCCCTAACTCTTTATCCAAAACTTCTACTTTCATCCCCTCTGCTATTTTTTCCTCTGGATTAACCACAACTTTATCTCCTTCATTTAATCCCTTTACAACTTCTACATAAAAATCTGATTCTACTCCTATTTTTATATCTCTTTTTTCTAATTTATTCTCTTTATCAACTACATAAACATATTTTTGTTTATCTTTTTCCATAATTGACAATATTGAAATTAACTTAGCACTCTCTTTTTTTGCTGTTATTATTTCTAAATTCACAGAATATCCAGGCTTCAAAATTTTCTTACTATTATCAAATAAAATTTCTATATTTACAATATTTTCTTTATAATCTCTATTTTTACTTTCATGTGCCAATTCAGATATTTTATAAACTTTTCCATAATACTTTTTATCATTTAATGCATCTGATTTAATAACTACTTTTTCTCCTAATTTTAATTTTGGAGCATCATATTCTGAAACTTCTGATTTTATTATAAGTTTTGATATATCGGCAATTTCCACAACCGGTTTTTCTATATTTACAATATAATTTTTTTCTGCATTTAATTTTAATATTGTCCCTGTAACTGGACTTACTGTTTTTCTTACCATTTTTTGTAATTTTTCTTTTTCCTGTTTTAATTCTAATAAAGATATATCAATAGAATTTTCTTTAATTTTTATTTGGTCTTCTCTAGTTTTAGTTTCCATTTCAAATTTATTTTTTGCATCTTCATAAATAGTTTTCAAAAATTCTATTCTACTTTGTGTATCTTTTAAATTTATATCAAATTGTTTTTGTTCTATATTATTTGAAGCTAAACTTGATTTATAATTATCTAAATTATCTTTTGTTTTTTCCAATTCCTCTTTTGCTATCATCCCATTTTTATATAATTCTTCCTTTTTCTCTACTTCATCTTCTGTTTTTTTTATATTTTTATTAATTGTTTTGGCTTCTAAATTTAATTTTTCTAATGATAATTCACTTTTTTTCATATCATTTTTTAATTGTTCAATATCATGCTTTTTATTTATCAAACTAATTTCATCTAAAGGTTTCATTAATTCTTTTAATGCTAATTTTTCATTTTCAATATTTATTCCCATTTTTTTTATAGAATATTCCAACTCTTTTCTTTTTTCTGTATCGTATATGATAATTATATTGCCTTTTTTTACGTTATCCCCTGCTTTAAAATTCACTTTTTTTATCTTTAATGGAGTACTTAAATAAATTGTTTCTTTATTTTTAACCGCAACTACACCTTTTGCCAATACTTTAGATTCTATTTTATCTAATTTTACCTTTTCTACTGTAACTTTAACAGTTTTTTTATTGCTATTTTTCTTACCTAAAAATTTACCTACTACAGACAAAACCACTAATATTACTATTATAATTATTACTATTTTTTTCATTTTTCCTTTTTTCATTATTTTAACCTCCATAAGTTTACTGATATTCTATTTTATATTTATATGCATTAAAATTATTTTCTAATTTTTCTAATTTAAGCTCTGATTCTTTATAATCTTCAATTGATTTTTCATAATCTTGAAAACTAATATATCCTAATTTAAACATTTTTTTTGATTTTTTTTCTTCTGATTTATAATACTCATTATATCTTTTTTGAATTTCTATGCTTTCTTTCATATCTTCAAAACTATTTTTCTGATTTTCTCTTTCAAATAACTTATCTTTTTCTAACTGTTTTATTCTCTCTTCCGATATTTTCAACTCTACTCCATTAGTTTTTATATCACTTTTAAAATCAAATATATCTTTTGAAAATGATATTCCATAGCTATAATCCTTTGAGTCAAAATCATAATTTGCATTAGCTGTAATAGAAAAATTATTATATTTTTTAGAAAATTCAAATTGTTTTTTCCCTATCTCATATTCTAATCCGTTTTTATCTATTTCCAATTCTCCTATTTTATTAAAATTAATATTTTTATCAAAATTTATTTTTTCAAATTTTATGTTTTTTTTAATGTTATAATTCAATTTATAAGTTAATTTTTCTTTAAAAACTTCTCTATTTTTCTTTAAAAATTTAATATCTTTTTCACTCTCTTTTATCTTTAATAATAGGTAACTTTTATCAGAATTTGTAGATTCTCCTTTTTCTATTTTAATATTTAATGTTTTTAATTGCTTTTTATATTTTTCCAAAATCATTTCATCTACTTTTATATCTATATCTGCATCTTTTATAATTTTATATATCTCTATTATCTCTATTATTTTTTGATTTTGTTCTAATTTTCTGCTAATTTTATAACTACTATTTTTTAATTCATATATCTTTTCATCTTGATTATGTTTTTGAAATATTATATTATTTAAATTTTTATTTATACTAATTGAGTTGCTAGAAATTTTATTATTTTTAATATCATAATTTAATGAAAGTACAATATCTTTATATGATAAATTTATTATGCTGTTCTTTGAATTTCCAATAATAGATTTTCCTACATTTCCATCTACTTTTAAATTTAACTTGTCCAAATCGTTATAATCAATTTCTTTTTTTTCTATCCTCATTTTTTCATCATTTAGCAATTCTACTTTTTTATACTCACCACTTTTTTCATAAATAGAAATTAATTTTTTTAATGAAACAGTCTCTGCTGACAATATCTGCCCTACAATAAATGCCATAATAAATATAATTTTTTTCTTCATTTTCATCTCCTTTATTCTGTATATTTTTTCCATTTTCAGTATATCATAACTCCATAAATAGAGCAACATCTAAGAGAATTTTTTCCTAATCTATAAAAATTAAAATTTTATTCTTCTCCAAAACAAAAAGCCTCTTAAAAATAAGAGACTTTTCGTTTATTTTAATATTTCTAATTTTTATGGAACGTTTCAAAAATAAATTTCTTGTATTTTATTATAAAAATGCTTATATCAATATCTTCAATCTTATGATCAGATTCTTATTTATTCATCTCTTCATGTAGTTTTTCCATTACATATTCCATATCATATTCCACAAAAATATCACTAATACTATTTGTATACCTCGACGGTTTGTCATTTATCTCTATTACAAACGCTCCATTGTTTTTAGCCACAATAGGTATTGCACTAGTTGGCATAATATTCCCCTCTGCTCCAATCAAAATAATAACTTCAGCAGAAGAACTTAATTTCATCCCTTTACTATATGTTTTATGAGGAATTGGTTCTCCAAAAAATATAAGTTTTGGTTTTAAATATCTGTTACATCTTGGGCATTTAAAATCTTTTGGCAAATCTTTTATATGATACTCTCTTCCACATTCTAAGCATACAGCCCTTTGAGCGCTTCCTTGAAATTCATAAACATTTTTACTTCCTGCTTCTATTTGTAGTCCATCTATATTTTGAGTAACTATTCCTGAAATAATATTTGCTTTTTCAAATTCATATAATGTTTTGTGTATAATATTTGGTTTCCAATCTTTTATTGGATTATAAAAATTCTCTAAAATTTCATTCCAAGCAAAAACTGGATCCCTATTAAATATATCAATATCTATAGTTCTATTTACATTTTTTTTGAATAAATTTTTCACTTTTTGATTTTTCGATTTTTTAATTTCATTTTCTACTATTTTACATCCACTAAAAACCATGGTTTTTTTACTATTTTTTAAAATTCTAGCAACTTCTCGTATTTTTTTATGCACAAACATTATATTCCCCCTAAAATTTAAATCCAGTATTAAAATATATTAAAATATCCGAACTTTTTTCTTTTAAAACCATTAAATTTATTGGTCCTATTAAAGTTCTAGCCCCTATTCCAACAGCAAAACCATGTAAATCCTTTTTTTTATCAATAACACCCTGAAATGCACTAAATAACTTTCCATAATTGTAGCCTACAATAAAATATCTATCTTTAGAAAATTCATATCTATTTTCTAATCTAATAGAAATAAAATTTTTCGTACTATACTCAGCACTTTTTACTCCATAAAATCTAGTCTCATCCTCTTCGCCCCCTATATAAATGTAATAGTTTTCTGGAATTACATTCCCTTCTACAAATATAGATGTTAAATTGAATTCTAAAATATTTTTTACGTTTAATTTAAAATATTTTTTATAATCAAATGTTAGTTTATTAAAATCACTATTACTTAACAAAAAACTATTCCCTAAAATGTAATTTAAAAATAATTTATTTCCTTTTTCTGGATAATTTTTTCTGTTTGTTGTATCAATTTTAAAATCAAAGTCATATAAAAATAGATAATCTTCTACAGACAACTTTTCTTCGGTAATCTCTGGCACAGCATTATAATATTCTAATTTTACCCCTCCACCTAAAAATGTATTAGTTGAAAAAAAACTTCCCAACAGTAACTCAGATGAAATATTATTATATTTATATTTTGCAATAGTTTGACCCTCATTATATAAATAAAATGGTAGTTCTTTATATTGATTTTTCATTATTACACTAAATTTATTATTTATCCCCTTATATCCTATAAGTTTATGTGTAAAAAAAGGATTTTCTCCTAATTTTAAATCTAAAATTGATTTAAACCCTATTTTTTTATATCCAAAGTTTGTATAATTTAATAAAATACCACTTTTTAAATAACTATCATATCTAAAAGCTAGACCTATTAAATTGTTTTCTTTTTTTTCTAATTTTAAAATCAATTCATCTTTATTAATTTCATAAGATACTTTTTTGAAAAACATAGTTCTATAAATTTTCTCTATTGATTTTTCTAATTCAAATTTATTATATAATTTTCCAATTTTTAATTCTGAAATAGTTAATATATATGTTTTTTCACTCTCGTCTACGCCTACTATTTTTATCTTTTTTATAATTGCAGTTTCATTTTTTATATTCTTTTTTTTCATCATTTTTAAATATTTTTTTTCATTTCTCAAATTTTTTAATTTTGGAACCATTTTTTCTGCTGCTTCTTCCCCTATTTTTATCAATTCCTTTACATTTCTATAACTTGTAGCACCATAGTTTCCCAATTTTGGAACTATTAAAACATCCACTTTTTTTCTTTCTTTTAAACTACTTTCCACTCCTCTAAAACTAAAGGATTGATTAGCAACATCTAAAAATGTATTTAAATCTTTTTCATCTTTTAGCATTGCTCCTACATCGCTTCCTATTACTACATCTGCTCCCATATCCAAAACTTCTTGTACAGGGAAATTTCTTGATAACATTCCATCTACTAATAACATATTTTTATATTTTATTGGTGTAAATACACTTGGAATTGACATACTGGCTCGAATAGCTTCTGAAAGTATACCGGATTTTAAAACAACGGCATCTCCATTTTTTAAATTAGTAGCAACACAAGAAAATGGAATTTTTAATTTATTAAAATATCTTATATTTTTTGCATCCCAAGTTAGTTCTCTAAGTAGCGATTCAATTTTCTGTCCTTCTATCAATCCCCCTGGAATTTTTAACGTATAATTTTTTAGAGGTAATTGCCCTATGTATCTATTGCTATATATTTTTTCTTCAATAGGCAGATTTTTATAATCAATTTCATCATCAAAATAATAAAACCAATTTGTATTTAATGCTATATTTTCTATCTCTTTTGCACTATACCCAATGGAATATAATGCTCCTACAATACTTCCCATACTAGTACCACTTATATAATCTATAGGAATATGCTCTTTTTCTAATACTTTTAACACTCCTATATGTGCAAATCCTTTTGCTCCACCTCCACTTAAAGTTAATCCTATTTTAACATCATTAGCATATACTAAATTCAATATAAAAATTAAATTTAGTACTATAATCCATTTTTTATACATACAATTCTCCTATTTTTTTAATTTAATACACAAGTTAATTATAGCTCGCAATTTTTGAAAAATCAAGCAAAAATTAAAATATATTTTTTTGATTTTTTATGATATAATAACCTTGAGGTGATATTATTGAAAAAATTATTATATTTTATATTTTTGTCTATATTAATACAAAATTCTTACTCTGACGAATTCAATTTATCGTTAGGGTATAACATTAATTCGAAATTTAAAATTAATTACGAAGAAAATTATTATAACCATTTAAATAATTATAATAATAATTTTGATTTAAATAATAGTTATAATCTAGGAATAGAATACATTAAATTTTTAAATTCATATTTTGGATTTGGTGGCGGATTTAAGTTTTTTAAAGAAAATGGAGTTATTAAAACTTATGGTAAACATTTTGATGAGTTCCAATATGAAAAATTAAATAAAATGAAATCAAACTACTCTTATGCTTTATACAGTTCATTAAAATTAAAAACTTTTTATAGTACATTTTTAATATCTAATTTAGGAGTTTATTTCCCATATTTAGATATTTCTAATTCTATAGACAATTCATCTTCTGAAATATATAAAATATATTTCAATTGTGGATTTGGATATGAACTACATAATTTTATTTTTGAATTAACATCTAATTATGGTACCCAATTTTTTACTGTAACTAATAGTAATGGATATTTAAGTGGTAATTGGTCAGATTCTTTTATTAGTTTTAATATTAAATATAATTTTTATGATTTAATCTTTAATAAAACTAATATTTCAGCATTTGATAGAGCACAAAAGTTTAATGAGCTATATAGAAAAAAAGAACAAGGTGAAATTTCTAATGAAGAATATGAAAAAGAGAGTAATAAAATTATAAAGTTAAATTAAGAATAAAATAAGCTACGCTTCATTTGGTAAAACATAAATATTTTTCTAAATTTTTGGCTTCTGAAAAATTTTGTTTTAAAAAATCAAATATTTAAAAAAAACGGTGTAGCTTATATACTGTACCCTATAAGATGGACATTTAAAAAAAAGTTGCATCAGATATGGTATTTTTATATAATATCTATAATGTTAATTTAATAGATTGGAGGATTTCATGAGCAACAAAATATTCACAAAAAAAGAGATTGAAATTTTATCAAAAAATAAATATGTCAAAACTATAAGTTCTAAGGCAATCACATATACATCAGAATTCAGAAGAATTTTTATTGCAGAAAGTCAAGATAAAATTTTACCTAGAGCAATATTTGAAAAATATGGATTTGACGTACAAGTATTAGGGATGAAAAGGATTCGATCAGCAGCAGCAAGATGGAGACGTGCCTATAAAGAGCAAGGAGTATTAGGGTTAGATGATAGAAGAAAAGAGAACTCTGGACGACCTTTAGAAAGAGAGCTATCTTTAGAAGAGAAATATGAAAGGCTTCAAGTAAAAAATGATTATCTTCAAGCGGAGATTGATTTGCTAAAAAAGCTAGACGTGCGAGAAAGAGAGGTGAACGGTAAATTAATTGAATTATCGCCATCAGAAAAGTTTGTTATAATCAAAGATGTAATAGAAACAAGTGGTGTAAAAAATATTATAAAATATTTATGTGAAGTTGCAGAAATTTCTAGAACAAGTTATTATAACTATTTGTCTGAAACTTCCAAAACAAATAAAAGCAATCAAGAATTAGAAGATGAAAAAGCAAGAGATTTAATCATAAAAGCATATGAATTCAAAGGTAGGCAAAAGGGAGCTAGACAGATAAAAATGACTTTAGAAAATGAATTTGCTACAATTTTTAATCTGAAAAAAATCAGAAGAATTATGAAAAAATATAGTATTGTATGTACGATTAGAAAGGCAAATCCTTATAAGAGAATAGCAAAGGCTACAAAAGAGCATACAACTATTCCAAATAAATTGAATAGGGAATTTAAACAAGAAATACCAGGGAAAATATTATTAACAGATATAACATACCTATCATATGGTAATGGTCAACGTGCGTATTTATCAACTATTAAGGATAGTTCAACAGGAGAAATACCTGCATATGTATTATCTAAAAATATTAAGTTAGAAATTGCAACAGAAACAATAAGAACTCTTATGGAAAACAAAAGCTTTAAAATTCATAAGGATGCATTAATACATTCTGATCAAGGAGTCCATTATACAAGCCCAACATTTCAAAAATTAGTTAAAAATAGTGGCTTAGATCAGTCAATGTCAAGAAGAGGTAATTGCTGGGACAATGCTCCTCAAGAATCATTTTTTGGCCACTTTAAAGATGAAGCAAATATTAAAGAATGTAATACATTTGAAGAATTAATTAATGAGATTGATGATTATATGGATTATTATAATAATTATAGATGTCAGTGGGGATTAAAAAAGATGACTCCTATAAAATATAGAAATCATCTTTTAGAAAATAAATCAGCTTAACTACTTTTTTTTAAAATGTACTTGACAAAGGGTACAGATTATTATTTTCTGAATAAATTTATACTTTCCTAAATTAAAAAAGGAAGAATTTTTTAATTCTTCCTTTTTTAATTTAACTTAATCTATTGTTGTTTCATAATTATTCAAAACATCTTTCCATATTGTTTCATACCCAAATCTTGAAGCATTTTTATAATAATTAATTGAAGCCTTATAATATTTTGCAGAATAAGAATTTGAATCTATCTCATTAAACCAAAAATATATAGATAATCCTGTGCTACTTTCTTCTATCGCTGGAATTTGATAATAATCTCCAACTCCATTTTGAGCTTCTAAATAGACTATTAAATTATCTCTGTTATTTAAATAATCTAAAAAATTATCAAACTTTTGTTTCAACAAACTATTTTCATTCGAACCAAATGTATCTTCTGGAATAGATTCTTCTATTTTTTTCATAAAATCTCCCAAATCCACATATGGGCTTAATTTATTATAATCCTTATTCCTATCCCAGCTATAACTTAATGGCGATGTCTGTGAAATAGGAACATCTTTTATTAAATTAATATTACTGTTTAATTCAGTTACAATATCATTAAATTTTACCATAAATTCATCAATTTTACTCTCATCAGTAATTGTATATACAACTGGTTCTTTATTATTCGGATCTAATTTAGAATAATAATCCCAATTTGCTGATTGTATATCTATAGCCAATTGTTTGTTAGTTTTATCCAAAAGATTTAAATTTATATTTTCTAATATTCCTTTGTATTCTCCACCAGCTCCTGGAGTTAATTCTGGAGAAAATGCTAAATAATCAGCTACATCTTTTAATTGATATGCTACTTCTATTCCGCCCATTAAACAGGCATCCATATATATAACATCTATCTTTGGTATATGACTATTTTTTATTCCATATTCTATTTCCCACAGATCTAAACTATCTCCATTACTTGAATCATCTTCTGCTATTGCTTTATTTATCGGATTATTAGTATCTCCATATTTATCATCGTACCATCCATCCCCATGATCCCATAAATCTAAAATATATTTTTGGGCAGGATAATTTTCTTTTACAAAATTTAAAAACTTTGTTACATTAATACTTTCTCCTGTATTAATAAATTCATCTAATTCTTTAATTTTATCAATTTTATTTCCATTTTTAACAAATATTCCAGGAGTATTTGAATTGTCGTTTTTAAAATCTCCATAAATCACTACATTTATATTATTGTTTATATTTGCGTTTTTTATCTCTTCTAAATCCATCATTGCAAAATTATTTAAACTATTATCTGCTGCCATATAAATCATAAAAGTTAATTCTTTTTCATTTGTTAATGGTTCTATTTTTTTTACTATAATCTTTTTTACCATATTAATTTCAGTTCCTGTTACACTATTTTTTGCTGTTATATTTAAAGTATCACTATCTACACCATATATAGAATAACTAAAATCATTATTATTATTTTTTTTTATAGTTCCTTTTTCAGAAGAAACTACTGTTGAACTACTCATACCAGAAATATCTGTTACAATAATATCTAGTTTATAACTCACTCCATCATAGACAGTTACATTATCCACATTTTTAAACTCTTCTCCATTTAACTTAATAGATGAAATTTCTAAAGTAGATTTTTCAGTTGTATTAGTATTATTATTTTTCAAACATCCAGAAAAACTTAATAAAATCAAAATAAACAATATAATATATTTTTTATTCCACAAAATTATCCCCTTCTTTCTAACAGTCTATATTAACATTATACTCCGATTCTAATATATTTCTGTAATTAAAATCACAATTATCAAAAACTAAACATAGTCATATAATATTTTATTATTATTGAAACTGCATATGACAATAATAAAATCAATACTATTGTTATCCCTGATATTATAGCTGTATATATTTTTTTGTCTCTATTATTAATTATCGGCGACTTCCACAAATGATATAAGCAAAAAGGTCCAATTACAAAAAATTCCAATAGTATCCCCATTGGCTTTTGATGAAGTTTCCCTTTTTTCCCCTGCTCTTTCCCACAATATTTACAAAATTTATCCTCTTCATTAATCTCTTTTCCACAATTCCAACAATTCATAATAACCGCCCCTTTTTAGAATGTACAATGGAAAATAAAAAAACATTACTATTTTTAATTTTCCATTGCCTTCTCCTCATTGTAAATTTTCAATCCTCTTCTAATTATTTTTTCAATATTATTAAATCTTTTGGACTTTTATTCATAACAATACATCCATCTTTTTTTACAATTACATCATCTTCTATTCTAACTCCACCAAATCCTTCTACATAAATACCTGGTTCTATTGTTATAGTCATATTTTCTTCTAATATTATTTCTCCTCTTGTAGAAACTCCAGGTGCTTCATGAATTTCTACACCTATTCCGTGACCAAGTCCATGACCAAAATTTTCTCCATACCCTTTTTCAGTTATGTAATCTCTTGCAATTTTATCCAACTCTTTAGCTTTCATACCAGCTTTTACTTTTGAAATAGCCAATAATTGTGCCTCTAATACTGTATTATATATCTCTTTATGTTTATCTGTTAAATTATCTCCTACAAATACAGTTCTTGTCATATCAGATACATATCCATTATAATAGCAACCAAAATCCATTGTAATAAATTCATTATTACCTATTTTTTTATCACTTGCTACTCCATGAGGCATAGCTGATCTATAACCAGAAGCTACAATAGTCTCAAATGATTTATCTTCTGCACCATTTATTTTCATAACATACTCAAGCTTTGCAGCTATTTCTCTTTCTGATATTCCAACTTTTATATCTTTTAATATTTCAGTAAATGCAATATCACTTATACTTATTGCTTTTTTTATTGTTTCTATTTCTATTTCATCTTTAACAATTCTAATTCCACTTAATTTTTCCCCTAAAAATTTATATTCTATGTCACCAAAATATTTTTTTACGCTACTAAATGCAGATAATGTCATATCTAAGTCTTCCAATCCCAACGTTTTTACATTATCTTGTTTTATATATTCTTTTACTGTCTCCAAGCTATCTCTTTCCACTTTTACAACTTTAAATCCTTTTGGTACAACTTGATTATTTGCTTGTTGTATATATCTAAAATCTGTAAAAAAATATCTATTTTTAGAAGTAACAAGAGCAACTCCTGTCGTTCCACTAAATCCAGTAAAATATCTCAAATTATACATATTTGTAATAAATATACCATCTAATTTTTCATTTTCTAAAAGCTCTTTTAATTTCATTTTTAATTCCTCCTATTTTTCTGTTTTAAATTTCTAAGGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAATGCTTGAAACGTTGCATATTTTAAAACAAAACAGGTAAGTTATTTTTAAGCCATTCCTAATTATACATTTATTATATCACAATTACATCTCTTTTCAAAAAGTATTTTACTCTTGTTTGTATTTTTGATATAATAAATTTATTTAAAAAAGAGTTAAAAATAATATTTTCATTTTATTTTTAAATATGGATTTATAACATAAAATAATTATAAAATTTTAGCCACAGATAAATGCAGATAATTATTCACTTTTATTCAACAGTATCCATCCCATGGTTTCAATTTTTTTCTTAGTGTACCTTTGTGTTCTTTGCGTCTTTGTGCTGAATTATTTTTCCTTAAAAAAAACTTAAAATTACTAAATAAGATATTTTATTATAAATTTATTTTTATGATAAAACTAAAACTTATGGACAAATTTTATTTTTGTCCAATGTAAAATAAAAAAGAGGCGGTGAATTATATGATTTTGATATTTGATATTGGAAATACACATATTGTTACAGGGGTCTTTGATAATAGTGGCAAACTTTTATTAAATTTCAGAGTAGCAAGTTCAGAAAATTTAACAGAAGATCAAATTTTTAGTTATCTAAAAAATATAGCTGATTTTAATAATATATCTATAAAATCTGTAAATGGCATTGCTATCTCTTCCGTTGTTCCAAATTTAACTACGATATTATTTTTTCTATCTAGAAAATATTTTAATATTAATCCAATAATAGTAAATAGTTCCCTTAATTTACCTATACAATTTGACGTTGACAATCCAGCAGAACTTGGTGCAGATAGATTAGCTAATATAGTTAGAGCTCACAATTTATATCCTGAAAATTCAAAATCAGTAGTTATAGATTTTGGAACAGCTACTACTTTTGATATTTTACAAGGTAATTGTTATATAGGAGGTTCTATTTTACCAGGAATAGATTTATCTATAAGAGCGTTATTTAAAAATACAGCTAAATTGCCAAAAGTTAGATTTCATAGAATAAATTCTGTAATTGGGAAAAATACAATTGAACATATTAATGCAGGAATATATTATGGTTCTATTGGACAAATAAAAGAAATTTTAAGGAAAATAGAAGAAGAAATTGGAAATTTTAATCTTATTACAACTGGCGGTCTTGGTAAAATTATATCTAAAGAGCTTAATCACAAATTTGAATATATGCCTGATTTAACTTTAAATGGTATTTTGGATATTTATAATATAAATAAATCCTCAGATTAGTTTATCTGAGGATTTTTTATTCTTATGGTTATTAGAGATATTTTGTTTCTTATGTTTTATACTCCAATTATATATATATTACCAAGATATATTAACTTCTACTTATTTCATTTAAAAATTCCCAAGTGCACTAATACACTTGGGAACTTAAACTCTTTAATTCACTCAATTATCATTACACAAATAGTATAAAAACAGTTCTAATATTTTATACTAATATGCCATTACTTGTAAATCATATAATACATAATAACTTGAATTTGGATAATCCAATGTCATTGCTATATATCTAACTTTTTTTGATTGTGAAAATTCTATTGTATCTTTTCCACCATTACTATTATCATATGTAGCTAATCTAGTCCAATTTCTATCTCCTGTTTTCAATCCCCATACATAATATGTACCAGGATAATTTGATGTACTCCATTTCATTTTCAATTGTTTCACATCATAATCTTTTCCCAAATCAAGATTTAACCATCCATAACTACTACTGCTAACCACCCATCTACTGCTATTCACATCTGAATCTACAGCTTTATTTCCTGCATAACTACTTGAATAATATCCTGAAACGCTTATATTTTTATTTAACGCAACATTTTTTAATACTTGTGGATTTGGGTTTGGATTAGGTCCTGGTCCAGGCTCTGGTCCAGTTAAAATATCTGTCATTACATATCCTCTAATTCTGTTATTCCTAATCAAATTATAAGATATCCAACCATATCCATTAAATCCCCAATTTGTTCCCCAAGAATTTATTAATTTAAAAGCTCCTTTGCTGTCATCATATCCAACTAAAGTTATAGCATGATACCCTTCTAATTTTCCATAAGTACTATCATATACTGGATTAGAAGCTGAAACATTAAAATCTGGATATACTGGAATTCCCACTGAAACTGCATCTCCTGCTGCTAAGTGAGATTTTATTGCATTTATATCTCCATCAGGTACTGTCCCCCAACTTTTTGCTTTATATTTCGCAGCTTCTTGTTTTTGATAAGAAGTCGGTTGTGTCCAATAATTATTTTGGTTATATGGCATAACTGATAATGTTGCTGCTCCTTGTTTTACTATTAAATCTAGTGCTAAATATATTTGAGAACCTCTATCTTGTCCACCATTTATTTGATTATATACATAAGCTGGACTAAATAGATGATCTGTTGTATTTAATCCCCATTTTTGGTCTAAACCTTCTTGAAAACTTTTATATGCATATGTCGTAGCCCAAGCTGTACAGCTTCCTTGATGTCCTTGATTTCCTGGAGTTGGCATATTGCCACTTAAGTCAATTTTAGATGGCAAAGTCCCTCTATATATTGGAGTTTTCGCTCTCGTAAAGCTTCTATATTTTTCTTCTGATACAGGTACATATCCTGTAAAATACTTTTCACCATTAAGTTCTACATAATTTTTTTCGACATTTTGATTGTAAATTTCATCTTTTGAATTATTTACCTCGTTATTATTAGTTTCCTTATTGATACACCCTGCGAATATTGTTCCTATTACCGCTCCTAAAATTAAAATTTTTGATGTAAATTTCATAAATTGCCCTCCCTAGTTAATTATTTTTCTGTAGTTGTTTCACATAATAATTTTATAATATTTCCTTTTGCCGGCAGTAAGATTATACTACATTTTTTCCACTTTTTCAATACTTTTTTGTTCTATTTTAACTTTTTTTGTACTGTTTCAAAATTAAACTCCCGTACTTTTTCTGGCGCTTAAAATTGTTTCAGGAAATAAAGTTTCAAATAATACAGTTTTAATATTAAAAATTAAAAAATATATAATTGATGTGAAATTTTGTTTTGATAAAAGATTTTATTTCTAATATAGCACTCTATCCGAAATAAAAAAAAGCTAAAAAAATTCATTTTCAAGTTATTTTTGTAAAACTATATATATCAACATAAAAAAACAACTCAAAATTTTAATTTGAGTTGTTTTTTAAGAAATTATTTATTATACTTTTCTTCTGTATTTTTTCACACTATCAATTATTATTTTCTATATCCATCCCATTATTAAAAATCTGTGATATTTTACCTTCCAATTATCTTCACATCTTGTATTGGAAATGGTATATCTATCTCTTCCTCTTTAAACCTATCATTCAATATATAATTTAACCTATCCAAAATATCATATTTATCTTTAAAATTATTTATCCAAAATATTATCTCGAAATCTAATGAAAAATCACCAAATTTCAAAAAATATGTACTAAATTTTGGATTTTTTAAAACTCCATCTGTTTTTTCTAAACATTCTAAAATTAATTTTTTTACTTTTATCATATCACTTTCATAAGCCACTCCTATTGAATGATATACTTTTATTTTGCTGTTTGGCTTATTATAATTTGTTACTTCTTCATTTGTTATATTAGAATTTGGAATTGTTACCACTAAATTATCTAATGTTTTTATTTTAGTCGTTCTTATTCCTATCTCCATTACTTCTCCCAGTAAATCCCCTGTTTTTATTCTATCCCCTACTGTAAAAGGTCCGTCGAATAATATAAATAATCCAGATAAAAAATTTGCTATTGTATCTTTTGCAGCAAATGATACTCCCATACCAATAATTCCCATACCTGCTAATAATGATACTGGTGAATATCCGAATTCTTTCATTATTATAGATATTGCAACTGTCCAAACTAATATTCTAGTAATATTTTTGAATAATGGAATTACTGTATAATAATGGTTTTTTCCACTTTTTTCTAACTCTTTCCCAATAAATTCATCTACAATAATATTAACTGTTTTAATTATTATAATTGATAATAATAGTACTATAATTATATCTATACCTATAAACAGTTCTTTTCTCAATTTTAATATTTCATTATATTTTGTTAAATTTATTAAATTTGATGAAAATTTCAAACTAATAAGTATTAAAATTAAATATAAATATCTATTTACAATTTCATAAATTTTATCATCTAATTTGTTCTTGCTTTTCTCTACTACTCTTTTTATATATTTTCCAAATATATATATTAAAAAATCTGAGATAAATACAGATAATAAAAAGAGTAAGAAAAATAATACTACCATATCTAATATATCAATTATTTTTTCTAATCCAGCAACTTCTCTTAATGAATATTTTGCTCCTATTAAAACAGATAATACTATTACAAATTTATTAGAAATAGAATAAAGTTTATCATCAAATTTATTTTTTGTATTATGTATAACTTTTTTTAATTTTTTCTTTAATATTAGATTAACTAATACTCCTAAAATAAGCCATGCTAGAAATATTCCTATCTTAATTAAATAATTATTAATCCCCATTTATCCCACCTTTTTTTCTAAATTGAATTTATACTTTTTTGTTTAAAAACACTGCTATTATTGCTGTTAATGGAACTGTCATAATAATACCTATGCTTCCTGCAAATCCATTTATAGCTTCTGTCACAATAATTGGCATATTCATAAATTGTAAATACTGCATATTATATCCATAAATTAGCATCATTAGATTTAAAGAACTTCCCACAAAAGCTAATATTAATGTATTTGCCATAGTTCCCACTATATCTTTTCCTATATTCATTGAAGCTATAAAAAGTTCTTTTGAAGATATATCTTTTTTATGCTTATTTAATTCTGATGCTGCAGAAGCTATTGACATTCCCACATCCATTATTGCTCCATGAGATGCTATCAAAATTGATACAAACAACAACCCTTTTATTTTTATATTGTAATCTCTAGCTATATAAAGCAGCTGCTGCCCTTTATCCATTGTAACTCCAGATAAACCAGCTAATTGACCTGCTATAAAAACCAATATTCCTGCTATAATACTTCCTCCTACAGTTCCTAATATAGCAGCTAAACTTTTTTTATTATACCCACTTATTAATAAAAATGATATTATCGTTGTTATTGAAATCGTTATTATGGAAACTATTATTGGATCTTGTCCTGCAAAAATACGAGGTAATATAACAAAAATTATATTACTACCTGTAATAGTCAGAGCTATCAGAGACCTAATCCCCTTTTTCTTCCCTAAAGCTATTAATGCTATTATAAATAATCCTCCTAATATATAAACTACATAATCTCTTTTATAATTATAAACCCAAACTGAATCTTTTCCATTTTGTTTTGTTATTCCAACTATAACTTTTGCACCTTTAGTTGCTTTAGCATTATGCATTACACTCATTGGATTAGTTACTACAAACTCTTTTCCTTTTAATCTTCCTGTTAATATTTTTAATCTCAATGTTTGATTCCCATTATATCTATTACTAATAACTTTATCTTCTTGAAGTTCTTCTTTTATTACATTTTTTACAATTGCTGTTTCAAATTTTTGTTTGAAATACTTTTTTCTTTTATTTTGATGATTAAAAAAGTTAATTTGTACAACAACTAGAATTAAAAGCAAAATCCCAGATATTATAAGGTCCATATGTTTTTTCATTTTTTCCCCCAATATTTTAAAAGAAAGAGCCTTTCGGCTCTTCCCTTTAAATTCCTTAATATATATATATTATTTGTCCAACATTTAATTTATTTGGATCTTTTAATCCATTTAATTGTGCAGCACCTTTCCACTGAACATCTTTATATCCAACTATTTTACCCAATGTATCTCCTGATTTAACTTTGTATCCAACAATCCCTTTTATATCAAAAAGTTCTACTACTCCTTTATTCATCAAATCTCTTATATTTAAAGATTTTATATTTGAAGTTCTTCCATCACTTGATCTAGGTATTTGTATATCACCTTTTTTAACCATATCAAATACTTTATCTCTTAATGGATGATTTAATATAACTCCTGTAATTTTCCAGTTGTTATCAACTTTTGGAGAAACCACTCCATTATCTTGCTCTTGTACATATTTTACAATTAATGCTCTAATTCTTCCTGCGTCTTGCATTGTAGCATATGAATCATAATATTTATCTGCAGGGGTTACTAATTTTAATCCTAATAAAGTTCCAAATCTATAATTATTTACAGCTAATTTGTAAACTTTATTATCATCTATTGGTTTTCCATTAAATTTCAAATTCTCTATTCTATTTCCTGCTTCTTTAGACAAGTTAATATCATAATTAACTCCTGAGAACATATCATAATTATATCCTCTTACATTAGGATTAAAGCTAACTGTTAAATCTCCATAATGATAAGTGTTGTAATAACTTGCTGACCATTCCATATATTTTTTTAAATTTTTCCCAGTAATTCTAACACCAATCAAAGTGTTTGGATATTTATAAATATATGCCACATCTTTTTTCTTAAATTCTCCTTTTTTCAAGTTACTTCCAAAATTAAATAATGCTGCAGAAGAAACATCTGCTTTTGAATAAAACATTTGTACATCATTTATTAAATCTATTATAGCAGTATCTTCTACTTGTGCTGTAGGCATTGTTGTTACTTTATCTGCCTTTGTTATATAATCTACACCTTTTATAAAGTCTTCTGTTATTTTTCCAACAACTTTATTTGCATCTTCTCTAGATTTCTTATTAACAAATTCGAATTTATTTAAAATTTCTTTATTTTCTTTTACTTTTTTAGTTCCAAGGTTTTCTAATTTTACAGATGCTACTTTATAGTTATTATTATCTCCTGAAACTGTTATAACTGCTTTTGCTAATGCTGCTCCATATTTTCCAGGTTCTATTAATTGAACTCCATTTCTTTTTTCTACATATTTAGCATGTTCATGTCCACCAAATAATACATTAAATTGAGGGAATTCATCAGCTATATCATAAAGTCCTGCTCCACCATATTCACCTTTTCTACCTAAATGATAACTTCCAATTAATACATCATATTTTCCTTTTAATTCATCTAATACTTTTCCTGTTTCATTTATTAATTTTGTAAATTTCAATCCTTCAAAATGTTCTGGACTACTTGCTTCCCAACGAGTTACATTAGGTGTAATCATCCCAACAATTGCAACTCTAACTCCTTTTACATTTAATATCTTATAAGCTTTTACAAATCTTTCTCCATTATCTGTATTATAAATATTTCCAGCCAATACTGTTCCGTTAAATCCTTTTATATTTCTTTTTAAGAAATTTAAATCAAAATTAAATTCATGATTTCCTAATACCCATATATCATATTTCATTTCATTTAATGATTGAATCATTGGATGAACTGGTAAATCATTAAATAATTCTGCACTGTTATCTTGAACTGTATCTCCATTATCAATTAATATTGAATCTGGATCCATTGCTCTTTCTTTTTTTAAAATTGTCATAATTTTTGCTAACCCTGCATCTTTATCAGGTGCATCAATTGCATAATCATATGCATAAATCCTACCATGTAAATCCGACGTTTGCAGAACTGTTATACTCTTATCTGCCCCAAATGCTGCTAAACTCAACAAAAACATTAAAACTACTGCTGCCCTTACCTTCGAAAACATTTTTCCTTTTTCCATTTTTTTCTCCTCCTTGTAGTTTTTTTACTATAAAACAATATACCATAAAATTATTGCTTTATCAACCAATTTTATTAGAAAAATTCAATTTTACAATTCAAATATAATTTTTTTTATAATCTTTATCTTTTATCCATTTTATTGATTCTACTTTTTATAAATTTAATGCAATTTCCATCATATCTGTAAACGTTTTTTCTCTTTCTTCAGAAGATGTTTCTTCCCAAGTAACAAGACTATCACTTACTGTTAATATAGCTAAAGCATTCACTTTTTTTTGAGCCGCTATTGTATATAATGCTGCTGTTTCCATTTCCACTGCTAAAACTCCGTGTTCTGCCCATATTTTCCACCAACCAGCATCATCTTGATAAAAATGATCACTTGTAAATACATTTCCCACTTTTACATTCACTTTTTTTTCTTTTGCTATTAAATATGCTTTATTTAATAGTTCAAAATTTGCTGTAGGTGCAAATCCTGTTCCGTTAAATCTTACATTATTTATAGAAGAATTACTAGAAGCACTCATTGCAAGTATCACATCTCTAATATGTACATCTTCTTGTAATGAACCACATGAACCAATTCTAATTAAATTTTTTACTCCATATTCATTTATTAATTCATTAACATAAATTGATATTGAAGGGACACCCATTCCTGTACCTTGTACAGATATTCTTTTCCCTTTATAAGTTCCTGTAAATCCATACATTCCCCTAACTTCATTATAACATTTTACATCTTCTAAAAAAGTTTCTGCTATAAATTTTGCTCTTAATGGATCTCCTGGTAATAATACTGTTTCTGCTATATCTCCTTTTTTAGCACCTATATGTATACTCATTATGCCTCCCTATTTTTTATAATATTTCTCTCTTTTCAGACCTCACCTAAATCCCAATATCATCAAATTAATGATAATTTATAATTTTATATTGGGTTTGCCAACGGCACAACCGCTACATTATAAAATAAATTAATACTGTAGGGGCTTGATACCATTGACCTAACTCTTCTACTAAATCAAAAAATCAATCTTATGAAATTTTAAAATTTTAAAATGCAGAGACAAATTGCCTCTGCTGTTTTTATCTTATTTTATAATATCTTTTGCAAAACTTCCTTCTTTTTCTACTCCAAGTATTAATTCTTCTATTGTATCAGCAATATCAGAAAATTTTCCTCTAATTTTTAGATTAACTGGATTTATATTTTTTCCATATACAAGTAATGGAATATATTCTCTAGTATGATCAGTTCCTTTAAATATTGGATCACAACCATGATCAGCTGTTACTATTAATATTTCATTTTCTTTCATATTTTCATATATTTCAGGTAATTTATTATCAAATTCTTCTAAAGCATTTTTGTATCCAATAGGATCTCTTCTATGTCCATATGCCATATCAAAATCTACAAGATTTGTAAAAATTAACCCTTTTGTATCCTCTTTTAAAGCTTTAATTGTTTTTTCTATTCCATCTAAATTATTTTTATTAACGCCTTTACTTTCAGTTATCCCATCTCCTGCAAATATATCTGATATTTTTCCAACTGCAACTACATCTTTTCCAGCTTCTTTTAATTTATTTAAAATTGTTTTACTTGTTGGCACTAAAGAAAAATCATGTCTTCTAGGAGTTCTTGTATAATTCCCACTTTCTCCAGTAAAAGGTCTAGCTATTACTCTTCCAACATTAAGCATTTTTCTAGCTATTTTACAATATTCATATAATTTATCTATTGGTACAATATCTTCATGTGCTGCGATTTGAAATACAGAATCTGCTGATGTATAAACTATTAACGCTCCAGTTTTTACATGTTCATCTCCTAATTCTTTAATTATTGCAGTTCCTGAAGCTACTACATTCCCTATAGTTTTAGTTCCAGTTTTTTCTTCAAATTCTTTTATTATATCTTCTGGAAATCCATTTGGATAAGTTGGAAAAGGAACATCAGTTATAATTCCTGCCATTTCCCAATGCCCAGTTGTAGTATCTTTACCTTTAGATACCTCTTTAGCTTTTCCATAAGCTCCTTCTGTTACCTCTAATTTTTTCACACCTTCTATATCTGTAATATTTCCTAATCCTAATTTCTCCATATTTGGTACATTCAATCCACCTGTTGCATAACCTATATGAGCAAAAGTGTTAGCCCCTAAATCTCCATACTCTGCAGCATCAGGTAAAAATCCAACTCCAGCACTATCTAAAACTATAAGTGTTACTCTCTCAATTTTTTTCATAATCACACCTCACTTATATAATATTATTTTTTTCTTATTAAATATTAATTCTATTTAATATTCTCCCTCTCCTACTTTTTCTCCATTTAAAATTTTAATTCCACTACTTGTTCCTAGTCTCATTACACCCATTTCTATATATTTTTTAGCTGTTTCAAAATCTCTTACTCCACCAGCTGCTTTTACAAAAGCTTTATCTCCAGCAATATCAAGCATTAATTTTACATCTTCAAAATTAGCTCCTGAATTTCCAAAACCTGTAGATGTTTTTATAAAATCTGCTTTAGCTTTAACTGTAAGCTCACTTGCAGTTCTTTTTTCATCTTCTGTAAGATAACAAGTTTCTATTATTACTTTCAAAACTTTATCTCCAATAGCTTCTTTTATCTCTTTTATTTCTTCATAAACCTTTTCATTTTCTCCAGATTTTAATAATCCAATATTTAATACCATATCTATCTCTTCTGCACCTTTTGCTACTGCATCTTTTGCTTCAAATATTTTAGATTCTTTTGTCATAGCTCCTAAAGGAAACCCAATTACAGAACATACTTTTACATCGCTTCCTTCTAATTCTTTTTTTGATAATTCTACATTTCCACTATTTACACATACAGAATAAAATCCATATTCTTTTGCTTCACTACATAATTTTTTAATTTCATCTGTTGTTGCCACTGCTTTTAATAATGTATGATCTATATATTTAGCTACGTTCATCCTATTCTCCTCCTATTTTTTAAGTCTATTCTTAAAAGTTTTTCTTAATTTTTATAATTACATCTCTTTCTGCAAGATGTTCATTTGATATTTCAAATGCTTCTTTTAATTTTTCTATTGAGCTATTTAAAGTCTCTTCTTTGCTATAATAAATTTTAGCCAACACATCTCCAGCTTTTACTTTACTACCAATTTTTTTCTCTAAAACGACTCCTACTGAATGATCTATTATATCAGCTTTTGTTGCTCTTCCCGCTCCTAATACCATTGCTGCTTTTCCTACACTTTCAGCTTCTATTTTAGATACATATCCATCTTTTTCAGCTTTAAAGTCATATGTTTTTTCTGCAATTTTAAGATAACTATAATCATCAACTATTTTTTCTTCTCCACCACAATTTCTAATAAAATCTTTTAAATGGCTCAAAGCTTTTCCAGAATGAATTACTTCATCAACTTTAGTTTTAGCAACTTCAATATCTGTTTCATCGCCTTTTATAATTAATGCAATTGCTGCAAGTGTTTTTACTAATTCTGTAAAATCTTTTGGACCATTTCCTTTTAAAGTTTCTATTGCTTCTATTATTTCTAAACTATTTCCAACAGCAAAACCTAACGGTTGATCCATATCTGTTAAAATTGCAACTACTTTTCTATCAAAACTATCTCCAATATCAATCATTGTATCTGCCAAAGTTTCTGCATCTTCTAAATTTTTCATAAATGCTCCACTTCCAACTTTTACATCTAAAATTATCCCATCTGCATATACAGCTAATTTTTTACTCATTATACTACTTGCAATTAACGGTATACTTGGAACTGTTGCTGTAACATCTCTTAATGAATATAATTTTTTATCCAAAGGAACTATTTTATCTGAATATCCCATTATTCCAATACCTGTTTTATTTACTAAATTCACTAATTCATCTCTTGTTTCAGGGAATGTAAATCCTTTTATTGATTCAAATTTATCAATAGTACCACCAGTATGTCCTAATCCTCTTCCTGATAATTTTGCAGTTCCTATATCAAAACATGCAAATATTGGAGCTAATGCTATTGTAGTTTTATCTCCAACTCCACCTGTACTATGTTTATCAACTAAAAATTTAGTTATTTTTTCAAATTTTATAATATCTCCTGAATGCATCATTCTTTCTGTAAAGACTTTTAATTCATCTTTAGCCATTCCATTAAAATATACTGCCATTAAAAAAGATGACATTTGATAATCAGGAACGTTTCCTTTTAAATAATTATCTAACAAAAATGTTATTTCCTCTGTTGTTAGAGTTTCGTTATCTCTTTTCTTTTGAATAATATCAACTGCTCTCATATTTTACGCCTCCCTTAGAAATCTATCGGTGTTTTTCTCATATTAATCCCGTGATTATCCCGTGGTTGCAAAAAAGAAGAATAGGAACCACTGGATTGACACAAATGAACACGGAATAAGAAATAAAACAACTTATCTTAAAAAAAATTCATCTATTCCTAAATTGAAAAAGGGGAAGGGGAGTTTCCCCCTCCCTATCCCTTTATTTGTTCATTACAGAATTCCAATCATTTAAAAATCTTTCTATTCCTCTATCTGTTAATATATGTTCTGTCATTTTTAGTATTACATTGTAAGGTATAGTTGCTATGTGTGCTCCATATTCTGCTGCTTTTACTGCATGATATGGATTTCTAATACTTGCTGCTATTATTTCAGCTTTTATGTTATGTTTATCAAATATTGCTGCTATTTTTTCTATTAATAAAACTCCTTCTTCTCCAAGGTCATCAAGTCTTCCTAAGAATGGACTTACATAACTTGCTCCTGCTCTAGCTGCAAGTAATGCTTGTGCTGGTGTGAATATCAATGTTACATTTGTTTTTATACCTTTTTTATGAAGTTGGCTAACTGCTTTTAGCCCTTCTACTGTCATAGGTATTTTTATAACTATATTTTTATGAATTTTAACTAACTCTAACGCTTCTTCTACCATTTTTTCTGATTCTAAAGATATTACTTCTGCACTTATTGGCCCGTCAACTATTCCTGTAATCTCTTTTACTACTTCTTTAAAATCTCTTCCTTCTCTAGCTATAAGTGATGGATTTGTAGTTACCCCACTTATAATCCCCATATCATTTGCCTTTTTTATATCCTCTACATTCGCTGTATCAATAAAAATTTTCATCTTGTATAGCCTCCTATGTATTTTTTGTTTTAATCTTTTGTTTTAATCTTTCCTAAATATCATTTTTATCATATGGTTGACCATCTGCTGCTGGTGCTACTGCTTTTCCTACTACACCTGCTAATGCTAATAATGTCAACAAATAAGGTGTCATTTGTATAAATTGTGGTGGAATACTCTTTACATATTGTTGCAGTAAAGTTTGTCCAGCATCAGCAAATCCAAATAATAAACTTGCTCCTATTGAACCAATTGGTGTCCATTTTCCAAATATCATTGCTGCTAACGCTATAAATCCACGTCCAGCTGACATCCCTTTTGTAAATTGTGCCAAAGCTCCTAATGAAAGATACGCTCCTCCTAGTCCAGATAAAACTCCACTCATTATTACTCCAAAATATCTTATTTTATATACATCTATTCCAACTGTATCAGCAGCTAATGGATGTTCTCCAACAGCTCTCATTCTAAGTCCTGTTACAGTTTTATAAATAAATATATGAGCTAATATTGCAATTGCATATATAATATAAACTAATATTGACATTCCAAATAAAGTTGGAAGCTTTGCTACTGCTGGTGAATTTCCTGATTGATGAAATAGCACTCTTAACATAAATATTGTAAATCCACTTGCAAATAGATTGATAGCCACACCTGATACTATTTGATTTCCTCTATATTTTATACTTAGTATACCATGTAACCAAGCTAGAAGGCCTCCAGAAATCATTCCTGCTAATACTCCTGCCCATGGACTTCCTGTGTAAAATGAAGTTACTGCAGCTGAAAACGCTCCCATTAACATCATTCCTTCAAGTCCGATATTAACTACTCCTGTTACTTCCGAAAAAGTAGCTCCTATTGCTGTTATTAATATTGGTGCTGCTTGTCTTATAGTTGCTAATAGCAAACTTAAAATTATACTTACCATATTAGCTCACCTTCTTTCTGTTTAATAATGCTTTAAACATATTTTCAGATGCCACAAGTAATATTATTACTGCTTGTATTATAATAATTATTTGGCTTGGAACTCCTGCTAAAAATTGCATTTTCATAGCTCCAGCTCTCAAAGCTCCAAATAATATTGCTGCAACTATAATTCCAAATGGATTATTTTTACCAAGTAAAGCAACTGCGATACCATCAAATCCATAACTTGCCATAAGACCTGAAATATATCTATCTTGCCCTATTCCTCCAAGAACTCTCTCTGCTCCTCCAAGTCCTGCTAATATTCCACTAATTCCCATTGCTAAAACTACTCCCCAAACAACATTAATTCCTGCATTTTCTGAAGCAGTTGGGTTAAATCCTATTGCCTTTATTTCATATCCTAATACTGTTTTTTCTAATATATACCAAATTGTTATTGCTGCTAATATTGCTATTATAAATCCAAAATTTAAACTTGTAGGCGGCAATATTGATGGCAACTTTGAAGCTGCTGATATTGGTGGTGTTACTGGACTTGGTCCAGCTACTCCGCCCTCTTTAAACGGATAATTTAATAAATATTGTTCAAAATTTATTGCTATATAGTTCAACATAATTGTACTAATTACTTCATGAACTCCAAGTTTAGCTTTTAGCCAACCTGAAATTCCAGCCCATATAAATCCTGCTGCCGCTGCTGCAATTATTGCTATTACTACATTGCTTATAAGCGGAGTTTTTACAAATGCTGCTACTGCTACTGCAGCCAATCCTCCTGCTACCATTTGCCCTTGAGAACCTATATTAAATAGTCCTGCTTTAAAAGCAAATGCCACTGAAAGACCAGTAAAAATAAGAGGTGTACTCATTAATAAAGTTTGAGCAATTTCTCTTTTTCCCACAAAAGCTCCTTGAAATAGATACATATAAGCGGTAAAAGGATTTTTACCCAAATATGCTATAACTCCTCCACCTATTAGCATAGCTATAAATACTGATAATACTGGTATTAAGGCTTCTTTTAATTTATTATTCATCAATTTTACCTCCCGCCATTAAAATTCCAAGTTTTTCTTCGGTAGCATCTTTTCTATCTATTATTCCTACAATTTCTCCTTCAAACATTACACCTATTCTATCACTTAAGCTCATAACTTCTGAAAGTTCTGCAGAAACTACTAAAATTGCTTTTTTATTTTCTTTTTCTTTTAATATCATATTATGAATTGACTCTATTGCTCCTATATCTACCCCTCTTGTAGGTTGAGAAGCTATTATAAATTCATGTTTTTTTTCTAATTCACGAGCAACTATAACCTTTTGTTGATTTCCACCTGATAATCGTCCAAATTTTGTATTAATATTTCTTGGCCTAATATCATATTTTTCCAAAAATTCTGTACTCTCTTTTTCCATTTTACTAAAATCCAAATTTATTCCTTTTTGATATTTATCTTTATGTACACCTAAAGCTAAATTATATTCTACATCATATTCATCAATTGCTGCTCTTTTATGTCTATCTTCTGGTATATGTGCAAAACCATTTAAAGTAATCTCTCTTGGTGAATGATTCAATAAATCTTTCCCCGCTATTTTAAAAGAACCACTTTCAGCTTTCATTAACCCTGATATAGCTTCTATTAATTCAGTTTGACCATTTCCTTCTACACCAGCTATACCAAATATTTCTCCTTTTCTTATATCAAATGATAAATCTTTTACTGCTATCATTCCTTGTCTATTTTTTACATTCAAATTAGATACTTCAACAAGTTTTTCTCCAAGCTCTACTTCTTTTCTATTTAATTCAAACAGAACCGCTCTTCCAACCATCAAATTTGCAATTTTTTCTTTTGTTGCATCTTTTACATCTAATTCTCCAACATTTTTACCTCTTCTTATAACTGTTATATTATTTGCTGTATCCAATACCTCTTGTAATTTATGAGTTATAAAAATAATAGTTTTTCCTTCACTTATCAAATTTTTCATTATCTTATATAGCTCTTTTACTTCTTGAGGAGTCAATACTGCTGTTGGTTCATCAAATACTAAAAGTTCTGCTCCTTTAAATAAAATTTTCAATATTTCTACTCTTTGTTGCATTCCAACTGATAATTGATTTACTATTGCATCTGGATCTATTTTTAATCCATATTTTTCTGAAACAACTTTAACCTCTTCTCTAGCTTTGTTAATATCTAAAAACATTCCTGTTTTTGGTTCCACACCTAATATCATATTTTCAGCTACAGTAAGAGTAGGTACAAGCATAAAATGTTGATACACCATTCCTATTCCCATTCTTGATGCTTCACCTGGTCCATCTATATCAACTTTTTCATTATGTAAACGTATCTCTCCTGATGTTGGTTGATATAATCCATTTAATATTTTCATTAACGTAGATTTTCCGGCCCCATTTTCCCCAACGATAGCATGTATTTCACCTTTTTGTACTTTAAGGGTAACACTATCGTTTGCAACTACTTTACCGAATACTTTTCTAATATTTTTCATTTCTAAAATGTAATTGCTCCCCATCCTTGATTCCTCCATTCTTAGTCTATATTTTTTATTATTTCTTCTACCCATCTGCAAAATTCAGCTGTAGCTTTATTTGCAGTATCCACTACTGACTCATGTGAATGTGCTGTTTTTGATATTCCTGTTGCCATATTTGTTATACAAGATATTCCTAAAACATTCATTCCTAAATAGTTTGCAGCAATTACTTCTGGAACTGTTGACATACCTACAGCATCTGCTCCAATTCTTGATAAATATTGAATTTCTGCTCCTGTTTCATAATATGGTCCTGTAAGTCCAGCATAAACTCCTTCTTGATAATTTACGCCAATTTTATCAGCCACCTCTTTGGCTTTAGCCATTAAATTTTTCTTATATGCTTCTGACATATCAGGAAATCTAGCTCCAAATCTCTTGTCATTTGCTCCTAATAAAGGATTATCTCCAAATAAGTTTATATGATCAGTTATAATCATTAAATCTCCAGGTGTAAAGCTTCTATTTACTCCACCAGCTGCATTACTTACTATAAGTTTTTCAATTCCAAACATTTTCATAACATATTCTGGATAAGTAACCTCTTTCATTGCATACCCTTCATAATAATGAAATCTTCCTTGCATAGCTAATAATTCTACATCTCCAATTTTTCCAAACACCAATCTTCCTTTATGCCCTTCTACTGTAGAAACTGGGAAATTTGGTATATCTTTGTAATCAACAAACTCTTTTTCAGTTATTAAATCAACTAATCCACCTAATCCAGAACCTAATATAACTGCAACTTTAGGTCTGTACTCTGTCTTTGCTTTTAAAAATTCTACTGTTTTCATAACTTTATCATACATTCTTCTTCCTCCTTAGAAAATTTTATTTTCAACTTATCAACTTACTTCTATATATTCTTCGAGAACAATTCATTATTTCCTTCTTTTTTTTCAAAATTAAATCCAATTTTTTTCAAATATTTGCTGTGTTTTTCATTATTAGACTTTGCAACTATAACATTTATACCTTCTTTTTTGAAATTATCTTTCATTTCTTCAAATAGATAACGCCCTAATTTAAAATCTCTATATTGTGGTGTAGCATAATCTACATCTACTATATATTTATCTCCTGCTTTTTCTCCAACTACTAAATTTGCTGGTATCATATTTCTAAGTACAAAGAAAACTACTTTATCTTTTTTATTTTCATTTGATTCAAAATCTGGAAAATAATTCTTAATATCATCACTATAATATTTGAAAAAATGTGAAAAATATTCTGAATTAAAATCTGAATTTAATATTTCGAAATCTTCTTTAGTTTGATAAATTTTTATTATGTAATAAATATCTGCTAAAGCAATAAATCCATTTAAAAACCCAACGGGCATTGCTCCTATTAAAAACCCATATGCAGAAAACATTCCAGCCCCAATCAAATTATACCATCTTAACTTAACAATAGAACTCATCATAAGCGATACCGCAACAACTACTGATGCAGCATATCCAAACCATTCTAACCAATTAATTGCTTCCATCTTTCATCTCCTCCTAGAAAACCTTTTCATTTTTATTATAAATTTAAGTTTTGCAATAAAAGCAAAACTTAGAAACGACTTAAAAATAACCTTCCCATTTTGTTATAAAATACGCAATAACTTAAACACTTTTATAACAAAATATAAAAAAATTACTTTTTAAACGTTAGTTAAATTTATTTTATTCGTTTTGTACTATCTCTTTCCTGAAGTGTATAATCAATAACTACCGTTTTTAACACCCCTGACTTACCTTCTACTTTGTCAAGCACTAAATTCGCAGCTTGAACTCCTGCTCCAAAATAATCATATTTTATAGTAGTAAGTGCTGGATTTGTATATTTAGATATTTCCATATCATCACTTCCAACTATCGACATATCTTCAGGAACTCTAATCCCTTTTTCATATAGATAATGCATAGCCGTAATTGCTAAATGATCTGTTGCTGCATAAATTGCTGTTGGTATCTCTTTTGATTTTTCAATTATATGTTTTATAGCTGTATATCCAGTTCCAACTGCAAAATCTCCTATATACATATATTCTTTTTTTATTGATATTCCATTTTCTTCCAAAGCATCCAAATATCCCTCTTTTGAAAGTTGACCTAAATATGTGTTGGTTTCAGGAACTCCTAAAAATGCTATCTTTTTATGTCCTCTTTCAATTAAATATTCAACTGCCTTTTTTGATGCATTATAATAGTCATATAAAACCGATGGAACATCTATTCGTCTGTTTTTTTGACCTATTATAACTAATGGAACATCTATTTTTTTTATGATTTCTATATGTTCATCTTTTAATTCTGTTGTAAAAAACAGTATCCCATCAACTCTTTTTTCTTGAAAAAGTTGAAAATACTTTATCTCTTCTTCCACTTTTTCTCTTGCATTAGCCAAAAGTATATTATACCCTTTTTCATTAAGAGTTTTTGCTACTCCTTCTACTGCAGTTGCGAATATACTTACATCAATTCTAGGTAATAACACCCCTATTAAATTTGTCTTGTTTTTCAAAAGCTCTTTTGCTAATAAATTTGGTCTATAATTATTTTCCTCTATTATCTTTTGCACTCTTTCTCTGGTTTCTTCTTTCACTTTTTCTGGTGCATTTATAACTCTAGATACAGTTGAAATAGAAACATCTGCTAATTTTGCAATTTTTTTTATTCCCATAAATATACCGCCTCTTTCTGAAAAGCTTTTCAATAATAATATTGTACCTTTTTTTTTTTATTTTGTCAAGAGGATTTTTTTATTTTTCGAACATTTATTTATCTTTTTATATAAAAAAATGTTCATTTTTATTCTTCCAATTCAAAGCTGAATGGTAAAAGTTCTTGAATAGTATAAATTTTATACTTTTTCGATAAATTTGAAAGCACAATTTCAGTTTCTGGTGTTGCAAATTCAGATATAACTTCTCTACAAGCTCCACATGGTGTAACTACATCCTCTGTATCTGCAACTATTACAATTGTCTTAAGTTTTTTCATTCCGTCAGTTACGCCAGAAAAAATTGCTGTTCTTTCAGCACACATTGTAAGACCATATGATTTATTTTCTACGTTTACACCTTTATACATTTTATCATTATCCCCTATTACAATCGCTCCCACTTTAAATCCTGAATATTTTGAATATGCTCTTTCTCTAACTTCAATAGCTTTTTCTATTAAATCTATGACATTCGTTTTCATATTCCACATCCTCCTTATTTGTTGTTTTGATTATTCTTTGAGTTTTTATTGGTTTCTTTTTCAACATTATTTATATTATTATATTTTTAAACTTATGTCAACTATTTATTTTTTACTTTTTTTTATAATTGTCCCATTAATAAACCTATTTTTATTGGTTTTTTATAATTATTCTTGTTTTTTATAAAATCATTTTTATAAAATTGTCCTATGGAAGAAATTGTAAAAAAAAGATAAAGTTCACTTTCTTATTTTCTTTTATAAATGGGCAGACACAGGGGTGGATTGTCAACATTTTTTAACACAATTTTTTCTCGGACATATTTTTTTTATATTCTACTGGTGTCTTATAGTTTAATGACTCATGAATTCTTATATTATTATACCAATTTACATAGTCAAATAATTGAGTTTCAAGTTCTTCAAAACTATTAAATATTCTATTAAATGCAAATTCTGTTTTTACAATTTTAAACGTAGCTTCTGCAACTGCATTATCATAAGGATATCCTTTTTTTGCTTAGCGATCTACTAATGTCAAAAGTTTTTAATAGTTCATCTATTGCTTTATTTTTAAATTCATTCCCTCTGTCAGTATGAAAAATACTAATGTTATCTAAAGCTTTTTTTACTCTTGAAAATGCGTTGATAACAAGCTCTGAATCTTTATTTTTTTCCTGCTGCATAACCTATTATTTCTCTATTGTGAAGGTCCAATAATACACATATATAATTCCATTTTCCTTTTACATTTATATAGGTCAAATCACTTACTACAACTTCTAAATTTTCTCTCAAATTAAATTCTCTATCTACTATATTTTCTACTTTTTCTTCATTGCATTTTACTCTATATACTTTATATTGTTTTATTGTATAATTTGAGACTAAACTATATTTTTTCATGATTTCCCCTATTTTCCTTCTTGAAGTTGTATAACCAATTTCTAATAATTTTACTTTAATTTTTCTTGCCCCATAATTATTCCTACTATCTTTAAATATTCTAATTATTTCATTTTCTAAATCCGTATCTTTTCCTTTTTTTGATTTAGATTTATAGTATATACTACTCCTAGATATTTTTAAAAATTTACATATGGCACTAATACTGTACTTAGACCCATTTGCTTTTATTATAGCTATCTTTGTCCCATTATCAGTGCCGCTTGCTTTAAAATATCATTTTCCATCCTTAATTGTTGATTTTCTTTTCTTAGTTTTATCAAATCTTCTTCTTTTTCACTTATGTTATCTTTAGCCTTAAAAAACTTATTTTTATTATAATCACTAGCCCATTTATTTAATTTTGATCTCGCTATTTTATACTCCTCTACTATTTCATTTGCACTTTTCCCATTGCTAAATAATCCTACTATTTGTTTCTTAAATTCATCTGTATATCTCTTCGATTTATTTGACTATTCTATTTTATTTTTTAATTATATCATGTCCGAATATTTTTTGTATGATTTATTATAACTTATCAAAACCTTAAACGGGGCATTAGAAAAATTAGAAGAAAAAGAAAAAAATGATATAAAAAGAAGAATATCAGAACAACTAGATGCTGATTCAAAACAAGATCTTTACGATCTATTAAAAGCCTTCGAAAATAAAAGCACTGCTAAAATAAATAAACTAAAAGAAAAAATAACAAAAAATTTATTAAAATTACCAAATAGAGATGAAATAGAAAAAGCAAACAATACTATTCAAGCATTAGAAATTGGAATGTTCATTGTAGCAAATGTCCCTGGAAACATAATGCCAGCATTTCTATCATCAAAAGTAGGAGGAGAAGGAGCAAAGTTTTTCGGTTCAGGATTAAAAGTTTTATTAAAAGAATCATTAGAAGGAGCTCTTAATTCTCCTAAATATATAAAAAAATGTTCATAAAAACCAACAAAAATGTTATAATCTTAATACAGAAAAAACACATTTTAAACTGTTTTAGAACCGAATTCAATTTTGACTTTTGTATCTAAATACCAAAAAAACTCAAAATCATAAAGTTTGTTCAAAATAAAACTAAAAAGATTTTATGAGAAAAAAGCGAAAAAGAAAACAATAGAAATTAATAATATAATCAATATAACTTTAAAGATAAATCTATTAAAAGATTTATAGCTTTTTTATCATAAAATCTCCTGAAGCTAAAACTGTCTGAGAGAGCGTCCTCCTCTAAAGCGAACGAGTTTTTTAGCTTCTTGATTTTTCTTTGCTTCGTTTCTTTGTATCAAGACAAAGAAATGAAGAGGTAAACAAAGGGATAAAATAACCTTTAGAATGTTTAAAATAAGCTAGCTTCCTCTGATAACGCATAAATGTTTTTCTAAATTTTTAATTTCTAAAAAATTTAACAAAATTGCATAGCTTATTTTCTGAATAAGTTTATATTCCCCTAATAAAAAATAAAAAAGGAGTGAAAAAATGGAAAAAGAATTAAAAGAAAAATTGCCAAGAATTATTATTTTTATAATATTGATATTATTAATACCAGTATTGAAACCAATGATCTTTGGGCATAGTGTAAAAGAGATAAGAACAAAGATGGAACAGGAACTAAAAAAAGATTACGGAGAAGATTTTATTGTAGAAAACATAGGAACAAGAAGTGCAAATGGAGAAAAATTTTATCAGGCAGAAATATATCCTAAGTCAATAATTGGAACAAATAAAGAATATGATAGTTATTATCATGCAAGAGCAAGTGTAGATATATTACCCTTCGGTAGATTGAGTGGAGTTGCAGGTACTTATGGAGAAATACAAATGAATGATGAAGCCGAAGAATTTCTATTACCAAAAGCAAAAAAAATATTTGGGGAAAAAATAAGAATGAAAGTACAAGTTGATTATAAAAAACATGAAGGAGATTGGTTTTCAAAATATTTTGTTTCAGGATTTCAAGAAAAAATGAAAGCAGTAAAAGAAGACCCCAAAAATAAAAGATTAGAACTAACTTTATACATTTATATATTTAATAAAATAGATAATGAAAAAGAAGAAAGGAGGAAAGAGATATATGAGTATATCCAATATTTAAAAAAGGATGGGTTGTTCAAATATTTAGAGATGGGAGTAATATTTATAGATGAGCGAGTATTAGCACCAGGATATTATGATTACACCTATGAAATAAAACACGGAAAAAAAGTAGCACTCACAGTAGATGGAGAAAAAGTGTATATGCCACCAATGAAATTAAGAAAGGAGATGAGCAAAAAGTTAGGAGAAGAAGTTAAGAAAATGAGTGATGATGAATTGATTAAGAGAATGAATAGGATAAGTAAAAGTGAGTTGAACTATTATGGCATAAGTAAATATAATGCTGAAAGATATGTCAGCATTTGTTCAGTAGAAATGCTAAGAGCGATTAATAATACGAAATATAGCAAAGAAAAAAAAGAAAAGATGCTATATAAAAGAAAGTATATTAAATTAAAAGATATCACTTACAAAAAGAACTTAGAATATATTTATATAAATAAAAAAGGAGAGGATAAAAATGACAAAAACAATTAATATTAAGGACAATGAATTACTAACATTTAATAATTTAGCAAATTTGGAGTGGCAGTTTTTAAGTATATTTAATAGCGAAAAGAAAATAAGTGATAATCAATCAACTTTACTAAAAGACCTACTAACGCCAGAATCATTTGTAAGAGAATATGATGATAAAAAAACAAAGAAAATTAAAACCAGACCTGTTTATGGAAATCAAAACGAACAACTAGACAAAACCCAAGCCCTAATCGAAATGCGAAAATCAGCAGGAATAGGAATGGAATACCTATCAAAATTAGATTCTGTTGGAAAATTCTTAGGAGAATGGGAAGTAATCTACGGAGGAGACAAATACAAAATAGTATCAGAATATTTAACAAAAAATATGTCAGATTATGTAGATATATATGCAACGTCATTAAATGAAATATTAGAAAAAAGCAAATCAGATAAAGATAATTTAGATAACTTAGAAAAATTAAAAACAAAAATTAAAAATCAATCAGATGCTAATTTTAATAAGTTATTAAAAGCTTTGGAAGAAAATAATGTAGAAGATGAAAAAAACATAAAAAAACAATTAGTAAAAGATTTATTAAATTTACCAAGTAGAGAAAAAGTGGAACAATTGAAAAAAAGTATTCAAATATTAGAAATGACAATGTTTATTGTATCAAATGTACCAGGCAATATAATGCCAGCCTTTTTCTTTTCAAAAGTAGGAGGAACAGAAGCAAAATTTTTCGGCTCTGGAATAAAAACCTTACTAAAAGAATCATTAGAAGGAGCAAGCGATTTTAGTAAATATTTTAAAAAATTCACAGGAGAATTAAGCGAATTAATGAGAGTACGATTTAACAATAGTAATAAATTAGAAAAACTAATGATATTATCAGATATACTTTTTGATAAAGGAAGCTATTTTACATTTAAAGGAATAGATGCTGGACTTAACGCATTAGGAGATTACGAAAAAAATAATGGAAAAGTATCAGATGAAAAAAATTTAGGAGAAATAACACTAACAGAAGAGCTGGATATGTTTGATGATGGATTTAGAGTATTTGTTTTGAAAAAAGGTGAAGATATATTAATAATAAGCAAAAATATTGAGGATAATAAAAGTGTCCAAAGTAAAAAAGCACTTCCAAAAAATTTAGATTATTTAAGAATAGTATATAATAAAATAAAAGATGATAATCCTGGCAGCAATATATTATTAAGCGGTTTGGATAATGGAGCAGATATATCATTCGTTACAGGTATACTAACTGAAAGACAATCAAAACTTTATTATAGTAATCCTCCTAAAAATCTTATTGACTTTATAAATTTTACTACAGAAGATATAAAAAGAGATTATAGCAGTACCAATAAAATAGTGATAACAGGATTAGAAAGTTATATAGCATCAGAATTATATGCTACTTTATGCTATAGTGTTTTAGAGGGGGGTACTCCGTATCTAATAGTACTGGGATTAGATTTTGTATTGTCTGTAATATCAGGAGCAATAGAAATATTCGAGGATATAAAAATAAGAAAACTTTATAGCGAATTGTTGTCTAAAGAAATAATAGATGATGAAAACAGTGGAATAAAAGGTTATATAACAAATAGATTAGAAAAAAGCATAAGTGATGGGACATATAACTTTGCTCCAATTGATTATTTAGAATTATATAGCAAAACTGCCTTTGATAAGTTAGAAGAAAAAAAAGATAACACTCTTGAATATAAAGATAATAAAAATTTAAGAGGACACAATTCAAATGAATTATTAAAGTTCGAAATGAAACATTTAATCGTAGATAGATATTATCTATATAAGTATATAAAGGATAACAAAGGAGAATATAAATTAAAAGAATGCAAATATATATATGAAGGATTAATTAAAGGAGAACGTGATTTAAAAAATAAAAAATACTTAAAAATAGAAATTCCACTAAAAGAGGCAAATAGCGAAGGTTATAAACTATATTCCCTATTAAAATTAATAAAAGATTTACAAAGAAGATTTCTACATGAGAATAATTTAGGAGAAGTAGTATATATAGAAAATGAAAAATCAAAAATAGGTAAATTAAAAGAGATTATGTTTGTTGAAAAAAACGAAGAGCAAATAGGAAAGATAAAAGGAAATGAATATCTATTTTTACCATGGCTGGACAAGCAAGGAAATATCGGACAAGAGTTACAAAAGGGATATATGGCATCAATACTAAAAAGTGTGTTATTACTACAAATTGTGAGAACTGATCCTGCTTATAGAGGATATGGAGAAGTAGCCTTAATCGAAAGATATGGAGAAAAAGATTATAAAATAGAATTAAACTTTAAAAAATTAACTGTAGAAGAATATTTGAAAAAGATGTTTTTTAGATATATTATCAAAGCTACTTCAAACATAACAACTGTAATAAGAGATATGAGAGAAATCTATAAATACAATTACGCTACTAAAATAAAGGATATATTATCTAAAGAAGGTTTGTCCTTTTTAGATAACTATTGCACTATAGAACATATTAATGCTAAAAAATCTGTAATTAAATTTGAAGAAAAAAAAGATGAATTAAATTATGCTTATAATCCATTGGATAAAATCATTGGTGGAACATTAGAAATAGATGCTACAGATTTAGAAATAAACAAAGAATATTTACAATCATATTTAAAAGGATTATTGAAATATCTAGGGATAAATTCCAATAAAGATATTTCAGAATTAACCTTTTTTAATATATACAGCGGAAAGTATTGCACAACATTTATCTCCTCATTATCAGAGGTAGATACAGAAAATAAAATAGAAGAATTTATAAGTAAAGATAATTTTTTTAGTTCACTAAAAGAATTAAAATCAAATTTAAAAAAATATCCATTAAAAGAATTAATAGGTCTAAAAGTTAAAAAAGGAGAAGCAACTATAATCTTAGGAAATGAAAAAGATGAAAAAAAGGTAAAAGTATATAACAAAGAATTAGGAATAGATAATAAAGAAAAAGAAATAACATTAAAAATAACAACACCATCAAAATATTTTTTGAATATAGAAAGAGATAAACCAAATAATGATTATGAGCTGTATTCAAGTTTAGGATATAAAGATAAATATTATGACATTCGTAATATGGGAAAAAATTCTAAAGTAACAGCAGATGGAAAAGATATAAGTGGGACGTATAAAGGGAAAGATAAGGAAGAAAGTATGGTAAAAGATAAAATAAATAGAGATACAGGCTGCAAATATTATGGGGATAATCTTATCTTAATAGACCGTAATTTGCGTTATTATTACGGAGATAATTTAGATGATTATTTAACAATAAGTAACTATATGGAAGGATACTTAGGGATAGATTTAGTAGAAAAACCAAAAGAGAAAAAAGAAGATTTAGGCAAAGGATTTATGGATTATCAAGTAAAAATAAAAGGTATAAAATATGTTAATTTATTAAATTTAGAAATAATAAAAGAAGTAAATGAACACACAGTAGCAGAAATAGAAGGAATAATAGCAGGAGAAGATACAGATGAAGTAACTAGATTTCTAAATGTAGAAAAGCAAGGAATAGAAATATTATATGGAGATGATAATAAGCCTATATTTAGAGGATTAATTTATGAACATTCTATGGAAATAGAGCAAAATAGTTGTAAAGTAAAAATAAAAAGTTATTCATTAAGCAAAGAATTAGAAAAAGAAAAAAGAAACAGAGTATATCATAATCTTGGCACAAAATATGAAGATGTAATAAGTAAATTAAATGAAACTTATCAAAATAAATACTCATTTGGATTTAATAGTCATATAGACAAACAAGAATTAATAACAGAATTAAACCCAGTAGAAGTGCAATATAAAGAAAGTGATTGGGATTTTTTAAAGAGAATATTAAGAAGAGAAAATGATTTAATAATAGTAGATGATAGCAAAGGTAAAAATCCCAAAACAGTAGCAGGAATAGCAATAGGAGAATTTGGAAGTAGTCAAAAAACGATAGATAATAAAAATTTATTATTAAGTAGAAAGATGAAAAAAGGGGTCATAGAAAATAGTTACAAATTAAAAGGATATCCTCAAATTAAAGGAGAAGAACTGTTTTCAATAGGTAATCCATATAATATAAATATTGATGTAAATACAGGGAAACAAGATTCGCTATTATTAATAAAAAACAGGATATACAAAGAAGGCGGAGTATTAAAATCAGATTTAGTATTTGTAAGACGAGATGAATTTAATATAGGAGTAGTAAAAAGAGAAGAAAGTATAACAGGACTAACATTAAAAGGGACAATAAAAAAAGTCTCAAAACAACATAAAGCACAAATAGAATATACAGAAATGGAAAATGAATATGACGAAAGTAAGAGTTACTATTACCCAATAGAAAGAATGTATACAGGTACATATTTCACGCCAGAAGAAGATACATTAGTAGAAGTCCATTTTGGAGCTGAAGCAGGAGAAGTAAGTATAAGAAATGTAAGTAGTAAAACTGAAGATATAGATAACGACCCAGATGTAAAAGTAATCAGAACAAGTTTTGGAAAAGAGGTCAGATTTGATTCTAAATCAATAAAAATAACAGGAAAAGATGATGAAAGTTATGTAGAGATAACAGAAGAAAGTGTGGGATTAACAAAAGGAGAAAAAGAGATAATTTTAAAAGATGGTAAAATAGGAATAAATAATAAAGATAGCACAATAACTATGGATGATAAAAAAGTAAATATCACAACTGGTGGAAGTGCAATAACAATGAAAGATGATAAATTAACTTTAGATAACGGTGGAGTAGGGATAGAAATAGGAAACGGAAAGATAAATTTAGGATAAGAAAAAAAGCTATATAGGAACGTTTAAAAAATAAACTTTTTTAAACGTTCCATAATCTATTTTTTTTCTACACACGATTCTCTAATCAACAATTTTGGTTCTAATATTTTATGCAAATAAATACCTTCTTTTCGCTCTTTTAATAGTTCAACAAGTCTTTCGCAAGCTAGATCTGCTAATTTATCCTTCGGTTGTAAAATAGTAGTTAATTTAGGAGAAAAAAACTCTCCAATCTCCAATCCATCATAACCTATAATTGATACATCTTGCGGTATTTTTACATCTTTTGATTTTAAATATTCTTGAATTCCTAACGCCACTATATCTGTTTGTGCAAATATAGCATCTGCATTTTTAAATTCCTCCAAATTCTCTTTTGCTAACTCATATCCTGCTTCAAATGACGTTTTACACTTAAATACATTTTCAGCTTTCAATTTATATCCAACTTCTTCTAATGCCTCTTGATATCCATGTGTCCTGTCTTGGAATTGAGTATCATACATTTCATCTGTAATTGTAATTATTTTTTTATGTCCTAAATTCAGTAAATATTTTGTAGCCATATATCCACCTTTTTTATGATCTGTATAAACATAATCTATTTTATCAGAATGAAAATATTTAGGCCTAAAATGTAAAAATGTAACAGGTATATTAAATTTATTTATATATTCCCAATCTTCTGGTAATATATCCGGACTAGCTATAATTAACCCATCTACTTTCCTTTGACTTATTATTTTTTTTATATTACTTTCATTAGTAAATTTATTTTTAGGAAACTTTATAATTACATCTAATGAATGTTTTTCAAATATTCTTTGTATATTTTTTAATAAATATGCCAAAAATAGACTTGTTCCTGTTTGTTCATAAGTCTCAGGATATATTAGCCCTACCGTCCCAGTCTTTTGCGAACTAAGAGCTCTAGCATTATGATTAAATTCAAATCCTAACTCTTCTGCTATTTTTTTTATTTTTTCTTTTGTTTTTTTAGATACTCTAGGACTATCATTTAGACTCCTTGACACAGTTGAATGATCAACTCCTGCTATTTTAGCAATATCTTTTATTGTAATACGCATTTTTTTCACCTCAATTCACTAAATTTATAAATATTTTAAAATAATATTTTTTTATTTTTTATTAACTTCTTTCATTTGTTTTATTTCATTTTTATCATCTACAACAAATTCAGAAATTTTATCTCTTATTTTTAATACTTCCATTTCTATTTTTCCTATTCCATTATCTATCTCTTCCGAATTATCTATTAATTCTTTCGATGATCCTGTTAATTTTTCCATAACTCCTTTTATCTCTAATACTTCTTTGTGCATTTCATTCATAGCTGTCATTCCACTGGTAATATTAGCTGATTGCTCTTCAGTAGCTGCTACACTATTTCTAATCATATCATTTATATTTTCTATAGCACCAATTATTTGTTTTAAAAATTCTCCTGTTTTAGCATATACTTCTACTCCGCTTTCTACTTCATTTAACCCAATATTTATACTAGATTTTACATTCTCAGATTCTTGTCTCATATCTAAAACCATATTTTCAATATCAGATGCAGCTTGAACTGATTCTTCAGCTAATTTTTTAACTTCATTTGCTACAACTGCAAATCCTTTCCCAGCATCTCCAGCTCTAGCTGCTTCTATCGCTGCATTTAATGCCAATAAATTCGTTTGCTCTGATATTTGATTAATAACTCCAACAAATTTTTCAATAGAGTTAAATTTATCAATTAGTTTATTTTCTAATCTAGATATTTCTCTTACTTCTCTTTCTATTCTATTAATGCTATCTACTGCTTTTTCTATATAACTACTTCCCTCTTTTGCCATATCAGATGCACTTTCTGACCTATCGTTTATTTCAGTTATATTTCTACTTAATTCCTCTGCTGCTATATTAATCTCTTCTAATGATGTATTCATATTTTCTATTTCTCTTACTTCTAATAATAATTTTTCTCCAACTTTATGAAAATCCTTAACGAATTCCGTTACAGTTACTTGATTTTTATCTGATAATTTATTTATTTCATCTACTGATTTTACAGAATTATCACTAACATTTAATATCATTTTTACAATGTTTTTCAAATTATCAACCATTGCATTAATTCCAATTCCTAATTTACCTAATTCATCTTCATTCTTTATAATAACTTCTTTTGTTAAATCTCCATTTGATACATAATTTGTAATATTTAATATTTCTAATATTTTCTTTGCTATTTTTGAAATAACAAATACTATTATTAATGATGAAACTATTGCACCTATAATCACTAAAATTATTATAATATTATTACTAGACTTTAACGTACTTGATTGAGTCTCATCCAAATTTTGTATAATTGATTTTTCATCTTCTTCAAAAGACTTTATAGAATTATCTTTCATATTACCAATTGTCTTTAATAATTTAGATTTATCACTGTCTAATTTTTGTAGTGTTGCATATAACGATTCTGTAGAAACTACAAATCCAATCATCCCTTTAACATTATTTTCTTTATCTTTTATTGGTACATATGCAATTCTATAATTTTTATCTTTTATTTTTGTATCTTTTATTACTAAATCACTATTTTTTATCTTTTCAAACAGATCTTTTTCATCTTCTAACTTCAACCTTCTATGTCCACCAAATGTACTTGTATAACTTTTCCACTTATTATATAATACTATATCTACTCCAATATACGCTTTTAACTCATCAATAAACTCACTGTTTATTGGCAAAGTTACTACAAACCCTCCTGCTATTTGATGTAGTGAATCTATTATTGGTTCATATATTTGAATTGCTAATCCATCCTTAGAGTCTACAACATCTCTTAATTCTTTTTTCTTCTTTATCATATCTGATATATTTTTATTATTATAACTTTTCTTTAATTCTCCATACTTAAATTTACTAGTTGCAATTACCATTCCATTTTTTATAAACAAATTTAATCCAATAGGACTATTACTCCAAGTTTCTTTTTTTATATCATTAAGAAAACTTGTAAATAATAATATACTTCCAGTTTGTTTAAATCTTTGAACATAATACCCACTTTTCTTATCTAACATTGGTCTAGTATCTTTTTCAACTAATGCATCTGTCATTAGATTTACAACTTTTGAAGTTTTAGATACAATATTTACCATCTTTGAATTCATCTCTATTTTATTATCAATAAATTTATTCCCAGCTTTCGCAGCTTGTTTTATACTATTTTTTAATTGATTTTCTTTTCCCTCTTTTATCTTTTCACTTGTTTTAGATAGACTTTTATTTACTTCAGATGAAAAATTTTCAGTATTTGTAATTGTATTCTCTTTCATTTTTTCTAATTTTTCATTAACTGAATATTTAACTTTAAAAAAACCTGTTTTTAATAAGAAAGATGATACTCCTGAAACGACTCCCACCAATATTATTATTACAAATATTACTGGCAGAAGTATTTGTAGCTTTATTCCTATATTTTTTTTATTCTTTTTCACTTTTTTCATCTTCGATTCCCCCTATTTTATATTTTTTTATTTATTTTTTTTTATATTATATCATTTTTTTAACTATTTTTTAACTGTTTATAAATATTAACATAGGAATGGCTTAAAAATAACTTACATATTTGGCGATAAAATATGTAACGTTTCAAACATTTTTATTGTCGAATATGAGAAGCTTATTTTTTAAACGTTCTATAAAATATATTAACATTTATAAACAGTCCGCCCCTATATTATAGAGGCGGATAAACTATTTATAATCTTACTTTATTATTCTTACTTTTGTGGAGATCCTGCTGGATATCCAGTAATATCTTCTAAATCTGCTTCTAAATATTCCATAGCTGTTTTTGCATCTTGTTTTCCTGTTAATACATCATATACAGCAGTGTAGAATTTTTGAGAAGTTTTTGCATAATTTGGTGCTGTTGCTGTTGATGGTCTTGCTACAGCACTTGTAAATACATTATATAAACTTCCAAAGAATGGAGCTGCTGCTAATACATCTTTATCTTTATACAATGATTTTATTGTTGGATTATATGATCCTTCTATAGCTCTCATCTTTTGCACTCTTTTTGAAGTTAAGAACAATGTTACATCTGCAGCTATAGCTTTATGTTCACTATATTTACTTACTGCTAATTGCCATCCTCCAAGAGTTGCTGCACCCATTCCAGATTTTCCTGCTGGTAATGCAGATACATCAAATTTTCCTTTTATTACGCTATCTTTACTATTTCCTAATGAATATGCATATGGCCAGTTTCTCATAAATGCAGCATTTCCTGATTGCCAAACTGCACGGGCTGATTCTTCTGCCATTCCAGTTACACCTTTTGGTGAAATTGTTCCTACCCAATTTTTAGCTCTATTTATTGCTTCTATTGCATTCGGATTATTTATTGTGATTTTTTTGTCTGGACTTACTATTGATCCACCACCATTTGATTTAATCCATTCTAATGCATCACAAGTTAATCCTTCATATGCATCTCCTTGCCATACAAACCCTTGGAAATCTTGGTTCCCAGCTGCTCTTTCTCCAGCTTGAATTTTTTTAGCTGCTATTTCTAAGTCATCCCAAGTTTTAGGAGGAGTCAAACCATATTTAGCTAATAAATCTTTTCTATAATAAAGCATTCCAGCATCTGTAAAGAATGGCATAGCTACTAATTTCCCATCTACAGTATTATTTTTAACTATTGCTGGAAAATGATCTCCTACAACGGCTTTTGCTCCATATTGATATAAATCTACTAAATGCTCTGCCATATCTCCAGGCCATATAACATCAATTTGATAAATATCTATTTCTGGACTTTTAGCTTCCATAAATTGTAAATATAATCCTAATCTATCAGTTGTAGAATCAGGAGTGTCCCATACTTTTATCTCTACATTTGGGTGTTCATCAGTATACCATTTTGCAGCTTTTTTCATTAATTCTAATTCATTTCCTACTGCTCCACTTGCTATCTTAATAACCACTTTTCCATTATCACTTTTAGCAGCCTTCTTTTTAAATAAAGAATCAAAGATACCTCCAAAAGCAACTGCTGAAACAAACACCCCAACCATTAACATTACTAAAAATTTCTTCATAATCTTTCTCCTCCTCTTTTGGTTTTTTCTTTTTATATTTTTTACAAACTAAAAACAATATTGTTTTTGAATAAGCCTCACTTCCTTCCTATTACAAAATTTATATTTTTAATATTTTTATCCTTTTACAGCTCCTGCTGTTAATCCAGCCACAATACGTTTTTGGAAAAATAAAACTAATATAATTATAGGTATTGTAACTACTACTGCTGCTGCCATAATTTCACCAAACGGCTCTTGCCTAGCAATCTTTCCACTAAATAACGCAATAGCTATTGGAACTGTTCTAGCTGTTGGTTCTATAGATGTAAATGTTAAAGCAAATAAATACTCATTCCAAGCTGATATAAATGCTAATAACCCTGTTGTAACTAAGGCTGGTGCAGTTAATGGTAACAACACATATTTAAAACTTTGAAATGGTGTTGCTCCATCTACTTGTGCTGACTGCATAAGTTCTACTGGTAAATCTTTAAAAAATGATGTCAATACCCAAGTTGTAAACGGTAATGTAAAAATCATATATGAAAGAATCATACTAGGCATTGCTGAAATTCCTAATACATTTACTACAGCATATAATCCTGTTAATACAGTTACTTGAGGAAACATTGTCATTGATAAAATTGTGTATAGGGCTATTCTTTTCCCTTTAAATCTTAATTTTCCTAATGCAAAAGCTGCAAAAGCTCCTACTATTAATGATAAAACTGTCGTTGTTGTTGCCACTATTGTACTATTCCATAGTCCTCTTATAAATCCTATATTTTGGAATACTGATATATAATTTTTAAAAGAAAATGATATCTTATGTGTCATAGGATCTCTAGGTATAAAAGTTGCTGGCATCATTTGTAATTGAGCTTCTGTTTTAAGAGAAGATATAATTGCCCAATAAAACGGGAACAACATATATACAAATATTAATATTACCATTGTCCAAAGTCCTACTTTTCCAAGTATTTTTTTTGTTTTTTTACTCATAATCATTCGTCATCAACTCCTAACATCTTAATGTAAGTAATAGCAAACCCAAATATTAATATAAATATTATCACACCAATACTAGATGCCATTCCCATATTTCTATAATTTATCAATTGCGCATAGTTATAACTTGCCATTGAAAATCTTCTTGTAGATAAAAGGACTTGAAACAAATCAAATACTCTAAGTGCATCTAATGTTCTAAATACAAGAGCTATTGCTATTGCAGGTTTTAATAATGGTAATGTTATAGAAAAAAATTGTCTTATTTTTCCAGCACCATCAACCTCTGCTGCTTCATATAATGATCCTGGTATTACTTGTAGTCCTGCCAAAAGCAATAATGCCATAAATGGTGTAGTTTTCCATACATCTATTGCTATAATAGATGGCATTTGCCATGCTTCATTTGTCAAAAATGATATATTTCCATTTCCAATCCCTAGTTGAGATAAAAGGGAATTAAAAAATCCTATCCGTGTAGACTGAAACATCCATCCCCACATTCTAGCACTAACTACAGTAATTATCGCCCACGGAACTAGCATTATTGCTCTCATTGCTCCTTTTCCTCTGAAATTACTATTGACGACAAGTGCTACTATTAATCCTAATATCGTTTCCAGCAAAACTGACCAGAAACTGAATGTAATTGTATCTTTTATTGATTTTATGAACTCTACATCACTTGCACCTATTATATAATGTTTTCCAAAAATATTTATTCTAGAAAGTTCTTTAAATCTTATAGGTCTTCTAGGCAATACATCTATTGCTCTTTGAGTTTTCGGATCAATTTCCTTTATTGTAAAACTAAGTAACTTTTGATAGTTTTTTAAACCTATAAAATTAGTTTTATTAACCCCAGCAAACCTTTTATCAGTAAAACTTGTATAAAACACCTGAATTAACGGATAAGCTGCCAAAAGTAACAAAATTAAAAATGTAGGAAGCAATAACTTAGTTGCTAGGCTTTGCTCTTGCTGAGCCAATCCTTTCATCTTTTTATTTCCCATAATTTCCCCTCCATTTCTTATAAACTTATATTTTCTTCTGTCTCTTTATCAAATATATGGCATTTAGTTGTATCAAACCATAATTCATATTTTTGTCCTGATTTTACTGTTACTCCTTCACTTCCTAATCTTGCTATATATTGATTTTTTCCTGGTGTGAAATATACAAATACTTCATTTCCCATTTGTTCTACTACATATATTTCTGATTTCACATAATTATCTTTTTCATCTGGATGTGTTTCATGACTTCCTATATGTTCTGGTCTTATTCCAAACCATACTTCTTTCCCTACATATTTTTGTACTTTATCTGCTTTTTCTTTTGGCAATCTTAATTTCATATGTTCTGTTACTACATATGTTGTATCTCCTTCTTTTTCTAGTTTTGCTTCTACTATATTCATTGATGGACTTCCTATAAATCCTGCTACAAATTTGTTTTGTGGTTCGTTATATAATTTTAATGGAGTGTCCACTTGTTTTATTACTCCTAATTCCATTACACATATTCTATCTCCCATTGTCATCGCTTCTACTTGGTCATGTGTTACATATATCATTGTTGTCTTTAATCTCTTATGTAATTTTGTTATCTCCACTCTCATATGCACTCTTAATTGGGCATCCAAATTTGACAATGGTTCATCAAATAAAAATACTTCTGGATCTCTTACTATTGCTCTACCTACTGCTACTCTTTGTCTTTGTCCTCCTGACATCTCTTTTGGTTTTCTATCTAATAGATCTGTTATTCCTAATATTTCTGCCGCATTTTTTACTCTTTTATCTATCTCTTCTTTTGGTGTTTTTGCTAATTTAAGACCAAATGCCATATTATCATATACATTCATATGTGGATACAAGGCATAATTTTGGAATACCATTGCTATTCCTCTGTCTTTTGGCGGCAACTCATTTACTATTGTATCTCCTATTGCTACTGTTCCTCCTGTTATCTCTTCTAGCCCTGCTATCATTCTTAATGTTGTTGATTTTGCGCAACCAGATGGTCCTACAAATACCATAAATTCTCCATCTTTTATTTCCAAATTGTGTCCATGTACCGCTTTAAATCCATTTGGGTATGTTTTTTCCATATCTTTCAAAACTACCTTTGCCATATTGCTACCTCCTTCATTTACTTTCAATTTTTTACATTTTTACATACGTTTGTCCTTATTTGTTAAATATACAATATATTTTTCCAAAAATCAAATTTATTTTTTAATTTTTGGTTATTTTTTAATCACAAATATATAATCAATACTTTTTTTATTCACTCATTACCCAAATACACTCGTTTGGAGTTAACTTTATAGTTTTTCCCAATTTATTTCCTGTTAACAACCCAACTCCTGCAAACTCAATATTTATAACTTTTTTATTTTCAGATAAATTATGAATAAATAAAATTTGTTTATTCTCATAGATTTTTTTTACAATATATAATTCTTTATCTTCGTTATCTTCAAAAATTGTCTCTGAATTAAAAAAATCTATATATTTTTTTCTCACTTCAATCATATTTTTAATCCCATAAAATAATTTTGATTCATCATTTGTTTTATCTTTATCGATTTTTTCAACTTTATCCCACCTCATTTTACCTCTGTTAAAAAATCTAGCATCTTCATACCCTGTTTTTTTACTGCTTTCTAAATAAAATTCTTCATCATTTTCTTGTCCAATTTCATCTCCATAATATATAATCGGAGAACCTATAGTTGTAAACATCATAGAATTCAATAAAAGTATTTTTTTTATATCTTTTCCTAGCATATTATAAATACGTCCTGCAATTCCTTCTCCTTCTCTAAAACTGTATTTTTTATCTATTAAATAATTTTCTAGCATTACTTTTCTCTCTTCTGGAGTTACAAATTCTAAAGTCAATTCATCATGACATCTTAAAAATGAGATCCATTGACACCCTTTAGGTATTTTAGGAGTATATTCAGAATCCAAAGCATCCACTATATATTTAGAGTCTTTTTCTGCTAAACTAAGATAAAATTTAGGCATTAGTGGAAAATGATATGCTGTTTGGCATTCATCACCATCCCCAAAATATTTCACTACATCTTTTGGTTTCATATTTGCTTCTGCGATTAATAATGTCCCCTCTTGAACATAATCTAAAACTCTTCTAAAAATTTTTAAAATTATATGAACTTCATCTAAATCTTCACAATTAGTTCCCTCTTTTTTCCAAACAAAAGGTATAGCATCCATCCTCAATCCATCAATTCCTTTTGATTTCCAAAATAATAAATTCTTTAACATCTCTATTAAAACTTTAGGATTTTTATAATTCAAATCAGGTTGGAATCCATAAAATCTATGAAAATAATAATCATCTGTTTTTGGGTTGTATTCCCAATTGCTGTTTATCATACCTTTAAACAATAATCTTGCATCTAAATATTTATCAGGTTTATCGCTCCATATATAATAATCTCTGTATATAGAATTTTTGTCTACTTTAGCCTTTTTAAACCATTCATGCTCATCAGACGTATGATTTACTGCTAAATCAAATAATATTTTTATTCCATATTCATGTGCAATTTTAACAAAATTTAAAAATTGTTCTGTTCCGCCTAACTCTTTTCTTACATTATAATAATCTCTAATATCAAATCCTTGATCTCTCATTGGAGAATCTAACATTGGTAAAAGCCACAAAGTATTTACTCCTAATTTTTTTAAATATGGCAATTTTTCTATTAAACCTTTAAAATCTCCAGCATATAAATCTACATATAAAGAATATACAACTGACTCTTTATACCAAAATTGATTTTCAACAACTACATTTTTATATTTTTCTTTTTCTACATCAATTATTTTTTTTAGTTCATCTAGTTCTTTTTCTTTACTATCGCCATAAAGAGTTTTCCACAAATTTTCTATTTTTTCCATCTCCGACCTCCTCCACACGTGTGTAGTGTGTTTTAAAATAAAAATCGACTATTCATAAAGTCGATTTTTCAAAATACACACATTTGTATTGCTTCATATTACTAATATATTACATTTTAAGAATTTTGTCAACCTTTTTTTGGTAATTCTTTTATTTTTTATGCTCAATTTTTGATACTACTGCCAACGCTTTCCCTTTTTCCATCTTTATAGATGCTGATTTTTCAATAATTAAGTTGCTTATTCCTAAAGAATCTCCCTTTTTAATTTTTTTATTTTCTATATTATATTTAAATCCATTTAAAGTAATAACTATTTCTTCGCTAAAAGGAATTATAGAAAAAATATCTCCTATTCTATTTTTAATTTTATAAATTTCTTCTCTTTTTGTAATCATTCTCAATTCTTCATTTTGATTATTAATAACTATATTTTTAAATTTATTTAATAAATTTATATTAACGAGAGTATGATCTACTCTTCCTCCAATAGCTCCTTCTAATATTATTTCATCATAAAATTTATATATTATTTTCAATAATATTTCTGTGTCTGTTTTATCTTTATCTGGATTATATCTTTTTATTTCTACACCTTTTTCAATATAATAATTTAATATTTCGCCAGAAAGAGAGTCAAAATCTCCTAAAATCATCTTTGGAATTATATTTAATTTATAAGCAATTTTAGCTCCACCATCTGCACAAAATATATCAATTTTTTCTGCTTTATATTTTTCTAAATATTTATAATTAATATCCTCTAAATTTAAAAATATTACAGCTTTTTTCATTTTCATCTCCTAATTGATTAATCATCATCTTTTGTTGTATCCACTTCAATAAAAATTGGTAAATGATCAGATATAGTTTTTCTTACTATACTATAATTTTTATTTGTAAAATTATATACTCCATAATCACCCGTGAACTCTTTAGTATATTTATAACTCAAAAAAAAGTTATCATAACTTTTAGATAAGCTATGTTTTCCTATTGTAGTTTTATATTTCGAATTTACAACAGCAAATATATTATCTTTGCCTGCATAAATTTCTTTAAATCCCTTATTATATGATGGCAGATTAAAATCACCAGCTATTATTACATCTTGTTCTCTTCCATTCTTTCTTTGAAAATAATCATATACATTATCTAAATATCCTGCTTCTTTTTCCCTAACAGCCCTATTTTTCCCATATATAAAATGACATAAAATATATGTAAAATCAAATTTTCCTATTTTAAATTCAGCTCCATATGGTTCCCGAGAAAATTCATTCTTCTTTTCTTTATAAAATCCATAATATTTAATAAATTTAACTTTATTTTCTTTCCAAATATATCCATAATACTCTTTATACCTTCCATTTCCTACCTTCTTTTCAGATATATGATAATCCCATTTTTCTCCAGTTTCTATTTCTAACTCTTTTTTTACTTTTTTTATACCAGTTTCATTCATCACCTCTTCCAAACCAATTAAATCAAATAAAGATATTACTTTTGCAAATTTTTTATAATTTTTTGATTTCCAGCCTAAATGTAAAGAGTTAAATGAAGATATAACTCCTATATCATTAGAAAAAGTAAATATTTCAATTACCATATATATAATTATAATTTTAAGCTTCATATTTTTTACCAACTTTTTTTATATATTTTTTTCATCTTTTTTTATCTGTTTTTTTTATAGGAATTTTTAAAATAAATTCCATAAATTCTCCATATTCTGAATTTATATCTATATCACACATATATTTATCTAAAATCATTTTTGTATTATGTAACCCAAATCCATTTCCTTTTCCAGCTTTTTTCTTTGTAGAAAATCCAAATGTAAACAGTTTATCTTTGTCCTCTTTTTTTATACCTAATCCATTATCTTTTAATTTTACAATAATATTATCATTTTCGAAATAAGTTGTTATCGTTATTTCCCCATTTTCTATTCCTTTTTCTTCAATTGACTCATAAGAATTTTTTATAAAATTGCTATATATTTGAATCAATTGCCCTTTGTCACTTAATAGATCAGGAACATCTCCTTTATTAAATTTTATTTTTATTTTCCTTTTTTCAATAGATGACTCATAAAGCTCTAAAACTTCATCTAATATTTCATTCATATTATTATAATCTTCTGTTCCTAATTCTCCAATAAAATTTTGTTGAAGATGTATTATATCTTTTAAATGATTTATTTTTTTGTATAAAAACTTAAATTTCTCTGTATAGCCTAGTTCTCGATTTTTCATAGCATCAATTAGTTTAGGCATAATATTTTCTATTTTTTTTAAATTTTCGCTTTTATTCTCTACCCTTTTTATCTCTTGAAAGGCTATTTCTTCAAAAAACTTTATTGTTTTATTCTCTTTTCCTTCCTCTTTTTCTAAAATTTCCTCTATATTCAAATTTATAATATTTACTATATTTCCAATATTATGTATAACTCCTGCTGTTACCTCTAATAGCCCTCTATTATAAGCATTTTCTACCATATCATTTTGTTGTTCTCTAATTTTAATATTTGCATCTTCTAATTTTTTCGTTCTATCTTTTACTTTTAATTCCAATTCTTTTGCATATCCTTCTATTCTTTTTTGTAATTTTTTTAATTCTGTAATATCCTTTACAACTATTTGAGCTATTTTTTCATTTTTATTTACTAAACTAGCAGATAAAATAATATATTTATCATTTTCTAATTCAATATCATAATTGTAAACAGGTTCATTTATTTTTATTTTTTCTCTTATTTTATTCATAGCATCTAATGTTATTAAGGTTAATATATTTAATTTTATTACATCTATAGTTTTTAGGTCAAATATACTAAGAAATTCTCTGTTAAACTCTTTTATTTCACCAGTTTGATAATTGAATATTACCATACCAACTGGAGAATAATTAAAGAGATTTCTATATTTATTTTCAGACTCTTCTAATTCTTTTAATGTTTCGGTTAAAGTATCATTTATAGCTGACATCTCATTATATGCAGCTTCTAATTCATCTGATTTTTCTTTTATCTCTTTTTTTGATTTTTCATTTTTTTCATTTTCTTCCTTTAATGAATTTGTCATTTTATTAAAATAAATTTCTAACTCTCTAAATTCATCTTTTCTTTTTAAGTCTATTCTATATGATAATACCCCATCTGATACTTTTTTAAATCCTTCCCTAAATATTGATAATGGTTTTAAAAAATAATTATACTCAACATAATTAAATATTATAAAAAGTATCATTACTAATAGTAATAATATATTAATTTTATACTTTATATCTTTCATATCATTTTCTACTTTTGTTTTATTATAACATATTTCAACTTCTCCTATTTTTTCTCCATTTTTTTCCAATTTTAAATTATATTTTTTATGAATAGAGTTACTTTTTTCTAAATCCAAAATTATATTATCATCTATATTTTTAACTATAATTTTTGAAATATAGCTATTTTCTAAAAATTTAGACAAACTGGTATATAATAAGTCAAAATCATAATCCCACACAGGAGAAACAATTAAATCTTTTACTACATGATTAGATATCTCTATTTCTTTATTTAATTCTTTTAGTTTTTCTTTTTCTAATCCAGAATAAACAAATGTCCATAATATCAAAAATGTAATTAGCCCAGATATCATAGAATATATAGTTAATTTCTTTTTAATTTTCATAAAATCGCCCTCTTTTTTTTTAATAAGGAACGTTTAAAAAATAATATTCTCATATTTTGTTATAAAAACTCTTGAACCATTGAGTATTTTAAAACAAAATGAAAAGGTTGTTTTTAAATCATTCCTAAAACATTGCGTATTTTAAAGCAAAATAGGAATGTTATTTTTAAGCCATTCCTAACTTATTTTTTATTGTTCCCTATTCCCCTTTTTTTCATTATTTCTTTAGCTACTTTCACTGCTTCTACTGCATCTTTTGAATAATATGCCCCCATCGTTTCAGCAAAATCAGGAGTTACAACTGCTCCTCCTACCATAATATCTACTGATAATTTTTCTTTTCTTATTGCCTCTATTGTTTTTCTCATCTCTACCATAGTTGTAGTCATTAGTGCACTTAATCCTATTATATCTACATTTTCTCTCTTTGCTGCTTCTAAAATTTCTTCTGTTGGTACATCTTTTCCTAAATCTACTATTTCAAATCCATTATTTTCTAATAATACTGTTACAATATTTTTTCCTATATCATGAATATCATTTTTTACAGTTGCAAATATTACTTTTCCTAAACTATTAGAATCTCCTTCTTTTATCTCTTTTTTTACTCTTTCAACACCTTTTTTCATTGCTTCAGCAGACATCATTAATTGTGGTAAAAAATATATCCCTTTATCATATAAATCTCCAACTTCTGTTATTGCTGGAATTAATATTTTATTTACAATATCTAAAGGCTTCTCTCCACTTTCTAATATTTTTTCTAATATTTCTTTTATCTCTCCTGTATCCCCTTTTATCACGCAATTATAAGCTTGTTTTTCTAATGGTATATCTTTTTCATCTTTTTTTGTTTCTGTAACGCTCATTCCACTACTATATAAGATATATTTTCCAGAATTTTTATCTCTTCCAGTTAATACACAAGAAGCCATTAATGCATTTTTCATTTCCATATTCATAGGACTCATTATAGGAAGATCTAGTCCTGCTCCTATACACATAGATAAAAAAGCTGCATTTACATATTTTCTATTTGGTAATCCAAAAGATATGTTGCTAACTCCAAGTACCGTATTAACTCCTAATTCTTTTTTTACAAGTTCTATTGCTTTAACTGTTTCTAATACTTTATCTTGTTCTGCAGAGGCAGTTAATACCAATGTATCTATCAAAATATCTTCTTTTTTTATTCCATATTCCATTCCTGTTTTTACAATTTTTTCAGCAACTTTTAATCTCTCTTCTGCCGTAGCAGGAATTCCATTTTCGTCAAGTGCTAGTCCCAATACAGCAGCTCCATACTTTTTCGCTAATGGAAATATAGTTTCCATACTTTTTTTCTTTCCCATTACCGAGTTTATTAATGGCTTACCAGAATATGCTTTTAACCCCGCCTCTAATGCAATTATATCCGTTGTATCAATTGTCAAAGGAACATTTACAATATTTTGAACTGCTATAATAGCTTTTTTCATCATTTTAGCTTCATCAATTGTTCCAAGCCCAACATTAATATCCAAAACATCTGCTCCAGCTTCTACTTGAGCTATAGCTTCTTTTCTTATTTGAGTTGTTCTATATTCCTTTATATCTTCTTTTATTCTTTTTAAGGCATTTGGATTAATTCTTTCTCCTAAAATCTTTACCATTTCTGGATAACCAATTCCTACAAATTGACTTCTGGATGTAAGATACGTTATATTCTTTTTTAATTTTTTCTTATTAGATTTTCTATTTTTAAATCTTTCAGCAATTTTTCTCATATGAGTTGGTGTTGTTCCGCAACATCCACCTATAATATTTATCCCTAAATCATAAAATTTTTCTGAATATTCTAACATAAATTCAGGTGTTGCATCAAAAACTGTTTTATCTCCTTCTAATCTAGGCAATCCTGCATTTGGCTGCACAAATAGAGGAACATCTGTAACTTCTATCATCTCTTCTAAAAATTTATATAACCCTTCTGATCCTAAGCTGCAATTTACACCTATAGCATCTACTCCCAAAGCATCTAATATTATTGCTGCTGTTTTCGGATCTGTTCCTGTTACACTTCTTCCATCTGCTTGAAATGTCATTGAAGCAAATATTGGCAAATTAGTGTTTTCTTTAAATGCAATAACAACAGCTTTCATTTCATGAATATCAGTCATTGTTTCTATAATTACTCCATCAGCACCTGCTTTTTCTAATATTAAAGCTTGTTCTTTAAATACATCATATATTTCATCAAATGTATAATCTCCCATTGGCTCTATAAATTTTCCAGTTGAACTTACCGAAGCAAAAACTTTTGCTTTATCTTTTGCCATTTCTTTAGCTATTTTTATACCTTCAATATTTAACTCTTCTATTTTATTCTCTAATCCAAACTCTTTTAGTTTTAATCTATTTCCTCCAAAAGTATTAGCTTCTATTATATTAGAACCTGCATCTACATAACTTTTATGTACTTTTTTTACCATTTCAGGATCTTCTATATTTAATAACTCTGGACAATATCCAGGTTTCATTCCTAATTTTTGTAACTCTGTTCCCATTGCTCCATCCAAAATTAAAACTTCATTATTTAAAATATTATCTAACCATTCTTTATTCATTGTGAACCGCTCCTTTTTATTCTTCATTTTTTTAAATTATACCATATCATTATTACATTTTCTATATTATTTTTTATTTTTATTATACAAATCACTATTACAACAAAAAAACAAAAGAATTCCTTATAAAATACAAGAAATTCTTTTGTTTTTTATTATTTTTAATCTATTTCTAACTTACTTTTACTTTTAAATTTTCTATATCTAATTCCCCTCTATTTAACTCTTTTATATTTACACTCTTAGAGTTGAATTTTTCTTTTAAATATTCATATGCTTTATATGGTTCAACTTCTTCACCGCAAGTAAAAATATCAACTGCTGCATAACCATATTCTGGCCATGTATGTATTGTAATATGAGATTCTGCAATAATTACAGCTCCACTTACTCCATATGGTGAAAAATGATGAAATACAGAATTTACAATTGTAGATTTTGCCTCTATTGCAGCTTGATTCATAGCGTTTTCTACACCCTCTAAGTTTGATAAAACCTTATCATCGCAATCGAAAAATTCGATTATCAAATGTTTTCCTAAACTTTTCAATTAAGTCTCTCACCTCCTCATTCTAAAATAAAAATATTATTTTTAAGCCATTCCCAAGTTTCCTCAAAGTATATAACATTTATCAATATGTGTCAACCTAATTTTAACCATAATTAGCTTTTTAATCTAATAAAAATTCCTCTTTCACCTATATAGCTTTCTATTTTTTTTTCTTTTTCCAAAACATCTAAATATTTATTAATTTCAACCGCCTTCAAGCATGTTATAAATTCTAAATCTTTAATTGTACAAGGTCTTTTAGCTAACATATTTAAAATTTCACTTTCTAAATTTTCACTATAACTTTTTATAGCTCTTCTTACTTTATATTTTTTTATTACTTCTACATTATCAAGTCCCCAATATTTAATAATCTCATTTAATTTATCTATTTCTACAGGTTTTACCCAACTTTCCACAGGAGGTCTATCTAAGCTATTTAATTGAACTTTGTCTGGATTTATCTTAAGTATTACATCTTTAAATTTATCCAGCTCTTCTTTTGTATCATTTAATTTATCTATTATAAATATTTCAAGATTAATTTTACCTTTATAATTTTTTCTTAAATTAACAAGCCCATTAATAATTTTTTCTATTTTTAATTCTTTATTCGGTCTATTAATTTTATAAAATATCTCTTCACTAACTGCATCTAATGATGGAACTATTACATCTGCGTTTTTTACCTCTTCTATAAGTTTATCATTATAAAAAAGAGTTCCATTTGTTAATATTGCAATCTTAGTATCTGTGATTTTTTTTATTTCATCTATTAAATATCCTAATTTTGAATTTAATGTTGGCTCTCCAGAACCTGAAAAAGTTATATAATCTAAATAAGGTTTTTTATCCAAAAAATCTTTTACTTCATTTAAAACTTCTTCAGCATTTACATATTCTTTTCTTTCATTATATAATTTATCTGTTTTACCACATTCACAATATACACAATTTAAGTTACATGTTTTAGACATAACTAAATCTATTCCCAATGATACTCCTAGTCGTCTTGATGGTACAGGTCCAAATATATATTTATATCTCATTTTTTTCGCCTCTTTCAATTAATTTATTTTAATGATATTTTTGTTTTCAAATACCATAGGTAACAAATCTCTATAATCTTTAAATTCTCTTTCTCCTTCTACATCATGAAAATTAAACTTTCTAATTCGTAAAAAAACAAATGTAAGTGCTGTTTTTTCTAAAAATATTGGTAAACTTATTTTTTCAAGTTTTGTTAATTTTCTTTCTTTTTGATATCCTTCTAAAAATGAATTAATATATTCTAAATCATATTTTTTTAGTTTATTATATATCCAAAAATTTATTACTATTGAAATATCATTCAAAAAAACATCTGATAAAGCATCATTAAAGTCTATAACCCCGCTTATTTTCCCATCTTTTACAAAAACATTATCTGGAAATATATCATTATGATTAACTCCTTTTGGAAGTTTATCATATATATTTTCTATTTTTTGTTTTATATCATTATATTTTTTGTTTATAATATTATAATCACTATTTAAAAGATTTTTTAATTTTTTTTCATCTTTTATTAATATTTCATATAAATAATCCATTTCTATTTTTTCATTCCTATGAATAATTTTTCCAACAGATAAATTATGCATTTTTCCTAAAATTTCACCAAATTCATTTAAAAGTTTCTTATTTACAACTTCAACTTCACTTCCCTCAAGAAAACTAAATAAAACTCCCATTTTACCTTTTATTATAATATAATCCATATTAAGTTTTGTTCTTAAAACATTTGGGCAAGGTATACCATTTTTAGAAAGATGTTCTAAATATTTTAATTCATCTATCTCATTATTTATATCTCTATTTCCTTCTAATATCCTAAAAATATATTTTGAATTTTGAGTTTCTAATAAATAATTACTATTCATTATCCCTTTTTCTATACCTTTATAATCTAAAATTTTTCCTAAATTATACATATCTCCAATTTCATCTATGTCATTCTCAGTTAGTTTAGTATATACGGCCATCTCATCTCCTGCTGAATATATTTCAACAGTCAACCTCCCTCTTTTTAATTTCTTTTACCAAGCCACTCTCAATATCTCTTCATAAGTTGTAATCCCTTTTTCTATCTTCAACATTCCATCATCTTTTAAATCTTTCCACCCTTTTGCTTTTAAATTATTCTTTATTTCAAAATTACTTTTTTCATTTAAAATATCTTTTTTACTATAATTATCAATTAAAAATAGTTCGTGAATACTTGTTCTGCCTTTATACCCTGTTTCAAAACAAAAATCACAACCTTTTCCAAAATATGTAACTTCTCCATTGTCTAATATTTTTTCTGTTTTACAATATGGACAAATTACTCTTACTAATCTTTGTGCTAATACTCCTATCAAAGAAGATGTAATAAGATATGGCTCTATTCCCATATCTATTAGACGAGTTACTGCACTTACAGAGTCATTTGTATGAAGAGTTGCAAATACAAGATGTCCTGTTAATGATGCTCTTATTGCAATTTCTGCTGTTTCTTTATCTCTAATTTCTCCCACTAATATTATATCTGGATCTTGCCTTAATATCGCTCTTAACCCTTGTGCAAATGTCAATCCTATATCTGGTTTTACTTGAATTTGAGATACTCCATCCAATTGATATTCTACAGGATCTTCTATTGTTATTATTTTTTTACTATAATCATTTATCTCTTTTATTGCAGAAAATAGTGTTGTCGTTTTCCCACTTCCAGTAGGCCCAGTTACCAATACAATTCCATTTGGCTTGTGTATCAGTTCTCTAAATTTATTTAAAATTTCTGTTTCCATCCCTAATTTTTCAAGTGTCATCTCACTTTTTTGATTTGCTAATATTCTTATTACAATTCCTTCTCCATTTATAGTTGGCAAAATAGATACTCTTAAATCTTGCTCTTTTTCTCCAACTTTTATTTTTATTCTTCCATCTTGAGGTAATCTTTTTTCCGCAATATCTAAATCTGCCATTATTTTTATCCTTGAAACTACTGCTGCAAATACATTTTTTATAGCTGCTGGCATTTGAATATTATGTAACACTCCATCAATTCTATATCTTAATATTATATCATTTTTTAATGGCTCCATATGAATATCTGTAGAACCTCTTTTATAAGCATCTAAAATAACTCTATTTACAAATTTAATTATTTCCGCACTTTCTTCTTTATCTTCTAAATTAAATTCTTCTCTACCTAATTGTACATTTTCTGTAGTTTGATATAACATCCCAGAACCTACACCAAAATATTTATTTGTTAATAGATAAAAATCATCTTCAGTCATCTTAACTGGGACAACTCTTCTTTTAACTTTCAACTTTATTTTCATTTTTGTTTGTGCATCAGTTACATCTAACATTGCGACAAAAATTTCTCTTTTTGTAATTTTATATGGAAACACTTTTTTTTCATGAATAAAATTTTCTTCAAATATTTTATAAGCTTCTTCTTCTACCTCTTGGTTTTTCAAGTCAAAATTTTCAACAAGATTTTCTTCAAACATTTTAGCCCCCTTTTTGCAAGTTAAATTAATTACTCCTATTTATATATATTTTCTTGAATATATTTTTCAATTCGTTCTATAAATTCTTTTGCATTTTTTAATTGTTCTTTTACTTCGTCTTTTGATATTATAAAAAAATCTTCATAATCACTATCATTTCTAATTTTAAATGCTTTTGTCAAAAATTTTGAATACTGTTTTTCTATTTCTTCTGTTTTTATAAAATTTTTATTAAAATAAGAGATTATAGATGAATGTTTTTTTGAATCAAAATCATAATAAGCTATCAAACTTCTAACAGCATGAAATATTGCATAGGAACGTTTAAAAAATAATTTTCTTATATTTTGTTATAAAAACGCTAAAATCGTGCGTATTTTAAAACAAAATGGGAATGTTATTTTTAAGCCATTCCATAGTATGATCTGTTTATTGATTCTAAATATAGTTCATTTTCTAGCAATAATTTAGAAGCTTTTAAATTTTCTTTTGCCTTTTCATCTCTATATTTTGATAGTTCTTTCCTTCTTTCATCAACTTGCATAAAGTTCAATTCCTTCTTCTTCTACAGTTTCATAAAAAGGTATATATTCTATAAAATTATTAAAATCATCAATATTAATTTCTGTAATCGAAACTAACAGATCAAATTCTAAAGATAATTCAACCATTATATCACTTATTTTATCTCTATATTTTGATAAATCAATTCTATTTATATCTGCTAAAGCCATTATATCTATATCTGAACCATCTTTTTCCTCATTCCTTGCATATGAACCATAAAATATGATTTTTTTTAAATTTTTTCCAAATACTTTTTTTAATTCTATTTTAGATTTTTCTAATATAGAATCAATCTTTTCTAATGATATTTCACTAATATTTTTCATTCTATCCCAACTCCTAGCGTAGCTTATTTTCTGAATAAATTTATTCTTTCCTAATCATTCAATAATATGATTAAAAAAGCAATTATCTCTTACAATTTTAACAACTCAATTACTCCTATACAAACAATAAAACATAATACAAATATCTATTATTTTCCCAATATTTTAGTATCTTTATAGGAGTAATTCCGCAAGCATTACACTTGCGGAATTATTTTTATAAATTCTTTATTATCTCTTCTGTAAATTCTGTAGTTGTTGCATTTCCACCTAAATCTTTTGTTACAACTTCACCTTTTTCTAACACATCTTTTAATGATTTTGATATCTTATCTGCACTTTCTTTTTCTCCAATATATTCTAACATCATAACAGCTGATAATAATAATGCTGTTGGATTAGCTATATTTTTACCTGCAATATCTGGTGCAGAACCATGAACTGCTTCAAATACAGCAATATCCTTTCCTATATTTGCTCCTGGTGCTACTCCAAGTCCACCAACTAATCCTGAACAAAGATCTGAAACTATATCTCCATAAAAATTAGGGCAAAGTAAAACATCAAATATTTCAGGATTTTGCACAAGCTGCATACACATATTATCAACTATTTTATCTTCACAAATTATTTCAGGATACTCTTTTGCAATCTCTCTTGACACATCTAAAAATAATCCATCACTAAATTTTTGTATATTAGCTTTATGCACAATTGTAACTTTTTTTCTGTTATTTTTTCTAGCATATTCAAAAGCATATCTTGCAATATTTTCTGTAGCTTCTTTTGTTATAATTTTTATAGTTTCCGCTGCTATTTTGTTCCCAATATAATGTTCTATGCCAGAATATAACCCTTCTGTATTTTCTCTCATAATTACAATATCTACATCTTCATATCTTGCTTTTACACCTTTAAATGTTTTTGACGGTCTAACATTTGCATAAAGATTTAATGCTTTTCTTATCCCTACATTTACACTTCTAAATCCTCCTCCTACTGGAGTAGTTATTGGTGCTTTTAACGCTACTTTATTTTTTCTTATTGTCTCAATTGTTTCTTCTGGAAGCGGAGTCCCATATTTCTCCATAACTGTTATTCCTGCATTAACCTCTTCCCATTCTATATCTACACCTGTTGCAGATATAATTTTTTTTACTGCTTCTGTTATTTCTGGGCCTATCCCATCGCCTGGAAGTAATGTTATTTTGTGTGCCATTTTACCAACCTCCAAATTTATTTTTGTATTTCTTCTAATAATAATTTATATTGTTTTGCCATCATTTTTATTGCAATCTTTCTTATAAATTGATACCATTTAAATTTCATAGTGCTCATTTGTTTTACTGATTCTGATATTGTTTTTTTCAAAAATTCTAATTCATCATAACTTAATTTTAACTCTTTATCTTTTTTCTTACATTCACTTTCAAGATAATTTAGAAAAATTCCCATTCCTTTTGCTTGAGGGTTATTTCCATATACTCCCATTTGTTTTTTCATCTCTTCTGCAAGTTTCCCTAAAAATTTCTTATTTCCTTTATCTATCTTTACTGTATATTTTCTTTTTCCTTTTCCTAATTTTTGCATAAATGATGCCATTCCCATCATTGCTTGGTTATTCATCATATCAACTTGGCTCATTTTATTTGCATTCATTGCTTGTCTAGCCATTTTATTCACTCATCTCCTTTAGTATTTTCTTAGCTGCTTCAACTCTATTTTCAACATTTCTTATAGGTCTTCCTACCACAATATAATCTACTCCATTTTTCACTGCTTGTGCAGGTGTCATAACTCTTTTTTGATCTCCTTTTACCGACCATAAAGGTCTTATTCCTGGAGTTAATGTTATAAATTCTTTCCCTAATTCTTTTTTTATTTGTTCTACTTCATTTGGAGAACAAACTACTCCATCTGCCCCTGCACTTTTTGCTAATTTTGCAAGATCAATTACATAATCACTTGTTGTTTCATTTATTTTTAAACTTTTTAGATCCTCATCATTTAAACTTGTTAAAACTGTTACTGCTAATAATTTAGGTCTATTTATCCCCAATTTTTCCGCTTCTTCTTTTATTGCTTTTGCTGTCATATTTATCATTTCAAATCCACCAGTTGCATGTACATTAAATATCTCCACTCCATGTCTAACTAATACTCTTGCTGCTGATGCCACTGTATTTGGAATATCATGATATTTCAAATCAGCAAATATTTTTCCATTATTTTCTTTTATAACTTTAAAAATTTCAGGTCCAACTGCTGTAAAAAGTTCTTTCCCAACTTTAAAAACTCCTACATATTCAGCTAACTCTTTTATTAAAGCTTTTGCTGATTTTAAATCAGGAACATCAAGTGCAAAAACTAATTTTTCTTTTACATTATTCAATATGAAAACCTCCTAATTTTTTTGAACTCTCTTAAAAAAACTTTATAATAACTCTTCTATCTCTTCTTCTGTTACACTTCCAACTCTTAATATCTTATATCCATTTTCAGATATTTCTATAATTGTAGATGGTATGCCTATAATTTCATCTTCACTTTTTATTACATAATCAACTTTATTTATAAATCCATCATCTAATTCAGAAAAATTTTTAGGAGTTTCTTTATTTGATATATTTGCACTTGTTGTGGCAATTATTCCACCTGCATTTTCTATTAATTCTAATGCGATTTTATTATTTGGAATTCTAACTCCTATTGTATCATACTCTGGATTAAGCTCTTTTAATTTCACTCTATTTTTTTTCAAAATCAAACTTAAAGAACCTGGCCAAAATCTCTCAGAAAGTTTTTCAATAATCTCTTTTTCTAACTCATTTTCTACTTTTATTATTTCATCTAAATATTCTATTTTGCTAATTAAAAGAATTAAAGGCTTCTTACTATTTCGAATTTTATATTCATAAATTTTTTTTATTGCATTTTTATTTTTATAATCAGCTCCCACTCCATAAACTGTATCTGTAGGAAACACTATAATTTTCCCATTTTTTATTTCCGAACCTGCTAATTTTATATTTTCTTTACTATTATTCAATATTCTCATATTTACCTCATTGCTTTTAATAATTTTTATATCCTTTTTCTTCCAATCTTCTATTTTTTTCAAGAACCTCTTTTCTCATCTCTTCTCTATAATCTTTTATTATTTTTCTATATTTATCATATTTTATACCTAACATTTTTAATGCTAATACCGCTGCATTTTTAGCTCCTGTTTTTCCTATTGCAACTGTTGCTACAGGTATTCCTGTTGGCATTTGCACTATTGAATATAAAGAATCCACTCCTCCAAGGTCAGAAGTTTGCATTGGAACTCCTATTACTGGTAAATTTGTATGTGCTGCTAATACTCCTGGTAGATGTGCTGCTTTACCTGCTGCTCCAATTATAATTTTAACTCCATTTTTTTCTGCTTCTTTTACATAATTTAAAGCTTCTTCTGTACATCTATGAGCAGAATAAATTTTCATTTCATACGAAATGTCAAATTTTTCTAAAAGTTTAGCTGTCTCTGACATAACCTCTAAATCTGAATCGCTTCCCATTACAATGCTTACCAATATTTTTTCCAAAACCATCTCCTCCTATTTTGTTTGAAAATTTTAATCATCTTTTATTATTCTCATAATATCAATTATTTTTTTCCTATCTTTTATTCCTTTATCAATTTCAACACCACTACTTATATCCACTCCATATGGTTTCAGTTCATCTATAGCTAATTTTATATTTTCACTATTTAATCCTCCTGCTAATATCACCTTGCCATATTTCTTAGCTTCTTTTACTATTTCCCAATTAAATTTTTCACCTGTTCCTCCATATTCCTTACTAGAATATGTATCTAATAAAAACCATTTTATCTTATAATCTTTTATTTTTTCAAGTTCTCTTATATCTTTTATTCTAAATGCTTTTACTACTGTAAATCCTTTTTCTAACTCTTTTAAATATTCAACACTTTCTTCTCCATGAAGTTGTAATATATCTAATTTTAATTCTTTTCCAATTCTTTTTATATCATTAATATCTTCATTAACAAAAACTCCAACTTTACTTATAAAAGGAGGAATATTTTTTATAATCTCTTTCACTTTATTTGGTTCTATATATCTTTTGCTTTTTTTATAGAAGATAAAACCTAATGCATCTACACCATTTTCTATTGCAACCTGTGCATCTTCCAATCGTGTAATTCCACAAATCTTTACTTTTACATTCATTCTCTTCTCTCCCATAAATTTTTATCATATATTGTAAATATTAATGATAATCCAAATCCTACTATTGTCCCTACTATTGGACCAATAATAATCCCTTTTATCCCCCACATCCATCCAAACATAAGACCATATCCTATTCCCATTATTAATCCCATTTTTAAATATTTTAAAAATTTCTCTACCTTTTTATTAACCTCTTTTTCTTCACTTTTATGCTCCTCCATATAGCTCACCCCTGTCTATTATTTTAGCATAAATATGCAAAAAAAACAAGACAAGCTAAAGGTCACAAAACAACTGTTTTCTCATTTCTTAGAAAAAAAGATATCAATTATACCTTTTTTTCTAAGAAACTTTGAACATGATATTGTTTTATACTCCCTAAGCTTGTCTTGCAGAATAATACTCTATTAAATTTTCTAAATCCACCATTATTGCTATTTTCCCATCACCTAAAACTGCTGCTCCTGATATACCTTTGTCTTTGTGGTATTCTCCTTCTATATTTTTTATTACTATCTCTTGTTGCCCTAATAAACTGTCAACTTCAAATCCATATATACTATTCCCTCGTTTAACCAATATAACATCGATTATATTTTTTTCTTTTTTTGTTTTTTCTTCGTCTATTTTATTATTAAATATTTCATCTAAACTAAATATAGGAACTACTTGTTCTCTTAATTTAGAAACTCTATTTCCATTTACATCTTCTATATCCTCTTTTTTCACTTTAACTGTTGTTACTACATTATCTAGTGCAAAAGAGTATATATTCCCATTATTTTGCACAAGCAATGCATTTATTATAGCTAGGGTTAATGGAAGATGCACTATAAAGGTTGTCCCTTTCCCAACTTCTGTATCTATTTCCACCCTTCCTTTTAACATTTCTATACTTCTTTTTACCACATCCATACCTACTCCACGCCCTGATACATCAGACAAACTATCAGCTGTTGAAAATCCAGGTAAGAATATTAAATTTAATTTTTCTAATTTTGTTAGATTTTTCGCTTTAGCCTCTGTTATTATCCCTTTTTCTATACACTTCTTAACTATTTTTTCACTATCTATTCCAGCTCCATCATCTTCAATTTTTATTATAATATCATTTCCCTCATTTAATGCACTAAGTTTTATTATTCCTTTTTTATTCTTTCCAGTTTTACTCCTAATTTCTGGCATTTCAATACCATGATCCATAGAGTTTCTTATCATATGAAGTAATGGATCTGATAATCTTTCTACTATTATTTTATCTAGTTCTGTATCTTCTCCATGAATTTCAAATTCTACTTCTTTATTCAATCTTTTACCCAATTCTTTTATTGCTCTTGGAAATCTTAAAAATAGTTCTTTTATTGGAACCATTCTTAATTCTGTAACTTCTTTTTGTAATTCTATTGACTCTCTTTCTAAATGTTTATTTAATTTTTTTAATTCATCTATAAAATTAAATAGTTTTTTTAATTCCTTTTTATCAATACCTTTTTCTATTAATTCCATATATAATTTTTTTAATTCAATTCTCATCTGATTATATCTACTTTTATCTATTACTAATTCTCCAACTACATTTAATAAACTATCTAACTTTTCTCTTTCTACTTTCAAATATTCTTTCACTTTGACTTTTTTATTTAATTTTTCATTTGCTTCCACTTTTTTTGACTCTGCTTTTTTAGTTTTTTCCTCTTTTATTACTTTTGGTTTTTCAGCATTATTTTTTTTCAGTTCAGTTTTAACTTTATTATCAGACTCTTTTAAATCATCTTTTTTTATTTCATTTTCTAAATCTAAATCTTCTATTCTTTTTAATTCTTCAACAGTTGCCTCTTTTACATCTGAAACTAATGCTAGTTTTTTTATTGTATCCACATCTGTTTCAGAATCAATATATACAATTGATTTCTCATACTCTATTTCATTTTCTTCATCTTCTAATTTTTTAATGTCCGGCAATGAATAAATTATATCTCCTATTGAAGATAAATTTTGATATATTAAAAATAATCTTACATTTTTCATCATTGCATCTTCTTTTAATATAATTTGAATTTTATATCCTTTATCTTTTATCTCTTTTATTATTTCTGGTTCATTTATTACATTTCCAACTACTCTTTTTTTTGTATTTACATTTTTTGAAGAAATAACTTTTTTATTTAATATTTTATTTATTTTATCTTCAATAACACTAAATTTGATTCCTAAATCATTTTCAAAATCTATATCATCTCCACTTTTTTCTATTTTCTCTATCCCTTTTTCTAAATAATCCAACACCTTAAAAAGCATATCCATTATCTCATCATTTATTGAAATTTTCCCTTCTCTTACATCAGATAATAAATTTTCCGAAATATGTGTAAGCTTTTCTAAATTATGATACTCTAATATTCCTGAAGCACCTTTAATTGAATGAAAAGCTCTAAAAATAGAATCAATCATATCTTTGTTTGTCATTTCATTCTCAAGAACCATTAAACTTTCTACTATTTGTGACAAATAATCTCTTGCATCTGTAATAAATAGTGAAAAGTAATTTTCTTTAAGTTCGTTTATATCCATATTAATAGCCTCCAAAACTAATGATTTAATTGCTATTTAGGAATGGCTTAAAAATAACATTCCCATTTTGCTTTAAAATACGCAATGTTTTAGGAATGATTTAAAAACAACCTTTTCATTTTGTTTTAAAATATGCAATGGTTCAAGCGTTTTTATAACAAAATATATAAAATTATTTTTAAACATTATTTTTTAAACGTTCCTAGCCTCTTTTATCTCTTTTTTAAGTTCTTTATCCTCTTTTACTTTAAATTGACTTACTAATTCATTTAAATTTTCCGCTATATTAGACAATTCATCAGAAGATGCTGAAGCTTCTTCTGTAGTTCCTACATTCATCTCAATAATATGAGATACTCTCTCCAAATTAGTTACCACTCCATTTAATAATCCCATTTGTTCTTCTGATAAATCTTCTATATTTGCACTTCCTTGACTAATTACCTCTACAGCTTTACTTATCTCAGCAATTGCAGTTGCTTGTTCTTCCATTGATGTTGAAATATCTTTTACTTGATGATTTGTTTCTTGTATCTTTTCTATTATATTGTTTAATTTCTTTTCTGCTTCTTTTGACAGATCAGTTCCTTTTTTTACTTCTGTATATCCTATTTTTGTTGTATCCATTACATCTTTCACTTCATTTTGTATCCCTTTTATTAATTTTTCTATCTCTTTAGTTGCATCTTGTGATCTTTCTGCCAAATCTTTTATTTCATCTGCTACAACTGCAAATCCTTTTCCTACATCTCCTGCATGTGCTGCTTCTATTGCTGCATTTAATGCTAATAAATTTGTTTGCCCTGCTATTCCCTCTATTACTCCCACTATTTCTCCTATCTCTTCTGATGAATTTCCTAATTTAACCACTTTTTCTTCTATATTTTTTACCACATCTTCTATTCTTGCCATTCCTTCTAATGTTTTACTTACAGATTTTCCACCCTCTTCGGCCCCTTTTGCTGTCTCTTCTGATGTTTTCATTGTAAATTCAGAATTTTCTGCTACTTGTTTTATTGTTTGAGATATTTCTTCTACTGCACTTGATGTCTCTTCTACTGATGCTGTTTGGCTTCTTATATTGTCCATAACTTGTTCCATATTCACTTTTAAATCTTCTACATTTTTACCTAATTCATCTACTTCTTGTGCTTGTTCTTGTGAGCCATCTGCTATATTTTTCATTCCTGATGACAATTCTACAGATGATGAAGCTACCCTCTCACTTGTAAGATTCATATCTATTATTATATTTTCTAATTTATTTACAAATTCATTAAAATATTTAGCAAGTTCTCCAACTTCATCTTCTGTATTAACCTTCATACGCACTGTAAGATCTCCATCTCCTTGAGATATATCTTTCATCATATCTTTTACTGCTACTATATTTTTAGTTATTTTTCCAACTACAAATAATATTAATATTATTAATAAAATAGTAACTACACTATCAAATATATAATTTTTTACTTTTAAAAACTCTATTTTTTCTGTAAATTCTTTTTCTGGTGCAGTAAGACAAAAATACATGTCTAACATATCTATTTTACTTACAAAAACATATTTGCTTATCCCAGCAAAATTATATTCAACAAATCTTTTATCATTATTAATTACACTTAACATTGCTTTTGAAAGCTCTTTTGTGACTGTTACTCCACTTTGAACTCCTTCTTTTGACAAATTAACATTTAATACTAATTTAGGATCAGGATGCACAATTGTAAGCCCAGTTCCATCCATAATATAAACATATCCTGTTTTACCAAATTTTATTTCAGATGCTATTTTTTTCAAAACATCCAATTTTATAGTTAATCCTAGTACACCTGAAAGTTTTGCTTCTGTATAATAAGGAACAGCCATAACTAAAATCTGTTTTCCACTTGCTTTTGATATTACCACTTGAGTTGCAAAGTTTTTCCCATTCATTATATCTTTAAAATATTCTCTATCAGAGATATTTGCTACTACACCTGATGTTGTTGGTGCTTTCCCATCTCTATCAGCTAAAAAGAACATCTCTATATTTTCATCTTTTCTACTTATTTTTTCAAGCATTTTTATAGATTCATTTATATCTCTATTTTCTACTACCGCTTCTGACATCTCCAAAACTGTTTTCCTATCTATCAAAAAATTTGTTATACTATCTGAACCATCTTTAACTTTTGAAAATCCTTCTTTTTCGACTTCATTTCTTATTATTTTTGACGATTCATTCAAGTTATAAAATGTTACTACTATCAATGTAACTAATACCACTGGCAAAATTCCTAAAATAATTTTTGTTTTTACACTTTTAATTTTCATAATCTGTATACCTCCTATTTTTATTTTAATATAATTCTTTTATTCCAACTCTCTTTACTGTTATATATTTCAAAATTAATTTCTCTTATGTTATGTTTATAATTTCCCTCTTTAGATATTTTAATTTCATAATCATTATCTTTTGAAATAATCTCTATATCTATTTTTATATATTCACCTTTTTCATACTCTTTACTAACTCCATCATCATTATAATAGCAATAATTTGCTCTATCCTCTACAAATCCTATTATTGTCAAACTGTCTTCTTTTTTTTCTCCAACAAAATTTTGTACTTCTCCTATTACAACCAAACTATTTTCTTTTATAAAAATAGCTGTTTCTTCTATTTTACTTTTTATATAATGATACCCTTTATCTATTATTTTTACATCCCTTAATTTCTCTTTTGATAAATTCCATTGTAACCAATTTGTTTCAGGAAGATAGACATAGCGTCCTGTAGAATTTTGCTCATAAATAGGAGCTGCCATTAAATTTTCTCCTACTAAAAATTGATCCTCTATTTCATAAACATTTTCATCATTAAATTTCGTAAATAATGCATTAATATATCCTCTTTTTTCATTAATAGCTTTCATATATTCTGAATATATATATGGCAAAAACATATATCTTATCCTTATTATCTCTCTTAAAATTTCTCTTGTTCCTTCATCAAAAGCCCAAGGTTCTTGATTTCTTGTCCCTAAAGCTGAATGATTTCTATATAATGGCATAAAAAGTGCCGCTTGACTCCATCTAATAAGTAACTCTGCAGATGCGTTTTCTCCAAATCCACCTATATCTGCTCCGCTATATAAAAAACCTATTAAATTAACTGATATTGCCATTTTTATACTAAGTAATATATGTTCCCACCAGCTTTTATTATCTCCATACCAAATTCCACCATATCTTTGCATTCCTGCATAACTACTTCTTGAAAAAATCAAAAATCTTTTATCTGGATTTATTTCATCAAACCCTTCTGAAGCTGCTCTAGTCATATTAAATCCAAATAAATTATGAACTTTATCATGTAATATCTTTTCTCCATTATCCAATGTATGATAAAAACTTTTATAATCATCTCTATTGTTAGAAATAGAATTCATAACTTCATTTAATGCAAACATATCATAAATTCCTATATCATCTTTTAAACTTATCTCATTTAATTTCTCAAATGCCTTTTTTAATCCTTCTGGAGTGTAGAATATTGCAGGTTCGTTCATATCATTCCAAAACCCCTCTATTCCAAGATCAATTAACTTTTTATATTGAGCTCCCCACCATTTTCTAACTTTTGAATTTAAAAAATCTGGAAAATGTGTTTTTCCTGGCCACACAGCTGCTACAAAATCTTCTCCATTTTGATTTTTACAAAAATAATTGTTTTCTATACCATCTTCATACACATTATATTCACTTTCTATCTTAACCCCTGGATCAACTATTGGAATTAATTTTATTCCCATATCTTTTATCTCTTTTACAAAATTTTTAAAATCTGGAAATTTCCCCTCATCTACTGTAAATACTTTAAAATCTTTCATATAATCTATATCCATATATATAGTATCTACTGGAATATCATATTTTTTAAAATTTCCCGCAACTTCTTTTATAGTTTTTGAATCAGGATAACTCCATCTGCATTGCTGATATCCAAATGCCCATTTTGGTGGAACATAAGATTTTCCAGTTAATTCTAAATATTTTTTTGTAATTTCACTATAATTACTATTTTTAAATATATACATATCAAAATTCAGATCACTAATTTCAATTTCTAATATTTTTTTATCAGAAAAAGCTACGTCAAATATTATTTCTCCTGAATAATCTATAAATATCCCAATCTTTTCCGTGCCATTATCTATTATTAAAAAAGGGTGTGCTCCATATAATGCTTCTTTTCCTGGTGTGTGATCAAAATCATCTGTTGCATAGGTTTTATATACTTTACCTCTTCTATTTAGACTTCCTACCGCTTCTCCTAATCCATAAATTTTAGCACTATCATCTAAATTATATTTTATTTTAAAACTATTATCTCCTTTTTCTAATTCAATCCCCTCTATACTATTACCTAATTTAAACTTTTCAATATCCACACTTATAATTACAGCATCTGTTTTTATCGGATTTCCGAATTTATACAATTCTACATTTTTTATTATTTCTGCTTTTTTATACATTCTTCTCCTCCTACTTTTTTTCTAAATTATATCTAATTCTATCTCAAATATTTTTTTCTTAATTTCCTCACTACTTAACTCTAATTTTAAATGATTTTTCCCTATTTTTATATTTTTTTTATCAAAATTTTTACTATTTAATTTCAAATTCAATAGATTTTTCCCTATAAATTTAACTGTTTCTAACTCATTTAATTTTACTTCGTTTTCACAAATCTTTTTATCTAACAAATAGTATTTTATTTTTTCAAATTTTAATTCTAATTTTAATTTTTTCAAATCTTTTTCTGCTTCAAATTTAATTTTTATTTTATTAGTTTCATCATAAAAATATGTTGCTTTTAAATTTTGATATTTATAAACTATTCTGTTTTTATGGAAAACAGTAGCTTCATATTTATAATTAAATTTTATTTCTGAAATTACTGAGTCTTCTTCTTTATTAATTAAATATCCTAATTTTTCTTTTTGAAAAAACATATTAAAAAAACTATTCTCAAAATAAAGTTCATTTTCATTTTTATTAAATTTATAATAATTCCCTATATAATTTTCTTCTAATATAACTTCAAATTTCAAAATTTTTGTTTCAAATGGTTTAAATTCTAGATTAAAATTTTTAATATTTTTTAATATTCTTTCGACTTTATTTGTGACTATATTTTTTAATATATAACTTTCATTTTTTAAATTTTCTTTTAAAAATTCTTCTTTTAATTCTACATCTATATTTTTTGTAATTGCTGTAATATTTTGAATTACTAATATAAATTTCTCTCCTGATTGCTTTATGTACCCAACTCCACTTTTGTTTATCAAAACATATTTAAAATAATTTTTCCCTTTATTTAGTCTAATATATTTTTCTTCAGAAATCAAATTTTTTTTCATATTTTCAGTTAAATTTCCTAAATTCAACATAAACAATTTACTGTTATTAAATAGCTGTTCTGAAAAAGATTTTGATTTTGAAAAAAAGTCATATTCTTTATTTACATATCTTAAAGGTAAAATAGCATTTTCTATTTCAATATATCTATAAAAATTTTCTTTTTTTATCTTTCTCATATAAAAATCCTCTAATATATCTCCAATTCTTTTGTCTACAATTTTTGAATTATATTTATAAGCTAATAATCCTTTTTTATTTTTATATTTTTTTTCTAAAATTGTTTTTTCTGTAGGTCTATAAAATTTTTCTATCTCTTCTATTGATTCTAAATAATTTTCATCATAAAATTTGATATATTGTCCTCCAATAATTTTCTCTTGTTTCTTTTCTAATTTTTTATCAATTTTTATTTTATATGTTAAATCTAAATTTTTATTTTTATCCAGTTTTATATCTGCTGTTTCTTCATTATAATACCATATTGTTAAATTTTCTCTACTTTTTTTATTATTTATTATAACTACGCCACTACTATCAATAGGAGCTTTTTTCATAACTATTTTTTCAAAGTCATCATATATGAACTTTTTTTCCATTGGCAATATTAATTCAAATTCTTCATTAAATTTTATCCCAGACAAACAAACATTAAATTCTTTTAAAACCCCTTCAAATCTTGGCTTTATAATAAAATATCTTTCTAATGTTGTTCTGCTTATATATCTAATAATTTCTTTTAATAACATTTGTCTATCATCTGTTTCATATTCTATTTGTAACATTAATCCTTGTGGATTATATTTTACTTTTGTTACTTTTAAATTACTTTTATTATATTTTTTATTTTTAAATATAAAATTATAATCCTCATCTTTTTTATCTATTATAACAGTTTCCACATTTGCATCTTTTAAAAAAGTTATATATCCTTTTTCTTTATCAAATCCTAAAATATGATTTTTTAATCTGTATAGTGTTTCCATCGCTTCCTCCTAATATCGTTAGAGACCTCTTAAAAAGTCTCTTCTATAATTCATAAATTCACTAATTAATCTGTTTTTTTAGTTAAATAGTCTTTTTTTATATATTTAATTATACCATATGAATTTCTCTTTCTCAATAAAAAAATAAGCTACGCTTCATATGGTAGAGAATAAATATTTTTCTAAATTTTTGGCTTCTGAAAAATTTTGCCTTGAAAAATCGCATATTTCAAAAAAACGGCGTAGCTTATTTTCTGAATAAATTTATACTTTCCTATTAAATAAAAAAATAAGCTATACCTCATCTGATGAAGCATAGAACTTTTACTTTAATGGTTTTAAATTTTTTTCTTTGTGTGACTTTGCGTTCTTCTTTCTTTGTGCTGAAATTATTTTTCCTATAAAAACTTGACACTATCATTCTATTTATATATTGACTTTTTCATATTATTATATTATAATATGAAAAAGGAGGTGAGTTATATGTCTGTTATAGTTTATTCTACTAATACTTGTCCTTATTGTGATATGACAAAACAATTTCTTTCTGAAAAAGGAGTTCCTTTTAATGATATTAATGTTGCAGAAGATCCAATCGCAGCAAGAGAAATGGTTTCAAAATCAGGACAAATGGGCGTTCCTGTTATTGATTTTAATGGAACTATTGTTTTAGGATTTGATAGAGCAAAATTAGAATCTTTAATTTAAATAAAAAGAACCAGTTTTATAAAAAAATTGGTTCTTTTTATTTTTTAATTCTTTCATAACTTTTCAATCTAATTATTCTATCTATTTTAATATATATTAAAAATGCAAAATCATATCCATTTTCACATCATATTCATCTGCATCAATTTTATCTACGATTTGGAAATCATATGCCACTCCTACTTTAATCCCTTTATAATTTTTTAAAAATTTGTCATAATACCCTTTTCCAAAACCAATTCTATTATAAGATTTATCAAATCCAACACCTGGAACAATTATTAAATCTATTTTTTGTTTCTCTATAACATCTCCAATAGGCTCAAGAATATTATATTTTCCAACTTTCATTTTAGATAATTTTTTTACTAAAATAGGTTGTATTTCATCATTATTATCTATTATTGGCAATACCAACTTTTTTCCATTTTTTATTATTGCTTCATTAAACCATTTTGTATCAACTTCATTTTTTATACTCATATATGACATTATAATTTTGCTATTTTTATATTCTTTAGTTTTAATAAAATTTTCAAATAACTCTTTACTATATTTTGTTACATATTCAAATTTTAAATTTCTTCTGTTTTTTAATAACTCTTTTCTTAATATATTTTTCATCTTTAACTCCTCTTCGCACTCATAATCTCATTTAGAAACGTTTAAAAAATAAGTTTCTTATATTTTAATCCATTCCTTATTAACAAAGAACAGCGATAGAATTATCTATCGCTGTTCAAGTTAATTATTTTGTATAATCTATTTCTGCAAGTCTTCTATAACTATTATATCTCCATTTTGCATCTTCAAGAGATTGTGCAAATAACACATCTACTTTTTCTGGGAATGTTTTCATTAACGATGTAAATCTAACTTCTCCATTTAAGTATTCTAAATATTTATCCCAATTTGGTTCTTTAGAATCTAATTGGAAAGGATTTTTTCCTGCTGCTTCTAATTCAGGATTAAATCTATATAAATGCCAGTATCCTGATTCTACTGCAAGTTTTTCTTCTAATTGAGATTTACCCATACCTTTTCTTATTCCATGATTAATACATGGAGCATAAGCTATTACAATACTTGGCCCTGGATAAGCCTCAGCTTCTCTTATAGCTTTTAAATATTGAGCTTGATTAGCACCCATTGCTACTTGAGCTACATATACATAACCATAAGACATAGCTATTTTACCTAAATCTTTCTTTCTTATTGGTTTACCAGATGCTGCAAATTTTGCAACTTGTCCAGTAACTGATGCTTTAGATGCTTGTCCACCTGTATTTGAATAAACTTCTGTATCAACTACTAATACATTTACATCCATTCCAGAAGCTAGAGCATGATCAACTCCACCAAATCCAATATCATAAGCCCATCCATCTCCACCAAAAATCCATACAGATTTTTTAACAAAATGTTGTTTAGCTTCTAATAATGTTTTAGCTAATTCAGTTCCATCTTTTTCTAAAACTTCAGTTAATTTTGCTGAAGCTTCTTTTGAAGCATCTGCATCATGCATACCATCAATCCATGCTTTAAATGCTTCTTGCATTTCTGCTGATACTGTATCCATATTTGATGTCATTGTTTCTGCAATCATATCTCTTTGTTTTTCTACACCCATTGCCATACCTATTCCATATTCAGCATTATCTTCAAACAATGAATTTGCCCATGCTGGACCTTGTCCTTCAGCATTTTTGCAATATGGAGTAGATGGAGCAGAACCACCATAAATTGAAGAACATCCAGTAGCATTTGCTACCATCATTCTATCTCCAAATAATTGAGTTATTAATTTTATGTATGGAGTTTCTCCACAACCTGCACATGCACCAGAAAATTCAAATAATGGTTGTGCAAATTGACTTGCTTTTACACTACTTTTCTTATCCATAATTTTATCTTTATAAGTTACATTATTAGCTAAGTAATCCCAATTTTTAGCTTCATCTCTTTGTGTATCTAATGGTTTCATTACAAGTGCTTTGTTTGGAGCTGGACATACATTCGCACAACTTCCACATCCTGTACAATCCATTACACTAACTTGTATTTTATATTGTAATCCATCAAATCCTTTTCCAAGAGGTTTTTTAGTTTCTAGTCCTTCTGGTGCATTAGCCATCTCTTTTTCATCTAATAAGAATGGTCTAATTACTGCATGAGGACATACATAAGCACATTGGTTACATTGAATACAATTATCTACATTCCATTCAGGTACACTTACTGCAATTCCTCTTTTTTCAAATGCACATGATCCATTTGGCATAGTTCCATCAGCTGCATCAGCAAATAAGCTTACAGGTAAATCATCCCCTTCAAGTTTATTAATTGGTTTAGCTATTTTTTCTACAAAGTTTGCTAAAGTAGGATCAGATATATTTGAAGCTACTACCTCTTTTTTATCTACAACTAAATCTTTCCATTCAGGTTTAACTTCAACTTTTACAAGTTCTTCTCCACCTTTTTCTACTGCTGCATAGTTCATTTTAACTATATCTTCACCTTTTTTACCATAAGATTTAACTATTGCTGATTTTAAATATTCTACTGCATCAGCAAAAGGTACAACTTCAGCTAATTTGAAGAATGCTGATTGCATTATTGTATTTGTTCTATGTCCTAATCCAATCTCTTCTGCTATTTTTGTAGCATTTATAATATAAAAATTAACTTCTTTTTCTGCTAATTCTTTCTTTAAGTTATTTGGTAATCTTTTTAATGTTTCTTCAGCATCCCAAATACTATTTAATAAGAATGTTCCACCTTTTTTAATTCCTTTTAATAGATCATATTGACCTAAATATGCAGGAACACTACATGATACAAAATCAGGATGATTAACTAAATATATAGAAGTAATTGGTTTTTTACCAAATCTCAAATGAGAAACTGTACTTCCACCTGATTTTTTAGAATCATATGAAAAATACCCTTGAGCATACATATCTGTATTATCCCCAATTATTTTAATTGAGTTTTTATTAGCTCCAACTGTACCATCTGATCCAAGTCCAAAGAATTTACATTCTACTGTTCCTTCAGGTACTGTATCAATTTCATCTCCTAATGGTAATGATGTGAATGTAACATCATCTACTATACCTATAGTAAATTGATTTTTTGGTTCACTTCTATCTAAATTTTTATATACTTCAACTATTTGAGATGGAGTTGTATCTTTTGAAGATAATCCATATCTTCCACCAACTATTGTAGGTTTTACTTCTTCATCATAAAATAATGCTCTTACATCAAGATATAAAGCTTCTCCTAATGCTCCTGGTTCTTTACTTCTGTCTAAAACTGCAATTGATTTTACTGTACTAGGCAATACTTCCATGAAATATTTTTTTGAAAAAGGTCTATACAAATGAACAGATATAACTCCTACTTTTTCACCTTTAGCCATTAAATAATCAACTGTTTCTTTTATTGTTTCTGTTACAGAACCCATTGCTATTATTACTCTTTCAGCATCTGCTGCTCCATAATAATTGTATGGTTTGTATTCTCTACCAGTTAATTTTGATATTTCTTTCATATATTCTGCAACAATATCAGGAACTGCATCATAATATTTATTAGAAGCTTCTCTAGCTTGGAAATAAATATCAGGATTTTGTGCTGTACCTCTTGTTACTGGATGCTCTGGATTTAATGCTCTTGCTTTAAATTCTTTTATTGCATCATAATCTACTAATTTAGCTAAATCATCATAATCCCACGCTTCAACTTTTTGTATTTCATGAGATGTTCTAAATCCATCAAAGAAATGTAAGAAAGGAACTCTTCCTTTTATTGCAGCTAAATGTGCTACTGCTCCAAGATCCATAACTTCTTGAACTCCTCCTGATGCTAACATTGCAAATCCTGTTTGTCTTGTTGCATATACATCAGAATGTTCTCCAAATATTGATAAAGCATGTGTAGCTATATTTCTTGCTGATACATGGAATACTCCAGGTAATAATTCTCCAGCAATTTTATACATATTCGGTACCATTAATAATAATCCTTGTGAAGCTGTATAAGTTGTAGTTAATGCTCCTGCTTGAAGTGCTCCATGGACTGCTCCAGATGCCCCTGCCTCAGATTGCATTTCTACTAATTTTACAGTTGTTCCAAAAATATTTTTTCTACCATGTGCTCCCCATTCGTCTGTATACTCAGCCATTGGTGATGATGGTGTTATTGGATATATACCTGCTGTTTCTGTAAATGCATACGAAACATGAGCTGCAGCCATATTACCATCCATAGTTTTCATTTGCTTAGCCATTAATTTCTACCTCCTTAAGATTTTGTTTTTCTTTGTTTGTTCTATATGTTAAATATTGTGTTTCTTAACTATTTCATATGTATCTTTTGCTATCATATATTCTTCATCTGTTGGCATAACTAATACTTTTACTTTTGAATCAGTTGTAGAGATTATTTTTTCTTCTCCCATTACTTTGTTAGCTTCTTCATCTAATTGTACACCAAGCCAACCTAATTTTTCAACTATTTTTTTTCTTACTGGTACAGAATTTTCTCCAATCCCTGCTGTAAATACTACTGCATCTACTCCATTTAATGCTGCTGTATAAGCACCAATATATTTTAATACTCTATATGTATATACATTTAAAGCATTGTTAGCTTTTTCGTCTCCTTCTGCTGCTGCTTTTAATATATCTCTCATATCACTAGATATTCCAGATAATCCAACAAGACCACTTTCTTTATTTAAAACTTTGTCCATCTCTTTAGCTGTTAAATCTTCATTATTCATAAGAAACGGCAATATTGCAGGATCTAAATCTCCACAACGAGTTCCCATAACTAATCCTTCTAATGGCGTAAATCCCATAGAAGTATCTACAACTTTACCACCATCTATTGCTGTAATACTTGCACCATTTCCAATGTGACAAGTTATAACTTTTAAATCTTCAGGTTTTTTACCTAAAAATTCTGCTGTTTTGTAAAAAACATATTTATGAGATGTTCCATGGAAACCATATCTTCTTACTCCATATTTTTCATAATATTTATATGGAATTGCATATAAATATGATGTAGCATCCATTGTTTGATGGAATGCTGTATCAAATACTGCAACTTGTGGAGTATTTGGCATAATTTCACTACAAGCTGAAATTCCCATTTTATTTGCTGGGTTATGTAATGGTGCTAAAACTTCACATTTTTCTATTGCTTTATAAACTTCATCTGTTACAAGAGCTGATTCAGAAAACTCTTCTGCTCCATGAACTACCCTATGTCCCACAGCATTAATCTCATCCATAGATGATATTACTCCTGCTTCTTTATCTACAAGTAAATTTAAAACTATCTTCAATGCTTCCTTATGATTATTTAAATCTTGTGTTAGCTCTTTTTTAGCTTTTCCTGTAGGTTTATGTGTAATTACACTTTTATCTAATCCAATTCTTTCTACTAAACCTTTAGCTAAAACATCTTCTGTTTTCATATTAAAAAGTTGATATTTTAACGAAGAACTTCCACTGTTTAACACTAATACATTCATAAATTTATCCTCCTTATTTAGCTTCAACAGCTGTTATTGCTGCAACATTTACAATATCTTCCACACTACATCCTCTTGACAGATCATTTACTGGTTTTGCTAACCCTTGTAAAAGTGGTCCATAAGCTCCTGCATTTGCTAATCTTTGTGTTAATTTATAAGCAATATTTCCTGCTCCAAGATCTGGGAATACTAATACATTGGCATTTCCCGCTACATTACTTCCTGGTGCTTTTTTAGCTCCTATTGCTGGGACTATAGCTGCATCAGCTTGTAGTTCACCATCAAATTCGAAATCTACATCTCTATTTTTTAATATATTAACTGCTTCTATCACTTTATCTGCATCTGGATGTTTTGCACTTCCTTTTGTAGAAAAAGATAACATTGCAACTTTTGGTTCCATATTAGCTAGTTTTCTGCTTAACCATGCTGCTGATGTAGCAATATCTGCTAGCTGTTCAGAAGTTGGATCTGGAACAACTCCACAATCTGTATAAAATAAAATTCCATTATCTCCATAAGTAGGTTCTGGCATAACCATCATAAATGAACTTGAAATTGTTTTTATCCCCTTTGCGGCACCAATTACATGTATGCTTGCTCTTATTACACTTGCAGTAGGTGAATTTGAACCTGCTACCATTCCATCTGCATCCCCCATTCTTATCATCATTGCACCAAAATATCTAGGTTCAGTTGTAAGAATTTCTAATGCTTGTTCTTTTGTCATCCCTTTTTTTTCTCTTAATTTTACAAGTTCATTCACATAAACGTCCATTTTTTCACATTTATTTGAATCAACTATTGTAGCCTCTTCTAAATTTATTCCTAATTTTGTAGCATCAGACTTTACAATATCTTCTTTTCCTATAAGTATCACTTTTGCAATACCTTGTTTTAAAATTATTTCTGCTGCTTTCAATACTCTCTCATCTTCTGTTTCAGGCAAGACAATTCTTTTTGAAAGTGATTTTGCTTCTTTTAATATTTTTTCTATTATTCCCATAAATAACCTCCTCACAAAATTATAGCCGACATTAATGCCGGCTATTTTGTTAAGTATATTTTAACACATTTTATATTTTTTTTACAAGTAATTTTTTTTAATTTGTTATATTTTTATCGATTTTAAAAACATCCTAAAAATAAATTATCTTTTTTATAATAAAAAACTCAACGTATTAGGCAATTTTTCATTATAAAATTTATTTCTAAAATACTACTTATTGATTCCTATAACTAACTGCTTCTAAAATATGCTCTTTTTGTATTTGTTCACTCTCATTTAAATCTGCTATTGTTCTTGCAGTTTTTAATATTTTATCAAATCCTCTTCCTGATAATCCAATTCTTCTTGAAGCTAATTTTATAAGTTCTTCACTTTTTTCATCTAATTTACAATATTTTTTTATATCTCTACTTGTCATATTTGAATTAGTTTTTTTACTTTTAAATCTACGTCTTTGTATATCTCTTGCTTTTTCCACTCTTAATTTTATTTTTTCCGAAGATTCCCCCTCTTTATAATTTAGTAATTCCTCTTCTGATAATCTTCTTATTTCAACATATAAATCCATTCTATCTATAATTGGGCCTGATAATTTTTGTTGGTATTTTTTTACTTCTGAAGGTGTACAGGTGCATTGTTTTGGAGAGTCGCTTGTTTCATATAAAAATCCACATTTGCACGGATTTGCTGCTGCGATTGTTATGAAATTTGCGGGCAAAGTTACATTAAATGCCGCTCTTGATATGCTGACTATTCTATCTTCTAATGGTTGTCTTAAAACTTCTAACACTTTTCTTGGAAATTCTGTTAATTCATCTAAAAATAGAACTCCATTATGTGCAAGAGATATTTCACCAGGTCTCGGAACTCTTCCACCTCCAATTAATGCAACATCAGAAGCAGTATGATGAGGCGACCTAAAAGGTCTTTTTCTTATAATTGGATTTTTTTCAGTTAATAATCCTGCTATGCTATATATTTTTGTTGCTTCTATAATATCTTCATCTGTCATTTCAGGTAAAATTCCAGGTACTCTTTTGGCAATCATACTTTTTCCAGAACCAGGGCTTCCTATCATTAATAAATTATGTCCTCCTGCTGCTGATATTTCTACTGCTCGTTTTGCTTTTTCCTGCCCTTTTACATCTTTAAAATCATATTCAATTACATTGTTTTCAATATGATTTTCTATCTTTATATTATCTAAATTTATCTCAATATCATCATTTAAAAAATCAATAGCTTCATTTAAATTTTTTACTGGAACTATTTTTATTCCTTTAATCATTTTAGCTTCTTCATAATTTCCAAATGGTAAAATTACACCTTCTAATCCATTCTCTTTTGCTGTTATTACACTATTTATTATCCCTTTCACTCTTCTTATTTCTCCACTAAGCGATAATTCTCCTACAATTAAATATCTATCTAATTTATCAAATTTTATCTGTTCTAAAGATGCTAAAATCCCTATAGATATTGGCAAATCAAAATAACTACCCTCTTTTTTCATATCTGCCGGAGATAAATTTACTATAATTTTTTTAGGGGTTAAACTAATGTCAGAATTTTTTATAGCTGCTCTAACTCTTTCTTTACTCTCTGAAATTGCAGCATCTCCAAGTCCAACTATTGTAAAGCTAGGAAGTCCTCTTGCTACATCAACTTCTACTCCAACTATAAATCCTTTTACCCCTATAAAGCTACTGCTTATTATCTTTGATAACATAATATATTTAGCCTCCTCAGCCTTTTTATTTGTTAATTTTTAAAATTATTATATTTTCATATTTTCCAATTTTTCAATATCTAAAATTATTATTTTTTTATCTTGTATATCTAATATACCTTCTCTTTTTAATTTACCTATCATTCTTGTAACTGTCTCTCTTGTTACACCTAGCATATTTGCCAAATCTTTATGAGTCAAATTTATATTTAATTTTATAGTTCCTTTATGTACTACTCCATATTTTTCGCTTAATTCCTTTAAAGTTTCATTGAATCTAGCATATACATCTTTAAAAGTTAAAACTTCTACTTTTTTATTTAATATTCTTACTCTATCTGATAACGTTCTTATAATATGCATTGTTACTGAAAAATTCTTTTTCAAAAAATCTAAAAATTCAGTTTTATAAATTGCATATAGTTCTATTTCTTCCATTGCTTCTACTGTAGCAGATCTCATTTCACTATCTAAAAGAGCCATTTCTCCAAGAAAATCTCCTTCTGATAATATTGATAATATTTTTTCTCTACCGTCTTCGGATAATTTTAATATTTTAACTTTTCCACTTTTAATAATATACATAGAGTCACCTTTATCACCTTCAAAAAATAAAATTTCACCTTTTTTTAAGGTTTTTGTATATACAATTTTAGATAATCCAAGTAAATCCTCTTCTGACAAATCTTCTAATATTACCATATCTCTCAAAAATTCTAAATCCACTTTAAATTCCCCCACCAATATGTCTTCTTTTATCTAAATTCAAAAAATCAGGCTTTATAACTCAACCACAAAAGGTAATTCCCTAAATATCTGTGAGTTAAACATTTTATAAAATATTTTTCAAAATCGAAATAAGTTTATCTATATCATCTTTATCTATATTATAATTAATTGAAATTCTTAATCTAGCTGTCCCGCTTGGAACTGTTGGTTTTCTTATAGCTGAAACAAATAAATTTTCTTCAAATAATTTCTGTGAAATCTCTAATGCTTTTTTTTCTTCTCCTATAATTATTGGAATTATTTGAGAACTACTATTTTGAGTATCCAATCCCAATTTTAATAATTCTTTCCTTAAATAGTCTGAATTTCTCAAAATTTTCTCTCTTCTTTTAGCCTCTTTTTTAATTATTTCCAAAGATTTTAATGCAGCTCCTATTGCAGAAGGTGCTATTGCAGTAGTAAATATAAAGCTACGACATCTATTCACCAAATATTCTATAATATCTTTTTTCCCAGTAATATATGCTCCTTGAGTTCCAAATGATTTCCCTAATGTTCCCATTGTTATATCTACTTTTCCCAAAACATTTTGTTCTTCCGCTAATCCAATCCCATTTTTACCAAATATTCCTGTACCGTGTGCTTCATCTATCATAAATAAAAAATCATATTTTTCTTTTAATTTTGCAATATCTTGTAAATTTGCTTTATCTCCATCCATACTAAATATAGAATCTGTTATTACTAATGCCTTTTTATAGTTTTTCCTGTTTTTTATCAATTTATCTTCTAAATCATTTATATCATTATGCTTATATCTAATTAATTTAGATTTACTCAAAAAAATACCATCTATTATACTTGCGTGATTTAATTTATCTGAAAATATCACATCATTTTTATCCATTATAGTAGATATAGAGCCTAAATTTGCATCATATCCACTATTAAATAAAAGTGTAGCTTCTGTATTTTTAAAATTCGATATTTCATTTTCTAATCTATTATACAGTTCATTTGTTCCTGTTACAAGTCTTGATGCTCCGCTTCCAACACCATATTTTTTTATAGCTTCTATTGCGGCATCTTTTACTCTCTCATCATCTTTTAATCCTAAATAATTATTAGATGAAAAATCAATATATTTTTTGCCATTTATATAAATATATTTCCCATTACTATTACTTATCTTTTTTATCTCACGAAACAGATTCAAATCTTTTATTTTCCTTAACTCTTCTTTGAAAAAATCCATTTTAACTCCACATTTTTTTTAAATTTTTAATAAAATTTTCATCTTCTTCTACGCTTCTGCCTTTTAATGTTAAATATCCGCCTACTAAAAGACCATTTGCCCCACTCATAAATGCAAGTCCCATAAAATCTTTTAATATTGTTTCTCTTCCTGCAGCTATTTTTATTGTTTTATCTTTTAATATTATTCTGAAAATTGCTACTGTCTTTAATATTTCATCTACTGATAAAATCTCTCTATCTCCCATTGGAGTCCCTTTTATTGGATTCAAAATATTTAATGGAATAGAATCAACCTCTAATTCTTTTAAAGTAAATGCCATATTTACTCTATCTTCATAACTTTCTCCCATTCCTATTATTCCACCACTACAAACTTTTAATCCAGCTTTTTTAGCTGCTTTTATTGACTTTATTCTGTCCTCTACTGAATGTGTAGTTGCCACAATTTCTCCATATTTATCTATTGAAGTTTGAATATTATTATGATATCTTGTAAGTCCTGCTTCTTTTAATTCTACAAACTCTTCATAATCTAATAACCCTATTGATGCACAAGGCTTTGTTTTATCTCTATTTTTTAATAAAAATTCTTTTATTTTTTCAAATTCTTTACTACCTTTTTTTATAGATTTTCCACTTGTAACTATTCCAAAATTTTCAGAATTTAGTTCATTTGCTCTTTTATATTCCACTTCTAATGTTTCTTCATCTTTAAATTCATAAGTTTTTAAATTGGTATTATAACGAGCTGATTGAGCACAAAATTTACAATCTTCGCTACATTTCCCTGATTTAGCATTTGTAATTGTACAATGATGAATTTCATTCCCACAATATTTTTCTCTTATTTTATTAGAAACTGTAAATAGTTCCATTAATTTTGAACCTTTTAAACTAAATAATTTTACTGCTTCTTCTTTTGTTATTTCATTATTAATATATTTATTCATTTTCACACTCCAAACTTTATCTTTTTACTTTATTATGCAATATTTTATAAAAAAACTCAAGTAATTTTTTTAATTGGCATATAATGTATACCATAACAATATGATGCGGTACATTCAAACTAAAAAACTACTCATATGGTTTTCAATTATTGTAATTCAAAAACAAAATTTATGTTATAAAAGAATTTGAATTTAAATCAGGATTGAAATTTTATTATTATTTCTAAACTGTAATTTTATTAAAAATTTCATCATTTAACAAAAATTCTTTCAGCTTATCTCTATTTTCAATTTCAGATAATATAGTATAAAAATTTTCTTTAATATTAATAGATTCATCAATTGCTTTTCCTCCGCCAACTGCCACAATAGCTTGTGTTCCAGTTGGAATTTTTGAAACTAATTCAAAAATATCATCTATATTATTATTTTCTATTATTTTTTCATAAGTAACATTTATTTCCGAAGAGTCAAAAGAGATTGAAATTTTATCATATGTAAATTCTTTAATCCCCTCTCCAAAAAATAGTGCTACTTTATAAAATCCTTCCTTTCTTAAATACTTTCCTATTTTATATAATGCATTTGGTTTTATTCTTAATATTCTTGGTATTGATATTCTCATTTTTACACCTCTTATTTTTTATTTTTCTAATATTTCTAATTCCTTGTTTATCTTTTCTAAATTAACTTCACTTATGTTATTAAAAATATAGTTTGGTCTGTATGGAAATTTATTTAACATCTCTTTTGTGCTAACTCCTGATAACACAAGACAAGTTTTCATTCCAGCTTCTAATCCTCCTATTATATCAGTATCCATTCTATCTCCTATCATTAATGTTTCTTCTGAATGCACCCCTAATTTCCTTTTAGCTAAAGTCATCATTATAGCATTTGGTTTCCCTACTACAAATGGAGATTTCCCCGTAGCTCTTTCAATTGGGGCAAGTAATGCTCCACAAGCTGGTTCTATTCCATTTTCTATTGGGTCTATTACATCTGGATTAGTGGCTATAAATTTAGCTCCTTTATTTATTAACTCTACTGCTTTTTTTATCATTTCAAAATTATAACTTTTAGTTTTTCCTACTACTACATAATCAGGATTATTTTCTGAAATAGAGAATCCAACTTTATATAATTCATTAATTAATCCTCCACCACCAATTACATAAGCTGTTCCGCCAGGTTTTTGTTCTGATAAAAACATAGCTGTTGCCATTGCAGAAGTTATAAAATTCTTTTCTGTTAATCCTTTTATTCCTAATAGCTCTAATTTTCTAATCAAATCAATAGCAGTTTGTTCTGAATTATTAGTTAAAAATAAAAATTTTATATTATTTTTCAATAAATTTTCTACGCACTCTTTTGCACCTGGAATTAAATTTTTCCCTCTGTATATTACTCCATCCATATCTGATATTATATTTTTTATAGCCATAAATATCTCCTCCGAATTTTTTTAGTTGTTTTAATTTAATTATACATTGTTTTTTAATATTAAGCAATAATCGATTTTTTGTATAAAAAATTTTAGAAATTTCAATTGAATATTAAGCCTGCATTGCTTAATCCAAGTTTCACATTTACCACTAAAAAACTTTTGATATAACTAAATATTTAAATAAAAAAATAAGCTACGCTTCATAATGTAAAGTATAAATGTTTTTCAAAATTTTTGGTTTCTGAAAAATTTCGCTTTGAAAAATTGCATATTTCAAAAAAACGGCGTAGCTTATTTTCTGAATAAATTTATAATTTCCTATTAAATAAAAAAGGCTGCCCATATGATAATGCAGTTGTAGAAGTAACATTTAAAATTGTAAAAACAGAACTTACATTTAATAGAGTATTAAACTATAAAACACCAGCAGAATATAAAGAAAATATGTCCAAGAAAAAATTGTGTTGACAATCCAAACATAAGAAGCAATACGATTATTGACTAAATTTCCAATATGGATGGATTAAAATTCATTGTATATAAATACTCCTGCTTGCCCATTTTCATTTACATTCCAATATGGCTAGATTAAAATTCTGCAAAATGCTTTAACTCCAACTCATTAGTAGTATTTACATTCCAATATGGCTAGATTAAAATATGTCAGTAGATGAAACTTTTGTAAGTCCAGTTCCTTTATTTACATTCCAATATGGCTAGATTAAAATGTCTATAGTTGCAATTGTTGTATTTGTTTCTGTTATTATTTACATTCCAATATGGCTAGATTAAAATTTGATTTATTTGTAAAATTAGGTTTAATGCAGAAGAATTTACATTCCAATATGGCTAGATTAAAATCAAGCTTATTATGTATATTATCTATTTCAGATATAACATTTACATTCCAATATGGCTAGATTAAAATTGCACTAAAATAATACTTGACTTACCCAATGTAACTAATTTACATTCCAATATGGCTAGATTAAAATAAAACTTTAATCATTTAAAACACCCCCAAAAAATTTTATTTACATTCCAATATGGCTAGATTAAAATAGAATTATCATCATCTACATCTGCTATACTAACATAATTTACATTCCAATATGGCTAGATTAAAATAAAAAGGTATTTAAAAATAAAAAAGAATTTGATAATATTTACATTCCAATATGGCTAGATTAAAATAGCAACTCTTATATTAGAAGATAAAATTGTTAATTTATTTACATTCCAATATGGCTAGATTAAAATTTTTGTAGTTATTATATATAAAGCAATTGATTTATATTTACATTCCAATATGGCTAGATTAAAATTTTGTCTCTAAATTAATTGTGAAATCATCTAATGTAATTTACATTCCAATATGGCTAGATTAAAATAGCTTTAATAATTCCATTTTCTTTTGATTCAATAAAATTTACATTCCAATATGGCTAGATTAAAATGATGTATTAGTAAATGATATAGATTGGTCTGTGAGAGATTTACATTCCAATATGGCTAGATTAAAATGCTTGTTTTGTGCTCCCCATTCCTGTAGTATGTGCATATTTACATTCCAATATGGCTAGATTAAAATATAAGTCCGAGAACTTGCCTCTAATTGATTTTTGATATTTACATTCCAATATGGCTAGATTAAAATTAAAATTTTAGTCATCAACTCATAATCCGCATAAAGATTTACATTCCAATATGGCTAGATTAAAATTTAAATGACAGTGAAAATAACTAACTGGAAAGACCAGATTTACATTCCAATATGGCTAGATTAAAATATTAATAAAAGAAACTAAAAAAAAAAATGAAAATATTTACATTCCAATATGGCTAGATTAAAATCCAGCTTTCATCTTTCCATCTGTATAATGTTGTCAAATTTACATTCCAATATGGCTAGATTAAAATTGTGTATGAGTATTTTTTTTATATTATGTTAAAAGATTTACATTCCAATATGGCTAGATTAAAATGGCGACGTCATTAATGTTGGCTCAAATGCATTCATTATTTACATTCCAATATGGCTAGATTAAAATTCCTCAAGGAAAAAAAGCCACAGCTGAATATTAACATTTACATTCCAATATGGCTAGATTAAAATTGTAAATGGAAATTATACCCCACAAAATTGTAGAATTTACATTCCAATATGGCTAGATTAAAATTTATTCCTTCCATTTTTATCACTCCTTTTGTTTGATTATTTACATTCCAATATGGCTAGATTAAAATTCAGCAAGAACCACTACAATAGATGAGGTATTTTTAATTTACATTCCAATATGGCTAGATTAAAATCCCAACAACTCTTTTCATATAGCTTTTTACTCCCGCATTTACATTCCAATATGGCTAGATTAAAATTTAACACCATTAATATATTCTGTTAAAGATTGCTCAATTTACATTCCAATATGGCTAGATTAAAATTTTTTTATATTTTATAAAAAGAGTAAAAACTCATAGATTTACATTCCAATATGGCTAGATTAAAATTTAAAGATGTGTATGATAAATATATTATATCTGAGTTATTTACATTCCAATATGGCTAGATTAAAATAGTTGCCAAACTTTTTTTCTCACTTTTTTTCATTGATGTTCCATTTACATTCCAATATGGCTAGATTAAAATTCTTAGAGGAGAACCATTTAAAAAACAAATCCAAAATTTACATTCCAATATGGCTAGATTAAAATTTAGAATTAACAGGCGAGGAAAAAGAGTATGAAAAATTTACATTCCAATATGGCTAGATTAAAATACGTGCTCTTATTTTACCACTCAACCCCTTTAAAATCAAGCATAAAATTCTTATTTCTGTCGACCTCAACACTTTCACACCTTTTTACAACAAAAAATTTATTTATTTTCCAATGTACCAACAAAATCAATGTCTTGCAAAACTGTCGATGCCCAAGTTTTTTTCCTCTACTACAGGTCGACAGTTTTTTTATTTAAAATTCAATTCTTAATAATATTATAGCATATGCCAATTTAATATTCAATGCTGTCAACATTAAATTAAGTGATTTTTATTTTATCTTCTTAATTTATGGCATTCCACAAAATTATAATATTATCATCTCTCTTAAACTAACAAATAATTTATTTTATTTTATATTTTTCTTTCATTATATTCCATTTTTCAATTAAAATAGGGTTTAATTCATTATAAATTTTACTATCTAAAAATAATTTATAATTTGAAATACTACATTCATATTCTATCCATAAATTTAAAATTTGAGGTTCATATTTCCCTATTTCTTCTATTTTTAATTCATTAAATAACATTATAATTCTATTAAAAATATCTTCTGTATTTTTATTATAATTCCAAACATTAATTGTTTTCATTATAAATATCTTCGACAAAAACAGCTGCAAGATTGGTAAAGCTATCTGTGAATTTGCGAACCCTAAAACAGAAAATCCTATTATTATAATTCCAGGAATTATAGAATTATATAAAACTTTCTGCTTCATTTTTTCAGATATTTCTTTAGAAAAAAAAGTATTTTCAAATAAATTAACTATGGTTTTATAAAGTCCTTCTTCTATTTCTTCATTATCATAATATCCTTCTGAATTTTCATAGTGAAGTTTACTTCCAAAAGAGTTATCTATAAAGTCTCTCCTTCTTATTATTTCTCCTTTTTCTCTATAAAAATCAATTAAATACTTTAAAACTCCTAAAACAATTATAAACAAAATACTTAATATATTAACCAATATATCTAGTTTAAGAAATATAAAAATTATCGATAAAAAAATTATTAATATAAATATTTTATTATACCATCTATCTAAATATAAAGATTTCATAAAAAAATTTGTTTGTGGCGATGATTTTGCCATTTTTTTACCTCCTTGTTTCATCATTCAAATTGCCCATATCCTACATTTGTTTTTGCTCCAATACCTAAGTCTAATAATATTTCTTCGAATAAAGATTTTTTTTCCTCTTCTCCCAAGATACCTTCTTTTAAATCAAATTTAAATTCAAAAACAGCTCCTGGAGCAACTTTTAAAAATCGCAAAGGTTTTGGAGCTTTTAATGGGTTATCTCCATGTGGACATAAATAATCATCTTCAAATATTTTATCTTTTACTTCTACTATTTCTGCATCATAAAAGATATCTCGATCTTTCATTGGTATTTTTTCTCCACCTTTTATACCTTCAAATATTTCTAATTCAATCTCTTTTAATTCTTCAAAAGAAAAATCCTTACTTAAAATCTCATTAATATACTCTCTTTTTCCCTCTCTTTTTTCCTCATCATCTTTTTCAGAAGGAAATACACTCCTTAATACACCTTTTATAGATGAACCTGGAATCACAGGTAATCCTGTAGTATAATCAAAGAAAAAACCAAGTTTAAAATCTTCTTCCAATCCACTATCATGATTATATCCACTTCCAATTAAAAGACCTGGATAAGTTATTTTTAATTTAAAAGTTTCTAAGTCTTTAACTTCTTCTTTATTCGTTTCTGTATTTAATTTATGGCTTAAAATATTTTCAATAACTTTATCTTCTCCTTCTTTACCATCGTTTAACTTTTTAGCATTTCCTTTACAAATCTCTAATAATAATTTTTCCTTATTTTCATATAGCTTTTTATAAAATAGATATCCTACATTTCCCATTTCACTCATCTTTATCACCTATTTTCTCATTTTCATCAATCTGCTTATAAACTCTTATTGCAAGTTTTACCGCAATAGAGGCATTTATTATATCTTTTTTCTTTATTTTTGCATCAGTTCCATTGTTTTTTATTAGTTCCTCTAATAAAATATCATCTTTTGAATTTTTTTCTGTTTTTATTTCCTTAGATTTTAAGTCATATCCTATTAAATTTCCTATTATTCTCATCAGTTTTTTTCTATTTATTGCAACATTATCAGTTTTGCTAGTTTCCTTTCTCTCATAAAAGGCAACTGCTGGAATAAGTCCGCTTTGGATTATTGAAGCTCCAAAATTTGAAATATAACCTTTTAATTCTTTAGGAACACCACCTTTATTTTTTATATCAAACTCTTTTTCTAATAATTCCATAGCTTTGGATATTAAATTTTCTATAACTTTTTTATCACTCACTTTTATCACCTTCTTTCGTTTTTAACTTTTTAATTTTACAAGCTCCATATCCAATAGTTACATTCCCACCAATATGGATTAATTCACCTCCATTTTCATCAAAAAGTATTTTTTCTTCGAATTTTTCCTCTAAAGTTTTACCTTCAACTTTTTCTTCAATTCCTTTATCTATTCCAAAATAAAATAGAGATTTTCTTGGAACAATTTCTTCATACCATAAATTTTGGCTTTCACCATTTTCAAGGTGATTTCTTGCAATCACCGGAAGTTCTGACACTAATTCTTTAAAATCCTTATATTCTAGTATTAATATTTCTTCCTCTCCTTTTTCTTTATCTATATCTTTAATGAGTTTTTTATATTTAATATACTTTTTAGTTTTATATCCTTCTACTTCTTTCTCTTCTTGAAATTCTTCATTTTTAAAATCTTCAGTCTCTTTGTAAAACAATTCCATCATCTCTTTAAAGTCATCTAATATTTCTTGACAAGTTACTAAATAATAAGGTCTATCTAATGCTCTTGCTGGAATAGCCAATAGTTTTGCTGGAAAAAATTTATATTTTCCTTTTTGAGTTTCATTTCCAAAACCCTCTATTAAATCATCACCACAATGTTCTTTTAATGCTCCTTTTAAACTTGATGAATTTATTGTAGGAAATCCCGTAATTACATCTCTTTGTACTCTAGTATCTATTAAACCAAAATCATTATCTCCACTTCCTACATGTAAATTTGTAAAACACTCTATTAAATATATATCTTTCTTGATTTTTATACACATTACTTTATCCCTCCCGTAATATAATTATATCCTATCACTTTTATATGTTTTTTATTAATAATTTCTTCTATTTTTTGTGATCCTTTACTAACATAAATTACACTTCCCCTTTTAAGAAGAAAATAAGGTTTAACTTTTTTCCCATCATTTGTCTTATAGTCATAAACGAAATTTTTAAAAAATTGTTTTTCGCCTAAAATAAAATCTACCTCTGTTTTTAATTTATAAAATTCATCTTCATTTAATATAATGTCACTTATGCAAACTATTCTTTCTTTAGATGTTTTATAATTTTCAACTAATCCTTCAAAATCTAAACTACTTTTAGTAATTTCAAGTTTAAATGGTTTCCCTTCTGCTCCAATATAAACTGTAGTTTTATATGATTCTTTCTCACTAATTTCAAATATATCTTCTTCCAATTTTACAAAAAAACAAAATTCAAAATTATTTTTTAATTTATAATACAGTTGCCTATAATATCCATTTTCTGTTACTTTAGTATCAATACCTATTCTTTCATCTTCCTCAAAAATATCATCAAACAAATATTTTTTCTTAAATGAGTTAAAACTTATTATTTTTCTATTTAAACCATTTTTAACTTCATAATTTTTTAAATTTGGAATAAAATTTTTATAATCTTTATCTGCTTTACTATCTTTATTTTCTGAATTAAAATAACAATTTCCTTCTGATTTTTCAAACTTTAATCCATAATCTAAAGGAGCTGGAGTAAAGATATTTCCATCTTTGTATAAAAATATAGGAGATATATTTTTTATTTTACCAAATCCATCTTCATTTTTATGCCCTTCTGCATTAAAACTCCCATTCCCTATTAACTTAACAATCTCTTGAGAATTCTTTGAATACTCTCGTCTATCTTCTTTATAATATCCAGTTACAATTAATATTTCTCTTCTCAACATCCCTAATATTGTAGTTTGTTGAGGAAAATATTCAGATTTTACATAATAATTTTTTATTGATTCTCTACCACTTGAATAATTAAAAGTTTCTCTTCCGGAAAAAAAATAGGAGTCTAATGGTTTTAATCTAACAAAATATATTTTTTTAGAAATAGTTTTGGTCCTCTTTTTTTTTGATTTATTTTTTTTCCTATTTCTCCCCATTATTCATCACCTCTTTCCGTTAAAAACATTAAAAATCTTAATAATTTTAATAAATTTTCTGTTTCTTCTTTTTTCCCATAATTAATAACAAGTTGTAAAATTTTATTAATTTCTCTAACTAATCCATTTATTTGCGTTTTATCTGTATGAATCTCTTTTTTAAAATTATTAATAAAAAAATTAGTTAATTTCTCTTCATCATTTTGTATTAATTTTAATAATTCAATTTGATTTTCAAGAGTATAAATAACTCCCTTTATTAATTTTTTATCTTTATTATCATAGTTAAATATTTTTAAAAACTCTTGAAACTTCTCTTTTTCAGCTTTGCTTAAAATAAATTCAATTGGTTTATTTCCACCTTTTAAAAGTTTTACTGCTGTAGCATTTTTACCTTTATATTTTTTCGCTTTTTCAAATAAAAGCGTTGCTGAATTATTGTATGCTTCATATAATGGATATTTATAATAATTTATAGTAATACCAAATGACAAAGTTCCTTTTTTGTTTGTTTTACCTTTTAAATTTTTTAATTTTTCTTCAAATATGTTAGACAAAGCAGTTGTTAATTCAAAAATATTTTTATATTCATTACAACTACTATTTATAATTGGAGCAAAAAAGAGTAAATCATCTCCACCTGCAAATATAGGCAAGCCCCCATAAATCTCAATTTCTTCTACTGATTCTTTTGCAAATTCAAATAAAATATTAGAAAAATTTTGATAATCTTCTTTAACTTTAAGTTCCTTAATTATAGCACCTATTCCATCTCCATCTGCTCTTACTACTGCATAATACTTATGGTGTTTTTTAAATTCAGCTGACATACTTTCTTTAAATATTTCATAACACTTCTCATCATCAGGATATTTATCATCCTCTTTGCCTTTATTAATTTCTTTATCTATTTCTTCAACTTTTTCCAAAGACTTTTTATAAATATCAGTAAAAGCAATTTCAGGAAGTGATTTTATTTCATACCCTTCTTCAAAAGCATCTTTTTCTAAAAAATCATTACTAACATCATTAATAAAATCAAATAAATAATCTTTATTTTCTTCAAATTGCATAAAACATATTTGTGGTTGTAATTCCATTACATCTAAATATTTAGATATCTCAAGAATTATATTATCTTTTGAATCAAGTTCTTTTTCCAGTGCATAAAAATTAATATATGTATCTAAATATTTTATAAATTCTTCTTTTGTTTTTTTATCTAAATTATCTTTAAACGCATTCTTTGCAAACTCTTCAAAAACACTATCTTTAATTTCTACTAAATCTTTTAATTTAAAATCTTTTTTTACTTCAATAATTAATCTATCATGAAATAAACCTGCTTTTTTAGGTTTTGTATAAATAGAATCATCTTTTGAATACGGCAAAATTAATTCTATTCTATTGTCTTGTTTTAATTTCCAAATAATTTTTTTCATAATATATGAAAACATATAACTAGTACGCCATGCACTACGTGTTTTTTTTGCTCTTGATATTGTATCTACTATTGGTCCTATCGTTACTCCTATATATTTAGTCATCTTTATCACCTACTTTTATAAATTCACCATTAATACTATTAATTAAAAAATCATATAAGTTAAACTCACTCTGTTTAGGGGTTCTACATTTCAAAAAATCTTTATCTTCATAAATAACTTCCCATTCTTTCCCTTTTTTCTCTTTATACTGTAAAATAAAGTTAAAGAGAACATCATATAAATATGATGGAATTTCATTTGGAAGCAAATATATTTTATTATCTATAATTTTAAACTTAATTGGTGATTGAAATCTTTCAATTGAGTCATTCGAAATCTTAAAAGCTATTTTTTTATTGTTTTCTTTTAATCCAAATTCTATATGTTCTGCTAATCCTAATAAAGCTCTTACATATCTGTACTCCTTAATTTCAGAATGAAAACTCCTATCATTATCTCCTTTCAATTGTTCATAATATAATGGATATTTTTCTTTCAATTTCTGTTTAAGAATCGCCTTTTCCCAACGATAATTTTCTCCAATATATTCTACTATCTTAGATTTTTTATATCCTCTAAAATTTTTGCCTGATTTTAAAATATTATAGAAATTATTTACATATTTAAGAGGCTCATTATCTTCTTTAGTAAAATATAAATTGTAATTTTTTCTAATAATTTCATCTACTTCATATTTATATTCAAAATATTTATCTTCTATTGAAAATTTATACTCTTCTGGGGTAAAAGAACCAAACCCTTTACTTTGTCTTGTTCCAAAATTTTCATAAACAAAAACATAAGGTAACACATTTTTTATTAGCTCCAATACTTTTTTATCAAAACTAAAGAACTCTATTTCAATTTCTCTATCTGAATAAAAAAAAGCAATACTTTCTCCAAAATAAGAAGTATTTTTTATATCATAAACTTCATATGAATTTTTTTTAATAACTTTAAGTTTATATTTTCCTATTTCAGTTTTATTATTAACAGGAAAATTTTTCTCAACAATCTCTTTTGTATCATAAAATAATTCTTTAAATTCATCCTTTAAATACGATTCTTTGATAAATTTATCAATTTTAGATTTTATTTCTGTTCCCCTTATTTGAAGTTGTTTTTGAGATATAGGTATATAGTCTTTTAAAACTTTTGATTCTTTGATAAATTTAGTTATCCTGTTTTGAATAATTTCAATTAACTCTTCATGTTTTGAAAAAATTTTAAAATCTAAAAAATTAATTTCTTTATTTTTTAATTCTCCAGAAATATCTTCTGGAATCTTTTTTTTATATGACAATGAAAAATCTAATTTTTTTGTTATCCTTTTAGTTTTCTTATTTATTTTAGAAAATTTTTTATATTCAACTTCCTGATTTCTAAATTCTTCTTTTAGAATATATTCCATTATTTCTTTATCTAAATTGAATACTATATTTTCGCTTTGAAAATGTATCAGCGGTGTATGTTGTTTTAGTTTAACAATTAACTTTGCCATAATATCCCCCTTTCTTTTTTATGCTATTATAAATATATAATATAATATAAACAATATTATTATAGATGTTAAACTCCACTTTTCATTTTGAAATTTTTTTGCTATTTTATTAATTATATTTTCTTTATTTTTTTTTGATTCATATACCAAATTATACAAAATTAAAATAGTTATTATAAAAGGAATAATTACAAAAAATCCCCCTTTTATAAATAGTTCATACTTATTATTAATATCTAATATATCTTTGAATCTATCCATTCCAATAATAGAATTAATTAAAGATGCTATTCCTATAGCTCCTCCTAATATTGTTATAATATTTAATCTTAATTGGAGCTTTCTGTCTTGCTTTAATCTTTTTTCACTCTCAAGCATAGAATAATAATTATATAATTCATAAATTTCTTTCTCTAATTCTCTTACAGCATCATTAATTCCCATAATATCTCGGACCATATTGTAAATTTCTATTCCTTGTTCTTGTGCTGTCACTTCCCTAAAATTCATTAAATTAAGAAATTCTAAATACTCTTTTTGTAATCTTCTAATGCTCTCAATATTCTCTTCCTTCATAACTTTTGATATTTTATTTTTAAATTTTAAAATAGTTGCTCTTTGCATTAAAACAATTATCATTATTTGATAATACATTGTTTTTATATGAGATAATAATATATTTTTAGGGAACCATCTTTCATTCGTAGCTACAACAAATGAATATCTGCTTATTCCAAATAAAGTTCCTTCTTCTATCCACCTATCATAACTATATTTTTTTAAATACTCTTTTATCATATTTTTACTCTTCAAAGAATTAAAGTTCCCATCTATAAATAAAAATTTTGCCCAATCTTCATTTGAAAAATAATTATATTCTTTACTGCTATTATTATACTTTTTTAATACCTCTGAAAATTCATCATTCCCATACCAACAAATAGTAAACATTCTATCATCAATTAAGGGTTTAATTTTATTACTTAATTCATCTCCTATTAGTTTTCTTATTGTTTTAGAAATTCTTATATTTTTACCATTTAAATAATTATAAAAATCTTCAGAAATTATATTTTCAATTTCCAATTCTTTTGCTAAAAAATTAGCTTTAGCTGATTCTACAGGAATAAATTGTGGATAAATTCTTCTCCCAAAATCATTTATTTTTAAAATATCTGTTCTCTCTTCATACTTATAATTTTCTAAATGAAATAAAAGTATTCCTACTCCTGTTTTAAATATTCTTATAGCAACACCTGAAATTTCAAGCTCATATTCCTTTTCATTTAAAATTTTTATTATATATTTAGCATTTTCCTTTATTTGTTTATTTATTAAATAAACACTTAAATCCAATTTATCAATTTTATCTTTTTGATTATATAAAAGTTTTTGAACAGCGGGATAAAAATATACAAATTCATTATAGTTAAAAATTTTATTTTTATCTTTTTGTTCTCCTTCTACATCAAAAGGGATATATTCCCATTTATTTTTTTCTAAAATTTTTACTGTCTTTTTTAAATCAAATTCATCTTCTTCAATAGTAAAGGGAAACATAAAAGTATGATGGCTAATTATATCTTTATCATTTTTTGCCATATTCGATCACCTCCTTTAAAATTTTTTCTATTTCTAAATTAAATTGATTTTCTCCTACTTCAAAATATCCATTTTCAGTCCCACCAAAATATATTTTATTTCTATATTTTTTATAATATCTTCCTCCAATCCCTCTTGCTTTTATTCCATAATATATAAACTCTCTGTCAGTACATATATAAATCTTATTATTTTATCTGTAATTGTAGAAAATTTATTAGTTAATAATGATTTTTATTAACATTTTCATTATAATGGTCTATTCACATATATTCAAAATTACAGTTGATATCTTCTTTTAATTCTATGCCAATAATTAATTTATCTTTATTTTTTTATTATTTCTTTATAGTCACTTAATTTTACTTTACAACTTAAATTGTTATAATAAAAAATTTCATTTTTATTAGTTAATATTTTTTTCATGGTATAAGTATTCTTTTGGTTGTATAGATAATTTATCATTTGATTATATTATATTTTATTATATATATCAATTAAAATTAATAATAATAATTTAATATATTAGATTAGTTAAAAAATTTATATTATCCAGTATGGCTAGATTAAAATAAAATCTTATAGTTGCTATATCTTGATTCCATTGATTTACATTCCAATATGGTAAGATTAAAATAGAAAAAACTACAAAATTCAAATGGATTTATTATATTTACATTCCAATATAGCTAGATTAAAATAAAAACAAATTTCAAAATGCCAGACAGAATATTAATATTTACATTCCAATATGGCTAGATTAAAATTTACGATGATAGTGTCATAATCCCTAACGATACAGTATTTACATTCCAATATGGCTAGATTAAAATAAATGTATTGTTTATTGATGGAGAAATTCAAACAGAATTTACATTCCAATATGGCTAGATTAAAATTTACCTCTTTATTCATGATTTTATAAAATAAAGTTTTATTTACATTCCAATATGGCTAGATTAAAATTCAGATAAAAAATCTTGATATTTTCCTTTAAAAATATTTACATTCCAATATGGCTAGATTAAAATCATTCTATCAACTCCAATTCTAAGTATATAAATATAATTTACATTCCAATATGGCTAGATTAAAATGCTGTGATATTTGTATTTATATTTAAATTGAAATAATTTACATTCCAATATGGCTAGATTAAAATTAAAGATTTTAAAATATCTAAATCATTGCTGCTATAATTTACATTCCAATATGGCTAGATTAAAATGATACAATAGCTTCTTTTAATACTCTTCATTTAGGTTAATTTACATTCCAATATGGCTAGATTAAAATTTACACTTAATTGTATCACTTCCTGATACTATTGTATTTACATTCCAATATGGCTAGATTAAAATTACAATTAGTGTTCCATTTAATTCTCCTATTTCTATATTTACATTCCAATATGGCTAGATTAAAATGTTTTGAAATTTTCAAAGATAGTAGCTATTATATAATTTACATTCCAATATGGCTAGATTAAAATTTCAATTCTATAATAAATACAATCAGATGCCCCTTCATTTACATTCCAATATGGCTAGATTAAAATATATTAAATCTCTGAAAAAATTCCCTGATTCTACATTTACATTCCAATATGGCTAGATTAAAATAAAAAATAAAAGGAGAGTGATAAAAAATGATAATTAGATTTACATTCCAATATGGCTAGATTAAAATTATCTAAAAATTCAACAACAGCCCCACCATTAAAAATTTACATTCCAATATGGCTAGATTAAAATCTTATTGTATCTACAATGTCATCGTGCTCTGCGTTATTTACATTCCAATATGGCTAGATTAAAATTGATAGAAACACCTTTGTCACCATTAGGTAAAATGGATTTACATTCCAATATGGCTAGATTAAAATAAAGTTAACCGAAGACATACTGGATCTATTATAATATATTTACATTCCAATATGGCTAGATTAAAATTAAAGTTATGCAACAAGTATTCGGGCCTGGAGCTGAATTTACATTCCAATATGGCTAGATTAAAATCAAAACGAAAAAGAGGTCAAAATATTTAAAATTAATAATTTACATTCCAATATGGCTAGATTAAAATAATGGTATTTCAAAAGATGAAGCTATGTACTTGCTAATTTACATTCCAATATGGCTAGATTAAAATACCTTCTGTTGATGAGTTACAGATTCCTTTTGAATATTTACATTCCAATATGGCTAGATTAAAATTAGAAAAACTATATTAGAATATGCACCAAATTCAAGATTTACATTCCAATATGGCTAGATTAAAATCTACAATAGCAAAAGCTAGTTTGCCTTTAGACTATGATTTACATTCCAATATGGCTAGATTAAAATTTTGTTGCAGCTCCAAGGTTAATTATTGCATTATTTATTTACATTCCAATATGGCTAGATTAAAATATATTTAGAGATATTGTTATAGTTGCATTAATATGAATTTACATTCCAATATGGCTAGATTAAAATAGAAACAGAAGATGACTCTGGAATACTATTTGATATATTTACATTCCAATATGGCTAGATTAAAATGGAACAAGAACAGCTGTAGGGGTAGAAAATAATGTATTTACATTCCAATATGGCTAGATTAAAATTAAAAATAGAAAAGTTGAAGTAATAGACATAAAAATTTACATTCCAATATGGCTAGATTAAAATTAAAAATAGAAAAGTTGAAGTAATAGACATAAAAATTTACATTCCAATATGGCTAGATTAAAATAAAGATACAGATTATTTGTAGAAAATATAAATTTGAGATTTACATTCCAATATGGCTAGATTAAAATGTGGACGATTAATGATATGACAGCCCAAGAAAATGTATTTACATTCCAATATGGCTAGATTAAAATAAAAAAGAGAAAAGCGGTAAGGCAGAGATAGCAGAAAATAATTTACATTCCAATATGGCTAGATTAAAATCATTTTTTTAAATTCTTCTTCATCCCCTCCTCTATCATTTACATTCCAATATGGCTAGATTAAAATTAAATGTAGAAGAAACACCATATAGGATAAAATAATTTACATTCCAATATGGCTAGATTAAAATAAATGCAAAAAGGTTTTAAAAATGCATTGCAAAGCTTATTTACATTCCAATATGGCTAGATTAAAATTTACATCTTTCAGTTATAGCGACACAACAGAATACAATTTACATTCCAATATGGCTAGATTAAAATATAAGTCCGAGAACTTGCCTCTAATTGATTTTTGATATTTACATTCCAATATGGCTAGATTAAAATAACGGCTTATAAAGGCTATGTTGTTTATTTTGCTTTATTTACATTCCAATATGGCTAGATTAAAATTTATTAATAATTTTGATAGTATTTAAACATTTCATTATTTACATTCCAATATGGCTAGATTAAAATGCCATCTCAATTTCTGTAGTATGCTTAAATCCCTCAATTTACATTCCAATATGGCTAGATTAAAATACGTGCCCTTATTTTACCACTCAATCCTTTTAAAATCAAGTATAAAATTCTTCATTCTGTCGACCTCGACACTTTTACTCATTTTTATAAGAAAAAATCTATTCATTTTCCAAAGTCCTAACAAAATCAAGCTATTCCCACGCTGTCGATCCCAAATAGTTTTTGCTCTATTACAGGTCGACAGTTTTTATAAAATCATTCTATAAAAAATTAGTTGTTTTATCATCTTCTATTCCTAAAAAATCTTTTCTTAACCATTTCCCTGAATCCTGTTTAAAAACAATAACAGAATCCATATCTTTTCTTATATATTTTGCTAATTCGTAACTCATTTCAATATACTTTGCATTTGATATCTCACCTTCAAAAACAGAATTTTGTATGTGATGAAGATACCTTTTGCAAGTTTTAAATATCCTCCTTAAAGCTTTAGAACCCTCTTTTGTGTCTGTAAATATTATATCATATACAAGTATAATATACAATAATATCACCACCAAATTTTAAATCCATCATATTCCTCCTCCCCGCTTAAGTGCTTAACTAATTTATATAATTCCAATCTTATTAAATGTTTATATGTAACATCTCTTTTTAATTTTTTATGTCTTATTGTTTTATTTAATCTCTCATCATACTCTTTTAAAATCTTTTTTCTTGCACCGTCTTTCATATACATATAATTAATTTCCTCAACAAAATCTTTTTCTGTAATAATATTTTTATTTAATAAATAAAATATCATTCTATCTCCAATTAATGGTTTAAAAACTTCTGCAATATCAAGGCTTAAAGAAAATCTTCTTTCTCCAGGCTCATGTAAAAAACTTACAACTGGAGAAAGTTGAGTATGATATATTTCTCCTAATACTGTTGTATATATTAATGTATTTACAAAAGACATAAGAGTATTTATCATATTATCAGGTGGTCTTCTTACTCTTTTGGTAAAATTTATATCCTGATTAATAATTGTATTAAAAGTTTTATAATAGGTTTTTCTAATATTACCCTCTTCTCCCATTATTTCTGTTATAGTTTTACATTGTTCTATCTTATTTCTGATTTTTGATATTTCATCTATATATATTTCCAAATCTTTATCTCTTTCATTATAATACCTTATATTTCTATGAATATTAAAAGAAGCTGTATTTATTATCTCTTTTGCAATCTCAACTCTTTTTTCATTATCAATATAGTGTTTAACTTGTTCTACAAATAAATATCCAGAATTAAGTTTTTCTCTTGGATAAAAACTACCTGTATAAAATCCATAATAATTAAAAAAATGTAGTATCACTCCATTTTGTGATAGAAAATTAATAAGTTTACTGTTTAAGTTTAGCTCTCCCAAAATATAAATTACATCCACATCTTCTATAGGTATATAATGATTTTCTCCATTAATTATAAAATTCAAACTATTGTCTTTTCTTTTTAAAGTTCCACTTTTTGAAAGGTAATAATTTCTTTTTATTTTAAACACCCCCTTAGAAATAGCTTAAAATTTAAATATAACACAATTCGTAATATGCACATTTTTTACAAATTTTACTATCTATTTTTTTAGGTATCTCTTTTCTTTTTATTATATCTTTTATTTCAATCAGAATGTTTTCAATTTTTTCTTCATCTTTTTCAGTTAAAACTATTTTTTCTCTCTTTCTTAATAATGGATAATCAATTATTCCATCCATATTATCCACTCCATTTTTCTTTAAATAATATTGATAATATCTTATTTGCCAATGCCCTGCTTCTTCTATAGCTTTAGATTTTTTTATCTCGTGAATTACTTTATATCCCTCAATAAAATCAATATTTATTGTGTTGTCTATCATTATATGTTTTTTCTCTTTTTTATAGCTGTTTTCATCTATTGATTTTCCAATGGATACATTTTCACTATTATTTTCCATAGATATATTTTTTGAAAAATACCAAAGTTTCCTTTTGCATACAAAATAATAGTAAAACATTACACCTGTTATTTTTATGTTTTCTTGTTGCATTGGAGTCACCTTCTTTTTAGTAATGGCTTAAAAATAACAATCCAATTTTGTTTTAAAAGGCTCAAGGTTCTTTTATGAAAAGCACATAAAAAACTACGCCTAACATATGCAGTGCTTCAACCATTTTTATAACAAAATATAAGAAATTTATTTTTTAAATGTTCCTTAGCAAATTAATTTTAAAAACTCCTTGAATCAAAATCAATATTTCTATCAACTTTTTTCTCAATTGTTACTCCCTCTTTTTCTGAATATTTACAATCTAAAATTGGAATTTCCATATATTTTCCTATTTTCAATTTTTCATTTAATTGTATTCCATATATTTCATTTCTTCTTATATCAACTGTATAATCTTTCAGCTCATATATTTTTTTTATCCTATTTTCTGTAAATTCTTTCCTATTTTCATTATTATAGATTGCTCGGTTTATATCTAAAATTAATTCATCAATCGCATCTTTTCTTTCTTCGTAAATAGTTTTTGGAATAATAGTAATATTTTCTATATCTCTAAATCTCTTTCTAACTTCTTTTTTTGATAATTCATATTCAGGTATAGTTTTTATATAATCTATATTGGCTAAAACTTTTTTATAATATTCCGTATTTTTCAACTTTTCAGTTGTATATATTTCTCCAATAATATCTAATTTATCCTGCTCTGTTATTTTCCCATCTAAATTTTTCAAAGCTTCTTTTGAAAATTCAAAGATATCTTTATCAATAACATAATTTACTCCACTACATTTATTCTCACCACCATCAAATACATAACAATTATAACCATTTTTATCAAAAGCTCTTTTTCTATAGCATCTTCCAAATCTTTGAAATAATCCATTAATATCAGAAAGTTCTGTAAATAACAAATCGAAATCAATATCAAGAGATGCTTCTACTACTTGAGTTGCAACCCATATTCCAATTTCATTTGAATTTTTATCTCCCATACGCATAATATTTTTTTCTTTATTCTTTCTATCTCTTTTTATAAATTTTGAATGTAATAAATTAATTTTTACTTTCTTGTCAATTAATTCTTTATTATTAGATAATTCTTCAAATATTTCTTGAGCTTTTCTAACTGTATTACAAATTACCAAAACTTTATTTTTATTATACTTTTCTATTATTTCTCTGCTATCAATTTCACTATTTCTAACTTTAATACTATGCCTTATCAAAGAATTAATATAGGGCTTTTCTCCAGTAATAAAATTTATTCCTTCTTTCTTCATTAAATCAATAATTATTTGTGGAAGTGTTGCTGTTAATATTGCAAATTTTCCACCTATTTTATCAATATAGTATAATCCTAATATAAGATAAGCTAATAAATCTGGTGAATACATTTGAATTTCATCAATAACCACTTTAGAGTATGATAAAGTAGCAAGTTTGGATTCAAAATCTCTATATCTAAATACAAAATCAAATATTTGATCAAGTGTACATATTGTTAAAGGTAGCGATAATTGTTTTGTTTTATTATAATATTCTTCTATATTATCACCATTATTTTTATTTTCAAGATATTTACTATATGTATCAGAATGAAGTAGCCCTATTCTCTCTTTATTTTTAACAATTTCGTTGACTACTCTTTTATAAATCTCATTTATAGCCGTTTTTAAAGGTAATGTAAAAAAGCCTTTATTATTACCAATCCATAATAATCCTGCTTCTGTCTTTCCCATCCCTGTTTGGGCTACTGCTATTATATTTTTATCTAAATTATTTTTCATAAAATTTTGTAAATCATTCCAATTAAAATTGTTTTCTTTTTTGAATTTATCTAAACTATCATTTAAAAAATCATTTTTCACTTCAACGTCAATACCACCACTTGCTGCATAATCAAGACGATTTAATAGCCCTTTTATTTTTACATATTCAAGAAAATAATCAGAATCTCCATATGTTCTTTCATTTGCAAAATATTTTGCACTAATTTTTTTTATTTTTTTTATTTCTAATTTATCATATTTAAAATTAACCGCTTCTTTTTTTAGTAATTCTACTTCTTCATTATAATTTTCTGCATTATAATCTCCTCTTTCATGATGCCTTGCCACTGCTTGAGATATAATTTTAATCTCATTATTTGTAAAATTATATTCCTCTTTTAATTCTTTTGCATTTATAAAAGCCAAGCTTAATAAATTATGTGCTATTTCATCTTTATGTTTCTTTATTTTTTCAATTTTATCTTGAAATTTTCTATTTATTTTCCCTAGATCATGATAAATACAAGAAATTTTTAAGGCATTCCAATTTATATCTAAATCAGAATAAACGCTTTTTATAATTTCAAAATTTCTAAGTAAATTATCTGTATGTTCTTGTATTGTTTCTCTTGGATTGGATTTTGCAAGATAATTATTCATATATTCCCCCAATATATTATTGTGAAACGACTTATGTCGTCCCACAATAATATTAGATACATTAAAAAAATCTATAGATACATTCATATTTTTAAAACAAATGACTCCTTAATTTTTTTAAGAACCTTATTAAATTATTTCTAACGCTATGTGTTTCTAATGCCTTTATTTCCACATATCTCTTAGATAAGAGAATCCTCCAACAAGGGAGGTTCTTGAGATTTTAGTTTTTTAGCATTTAACACGCCTATTATTAAATTGCAAATACAATATTTCTATCTTCATCAACTAATATTTTTTCACCTTCACTTCCTATTATTCTTGAAGAATAAATTACTTTCTTTTTATTCCATTTTCTAAAATATTTTGGTTGTTTCTTAGTCCCAAAATTTTTAAGTTCATAATTTTTATTCAAATTATACATTGTCCCTCTATTTTCTATTCCATACGAACTAGTTTCTGAACCTAAAATTATTTTTTCACTTTCTATCATCTCTAAAGGAATATAAGCTAAATAATCATTAGATAATTCTAAATCCTTTTCAAATTCTTCTTCTCTTATCTCTACTGAATTAACTTCTTTTATTATAACTAAATCTTCTCTTCTTCCGAGAGATATAAATTCTAATGGATTTTTTATACATTTTTCTATTTCTTCTATTAAATTTTGATCTTCTGGAATTATATGTATAAGCAATTCTACCTCTGTTAATAGCTCTGTAGTAGCAATACCCCTACCAATCCCAAACCCATTAGCATTTAGCTGATGTCTACCAGATTCAAATTTCATTTCAGGTTTAAATTCATATCTTGTAAACAAATCATTAACTTTAGAGTGATATTTGCCTTGAATACTTACCTGCATTTCTTTATATTCTTCATACCCACAAATTGAATGTACCATCCCAATTACTGTTGAATATGGTGGCAATGGATATGTTTCTTTTAGCTGAAAACTTGTAGGAACTTTATAATTAACAAGTTCTTGTTCTAATTTAATTCTAATTGCTTTTTTCATAATACTCACTTACCTTTGTTTTTAAGTTTTTAAATAGTGTTGGCATACTTTCAGCTTTTAACTCTTCTTTTATTTTAATATCATTATCAAATTTACCTTCTATTAATCCACAAATTGTATCTTTTTCTATAAAATCAAACAACACTCCTTTTATCGACTCTATTACTAATTTATTGTTTTTTATATCTAAAACATTTTCAAATATAGGATTTTTTATATCATATACCCCACCTATTGCAAATAAAGGTTTTAAATCTTCTCTTCTTCCTCTAATATCTCTGTAAAGCAATGCTATTGTATCTAATAATTTATTTACTCTTCTTGCTTTTTCATCATTTTCAAGATTTATACTATCATTTTTATCAATTCCTATTTTATCAAGATCAATTGCTATACTATATCTATAATAACTTCTATGTATTTCAGATTGTGCTATATTCATTCCTTTCATTTCTCCACCTGTTCTATCTGATAGCCCTTTATTTGTAAGAAAATCTAAATCACCTTTGAAAGTTTCAAGAGAAATAGCATTAGATAATCTTGCTACGGCTGAACGTGTTACACTCCCTTCTCCTTTTTTTGTTTTCATGTATCCAAAAAAATCTATTTCTGGATAATCTTTTATTGTTGCTTCAGGTGAAAATTGAACTACTTCTTTTTCAACCCTTGTAGGTGTTAATTTTTCTCCTAATTGTTCTATAATATTATATCTTATTGCTTGCCTTGAGATGTACGTATACTGATTTCCATTACCTCTTGACATTTTTTTTAGCGAAGCTACATTCCCTATTCCTTCTCCATAATTTGCACTTTCTGCCTCAAAAATCATTGATAAAATTAGTCCTTTTGTTTTCATTATCTATCGCCCCCATCTAAATTATTATTTTTATCATCAATTAAACCACTTACAAAAGCATACCCTATTGTTTTAAATGTTTCTATATCTTGCAAACAATCAATAAAAAACTTTGGAACCTTCTTTCCTGTATAAAGATAACAATTTAAAATAGTATCCATAAACATCCCATTATTATTAGTCTTTAGTGCATTTAATAATCTATAGGAAATTCCATTAAGTTTGTTTTCAGAATTTTTGTCTTTATATGCTTGTTTCAAATAATACCCTGCTCCATTATAAGATTTTAAAGCATCTTTTTCTATCTTCTTCATCTCTCCAACCCCTTTCAAATATTCAAAGTTTATATTTATTACTGCTAATAAATGCCTTCCATTAAACAAAGCATTATTTGATTTTGTTAACTTTAAAATCAACATCTTGTGTATAAGTAAAAACATATTTTCATTATTTAAAATATTTCTCATTACTTCTTCATAAACTCTAAAATATTTATCAATCTCTTTATATCCTGCTTTTATTAAAATATCTAATTCATGCTTAGAATTATTAATAAGATTTAATATCTTTTTAGATAAAATATTAAATCTATATTTTTCATTTTCATATCTAACAACTTGAATATCTGACAATTCATATTTAGAACTATTATTTATACTTTCACTCATTGCAGTTATCATTGCTCTATATGTTGTATTAGAATTCATCTCTTCATCATTTAATATTGTCATCCTTACTCTATTATTTATTTTTATTGCTTCTGCAATACTTCGATTTGCATTTACATATATTCCTTTATCATATACATAAGTAAAACCTGCAGGAACACAAGAATAAATGAGCTTACAAACAGGACAAATAGCAATATCATTCACAAAATTCCAAACATGAGATGTTTTTCTGCTAGTATCAAACCCAGTTGCATTTAAAAATCCTAAATCATTATCCATTTTTTTTATTTTATTATCACAAGTAAAACAGTCATACTTATATTTTTCTTTAGACTCATTTAAGTATTTAAAAGTTGATAAAGGAAAATAATTTTTATAATCACTATAAATATTTTTTTCTTTAGTTTGCGGATTTAAAAAAGATATACCATTCCAAGCATTTTTAATTATAGTATAAATAACGTTTTTAGCTGCTATATATTTTTTTACTTCATCTAATGAATAAAAATCTATTACTTCTTTTATTTTTTCAATTATTCTTTTTACATCTTCTAACCTATCTTCAATACTTTCATTCTTTTTAAGTTTTATTTTCTGTATATTTTTTTCTTTTTCTAATATTGGAAAATCAGAACTAATTAATTCATATGCTGCTTTATGGCTATTACTTTTTAAATATTTTTTTAAGTTTTCTATATACTTATTAAAATTTTCAAAAGCTTTTTTATCAAAGTTACTATAATTTTCTTTTTCAAAATACTCTATTTTATTTCTATAAGAAACTACTTTTGACCAAGCTAATTTTTTTTCATAAGTATTAATAAAATAATTAAAATATTTTTCTTCAAAATTCTCTAACACTTTAGAATCAATTATTACTTCCTGTCCATTAAATTCAATTTCTTCCTCATGACCAGCATATTTTAAGATATTTATAAAACCTACTACTCCTACATTATAAAGCCAATCCTTTAACGATAAATGTATCTTCTCTTCCATATTACCTCACCTCCTTCCATCACACCATATCTACCATTCCAAACCCTTGCGATCTCCTGCTTCCAATTCCTGCTTTATATAAATAATCCAACAAATATCCATCTCCACTAATTTTTACTATTCCAATATTACCAGTAATTCTTCTATGAATCCTTTCTTCAAAATGAGAAATTGGTACAGATTTCATTTTCCCAATCTCTATTTTTAAATTTTCAACATCTTTTTTTATATCAAAATCAAAGAAACTCTTTCCACTCTCATAAATATTTATTTTCATTTGATCTAAAAAATTTTCATCATTATAAACCAAATGGTTATCCTTACTATTATCTCTATTTTTATTATCATGATACCTTATAACTACTGGTGATAACGTTTTAAATATAGCTTCATTGCTTTTTATTACTTTTTCTTTTGCCATTTTTACATTTATTAATGTAAATTCAAAACTATTTTTAAAATTATAAACTTTGTGTAATTTCCCAAGTATAGAATTATAAAAATACAATCCATATTCTTGCGAAAATGTAGAATAATTCAAATATATCTCATTCCCCTCAATCTCTATCTTATCAGATAAAAATTTGGGATTTTTCATATATACTGAAAATGTAAATGGTTTAACTATTGGATCTCGTCCCATCTTCCCAATGTAATTTTTTTCATAAAATTTTTCGCTATAATCTTCAAATGATGACTTCAGAAAAGAAATAAATGCCCTCCTATAATCCAAAGGAATTTCTTTCTTTTTCAATTCAAATTTCAAATTAAATCTCATAATTCAACCTCTCCTCCTTAAATTAGTTTGTAAACAGATAAGAACCTGCTAAACAATTAATTCCTATATATAATAAATTTATCCACTAACCAAACCTCATCTATTTTATTTTATTAGTGAATATTAGTGGCAATTGGTGACAAAAAGATTTTTTTATTAGTTCTTCTGTTTTTATTTTATTCTCACTCATCTCCCTATTCTCCAATCTAATTACATAAAATTCCAAAAAACAAAAAAATTGAAAAATACCTAAACAAATAACTTGCTTAGATTTCCTCCAATTTTTTTAATTTCCCCATTTAAAACTTCCCCAACAACATATTACTATTTTTTTTACAAAAATTCAAGTTTTATTTTATTATATCTATTTAATATAATATCAAAATTCTTGAACTATTATACCTGTTATGATATAATAATTTGTGGGGAAAAAAATAAGGAGGTGCGCAATTTGAAATTTGCAATAATTGATGATTCAGGGGATATTTTACTCTTATTAAAAGAGATTCTTAAAAAACATTTTAATGATTCCATTATAAAAACTTATGATTCAGGAGAAGATTTCTTTGATAATCCAAATCACAAAGATTTTGATATTATTATTACTGATATGAATTTACCTGGTATTTCAGGAATAGATATTGCAAAACTATCAAAATCAAAATCAAATACGCCTGTAATTCTTATTACAGCAAATGGGTCTAGTGAATTAGTAAGACAGCTTTTTATTGAAAAAATAGTTGATGACTACCTTGATAAACCTATTTTGGAATCTAATCTAATAGAAAGAATTAACAATGTAATAAAAGCAAATAATAAATATGAATCATTTATTTGGGTGAAAATTTCTAGAGATAAGAGTATTCAAGTAGATATAGATAACATTGACTATATTTCTACTTCCGAAAGAGCTAAATTTTTAACTGTTTCAACTTCTACAAATGAAAAATATGAAACAAGAGCCCTTTTAAAAGAGATTGCTGCTAAATTACCAGAAAATTTTATTAAACTAACTAAAGGATTAATTATTAATAAAAATAATATTAAGTTTATATCTTCAGAAGAGTTGATTATTAGTTTTAACTCTAATAGTAAAGTTAAAATTAGTAGGAATAAACTTTTTGAATTAAAACAAAAATTATGATATAAAAAAACAGCTCAAAACTTCTGAGCTGTTTTTTTTATGCCGTTTTTTATTACATACTACTTAGGAATGGCTTAAAAATAACATTCCCATTTTGTTTTAAAATACGCAATGGTTCAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCCTTAATTTTTCATTTAATAGTTTATTTACAATTTGAGGACTTGCTTTTCCTTTTGATTCTTTCATAACTTGCCCTACAAGATATCCCATTGCTTTTTTCTTTCCATTTTTAAAATCATCTATTGATTGTTGATTATTATCTAAAACTTTTTGCACTATTTCTTCAATAGCTCCTGTATCTGTAATTTGTATCATACCTTTTTCTTTTACAATTACTTCTGGAGTTCTGCCATCCTCTAACATAATTTCAAACAGATCTTTTGCAATTTTTCCACTAATAGTTTTTTCACCAATTAATTTTATTATTCCACCTAAATTTTCAGGCGATATACTAAACTCTTCTATTGAAATCCCTTTATCTTTTAAAACTCTTAATACTTCTGTCATTATCCAGTTACTTGTAGTTTTTGCATTTCCTGAATTTTTTACAGCTATTTCAAAATAATCAGCTAACTCTTTTTCAGTACATAATACATCTGCATCATATTCTGGTATTTTATATTCTTTTACAAATCTAGCTGCTTTTTCTTCTGGGAATTCTGGCATTTCATTTTTTATCTCTTCTATTAATTCATCAGATATTTCTATTGAAACCAAATCAGGTTCAGGAAAATATCTATAATCATTAGCTTCCTCTTTTGATCTCATTGATTTTGTTATACCTAAATTATCATCCCATAATCTAGTCTCTTGTGTAATTGTCCCACCATTTTCTATCACTTCTATTTGTCTTTCTATTTCATAATCTATTGATCTTGCTACTGCTTTAAAAGAGTTCAAATTTTTAGTTTCTGTTCTTGTTCCAAATTCTTTTTGACCTTTTGGTCTTACTGATACGTTAGAATCACATCTAAGAGATCCTAATTCCATACTAACATCACTTACTTCAGAATATTTTATTAATGTTCTTAATTTAGTTAAATATTCATATGCTTCTTGAGAAGTTCTCATATCAGGCTCTGATACTATTTCTATTAATGGTATCGAAGCTCTATTTAAATTCACATAACTTTCATCAGCAAAATCACTATGTACAAGTTTTCCTGCATCTTCTTCCATATGAATTCTTGTAACTCCTATTCTTTTTTCTTTTTTATTTACATTAATATCTATATGCCCAAATTCTGCAAATGGTTTATCAAATTGAGATATTTGATATCCTTTTGGTAAATCTGGATAATAATAGTTTTTTCTATCAAATTTTGTATCTTGATTAATTTTACAATCTAATGTTAATCCTGCTTTTATTGCATATCTCAATACCTTTTCATTTAATTTTGGTAAAACTCCTGGATGCCCAAGACATATTGGACATACATGAGTATTTGCTTCATCCCCATCATAATCTGTACTACAACTACAAAATATTTTAGTATTCGTTTTCAATTGTATATGAACCTCTAGCCCTATTACTGCCTCATACTCTACAGCCATTTATATAAACCTCCTATTTTTTTAATTTTTTTACTATCATTGGTATAATAGCAAGTTGAATTACTATTCCCACTAATCCTGCCATAATTCCTCCAACTATAAATGAAGTTGGTAAAAATTTAGGATTTTTTATCATTATAAAATTCATACTAAGTGCAATAAACACTACAACCCTTCCTAATAACATTCCGCTAATTAATGAAATATATTCATTTTTAGTTTTATTATAAATAGCTCCTGTTATAAATCCATATGCTGTTAATTCTATTGTCATTATTTGTGCCATAGGAAATGGTGCTGCAATTGGCATACCTGTTACCATAAAGCTAACAATAGGTGCTAATGCTCCAACTAACACACCTTCAAATGGACCATATATCATTGCTGCTAAAAAAACTCCTATATGCATAGGTAAAAATGTTTTCCCTAAAAATGATGGATCTTTCAAATTTAATCCTAATCCAATATAATGTACTACCCAAGGTATAATCAATGTAATTCCAAAAGCAAGTAAAAATGAAACTGATTTTTCCTTTATTTTTTTTACACTAATTTCCATATTATATCTCCTCACTTACATATTGTGTCACAATGTCTAACTTTGTTATAATCATCTAATTTTTGATTTTTGCAGTTGCAACGCCTTGTTCTGTCCTTGATTTTATTGAGTACCCACAAGGACAATGTCATTAAATTAAGAAAAACTTAAAACCCTACCTCTCCGTCAGCTTCGCTGCCACCTCTCCTAAAAGGAGAGGCTTTTTGGCTCTCCCTCTGGGAGAGCTGTCACGCTAGTGACTGAGAGGGTGATTTCCCTTAGCTTGACAGCATTACCAACAAGGCTCACTCCTACAAATTATTGCTATTTTTAATATTTTTATTATTTTAATTTAGGAAGCTCAACTTTACCTCTTACTTTTTCAAATGCATATCCTGCTTTCAAAATATCTCCTTCTCCAAAAGCTTTTCCTAAAAGTTGTATACCAACAGGAAGTCCTTCTGATAACCCTGCAGGAACTGACATACCAGGAATACCTGCTAAATTTGCTGATATTGTAAATATATCAGATAAATACATTTTTAAAGGATCATCTGTTTTTTCTCCAATTTTAAATGCTACAGATGGAGAAGTTGGTGTTAATATTACATCTACATTATTAAAAGCATTATCGAAATCTTGTTTTATAAGTCTTCTAACTTTTTGAGCTTTTTTATAATAAGCATCATAATATCCTGCACTTAATACATAAGTTCCTATCATAATTCTTCTTTTTACTTCATCTCCAAAACCTTCACTTCTGCTTTTAGTATATAATTCTGTTAAATCTTTATATTCTTTTGTTCTATATCCATATCTAACACCATCAAATCTTGATAAATTCGAACTTGCTTCTGCAGGTGCTACAATGTAATAAGCTGGTCCAGCATATTCTGTATGTGGCAATGAAACCTCTACTATTTCAGCTCCAAGGTCTCTATATCTTTCAATTGATTCATTTACAATTTTTTTTACTCCTGCTTCCATTCCATCTACAAAATACTCTTTTGGTATCCCTATTTTCATTCCTTTTATATCTTCTGTTAAAAATTTTGTATAATCTGGGACTTCCATATTTACAGAAGTTGAATCATTACTATCATATCCCGAAATAGCATTTAACGCTAATGCTGCATCTTCTACATCTTTTGTTATTGGTCCAATTTGGTCAAGAGATGATGCAAAAGCTATTAATCCAAATCTTGATACTCTTCCATAAGTAGGTTTTAACCCCACAACTCCACATAATGAAGCTGGTTGTCTAATACTTCCACCTGTATCTGAACCTAAAGAAATTATAGATTCCCCAGCAGCTACACTTGCTGCAGATCCTCCACTACTTCCTCCAGGAATTCTATTTAAATCCCAAGGATTTTTAGTCTTTTTCACAAATGAATTTTCTGTAGATGACCCCATTGCAAATTCATCCATATTAGTTTTTCCGATAATAGGAATACCATTTCCTTTTAATTTTTTTACTACTGAACCATCATAAATCCCTTCATAATTAGATAACATTTTTGAGCTTGCAGTAGTCAAATCTCCCATTGATACCATATTATCTTTTAATGCAATTGGAATTCCTTCTAACCCATTTAATGTTTCTCCTCTTGCTAATTTTTCATCTGCTTTTTTAGCTGCTTCAATAGCTTTTTCTTTAGTTAAAGTTACAAAACTATCTACTTTATTTTCCACATTTTCTATTCTATTAAAAACACTTTCTACTATTTCTGTTGATTTAATCTCTTTTTTACTTAAAAGCTCTTTTAATTCATGTGCCGTTAAACTATATAATTCCATTCTTAACCTCCTATTAAATTATTTTTCTAATTCTTTCTTTTTTTCATTTTTAATTTTCTTCTATTCTATCCTACAACTTTTGGAACAATAAAAGTTCCTTCTTCTTCTTGAGGTGCATTTTTCATTGCTAATTCATTTGATACCGATTTTTTTACTACATCTTCTCTCAATGCATTTTTCAAATCAATTGCATGAGATAATGGTTCTACATTCTCAGTATCAACTTCACTTAATTTGTCAACATATTTTAATATATCATTTAATTGTGACTGAAATTTTTGAACCTCTTCCTCTTTAAATTCAAGTCTTGAAAGACCTGCAATTTTTAGTACATCCTCTTTTGTTAATGCCATCTTTATACCTCCTCTATTATTTTATTTTTATTATTTTCATAAACTGAATATGCAACTAAACTCCCCAAAACTGCTCCTACAATTACATCACTTAACCAATGCCTATATGTATAAACTCTTGAAAACAATACTATTGATGGAATAAATAGAAATAATGCTTTTAAATATTTATTCTTAACATATAAAAAAAATGGAATAAATGTTGCAAATGCTGTTATTGTATGACCTGATGGCATACTTAGGTAATCAAATTTAAATAATTCACCTGCATTATATGCTTTTATATAATTAAAAAATTGTAATGGATTGTTTGCAACAAAAGGTCTTTCTCTGGATATAACTCCTTTTATTAATAAAACCATTAACCCTGCATAACTTGTTGACATTAGTGAAATAGAAAATATTTTTTCTATTTTTTTTAGATTTAAAATTATCCCTACAATTATACCTGTTAATAAAAATGGGAAAATAAATTTTCCATTTCCAATGTAAACATTTCCTAATTCAGAAATTACACTAAAGATATTTTTTTTACTGTTTATTTTACTAAAAAATCTTGATAAATCTGAATCTACAAAGAATATTATGAATATCACACCTATTAAAATAACTGTTAATATTTTATAATTTTTCTTTATCTCTTCTATTGTTTTTTTAAGAATGTTTTTCCAATATCCCTCTTTTATTAATTTATAAATCATTATAATAAAAAGTATATATAAAAAAATTGATGGTTTTAATAATTTTGACATTTTTTTCTCCCTTTATTAATTATTTCTTAGTTGATTACTAAAAATTTTTATTGTATATTTTATATTATACAATAAATTCTACATAATGTGAATATATTAAATCAAAATATTATTTTATAGTTTCTTTTTTTTCTGAATAATATTTCCCCTCATAAACATAATATCTTCTATTTACATATTTATCTTTATAATTTATCTCTTCTAATAATTTCAAATTATTAAAATATTTTTTCAGCCTTTTTAAGTCATTATTTTCAATAATAATAATCGATTTTTTATTATCTAATTTACCATTCTTTTTATCATTCTTTAGCCATATATTATACATTGAATATCTAGAATCTGGTAAACTATATAATCCATCAACTTTATCCAAATAATATCCAGCCTCAGAACTATTTTGATATGAATCTCCAAATAGTAACATATCTTTATTCAAATATTTTTTTACAGGCTTAAACAGTTTGTTATATCCATAAAATTTATTTTTCAAAACTGCTCGTTTAGGCAATGGTAATATTTCTGGAAATCTTAATATTACAATAAATATAAATGATAAAATAATTCCAGATATATATAATTTTCTTTTATTATTAATTTCAATAAAATATGCAATTAAAATTGTTCCTGCTATATATGCAGGTGCTGCCCAATTTGCTTCAGCTTTTTTAAATAATGAATTATATAAGAAAAACAGAAGAGTGAATACAAATGTTATAAATAAATATTTAAATTTATTGTCTTTTATATTTTTCATATAATCTTTTGTTAAATAGTAGATTAACCCAATAAAAAATATCGGATTAAAAATTCCAATTTGACCACCTAAAAATTCAAAAAAACTATTTAATTTCAAAACTTTCTTTTCAGAAACTCCATGTGAAAATTGAAATTTAAAAGATACCCAGTCATTAATATAATTCCAATATATTACTCCAGAAAAAACTAAAATCGCAATTAAAATTGCAATATAAATCTCTTTTTTTAAAAATAATTTTTTATATTTAGAAAAAATAAGAAATAAAAATATCGAAACTAATAATAATACTCCAGTATATTTAGAAACTAATAATAATCCACCAAATAGACCTGTCAAATAAGCATATTTTGATTTTTCTTCAAAAATATATATGTATGCACTATATAAAGTAACTCCCCAAAATAGTATTAAAGGCGAATCAGGTGTCATAACTATAAAACCTGCTTGTGTTAAAGGTAACAATAAAAATATAATTAATGCTTTTTCTGCAACTTTTCCTGAAAATATTTTTTTAGAAAGCTTAAATATAATAATTCCTGTTACTCCCATTGAAATTACTGTCCCAAGTCTCACAAAAAATTCATTATTTGAAAAAAATGTGAAAATTGAAATAAGATACGCTACCATTGGTGGGTGATCAAAATATGACAGCTGAAGATGTTTACTCCAAACCCAATAATAAGCTTCATCTGGATGTAATGGTAAAAATATATTATAAACTGAACACAATATTAGAACTATCCAAAAAAAATATTTAATTTTTTTGCTCATATAAATCCTCCTTATGAATGGCTTAAAAACAACCTTATCTTTTCTTAAATATTTTTTAGAAATCTTCTATTAAATCTCATCCACCATACCATTAATATTGCTTCTAAAAATATCTTTTTAGACATTTTAGATTTTCCTAATGTTCTGTCTTCAAATATTATAGGAACTTCTTTTATTTTATATCCTTTTAAATATGTTATATAATTAAGCTCAACTTGAAAAGAATATCCATTTGATTTAATTCTATCTAAATCCATATTTTCTAATACTTCTTTTTTGAAACATTTAAATCCACCTGTTATATCATTTAACGGTAATCCTAATATTATTTTTGCATATAAGCTCCCGCCTCTACTAACTATTTTTCGAATTATTCCCCAATTTTTTACTCCGCCATCATTTACATATCTACTTCCAATGATTAAATCATTATTTTCTATCTCTTCTAAAAATTTAGGGATATAAATAGGATTATGTGAAAAATCAGCATCCATTTCAAATATATAATCATATTCATTTTTTAAAGCCCATCTAAATCCTTCTATATAAGCTGTTCCTAGTCCTAACTTCCCTGCTCTTTTTAATAAAAATAATTTTTTATTATATTTATCTTTCATTAAATTTTCTATTATTTCATATGTTTTATCTGGCGAATTATCATCTACTATTAATATATTTATATCATTTTTTTGATTGTAAATTTCTTCTAATAATTTTTCTATATTTTGACTTTCATTATACGTTGGTATTATTATTAATGCCTTTTTTTTTGATATACTCATTACTTTTCACTCTCCATAATCTTGATTCTTTTCCTTAAATACTATAAAATAATTCCCTAAAAAATTTAATGTACTTGCCACACCAATTCCAATTAATTGAGATAAAATTTTATTTATACTAAAATTTTCAACTAATAACCTAAGAACTAATATATTTACAATAAAATTTATTCCACTTATTAATAAAAAACTAAAATATTTCCTCTTAAAGCTCTTATGTTCTGCTTTTCCTTTAAAAGTCCATATATTATTCCATATAAAATTATTTGTAACAGCAATAAAAAATGAAATTGTAGCAGCTATTAAATAATTTATATTCATAAATATTAATATTGAATAAACTATCATATTTACAATTACTCCACTTATTCCAACTATTCCAAATTTTATAAATAGTTTCATAATTTTTTTTAACATTCAGCCTCCAATAAATAGGGCAGACACATAGGTATGCCCCTACATAAATTTTTCTTTATTATATTTTTTAATTAAATTATGCTCTCTTCTAACTTTTCTATTATATTTCTAAAATTTTTATATCCATAATAATCTATATTTTCAGCTATACAATATTTTTCTAACCCATATCCTTTTTTTGCAAATAAAATATCTGCATATCCACTAGCACATATATCAGAACTTCCATCTCCAATATATATAATTTTATATTTCATATCTTTATATTTTCCCAATATACTTTTTTTACAAATACCACAAAATCCACAATTTTTTTCATATGGAAATTCAACTTTCAATTTATTATCTTCAAAAATTAAATTGTTGCTATAAATTTTATTTTTATCTATAAAAATATTGTTATACTCTAATACTGCATCTATATTTTCACAAGTTGCAGCACTAACTATTCTATATTCATATTTTTTTAATTTTACAAAATTTAAAAATTCAACAAAATATCTATCAACTTCTACATTTTTCACAATATCTATTTTAAATTCTTCTTCTGATAATTCTAATAAACCTAATAATTTTGACAAATATTCTTTTATATTTATCTCTTTATTTTGAAAACTCTTTTGAGTATTTAAAACTTCATCTTCATTATATATTCTTACTAATTCATCTGTTGAATCTTTATTAGTAATTGTTTTATCAAAATCTATTAAAATCATTATTTTATCTTCTTTATTTTTTTTATTAATCATATCTTTTCTATTTTTCATCTGTTCTAACTTTTATAGAATTTGCATGTGCTGTAAGTCCTTCTACTTCTGCAATTCTTATTATTTTATCAGCTTTTGCCATTAAAAGCTCTTTCGGATAATATAAAATTGATGTTTTCTTTATAAAATCATCTACATTTAACGGCGAATAAAATTTTGCAGTCATATTTGTAGGTAATACGTGATTTGGACCTGCAAAATAATCTCCTACTGGTTCAGGTGTATATTTTCCTAAAAATATTGCTCCTGCATTTTCTACTTTTGAAATATATTCAAATGGATTTTCTATCTCTAATTCTAAATGTTCTGGTGCAATAGCATTTGATAATTCAAAAGCTTCATTTAAATTATCAACTACAATTATATGTCCATTATTTTTAATACTTTCTCCTGCAATCTCTTTTCTTTCTAATTTATCTAATTGATTTTGAACCTCTTTTTCTACTTTTTTTGCTAACTCTTCAGATGTAGTTATTAAAATAGAAGCTGCCATTTTATCATGTTCTGCTTGTGATAAAAAATCTGCTGCTAAAAATTTTTCGTTACCATTTTCATCTGCAATAATTAATATCTCGCTAGGCCCTGCGATCATATCTATATCAACTGTTCCATATAATATTTTTTTTGCAACTGTAACATAAATATTACCAGGACCTACTATTTTATTTACTGGTTCTAATACTCCTTCTAATCCATATGCCAAAGCTCCGATACCCCAAGCACTTCCCATTTTGAATATATCTTTTATTCCTATAATATCTGCTGTAACTAATAAATATGGATTAATTTTATTTTCATTATTTACAGGAGTTGCTATTACAAGCTCTTTTACTCCTGCCACTATTGCAGGAACTCCATTCATTAATACTGATGATACTAATGGTGTATTTCCACCTTGTCCACCTGGTACATATAATCCAACTCTTTTTAATGGAGTTATTTTCATTCCCAAAGCTTCTCCATTATCTCCATAATCCAGCCAAGAATTTCTTAATTGTTTTTTATGAAATTTTTCTATATTTGCTTTTGCCTCTTTTATAGCTTCCAAAAATTCGCCATCAATTTCTTTATAAGCTTCTTCAATCTCTTTTTCAGTAACTTTTAAGTCTTCTTTTTTAAAACTAGCAGAATCAAATTTTTGAGTGTATTTTACAATAGTATCTACTCCATTTTTTTTTACATCACTTAAAATATCTTTCACAATAATTTCATATTTTTCATCAATTGTAAATCTACCTTCCAGTAATTGCAAAACATCTTTTAGATTTTTATTATATCTTCTAATCTCCATTTCTGCCTCCTATATAAATTTTTAATTCTTATTTATATTTTAAAATTATCACATATTATTAATTTGCAACTATTAACTCTCATTCTCCCATTATCTTCCCAATCTCTTTTTTACTAAGTTTCCTATATTCCCCTATTTTTAAATTTTTAATTTTTAATTCTCCTATTGCTACTCTTTTTAAATGTAAGACTTTGTGTCCTATTTTATCAAACATTCTTCTTACTTGTCTATTTTTACCTTCTCTTATGCTTATTTTTACTTCTGATATATTTTTCTTTATTGATAAAAGTTCAACTTTTGCTGGTAATGTCTTTCCATCGTCTAAATACACTCCATTTGTCAACAAACTAATATCTTTATTTTTAATTTCTCCTTTTACTCTAGCTATATACGTTTTATATACTTTTTCTCTTGGATGTATCACTTTGTTAAATATTTCTCCATTATTAGTAATTAAAATAAGTCCTTCTGTTTCATAATCTAATCTCCCTATTGGAAATAATTTTTGCTTATCATCTATTAAATTAACTACCACTTTTCTACCTCTATCATCCTTTGCTGCAGATAATACTTTTGCTGGTTTATTTAGCATATAACATACTAAATCTTTTTTTTCTTCTTTTACTATTTTTCCATTTACCTCAATTTTATCTTCTTTAGGATTAACTCTATCTCCTAATTCTGCTATTTTTCCATTTATTCTTACTTTTTTATTTTTTATCAATTCATCTATCTTTCTACGTGCATCTACTCCAATAGATGATAAATATTTATTTATTCTTATTTTTTCCATTTTTTTACCTCTCCATATTTTGGTAGTTCTTCTATTTTATCAATTCCAACATATCCAAAAAAATCTTCTGTAATTTCATATAAATTTGGATTTCCTATTGCCTCTTTCTTACCACAAATTCTTACTAAATTCTTTTCTTCTAAAGTTCTTAAAACTTTTTCTACATTTACTCCCCTAATATTTTCTATCTCCGTTTTAGTAATTGGACAATTATATGCAATTATTGCCAATGTTTCCATAGCAGCATTAGTAAGCTTTTTAGGAGCTTGAGCTGGATTAAAAAAATTATTTATTGTTTCTCCATATTTAAAATTTGTAGTTAATTGAACTATAGTATCTCCATAAAATTTAACCTCTAAACCACTACTTTTTTTCTCCTCTTTTATTTCATTTAATATTTTTTTTATAGCTATCTTTGAAATCCCAAAAAATTTTGCTAAATCGCCTATTTCTAACCCTTCTCCTGATAAAAACAAAATAGCTTCTAATTTATTTTTTAATTCTTGCTTCATTTAATTAATCACCTTCCATAATTTACTACAATATATTTTGCAATAACTCCATAATCTATTCCTTTATCACCATATTTTTTTATTCCACCATGTAAAATATATTCTGGCAATATATTAGAATTAGACTTACTAAAGTTATCTATTCTATTTTTTAAATTTTCTGCCATTTCAAGTAATCCTAATTCATAATATACATCTAATACATCTAATTCTATCCAAAAGTCTTCAAGGCTTCCACCAAGTATTTTTGAAAACCCATTTTCATCTTTAATTTTAAAATTTTTAGTATAAAAATTTAATAACTCTTTAGTTACATCATTTGAATTAAAAAAATTATTTTTTATACATATTATATCTCTCAAATTAAAGCTTTTAGATTTTAATTTATCTAAAATATAGTTTCTATTAAAAAAGGTTTTATTAAATGTAGTTTTAATCAATTTCATCTCTGTTTCATATTTTGTTATTAGTCCTTTTGGAGCAAAGAATTTTATTGTGTTTCTAAATTTTTCTAACCCATCATAAATTAACCATTGTGATATTGCATAAAATCCATAATTTTCATTTGAATAACTATCTTTTAATAATCCATCTTTTATTTCTGGAAATAACCTGTTTTCTATTAAACCTATTATTGTCCTAAAATATTTTTTCAAAAAATTTATATCTCCGCTCTTATCTATATATTCTGAATATACTCTTAAAAACACCCCAAAGTTATGATAACTTTTTCTATTTTCTAATTTTTTTGTTATAATATTATAACTATATGAATAAATCATACCTAAATTTTTATCTAATATATATTTTAAAGATTTTTTTGCTTCTGCATAATGTCCTGTAACAATAAAAGCCTCTATTTCATACAAATATTTTTCTATTACAATATTGTCATCTTTGCTATTAGATAAAATTAAACCATTTTTATCTTGAGCTGCTTTTAATAATATTATATCTTGCAGTATCATTTTATCTTTTATTTCACTATTTTCGTTCCAATAACTCCAATCATCTACTTCATTGTCTATAATGTAATCAATATTTAAATTGTCCATTTCATCTTTTATCTTACCAAACTTTATAGCTATTCCATCATTTTTTTTATCATAACTTTCTAATTTACCTACACTATTTATTATAATCATATTTTCTATATCTTTCTTTTCTTTTTGGTCATATATCTTTTTTAATTTAAAATTTTCAAAATCTTTTTCAGTAGCTAAATATAAATTGCTATTATCTAATAAAGATTTATAATAAATTTTATTATAAATATATTCTTTATTTAAATTATCATTTATTACAGCTCCATCTTCTCTTTTTTTTATTGAATAAAAGCTTTGTATATTAACCTTTTTATTCATTTCATCTGAAATAAATTCGTTATATATATATATATATCTTATATTTTCAAATTTTGGCGTATATATATAAGTATATATTTTTATTCCCTTGACCATTGAGAATAATTTTATAATATTTGTATTTTGCAAATACCCAGTTGATTTCAAAATATCCCTTAGATAATATATTTTATTGTTTAAAATATATCCTATCTCAATCTCTCCAATATTTTTTTCTATAATTTCACTTCTATTTTCTGCTGAAACTATCTTTTTATATCTAGTATCAAATTTTATAGTTGTTTCTCCATTTGTAGATACTAAAATTGGCTCTGCAAAACTAATAACTGTTATAAAAAATAATCCAATATAAATAAAAAGTTTTTTCATTTCCCCCACCCCTTTTTATAAATTAAAAAATTTAACTATATTATCAAATATTCCCTTTTTCTTTTTATCTGCAATCCTTTTTTTCTCTCTTTCAGTTTTTTTACCTAATTTTAAATTTCCAATCTTTTTCTCTTCATTTTCTAATTCTCTTTTTGTAATTATATCACTTAACATCTCTGCTAACTCTTTATTTTCTTTTATTATTTCAGAAAAACTTTCTTTATTTAGTTTTAAAAGTTCTACATCTTCTAAGGCTACAACTGTTGCTGTAATCTCTTTTCCGGTAAAAAGTGACATTTCTCCAAAAAAATCACCTTTTTTTAATTCTGCAACTTTTTCTGTATCAATTAAAACTGAAACTTCTCCTGAATATATTATGTAAAAAGAATCTCCCTTATTTCCCTGCTTTACAATTGTTTCATTTTTTCCATAAACTATCTTTTCCAGTTTATTTGATATTTTTTCTAATATTTCATCATTCATTCTGTTAAAAAATTCTATCTCTTTTAATATATCATGTTTTTTTATTTCAACTTCATATTTTATATTATCTTGTGCTCTGTGTATATATGATTCTCTAATTGGATAAGGTATCTTTATCCCTTCTCTTCTAAAAGCATACCATATATGTGTCATTAATGAATTTTCTATTGTTTTTTTATTTCCATAATCACTTATCCATATTCTAACTTCATAATCAACTGAAAAATCATTATATTTTATCAATCTAATTTGAGGTAATGGAACTAATAATATTCCTTTTATATCTTTTATTACATCTAATATTACTTTTTTTACTTTATTTGGTGGGTCATTATATGATGTCCCCAAATATAAATTTAAAATGTGGCTTGTTGTTGGATAATAAAAATTAATTATTGAATTTTTAACAATATTTCCATTTGGAATAATTAAAAAATCATTATCAAATGTTAAAATTTTAGTTGTTCTCCAATTGGTTTCAACTACTTTTCCCTCTACTTCATTAACTAATACCCAATCTCCTATTTTAAATGGTTTTTCTAAATTTATAACTATCCCTGATATAAAATTAGTAAGTGTATCTTGCAGTGCTAAACCTATAACCATTGAAAGAACTGCCGAAGTAGTTAATAATGGTGTCAAATCTATTCCTAATTCTATTTTTAAAATCATAAAAAATGTTACAAAATATATTATACCAGTTGCTATATCATTCATTAACTTAGGTACTTTGTTGTTTAATTTTACAAAATAGATCTCTTTAAACATATAATCCAATATTTTTATAGTTGAAAATAGTATCAAACTATATATTATTGAATTTATAACTTTCATATTTACATTTAAAATATTAAATGTAAAAAAAATTTTTGTTGAAACTCCTATTAATATTAATATTAATGGATTTCTTAATCTATTTGTTTTTAATTTTGATTTTATAAAAATATTTATAATAATAAATGTAAAATATATCAAAACTATTATTAAAAGTGATATTAAAAACATATTTATATCTATTTTAGTTGCCATAAACTATCACCCTATTTCTTCCACTCTCTTTAGCTTTATATAATGCTAAATCTGTTGTTTTAATCAAACTCTCACTATCTAAAGCATTTGTAGGATATATTGAAACTCCAACGCTTACAGTTACATTTAAAATTAAATTTTTATGTTTTAATTTCATATTTTCAATATTATATCTTATTCTTTCTGCTGTTTTATATGCACCTTGCATATTTGTATTTGGTAGTATTACAAACAGTTCTTCTCCACCATATCTACAAGGTATATCTATTACTCTCAAACTTTTCTTTATTTGAATTCCTACATGTTTTAACACTAAATCGCCAATTTGATGTCCATAAGTGTCATTAAATTTTTTAAAAAAATCTATATCTATTCCTATTAATGAAACTGCCACATTTTCTCTTTTTCCTCTTGCTATCTCTTCTCCTAATCTTCTCATCATATATCTTCTATTATACAATTGAGTTAATGGATCTGTAATAGACTCATTTGTAACTTTAGCTAAAAGTTTTTCTATTTTTCTATCTTTTTTTATTTTTTCTATTGTTGATGCTGCTTGATTTGCAAATAATTTAAGTATCATTTTATCTTCTTCTCTAAATTTATTTGCTTGATCGTGAGTTAAATTTATAACTCCAACTAATCTATTTTCTATTAACATTGGCACAGATGCAAAAGAAGCTATATGCTCATTACTCGCTTTAAACATCTCTTGTAACCCTTTTGTACTTTTACTTACATCTCTTATTATTATTGTGTCTTTTCTTTGGGCAACTACTGCTTTCATCCCTTTCCCTAATTTAAATTCTATACTTTCTAAAAGCTCATCTTTTTCTCCTTCTCTATATTCAGGTACCTCTTCTAATTCGTTTTTAGAATTTATTAAATAAATCGCTGCAGAGCTATAATCTACAACTCTTTTTATAGATTGTATTATCATTTTAAATATTTCGTATAGATCTTCATTAGTTTCTACAAGTGTAGTTATTTTGTATAAAATAGATGCCATATTTAATCCAACATTCATCTCTTTATATTTTAAAGCTTTTTTTATTGCTCTTGCTGTTATCTCTCCTATTGAATTTAATGTTGTAACCTCTTCAATATTTTTCAATTTTTTATTAAATATTTTATCCACAATCAAAAATCCTATTACTTCTCCATTTGTAGATAATGGTGTTATTGTAAATTCCTGTAATTTTTCCTGATCTTGTTTTACCATTTTAGAAAAATCAACTCTCTTATCATTATAAGCATCTTTTACTCTTATAGTTTTTCCATATTTTTCTGCTATTTTTTCAATACTATTTTTATCTATTTTATTCTCATATTTGCTTACACCATATAAATATTCTACATTTAACTCTTGTTTTTCATCTTTTAATAATATTATTACAACTCCACTATTCATTATGCCTGTCATTATTTCCTTGATTTTTACATATATCTTTTCTAATTCAATATCAAATGACAAATCATTTGCAAATTCATAAAGAGATAATAATTGCGTGTTTTTTAATTTCATTAATTCATATGTTCTTCTCATAGCTTTTCTATCTGCTTCAATCATATCAATTTTACTATATATTTTATTTAAAAATGTATTAAATAACGATGTTACTTCATTAAAATCGCCATTAAATTTATCAGGGAACTTTTTATCAAAAGCTCCATTTTCTAAAGGATTTCTAAATCTATAAATAAATTTTTTCAATTCATTCATTGGATGATAAAAATTATATAAATAGTATAAAAAGACTAACATAAATACTATTATCAAACTGTATATTAACATTTCTAATATATAGTTTTCTATTTTTTTATATCTTTGATATTCATTTTTCAAATTAATATTTATCACTAAAAATCCATATGATTCTATTGGAATATAATATAATAATTTATCTTTATCTTTTAGCCAACTTCCCTTTTTTAAAAATTCTTCTCTTGATATTTCAGGTATTTTTTTTAATTTATACTTTTTACCAATTTCTGTTATTAAAGAAGAATATTTTATTTTTCCATTTTCCATATAAAACACTTTGCTAAGATTATAATTTTCTTTAAATTCCAAAATAGATCTATTATTTATATTTTTTATTAATGTAGGAGTTTTTGCTTCTACAAACATTTTTGTTTGAGATAATAATAAATTTGTTATATTTTTTTTTATACTTTTTTCAAAAAATAGTGCAAAACTTAAAATTATAACTATTGAAAATATAATATATTTAATTACTTTTTTCATGTTTTCCCCCTTAGAACTAATTAGTTTTTTTAATTCCCTTAATAATCAGTTTCTGGTGAAATTAATACACCTTTATAATATTCAAAATCTTCTAATAATTTCCCAATTCCAGTAACTACACATTCTAATGGATTTTCAGCTACCAAAACTGGAATTTCTATTTCTTGTGATATCTTTTTATCCAAATTTTTAATTAGAGCTCCACCACCAGCTAAAACCAATCCTTTTTGATATATATCCGCTGATAGTTCTGGAGGTGTTTTTTCTAATATAACATGAACTTCTTCTACAATTCTATATACTAAATCTGAAATTGCTTCTCCAATCTCTTTAGATGAAACTTTTATATTTCTAGGTAATCCACTTAATATATTTCTTCCTCTTACTTCATAAAAAATCTCTTTATCATCTTTTTCAGCTGTAGCTACATTCACTTTTATATCTTCTGCTGTTTTATTTCCAATTAATAAATTATGCTTCTTTTTTACATATTCAACTATTGCATCATCAAGCTTATCTCCTGCCACTCTTAATGAATGAGTTTGTACCACTCCACCTAATGATATTACAGCTATTTCTGTTGTTCCTCCACCTATATCTACAATCATATTCCCATGTGGTTCAAAAATATCTAATCCTGCTCCAATTGCTGCTGCCATTGGTTCCTCTATTAAATAAACTTCTCTTGACCCAGCCTCTTTAGCCACATCCATTACTGCTCTTTTCTCAACTTGTGTTACCCCTGCAGGAACACATATTACAACTCTCGGATTAGTAAACAGTTTTTTCTTACTTACAATTTTAAAAAATTCTTTCAACATTTTTTCTGTAACTTCATAATCTGCTATTACTCCATCTTTTAATGGTCTTAACGCATCTATATTTTTAGGAGTTTTCCCAATCATTTTTTTCGCATTATTTCCTACAGCACACACACTTTTATTTTTGTTATTTATAGCTATTACTGTAGGTTCATTTAATACAATTCCTTTATGTTTTACATAAAAAAGTGTATTTGCAGTTCCTAAATCCACTCCTATATCTTCAGAAAAAAATCCTAACAATCTATTTATACTTATTTTCATTCTTTAATCTTCCCCTCTATAATTTTTTTATTTCTTCTAAGCTTATTCCATTAATTTCTAAATCGTTTATAAATTTTGATAATGGAAATCCCATAACATTAAAAAAATCTCCATCTATTTTATCTATAAGAATATTCCCTTTTCCCTGAATTCCATATGCTCCTGCTTTATCCATAGGTTCTTTAGTCGCTATATACCAATTTATTTTTTCTTCATCAAAATCTCTCATATACACTTTTGTTCTATTATGACTTATTATCTCTATTTTTTTTTCTAAATTTAAAAATACATATCCAGTTATAACTTCGTGTACCTTCCCTGACATTTTTTTTAACATATCATATGCATCTTTTTCATCTTTTGGCTTTCCTAAAATATTATTCTCAAAAACTACTACTGTATCTGCTGCTAAAACATAGCTTTTTTTATTTTCATTAGCAATTTTAATAGCTTTTTTATATGCAATCTCTTCTACCTGTTTTGAAGGCTTTATTTCATTGCTACTTTCATCTATATCTGCTGTTTTTATTTCTAATTTCATATCAAAACTCTCTAATATCTCTTTTCTTCTTGGTGATTTTGATGCTAATATCATATTTCCTCCTTAAATTTCTTACACAATTAATAACATATCATCTATATTCTTATTATCCGCACTAAGTTTTGCCATTTTCAAAACTTTTTTTCCTTTATATTCAACCATAATCCAATAACTTTTTAATTCCAAATTATTAAATTCAAATTCTCCTTTTTCATTTGTAAAATAAACATTTGATTCTTCTTCTGTTTTAAATATATGTCCCTTTTCTTTTCCTTCAATATTTCCAATTCTTACTTTGGCTCCCTCTACCTCTTTATTTGTTAATTTACTATATACTACTCCTAATATTTTGCCTTTTTCATCTATATTATTTTTTTTATTTCTATTTTGAAATATTGCTATAATTATAAAAAAAATAAATATCCCAATTATATAACTATACATCTATCAAAATCTCTCGTTTATCATTTATGATTCCATTATCTTCTAATTGATCAACTATTCTTGCCGCTCTTGCATATCCTACTTTTAGTTTTCTTTGAATTAAAGATATAGAAACTTTTCCTTCATTTTTTATTATTTCAATTGCCTTTGTAAAAAGTTCATCTGTATCATCAGTAGATTCTGTTATTATCTCTTCTAAATACTCTGGTGAATTTTTACTTTTTAAATAATCTGTTAATTTATTTACTTCTTCATCTGTAATAAAAGCTCCTTGAATTCTAACTAAATTAGGGCTGCCTGATTCTAAAAATAGCATATCACCTTTTCCAAGTAATTTTTCTGCTCCTGGTGTATCTAAAATAGTTCTTGAATCTATTTGAGATGCCACTGAAAAAGATATTCTCGATGGTAAATTTGCTTTTATTGTTCCTGTTATTACATCTGTTGTAGGCCTTTGAGTTGCTACCACTAAATGTATTCCTATAGCTCTTGCCTTTTGTGCAATTCTAGCAATTGATTCCTCTATACTTGCTGGTGCTACCATCATTAAATCAGCCAATTCATCAATAACTATTACAATATATGGTAATTTTTCCACTCCTTTTAATTTATTATACCCTTCTAAATTTCTAACACCTGTTTTAGATAATAATCTATATCTCTCTTCCATATTATTAACAGCCCATTTTAATGCTAATGCTGCTAATTTAGGTTCTATTATTACAGGAACTAAAAGATGTGGTATCCCATTATATGGCATCAATTCTACCATTTTAGGATCTACCATTATAAATTTAACCTCTTCATGTGAAGATTTTGATATTATACTTGATATCAAACTGTTTATACACACACTTTTTCCCGAACCTGTTCTTCCCGCTATTAATAAATGTGGCATTTTTCTAAGATCTACTATAACATTTTCCCCTACTATATTTTCTCCTAATATAACGCTCACTGGTGATTTACTTTTTTTAAATTCTTTGCTTTTTAAAGTTTTAGAAAAATATACTGCTTCTGCTGTATCATTCGGTATCTCTATTCCAACTGCATTTTTTCCTGGAATAGGGGCTTCTATTCTTATACTTTTAGCTTCTAAATTCATAGCTAAATCATCTGATAAAGCAACTATTTTTTTTACTCTTATTCCTCTTGGAATTGAAAGCTCATATCTAGTTATAACTGGACCTCTCTCATAATTAATTACTTTTGCTTCTATTCCATATTCCGTTAAAACTTGTTCTAAAATATCTGTTTTTAGTTTTACTTGTTCTTCTATTTCACTTTTAGTCAATTTGCTTTTTTTTTCTGTATTAAAAATTAATTCCCAATTATCATCTTTTAATTCATTTTTTTTTATTTTATCTTCTTTTTCAATCTCTTTTTCTTCAAATTTATTAATATTTTCTTCTTCTTTTAATTCAAATTGTTTTTTATTCTCAATATTTTCACTTAATATTTCTTCTTCTTCATATTTTATAGATATATTGCCATCTTTATCTATTTTTTTTCTTTTATTTTCTCTTTTTAATAATTTCTCTGCTATTTTTTTCTCTTTTTCTCTCGATAATTTTATATTCTTTTCTTCTTTTTCTCTTAATTTTTTTTCTTTTATTTTCTCTAAATTTGCTATTTTTTCTTCTTTTTTTCTTTTTAATATCATCTTAATTTTTATAAAAGGATAAAGAAAAGAAAATAATATTGATTTTATCATCTTATTCGCAAATATAAAAACATCTATAACTGTAAATGTTATCAAAAAAATTATTGCTCCTGTTTTCCCAAAAAGTGTAAATAGAAATATTGATATAAATGCACCAAATAATCCACCAGAATGAGAATTCCCGCCAACTCTTAATAGTTCCTTTATAATATCCTTTTTTGTACCATCTACGCTTACACCTTTTAATACAAGTATTGCAGACAATAAAACAAAAAATATCAAAAATGAATAAAATTTAACTTTATTCATCTTTAAATTTCTATTTAATAAAAATACAATTCCATATAGAAAAAATATAAACGGAACCGCATAAGTCATTACTCCTAACAGTAAAAAAAACACATTATAAAAATTTTTACCAACAAATCCAATTTCATTTGAATTATTCCCCATTGATAAAACATAACCAATATATCCACCAATTCCTAGAAAAAATATTCCTAAAAGTTCGTTCCTTAAATTTTTTGACATTTTAATTCTCCTTATATGAGATTTTACTTGAATTTTAACATAATATAGTACAATTTTCAAGCTAAAATAGCAGAGAGGAGAGTGTAAAAAAATAATTTCAGCACAAAGACACAAAGAACAGTAAGTTACACAAAGAAAAAAATTTGAAACCACTGGATAAACACAGATTAACTGATAAATAAAAATAGGTGGATAATTATTTGCGTTTATTTGTAGCTAAAATCTTAAAATTATTTTAAATTATATAGCAAAGATTTTTTCATTTTAAATTAATAAGACTATAATTTTAAAAATATATTATAAAAACAATCACATATAAAATAACATAGAAACATAATCTACAACCTCATCAGATTCTATAACCTCTCCAGAATGACCTCTTTTTAATAATTCTATCTTAATTTCATCTCCTATTAGCTTACTATATTCAATCAAAGTCATTATCAATCCAAAACCACATACAGATATGTCTCTATTTCTTACTTCTCTTTCTATCTTCAAGCTATCCATTTCAAAAATAGCATCTATTACATATTGATCCATCTCTCTACCTTTTTTAGGTGTCATAAAATGGGTAAAATCTGATGATGCTATTATAAGAATTTCTCTTCCTAACTCTTTTTTTACCTTATATAATTCATTAGCTAAATAACTACTATTTCTAAAATTTTGAATTCCCATACAAATAGGAACTATTTTAAAATCATAATCTAAATATTTTTGCAAGTATGGAACCATAACTTCTCCAGAATGCTCATACCTCTCTCCCAAATCAGAGATATTTATATTTAATTTATCTCTAAATTCAATATCCACATCTACTTCTCCAAAAGGTGTTTTCCATTTATCGTTACTATCTGCTTCAAGCTCACTTCCATATCCTGTATGGTTTGGATTTATTATTACTATTGTATCATATCTTTTACTTTTCCCAACTATATCAAAAAAATGAACAGCTTCGTACCCTGAATATATATATCCTGCATGAGGAACAACTCCACCGATTATATCTTTTTTAGATAAATCTATTTTTATATTTTTCATCTCTTTTTTATGAATTTCATCCAACAACATATCAATATCCACTTTATTATCTGGATAAAATTTTCCTGCAAATACTGATTCCCTTATTTTCATAAAAAGCACCCCTTTTTTTTAATGTGCAATGGACAATTATAGAATCTTTTATCTTTGCATTGTCCATTATTCCTTATATATTTTGGAATATATGGACCCTGATCCTACAAAACATTAACATATTTTCATATTAAATATATATTTAAATGATTATTTTATCTCCCATCCGTTCCCATCCGTCTTTATCCCGTGGTTAAAATTTTCTTTTTCTCTTTTTTCATTGTCAATTATCAATTATCTTCTCCCCATTCTCAATTATCCCCTCAAACATTCCCCAAATAAACAAAATCCAAATATTTAATCGCTATATCATAACATTTCCTCATTAATTCTATTCCAGTAGGTTCTATTATCATTTTATAGTTTGAAAAATATCTTGTAATGTGTAAAACTGTGTCTCTTCCAAGTTCTTCCGATATCCACTTACACATATTTTCAAATTCTCCCAAATTATCATTTAAAGTAGGAATCAATAAATTTGTAATTTCTAAATGTTTTCCTGATTTTTTTATTAATTTTAAACTCTCTTTTATAGGCTCTATATTTGATTTTGTAATTTTGCTATAAAAATTATTATCAAATGCCTTCAAATCAATATTAAATGCATCTATATATTCTAAAAGGTCACTTAATGGTTTCTTATTAATAAACCCATTGCTTACCATTACATTCTTTAGTCCTAATTTCTTTACCTCTTTTGCCAAATCTAACATAAATTCAAAATATATAGTTGGTTCATTATAGGTATATGCAAGTCCAATACTATTTTTTTCATTTTTAACCATCTCTATTATCTCATTCACACTTACCTTTTTTAAACCTATTTCATCTACACCTACTTGAGATATTTCATGATTTTGACAAAATTCACATCTCATATTACATCCCACTGTCCCAATTGAAATAATTTTTGTATCAGGATAAAAACGATAGAGTGGTTTTTTCTCAATTGGATCTAAATGAATAGCAGAAATCAAACCATAAGTTTCAGCAATTAAAATTCCATTATAATTTTTTCTAACTCTACATAATCCTCTTTTTCCATTTTCTATTATACAATTATGAGGACAAAGCTCACATTGAACTCTATTATCAGAAAGTTTTTTATAATATTTTGCCTCTTTCATACAGAACACCTCCTTTAGGAACGTTTGAAAAATAAATTTCTTATATTTTGTCTCAAAAAAATCTTTTAGCCTCAAATTTATATATCGTCAAATCTTCTATTTTAGTGCCAAATGGCATTCCTGCTTTCTGCTTAACTATTGAAATTTGTTCATCTATAGTATCAACTCCATCTAAATCAGGCAATAAAACTCCTTGCCTTCCAAACTGGTCCACTAAAATTATCCCATATATTTTAGGATTCAGCTCTTCTATATTTTTAACTATTTCAGGTTCTGTTAATACATCAACTGAAACAGTTAAATTTTCAAGTTCATCTTCTGTTACAGCCATAAATCTCGGATCACGACTACAAGCTGATATTGCATTTCCCCTTATCTCCTCATATAAATCTTCTCTTACTGGAAGTATTGTACCTATACAACCTCTAAGTTCTCCATTTTTTTTATGCAAAGTAACAAAACAGCTTCTTTTTACTTTTAATTCTTCACTTTTATCTATTTTTTCTTCTTTTATATTTGCAACATAATTTTTTATAGTTTCCCAAGCTAATTTCACATATATTGATTTTGCTTCATACATAAATAACACCTCCAAATTAATAAACTTATAACACTTAAATAATAACCTATGCTTTTCTAAAAATCAAATTATATTTAAAAAAAAATAGGAGCGATAGGACATCGCTCCGGCTATCTTTGCTTATATTTTTTTACACCATATCTAAACTATCAATATCTATTTCATTAAGCATTTTTTTCAATTCTTTTAATTCAGATTTATTCAAAGTTACACCTTTTCCCATTTTTTCATGTGTTTCATTCCAATCTCTAATATCAGCTTTTGCTTTTCTATCGTTCCAAGATATAAGGTTTAATTCTTTACTCCATCCTTTAGCCCCTTCTCCTATTAAACCTAATTTATCTACAATTTCAAATTTTATTCCAGCCATTTCAAAATCTCCTAAATTTATTTTTTACTCAAATCAAATAACTTCTTAACCTCTTTATCAAAATCAGACTCGATTGGTTGTTTTTTATTATATTCTTTATATTCTTCAAGTGCTTTTTTATCAGCTTTTTCTTTTGAGATTTTGCCCTTGCCTTCAAGAATTTTATATTCATTAAATTCTAAAAATTTAATAACACTTTTTGCAAATTCTGACATAGTGAATGCATTTCTTCTTTCAATAATATTTTCAATATAGTCAAAAAATCCTGAGATTGCTCTTTCCAGTTTTTTTATTTCATCTTCTGTTAGATAGTTCTTTGCAATTGTAACATCACTTGATAATATCCTGCCATCAGGTGCATTTTTCCAAGTTGTTAATCCCATATAAGATTGTTCTTTATCAGCTTTAGTGTAAATGATTTCTCCTGCTGTTTTCCCTGTAATGGCAAAGTGAAATTTATTTTGTACTGTCGCAAAAAAATCTTTTGTAGTTTGTGATTTTGGGTCGTAGTCAATACTACATTCAGCAAAAATATCTGTTATTTGCTGGTAAATTCTTCTTTCACTTGCTCTTATAGACCTTACTTTTTCAAGTAGCTCTCTAAAGTAATCTTTTTCAAAGAATTTTTTACCTTGTTTTAGTCTGTCATCATCAATGGTAAAACCTTTTATGATGAATTCTTTTAAAACTGATGTTGCCCATATTCTAAATTGAGTTGCTCGTTTTGAGTTTACTCTGTAACCTACAGCTATAATCATATCAAGGTTATAGAATGAAGTATTATAGTTTTTCCCATCAGAAGCAGTTATTCGAAATTTTCGAATAACTGAATTTTCATCTAATTCTCCACTTTTAAATATTTCCTTTATATGGTAGTTTATAGTATTTACTTCTACTTCAAAAAGTTCTGACATCATTTTTTGTGATAGCCATAGGGTTTCTTCTTCTAGAAATATTTCTAGTTTTACTTTTCCATTTTCTGCTGTGTATAGAATAAATTGTTGTAGTTTTTGCATTATATCACCTTCCAAATTTTAGAGTATTATAACTTCTTTTGCTTTTTACAATTGAAATTATAATCTATAATATTTTAAAATAAACTATCAAACTTATATTATTTTTGAATTTCTAATAACAATGATGTTATTTCATCTAAATTTTTATTTGACTCAATCAAAACCTGACAACAATTACCGTTATAAAATTTTTGAATTCCCTCTGATAATTCTTTTATTTTATGTTCTTTTATTCTTTTTTTTACTTCATCAATATGAAGCATTACAACTATTATTATCTTGCTTTTTCTAATTTTAATATATGCAAAATTTCTTTTTTTTCTTAATGAAATATAATATCTTTGTGGATTATAAATTATTTTATTAGTTTCTAAGGACAGATTTGTCTTAATTTTATTATATATATCTTTAATTTCATCCTTAACTCCATCCAGATGATATTCTTCTGAATAATTTACAATAGACTTATTTTCTTCACTTGCTTCAGCAATATCAATAGTTTCAATATTTTCAAAATATTTTTTTATAAATACTTCTTTACTATTCTTTTCCAAATCTGATATTCTTTCTACAAAATTAACATGATTAAAGGTTTTAAAAAAGTTATCACTAGATAAGTGACCAAAAGCTCCATGCCTTTCGGCAAAAGTATATGCAACTTTAGTTTTTATAGAAATTTATATCTTTTCCAAATACAGTAAAATTATATTTCTTAATTCTCTGTCAAAATAGTATAAATCAATTACTTCCTTTATATCTACTTTATCATAAGAGTTTGGAAACTATTCAAAAAATTTAAGGCAATTACTAAATTTATAATAATTTACATTTGAAAGAAATTTTACCATTTTATCTTTATTTTCAATGATAATACCTCTCGATTCTAATATATTTATCTGTTCAATAAAAGATTTATGCTCTTTTAAATACTTCATAATTCCTCCTAAAAAAAAGAAACCAGCCCCTGGTACGCTTCCATGGATAGGCGTGGCTGGTACAGTTCTTTATACAATTAATTATAACACTATTTATATAAAAAATCAATTTTTCATTGATATAATAAGTAACTTTCAATTTATTAAATTTTCAATATCATAATTAAAAAATCTTGAATCCAATTGAAACATAAATACAAAGTCAAATATAGACTTACTTGCCTATAACGGTTTTCGTGTCAAACGAAATCAATTAGACGGTTAGCGGAACAATCAGCGGATAGCTAAAGGGCGCACGTTAGACAAGATTAGGGGACGCGACCGCGCTCAACAATCTTGGCTAGCTGTTATGACTCGTAGGCAGACTGGTTTTTATCAAAAATTATTATTACACTTATTTTTCACTTTTTTTTAAAATATCAATTCCGTTTTGCACTGCATTAATTGAAAAAGCTTGATAAATATTATAAAAGAATAGTAACATTTCAAAAAATAGATAAATATTTGCAATCAAGTAAATTGTAGTAAAAAATATTTTAATCAGTATCTTTATTTTTGAATTTAATGATTGTAATGATATTACAACCATAGAATTATTAAGCAAAAATATAATGATAAAATTAAAAAATAAAAGTATCAATATATATATACAAATTCCCAAAAACTGATAATTATATATTTTAAACTTACTAGTATTATTTTGCGAATGTACCAATAATGTTTTTAGTATATTTTCTCCAAGTAGGGCTTGAAAAATAGCATAACCTGTAAAAACTAGTGTGATAAAATACAATGATATATTATTAAGATGACTTACAATTTCTTTTATTTCTAAAATATATTTATTTGAATTTACTTCTATAAAAGTCATTAAAAATATAAAGAATAAAAGAATTATTAGCATAAGAAGAGTCTTTGGTTTAAATGACAAACTAAACGTTGAACAAAAAGATTTTTTTATGACTTTTTCAAAAGAGTCTTCAAGCATTAAGTCTTCAAGACTTTTGGTCAGTTTTTCTTTTATCATCCTTTTTCTCCTATCTATTATTTAACATCATTAGAAATGCAGGGTTATTAAAAATTCTTTCAATTCTCCATAAATTATTTTCATAAATATCTTTATTTTCTTTGCTTAATCCTCTCATCTCACTTTTACTTAATCTAGCCTTTTCTATTAATAAATTTGTATTTTCAACTTCCGAATTATGTTCAGGCAACTCAATTATTAATTCTTCTTTATATTCCTCTTCGCTTACTACTGCAGATTGTCCACTTTTGTCAACTCCTAAAATTTTGGACTTAGCAGTACCTTTTGTCCCTTCAACAAGATTAGCTACTTCATCATAATTTTTTGGGCTATTTATAGAAACATTCCCTGAATTTGCTTTTAATATTTCAATCTCTTCTCTAAAAGAATTAAAAATATCATTTACAATAACTTCTCCATTTAATGGATAAATTTTCAATTCAATTCTATTTATTTTTTGAAGCTCTTCAAGTTGTTTTCTTAATTTTTCTTTTGATGGAAAAGCAACAATATTTAAACTAATATCAGGTAATAAAGAAATTTCCTTTTCTTCATCTTTTTCAAGTTTTTTTCTAATTTTATTTTCTTGTCTAATATATTTTTTTATTATGCCTTTTGTATGAGTTTCAAAATTCTTTATTGTAGGACTTCCTTTTTGATTTTTAATTAATATTAGTCTATGATTACTTAATAAAATTATAAAAAGGGAAAATGGTGCGGTACTGTATATTTCATTTTTTTCAATCAACTGTCCATCTCTTAGATCAGATTTTATTTCTAATTCTGTCTTTTTTACAAAACAGCCTTTTAAAGCATATTCATCTCCAAATTTTATTATTTCAATATCTTTAAATGCAAAATACTTATTTTTTCCCGATTTATTAATTAATTCACTTTTTAATGCTGGATAAATAATTGTATCAAAATAATTTAACATTGGTTCATTTTCTTCACCAAAAGTACAGTTAAAATTTGCTACATTATAATACTTAAACCCTTTTATATTCATTTTTCCTCCTCAATTTTTTTCTAGTAAGAATAGTAACTAAGTTTGCCTATGTGTCATAACGTGCTTATAATTAGACAATGCCTTTGAGTGAGGTACAAACCACCGAAAAGATATTGCTTTAGCATTGTTATACGACGTTCAGTTTGTGATGTCGTACTTCTTTATTCACAAAATTACTATATTTACTTTGCTTATTATTTTATTAAATTTAGAGATTAATTTGATTAATTTGATTTGTTAATATAGAAATAATTTTATCACCATTCACCCAAAATGCATTAAAAGATTTACTGCCACCTAAATAAACTTGATGGTTTTGAATTCTTTTGAGTTCTGTAATAACTTTTATTAACTCTTCCTTATTTGGTAATTCTATATTAATTTTGCCCAAAAAATAAGTTAATTCAGATTGAATCTGTTCTAATATATATTTACCATCGTCAATAGTATAAGTTCCCGAGTCTTTTTCAGTAATCCAATCTATTTTAAAAGAATTAAAATTTTTTTTTAATTCTTTTAAAATATAATGATTATTATCAAAATTATTTTCAAATTTTGTTTGTATATTGTTTTCAAAAGTATTTGATAGATTTTGTGCTACTAAAGTTAAGTGATTATTAATTTTACTTTTAAATTCTGAAATACTTGAAAAATTATCTACAACTCCTTGTTCATAAAGGTAATTTTTAAAATTAGTTAATTTTTCATATTGTAAACTATCTATACTTGAAGGAACAATTGGTGTATTTGAAAAATAAATCATTGTTTTTTTATCGCTACTGATAAATTGATTAATTTCTTCAATAGTTCCAGATTCTTCAACACCAGTTGGAGTCCCTAATCTTGTCCAAAAAACTCCAATAAGAATATCACAATCATTTACAATTTGTTCATTAATAATTTCCTGTGGTCTTCCTCCTAATTCAGGAGTTACATTTGCTTCCCACATTACAGGAGAAAACATAATTTTATAATGAGTTGAATTAATCATGTTCCAATTAAATATTAAATTTTTAAGTTCTTCCCTCTCTTGCGAAACATCTGACGGTGAAGCAATTAAAATTTTGTAAACAATACATTCATATGACATTTTGTCCTCCTATAATTTTTTATTTTTGTGGCTTGCTGAATCGATGTAAATATGTCGGTTGGCATTGATTTATGCGACTGTCCCATTCAGATTTTACTTGCATCTCTGCCTAGAATGCCAAACGCCGAATGACATAGATGAAGTGTGGTTTTCATTTTATCTATCTAGTATTAGGTGAAGTTTTTTCTTAATTCTTTAGAAAATTCAATTCTTAATAGCTTTACATTTTCTCTAACCTCTCCTCGCCATTTCTTTAAATTGTTTACTCTACCTAATTTCCTCTGTAAAAAATATTGAAATAATTTTTCCATTAAAATCTCAATGTTTTTTGGTGCAACTCCATCAATGTAAAGTATATGTATTTTCTGAGATGCTACTCTGATTTCGTCTGGAAATGTATTATAATCATCTCTATTAGTTGCTGATACCAAAGAGATGAAAAAAGAAAAATTTTTGTATTTCTCATTTCTTATCCAAAGATTGAGGTCGCGCCTTCTTTGTAATCTATGATTAGCTATAAGAGAAACAACTTGCCCAGCAAGACCACCAGCAAGTAGTGAAGATAGAATTTGATTTAGTTCCAAAATAAACACTCCTTTAAATTTTAATATACTAAATATCGTATAACGGATTTGCAGACAGACGCAGTCTATGAACATACAGCAATAGCGTAGTGAGAATAAATTGAGTCTGCTGACATGTTAGTAGAAGTGAATCTTATTAAAAGTCTAGCTCTTCACTACAAGAAGTACAAAATCCATTTAACGCATCAAATTCTCTGGATTTTTTTAAACCGCATGCAGGACAAACAAATCCATTTGAATCATCATTCATACAGCTATTACAAATAGGCTCCCCTCTACTATTAAAAAAAATACCTTCATTTTTTCCGCATTCAACACATAAATCAGCACTATCTGTAAAACTTTCTTCTTCCATTTCTATATAAATATCATCAATTCTAATTTCATAATTTTCATTTATGTCATCAGAAAATAATTCAATTTCTCTACTAATTTCAATATCAACATACCCCTTTAAATGATGAGTTATTGTGTTATCTGATAAAATAACCTCTTTTGTATCAGAATCTCTTCCCCAATATATCCTTGAGAAGGCATCAAGTTTTATTTGAAATTTTAATTTATAATTAGCCTCACCAAACTCATAACCTTCAAAACTATATTCTAATAAATTGATTTCATCTATTTCTTCAGATAACTCAAACTCTGAACCATCATAATTTGATAAACTTGACGTATTTACATAAGATTCACCAGAGTAAATTAGCTTCTCATTTATTATATTTTGAATATCTCCGCTCTCAATTAAAGAGTTGATATAATCATCTAAATTGAATTTAAATATTACATCTACTTTATCTGGTATTGATAAATTTAAGATTCTTGACATATTTATATAAAACTCTTCTGAATTTAATCCAATAATTTTTCGTTTTGTATAATCTTCAAATTCTTTAGTTAATTGTTTATGAAACGTTTTCCCGTTTTCCCACCAATCTTCTTTGACATCATCTGTTACAAATATTAAGTTTTTATTATTTTTCTCAGCATATTTTAAACATTCTTTCCATATAATTAAGTCATTGTATTTATCAATTCCATCCTTTGATTTTTCATCTTTAAAACCAGGAGGGACTTGTTTTTTGTATCTAGTTTTTCCTTCTTCACAAATTTTATATAGTTCGTTAATGCTAAGTTCAGGAAAATATCGATTTAAATCTTCCATGTTTACAAAAAACTTTTTAACTTTATCTTCTGAAAAAATATCATCACTTATATTTTGAAAAATGTCATGATTTTCTACATATTCATCTAAAGTAAAAATTATTTCATTAAATTTACTTTCAATATTTTCTTTCAATTCATTGATATTAGGAAACTTAAATCTCTCAAGAATTAATAATTGCTTATTAATTCCTTCTTTTGAACTTTTGATTTTATTTTCAAACTCTTTTGGAATGTTCTTATACTTCTTTTTTTGACGTCCTAAAGCAGATTGATTATTTCGTGAAAATTCTCTTTTTACAGTTGCTGGAATCATTATTTTGTCTTTGAGTTTCTCTAATAAATTAATAAAAAAATCCCCAATTTCTGGAGAATATTCGTATATATTTAAATAAACACTACTATCCAATATTATTATATAATCTTCTTCCATAAATTTATTGATTTCATTTTCTAGCTTCATGTTATTCCTAACTCCCTTCATAATTAGATTTCTACTGTAGGGTCGAGCTCGGATGCACATCCAAACTATGTTTTCAGACCCCGCCACCTCAAACCGTACGTGCGGTTCTCCCGCATACGGCTTTCCTATTAACTTCTTTTCAAATCATATAAGTTTATTCTGGTATAACTTTCACTCTGGTATATATTTTACTTTATAGTTATCAAATAACCCTATTTCATTATATAACCAATCATTACTCCATCTTTTCCAACCATATCCCTTTTTTCCTCGTTGCTTCATTAGGTACCTTCTCAATTTCTTCTCCACATAATTTCTTACATATGAAAAACACTTTGATGAGTTCCCTATTGAAAAATAATTTACCCACTCTCTTAATGTTGTATTTAGCTCATTTACCAGTATTTGAAATATTCCTAGTGTTCTATGTCTTCTTACTACTTCTTTTATCTTTTCTAACAATCCTTTCCTCTTCTTTGATTGTGGTATTGTCAGTATTCCCCATTTCCCACTTTTATTCCTTCGCCTTTTAATTATAAATCCTAAAAAGTTTATTACCCCACCTTTTTTCAAATCTACTACTCTTGATTTCTCTTTATTTATTGTTACCCCCATTTTCTCAAATTTTTCTTTCAACCTTTCAATTACCTTACTTAACAACCTTCTCATACTTGAATGACTTGATACTGTTACTACTAAATCATCTGCGAATCTAGCATAATCTAGCTCATAATATTTACCTTTTTGCTTGGTTACTTCTTTTGCTTTTTCTAACATTTTATCAATATCATTTAAATATAAATTTGCAAATAACAGGGATATTACTCCACCTTGTGGCACTCCTGCTTTTCCACTAGCTTTTAATATCAATTTTATTAAATATAATACTTCTTTATCTGATATTTGCTCCGATATCTTCTTTAACAATATATGGTGTTTTACTGTATCAAAGTAATTTGATACATCTAAATCGCTCACTTTCCATTTCCTTTTGGTATCTCTTGTTTCCTATCCTTTTTGGGTTTATATATCTTTTATACTCTTCTTGTTTTTTTTTAAAATTATTTTAATAAAGTTACTCTCTGTCTTTATCTCCCTTAAATTCTACTATATTTATTCATCCTATGTCAATGTTTATCCAACGTCTTTATGTTTAATGCTTCACCAATTTAATTAATTCTTTATTATAACTAAATTTAACAAATATTATCTTTTGATTTTTATATAACACTTTCTTAAATCAAATCTAAACTAGAATTTTTAATCACTTCTCAATATTTTTTTAACATTTTGCTAAAAAAATATTAAAAAAAACAGCACAACTTATTTTCTAAACAAATTTATACTTTACTAAGTAATAAAATTATTTTTATTTACTTCAAAACTTTTATTACAGTAGCAATATTTTTCTGCTATCAAATCATTATGTTCCTGCAAATCCACAGGAAATATATTTTCAATCTATCTATCCCCATCCAAAAAATCAAAAACAGGTGGTGGAGCCACCTGTTTCATTTGGGGAATGAAAAGAAAAGCTCGTAGAAATTTTCCTTTATCAAAAATATACTTAATTTATATTAATAATTTATTATACTCCTCCATAAATCTTCTGTCAAACCTCACTTTTGTCCCAAACAGATATTTTTCCGACCTGAACAGGCACTTTTATGACTCAAATAGATACTTTTATGTCTTAAACTAAAAAATTTAATTTTTTTAAATATCCCTCTTAAAAAAATACAGTATAAAATAATTATAAATTTTTAATATGAGTATAACCCCAGATAATCACTAACTTCTATTCATATTCTTACTCCCTCAATCTTTTCTTAGTGTAACTTAGCGTCCTCCTTTCTTTGTGCTGAAATTATTTCCCCCCAAAAAAGTTAAAACTATAATCAAAACTTATTCTCAATTTTTACTCATACCTAAGCGCATCTATAGGATTTAATTCCGAAGCTTTTTTAGCAGGATATGTCCCAAATATCACTCCAATTCCACAAGATACAACTATAGCTAATATTAATATAAAATAATCTATAATTGGTTTTATTCCAATAAATGTTCCTACTATATTGCTTAATAATATTCCTAATATTATTCCAATTATCCCTCCTAAAACACTCAGAAATATTGCTTCAATTACAAATTGAAATAGTATATCTATCTTTTTTGCTCCTAACGCTTTTCTTATTCCAATCTCTTTTATCCTTTCGGTTACACTTACAAGCATTATATTCATTATACCTATTCCGCCTACAAATAAGGATATTCCAGCTACAGATGTCAAAAGTAGCGATAATGTAGTAAGTATTTTATTAAATGAGTCTAATTGCGAAAATTTAGCTGAAACTTCATATATATCTTTTTTATTATGATTTTTTTCTAATAAATCCACTATCTTACCAGATGTATCATCTTTTTTATTAACATCATTTACTAAAATAGTTATAGAAGATATTTGTACATCTTCTACATATTTTTGAAAAGTAGTATATGGAATATAAAATTGATAATATTCTCTCCCAAATGAACTCATAAGAGCTTTCATTTGATTTTCAAATACTCCTATAATTATAAATCTAGACCTGTTTTTTTTCTTAAATTGAAGCTCAACTTCCTCTCCAGCTACATCTAGTCTTCCAAATTTTTTCATAGCATACAAATCATCCACTAATATATATTTCTTACTTTTTTCTATATCTCCTTTAATAAAACTTCTTCCATATATCATATTTAAACTGTTAATGTCTTTCACATATTCATTAGAAGATGAAAGCCCTCCAAATCCTCTTGTTTTTTTAGTAATTGCTACTCTCATTCTTGTATGCATTGAAGGAGATATTGCTTTTACATTCTCTAATTTTTTTATTTGCTCAATATCATCTTTTGTTATATAATCTCTTTTTGTTAATATTTGGTCTTTAGATTGAACAGATATAGTAACTTTTTTATCTGCCAATTCTATTAAATTCCCAGTTATTGACTGCTGACTTCCTTTTCCTATCATAGAAATCATTATTACAGATGATATCCCTATTATAATTCCAAGCATAGTTAATAAACTTCTTATTTTATTACTATTTAAACTTTTAATCGCAAAATTTATTATCTCTATAAATTCCATCTTTTCACCTCTTTTTTTTTCAGAGTCCTCTTAGAAAGTCTAAAACTCTTAAAATACCTATAATTCTTAGCATTTTAAAACATTGCTTCCACCTCTTCTAACTCTTTCCTAAATTCCATTATCTTATTCTTATGAACGTTTAAAAAATAAGCTTCTTATATTTTATTATCTCCTATTACCAATCCATCTTTTACAGTTATTATCCTTTTAGAATTTTTTGCTATCTCCTGCTCATGAGTTACCATTATTATAGTTGCTCCTTCATTATTTAATTTTTTAAATATTTCCATTATCTCTATTTCAGATTTTGAATCCAAATTTCCTGTAGGTTCATCTGCTAATATTATTTTAGGATTATTTACTATTGCTCTTGCTATTGCAACTCTTTGCCTTTGTCCACCACTTAATTCATTTGGTTTGTGATGCATCCTATCTGTCAGCCCTACTTTTTCAAGTGCTTCTTTTGCTTTTTTTATTCTAGTTTTTAAATGTACTCCGCCATAAACCATTGGTAACTCTACATTTTCAAGTGCATTTAATTTAGCCAGCAAATTAAATGATTGAAATACAAAACCTATTTTTTTATTTCTGATTATAGCTAATTGATTATCATTTAATTTTGATACATCTTCATTATCTAAATAATAATCTCCTTTAGTTGGAACATCAAGACAGCCTAATATATTCATAAGAGTTGATTTGCCACTTCCACTACTACCTATTATTGATACAAATTCCCCTTTATCTATATTTATACTAACTCTATCTAACGCTTTTAAAATTATATCTCCCATTTTATAATCTTTTTCTATCCCTTTTAATTTTATCATTTTCATCACCTCAATTATTATTTGATTTTTTTAATCTTATTATAATCTCTTACCTTGGAGGCCCTTGAAAATTATTCTTACTATTTTTATTACTACTTCTTTTTTTACTCTTAATCTTACTTCTTATATGAGAAACTGGATTCACCCTTTCACCATCTATTAATCCTGATGGATTGACAATTATTCTTTCTTTTTCATTTATTCCTTTTATATTAGCCACAAAATCATTTTTATCTATTACTTTTATATATTGTTTTTTTGCAACTCCATTCTTTAACGTAAACAGAAATGCTTTATTCCCCTCATTTTGAATTGCAAATGCTGAAACTAATAACGCATTTTTTTTCTGCTTTGTAATTATCTCACAATTAACTTCATAATTAGGTTTTAAATTTTCTCCATCATTAAATTTTATTTCTATAGGAACCACAATATCAGTATATCCAGAACCACTCTCTTTTTCTGCTATTTCTGATATTTTTGTAATTACTCCTACAATTTTTTTATTTGATTTCAAACTTTCAGAAGTTACATTAGCTTTCTGCCCAACCTTAACATCTTTTATCTCTGTACTTATTACATTTGCTGTAATTATTTTAGAATTCATATCCTCAATTGTCATTATATTTTGATTAGTATTTATTTTAGCATTTTCATCGATTTTTACATCTGTAACAACCCCATCTACAGGAGCTGTTATTTGCAATATATATCTATCTAAATTTTCTTTAGCATCTTTCAAATTTAGATCAAGTTTTTCTATATTATTTTTAGAAATTATAATACTATTTTTTTGCTTTAATGTATCTAAATTATAACTTTTTATCAAATCATTATACTCTTTTTCATTTAAACTTATATCTTTTTTTAATTGTTCTATTCCTTTACTGTTTTCTTTTATGTCAGTAACTTTTTTCTCAATATTTCCTTCTAAACTTTTTATATCATTCCCCAAATTTTCAACATCTAATTGACTAATTCCACCTATTTCCAATAATTTTTTCTTTACTTCATAATCTTTATTTTTTGTTTCAAGTTGAGCAACTAAAGTTTCTTTTTCTAATTTCTTTATTCTTAAATTTTCTTCATTTGTTGTTATACTATCCTTTAAATCTTCTATTGATTTCTCCTTTTTTAATACTGCTGTATTATTAACTTCATAATTATATTCTTTTAATTTAGCTTTTTCATTTTCTATATCTAATTCTATTCTCTTTATATTTCTTAATACTAAATTCCTATCATATGGATTAAATGTTACTAAAATATCCCCTTTTTTTACTCTATCTCCAACTTCTACAAAGATTTTTTTTGCTGTTTCTGCCTGAGCTAAATACACATTAACTACATTTTTTACTTCTACAACTCCATCTACTTTTATTGTTTCTAAATAATCTCCTTTTTTAGCTTTTTCTACTACAACATCTTTTATTTTAGAGCTATTCTTACTATTTTTACTGTTTTTTTGAATGTAGAAATATCCACTTCCTAAAATAATCAAAATTACTACAAATATCGATATTTTTTTCAATTTTCTCACTCCTTCTTTATTTTTTAAACGTTCTTTAACCACGAATATACCGAATTACCTCGAATAAAATCTTTTAAATTCGTTAACACTAATGTCATTCGTAGTTTCAATCTTTTTTCTTTTTTTTGCAATTTTTTTGATTTTATCTTTAAGCTATCACCCTAAAGTCCCATTCTATATTCTGCATATTTTAAAATGTAATCTAATTTCAAATTAATCAAATTAATCTTAGAATTCTCCAAATCATTTTTTATTTTTAAAAATGTATTTATATCTTCTACTCCATATTCATATTGTATTTTTACAATTTTATAATTTTCCTCCAATCCTTCTATTTTCTTATTTTGATTTTCTATTAATAATTCATCATTTTTTAATTCATAATACTTTTTCTTTATTGCTATAATATTCTCTTTAATAATTTCATCTGAATTCATCTTATTTATTTTCCCTGTTATATCGCTATTTTCATATTCAATTTTTTTCTTTCCGCCATCAAATATATCATAACTTAAACTAACCCCTAAACTCCAATCCCAATCTTTAAAAATTTTAGAAAGTTCGTCAGAATTTGACGAATAATTAGCATTAAAACTTACTACAGGATAATCTTTACTTTTTATAATTTTTTTATCCAACATATTTATATCATTCTGCAAATTTATATTCTTTATATCATCGCTACTCTTTTTATAATTTTCTATATCTTTTTCTAAATCTATATACATCTTTTCATACTCAATATTTTTTAATTCTATCTCTTCATTTTCTCCTGTTATCCTTTTTAATTCTTCTATTGTTATTAAATAATTACTATTATTTTTTATCATATTAGCTTTTACATCTAATATTTCAGTTTCAATAGTTAGTAAATCTTGTTTTTTTCCTGCTTTTTCTTTATATAACAATTTTTGCTTTTCTTGTTCTTTTTCTAATTCTTTTAATGAATTCTCATAAATATTTTTTTGATTTTTATATTTTAATATATCCAAATAATTTACTAATATTTCATATTTAATTTGTTTTTTTTCTTTAGAAATTTCTATATTTTTCATTTGTATATTTACATTCTCTTTTTTTTTGTTATATTTTTTTAATCCTCCATCAAATATTTTTTTATCTAATGAAATTGAATTAGAATAATTTAATTTCTCCCTATTTTCATCTTTGTTTACTCTATCACTAAGTTTAATAGTTGGAAAATTATCAGTATTTATGATTTTTAGATTATTTGATATTTTTTTTAATTCTAAATCTTTAACTTTTATTGTACTATTGTTTTTCATAGCACTATTTACCAATATCTCATATGTAACTTCTTTACTATATGTAAATAAAGTTATTACTAAAATTAATATTAATATAATCAATTTTTTCATTTTATTTTCTCCTTTCTTCTGTTTTAAATATAATATCGAAATAGAGGAGCTACTTGCTCCTCTATTTTATACGAATATTAATATGCTCTTTTAACTCTTTTAGGTTCATTGCCTCTTTTAGGTCTATTTCCTTTTCTTTTCTTTTGAAATTTCATTCTTTTATCATTTCTTTGTCTCATTTCTCTAAATATCATTTTAAATTGTGCTTCAGTTATATATTTTTTTAATTCTTCTTTTACTTTCAAAATTTTTATTTTAGCTTTTATTCTATATCCTGATGATTTTTTCATTAAATTTTCTATTTTAACCCAATCTTTAGTTTCATCTAAAAGTAAATATTTAATATCTAAATCTACTTTTTTAGCTTCTATTTGATTTTTTTCTATTTCAATTTTTGCTAATTTCGACAGATCTAATGCTTTTTCTATATTTGCTTCACTAACTCCTGCTTTTATAAATACATCTTTTGGAATATTTTCCAAACCTGCAGAAAAACTAAATGCTGACAACAAAACTCCTATTAATACTACTAAACTCTTTTTCATCTTTATCATCTCCTAATTTTTATTTTATAAAATTTCAAATATTTGCCGGCAACAATTTAAAATTTTAGTTATAAACCTAATAAATCATCATATATGCTTTGCTTTGTTCCTAAATTTACATTTACTGTATCTTCCAAATTTACATTTTCTTGATATAAAGTCGCCACATAAGCTAAATTTTTCCCTTCAATATTTGTTCTAAAATTATTTCCAAAATATCCAACTGTAACTACAAGAAATAAAAGCATCGATACTATTCCTCTTTTATATAATCTATTCTTTGCTTTTTCCTCTTCTAGTAATTCTTTATATATATTTATTTTTATTCTATCTTTTCTATCCATTTATCTCGCCTCCCATTAAATTTAATGCTTTATAATATTTAGCTTTTACAGTAGACAATTTCATTTTTAAAAGTTTTCCTATTTCACGAAATTTATATCCATAAATTGTATGAAGTACAACTATCTTTTTATTTTCTTCGTCTAATTCATCTATCTTTTTATTTATAAATATTAAATCATCAATTATTTCTACATCATCACAAATATGATTATCTTTTAATTCAAACTCCTCTTTTTTCTTCCTAAAAAAATCATAAGTTTTGTTTATAGCTATTTTATATATCCAAGTATATATATTTGATTTTTTGTTAAATTTTTTCAAATTTTTATATACAGATATAAAAGCATTTTGAACTATATCTTCTGCATCTTTTTCATTATTAACCATTGAATATACTTTGTTAAATATTCTATCAAAATATTCATCATATATATCATCAAAATTGTATTTCATTAATTCCTCCAATTTTTTATCTCTTACACTTTATTAGACGCATGAAATTCCAAAAAAGTTATTAAAAAAAATAAAAATCCTGATTTTTTTTTCAGGATTTTTATTTCTCCCCTTCTCCTAAATTAGGAGAAGGGGACGGGGGATGAGGTCTATGCCTCTAATTAAAATTCTTAACACACTAACATTAACTTTTTAATAAATTCAACTACCTTTTCACCCTATAAGTAAATTTCAAAACATAAGTAGAGTCTCTATTTATATCTATTGGAAAAATAATTTTTTTAATACTATCTTTAACATACTTTGTATTAGAATTCAACATTTCCCAATCGCCATACAAACTATGCTCTATATTTATTTTTATTTTTTCATTTTTATGATTTTTTATTGTATATTTTATAGTTTTTTCATATATTCTTTTAGATATCTTTTTATAATTAATCTCTTTATATTCAACCTTAACATCAAAGACTTTTCCTGCTACAACTTTTATATTTTCATCTTTTGGAGTGTGATTTATTCTATCTTCTCCAACAAATTCACTGCTATTATCTTCTAAATCTTTTTTATATATCTTTATTTTCCCTTTTGGAAATGCTATTCCCAATCCATTATTTTTACTATTCTCAAATGAAACTATAACTTTTGTCTCTTTATTTGTATTACTATATGAATAATATTTTTTATATTTAATATTATTTCCACTTATAAATTTTATTTGTTTTGATTGATTGTTTTTTACATTCAAATTTCTATTTAAAGTATACATATGATAATCAAAAAAACTTTTTTCTTTAAAATTGTCTTTTGGAGAATTTGAAGCAAGCATACTTCTTTTCATTAAAAATAACCCTTCATTATTATTAGCTCTATTTACATCTCCTGCTATTAATTTTAATTTTGTATTTTTATAATCTTTTCCAGAATTATTATTTATATTTACCCATCCAATTAAATTTAGTCTCTTATTTTCTAAATTTATAACATAATTTGCTTCCCATTTTATTCCCTTTGTCAAATAAGATACTTCTAATTCATTACTAGAAGTTCCCTCTTCAATATCCCAGATTAATGCTGGTTTTAATCTTAATCCTTCTATCATTTTAGGAAGTATTATTTTATCTACCCCAACTCCAAGATATATTTCACCGCTTTTTTTATCTTTTAAAACTATTCCGCCTTTTACACTTAATAAAGTACAGTTTATTTTAGACTTATTTTTTGTGTATATTACATCTTCGCCTATATATTTTTCTAATAATTTATTCATACTAACTAAATCATACTCATAATTTAAAGATAAAATATTAACTCCGTTAACAATTATAGAATCAGGCTCTATTTTTTGAGCTACATCTAAATAATTTATAATCTTCTCGCTGTTTGAAATATTTGAACTATCTCTAATTTCCCTAACTAATCCAAAGCCACCATTATATATTGTTAAACTGTTTTCTTGGATATCTTTTGAAGTAGAACTATATTCTGCAAATGCCATATTACTGATAATCATTAATAATATTAATATTCTTTTCATTGTTACGCCTCCATTTTAATTTATTTTTATAATGCTTTTGAAATAAGGAACTACCCTACAACCAATATCTTCACACCTATTCCGATTAATATAATCCCACCTATAATCTCTATTTTATTTCCAAATAAATCACCCAATTTATTCCCAAGATATACACCAATTACAGAGATGAAAAATGTAACTATCCCAATTATCACAGATGGCTCCATTACATCTATTTTTAATAATGAAAATGTTACTCCCACTGCTAAAGCATCTATACTAGTAGCTATTGCCAATAATAATAAATTTATCATACTCAAAACATCTTTTTTAGCTTCTGATTCCTCTATTACAAATGATTCATAAATCATTTTACCTCCAATAAAAAGCAACAATAAAAATGCAACCCATCTTGAATATTTACCAGCATATTTCACAAAACTATTCCCTGCAAGCCATCCTAAAATTGGCATTATAGCCTGAAACACTCCAAAAAAACTACCTATTTTTATAGAATGTCCTATTTTTAAATTTTTTATTGCAATTCCACTTGAAATCGAAACTGCAAAAGCATCCATTGCTAGCCCTATCGCTATTAATAAAATTGAAACTAAGCTCATAATCATAATCCTTTCTAAATCACATTTGTAATTAGGAACATTTTTAATAATGTTCACATCTATAAAATTCACCAAAACTACTTTTTTATATCTAACTATTTTTTTCCACCATAAACAGAGTAATTATAATATTTCCATATTACATCAATATCTTTAAACCCTATTTCTTCAAGCCAATTCAAATGATTTATCAATGTAGTTGGGCTATCTTCTTCTTGATATTTTTCTAACCAAATATTTTCTATCTCATCAATCGAACAACTTTTTTTCATAAATTCTATCCATTTATTCATATAAACATCTTGAACTTTATAATTAGAACCTAAAACTACATCTGCATTATAAAACACTCCATTTTGAGATAAAGCATTATAGATTTTGTTATAAAATATTTTTTTATCCTCGTCTGTTACCAAATGATGTAATGCTAGTGAAGATAATATAACATCATATTTTTTTAAAAATTCGAAATTATAGAAGTCTCCAACATAATAATCGACATCATTATATTTTTCCAACTTGATTTTAGTCATCTCTATCATATTTTTAGACAAATCAACCGCAGTTAATTTAGCATTAGGAAATTGTTTTTTTACTTTATCAAGTATATTACCTGTTCCGCATCCTAAATCTATAACCTCTATTTCACTATTTTTCTCAAAAGGTATAGATAAAATTAATGCTTCAAGCATTTCTTTATAAAATGGAATCAATTTCAGTATTATTCCATCAAACTCTTTAGCCTCTTCTTCAAAATGATTTTTTATTTTGTCAATTTTCTTTTTTTCTTTCATTTCAATTATCTTCATTTATCAAATTCACCAACACTTTCACAATAATATCTTTTTCTTGCGGTCTACTTTCTGCTATCATAAGTGTAATAGCCACAAGTGCATTGTCAGCTATTCTTTTGCTCCCATCTTCCTTATAAATTATATTATTAATTCTCATAAAATATATAAATATTGCAGCTGCAATTCTTTTATTCCCATCTGAAAAGGAATGATTTTTCACAACAAAATATAACAAATTAGATGCTTTTTCCTCTATACTTGGATATACTTCTTCTCCAAAAGCCGTTTGATAAATTGCCCCTAATGAACCTTTAAAGGAATCATCTTTTTCATTACCAAATAAATCACTTGGAAATTCTGATTTCATACTTTCTATTACTTTCATTGCTTCTTCATATCTTAATATATACGCTTCTTTTTTTGTAGTTTTTCCAATTTGTAATATCTGATGATCATATTCATCAAGTATAGTAAGAGCATATGTATATTCGGAAATTACTTTTAAAAGACCTTTTGCTTCTCCTAATTCTATTTTTTGATTTTCAATAGTTCTATTTAATATTTTCATTGTAGTTTGCAAATCTTTTAACTTTTGATTTTGTTCTTTTAGTCTTTTTTCATTTATTGTATATCCGTTTATCAAATGTTGTTTTAATAGATTTGTTGCCCAAATTCTAAATTGAGTACCTCTTTTTGAATTCACCCTATAACCTACTGAAATAATTAAATCTAAATTAAAATATTCTATTTCTCTTTTTACTTCTCTTCCGCCTTCACTTTGAACTGTTGCAAAAAATGCAACAGTTGAATCTCTCATTAACTCTTCACTATTATAAATATTTCTTATATGTCTCGAAATTACTGATTTATCTCTTTCAAATAAGTCAGAAATTTGATTTAAACTTAGCCATACAGTCTCCTCTTTTAAATTAACATCAATAGAAATATCCCCATCATCTGTTTTATAAAACATTACCTCTTTATTCTCCATATTAATTTCACCTTCTCTCTAATTCTTAAAATATCCTCTTCCTAATTCTATTTATCGTAGCCCCTATCTCAAATCTCCTTGCAAATACCATATTCCCACTTTCATATTTTAAAAATTTAGTTATATTTTGAGAATTTATCTCTTCTTCTATCTTTTGCAAAATATCTTTTAATAATAATTTTCCACTATTTTTATTTATTATATATTTTATCACATTTCCAATAAATTCAACTTGTCCCTTTTCTACAAGTTGTTCCAGATATCTCAAATCAACTTCTTCTGTCCCTATAATTATTTCATCCAAATCTCTACTTTTGATTTTATCTTTTTTTTCTATAATTTTTCCAATATTTTTTATATCCAAATATCTATTTCTAACTTTTACCTCTTCATCCAAAATTTCTTTTGTTATTGAATAGTCTTTATATTTTTCTATTACAGCCTTAGCTTCTTTTGTTATATCTTTTACTTTATACTCATCCAACATTAAAACTGTATCTGCAATATCAAAATAATCTCCTAATCCACCAACTACAACAATTGTAGATATTCCACTTTTTTCATACATTGCTTGAATTCTCTCTACAAATGGAGTTATTGGTTCTTTTTCTTTTTTTATTATCTCTTGTATTTTTACATCTCTCATCATAAAATTTGTAGCTGATGTATCTTCATCAATTAATAATAGTTCTGCACCTAATTCCATACTTTCTATTATATTAGCAGCTTGCGAAGTTGATCCACTTGCATTTTCTGTATAAAAATTTTCTGTACTTTTCCCATATGGCAAATTATTTATAAATGGAGTTATATCTACTCCTGATATTCCTCTTCCATCTTCTGCTCTTATTTTTACTGCATTATAATTTGTTATCACCATTTCTCTACCATCATTAGGTATATGATTATATATCCCTTTTTCAATTGCATCTAATAAAGTACTTTTTCCGTGAAATCCACCGCCAGTTATAATTGTTATCCCTTCTTTTATTCCCATCCCTTTTATTTTATCTCCATTTTGTAGTTCCAATTCAATTTCAAATTCTTTTGGAGACATAAATTTTATAGCATTTTTTAACGGCTTCTCACTAACTCCACTCTCTCTTGGTAATATTGATTCATTTGCAATAAATGCAACTAATTTTCTTTTTTTTATCTCTTCTCTAATATAATCACTTCTTTCATTTACCTTTATATGTTTTGTTAAATTTTCATATCCAACTTTTTCTTTTTTTAAATATTTTACAACATTAGGTAACTCTACAAAAATCATCTCTTTAGCCTCTTTTGATAAAACTCTTCTCCCTGCAGCAGGCAATCCCATATAAAATCTAATTTGCAATATATCATTTTCTATTTCCACAGAACTTCTTTTTAATATCTCTTGCCCATTTCTATAAATAAATATAGCCCCGCTTTTACCTGTTCCTCTTTTACCTTTTGCTTCTTTCCAAATTGCTTTTTCAAAAACTCTACTTACATAATCTTCAAATGCTACTTTTTTTGAAATATTTGAATACATTTCACTATTATATCCATATTTTTTTAAATCTATCTCTACTTTAAGTAATGAAGGAGATGCAAATGGATCTCCTTGAACTTTAATTATTTCCAAAATATAATCATTAAAATTATATCTTCCTTTTATATCTTTGTATGCTCTATAACCTTTGCCATCTATCTCTCTTAATTTTGTATTAAGCCTTTTCATTCCTCTTCTCCTTTTAAATCTTTTATATATTCTGCATAAAAATTTTCACCTAATTTTATAATTCTTTTCATTTCTGAATTTTTTATTCTATAATATATATTTAATCCTCTTTTTTTCCCAATAATTATTCCTGCCTCTTTTAATATCTTTAAATGTTGTGATAAATTAGGTTTACTAAAATCTAATTCTGGTTCTATTTCACATACACATTTAGGCTCTTCTGATAATAACTTTACAATTTTATATCTAAGTGGATGCCCCAAAGCTTTAAACATTTTTGTAATTATCTCTTCTTTCATTTTTATCTCCTTTATTTTTATATTTTTTTATAATTCTCTTCCTTAAAAAACCTCATTACAATTTTAACATAAAACATCAAAATTATAAATACTATTATTGAAAATGCAGCTGCATACCCATACCATCCTTCTCTAAAAGGCCAATAATTAAGCTCCATTAATATTGTCATATTGCTTTTTCTACTTCTTAATATGTTTATTACATTAAATTGATTAAATGTCCATATTATACTTAAAATAACTCCTGGCATTATAACAGGTTTTAATAATGGTAATGTTATATGCCTAAATTGTTGCCATTTTGTAGCTCCATCTATACTAGAAGCTTCATAATATTCATCTGAAATTGATTTTAATCCTGACAAAGAAACTATCATTAAAAATGGAAAACTAAGCCATATATTTACAACTGTTGCTGAGAAAAATGGCAATGAAACAAAATATCCTTGTGTCGCGAAAACCGTTCCTATAATATCTCGCAATATTGGTATTTTAATTACATCATCTACTTTTATAAATGATCTATTTAACCAATCTACTTTGCCTATTCCAAATATAGATAAAAATGGAGCTAATATCATATTAAAAATACCATATTTTTTATTTAAAATTATTTTCCACATATATGCAGTTATATAACTTGGAATTGCCCAAGTTATCATTAATATACTTATATAAAATCTTCTAAATCTAAGCGTTTTTTTATTTAATATAAGAGCTAACCCTAATCCAAGTCCCAATCCAAATAGTATATTCCATATACTCCACCATAAAGTCATAAAAGCTACATTCCAAAATATAGAGTCTTTATTAAGTAATATCCACATATAGTTCCCAAGTTCAATAAAATTAAAATTAGCATAACCTGTTTCTAATGAATAATCTGTAAAAGATAAATATATTGATAATATTACAGGGAATAAAGTTAAAATTATAGTTCCTAATATTGCTGGAAAAATAAATTTATATGCAAGAGAAGCTTTTTTATATTTTTCAATCTTTTCTTTTGTCATAAATTTAATTAATTTTACAGTTCCAATAAAAACTACTGCAAGCCCTAACATTATAAATATAAATGGCATAACTGAATTTTCACTTTTCACCATATTTTGTGCTTTCATTACACTTATTATTATATTATAAATGCTATATAAAATTACACTCCAACCAAATATTATCACATATAACCATTTCCTACCAGATTTATTTTCTATATTATCTTCAATTTTTTCTATATATAATTCTTTTAATTTTATATATAATTTTGAATAAAATTCTGCAGCAGCGATACTCATTACAGGTATAAAAATAAGTGTATATTGTGGCCATTTTGTAGGATAAATAATTAAAAATATTGCATTTACAAAAAACCATGTCCCTAAAATTCGATTTTTTTTATAAAGAGCTTTTGCTCCAAATACAGCTCCAATAAAAATCAAAGAATCTATTCTTATAAAAAAAGCATTAAATGGCTTCCATGGAACACTTTGTAAAAGCCATATCATTTGCATATAAAAAGGAAATCCTGCTTTTTTTACAAATTCCCCAGTAGAATAATTTTTATGAAAAAGTATTGATTCTTTCAGCCTATGAAATGTATCTGTCCATAATATAGGATCAAAAATAAAAAATGTTGCAAATGCCACTATTCCATATATAAAAAACAGTTTTCTATTCTTTTTCGTTTTTATAAATAAAAATGGCAATATTGTTATTGCAGTTGTTGCAGTTATATATTTTGATGCAAAAGCCATTCCTATAGCCATAGCTGAAATCAAAAAATATTTATCAAATTTTTTACCATTCATTTTAATAAAAGCAAGTATTGCTAAAGTAGCAAAAAATGTAGCTCCACTATCTAACATTGCTTCTGCTGAATATTTTATTTGCCAGGTTGAAACTGCCATAAATATTCCTGCAATTGGATTTATTAGATATATAAGAGCAAGATGTGCTACAGAAAATAAAACGGATATAATTCTTGATATATTAATCTGTGCAATAAATGTTGTAACATCCATTCCAAATAGACTTGCTAAATATATCCCTATTCCATATATTAATTTAATCAAAATAGGATGCTCTATATTCTCTTTAAAAGTTATAATCTTATAAAAATCTCCTAATTTCAAATAATCAGCATATTTTTTTGCAATTGGTACATACACATTTTCATCAAAATCAATTCCAAGTTTAATAGTAGCATGCCATCTCAGTAGAAAAGAAAAAACAAGGAAAAGAAGAAAAAACAGCATAAATTTTTTTGATCTTTTTCCATTCAAATTCATTAACTTCCTCCCATTTTATAAAATTATTTTATATAAAAATTTTATTTCCATCACTAAATGAATGATTTTTCACAATAAAGTATAGAAGATTTGCTGCCTTTTCCTCAATACTTGGATAAACTTCTTCCCCAAAAGCTGTTTGATATATTGCTCCAAGAGAACTCTTAAATGATTCATCTTTCCCATTTCCAAATAAATCAGTTGTGAATTCATTTTTCATACTTTCTATTACATTCATTGCTTCTTCATAATTTAAAAGATATGCCTCTTTTTTACTTGTATCTCTCATTTTAACTTCTTGATGGTCATATTCATCAAGTATTGTAAGTGCATAAGTATAATCAGAAATTACTTTTAAAAGCCCTTTAGCTTCTTCCAAATCAACTTTTTTAGTCTCAACTGTTCTTTCAAGTATTCTTATTGTACTCTGCAAATCTAATAATTTTTGATTTTGTTCTTTTAATCTTTTTTCATTTATTGTATATCCTTTTATTAAATGTTGTTTTAATAAATTAGTAGCCCATATTCTAAATTGAGTACCTCTTTTTGATTTTACTCTATATCCAACTGATATTATTACATCAAGATTATAGTATAAAGTATCATATACTTTCCTATCACTGGCAGTATGTGCAAAATTTGCACTAACTGAATTTTTATCTAGTTCTCCTTCTTTAAAAATATTATTTATATGTCTTGTAATTACTGTTCTATCTTTTCCAAATAACTCAGCCATCTGCTTTTGGCTTAACCAAACTGTATCTTTTTTTTAATTTACATCAACAGAAACAGTTCCATCATCTGCTTTATACAATATTATATCTTTATTTCCCACTTTTATATTCTCCTGTATTTAATTTTTTTCAAGGCCAATTCTTTCATAGATTATCTGGGCGTGCCAACGGCACAATGTCGTCAAGTTAATGACAATTTATAATTTTATATCGGGTTTGCCAACGGCAAAACCCCTACATTATAAAATAAATTAATACTGTAGGGGCTTGCCGTTGGCAAGCCCAGTTCTTAGCTTGATGACATTACTCTGAATCTACCCCAAAATCCCATATCCATAAGATTATAGACAAAAATAAATTGCCCCTAGTAATTTTTTAAACATTCCCTATTAATTTTTTTCCTGTCTTTTTCACATATTCATTTACTAACAAAATATACATAGAATGGCTTAATATATAAGGTGCTATTGAAATTGATTCTCCAGTATGAGGATGTACTTGCTCTGCTAAAATTCCTGAATCTAAAGTTTTATCTTCTGCCCATTCTAATATCTCTTTAACTTTTTCAAAGTTATCTATTTTCAAATAATAAAATCCTGCTAATAATGTTGTATATACCCAAGGATTTCCAGGTATATTTTTTATATCTCTTGTTAATTGATGATACCTATCATTATTAAATCTTGCCATTCCACCAATTTCACTTTTTATCCATAATTTATCTACTGTTTTTTCAGAAGTTAATAATAATCTCTCTTTATATTTATCATAAAAATTATCAAATAACAAAGTTAATAACATACTACTATCATATTTAATATCCTTTTTATCTTCTCTATCTCCATTCTCTGTAATAGTTGTTACAAATCTTTTTTCTTTTTCAATCCAAAATTTTTCAAATAAATTATCCAAATAATTTATAGATTTATCAATTTTTTCTCTTAATCCATCTCTATCAAAAATTTCTATAAACTCTTTTGAAACTACTAATGCTTCATATATTGAAGCTATTGTATAAAAATGTATCCCTTTTTTTTCTTCCCAAATATCATAACTCGAAAATGGCATTTTAGTTCCTTCATTAATATACTCCACTAAGAAATTTAATGATGGTTCTATCAAATCATCATAAATATCTTCTATAAACTTCATATCTTTTGATATTTTATAATGTTTATATAATGCGATTAATAGCATAGATGTATGATCTTCTTGTATTGGAAGCTGTAACTCTCCTTTTACTATCCAAGAATGTGAACTAGAAGCCATAGATCCATTTGAATGATATTTATTCCAAAAAAAACCACCTTTTGTTATCACGCTAGTTAAAAATTTAAATATTCTCCTACTAACTTCTGTATATCCTGCTTCATCCAAAGCCATTGCTCCTAAAGCGGCTTCTCTTGGCCATATATAATTATATGTATCTCTATTAAATTGAACATGTTCATAATCAACAGAACTTATTAATGCTCCATTTTCATTAATATGACTTTTTATAACCATTATACTTTTTTTAAATAAATCTTTAAATTTATAATCTAAATTACTAAAATCAAGTTCCCTCTTATTTATAAAATTTTTCCAAAAATTATCTGTTTCTTCTATTAAATTTTCTATCCCTCTACTTAATACAAAATTATTTAATTCTCTCATATCTTCAAAATTTTTCCCTGCACCTATCCAATAATAAAAAGTTTTTTTAGAATTAGCTTTTATAAAAGTTTTCAAACTAAATAAACTATTTATTCTTCCTTGTGCAATTGAATTCATCTCTAATTTACCATCTTCTGCATCTTTATAATTATATCCTTCTCCTAATGTAATATTCTCTATGTTATATTCATACATTGACTGTCCATCTACCATCCCATTAAAAATAAAATATCTTCTTTTTTTATATTGAATTATCCCCTTTGTAATTGGATCATAAAGCCCTGTATTATTTTTATTTTTTCCATATAATTTTAGATTATGATGAAAAAACACCATAATCTCTTTATCTTCTTTATTTAAATTTTCAACTTCAATTTTTCTCAAAAAAATATTCTTTTTATAATGTACTGTTGATTTTTCTCTGATTTTTATATTCAAATATTCTGTACTTGCGACAATATCTGATACTAAAGAATCCTTCATATATTTTATATTTTTTTCCCATTCTTCATCTACCCAAGAAAATTTACCATCTACCCAAAATCCTATCCTATTTTTGTCCTCTTCAAGATGATTTTCCTCCCCAATATGAGGGAAATATATATCTCGAATACATAAATTAGAATCATAAGTTAAGATCAAATTTTCATTTCCAAGAACAATCTCTCTAGCCACAATATCACCCCTTTTTTGATTAACAATTATTATTATTAATTATCTTCTCTATTCTTCCCTCATAGTATAATTTTCAAATTTAGTAATTTCATTAAAAAATCTAAGATGTACAGTTCCAACTGGACCATTTCTTTGTTTTCCTATAATTATCTCTGCAATCCCTTTTAATTCGCTATCTTCATTATAATAATCATCTCTATATAAGAATATAACCGCATCTGCATCTTGTTCTATAGCTCCCGAATCTCTCAAATCAGAAAGCATTGGTCTTCTATCTGATCTTTGCTCTGGTGCTCTTGATAATTGAGATAATGCTATAACTGGAACATCTAATTCTCTTGCCAATCCTTTTAAAGAACGAGATATTTCTGAGATTTCTTGTTGCCTGCTTTCTCCGCCCCCACTTCTTCCGCTTATTAATTGTAAATAATCAATTAATATCATATCTAATTTATTTTCAGCTTTTAATCTTCTTGCTATAGTTCTTATCTCCATTACAGTTACATTTGGAACATCCGCTATATATATTGGTGACTCTGCTAGTCTACCTGTTGAAATCCCTAGCTTTTGCCACTCTTCAGGTTGAAGAAATCCATTTCTTATTTTATTTAATTGAACTCTTGCATCTGCAGCTATTAATCTTTGAAATATTTGAGAATTTGACATCTCCAAACTAAATATTAATACACCTTTATCTTCATGAACTCCTGCATTTAATGCTAGATTTAATGCAAATGCAGTTTTTCCCATACTTGGTCTTGCAGCTATTATTATTAGATCCGATGGATGAAATCCAGAAAGCATTCTATCAAATTCAGTAAATCCTGATGATATTCCTGTAACTTCTCCTTTATTAGCATAAACTGTTTCCAATCTTTTAAATTCTTCATCAACTAAATCTTTTACAGATACTACTTCTTTATTTTCCTTATTTTGTGCTATTTTAAAAATCATATTTTCTGATTTATCTAAAATTTGATCAACTTCTTCGTAACCTTCATATGCTATTTCAACAATCTTAGTCCCCACATTTATTATTTTTCTAAGAGTTGATTTTTCTTTTACTATTTTTGCATAATTAAATATATTAGCTGCTGTAGGCACTGCTTCTGCAAGTGTATAAAGTGTTTCTTCTCCACCTATTTGCTCTAATTTATCTTGTTTTTTTAATCTTTCTGCTAATAATAAAGAATCTATAACTTCACCTTTTTCATAAAATTTTAACATTTCATCATAAATTATTCTATGAGCTCCTTTATAAAAATCATCAGGTGCAATTATATCTACAACTTTACTTAATGCATCTGGTTTTATTAAAATTCCTCCTATAATTGATTCTTCTGCTTCTAAATTAAATGGTATTTGTTTTTCTTGACTCATTTTTCCCTCCACAATTATCTAAATTTTCTAAAAACATAAGCGACGTTATCCGTCGCTTACATTAGTTCTCTTATAACATCATCAATAGATTTTACTATGACAACTTCAATTTCTACATCTTTTGGAACATCTTTTCTATTCTCATATGGAATTAATACTTTTTTCATATTCCCCTGTATAGCTCCATATATTTTTTCTACTACTCCACCAATTGGTTTTATTTCACCTTGAATAGATATTTCACCTGTAAGTGCCACATCTTGCCTTATAGGTCTATCATCTAATATACTAACTATTAATGCTGTAATTGCTGCTCCTGCTGATGGTCCATCAACTTTTCCACCACCAATAATATTAATATGTATATCATAATTTTTTACATCTTTTTTAGTTATTGCCCTTGCTACAGTTAATGCATTAAATAATGAATCTTTAGCCATACTCCCTGCAGTTTCATTAAATCTTACATTTCCTTTGCCTTTTTCTGCTTCAAATTTTATTCCTTCAAATTCTATTAAACTTCCCATATAGCTAGAAACTCCAAGCCCAAAAACTCTTCCTACTTTTTGGCTGTCATCCCCTTTTTTAGAAATAATAGGATTTAATCTATTAATTTTTATTACATTTTCCACATCTATTTTTTCTATTTTAATATTTGTTACCTCATCTTCATCCTTTAAACTATATAATATTGAGCTATACACATCTGATAATATATTTATAGCTTTTCTTCCTTCTATAGTATAATTTGCAATTAATTTTTTTGCATCTTCAGATATTTTTATATCTAATTTTTTTGCTGCTATCTCTACAATATTTTCTATATTTTTCATTGTCAAAGGCTGAAAATAAACTTCTGCAACTCTTGATCTAATTGCAGGATTTATCTCATTTGGAGTCCTAGTTGTAGCTCCTATTAATACGAAATCAGCTGGTGCTCCATCTTTAAACAGTTTTTTTATATATTTTGGTATTTTTGGATTTTCTGAATCATAATATGCTGATTCAAAATTAACCCTTTTATCCTCTAATACTTTTAATAATTTACTTTGATATTGTGCATCCATTTCTCCAATTTCATCTATAAATAAAACTCCACCATGTGCATCTGTTACAAGACCTGGTTTTGGTTCAGGTATTCCATCGCCCGCAAAATCTTTTTGTGCTCCTTGATAAATTGGGTCATGTACAGAACCAATTAACGGATTAGCCATATCTCTAGGGTCCCATCTCAATGTGGTTCCATCTACCTCTATAAAAGGTGATTCTTCTGAAAATGGAGTATATTTTATATTTTTCACTATATCTAATACTAACCTAGCAGCTGTAGTTTTCCCTACTCCTGGTGGTCCATATAAAATAACATGTTGTGGATAAGGTGTAGCTAATTTTGTTAATAATGATTTTATAGCTTTTTCTTGTCCTATTATCTCTGATATATCTTTTGGCCTTAAAATTTCCATTATAGTTTTCAAATTATATCTATTTTCCAATTTTTCTAAATTATTATACTTATTTTCAGTAAATTCTGTCTCTGGACCTGATTCATCAGACAATATTTTCTTTTTCATCTCTTTTATAAATTCTGTATGTTTTTTTTCCATAAGTTCATTTACTTTTTTATTAATCTCAGCTTCAACTGTTTTATATGATAATATTTCGGCTATTTTATTTTCTATTTCAGATATATATTCAGGAATTTCATCCTCTTCATATATCATCTCAACATTATCTTTTTTCCCATTAGCTACTACTAATAAAGCATATAATTTTTTATAAATCTCTTCTGATTGTAATTCTTGCAAAACTCCTAATTGACTTGCTTTTAATACCATCTCTTTTGAACCATATATATTTCCTAACATTCCATATAATATAGTTACTTGCTTCTCATAAAAATTTTTATTGAAATCTTTTCCATTTTTTTTTAATAAATTCTTCACACCTATTTTGTTAAAAAAATTTTCCATAAACTTACTCTCCGATTATATCAATTATTATTTTAGCTTTTACTCCAGCATATAATTTTAATTCTGCACTATATTTCCCAACAGATTTTATATGCTCTTTTTCCAATTTTATTTTCTTTTTATCAATTTCAAATTTCAAATTTTCCTTCAAAGCTTTTTCTATATCTTTTGATGTTATTGAACCAAATATTTTACCATCTTTACCAGTTCTTACTTTTATTTGTAATCCTTTCCCATTAATTGTTTCTGCCAATTTTTTAGCTTTTTCCACCTCTTTTGCTTTCTTTTTACTTTCTTTTTCTGCTGCTTTTCCTAATTTATTTTTTTCCTCTTTTGTAGCTTCTATTGCTAATTGTTTAGGAGCAAGAAAATTTCTAAAATATCCTTCTTTTACTTTTTTTATTTCGCCTTTTTTTCCAACACCTTTTATATCTGCTTTTAATATAACTTCCATTTTTAAATACCTCCTAATTTTTTATTCTTATTTTTTTATTTTTCTTTGTTTTTATTATTATCCTTTTTATTAATAATTTTTTTCTTAAATGAATCCATATCTATCAAACTAAAAAATCCACCAATATAAAATGTTATGCTATAAAGAAACATTGTAATCATAACAACTAATAAATTTGATAATATTTTACTTTTTAATTTTTCTACTAAAAGATAATAGATCTCTTTTGAACCATAAATTACATATCCTAATTTTATTATCATTATAAAATTATTTATATATATATTTTCAACTTTAAATATATATTTTATTATAAATGCCACAACATATCCTAATAAAATATAATATGAAATTTTCCATTCTTTAAATTCCTTATAATCTAACATATAATAAGTTATAAATACTACAAAAAACAGATAAAAATAAGCTATAAAAAATCCATATAAACTCATATATGCAAAAACTTCATTAACAGCCACTTTACTTATTCCAAAACTAATATAAGTTTTTTTTGCTAATTCTACTGCATTTATTATATCTTTTTGATTAAAATAAAAAAATATGTATAATAACCCCAACAAAGCAAAAGATATAATTATAATTTTATCTATTTTTTTTATTTTGCTTTTTTCTAATAAATAATATAATAACTCTATGCTCAAAAATATTGAATACACAAAAATTGCAATTTTCAAATCAAATATTAATGCTACTAAAGCAAAAATTATAATTTCACTTAATATCATATTTTTTTTATTAATCCCATTTCTATTTTTTATACTATATCCAGGAACAACTCCTCCAAATGCAGGAAATATCATTGATAATATTATAAATATAAATTTTGTAATTATAAACCTAACCATTCTTACTACCTGCTTTCAATTTTGATTTTAACATATTTAATTTACTACTAAAAGCAGATTTTAAATTTATATTTTTTAAAGCTTGCATAGCAAAACTTACTACAAATCCCTCTTTATCATCAAGAGCTTCTTCAAGCGAATCTTTTACTCTCAAATTTCCTATAGCTCCAAGTGCTTTTGCAGAAAATCCTCTCACAAAATAGTTACTATCATTTTTTAATCTCTCTATTAACTTATCAATTATCTCATCAGCTTTAGAAAATTCAGATATCTCTGTACATTTTATTCTAACAAAATCATTTTCACTTTCAAACAGTTGTAATATTTCTAATTCTAGCTCTTTTGATATTTTTCCACCATTTGTTAATTTTTCTCCTATTTCGCTTAAAATTCCAAGTTGATTAGTATCTATATCTTCATTTTTTAATTTTTCTATTAAATTTTCCATAAAATCTCTCCTAACTTTTATCATATTTTATGATTGAGTTAAATATATATTCTATACCTGTATATATACTATTTATTTCAATATATTCATTTTTACTATATCTTTTACCACCGTTCGCAATTCCTACTGTTACTGCTTCAATTCCTTTTTCTAATGGAATTGCTATTTCTGAGTTAGTTGGACCAGTATAGATATTAATTTTTCTTTCTTTTGCAACATCTATAAAAATTTTTTCAATATTATTCTCTTCCACTTTTTGTATTTTTCTAAAAACTTCATCTTTAATTTTAACTTTTATATTTTCTTCTTGCCCTACTCCCAATATAATACTTTTTACTATATTTAAAGCAGCTTGAAACTCTTCTTCACTATTGCTTCTAATCTCAATTTTAATCTCTAAATTTTCTGGAACAGTATTATAATGTATGCCAGTTTCAATTCCTGCAATATTTACCACACTATTTTCTCCAAAATCTTCATTTTTTATTTTTAATATAAAATTTCCTAAAGCGTCTACTACAGAGCTACTTACTACATTTCTCCAAATGTGTTTTCTTATCCCTTTAAATAAAATTTTACTTCTTTTCAATCCAACTGTTGTGCTATGTATTCTACCTAACCACAATCCATTAATATTAATTACACCCTTTATAGATTCTGATATCTCTTTTTCTAATAAAAATTTCATTCCTGAAAAATCACTATTTCCATTAACTGTTCCAACTAAATATATTGTATGTTTTAATTTTTCCTTACTTAAATACTCTCCTAATATAGCTAATGATATTACCCCAAGTAAATTGTCTCCTACCCCTACACCTATTAATTCTTTTCCTGTTAACTTTATTTTTCCAACGTCTTTTACAGAATCTAAATTTGTTGAGATAACTATAGCTTCATCTTGATTTTCTCCAATTATCTTTGCAACAACATTTCCAGCTACATCTATTTTCACATTTTCTATTCCATAACTATATAAAAGCTTCTGTAAAAATACCGCTTTTTCAATTTCATTCACTTTTTCGTTTTTTAGTTTTGATAAATCAATTATATTTTGAATTATTGTATTTTCTTTCTTTCTTAAGTCACTTTTCATATAGCTACTCCTTTATATTATCATAATGTGTAACTCTATTCCTTCCATTTTCTTTTGAATAATAAAGTGCAATATCACTTCTTTTTATAAATTCTTCATCACTAAGAGTCTCATTCCCAAAATCAAATGTATATACTCCTAAACTCATATTAACTTTTAGTATTTCACCATTATAAACTATTTCTAACTTTTCAATCTCTTTTCTTATATTTTCAGCAGCTTGAATAGCCCCTCCTCTATCTGTTTCTGGTAAAATAACTACAAATTCTTCTCCACCATATCTAGCTACTATATCTACTTTTCTTGTTTTTTTCATCATTACTCTAGCAACTGCTTTTAAAACTTCGTCTCCTGCCTGATGTCCATATGTATCATTAAAAATTTTAAAATGGTCAATATCTGTCATTAAAATAGATAATTTCTTTTTATATCTTCTACCTCTTTCTATCTCTTCTGTTAATCTTTGTCTAAAATACCTATGAATATATAATTTTGTCATCCCATCAGTTATTGCAAGATTATACAAATTAGAATTTGCTACTGAAACAGATATTTGGCTTGCTAAAGTATTATACACTTCTACATTATTTTCGCTATACCCTTTTTCTGCATATTTCATTCCTAAAAATATAAATCCAAAAAAATTGTTTTTAGCTATTAATGGAACTAATACTTCTATATTAATTTTTTTAAAAAATTCTTTATGTTTTCTATAAAATTTTAAAATTCCATTATCACTTTTTTTTAAATTTGTAATAATAAATATCTCTTCATTTTCTTTTACAAACTCTATATCTTCTTTATCTAAAACTATTTTTTCTCCTATTAAATTCTCATTTATGTCTCCACGAATATTTTTTATTTCTAATTCTTTTGTATCTTGATCAAAATATGCTATAGCTGCTTGTGTTGTACCTGCAACTTCTGCAAACATATCAATAGAATTTTTTAGTATTTCATCTAAATTTAATGTAGAAAATATCATCTTTGTAGCATAATTTATTGTCATTAAATCATATATCTTTTCTGTTAATTCCACATTTTTTTTCTCTATATAATTTGACTTTATTGCATTTTCTAATACTATTTCTATTTGTCCAGAAATAGTTTCTAAAAATTCAATATCTGTTTCACTGTATTCTCCAAATTTTTTTTCCCCTAAAACCATAACATATCTAAGAATTTGGTTCCCACTATCATCATCTAACCCTTTAAAAGCTATTGTATAACCACTTTCTGAATTAGTAAAATCAATATTCTCTTTTAGCTCCTCTACATCTAAAATTTCTATATTTTTAATTAAATTTGATGATAACAATTTTTTTATAAATTCTCCATTATTTAATATTTTAATATCATCTTTTTTCACATCAAATCCTTTATCTACAATCAATTTCAGTTTCTCATTTTCTATTCTAAAGAAAGCTCCTTTTTCTATAGACTCTACTTCAAATAACATATCAGCTATAATTCTTTCTAAAGTTTCCAAATCTTTTTCTCTTACTAAGGTTTTTATCATTTGATTAATTGCAATAAATTTAAAGTTTTTATCTGTACTTTCTAATTCTACATTTTCTATCTCTTTTTTTTCTTCTTCTAGTAATTTTATAAAATTTATGTTTTTTTCTTGTAAATTGTCTATGTTTAATTTTAATTTTTCTACTTTTATTTTAAGCAATATAACCCCTATAAATAATATTGCACTTATACACAAAAATAATATTGACACTAGGCTCATATTTTCATCCCCTTAATTTTAAAAAATACTCTTTTATATAAGTTCTGCTATATCTTTTGCTATTTCTAACATTGAGCTATTCTCTTTTGATAATTCTTCTAAAAAATAATATTTATAGAAATCTTTTGCAACTTGTCTTGCTGTATTTGACATTCTTTTATCAATATCATTAGCATATTTTATTATAGTTGAATATTTTTTATACATTTTTTGCTCTCCTATAATAAGAAGTGCTATTTTTTTTATCATCCACCACTCTTCTATATCGCTCAAAATAACATCTATTCCATTATCTAATAATTCTGATTTATAACTACTAAGAATCATTAAAGTTTTAGCTCTTATTTCTCGAGAAACTAATTTATCTAAAGCTATCTTTAATAATTCATCTTTTATTTCTCTACTTTCTCTATCTGCAATTTCTCCTAATATTACATCTAATACTTTTTCTTGCCTTGATTTTAATATTCCCAAAATCACTTCTTCAACTCTCTCATCTTTAAAATTCAAAATTGCTTTTATTGATTCTGGAAATAATGTTTCTATCAAGCTTCTATCTTCCACTAACATTCCCAATACTTTTTCATCACCTAATTTAGAGAGTGCAATTATTACAACTTTTTTTAATTCTAAATTGGAATTGTTTATATACCCTTCTATATAAGGAATAGCTATTTTTTTTCTAGCATCTCCTAATGCAGATATTACGTTTCTTAAAATTCTATTATCATCTTCTTCTTTTATCATTTCAATTAATGCTTCAAAATATTCTTTATTATCTATATGTTCTAATGTTATTATAGCTAACTTTCTATTCATCCACCATTCATCTCTATTTTTCATTACGTCCACTAACTTATTTATCACTGCTTTATTTGTTTTATTACTTTCTAACGCCAATATAGCCTTTGCTTTTAAATCTCTATCTGCACTATCTAAAACAGAAAATAAAAACTCTATTTTCCCTTTGTCTGATATTTTTGCTATATTTTCTATTATAATTGATTTTAATTTTTTACTTTCTGTAGACTTATATATTTTTTCCAATATTTCTAAAATATTTTTTAACTTTAATTCTCCAATAGATTTAACTATTAATATTAATAGCTCCTCATCTTCTGTTGTTTCTATCTTTTTTCTTAATAATATCTCAGCTTTTTCTTTTGGAATAAGTGTAATAAAATTAAGTAATGTAAGCTCATCTGAATCATTTAAAAAACTTTCAAAACTTTCTGATTCTTTCAAATAATATCTAATTTCAGATTTAATAAAATTATCACCATTAGAATAGATTTTTAATAAAACTTTTACTGACTCTAATGTATTAAATTTTGCAAGAGTCTCAATTACTTCCTTTTTTATATTATTATCTTTTGATTTAAAAAACTTTTCTAGTTCAGGTATTGCATAATAAATATTTAATTCTCTAATTGCAATTAATATCATTTCTAAAATCTCTTTATCTTCTTGCTCAACTAATGGAAAAAAATTCTTTACAAAATTTAAATCCCCTATTTCAGTTAATGATAAAATAGCTTTAGCTCTAATCTTTTCATCTTCCATCTCATTTCTTGCTATTCTAGTTAATTCAGATATAGCTTTTCTTGATTTTAATTTCCCTAAATTCTCAATCATCTCTATTTTTTGTGCTTTTGTTATATTTTTAGACAAATTTTCCAAATATAACATTTCATCATATGCCCCCATATAAAACACCTCCAAATAAAATCTAAAATATGTTTCCCTCTAAGGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAGAATGTTTAAAAATAATTTTATATATTTTGTTATAAAAACGCTTGAACCATTGAGTATTTTAAAACAAAATGAAAAGGTTATTTTTAAATCATTCCTAAAACATTGCGTATTCTAAAGCAAAATGGGAATGTTATTTTTAAGCCGTTCCTAAGATATAATTTCCCCATCAAAAAAGTCCACAATACCTTTTACCACATCTTCTTTATTTTCCTTTTTTTTTCTATTTTCATTTATATCAAATTTCACTTTAATCCCTTTTCCATATAACTCTTCAAGAATATCTACTAAAATTCTATAATTCTCATTTTTTTCCATTGAAATTTTATGATAACTATTTTCTTCTGGAAATGTTATATAAACTATATTTTTAACTACTTTTGTCGGCTTTGCCATATTTAAAAAAGCTACTAATGATATTTTCCTGTTTTTACATTTATTTAATATATTCTTCCAGCCTGATTTTATAACATTAATATCTAAATTTAAATTAATTTCAGAACTTTCTTCTATAAATTCACTGTTATTATTTTTTTCTATATTATTTGGAGCAACTTCAACTATACGCTCTACCACTTTTTCTATTATTTTGGGTTTAGATTCTTCTTCTAATGCTTTGTATAAAATTAAATATCCTAATAATCGCTTATCTTCTTCATATCTAAATTTCGAAGTTATATCAAAAATACTTTCTATTAATTTTACAGCTCTTGTTAATTCTATTTTCCCATTTTTATTTAATAATTTTTCTTGTAAATAATATGCAAAATCTTTAAAAATCTTTTCACAATCAATACCCTTTTCCCAAATATTATTTAAAAAATTTACACCTTTTTCTAAATCTTTATCTGCAAAAATAGATTCTAACTCACTTAATAATTCCTGTGGTATTACTCCTAAAGCTTTTTCTGTTTTTTCTTTTGTTATCTCTTCACCGTAACATGATGATAATACTTTTTCAAAAATAGAAATAGAATCCCTTACGCTGCCTTCAGATTTATTGTATATCAACTTTAAACTCTCATCATCAATAACTATTCCTTCTTGAACAGCTATATATTTTAATCTTTCTGAAATATTATTAAAATTAACAGGTCTAAAATCATATCTTTGACACCTTGATATAATTGTGTCTAATACTTTATCAGGCTCTGTTGTTGCTAAAATAAAAACTACATGACTTGGTGGTTCTTCTAATGTTTTTAATAATGCATTAAAAGCTTCTTTTGTCAACATATGTACTTCATCTATAATATATACTTTTTTTCTTCCTTCAGTTGGTTGATAGTTTATTTTATCTTTTAATGCTCTAATCTCGTCTATTCCTCTATTTGAAGCAGCATCTATCTCTATCAAATCCATAAAACTTCCATTATCTATCCCTAAACAATTTTCACACTTATTACAAGGATTATCAGTTATCCCGTTTTCTTTACAATTTAATCCTTTTGCAATTAATCTTGCCAAAGTTGTTTTACCTGTTCCTCTAGGACCAGTAAATAGATAAGCATGTGAAATCCTATTCTCTTTCAAACTATTTCTAATTGTTCGAACAATCACGTCTTCACCATATACTTCTTCAAATTTTTTTGGCCTGTATTTTCTATACAGTGTCAAATACATAATTTACCTCCTACTCTAATCCATACGCATTCATCTTTGACCTAAGTGTATTTCTAGTTATTCCTAAAAGCTCTGCTGTATCAACTTTTTTTCCATTTGTACTTTCTAGCAGTTGTCTTATAAGTTCTCTTTCTACCCTCGATATTATACTATTATAATAATTTTTTTCTTTATTTTGACTTAATATAGATAATTCTCCCTCTATCCAATCTGCTAAAATCCAATCTTGAATATCTCCATGTCTTTTAGAAATTTTAGCTCCTGTTACATCTCCTGGTAAATCCTCTGGAAGTATACTATCTCCTCTACAGACTGCCATACCGCTTTTTATAGAATTTTTTAATTCTCTAATATTTCCTGGCCAATCATAACTCATTATTTTTTTCATTGCTAGTTTTGATACACCTTTTATATTTTTATTTAATTCTCCATTAAAAACTTTTACAAAATGTTCTATTAATATAGGAATATCATCTTTTCTTTCTCTTAATGGTGGCAATTCTATTTCAACAACTTTTAATCTATGATACAAGTCATCTCTAAATTTTCCATCTGTTATCATATCTTCTAAACTTTTATTTGTAGCTACAACAATTCTAACATCTACACTTATTGTTTCTGTCCCACCTACTCTAACAAATTCATTTTCTTGTAATACTCTCAATAATTTAGCTTGAATATCTAATTCCATATCTCCAACTTCATCTAAAAACAGAGTACCTTCATTAGCCAATTCAAATTTTCCTATTTTTCTTGCTATAGCTCCAGTAAACGCACCTTTTTCATATCCAAAAAATTCACTTTCCATTAATGTAGAAGGTATTGCTGTACAATTAACAGCAACAAATTTATCATCTTTTCTATCACTAAATTCATGAATAGCTTTTGCAATTAATTCTTTTCCTGTTCCACTTTCTCCTGTTATTAATACAGAAACATTGCTTGAAGCAACTTTTCCTATCAATTTAAATATCTCAATCATTCTCTTGGTAGTTCCTATTATCTCATCCTCTTCCCCAAAGAAAATTCTTGGAGTAAATTTTTCAGCTTTTATCTTTTGGTCTTTCAAAGCTTTTTCTGAAACTGTTAAAATTTCTACCCCTTCTAAAGGTTTTAATATATAATCATACGCTCCATTTTTTATAACACCTGCTATCATTTGAAGTGTACTATTTTCTCCTATAACTAGCACTACAATCTTTTTATCAATTGATGATATCTCTTTTACCAAAATCATCAACTCATCATATTCAAATTTGTCAGAATCTATAACAACAATATTATATTTCTTTTTTTTAAACTCTTTATTTACTAAAAGGCCTCCATCTTCATAATCGATACTATCTCCATTTTCTATAAACAATCTAGTTAATATATCTCTCTCTTTATCTTCTATTTCTATTCCCAAAACCTTCATATATGTCACCTACCTTTAATTAGTCTAAAATTTATTGTTACTATGACACTTCCCGAAAGCTTAACTCCTTTATCTTGAATTATAAGCCTCCAATTTTTACCTGCATCTACTGCTGATTTATCTAAAATGGTATAAGAACTTTTTTTCTTTATTCTTATCTCTTTTACTCTTCCTTCTGCACTTACATTTAAAATTAATGTTACTTTTCCTTCCCAACCATTCTTTTCTGCAACTAATGGATATTTTGGCTTTACATATTTCAAAATTTCAGCTTTTCCAACTCCATCTACTACTTCATCAATCGTTATCCCTTGAGGAATTTCTGTTGATGATAATCCCCCTTCTTGAATTTCTCCTTTTACAGGAATAACTTCATTTTCTGTTATAATTGATTCATCTTTTATCTTTGGGGTAAATTCTTCTATTTTGCTATTTTGTATATCCAAATTAGGTTCTAATATTTTTAATTCTTCTTTCTTTTCAGCTTTTATATTTTCTATTTTAGATATATGCTCTATAGAAGGATTCTTTGTAGTTTTATTAATTGGAATATCTATTATTTTCCCTAAATTTCTATTTTTTTTAACTGGAACATCTATTTTTTCTATTAAATTTTTATAATCTATCTTTTTAAATTCTACAACTTTAGGTTTTGTTATTTTCTTTTTTAATTTTTTCCCTTGTTTTTTTACTTTAATTTTTTTTCTAACTTTTGCTTTTTTTGTTTTCACAGCTTTTGTCTTTGTAGAATAAAGCTTTACAAAATTTGCTTTAATCTTTTTTCTTTCTACTATTTTTTCTTCATAGTTTGTTTTAAAATTTATTGGAATCAAAAATAATAAATTATGAATTAGTATTGATATAACTATTGCAAATATAAATATCTTGTTGTCATTTTTCTCCATTTCATCACCTACTCTTTTTCGTCAGTAGCAATATCTAATTCCAAAGCTCCTGCATCTTTAGCTTTGCTCATAATCTCTACAATTATACCATAACTCAAAGATTTATCTGCTTTTATTATAACGTTATACTTTTTAAGCTCTTTTAACTTGTCCGATAATTTGTTTTCAAAATTTTCATTTGATACTTTTTTTCTATTAATATATATATTTTTTTGTTTTGTTATAGATACAATTACTTCTCTTTCTTGTGGCAACTCTTTAACTGCTGATTCTGGCAATGTTATATTTATTCCTGTATTTATGTCAGTAAATGTAGTACTTACCATAAAAAATATTAAAAGTAAAAAAACTACATCTATTAGTGGTGTTAATTCCAAAAACATATCTTTATTTTCTCTTCTATATTTTGGTCTAAATTTCATATCTCCCACCTACCCTAATATATTTAAAAATTCTACAGCAGTTTTTTCCATTTCATTTGTCAAACTATCAATCTTCTTATTAAAGTAATTATACATTATAAGTGCTGGAATTGCAACTGTAAGTCCTGCAGCAGTTGTAATTAAAGCTTGGGATATTCCCCCAGCTAACATTTCCGGTTTTCCTATCCCTTGATTCGATATTACATTAAATGCTTTTATCATTCCTGTTACAGTTCCTAATAGTCCTACCAATGGAGTTACATTTGCTGCCATTCCTAATATCCACATATATCTTTCCAAAAATGGAATTCTTTCTAATATTGTTTCTCTTATCTCTTCTTCTAATACATCTCTATTACTATCAGAATTCTCTAATATTGTTTCTAAAATTCTTGCAACTGAATTATTATATCCTCTACAATAATTTATTGCCCCATCTATATCTTTTCTCTCTAAATAATTCTTTATATTTTCTTTTAATTCCTCATAATTTGCTCTCTCAACAACTATAAAATAATATAGTCTCTCTATTATTACTGTTAATCCTGCTATTGATAATAATAATATTCCGTACATTAATGGTCCGCCTTGTGCAAAAAGTTCTCTCATCTATACCCCTCCTATTTTTTTATTCCTTAAATGATTTTATAAAAAGCAATTAATTGTTTATTTAAATCTTAATAATTCATTTTAAATTCTAACATTATCTTTCTTGAATCCACTGGATAATTTGATTTTTTATTTTCACTATAGTTAAATAAATTTAATATATTCAAACTTATATCCATACTTTCACTAAATCTATAAACATTATATAAATTCAGTGTTTTATATAATCCTATATAACTTTTTTCATCTTCTTTCCCATACATTTTACTATAAAATTTACCTTCTAATCTAGATTTTAAATTATTTTTTTCATAAACTACATTTAATACTACTCTATTACTTGGATTAAAACTAATATTTTCTAAATTACTATATGTATATGAAACATCTCCTCTTAAATAGTTATTATATTTATAATTACTATTTAAAGTTAAATTCCACCAATTTAAATTCTTTTTAGAATTAATAACAGATATTGGTATTTCATTTGCAATCTTACTGTCTTCTTCTGCGTATATGATTTTATTTTTTACAAAATTATATATAATTCCCGCTTCTACATTTAATTTTTCATTTCCATATTTACTTCCAAACCCTGTTTTAAATATATCTTCATTTTCCAAAGAACTATATGGTAAAACATCATTCCCAAATTCAAACCCAGATAATATATCTTTATTAACTTCTCTCAAACTATTTTTCATAATATTAAAATTAACACTAAATATATCACTTAAACTTTTATCTCCACTTACTTTTAATTTATAATTTTGCTCTCCTACACCGTCTACATTTGCTACTTCTAATGCAACCCCTAAATCCAAGTTTATATCACCATATTTTTTTAATTTTAATTTATCGTTTCCTTTTACTCTTATAGAATTCAAATTAAAATCATCTAATCCATCTGAAAAATATTCCAAATTAAATTCCATAAAATCCTCTTTTAATAGTTTTATATATTTTCCATAAACATTATAATATCTATTATTATATTCTCTTATTGGAGCAGTTACTGATTTTGTTTGATTAAAAAAAGCATCTAATCCTATATTTAGATTTTCAGATTTTTTTATTATTACATCTGAATTAAAATTTATTTCAGACTTCTTTTCTTCTTTAAATGTATCAACTTTAGCTGTTGCATTGTCTTTTCCTGGAAAATTTTGGTTTATTATTATATGAGATAAAGCTAAATTCATATTTTTATGCCAAAGTTTTACAAAATAATTATCTGTACTTTCATTATCATTTCTTCTATCTTCACCTTTTATTTCTCTACCTAAATGCAAAAAATATGTTAAATCTTTTTCTTTATCATCGTTAGTATAATCTATTATGTACTTAAATGCATCAATTCCTTTATATCCGCCTAGTCCAAATGTTATATAGTTATCATAATTTTTAGATTTTTTATCTTCTGATTTCATTATAACTTTTGGTGTGTTATACACATATATATTATATTTTAATTCACTTTCACTTACATCATTTTTAATTTTTATATTCTTTATATTCAAACTTTTTAAAAATTTAAGTTTTTCATCTTTTAACTTAATTTGTAACTTTTCATCTTTTATTTTTATTTTATTACTTTTCAAATCTAACTCTTCTTTATAATCTCTTTTATCTTTTCCAACTACATCTTTTTCTCCTAAATTATAATTTTCCTCTGAAAAAACTAAATTTATTAATAGAAAAAAACCTATTATACTAATTAATAACTTTCTCACTTATTTGCACCTCCTGTTTCAAAAAATTTTTTATATTCATTTTTCTTTTGTGGCATATTTTTAATTAACTCATCATAATATTTTTTAGCTTTCTTTAAATCTTTATTTTTCAAACTATTTATTAATAATCTTTCTACAACCACATTTATATACTTTGAATTTTTATAATTATCATAAAATTCTTGATAAAATTTTAATGCTCTATCTAAATTTCCAGATTTTTCATAATTTTCTGCAGTTTTCAACGTAGCTATATCCTGCAAACTACTATTAGAATATACTAATTTTATCCTTAAGAAAGCTGTTATTGCAGCTTTATAATTTCCTTCCTCTTCAAAAGAAATTCCTATTTTGAATATGCTTTTATCTTTATATTCACTTATTCTATAATCTAAAACTTTGTTAAAATATACCCTTGCAACATTATATTGTTTATTATTCAAATAAAAACTTCCCATATAGAAAAATCCTTTATCTGCATTTTTAACATCCTTTGTTACCTTTTGGTATTCTTTTAAGGCTTTTTCTTTATTCCCTTGCTTTTCATATATTACCCCTAGCCATATACTTTTAAAGCTACTATCTTTTAATTTTTCCAACCATTTTAAAGCTTTTTCATATTCACCATTTTTATAGTAACTTCTTACTAATATATCAATTAAATTTATTTTCACTTCTTCTTTATTTGTCACATTTAATAATTTAGAAAATTCAGCTTCAGCCCCTGAAACATCTCCATTTTCTATATAAATATTCCCTATATAAAAAAGTACATCTTCTAAATAAGCTTTATCTTTACTATATTTTTTTATAAATAATTTTCCATAACTTAATGCCTCTTTATATCTTTTATCTGAATACATCAATGAAGTCAACCAATATAAGCTTTCTTTACTATATTTAGAATTAGGATAATTTAAAACTATATATTCATAATTTTTTTCTGCTAACTGATAATTTTCACTGTTATAATAAATCTCAGCTAACATAAAAAAAGCAAATGGCTTTTCATCTTTATATCCTTTTAGTTTTTCATAAATTTCAATTGCTTTACTATAATCCTTTAATTTAAAATATGAACTTCCCTTTTTCTTTATTATATAAACTTCATTATCATTATATTTTTTAGTATACATATCACAATATTTTATTGACTCTTCAAATTTGTTTTCATTAAATAAAACTTCTATTAATTTTAAATATGCTCTTTTAGTATATTTATTATCTTTCAAAATTAGTTTTTTAAGTTCTATTGCAGCAGGCTTATAATTATGTAGCGCCATAAAAGTAACTGCATTAAGCCAAGATTTTTTATTTTCATTTTTTATATCTTTAATATAAATTAAAGCTTGCTCATATTTCCTTTCATCAAATAAAACAGTAATTAAATTATTAATTATAATTTCATTTTTTTCTTTTTTCAAAAATTCTTTATATAAAATTTCTGCCTTTTTATTTTCACTTTGTTCTGCATATAAATTTCCCATTAAAGAATATATATCCAATTTTTTTGTAATATCTTTATCATAATTCTTTTTATAATCTTCAAAAAGAGTTTCCATTTCTTCAACGTCTTCTTGTATATATGCTATTGTTATTAATCTATATATTGCATTTGGTGTATTTAATTTTGCATAATATTGCTTTGCCATTTCATAATTTTTTAAATTATATGCAGCTTCTGCAATCATATTAAATATATCTTTTTTATAATCTTTGTTTATTTTATACTCTTCTTTTTTTATCTCTTTTTCTAAATTTAATATTTCTTTATATTCTTTTTTATTATAATAAATATAAATAGAATAATAATAGTATTCATTGTTATATTTTGTGTTTTTTAATATATTTATATTTATCAAAGCATTATCATAATCTTTTAATTTCAAATAAGATAATATTAATTTATATCCCGCACCTATATCTTTATATTTTTGAAATATTTTATTATAATATTTTGCAGATTCTTTATATTTTTTAGAATTATAATACATTTCACTTAATAAAATTAATCCATCTTTTTCTAATTTTGTATTTTCAAGCTTTTTTGCATAAATTAAAATTTCTGTGTCTTTATCTAATGCATAACTTAATTTTTCTAATGAGTATATAGACTGCACATAATATTCTGAATTTCTAAATTCTAATTCAATATTTTTGTAATATTTAATTGCTGATTCATAATCTTTTAACTTTTCATTTGCTAATCCTAAGAAGAAATATGCTTTAGCTAAATTATCATCTTTAATTCTAACTTCTGAAATATATTCTTCCAGCACTGCTGCTGTTTTTATATATTCTTTTTCTCCGAAATAAGTTAATCCTAAATTTAGCAAAGAATTATTGTAATATTTATCACTATATTTAATTGCCCTAGAATAATAAGTTTCTGCTTCTTTTAATGACCCTAATGAATACATAAAGTTCCCCATTAAAAACATAGATTTTGACTTCAATTTAGAATCGTTATGTATTTTTTCATAATAAAATGTTGCTAGTTCTTTATTATCCCATTTTATGTAAATATTCATCAAATAATAATATGCTTCTTCTTTATAATTTGTATTTAATAACTGTAAGAATATCTCTTCAGATTTCTTATAATCTCCAACGATATAATAATTATATCCCAATAAATTTAATGCTGAATCATAAAGCTTTGAATTAGAATATCTATTTACAAATTTATTCAATTCTAAAATTGCTTCTTTATTCATTTTATTTTGATATAATTTATATATATAATCCATATCATCTATATCGTTAGCAAATGTGGTAAGAGAAGTCCCTAATAATAATGCAATTACCATTTTTTTCATAATTTATCATCCCCTTGACACTTTTTTTAATACCTCTTCTATCTCATTTACATTTACATTAGTGTTATAACACGGTCCATTAATTCTTTCATTAAATATCCCATAGACATTTAATGGAAAACTATCATATATTCCTGTAATTAAATCCCTTTCACAAGCAACAGCAATTATAAATTTAGGCCTTGTTTTTTTTATAAATAATCTAGCTAATGTTCCACCAGTTGCGACTTTTACTTTAATATCATATTTTTCTTTTAATTTTACAATTTCTCCAATTTTACATTTCCCACACTTTTTACAATTTGATATATCTGATGTTATTTTAAATAAACAATTATCATCTTGTAAACAATGAGGTAACAATATCGCAATTTTTTCTGTAGGTATCTTTTTTTTCTTTAGTCTATTTATGGCAAATTTATTATTAAATTTCATAAATTTCTTTGCTAACAAACTATTATTATAATCATCATCTTTTATTTTTCTAAATATTAAAATTAAAAAAATCCATAATGTCGAAACAATTCTATAATAAATCAACTTCAAATAATCACCCACTTTTCTATAAGAGTCTCATTAATTTAGCTACAATCATATTTATAGCCACTTTATTTTCCCCACCTCTTGGAATTATTACATCTGCATATCTCTTAGTTGGTTCCACAAATTCTAAATACATTGGTTTTACCGTGCCTAAATATTGTTTTTTTACACTTTCAAAGGTTCTTCCTCTTTCATTTATATCTCTTTCAATTCTTCTTAACAATCTAACATCATCATCTGTATCTACAAATATTTTCATGTCAAATAAATCTCTTAATTCTTTTTGGGCAAAAACTAATATTCCTTCTACAATAATAATTTTTGCTGGATATAATTTTTTTATATCCTCACTTCGTATATGTTTTTTAAAATCATAAATTGGCATATTCACCTCTTTACCATCTTTAAGAGCATTTAAATGTTCTATTAACAATTCAAAATCTATAGAATTAGGATGATCAAAATTATTTTCTAATCTTTTCTCAAATGGTACACTTTTCAAATCTTTATAATACAAATCCTGTTCTATTAATTCCGCTTCCCCACGATTAAATACTTCTAATATATTTCGTGCAACTGTTGTTTTTCCTGAACCTGTTCCGCCTGCGACCCCAATTAAAATAGTTTTTGACATAAATCCTCCTCACACACTTTTCTACATTAAGTATATCACAAAGAATTAAAAAATTCAATTTTAAATCATAATACTTAATAAAAAAATGGCGTAGCTTATTTTCTGAATAAAATTTATACTTTCCTAACAAAAAATAAAAAGAGAATTTTTCTTTAATAAGAAAAATTCCCTTTTTATTTTTTTATTTTCTCTTTCTCTCTTTAGCTCTTTCTATAATTGAACGTCTTCCTCTTTTATTTCTTTTAAATACTTCAAGTATAATTTCAGCTTCTTCAAATGGAACAGTTATAAATGAAAAGTTTTCAAATACTTTTACTTCTCTAATTTTTCTTGAGCTAACTTTTGCATTTTCTATAATATAATCAACAAGTGATTTTAAAGTCATATTATCTTTTTTTCCTAATGCTACAAATAATCTTACTTTTCCAGATGTATCGATTTTAGCTTCTCTTATCTCTTTATAATTATTATCTTCTAATTCTTCGCTAAATGATAATTTTAAAATTGAAGCTATCACTGCTAATGGATCCTTTTCTCCCATGATTTCTTTTGCAAACTCTATCTCTTTATCTCCTATTTTATCATTTTCTAATATATCTAAAATATCTGATTTTATTCTCTCTTTTTTTATTTGTAAAATATCTGACACTTTCGGTAATTTACTCTTCTTTATCTTTGTATTTGCTACTTTTTGAATAAATAAAAGTTTTCTGTATTCACTTGGAGTTACAAATGTTATTGCTGTTCCTTCTTTTCCTGCTCTTCCAGTTCTTCCTATTCTATGTATATAAGATTCTGGATCTTGTGGCAATGCATAGTTAATTACATGAGACAAATTATTAACATCTAATCCTCTTGCTGCTACATCAGTTGCTACAAGTATCATTGTTTTTTTCTTTTTAAACTTATTCAAAGTTCTTTCTCTTTGAGCTTGTGATACATCTCCATGTAATCCTTCTGCATAATATCCTCTATCAGATAATTTGCTAGCTACTCTATCTACATCTAATTTTGTTCTACAAAATACTACTCCATAAAATTCTCTTTCTACATCTATTATTCTACATAAAGCATCAAATTTATCTCTTTCGTTTAATTCAAAATATATTTGTTCTGTTAAACTTGTAGTTAAATCTTGTTTTTTTACAGCTATTACTTCATATTTATTCATATATTTTTTAGCTATATTTAAAATTTCTCTTGGCATTGTTGCTGAAAAAAGTAACACTTTTTTTTCTGCTGGTGCTTTTTCAAACACTAATTTTACATCATCAATAAATCCCATATTTAACATTTCATCAGCTTCATCAAGTATGAAATATTTTATATTTTCTAATTTTAAAGTTTTTCTATTTATATGATCTATAACTCTACCAGGAGTTCCTACTACTATATCTACTCCTCTTCTTAATTTAGATATTTGTCCTTCAATTGATTGCCCACCATATATTGGTGCTACTACTAATTTTTTATTTCCTTTTAATGAATTTATCTCTTCTGCTACTTGTATTGCTAATTCTCTTGTTGGTGCAAGTACTAAAGCTTGAACTGATTTTGATTTTTCTTCAAGTCTATCTATTAAAGGCAAACCAAATGCTGCTGTTTTTCCAGTTCCTGTTTGTGCTTGCCCTATTATATCTATTTCTCCTTTTAATAATAAAGGAATAGTTTTTTCTTGTATTGGTGTTGGTTCTTCAAAACCTTTCTTTTTTAATGCCTTTAATATATTTTCTGATAATCCTAATTCTTTAAACTTTGTTAATTCCATATTTTTTATAACTCCTTCTTTTTTTATAATTTTTCTAATACTCTTTTTAATATCTCTTCTTTATCTAAGCTGGTTTTAAATCCCGCCGCCTTCACATGTCCGCCACCATCAAAAATAGCTGCAAGCTTATTTACATCTTTTCCTTTTGATCTAAAGCTTCCTTTTATTTTTCCATCTTCCTCTTCTTTTAAAAATAATGCTATTTCACATTTTTCAAAACTTCTTAAAGATTCGACAATTCCTTCTGTATCTTCAGATTTAGCATTATACTCTTTTAAAACTTTATTTGAAAGATAGAAAAAACTTAATTTTTCTTTTTCAAAATATTCCATATTATTTAGAGCAAGTCCAAGAATTTTTAATCTTGCTTCACTTTTGTTGGCATACAAATTTTCTGTTACTTTTTCGTTATCAACTCCTATCGCCTTTAATTTTGCCGCAATATTAAAGGTATCTACCGAAACATTATTATAACTAAAATTTCCAGTATCATTTATTATGCCACAATAAATTGCTTCTCCCATATCTTTATCAATAGCTATTTCTAATTTTGTTATTAAATTAAAAATAATTTCCGCTACTGAAGAAGCTTTAGCATCTAAATAATTTAACTCACCAAACATTTCGTTACTTGTATGATGATCTATATTAATTACAATTGAATTTTCGTTTATATATTTAACTACTGTTCCAATTCTTTCTTTATTTGCCACATCTACTACCACTATACAATCAAAATCATATTTTAATTCTACATTTTCAACCTTTTCTATTAGCACTGAATGTGGTAAAAATCTCAAAAAAGAGGGAACATCATCTTGTATAATAAAGCGTACCATTTTATCTTCATTAGAATTAATTTTGTTCAAAGCAAGGGCTAATGCTAATCCTGCTCCTATTCCGTCTCCATCAGGATTTACGTGTGTTGTAATTAATATCCTTTTTGATTCTTTTAGTTTTTTAATTATGCTTTCCATATTTTCCTCCTAATCAAAGAATGTTATTTTCAAGGCATTCCTAAACTGAAAATATTTTGATACCTTTTTTTTCTAAAAAGTCCGCAGCAACTCCATTTCCATTGATAAGTCTGCCAGTAAAACTACCATCATAAATCTTACCAAATCCACAAGAAGGACTTTTAGCTTTTAGCATAGCATATTTAGCATTTGTTACTTTCGCTATTTTGCCAGCTTCTTTTGCCCCGTTATAAAACTCCAGAGAAACATCTTCTCCTTTCTTATTTACAACTTTTTCTCCAAATCTTTCAGCAGGAACTCTCGGTGTAGACAATCCGCCTAACTGTTCAGGGCATATGGAAACGATACAAAACTTTTTTAAAAACTCTTTTAAAAATTTTCTGCTATTATTTCCACCATTATATTTACAATTTATCCCAAGCAAGCAGCTACTAACTAATATTTTATCAAAATTTTTATAAATTTCAACTCTTCCACTAGCTTTAGAATAATATTTTAAAATATTTTTATTATAATATATATCTTTTAATGGATGCAATACAAAATTTCTTTTTTTATATTCTTTATGTGGTATTTGTAAATCAGTTCTATCTACTTTTATATTCTCATAAAAAATTATATCTATATCTATTGTACGTGGTCCCCATTTTATTTCTCTTTTTCTTTTTAACTTTAATTCTATTTTTCCAATTTCATCTAATAATTCATATGGTAATAATTTTGTCTTTAACCAAATTCCAACATTTATAAAGTAATCTTGTTCTAAATATCCATATGGTTCTGTCTTATACAATTTAGATATTCTAACTACAAAACTATCATTTAAATTATTTAATTCAAATATTGCATTTAATATATTAAAAAATTTATCTCCTATATTACTTCCAATACTCAAATACACATTTCTATTTTTTTTCATCTCTTCTATTTCTCCATAAAATCAAATTATAATCTTTATTTCTCACTAATCCTATCTCATCTATATATCTCAACCGCCACATAATCAAGCTGTCCAGGTATTGGAACTTCTGGTTTTTTCACAGTTACCCTTACATTTTTAACTTTATCATATTTCAAAATTTCTTTTGCAATATCCCCAGCAAATTTTTCTATTAAATCATATTTTTGATTCCTATTTATAAATTCTACTTTTTCATAAATTTTGGCATAATTAACAGTATCATTCAAATTATCACTCATTGAAGCTTTTTCCAAATCTAAATATATCTCCAAATCCACAAAAAATTTCTGTCCAATTCTCTTTTCTTCCTCTAACACTCCATGATAACCATATAATCTCATGTTCTTAATAATTATCTTATCCATATTTTTTCTCCATTATTAATTATCATATTCTTCACGAATTAAAATCCGTTTTTATCTGTGTTTATCCTGTGGTTAAAATATCTTTTTCTTTTGTTTTCATTATTTATTTTCAATTACTTTTTCTCCTATTGGCGAAAACCCTTCTCCTAAAACTTCATGTGCATCTGTAATTATTATAAATGCTTTTTCATCAATATTTTTAATTTTTTCTCTCAAAATATATATCTCTTTGTTTTTTACTACAGTCATTATAACATTTTTGTTCTTATCTGTATATAGCCCTTTTGAATAAAATACTGTTCCACCTCTATTTATATCACTTACTATCATATTTCTTATTAAATCATACTCATCACTTATTATGTATGCTACTTTTGAATAATTAGCTCCATCTAACACAACATTTATCATTCTACCTGTTGTATACAACGTAATTATAGCATACAAAGCAGGTTCCATTCCGAAAACAATTCCTGCTGAAGCCAATACTATAAAATCTACTCCTATTAAAGCGTTTCCTGTTTGAATTTTAAATTTTTCATGTAATATTTGTGCTATAATATCAGTACCACCTGTACTTCCACCAATTTTCATTATTAGACCTATTCCTATCCCTGTAGTTATTCCTCCATACAAAGAAGATAACAATATATTATCTGTCACTCCATTTAATGTAAAAATATAACTAAATGTATCTGTATAAACTGACAACATTATAGTTCCATACAAAGTTTTAAATCCATATCCTTTTCCAAAAAATTTTAATCCTGCTAAAAAAAGAGGAATATTTAAAACTAACATTACCATTCCAACAGGTAAATGAAATAGATAATATATTATTGTTGCTATCCCTGATACTCCTCCTGCTGCTATTTTGGAAGGTATCAAAAACCAAACAAACCCTAATGAAGCCAATATTAAAGCAAAATTCATGATAATAAAATCTTTTATAAATCTTTTTTTATCTCTTGTCACTAAATTCCTCCTAGTTATCCATGATGTTTTTTAAATTACCAACTATTTCATCTGTCTTTTCTTCTATTTTTTTTAAATTTTTATAATTATGTAAATAATCTGCCGAAGAGTCATATCCAACCTTCTTAGCTCTTACATTCATTGTAGCTATCTCTACCATTGATGCTGCATTTCTTCCTGAAGATATATATAATTCTATTTTAGGAATATCTGTTTCTAAAATTTTTAATGTTTCTTCATTATAATCAGCTTGTGATATATATGCATTACTCTTTAATTCTTTTAACTCTATAATCATATCTATCTGTTTTTTATCTCTAACAGAGCCTAATCCATATAAAGTTTTTATATCAATAATTCCCAATCCTCTTATCTCCATAAAATATGGTATTTTATCCGCTGATCCTACTAATCTACCATCTGGATATTTTACAACCTTTACTGCATCATCAGCTATTAATCTGTGCCCTCTATGTATTAATTCTAGTGCCGTTTCACTTTTTCCTATCCCACTTTTTCCAACTAATAGTACTCCAAATCCAAAAACTTCTACAAGTACTCCATGCATTGTTAATGTTGGCGCAAAAAACTTTTCTAATAACTCTGTAATTTTTTCATGACTTTCAGAAATATTCTTTTCTGTTAATAATAAAATTTTATTATATCTTTTTATTGCATCACTAAAATATTCAGGAACCGTTTTTACTCCACTTATAACTATACATGGGAAATCATATGATAAATATTTAGAAAAGTATTCTTCTCTTTTTTCTTGTGCCATTCTATCTACATATTTTAATTCTGCTCCACTTAAGATTTGAATTCTATTTTTTCCAGTTTCTTCTAAAACATCAAAAAAACCTGTAAATTCTAATGCTGGCCTATGTAAATATTTTTTATATATCTTTTTATTTTCTAATAAGGATTCTCCATTTAGAACTTTTAATCCAATTTTATCTTTTAAATATTTAACAGTCATAAAATTTAACATTTTATCATCTCCATCATTTTTTCTTCTACTATTGTCTTTTATCAATTTATTTGTTTCTTCCATAAAATATATAGCAGAATGTTTACCAGTTTTTTTTAATCTTTCATTTATAGCTGCTGTTTCAACTATAATAGACAAGTTTCTCCCTTGCCTAACTGGAATTGTCAATTTTGGAACCTTTATACCTAATAAATACTGTGTCTCTTCTCCTAATCCTAATCTATCATAATATTTACCTTCTTGCCAATTTTCTAATTTTACAATTAAATCTATCTCTTTCGATTTTCTAGTTGCTCCTATTCCAAAATAATCTATAATATTTATCTCATTATTTTTAGTTAACCTAAAAAAATATTTTATATTACTTTCATCCGCTTCAGATAAAAATCCATTTTCTCCTATTATTGTATCATTTGAAATCTTTTTTACAACTAATAATTGGTCAGTTATAAACCTATGTCCTTTTCCCAATAATTCAATAGTTGTCCCTAATTTAGCAGCTTCTTCCCCATAAATTAAAATTCCTGTCCCAAACACTTCTAAAAATATAAATTTATTTAATATAATTTCAGGTGCCAACTCTTTTTCCAAATAATTTTTCAATTTTTTTATTATAGCTTCTAAAGATTTTTCAGTTTTTAAAATAGGTTTTGACGATATTTTTGCTATATCTAAAAAATCATTTTCCACTTTTATATTATCACCAACTATAACACAAGGAAACTCCCCGTTCATGTAATGGACTAAATTATATTTTCTTATCTCTTCATCTAAAGAATATAGATACCTCATCTCATCTTTTCCAAGTAAATGGATACATTTTTCACTTTCCGTCTCCATAACTGTTATATCTCCAGTTAATTCAATCCCTGGCTTATATAATTCTGACAATACTATTTCAGAATTCAATAGTTTTTCTCCTGTTAATACCTCTAAATCCAATTCATTTGCTAATTGTTCTAGGCTTACTACTTTTTCCATCTATTTTCATCTCCCTTATAAAAGGTCCTTGAAATCCTTTTTTATTTATTTCTTTTAAAATATTTTTTGCCTCTAACTTAGAGTTAATATTTTCTACAACAACTTTATAATACTTTTTATTATTTATCATTATACTTTTCAAAGAGGGATTAAATTCTTTCAAATCTTTTATATCCGTATTAGCTATATCTAATACGCTATATATTCCAATTTGTATGTAATATTTTTTTACCTTTTTATCGTTTTTGAAATTACTTTTTTCTATAACTCTTATTTTTTGCTTATCATCTTTTAAATTATAAAATTTATCATTTCTTATCTTTATTCCACTTATAAATTTTTCCATAAATTGATTTCTATTTTTAATTAAATTTGTATATCTCATATTAAAATCAACAAAAATTTGTATTAAAAAATAGATTATTAATAAAAATAAAATGAAATTTCTATATTGTTTAATTTTCCTATTTTTATTATTTTTCAATTAAATTCGCCCCTTTTTCACTTCTCCTATAAGATATAGTGAACCTGCAATAATAATTGCTTTTTTATCAAAATTCTCTTTTGCTACTTTTATTGCTTCGTTTATATCATCTATTTTTAAACTATTATCAAATTTCCCACTTCCAAGCTTATACATCTCTTCTTCTGATAATCCTCTGTCAACTGTCTTTAAAGATACAAAAATTGCTGTATCTGCAAATTTAGAAAATATATCTAATATCTCATTAACATCTTTATCTTTTAATATAGAGGTTATTACTAATATCTCTTCTCTTTTAAATTTTTTCAAAAGAGAGCGTTTTAATCCTAATGCTGCTGCTATATTGTGTGCTCCATCTAAAATTAGATATGGATTTTTTTCTATCACTTCAAATCTACCTGGCCATTTTACATTTTTTAGACCTTTTTTTATATCTTTTTTAGAAACCCCAATTTTTTTTAACGTTTCATATGCTAATAAAAAATTTTTACTTTGAAATTCTCCATAGAGTGGAATTTCATATATTTCATTATCTATATCTATTACAGTTGAAAATTTTTCATTATCAAACTCTACTTTATAATTATATTTTCCTATATTAACTCTGTTTACACTCTTTTTTTCTACTTCTTCAATTAACTCTTTGCAGTTTCCATAATAAATTACAGGAACATCTTTTTTTATTATTCCAGCTTTTTCTTTCGCTATTTCTCTTAAATTCTTTCCTAAATAGTTTGTATGATCAACTGTGACATTAGTTATAATTGATACTTCAGGAACAATTACATTTGTAGAATCATATTGTCCCCCCATTCCAGTTTCAATTATTCCCCAATCTATATTTTTTTTATCAAAATACAAAAACATAATAGCTGTTGTGACTTCAAAAAAAGTTGGTTGTATATTTAAACTCTTTATTGCTTTTTTCACTTCTAAAAAACACTCTACTAACTCTTCATCACTTATTTTTTTATTATTCACAGTAATTCTTTCATTAAAATCAACTAAATGAGGTGATGTATATTTACCAACATTATATCCAGATTCTATAAGAATAGTTTCCAGCATAGTTGCAACAGAACCTTTTCCATTTGTTCCTGCAATATGGATTTTTTTATAGTTATTTTCTATATTTCCTAGTTCATTCAATAATTTATCTATATTTTCCAATCCTAATTTTATACCAAATTTAGAATATGAATATAATTCATCTAATAGCTCTTCTTTTTTTAATAAGTTCATATATCTCTCCTGTGATTCCTATAATTAATAAAATCAATGACAAAACTGTAAAAACCACTTTATCATTTAATCCTGAAATAAGAAACCCTGTTAATACAGCTGACAATGCAAATGCTGCATTTGTTGCTGTTTGTAATGTAGCAAAAACTCTTCCTTGCATATTTTTAGGAACTACTGTCTGTAATATAGTTTCTGATAAAATTATAATAAAAGCTCCACCAAATCCAGCTAAAACTCCTATTCCTAATGCCATATATATATTTTCTATAAATGCAAATCCCGCTACAGACAGTCCAACTATTATAAATCCTAATTTAATAAAAACTACTTTTTTCACTCTATTTCCTATAAATCCTAAGAATACAGAGCCTAAAGCAATCCCTATTCCAAGAGATGTTTGAAGGTATCCAAGTCCTTCCACTCCCATTTGTAAAGTTTCATTAGAATATTTCACCAAAAATATATATGCAACTCCACCAGCTGACATAATTCCAACATACCTGAAAAATACAAAACTAGTTAAATCTTTATTTAAAATATATTTTATTCCCTCTTTTAATTCAGCTATAAAATTACTTTTAACATGCTTTGCTCTTTTTTCTACCTTATCTTTTTTTATAATCATTACTAATGAAAAAGATAATAAATATGTTAAAGCATCTATAAAAAATGCAAACAATATTCCAAATCTTCCTATTAAAAATCCTCCAAGTGCTCCACCAATAACTATAACTATTCTATTAGCAGAAGCCGAGAATGAATTTGCATAAACCAAATGCTCTTTAGAAACTATATGAGGCAAAAGTGCTGATTTTGCTGGTATAAAAAACTGTGTTATAAATGATATTAAAAAAGTAATTATATATATAATATTAACAAATCCTTTTTCTTCTACCACACTAATAGACAAAGTCCCTTTTTTATTAGTTTCTACTATTTTATTTTTCTTTTTTCCATACTTCGATTCTTGAAATTTAACCATTCCAATATATTTATTTCCATTTTTTTTCAAATATATTTTTTCATAATCTTCTAATCCTGTTGTAATAACAATTTTAACTTTATCTGAATTTATATTTTTTATAGGAACTCCTGTTATTACTAAGCTTCTATTAATTTTTTTTATCTCTATTTTCATATCATATTTTTCAGTTTTCACCTTATCATTACTTAATAAACTTTTTATTTCTGCTTTTTCTAATTTAAATTTATTATTTTGAATTTGAAATTTATATACTTCATTTTCCATTTTAACAAAATTTAATACATATAAAAGAAATAAAACTATTGTTAATGCTCTTGTAATATCTGATATAAGCATTATTCTTTTACGACTAAATCTATCTACAATCACTCCTGCGAATGGTCCTATTAATAAAATAGGCAACATTAGCCATACCATTAAAATAGATGTTCCTATTCCAGGTGCTATTACAGCTACAAAAGCCAAATTAGCCATCCAATTTATAGCATCACCTAATTGTGATATTATTTGTGAACTTATTAAAATTCCAAAATTTCTATCTTTTTTAAAAACATCAAAAAAGCTTTCTTTTCTCATTGTTTTAGCTCTCCATATTCTCTAACATTGACAATACTATATTTTTAGCATTTTTAGCTGCATCATTCACAAATGTTTTAAAATCAACCTTTGCAGAATGATCTGCTTTATCCGAAATGGCTCTTATTATTACAAAAGGTATATTATAAATATAACAAACTTGTGCAACTGAAGCTCCTTCCATTTCTACACAATCTCCATTAAAATTTTCTCTTAATTTATCTATTTTTTCTGATGAGCTCACAAATTGGTCTCCACTTAATATTCTCCCTATAATAGCTGAATGTTTTTTTATATTTATTTTTGCAGCTTTTTCTGCTATTTCAATTAATTTTTCATCACCTTTGAATATTGAAGTTTTCATTCTAGGTATTTCACCTAATTTTGCTCCAAAAGCAGTAGCATCTACATCATGTTGTATTAAATCTTTTGATATTACAACATCTCCAACTTCCAAATTATTATTAATAGCTCCTGCTACTCCAGTAAATATAATTTTATCTACATTAAATCTTTCTATTAAAATAGTTGTACACATTGCAGAATTAACTTTTCCTATACCACTTTCTACTAGCACAATCTCTTTTCCATTAATTTCACCAACAAAAAAACTCATATTAGCCGCAACTTCTTCTTTTGATAGTTTCATATTTGATTTTAGTTCAATAATTTCTTCATTCATTGCTCCAATTATTCCTATCATATTAATCCCTCCTAAAAAAACATGAGTCCTCTCAGAAAATCTATAGCTCTTGAAATATCTATAATGCTTAGGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTAAAGCAAAATGAGAATGTTATTTTTAAGCCATTCCTTAGTATTTTTGCACTATAACTATCTTCAATTTTCCCTTAAATTTCTCCTTCTGTTTTCAGATTTTCTCATCTATAAAAACATATTGCGTAAGTATTTTAATTTCTTACATTCACTCTAATCTCTCCCTGTAAGGGCAATTCATGAATTGCCCCTACAAAAGCCCCTATTCAAAGCATGACTTAAAAAATAAAAGGCGCTACTTAACGCCTTTTATTTTAAGAATACTTTCTACGAATCCTACAAAAAGAGGATGAGCTCTATTTGGTCTTGATTTAAACTCTGGATGAAATTGAGAAGCTACAAACCATGGATGTTCTTCTATTTCTACAATTTCTATTAATCTTCCATCAGGTGATGTACCTGTAAATTTCAACCCTGCTTTAATAAATTCTTCTCTAAATTCATTATTAAATTCATATCTATGTCTATGCCTTTCATAGATAAGGTCTTCATTATAATATTTAGAAGCATTACTCTCTTTTTCTAATTTACAAGGATATAATCCTAATCTCATTGTTCCGCCCATATCTTCCACTTCTCTTTGCTCCGGCAAAAGATCGATTACTGGATATTCTGTTTTCAAATTAAATTCTGTACTATTTGCCCCTTCATAACCTAAAACATTTTTAGCAAATTCTATTACTGCGCATTGCATTCCAAGACATATTCCAAAAAATGGCTTTTTATTTTCTCTTGCGTATTTTATAGCTTCTATTTTTCCATCTATTCCTCTATCTCCAAATCCTCCTGGAACTAATATTCCATCTACATTTTCTAAATCTTTAACATTTAATTCTTCAGCATTTAAATATGTAATATCAACTTCTGTTTCAAATTTAAATCCTGCATGTTCTAATGATTCGTTTATACTTATATAAGCATCTTTTAACTCTACATATTTTCCCACTACAGCTATTTTTATATTATTTTTTGGATTTTTTATTCTATCTACTAAATTTTTCCATTCAGTTAGAGCTGGTTTTTCAGTTCTTAATCCAAACTTTTCTACAACAATATCTGCTAATCCATTTTTTTCCATAATTAAAGGAACTTCATAAATTGATTTTGCATCAGGTGCTTCTATAACAGCTTTTTGTTCAATATCACAAAATAATGATATCTTTCTTCTAACTTCATCTGTTAATGGATGCTCTGTTCTACATACAATTATATTTGGTTGTATTCCTATTCCCATCATCTCTTTTACACTATGTTGAGTAGGCTTAGTTTTTAATTCTCCTGCTGCTTTTATATATGGAATCAAAGTTACATGTAAATATATTACATTTTCTTTTCCAACGTCATTTTTAAATTGTCTTATTGCTTCTAAAAATGGCAAACTTTCAATATCTCCTACTGTTCCACCAATTTCTGTAATTACTATATCGCTATCATTTTGTTTCCCTACTATCTCTATTCTACTTTTAATTTCATTAGTGATGTGTGGAATAACTTGTACAGTAGCTCCTAAATAAGCTCCTTTTCTTTCTTTGTTTAAAACTGACCAGTATATTTTTCCAGTGGTTACATTATTATGTTTACTTAAATTTTGGTCTATAAATCTCTCATAATGACCAATATCCAAATCTGTTTCTGCTCCATCATCTGTCACAAAAACTTCTCCATGTTGGTATGGACTCATTGTACCAGGATCAAGATTTATATAAGGGTCAAATTTTTGGATAGTTACTTTATATCCTCTTTCTTCTAATAATCTCCCTAAAGAAGAACCTGTTATCCCTTTACCTAATGATGAAACAACTCCACCAGTTACAAAAATATACTTTCTTTTTTTCATTTATACTCTCCTTTTATAATAAATTTTTATATTTAAAAAAATAAAAAAAGACGAACTTATCGCCATATACAAAATAAACTTTTTTTAATTATATCACAAAGAAAATTAAATTTCAATTAAAAAATAGGCTGCGCTTCATCTAGTAAAATATAAATGTTTTTCTAAAATTTTGGCTTCTGAAAAATTTTGCCTTGAAAAATCGTATATTTCAAAAAAACGGCATAGCTTATTTTCTAAATAAATTTATACTTTTCTAATAAATAAAAAAAGCACCCATAAAGAGTGCTTTTAAATATTATTAATTTTAAAATTTAATTAAAATTCTACTTTTACTGCTGTTGAGAATGTAGTTTTTGAATCTGTAGCTTTTCCATCTTTATCCTTCAATACTTTTGAACCAGTTTTTGTCATTTCAACACTATTTGAAATAGTTAATCCATTTACAACTACATCAAACCCTGCTCCTATTATACTTCTATCGCTATCTCCATCATAATATAATTTTTCTCCTAATTGTTTAAATGAAACATTTGTATTAGCTGTAACACCTTCTGATAAAGTTCCTAAATCATAAGCTGCCTTAGCGAACAATCCCATACCAGTTTTTTCAGTAACTTTTCCAGTAGTAGAATCTTTAACTTTATTAGTAACATTTAACATTTCTCCTGAAAGTGTTAAACTTCCCATTTTATAACTTCCTCTTGCATCAACTGCTGTTTTTGTAGCTTTTGTATCATTCATTGAGAACTCACCTGTAACAGATAAGTTTTCTACACCTGTATAAGTAGCTCCTGCTTTTAATCCCATTTTATCATCTTTTCCATCATTTGCAAAGTTTACAACCGCTGTTGTAGCTAATCCATCTACTAATGTTGCATTAACTTCTACTCCATGTGCATCTTGTGTATCTTTTGTACCTAATTCATCTCCTACACCAGTTCCTGCTTCAAATGGTTTCAAAGTTATATTTAAATCTTTTGAAGCTGTATATTTCAAATAAGTATCTCCACCTTCATCATCTGCAAATTTTAATCCAATAGTTGTATCTACATTTACTTTTACTGCTGCTTCAATTTTATCGTTTACTTGTTTTGTTAACGTTAATGATGCAACAGAATCATCCTTACTATCTTCATCAGTATTATATTCTGCCGTAACTTTTGTTGTTTCATCAAATTGTTTTGTTAAGTTCAATTTGAAATATTGATCTCCAGTTTGAGATAACATTTGTCCATCTCTTGTTGAATCCATATCAATTGCTGTGAATTCTACCTTTCCATTTACTGATGTTGTTGCTGGGTCTGCAAATACCATTCCTCCTACTAATAACATTCCTGCTAGTAAAACTGCTATTTTTTTCATACTACCTATCACACTCCTTTTTTTATTTTTATGCCTGATACTTTTTATTATCGTTACTTTTTTTAGTAACTTTAATGTTTTATATAATATAATATTATATATACTTTAAAAACTGCTTTGTTCTGTTTTCGGTGAAAGTTTAATCATAATAAGTTCCATTTTTAAACTTAGTTCCTAGAACAATATAATATAATTTGTCATATTTGTCAAGTACTTTTTTGATGAAAAAATAAGAATATATTAATATATTCTTATTTTTATTATGTTTTATTATTTTTTAATTGTTTTTGTTGCTAAGAATTTTTCCCAAACTCCCTCTTTTGTAAGAATTGATTTTACTGTTCTTGTAGGTTGAGCTCCATTTGATAAAAACTTCAATATCTCTTCCTCTTTTAAAGTAACAGCTGCAGGATTTTTTAAAGGATCATAAGTCCCTAAATAAGCAATAGCTTTCCCATCTCTTCTTGTTAATGCTTCCATAGCTACAATTCTATAAACTGGAAGTTTCTTTCTACCTAATCTTGTTAATCTTAATTTTACCATTTTGTTCCTCCTAATATATATTATTTATTTTCATAAATTTATATTTATGAATTTATTCTTTTTAAAAGGGCAACTTCATACCTGGAAATCCACCTTTCATACCTGGTAAACCTCCGCCACCAAACATTTTCATCATTTTTTTCATTTGTTCAAATTGTTTTAATAAATTATTTACAACTTGCACATTTGTTCCGCTACCTTTTGCTACCCTTTTTTTTCTACCTGCATTCATCAATTTAGGATTTTTTCTCTCTTCTTTTGTCATTGATTGAATAACTGCTTCTATTTTTTTCATCTCTTTTTCAGCTGGTGCCAAGTCTCCTAATTGATTAGCTCCCGGTATCATCTGAAGAAGTTTTGTTATTGGTCCTAATTTTTTTATTTGATTTAATTGTTTTAAAAAATCTTCTAAATCAAAAGTTTGTTTTTTTATTTTTTCTTCTAATTCTCTTGCTTCATCTTCATTTATAGTTTCTTGTGCTTTTTCTACTAATGAAACTACATCTCCCATCCCAAGTATTCTAGATACTAATCTATCAGGATGAAAAAGTTCTATATCATCAAGTTTTTCTCCAACACCTATAAATTTTATTGGTTTTCCTACTACTGCTTTTATTGATAAAGCAGCTCCTCCTCTTGCATCTCCATCTAATTTAGTTAATACTACTCCATCTATATTTAAAGTTTCATTAAATTTCTTTGCTACATTAACAGCATCTTGCCCTGTCATTGCATCTACTACAAGTAGAATTTCTTGTGGCTTTATAATTTTTCTTATATTTTTTAATTCTTCCATAAGATTTTCATCAATATGAAGTCTTCCTGCTGTATCAAATATAGCATATGTCGCATTTTCTTCTTTTGCTTTTGCTAATCCTTTAGTACATATCTCCACTGCATCTTTACTACCTTCTATTGTAAATACAGGTGTATCTATACTTTCTCCTAAAACTTGCAACTGTTTCATAGCTGCAGGTCTATATACATCCGCTCCAATTAAATAAGGTTTTTCATTTTTCTTTTTTAAAAATTTGGCTAATTTTGCTGCAAAAGTTGTTTTTCCTGCACCTTGTAATCCAGCTAACATAATTACTGTTGGTGGTCTTAATGCTTTAGTTAATCTAGCATTTGTCCCACCTAACAATTCTATTAGTTCATCATTAACTATTTTTACAAATTGTTGCCCTGGATTTATACCTTTTAATACATCTTCTCCAACTGATTTTTCTTTTATTTTATTTATAAACTCTTTTACAACTTTATAATTTACATCAGCTTCTAATAATGAAAGTCTAACTTCTTTTAAAGCATCTTTTATATTCTTTTCGCTTAATTTACCGTTTCCTTTAATTTTTTTAAATATATCTTGAAAACGATTTCCTAAATTATTTAACATTTTTTCACCCCATTATACAGAAAATTCATTTATGATCTCTTCTAATTCGATTATATTATATTTATTATTAATTTTCTGTAATTCATTTTTTATTCGTTTTTCTTTATTCCGAAATTTTAATTTTTCTTCATATTCATACAATACTTTTATTCCACGTTTTATATTTTCATATACAGCCTGTCTGCTAATGCTATATTTATTTGCAATTTCACTTAATGAATAATCTTCTTCAAAATGTTCTATCATATATTTTTTTTGTTTTTCACTAAGTAAATTTTTATAATACTGCAATAATATAGATGTCTCAAAAAAATCTTCTAATTCCATTTCATCACCTTGTCAATTATATTATATTTACAAAGCTTTGTCAAGTGATTTTTATTTACACTTTTCACTATAATAAAAAAAACACAACTTATCAATATTCTAAGCAAATAAATTTCATTTGTATTAATATTTGTTAAGTTGTGATTATAATTTATTTTGAATTTGCTATAGCTTTTAATAATTTTTTGTCAAAAGTTGCTATTTCATATCCAGCTTCGAATGAATAAGCATACAATAAACAATCTACAAAATCAAGTTTTTTCTCAGAAAAAAGTTTCAAAGCTTTTTTTACTACTTCTTCTTTTTCTAATTCTACACTCCTATTGCTAAAAAAATCAACCAATCCTTGCATTATATTAACTCTGTTAACTTTATATAGTTTTTCCAAAACATAAATAACTTCCGCAATTACTTCATTAAAAATTAAAATATCATTGTTTTCTATTATATTTTCAGCTTCCCTTAAATGTTCTTCATGATCTTCCAATAAATATCTCAAAATAATATTTGCATCAACTATTTTCAAATTTAATCACCGCTGTTTCTTCCCAAACTTTCTTTTCTCTTTTTATCAATTCCACATTAGAGTACATTTTAAAAACACCTTTTCCTTTTAGTTGCTTAAAATTTTCATTTTCTTTAGGTTCAATTTTAATATCTTCTACATTTTTTAATTTTTCCAAAATAACGTTCCATTCTTTAACAGGAATAATAATATTATCTGAATACTTCTCTGTATGAATAATGAACATTTTAATCACTCCCTTATATGAATAATATGTTATAGCAATTTTAAAAAATTAAGTCCCAAAATATTAACTTAGGAACGGCTTAAAAATAACCTTCTGATTTTGTTATAAAATACGCAACGATTCAAGCGTCTTTACAACAAAATATATAAACTTATTTTTTAAACATTCCCTCTCTCTATAATCAATCGCATATCTCCTGTTTTTTAATTATATTTCTCTAATAAAAATATTTTGATCTCTATTTGGTCCAACTGATACCATTGAAATTTTTGCTCCTACAACTTCTTCTATTTTAGCTATATATTTTTTAGCATTTTCTGGTAATGCATCATAACTTTTTATTTTACTTATATCTTCTGCCCATCCATTTAATTCTTCATATACAGGCACGGCTTTTTCTATTTTTCCAAGTGATGCTGGAACTGTTTTGTATACTTTTCCATCTATTTCATAACCTGTTGCAATTTTTATTGTATCTAATCCACTTAATACATCTATTTTTGTCAACACTATATCTGTCAATCCATTTATAATTACAGAATATCTTCCTACAACACCATCAAACCATCCACATCTTCTTGGTCTACCTGTAGTTGCTCCATATTCTCCACCAGTTTTTCTTAATTTTTCTCCCATTTCATCATCTAATTCACTAGGAAAAGGCCCTGCTCCAACTCTTGTTGTATACGCTTTCATAACTCCTATTATTTTGTCTATTCTAGTAGGAGCAGCTCCAGTCCCAACAGGTGCTCCTGCTGATGTTGGCGATGATGACGTTACATATGGATAAGTTCCATAATTAATATCAAGCATTGTAGCTTGTGCCCCTTCAAATAACACCATTTTATTTTCATCCAAAGCATCATTTACAATTGGAATATTGTCAATTATTCTATCTTTTAATTGAGATGCATATCCTTTGTATTCTTCAAATATCTCTTCAAAATCAAGACTATTTACACCATATACTTTTTCAAAAAACATATTTTTTTCTTTTACATTTTCATATAATCTGTCTTTAAAATAATCTAATTCAAGTAAATCTCCAACTCTCATACCTATTCTAGAAATTTTATCTCCATATGCTGGACCAATTCCACGTTTAGTTGTTCCTATTTTATTTTTTCCTCTTAAATCTTCTTTGACCTCATCTATTGTAATATGATATGGCATAATAAGATGAGCTCTGTCACTAACATATAATTTTTCCGTATTAATTCCTTTTGATTCTAAAAGTTCAATCTCTTCTAATAATACTTTTGGATCTACTACAACTCCAGGCCCAATAATACAATCTCCATTTCCATTTAAAATACCAGATGGAATCAAATGCAAAATAAATTTCTCATCATTAATAACAACTGTATGCCCAGCGTTATTTCCTCCTTGATATCTTATTATTACATCTGCTTTTTCTGCTAACACATCAATAATCTTACCTTTACCTTCGTCTCCCCATTGCGTACCAACCACTACATAACCTGCCATTTTTTTACACCTCTTTCTCTATTTCTATATAATTAATCTTCATACCTTTTTTCAAAAACATATCTTCAAATTCTGTAGATACATTTTCTTTTGCCCTGTCGCTAGAATGTAAATCCTCTGTATTAAACACTATTTTATATCCTTTAATATCTTTCATTAATTCCAATACATCCATATAATATCCTTTATGATCTGTTTTAAAAAATATTTTTCCACCTTTTTTCATTATCACATCTAAATTATCAAAAAGCCCTTGTTGAATCATTCTATTTTTTCTTTGTTTCTCTTTTTCCCATGGATCTGGAAAATTAATATATAATCCACTTATTTCACTTTTTCCTAAAAATTCTAAAATTTCTTCTCCTCTTCTTCTCAAAAGAAGAACATTTTTCAAATTTCTTTTTTTACACTTTTGGGCTGCTAAAACTAATCTTTTGAATTTAATTTCAATACCTATAAAGTTTTTATCTTTTACTTTTTCTCCAGATCTAGCTATAAAATTTCCTGCTCCTGAACCAATTTCCAAATATATTGGATTATCATTTTTAAAATATTCTTTCCAGCTTCCTTTATATAAATTCATTTTTTCTTTTTCATACATAATATAATCTTTATAATTTTTCATTCGCTCTATATAAGGATTTAGAAATTTCTTTTCTTTCTCAAAAAAATTTTGCCACACAATATTCTCCTTTCAAAATCATATTACTATATACTATCTAACAAAAACAACTCCTAATTTTATATTATTTTTCAAATTATGTCAATTAAATTATTATATACATTCTTTAAATTTTCACTGTTTTCTTTAAAAAATATATCTATTTCATCTTTTTTTATATTTTTTTCTATATTTTCATTTGTTATTTCATCTATTTTTTCTTTAAATTCATCTTTATTTTTCACCATATATCCTATGCCTCTTTTTTCTATTTCTAATGCTATCTCTTTAACATTCTGTATATATTTTCCAAAAATTGGAGTTTTTCTATAAAAAAGTGGTTCTAGCAAACTATGTCCACCTACGTTTGTTAATGTACCTCCTACAAAAGTTATGTCTGCTAGTTGATATAATTTTCGTAACTCTCCAATTTTATCAACTAATATTATATCTGGTGTTTTTACTACTTTACTATCACTATATTTTACATAATTAAAATTTTTTAACAGCTCTTTTTCAATTTTTTCACATCTGTCTATATGTCTTGGAACTAAAAAAACAGTTGTATTTTTCAACTCCTTATAAATATCTAATATAATTTCTTCTTCTGTATCGTGCGTACTCCCACAAACAAAATTTTTTCTATCTTTCAATTTAAACTTCTCTTTAATTTCTTTTATAACATTTTCATTATATTTTTCTAAATCTATATTAAATTTTATATTTCCTATTGTCTTTATATTTTTAGAATCAGCTCCTAATTCTTCTATTCTGCTAGAATCTAATTTTGTCTGCATCATAAGCAATGTTATTTTATTCAATCTATTTTTTAATAACAGCTTAATTTTTAAGTATCTTTTATAACTTTTATCTGAAATTCTTCCATTTACCAATACAATTTTAGTTTTTTTATATACAATATCTATTAAATTAAACCAAATCTCTGTTTCAATTAAAACAACTAATTTTACATTAATTTTATTTAAAATTTTCTTTATTGTTTTTACATTATCTAATGGAAAATATTTTATCACTACTCTTTTATTTTTTAAATATTTCTTTTTTGCCATTTCCATTCCTGTATCTGTAAATATTGTCAATAAAATTTTATAATCTGTATCTGATAAAAATTTATTAATTAAAGGCTCCGACAAATTAACTTCTCCAACTGATGACATATGAATCCAAATGTAATCGTCCGACATTAAATCATCAAAATTTTCTTTAACCCTTTTTTTGAAAAAATCTGGATTAAATAAATATCCTATTAAAATTAAAATAACTCTTAAAATATTATATATATATATCATTAAAAACTCCTACTCATTTCCTAGAAAATATTTAAAAAACAGCTTTCTCATATTTTGCTATTTTTAAGCCATTCCTATACTATTTTTAATCTGTTCCTAAATTAATTAATACAACTGACAAAAATATTAATGTCCCACCAATAATTACATTTAACTTTAATAATTCTCCTAAAAAAATTATACTTAATATTGCTGCAACAAAAATTCTACTAGAAGATAATATACTACCACCTAATGCACTTATATATTTATATCCTTCCGTTATAAAAAATTGCCCTAAAAATGATACTGCTCCAACTGAAACCAACAACAGTAACTCATACACTGAAGGAATCTTAAAAAACCACACAAAACTAAAAAATGTGATTACAAGACCTATTTTCATTAAATAATATAATATTGTAAAAGATTCATCTGTTAATCTAGCTTTTCTTAATGATATAATTGCAAATCCTGCAACAACTCCACCTAATATACCTGTTATATCTCCTAATCCCACCTCTTTAAAATTAAATCCAACTACTAAATATGTCCCAATAAGTGCTAATAATACAATAAAAGCTTTTTTTAATGTTAATTTTTCATCTAAAAAAAATGGAGCAAATATTGCTACAAAAATTGGATATGTCAAATTATATATATTTGCTTTTGTAACTGTGGAAAGCTGTATTGTTACAAAAAATAAAATTACAGCTAAAGTATTTAATATTGCTCTTGCCCACAATGCTTTTTTATTTACAGGAACAATCTTTTTTTTCTTAATAGATTTTATAGAATATATAATTATAAAACCAATTAAAAATCTAAAAAATGTAACCTCTACTCCTGGAATATTATTATTTTTAGTTATTAATTTTACTATTAACGTCATAAATGAAAAGAATAATACTGATATAAAAACTAAAAAATATCCTTTGAATTTTGTGTTTAATTTCATAATTTCTCCCTTTGCCTAAAATAAATTTATAAAAATTTTTAAATAATAAAAACCCGCTAAAGCGGGTTTTTATTATTTATGGTTTACTTTATCAGCTAATTTTTTACCAACTTTAAATTTAACAGCTTTTTTTGCAGGTATAGTTATTTCTTCACCAGTTCTAGGATTTCTTCCTTTTCTTTCAGCATTTTGTCTTACTTCAAAAGTTCCCCAACCAACAAATTGAACTCCTTCTCCTGCTACTAATGCTTCTTCTACAACTTCAAGAAATGCGTCTGCCATTTCCCCTGCTTTTCTTTTGCTTTCTCCTACTTTTTCTGCATACTTTTCAATAAAATCTTTTTTTGTCATCTTTTATTACCTCCTTTTATTTTACACTTCTAACATCTTAAAAATAATCCTACAAACTATTATATTTAAGGCATCGAAGAGAACGTCTACTCTATGTATTATACATATTTTTTAAAATTTGTCTAGCTTTTTTTTAAAAATCTATATTTTTTATAAATTTTCTTTTAAAATTATCACTGTTGGCTAAGTCAATATATTCAATTTTTTGGTGAAATTCATCATAAAATTTTTCATCTATTTCTCCTGTTATATATCTATAAAGCCCTGATATTACTAGGTTATCGACAATTTTTATTTTATCTAACTCAATATTCGGCATTAACCCTATTTTTATTAACCCTTTTTTATCTAAGTTTTTTCCAAAATTTCCTGTAATTATAATTTTTTTTATTTTATCATAGTTATTTTCCATCATATCAATTGCACTTCTTATTGACGATTTTGCCATCTGTATCTCTCTAATATCATTTTGTGATATATAAATATCTTCTGTTAAATAAAATTTTTGCTCTTTTAATCTTCTATTTAAAAATGGATAATATCTGTTTTTAGATTTTATATTTCCATCTTTTCCAATAGTTTCTGTGTAAATTAACTCTCTAAGAAGAGCTATTACTCCACTACCACAAATTCCTTTTAACGGTTTATCTCCTATTGTTTGTATTTCCACTTTTTCATCTATTCTAATATCACTTAATGCACCTAACGTAGCTCTCATTCCGCAGCTAAGAGATGCTCCTTCAAATGCAGGACCAGCAGCAGTTGATGTAACATAAAATTTCCCATCTCTAATTAACACTATTTCTCCATTTGTACCTATGTCAACTATAACTATATTATCCATATCTTCTTTTTTATTATAATATCCCATAATAACTGCATACGTATCTCCACCAACATAACCTGCAATGTTAGGCATTACCTCTATTCCAGTCACATTAAGACCTATTTCTAGCCCTTTAAGAGCTTTTTTTTCTGTAAATGCAGGTGCATATGGTGGTGTTATTAAACTTTTAGGAGAAATTCCTAAAAAAATATGCTGCATAGTGGAATTTCCTGCTAAAACAAGTTTTTCTATATTACCTATAAGTTCTCTGTTTAATCTATCTATTAAAATCTTTTGAATCTCTCTTAATTTTTCTTTACTTTCTACAGCGTATAATATTCTTGAAATAACATCTGCTCCATATATTATTTGTGGATTAAAAAATTTTTTCTCTCCTACTTTTTCAAAATTTTCTTTATTATAAAAATTCATTTCAATAGTTGTAGTTCCTAAATCAACTGTGCAAATTAACTTTTTATTATCTATTTCTAATAATGATTTTTCATAAAACTCTTCTTTTTCTATAATTTCTATTTCTACTTTATCTTTAAATTCTGTCATACAAGCTAATCTTATTCCATTCTCAATCTCTTTTTCTGATAATAAAAGTTTTTCATTTTTACTTATATCATTAAATTTTCCATTTAAAATTTTAATTTTACATTTACCACAAGTACCATTTCCACCACAAGGGGCATTAATCTCATAATTTGATTTCATTATATTTTTTAATATATTTTTTCCATTTTCTTCATATAATTTAACCATTTTATTCTATTACCTCATTTAAAAATACTAATTTTATCCCATTTTCTTTTATATATGGAATCATATTCTCCAATGCTTCCTCTGTAATTTTATTATAATGTCCTATAGCCACTAATTTCCCATATTTTTTAGTTTTTTCAACTGCTAATTTTATTCTTTTTTCTATATATTCTACATTTTTTTCATTATCTAAAAATATAGAACAATAATATGTTTTTATATTTAACTCTTTTGCAGTTTTGTATCCTACACTTTTAGAAGTAGTCCTACTATCAATATAATACATATTTTTTTCTTTTACATATTCTAATAATTCTTCCATTTTTTCTTTATTTGATGTAAATTTAGACCCCATATGGTTATTAAAACCTTTTGCACCACCAATATTTTCTAATCCCTTTTCAAATCTATTTATTATCTCTTTTTTTGTCATAGTTGTTCTAATTAAATCTTTTGTCCTTTTGTTCAAATATTCACTTCCTAAGCTTTCCATTGGCATATGCAAAATAACATTATATCCATTTTTTCTCAAATAAGAAGTTGCTTTTTTAGAATCTCTTAAAAATGGAATCGTTGCAAAATTTAATTTTTCCTTTATATTTGAAAATTTATAAGCAGTAGATAAATTTTCTCCTACATCATCTATTAATATCGCTAATTTATTTACTTTTATCCAATTTATTTTTATCTTAAAAGCTATAATATCCCCATTAAAAAAATTAATTATATTTTTATTTTTTGCATCTCTTTTTTCTTTTAAAACTTTTAAATCAAACCTGAATTCTGGAATTTCATCCTCTTCTATAAAAACAGTTACACTTTTATCTTTTAATTCAAATTTATAATTTGAATTTATAATTTCATTTTTTATATTTTTTATATCGCTTACTATTTCATTAGACTTTTCATTTGAAATATAATTATTATATTCATAATAAACAAATATTCCTAAAATAATAATCGCTAAAACTATAATAAATTTTTTCATATTCTTCATTTCTCCTTACGATAATCAATATATTCTAACAACATTATTATCATTAAATTAATTCCAAGTATCCAAACCATTCCAGAAATTGTACCTTTTCCTACTGTAAAATTTCCTCTTGCAATCAATTCTCCACAAAAAATTCCAATTAAGCCTGAAATTATTAAAAAATAACGCCTTCCCTTTAAATAAAAATATTTAATTCCAATATATAAATAAATTTCCAAAAATAAGATTATATGATAAATAGAAATATAGAAACCGTTTAAAAACTTAATATCCATAAATAAAAATAGTAAATCTAAAATAAAAATTATTATTATCCACATAACTCTATCCTACGACAATCTTGTCTATTATCATTTTATTTATCAACCCTAAAATCTCATTTTTTATATGTTCTATTTTTCTATCAGTTGTATCTATTTCAATGGCGTCCAAAGCTTTTACAAGTGGACTATTTTCTCTTTCTGTATCCATTTTATCCCTCTTTTTTATCTCTTCTAATACTGTTTCTATTTCTATTCCTATTCCTTGTTTTTTGTAATCCAACAATCTCCTTTTGGCTCTTTCTAATGCTGTTGCATTTAAAAATATTTTTAAATTTGCATTAGGGAATACAACTGTTCCTATATCTCTTCCATCTAATATAACTCTTTTACCTTTTGATATTTCTCTTTGCATTCTTACCATTTCTTCTCTTATTAATTTTACAGTTGCTACTTTTGATACAAAATTTGATACTTCTCTTCCTCTTATTTCATCACTTACATCTTTTTTATCCAAAATAATATTTTTATCTTTTATATCCAAGATTGTATTTTTTAACATATTTTCAATTTCATCTAAATTAGATAAATCTATTTTATTTTGTATTACTTTTAAAGAAATAGCTCTATACATAGCTCCTGTATCCAAATACACAAATCCTAATTCATCTGATAATAATTTTGCTATTGTACTTTTTCCACTTCCAGCCGGTCCATCTATCGCCACAATAAATTCCATTTTATATCCTCCCAACAACTGATATCCATCCATCTTCTTCCATTATATCTATTATCTCAAATCCTACTCTTTTCATTTTTGAAATTACTAATTCTTTTTGTTCTAATATTATCCCAGAAGTAATAAATAGACCGCCACTTTTTATAACTTTTGTTATATCATCGAGCAAATCCATAATCACTTTTGCCAATATATTAGAAACAACTATATCAAATTTATTTTCACATACTGCTTCTAATAAATCGCCTTTTTTTATTGTAAATTTATCTTTTAAAACACCATTTAATAACAAATTCTCTTCTGCTGCTTTTATAGCTTCTTCATCAATATCTGTACCATATAAAGAACCAGCACCAAGCTTATCTCCGGCAATCATAAGTATTCCAGAACCTGTCCCTATATCTAATAAACTATCCCCTGATTTTATATACTTCTCCAACATTTTCACACATAGAAAAGTTGTTGGATGAGTTCCTGTCCCAAAAGCAAGCCCTGGATCTATTTCAATTATAATTTCATCTTCATCTTTTTTTTCGTAATCTTTCCAAGTTGGTTTTACAACTATTCTTTCTCCTATTTTTTCTGGAAAAAAATATTTTTTCCAAACATTTTGCCAATCTTTTTCATCCACTTCTCCATAGAAAATTTGAAAAATAAAATTCTCTTTTTCTGAAATTTCTGTTAATTTTTCTTCAAAAACTATCTTTTTATCTTCCAAATATATATTCATAGGAAAATATCCAATAATAGAATAATTATTTCTAAAAAAATTATGTTCATTTGAATAATAATCAAGAGGATTTTTTTCCATTGGTTCATCTATTTGCAAATCCCTAACTCCAAAATCATAAAATATATTCATAATTTTATCTTTTGTAGCTTCAATATTATCTGAATCAAACATTACCTCTACTTGTTCCCATTTCATATATTTTACTCCTTATTTTAATAATATCTTAAAAGCAAATCACCCAATTTAACAATAAAAAGTTCAAGATTATTTTTTTAAATCTGAAATTTCTTTTTCACTTAATCCTGTTATCTTTACTATTGTTTCTAAATCCAATCCATTTTTTAATGCTTCTTTAGCTATTTTTTCAATTCCTTCTTTTTTTCCTTCTTCTCTTCCCTCTTTTTTCCCCTCTGCTCTTCCTGCTTCAATCCCTTTTTTAAATCCTTTTTTCTCAGCTGTTTTTATTGCAGCTTCTTCATCTCTTAACCATTTTAATCTTGCTTCATAGCTTTCTCGCTCTTCATAATTTAATGACATATCTTCTAACAGTTCTACTGCTTTTTTTATACTTTCTACTTCTGCTAACTCTTTTGGTAATCTGTTTTTATCATATCCTTCTGCTTTTTTTAAAAAATTTACCCATCTATCTAACATTGTACTCATTTTCTCATCATACTTTTCTAATTCTATAAAATGTATCTCTAAATGATCTATAAATTCTTTTCCACTTTCACTATTTATTATCTTATATATATTATGATATTCTTCTTCATCTAAACATCTAAAATTTAATATATTTATACTTATGGTTTTCTTTAAATTATCATAATTTACTCCAGCTGATAGTTGCCCGGAATATAGTCTTGCCCAATAATATAACGCTCTCTTATCAAAATATTCTTGATCGATAACCTGCATCTCTATATTATACCATTGCCCTCTTTGATCAATTGCCTTTATATCTAAAATAGATAACTTATCATTTCTAAAGTTTTTATCATTATAAGGATTTTTTAATTCTAATTCTTTCACTTGATCTTCTTCTGATACAATTGAATTTATCAAATCTATTAATAATTTTTTATTTGACTCTGTCCCAAATAGTTTCTTAAATGCAAAATCTACTCTTGGATTTATCCTACACATATATTTTACCTCCCTCTCTTCTACATTACAAGGCAATTATAACATATTTTAAAAAATTTATCTTAATCTTTTATTATTACAGAATGTTTTCTTTCACTTTCTAAAGTTTCAGGATAATCTATTCTATAATGTCCTCCTCTACTTTCTTTCCTATTTAAAGCGGCTTCTGTTATAAGATAGGCAACTGTCAATATATTTAATAATTCTATCCCTTTTACTACATCTTCTCTTTTAAATTTATACTGTTTTATATATTCAACTATATTCCCAATTTCATTTAAACTATCTTTTAGACTTTTTTCTTCTCTTCTAATCCCTACTTTTTCCCACATTAATTCTTCTATATTTTCTTTTATTTTTTCTATCTCTTCACTAGAAATCTCTTTTTTAGAATTTATATTAAATTTTATCCCTTTCATTTCTATTTTAATTTTTTCTCTTTCTTTTAAAGCAATTTCTCCTGCTCTTTTTCCAAATACTAACCCTTCTAATAAAGAATTACTTGCAAGCCTATTTGCTCCATGTACTCCTGTTCTTGCAGCTTCTCCTACAGCATAAATTTCTTTTTTATTTGTTTTACCGTTTATATCTGTTGATATTCCACCCATTATATAATGTGCTGCTGGGCTTACTGGAATATAATCTTTTGCTATATCAATATTATATTCCATACAAAATTCTGTAATTCTCGGAAATCTTTTATATAAATAATCTTTATCTAAATTTGTCATATCCAAATATACACATTCGCTATTTGTTTTTTCCATTTCTGTTAAAATAGATCTGCTAACTACATCTCTTGGAGCAAGTTCTTTTTTTGAATCATATTTTGCCATAAATCTTTCTCCATTTATATTTCTTAAAATTCCTCCTTCACCTCTTAATGATTCAGATATAAGAAATCTAGGTGCACCTTTTTTATAAAATGTTGTTGGATGAAATTGTACAAACTCTATATCCGATAATTCAACTTTATTTCTATATGCAATTGCTAATCCATCTCCAGTTGCTACATCTGGATTGCTTGTATTTTTATATACTTTTCCAATACTTCCAGTTGCAAATATAATACCTTTAAAAGAAAAAAGTTTCATTTCATCTTTTTTTATATCATGAACTAGGCAACTATTTTTATCTATAATATCTAATAAAAAATTATATTCCAATATTTCTATATTTTTTTGTTTTTTTACCTCTTCTGTTAACGCTCTTTCTATTTCAGCACCAGTTGTATCTCCAGCATGTAAAATTCTAAATTTAGAATGTGCAGCTTCTCTTGTTAGATTAATTTCCCCTTTATCATTCTTATCAAAATTCGTATTGATATTTATTAACTCTTTTACTCTTAAAGGCCCCTCTTCTACCAATACATCTACAGCCTTTTCTATACACAGTCCTGCTCCTGCATATAGCGTATCTTGCTTATGTAGTTCAAAAGTATCATCTTCAGAAAAAACAACAGCAACTCCACCTTGTGCATAATTAGTATTTGTTTCTATCATTTCACTTTTTGTTATTAATGTTACTTTTGATTTTTTAGATATTTCTAATGCAGCTCTAAGGCCTGATATTCCAGTTCCTATAACAATAAACTCCTTTTTTTCTACTTCTATCTTTTCTATATCTACGAAATTTATTGGATTTAGCTCATCTATTATTCTCATTTATTATATTCTCCTTTTAAATTAGACAAAAATTTATAATCAGTTAAATCTAAATTTATTGGAGTAACTGATATATAATTTGATTTCACAACATTAAAATCATAATTTGGATCATCTCCTGTTTCGCATACTTCTCCACCTAACCAATAATACTTATCTCCTCTTGGATCATCTCTTTCTATAAAATTATCTATATATTTTCTATCTCCTTGTTTTGTATATTTATACCCTAATATATCTTCAAATTTTAGATCAGGAACATTAATATTAAGTAATGATTCTTTTGGAAATTCTAATTCATCTATTTCCTCTAAAAATTTAACTAAAAATTTCCCAGCAGTTTCATAATTTGGATTTTCACTTGGTTTATATAATGATACTGCAATTGATCTAACCCCACTTAAAGCTCCCTCTGCTGCTGCTGACACAGTTCCTGAATAAAGTACATCAGTTCCTAAATTTTCGCCTCTATTTATTCCTGAAATTATCATATCTATTTTTTTATCTTTAAAAACTCCCCAATATCCTAACTTTATACAATCAGAAGGTTTCCCATCTACAGCATATCCAAAATGAATATTGTTTTTATTTATTTTCTGTAATCTTAATGGCCTATGAAGTGTTACTCCATGCCCTGTTCCACTTTCCTCTTTTGCTGGTGCAATAACATATACATTATGTCCTGCTTCTTTTAAACAATCGTGTAATACCTCTATCCCTTTTGCATGAATTCCATCATCATTTGATATTAGAATATTCATATTTCCTCCTAGTAATTAGTTTTTGATTTTTTATTATTTAATATCTCTCTTATATTTAATGTAAAAGCTATTAAAAAATTAATTATAATAAAAAAAGAAAAAATTATATTAATTCCAAAAATTTTTTTATTTATAATTTTATACTTAACTTCACTCCAAAACAAAATTAACCAAACAATTGGAATAAAAATAGAGTTTAAAAATATTAATATTCCTCTCAAATAATAACCGCTTTGGAATTGAAACAATCCAGGAATTAAATACTCTATAATTTTATTTTTCTTTGTAGCTCTTTTATCACTATATTCATATGAAAATTTACCTAGTAACTCTTCTGAACATTTTTTGCAATAAAAAGCCTTATTTGGATCTCTAGTTATTATATCTAATTCTTTTCCGCATCTTACACATTTTGCCAATTTCATCACCCTAATATTTTATAGTAAATTTATTATATTTTTCTCCATAATACTCTTCTTCAACTAATTTGTCAACTTCCGACATTGAATTTCCAGCTATTATTTTATTTTTAAATTGTTTATATTCAATTTCATTTTCATTAGAAATAATTATTTCAACATCGCCATTAAATAAATTTTTTACATACCCTTTTGCTCCATATTCACTTGCTAATATTTCTGTAAAGTATCTAAAACCTACTCCTTGAACTCTGCCTTTCACAATTAATCTTTTCATAATTATATTTCCTCTAATCCAATATCAATTCTGTCAATTGACAAACATTTTCCTGTTTTACTATTAAATGTAACATCTATTCCATTAAATCTAATATTATCATTACAAACTTCAAATCTTGTTGGAAGATAATTCATAAATTTACCTATTATCTTTTCTTTTTTACTTCCAATCACTCCATCAAATCCACCAGTCATACCTATATCACTTATATATCCAGTTCCTTTATGCAAAATCCTATTATCTGCTGTCATTACATGTGTATGCGTCCCAAATACAAGTGAAGCCCTCCCATCTAAAAACCATCCTAATGCCATTTTTTCAGACGTTGCCTCTGCATGAAAATCTACTACAACTACATCTGATTTCGACATTACTTCTTCTATCACTTGTTCAACTATTTTAAAAGGAGAATCAAGTTCTGGCATAAATACTCTTCCTTGTAAATTTATGACACCAATTTTTTTACCATTTTTTGTATTTAATATTATATATCCTCTTCCTGGTACATTATCAATACCATAATTTAAAGGTCTTATTATTCTAATTTCTTTATCTAATACAGGGTATATCTCTTTTTTATCCCAAGTATGATTTCCTCCAGTTATTAAATCTACTCCCATATCATATAATTCATCTGTTATTTTTTTTGTAATTCCAAATCCACCTGCTGAATTTTCTCCGTTTACAATTACAAAATCATATTCTTCCTCATGTTTTTCCATATACTTTTTTAAAGCTAATCTCCCTGGTTTACCTATAATATCTCCTACAACTAAAATTCTCATTTGTTCTCCTTCCTATATTTTAAAGAATATTTCAAAAATAAATTTTCCATATTTTGTTTTTTAATCGTCCTTAAGATGTTTAAATAAATAAAAAAATAAGCTACGCTTCATCTCGTAAAACATAAATATTTTTCTAAAAGATTTAAAAAAAGACGGCTAAAAAGCCGTCCCTCTATTTAGCGTATTCTATTGATCTAGTTTCTCTAACTATCATAACTTTTATTTGTCCTGGATATTGCATATTTTCTTCTATTTTTTTAGCAACATCTCTTGACAATTTTATAGCTCTATCATCATTAATTTCATCAGGTTTAACTATTATTCTTATTTCTCTACCAGCTTGTATTGCAAATGTAGTCTCAACTCCTTCAAAACTATTTGCAATTTTTTCAAGTCCTTCAAGTCTTTTTAAATATGTTTCTAAAGTTTCTCTTCTTGCTCCTGGTCTAGAAGCTGATACTGCATCTGCCGCTTGTACTAATACAGCTTCTACACTTTCAAATTCTTCTTCACCATGATGTGCTGCTACTGCATTTAATATTTGTGGTTTCTCTTTGAATTTTCTTAAGAAATCTTTTCCTATTAATGCATGAGAACCTTCTATATCGTGATCTAAAGCTTTACCTATATCATGTAACAGCCCAGCTCTTTTAGCTAATTCTACATCTGCTCCTATTTCAGAAGCTAATGTACCTGCTAAATGTCCTACCTCTATTGAATGAACAAGTACATTTTGACCATAACTTGTTCTATATCTTAATCTACCTAATACTTTTATCACTTCTGGATGTACTGAATGTATTCCTAATTCCAATACTGCTTGTTCTCCAGCTTCTATAATAGCTAATCCTACTTCTTCTTTAGCTTTTTCTATAGATTCTTCTATTTTTGCAGGATGAATTCTGCCATCTGCTACAAGTTTTTCCATAGCAATCTTAGCTATTTCTCTTCTTACAGAATCAAAACTAGATAATACAACTGCTTCTGGTGTATCATCAATTATTACATCTACACCTGTCAAAGCCTCTATAGTTCTTATATTTCTTCCTTCTCTTCCTATTATTCTACCTTTCATTTCATCATTTGGTAATTGAACTACTGACACTGTTGTTTCTACAACATAATCAGAAGCTGCTTTCCCTATTGCAGTAGATAATATTTTTTTAGATAATTTTTCTTTTTCAAATTCAATTTTTTTCTCATATTCTTTTATGGCTAATGCCGATTCATGATCTAATTCATTTTGTAACTCACTTAATAAAATATCTTTAGCTTCATCTTTAGTTAATCCAGATATTCTTTCTAATTCTTCCTCTTCTTTTACCTTTAATGATTCAATTTCTTCCTCTTTTTTTATAAGAGTTAATTTCTTCTTTTCAATATTTTCTTCTTTTTCCTCAATTTTTGCGATTTTATTATCTAATTGTTCCTCTTTTTTTATAAGTCTTCTTTCTTTTATTTGAAGTTCTCCATTTGCCAATTTTATTTCTTTTTCAGCTTCTTCTTTTATTTTATAAGACTCATCTTTTGCTTTAATTATTGCTTCTTTTTTTATCGTACCTGCCTCTTTTTTTGAATCTTCAATTATTATTTTTGCTTTATCTTTTGCAGAGTTTATCTCTTTTTCTATCTCTTCAAGCTCTCCTAATTTTGCATCTACTACTTTTTTTCTTAGAAGATAGCCAATTACTCCTCCTAAACCTGCTGCTAAAACAGATGCCACAACTATAGCTACATAAATAATTTAAATCACCTCCTATATTTTATATTAAGTACAATTGTATAACTTTTATTAGAATTTGTCAATATAATAATTATTTTTTAGATTTATTTCACTATTTAAATAGATTATTTTAAATATTAACATTTTTTTTGTTATATTATATACTCTAATTTTTGATACTATATTTTTCTTCTTATATAAAATTTCTCCAGTAATATTATCTCTTAATATATTTTGATAATTATATATTAAAAAACTATCTCCTATTTCTAAATAATCAGAAAATCTGTTTTCTGCATAAATATATTTATCATCTTTTTTTAATATTTTTATCCCTTTTCTATATTTTTTTTCTTTTTGATAATATTTTTTCAATTCTTTTTGAACTTCCTTATTATCTATTATATATTTTGCTATATTATATATTCCATTAATATCATTTGTATCTTTATATATTCTAAATAAACTTAAATATATCTTTTGAGATTTATTTAAATTTAAAGCTTTTTTTAAATTTATTTTTGCTAATTTAAAATTATTATTATCTGCAAATATTAGACCAAGTCTATAATAATATTGATAATTGGCTGGAAATATTTCTATTGCCTTTTTTAAATTTAAAATTGCATTTTCTACCTTTCCACTCTTTAACATCTCAATTGAATTGAAAAATAGTTTATCTGCTTCTTTTCTCAATATTGAAATTTTTTCTATATATTCACTATTACCATATTTATTTAAAATTAAATTAATCTTTTTATTTTTAAATAAAAATTCTAAAAAATCTTTTTTATATACAGATTTTTCATCTAATTTTTCATATATTTCAATTGATTTTTTAATATCATTTTGAGAAATAAAAAAATATAAAAGTTTAGATTTTATACTCTCATCTCCGTTAGTTTTCAAATCTTCAAATTTTTCAGTTCTATCTTTTTTCTCACTGTTTATATACTCTATTTCATAAAGTAATTCCATTGCTTTATAATATTCAGGAAATTTTTTCAATACTTTTTTTAATAAAAATTCTGATTTTTTATACTCTTTATTTTTATAATAATTTTTTGCAAGATTATAATTCTTATAAATATTTTTATTTTCAGTTCCATTACTAAATACTGAAATTAATATAAAGAATAATATAAAAAAACTTTTTTTATTGATTTTTTTTAAAAAAATTAATGAATCATTCTTTTGAAAAATATGAACAAATCTACAGATTTTCTTAACCAATTTCAACAAATTTATTTTTTTAATATACTTAAGAAACATCGTGAAGTTCTTCCTCTATTATATTTTTTTTATCATTTGGTAAAGGTTGCTCTAATATTTTTTTTAATATTTCTTTGCCTTTTTCAATATTTCCCTTTACTAAATATAAAAGTGCCATTTTATATTTAGTTTCCGTATATTCTGCTTCTAGTCTTTCATATAATTTCTCTTCTTCATCTTTTAACTCTTCTTCACTTAACTCTTTTAAATAGTTTTTATAATATCCTGAATTATATGGTTCTTTTTCAGATGCAATTAAAAAATTTGTTTTACTTTTTTCTATTTCTCCTAATTTATTATAAACTTTCCCCAAATAATTATATAAAGCTGATGTTCTAAATCCATTATCATGAGCCATAACAAAATATTTTTTTGCTAATTTATACTCTTTTTTATAATAATAAATAGCTCCTAATAAATAGTTAGCATAATTATTTGTTGGTTCTATCTCTACTACTTTTTTCCAACATTTTATCGACTCATCCATTTCCCCTTGTTTATAAGCAATTTCTCCTAAATTATAGTAAACTGCAGGATTTTCCCACCCTAATTCTATAATTTTTTTATAATATTTTTCTGCTTCATCTAAAATCTTAGCTTGTGTATACATCTGTGCCAAAAGATATAGAATTGAAGTATCTTCTGGAACTAATTTATTTGCCTTTTTAAAATTATTAATTGCTTCTGCTGTCATTCCCTGAAAAGAATAACATATCCCTATTTTCTTTAGTAATTCTGAGCCTATTTTACTTTCGTCTTCATAGAACATATATAGTTCATAATTTTTAATAGCTTCGTCATATAGTCCTTCTTTTTCATAAAAGTCTCCTAATTTAAGAGCTCTCTCTTTTTTTCCTTCTTTTTTATTTTCATCTAATTCCTCTTTAATTATTATCATTATAAACACCCCTATTTTAGGATTAGAATTTTTTTAAAGCCTCATCTTCTGATTTGTATATCTCAAAAATTTCATTTAACCCAACCATTTCAAATATTGTTGCAATATGAGAATTAAGATTTATAATTTTTATATCTCCTCCTGCATCTCTAACTTCTCTAACTCTTCCTCTTAAAATCCCCATTGCAAGACTATTAATATGAACTAATCCCTCAAAATCAATTATAAAATTATTTTTTCCAGCCTTACTGAATTCAATTAATTTATCTTTTAACTTTGGGGCAACTAAAGCATCTAATTCACCTATTACTCTTACTATAACAACACCATTTTTCTCTTCTGTTTTTAATTCGAAATTTGCTAACATACTATTCTCTCCTCTCTATTTACCTTTTTTAATATTTTTATTTTTGTTCCTTGCTCTTTTCTTGAAATTGCAAAATCATCTACAATCCCCTTTACAATATTTAATCCTAACCCTCCCTCTTCCTTACTTATTTTATTTTCTAAAAATCCTTGTCCATAATCTTCAACTATCATAGTAAAAATATTTTCTTTTATTTTCAAAACTATATTAATAGTTCCAAATTCTTTCTCATTTTCATATGCATGTTCTATTGCATTTGTAGATAATTCATCGGCAACAGACACTAACTGTACCTTATCTAACTTTGAAACCATTTCTACTTCTAAAAAAGTTCTAATAACACTTCTAATAATAACTAAATTCTTATAAAGCGATCCTACCCCTATTTCCAATTCCCCTTCCTTCATTTTTTCACCCTCTTTCTTTAAAATTGATTAATTTCCAACCATTTTTTTCAAATTTAAAATATAAATCAAAATAATATGTTTCATCATAAAAATTTATCAGTAGTAGTATTTTTGCATTTTTTTTATAAAATTTTATTTTCCCTTTGTATATTTTTGAACTGCTCAAATCATACTTTTTAACTATATTAAATTTTAATACATTCAGTAGGCTTTTGTCAATATGTTTTTCGATATTTTTATATTCATTTTTAGATAATAATTTAACCATATCTTCAATTATAACTTTAAGTTCTTTTTTATTCTTAACTCTTTCTTCCAATTTCAGTTCTAATTTTCTAATTTCCTTATTATTTACAGAGTTTTTTTCTTTAATAATATTCAAATCTACTTTTGCTTCTTCTAGTTTCCACAATTCATAATTTTTATAAAAATTTTTTTCTTCTGGAATATTTTCTTTTATTTTCAAAAAACTGCATCCAGATAATATTATTGTTAGTAAAATTATTAGAAATTTTAATTTTTTCATCTATAATCTCCTTGCGTTTATAATATTACTTGATATTCTAGCATTTTCAAAATCAGGGCTAACACATAAGTCAGCCCCTACTACTTTTCATAATATACAAGAAAAAATAGCATAACTTTTTTCTGTATCAACTTATACTTTCCTAGTAAACTAAAAAAGCAAGAGTATTACCCTTGCTTTAATATATTGCTCCTAATATCATATAGTTGCTCTAAAAACTCTGCAATCACATAATCATCTGAATATTTTTCATAAGTCTTGATCATCTCTTCTATCTCTTTTACCATTAGCATTTCTATCCCCTCCTTGGAATATAATATCATCCTTGATACTATATTTATCGAAAGGAACCATATTAAACTTTAGAATTTTTTTTCTTTAATAAATATATTCCAACTGTAATCATTATTAAACTCGCAACATGAGGTGCACGAAGCCCTAAAATTTCTAAATCATCAGCTCTAAATATAGTAACAATAGAACGAATAACACCATATTCTATTAAATATATAAAAAACAAACTTCCTTTTGCCAATTTTTTCTTTCTAAATATAAACCAAATTGATAAAAAAGCTAAAAAATTTAATATCATTTCATATACCATTACTGGATGCGTCGGAATATTTGGAAATTCATTTCCTGCTGGTGTCCCAACTGGAAATGTTATACCCCATGGAACTAAATTTTTTAATCCTTGATGCATTCCTTTTAAATATTCTGCCCACCATTGATTGAAATCATTTCCTAGCATTATATTTAAAGGAGCAAACGTAGGTACTCCATGTGCATCTCCATTCATCAAATTACCAATTCTACCTATAGATTGTCCTAGTATAACTGGTGCAGCTGCAATATCCCCTAAAGTCCAAATATTGATTTTTTTAACTTTAGCAAATATCATTGTTCCAATTATTCCACCTATTATTCCACCATGAATTGCCATCCCACCATGCCAAACCGCTATGATTTCTGCAGGATGTGCAAAATAATAATGTGACTCTAACAATACATAATATAATCTTCCACCTAATAATCCTGATATCATTGCAACAAAAACATAATCTTCAATTAAATTTGTATCTATATTTAATCTTTTAGCTTCTTTTTTTGCTAAATATAGTCCTAAAAAAAATGCAATTGCATACATCAAACCATAATATCTTATCTCGAAAATTCCAAACTTCAAAAAAACTGGATGCATTAATCCTTCACCTTCTTTAATATATTTTTTTCAATCTCATCTACACTATATTTTCCTAATGAAAACCATTCTATTTCAGCATCTCGTTTAAACCAAGTAAATTGTCTTTTCGCATATCTTCTGCTATCTCTTTTTATTAATTCTTTTGCTGTTTCTATATCTATTTTCTTATCAAAATAGTCTGATAATTCTTTATATCCTATTGCCTGAATTGCTGTTATTCCATTTCTATAATTATCATATAAAAATTTAGCTTCTTTTTCTAATCCGTCATTAAACATTTTGTCTACACGTAAATTTATTCTATTATACAACTCTTCTCTATTTCTTTCAAGTCCAAATTTATAAAAATTATAGTTATTTCTTTTATAATTCCTTTTGGAAACTTCACTAAATTTTTCACCAGTTAATTTACACACTTCCAAAGCTCTAATTACTCTTTTTCTATTATTCAAATGGATATTCTCTGTTGCAGCTATATCCAAATTTTTTAGCATCTCATATAACTCTTCATTTGAAAATTTATTAAGTTCTTCTCTTAATTCTATATTTTCTTTTGGCAAATCAGAAAATCCATCTGTTATAGCTCTTATATATAACCCTGTCCCCCCTACTAACAATACAGTTTTATCCTCTTTTTCTAATTTTTCAAGCAATAAATTTACATCTTTTTCATATTTTCCAACGCTATATTTTTCATCTGGCTCTACAATATCTAACATATAATGCGTTATACCTTGCATTTCGGCTTTTTTAATTTTTGCCGTTCCAATATTCATATGTTTATACACTTGCATAGAATCAGCTGATATTATAACTGCATTTAGTTTTTTAGCCAGCTTTATAGATAGCTCTGTCTTTCCTACTCCTGTAGGCCCACATATAACAATCCCTTTCATAATAAGCTCCTGCTACTCTACAAAATCAAATTCTATATTTTCTATTTTAATTACATCTCCATCTTTTACTCCAAAATTTCTTAATTTATTTTCTAGCCCTTTTTCTTTTAGCATATGTAAAAATTGTACAATAGCCTCTTCTGAATTTAATACAAATCTATTTAATAAAGAATCCACTACTCTTCCACTAACTTCATAAAATCCTTCATCTATTTTATTAATATCCCATTCTGGTTGTTCCATTCCTCTTTCAACTAATAGTTCAGAAACATCTTTTTCTTCTTCTATTTGTTCTCTCGGAATTGTTTGCAATATATCATAAGTTCTATAAATAACTTCTTTTAACCCTTTGTTTAATAAAACAGATACTGGATATATTTCAATATTTTTTTCTTCCAAATATTTTTTTAATGCATTAAAATTCTCATCATTATATGCCAAATCCATTTTATTAGCTAATACAATTTGCTTTTTATTTGATAACTTTTCACTATAATTTTCTAATTCTAAATTTATTTTTTCATAATCGTCAATTGGGTCTCTTCCTTCTGTTCCTGATACATCAATTAAATGATAAATGATTTTACATCTTTCAATATGTCTTAAAAATTTATCACCAAGTCCAACTCCTTGATGAGCTCCTTCCACAAGACCTGGAATATCTGCCACTACAAAACTTTTAGTATCTTCTACTCTCACAACTCCTAATTTAGGATTTAAAGTAGTAAAATGATAATTTGCGACCTTTGATTTAGATGCAGAAACTTTATTTATAAGACTTGATTTTCCAACATTTGGATATCCAACAAGTGCTACATCTGCTAATAATTTTAATTCCAGTTTTATTTTTATCTCTTTACCTTTTCTTCCTATTTCTGCTATTTTAGGAGCTCTTCTTGTAGAAGTTTTAAAATGAATATTTCCTCTTCCGCCTCTTCCACCTTTTAAAAACACTCTCTCAACATTTTCTTCACTTAAATCCATTAAAAGCTCATTAGTTTCATAATCTCTTAACATTGTTCCAACAGGAACTTTTATTATTAAATCTTCTCCCCATTTTCCATACATTCTCTTTTTTTGACCATTTTCACCATTTCCAGCTACATATTTCTTTCTATATTTAAAATCTATTAATGTATTTATATTCGAATCTGCTACAAAAATTATATCTCCACCACGTCCACCATCTCCACCACTTGGTCCACCAAATTGTATATATTTTTCTCTTCTAAATGCAGCAGAACCATCTCCACCTTTTCCACTTTTTAACGTTACTACCGCTTCATCTATAAACATCTTTTGCCCTCCATTTTGTATTGCAATATTAATCAAGCATCCCATAATAATTTAAGCCTTTTTATAACAAAATATAAAAAATTTATTTTTTAAACTCTTTCTAAAAAATAGCATATCTTCTTTTTGAATAAATTTATACTTTCATATCAAATAAAAAAATAAGCTACGCTTCATCTCGTAAAACATAAATATTTTTCTAAATTTTTGGTTTCTAAAAAATTTTGCCTTGAAAAATCGCACATTTCAAAAAAATAGCGTAGCTTATTTTCTGAATAAATTTATACTTTCCTAACCAATTAAAAAATAGCCCAGCATAATGCTGGGCTAAAAAATTATAGTTCTGAGTAAACACTAACTTTCTTTTTTGATTTTCCAAATCTTTCATATTTTACATATCCATCAATCAATGCAAAAACAGTATGATCTTTTCCTAATCCTACATTATTACCTGGATGAATTTTAGTTCCTCTTTGTCTGATTAGTATATTCCCAGCTTTTACTAATTCACCACCATATTTTTTTATTCCTAAATATTTGGCATTACTATCTCTTCCATTTCTACTACTTCCAACCCCTTTTTTATGGGCGAATAGTTGTAAGTTTATGTTAAAATTTAGCACTGTTATCCCTCCTTTTCAATAATCTTTAAGTTTTTGGGATAGATTTTTTCTATTTCTTTGAGCATAATATACATACTTTCTAAAATAGCATTTAACTCCCGATTTTTTTCACTAATTTTACAATTTTTCAAATCTAATTTTAAAAAACCATCTCTATTTCCAACTTTTGGATTTAATTTTAGGTAACCTAATATACCAACAACTGCTTGTTGCATTGCAGTGGAAACAGCAGAACATACAATATCTTTTCCATACTCTTCAAAATTAGCATGTCCATTCCCAGAAAAACCTGTGATTTCTCCATTTTTTCTGTAGATTGTAACCTTAATCATTACGCTTGAATATTTTTTATTTCAAGCTCTGTATAAGGTTGTCTATGTCCTTTTTTCTTATGAAAACCTGTTTTTGGTTTGTATTTGAAATTAATAACCTTTTTTCCCTTACCGTGTTCTATTACAGAAGCCACTACTTTTGCTCCTTCTACAAATGGAGTTCCTACTTTTACATCTCCTTCATTTGAAACTAATAACACATCTGTTAATTCCACTTCGGCATCAACATCGTAAGGCAGCTTTTCAACTCTTAACTTTTGGCCTTCTTTGACCTTATATTGTTTCCCACCAGTTTTAATTATAGCATACATTAAAACTTCACCTCCTAATTATTTCTCGCCACAAAAGGTGCTACCTACCTTTCTTGTGTGCGGTACAACGTTGCCATTTTAACATAATCATTAATAAAAGTCAATCTCATTTTTTTAGTTAAAAAAATAGGATTTGCCATCGGCAAATCCCTACGGAATCATACGTGTTCAATTCTATAAATGAAATAAATTTGCTTAGAATTTTTTATAGCGTATAATATAAAAAATTAAATATTATATAAATGAATGACTACCATTTATATAAATAGTCATTAAACTATAAATAAGATTGCCGCATATAGCAGCAATCTTATTCTATTTTATATAATGATTAGACCTCCAAAAATGGTTTTCTAAAATCATACAATTAATTTATTATATTAAGTCTTCAAAAGTAGTATTGGCTAATTTTTTCTTAATAACATTTGCGACAATCTTTTTTACAACGCCTTCATGTTCACTTTTCATTGTTTTTGTAGCTGTAGCTAAAGCACGAATATCATACTGACTTGCATAAATTTCAGGAACTTTTTTCTCAAGATTCAAGAAACTATATACAGCCATAATAGCAGAACGTACTGAATATTCTACTGTAAATACACAATCGTTTTTTATTTCGCAATATTGACCTAAAAAGGCTAGATTAACGCTCCCTTCTGGTATAACTTCTGGTCTGTCACCTTTAACTCTCGGCATAAACTGACTTGTAATATAAGGCATCATCGCAGGAATAACAATACATTCATCAATATATTCTTGCATATCATTTTTGTCAATACCAAAATGATATAATAATTCTTGTAATAATTCCCTACCAGAACATTCGCTCATCTTTTTATCAATAAAATCCCCTTTGTTATCAGGAAACAGTGCATAAGCCCACGCCACTGTAGCATCAGCAGGTTGATTCTTAAACTGCGGTTGCCTGTTTACAGTTACACTTAATAACCAGTTAGAATCTTTTACTGTAATAATACCACCTGTAGCAGTTTTATTAGGAAGAAATTCTCGTTCCGCAAAACTTTCTAAAAGTTTACGCATTTTCGTACCTTTTGCAGTAATAGTATATGACTCCCATTTTGTTTTATCTATGTCACTACAGAAAACTTCTGGATTACCAAAAGATTTGTCTTTTTTTGCAATTTTTTTCCACAAACTCCAAACTGCTCCTTCACTTTTATCTAAAATTGGTGCATTTTCCATATCTCCAAGTGTAGAATTTTCTGTCATAGACCCATTAGTAAAAAATACGAAATCATCAGATGTTGTCTTTATAACTTCTTCACTATTCTCCTTATTTATATGTATTCCTGTTACAGTTTTTTTATTATCAGAAAAATCAATATCTAAATCAGTAACTATAGTATTAAATACAAAATTTACTCCTTTTGATTCTAATAATTTTTTCAATGGAAGTATCAAAGAATCATATTGATTGTACTTAGTAAATAATAAGTCTCTCATTGTACTCATACCAGGCATTAAATGGATAAAACGTTGCATATACCGTTTCATTTCTACAACACTATGCCACGTCTCAAAAGCAAACATACTCCTCCAATAAAGCCACATATCTGTATCTAAAAATGATTTATCAAAATATTCTTCAACTGTTTTTGCACCAAGATCTTCTTCTTTTGTAAGCAATAATTTAGTTAACTCTTTTGTGTGCTTTTCCTTTAAACCTAAATCTGTTTTACGATGTTTTTCTCCTCTGTTAAAAATAACTCTAACATTAGAAAAATTTGGATCGTTCTCATTTATTTCTCTAAATTCATCTAAAACAGTACGACCTTCTTCTTCGATAGATGGTACCCCCGAATATAAGTCCCATAAACATTCGTAATGTGCTTCCATCTCTCTTCCACCACGTGCAATAAATCCATTTTCAGGATTTCCAGCACCATCCATTGCTCCACCAGATATTCCATCTTGCTCAAAAATAGTTATTTGATTCCCTTCCATATGTCCATCACGCATTAAATATTCTGCGGCCGCCAATGATCCTATTCCTGCTCCAATCAAAAATGCTCTTTTCTTTTCAATTCCCTTAGGCTTGCGAGTATTAATTCTTTGATAATTATTCATGATGTACCCCCTTTTTTAATTTTTTCATAATCCAACTCTAAATTATACTCTATAGTTTACACTATCGTCAATAATTTTTTTGAAATAGATACTTTTAAATTAATATAATGAGTACTTATATATATTTTTTTATTTTTTTTATTTATGAAATTTTTGACAAATCAGAAATAAATTTATCCACCATTTCTTCTTTAGTTGCCCAAGAAGTTACAAGTCTAATTGTAGAACTATTATTATCTATTTTTTCCCATATATGAAATCCATATTTATCCCCTATTTTTTCTATTACTTTATTGGAAAATATCGGAAAAATTTGATTTGTTGTTGACTCACTTAAAAATTTATATCCTAATTTTTTAATTTCAACACTTAATTTTTTTGCCATTAAATTTGCATGAGTAGCTAATTCAAAATACAGTTCATCTTTAAACAGTTCTAAAAATTGTATTCCAATTATTCTGCCTTTTGCTAATAAAGCTCCTCTTTGTTTTAGATAATATCTAAAATCTTTTTTTAATTCACTATTTATAATTACTAAAGCTTCTCCTAAAAGAGCTCCATTTTTCGTTCCACCAATATAAAAAACATCCACTAAATTAGATATCTCCTCTAAAGTTAAATCACTTTCTTCTGAGCATAATCCTGCTCCTAATCTAGCTCCATCTAAATAAAGGTATAAATTGTTATTTTTACAAAAATTTGATATTTTTTCTAATTCTTTCTTTTTATATATAGTTCCAATTTCTGTAGAGTTTGATATAAATACCATTTTTGGTTTTACCATATGTTCATCGATATGTAAATCTAAAACTGATTTTATTAAGTCAACTGTAATTTTACCATCACTACTTTTTACTGTATTTACTTTATGGCCTGTTGCTTCTATTGCTCCTGTTTCATGTACTGATATATGACCAGTTTCTAAGGCTATTACTGATTCATATGATCTTAACATTGACGAAATAGCAATTAAATTGGTTTGTGTACCCCCTGAAAGAAAATGTATATCTAATTCTTTATTATTCATTTTATTTTTTAACAGTTGTTTTGCTTTTTCTGAATATTCATCATTTCCATATCCATTTTGTTGCTCAAAGTTAGTGTCTATAAGAGCTTTTAAAATTCTTTCATGAGCACCTTCACTGTAATCATCTTTAAAATTATATACTTTTTTTTCATTTGTAATATTTGTCATTAGTTCCTCCTCGAAGTAAAATTTTATGTTTTAGGAACGTTTAAAAAATAAGTTTCTCATTTTTTGTTATAAAAACGCTTAAAGAACATTTAAAAAGTAATTTTATATATTTTATTATAAAAACGCTTGAATCGTTGCGTATTTTATAATAAAATGATAAGGTTGTTTTTAAATCGTTCCTAAACCATTGCGTATTTTAAAACAAAATCGGAAGGTTATTTTTAAGCCGTTCCTTAGTTATTATTTTTTTATTTTCTTCATAAATTCTTTAGAATTCACTATAAATCTTGTATGATTTCCTATCCCTATTTTTCCATCTTCATCGCTAACCGTTAATTTAAACTTTAATTTTTTTCCATCAATTTCTATTAATTCTGATATACATTCAACTTTTTTAGCTACCAAAGTTGCTTTTATATGTTTTATATCTACTGCAATCCCTACTGTTGTTTCTCCTTCTTCTAATAATGGATTTACACATTCTTCTGATGTATATTCCATAAATGCTATCATTGATGGAGTAGAATATACTTTCAATACTCCTGATCCCACTTTATCTGCTAATTCCTCTCTTTTTACTTCTCTTTTACATTTTTTTATTAATCCTATTTTTAATTCTTCCATTTTTCTCCCTTCTTTGCAATAAATTAAGCCATTTTTCCAACCATCTCACCACAGGAAGTTAGAAATTAAACTCAAATCAACATTTAATATGTTTTTATCTCATATTTATTTTTATTATACTACAAATCTATTACCTTTGACAAACACTTATTTTTTATAATAAGAATAAATTTATACTTTTCTAGTAAATAAATAAATTCAAATACCTCGAAGCAAGCTTCGAGGTATTTAACAAAATACTCTAAATAAATTTATTTTTTTATCTTTTTCAAAACAGCATTTGCTACATTAGGATTTACCATTATTCCAGGTCCACAAATACATCCACCTTCACATGCCATCCCTTCCATCAAATCAAATTTTTCATTTTTCAGTTTAGAAAACAGTTCTTTACTTTCTTTTAATCCATCCATTTTAATACAACTTATCTCTTTTCCTTCTAATTTATTAATTACAGCTTGAGCAACTCCGCCTGAATGTGCAAAATTCCACCCATCAAAAGAACCTTCATAATCAACATCTTCTATCTCTGCTGGCTCTACTCCACAACTTATAAATAATGCTCCTAATTCTTCAAATGTAATAACATAATCAACTATTTCTCTATTTATATCTTCATTTTTTTTTGCAATACACGGTCCTATAAATACTATTTCACAATCCTCTTCTTCTTTTATTTTTTTTGCTAAAGCTATCATTGGAGAATCAGAAGGAGATATATTTTTTATATAATCTTTTTGATGTTTTTTTATATAATCTACAAATGCAGGGCAACAAGATGTTGTCACTAATTCATTAGAATTTTCTATATATTCACTTTCTTCTTCTGCAACCATATCTGCTCCTAATGCCACTTCATAAGCTTTATTAAATCCTGCTCTTTTTAATCCATTTTTTATTTGTCCTATTGTAACTTTAGGTCCAAATTGTCCTGCTACAGATGGAGCAAAAATAGCTATAACACTTCTTTTATTATCTTTTTTTATTCTATTTAATACTTTTATTAAATCTAATTTTGATTCTATTGCTCCAAAAGGACAAGCTATATAACAACTTCCACAATTAACACATTTTTCCTCTTCTATTTTAGGAGTTCCATTTGGATTTTTAGTTATTGCTTTTAATTCACATGAGTTTTCACATGGCCTTTCTAATTTTACTATAGAATAATAACTACAAGCTCGTGCACACAATCCACACCCAATACATTTATCCAAATCTATTTTAGCTTTTGAATTTTCAATAGTAATCGCATTTTTAGGACACACCGATTTACATGAGTGTTCTATACAATTTCTACAAAGATCCGTAACATAATATTTATTTGACGGACACACATCACACGCCTCTTCTATTATCTGCAATATTTTAGAAGAGTTACTATATTTAGAATTTTTTTCTAAAATTTCATCTATATTTTCAGCCACTTCATACATTTCCATATCTTTTGACTTTTCATAATCCATTCCTAAATATATTTTTATTCTCTGATTTAATATTTCTCTTTCTTGATAAATAGATTCTCTATATTTAGCTTCATTACCTGGTAATATTTTTTTTGAAAGTTTCGGTAACTCTTTTTTCAAATTATTATTTATTGTGGCTCTTGCTAATTCTATTAAAGTTTTTCTTCTTAATTTTATTTTTTCATTTAAAATAAAGTTACGCATTTATACCTCCTTTAAATCCTTTACTATTTGAATTAATTTTTCCTCATTCATATCTTCATAAAACTTTCCATTTATTTCTACTATAGGCGGAATTTTTTCTCCATTACAAAATCCAAAACAAGTTGCAAAACCCACTTCTATATCATCTGTTATTTCTAATGGAAATTTTTTCTTTATATCCACTAAACTTGAAGACCCCATTAAATGGCATGTTGTACCTACACATATTTTTATTTTTACTTTCATTTTTTTCTCCTTTCTTACAATATAATTTTCGAATTTTTCTCTAACAATACTCTATATTTACTGTTTTCCCCAATCTCTCCAAATTTTTAGATAATCCTCTTATTAACGTTGATCTAATTGACATATCAAATGGCAAATTCGGATTATGGTAAAATGCATTAACTTTTCTTCCTACTAATATATTCACTTCATCACATTCAGTTAATATACTAAATAATTTTTCTCCGGAATTCATCTTTTCGGGAATGTTTATTTCATGCATATTATCTTTACACTTATCCAACATTCTATTTAAATATTTCAGAGTTAATACCCCTTCTGTTATTAAATCAACCCCTTTCATTGTTCCTGTTGGAGGTAATTTCCCTAATTTTTCTCCTTCTAACTTTATTTCTATTTCTTCATCTAAAACTCTACTAACTATATTTGAAGTTGTTCCTCCACAAATAACTTTTTTCCCTATTCTGCTGAAAAATCTCTTTACGTAATATTCATCTGTTTTTGGATTAAGCGGCGGACCTGTAAATATTGTAGCTATTGGGTTTTCTATAGATTTTATACCTATTAACGTCGAATCATCTCCCGGCTCAAATCCGTAATAGCTTTCTGTAACTGCTATTAAACTATCAACAATATATTTTATTTCTCTAGTTTTTCTATACATTCTTTTTAAATAATTTGCTATATTTTCTTCTCCCCATCCAAAATTCATTAATCTTCCCAAACCTGCATGAACTAATCCATCTGACATTATAAAAATAAAGTCTTCTGCAAAAATTTCAAATTCTGTTATTTTTATATCTTTTTCATTTATTCTTTTTGTAATATATTTTGGCTTATATAATTCTCCTTTTGTCAATATTACAGGGGATGGATTATCATAATTTATTATTTTCACTTTTCCTGATTTAAAAATCTGTACTAATGTAAATGTAGAATATGCAATCCCACGCACTTTACATACTGGAAGAGTTTTTGTGATTGTGTCTACAATTTCTTCAATTTTTACCCCTTTTTTATACATTGTGCCAATAATCTCTGTTGTTAAAATCGAAAGTATACTTGCCTTTATTCCACTTCCCATTCCATCTGATAATATTATCAATTTAGAATCTTCTGTTTTTCCCAATTGATAATTATCTCCACATACCTGCTCTCCAAATTTATTTAAGCTATTTTTGTATACAGTAGCAGAAATCATTTTAATCACCTATCCTCTTTTTTTAATATTTCTAATAATTTCACTAAACTTGCTTTTGTTTCCCCTGTAGTTTCTCCTAAAATTGATGCTATTTCCTGCCCTACTTTCATCTGTTTATCTACAATTTTTTCCAATTCTCCTATTACTTGTATTTTTAAATTTTTCATCTCTTTTTCATTCTTTTCTTGCAATGTAATATCATGAAATATTTTTACTATTAAATTTTCATTGTCTATTCTAAACATAACTTCTGACAATATTATTGATTTTTCAGGATACTCTTTTATCTGTTTTTTATTTTTTATTTTTCCTATTGTAAAATCTACAAAATCATCTATATCATCAAAAAAATCATTTACAGCTCTTCCAATTACATCAGTCCCATTTAGTTTAAACATATTTATAAATCCACTATTAACTGCTTCTACTCTTAAATTCTCATTAACAACCAATACCCCATTAGGGTCATAATCAAATATTTTTTCCCAAATATTCATACTCATTTAATTTTTCTCCTTTTCTAGCTCTTCTATATAGGGAATTAATTCACTATATAATCTATCTTTACAATTGTTAGGATTATAATTTTTAAAAATTTTATCCCCTATTTTTATAGCTACTCCTTGATTACAAGGCCCTAAGCAAAATGAACCTTTCAACTCTAATATGTTATGCTCTGTTCCTTTATTTAATTTTTCAAATTCATTTTTAAATATTGTTATTATTTTATTTGAACCTTTTAGATAACATGCACTTCCCATACATATGTATATATCCATTTTTCCCTCCAATTTCTTAATTTTTATCCTAAATAAGCAGAAAGGCTCTAAAAAGAGCCTCCCAAAACTGTTTTATATTTCTCCATTAAATCCTTTTATATATAATTCTTTTATTTCACTTATCAATGGATATCTAGGATTAGCTCCTGTACATTGGTCATCAAATGCTAATTCAGACATTTTATCCAATTTTGCATAAAATTCTGTTTCACTTACTCCTGCTTCTTTTATAGATTTTGCAATATTTAATTTTGATTTTAACTCTTCAATTGCTTTTATCAAATTATCTACTTTTTCATCAGGTGTATTTCCACCAAGTCCTAAATAATCTGCTATTTTAGCATATCTAAATTTAGCTTGTGGATATTTATATTGAGGGAATGCTGCTTGTTTTCTTGGATTATCAACTGCATTATACTTAACTGCTTGTGATATAAGCATAGCATTCGCAAGACCATGAGGTACATGGAACATAGCTCCTAATTTATGAGCCATTGAATGACATACTCCTAAGAATGCATTTGCAAAAGCCATTCCTGCCATTGTTGAGGCATAATGCACTTTTTCTTTTGCTTTTAAATCTTTATCTCCATTTTCATAAGAAGCTGGTAGATATTTAAATATTAATCTAATTGCTTCTAAAGCTAATCCATTTGTATATTCATTTGCTAAAACTGATACATAAGCTTCTAAAGCATGAGTTAGCGCATCTATTCCAGAAAATGCTGTTAATGCCTTAGGCATACTAAGTACCAATTCTGGATCAACTATAGCCATATTTGGTGTAAGTTCATAATCTGCTATTGGATATTTAAATCCTGTTTTTTCATCTGTTACTACTGCAAATGGAGTTACTTCAGAACCTGTCCCTGATGTTGTTGGAATAGCTACCATCATCGCCTTGCCACCCATTTTAGGGAATTCAAATATTCTTTTTCTTATATCCATAAATCTCATTGCTAAATCTTCAAATATTACTTCTGGATGTTCATATTGTACCCACATAATTTTAGCTGCATCCATAGGAGAACCTCCACCTATTGCAATTACTACATCTGGCTCAAAAGAATTCATTCTCTCTACACCTTTTTTTATAGTCCCAAGTGTAGGATCTGGCTCTACATCATGAAACACTTCACTTTCTACTCCTATCTCTTCTAATATTTCTGTTACTCTATCTGCATAACCTAATTCAAATAAAGGTTTATCTGTCACTACAAATGCTCTTTTTTTATCTTTTAGTTCTTTTAACGCTAAAGGTAATGCTCCATATTTGAAATATACTTTTGGCGGAACTCTAAACCACAACATATTTTCTCTCCTTTCAGCAATTGTTTTAATATTCATTAAATGTTTTACTCCTACATTCTCACTAATAGAATTTCCACCCCAAGAACCGCAACCTAATGTTAATGATGGTGCTAATTTAAAGTTATATAAATCTCCTATTGCCCCTTGAGAAGATGGCATATTTATTATAACTCTTCCTGTTTTTAATTTTGCTCCAAAATAATCTATTCTATCTTGATTAATAGTTTGATTTGTATATAAAACTGATGTATGTCCCATTCCACCAATTTCAACCATTCTAACTGCTTTTTTTACTGCTTCTTCAAAATTTTCTGCTCTATACATTGCTAATACTGGAGACAATTTTTCATGAGCAAATGGTTCTGTTAATTCTGTAATTTCTACTTTTCCAATTAAAATTTTTGTTTCTTCTGGTACATTTACACCAGCTAATTCTGCTATTTTAAATGCTGATTGCCCAACTATTCCTGCATTTAATCTACCATTTTTTAAAATAGTATTTCTTACTTTTTCTTTTTCATCTTCATTTAATATATAAGCTCCTCTTTCTAAAAACTCTTTTTCCACTTCATCATATACTTCGTCTAATATAATAACTGATTGCTCTGAAGCACAAATTGTACCATTGTCAAAAGTTTTACTTAATAATATAGAACTTACTGCCATTTTTAAATGTGCTGTTTCATCTATAATTGCTGGTGTATTTCCAGAACCAACTCCTATTGCAGGTCTTCCTGATGAATAAGCAGCTTTTACCATTCCAGGCCCACCAGTTGCAAGTATCAAATTTGAATTTTGCATTAAATATTGTGATAATTCTACAGAAGGCTCATCTATCCATCCAATTATATCTTTTGGAGCTCCTGCTTTTATTGCTGCATCCAATACTAATTTTGCTGTTTTATTAGTACATTCTTTTGCTCTTGGATGTGGTGAAAATACAATTCCATTTCTTGTTTTTAATGCTAATAGTGCTTTAAATATTGCAGTAGAAGTAGGATTTGTTGTTGGAATTATTCCTGCTATTATTCCTATTGGTTCTGCTATTTTTTTTATTCCGAATGTGTCATCAACTTCCAATATTCCACAAGTTTTATCATCTTTATATTGATTATATATATATTCTGCTGCAAAATGGTTTTTTATAACTTTATCCTCTACAATTCCCATTCCTGTTTCTAATACTGCATCTTTTGCTAATTCTATTCTAGCGTTATTTGCTGCTAATGCCGCAGCTCTAAATATCTCATCCACCTGTTCTTGAGAAAATTTAGAAAATTTTTGTTGTGCATCTCCTACCCTTTCCAAAAGAGCTTTTAATTCGTCTACATTTGTAACTTTTAATTCTTCCATTTTTATTACCTCCTCAATGTTTTGTGATTTTTTTAACTATATTTTTTAAAAAAATTTAATTTAAGCTTGATTAAAATTTAATCTTATCAGTGTAAAAATTATACTTTTTTTATTACATATCTTTTTTTAAATTACCATTTTGATATGTTATTACTGGGATTTCAGTGCATTTTTTTATTTTTTAATTATTTATATACTTTTATTATTATTATGAAATCACTTTATAATAAATTTATTTCATACTTGCTATTTCACTTGTTCTTTTTTTCACGTTAAGTATATCACTTTGTTGTGGGGTTGTCAACTGTTTTTTTGAAAAAAATAAACCTAATATAGTTTATGGCTATGTTAGGTTTATTTTTAATATATTCTTATTTTCATAAAGCCATTTCTTAATATGAAACTCAGGTTAAATTCATCTGTATATCTCTTTGATTTCTTTGACATGATATTCTCCATGTTTTCTTTTTTTTATTCTATCATGTCCAAGTATTTTTTGTATAATTTATCACTGAAGATACATTTGTTGCATAACATTTTGACAGTTCAGGCGATGTGCTTGAGAGTTGTGAGCGATAGCGAAACCTCAAAATCATATAGTCTGCTGTCTGTTATGACTCTGTATTCAGACGGAATTTCATATATAGCTTCAATAGAATAATTTTTTTTTAGTTTTTCAATCCGAAATCTCAAAACATACAAAAGACGCTATAGGAAGTACTATCGGCTATGCTTACTTATTTTTTTCTAACTTTTTCATTCCTTCAATAGCTTTTTTGTTGGATAAAATTTTCATTTGTTCTATTGCAACTCTGTTAAGATTTATCAGTCTTTCTTTTTGATTTAAACCAGCTTTTATATACTCAGAATTTAGGTTTTTGAGGTTCGCAAGAATAAGCAGTTGTTCAAGGCTTGCATAATCTCTTATATTTCCATCTTTATCTGGATTTTTCTCTCTCCATTCTTTTGCTGTCATTGAAAAAAGAGCCATATTTAATAAATCAGCTTCATTCGCATAAGTAAAGCTTTGTTGTTGAGGAGTTAAATCTTTGGGAATTAAATTTTCTTTTATTGAATCCGTATGAATTCTATAATTAATTTTTGCTAAAGTTCTACTTACATCCCATTCGATATTTTTTCTGCTATTTTCTTCATCGATTAATCTTTGAAACTCTTTTATTAGATAAAGTTTAAACTCTGCTGATACCCAAGAAGCAAATTCAAAAGCAATATCTTTATGGGCAAAAGTTCCTCCATACCTTCCACTACTTGTTGTTATTCCAATTGCATTTGTCCCTTCTATCCATTTTTTAGGAGACATAGTAAAAGCATTTCTGCCTGCTTCATTTTTAAACCCGTCGAATTCGACGGGTTTAAAATCACTATTATTTATTTTCTCCCAAAGACCTAAAAATTCAATTGTATCTTTACTTCTTAACCAATTTTTTATAACATCATTTGGAGAATCACTTTTATACTTTGCAATATCAGTAAGTGATATATAATCAGATTGATTAGCCTTTTTTACAGATATTGAAATTCCTTTTACATCTACTTTTTTTGCCATTTTACCTCCTGAATATCAAATTAAAATCTACTAATTCTTTTTATAAATTTGACTTATTAAAATCGTCTAATAGTTCTTCTAAATTACACTTAATATTGGCACAATTCTCCAAAATAAGTTTTGCTCTTTTTTTTATCACTTCATTTTCAGTTCCCATCCCAACATCATATGCTGTTTTTCCAAATAAATCGTAATTATCCCATCCACCATAGCCTGTTGCTTGCACATAATTACTATCTATAGAATCCAATATTTTAATTTGATTTATTTCTTCGAATTTTATAATAATCTTACCAAAATTATTTAGATGATACTTAACAATGAACTTTGCTATTAAATCCTCTTCTAATATTTTTAATATTTTACTGTAGACCTCCGAATCAAATAATCCTTTTTTTACTTTTTCATCTATGGAAATATTGTTGATTCTATCAGGTATTTCAATTTGTGTACTCAATTCAAATTTAGGTTTTTCAACAATTGGTTTCCCTTCAATCGCGTTAATAAATTCGTTTAACTTTTCATCATTTAAATCAAAACTTGGATTAAGTTCTATTCCAAATATAGATTCCATATAATCTGGTTTAACGCTTATTCCTTCTAAAAATACAGGTATAAATTTTTCTTGTTTAGTATTTCTATATACTTTTGGGCTAATAATTGAAGTTTCTACTCCAACGCCACTAATTCTATTATTAGCTTTATTTACATACTCTTTCTCGCATATAACGAATACTTTTTCAGCTTCTCTTATAGAATTTTCCATAAAAGAATCTATGTTATGTCCAGGTCTTATTTCCCATTTATCTAAAATAACATCATATTTGCTTGATAATTTAGTTGCCAAATCTATTACCAATTGATCATAACGTTCCCAACAATATGATAAGAATATTTTTTTCATAAAATCACTTCCTTCACTAAAATATTTTGTAGATGTTACTTCTATACTTAGACGGATACGATGTCCGTCGAGAACAATATTTTGAGATTTAGGATTAATTCGCAGTATATCTCTTACGATATTTTTTATTCTCTTTGGGTCATAATAGACTTCCATTAGGAAAATAACCTAGTCTGAATATGTGTCATAACTCCGTGGCGGGTAAACGATGGGCGTTAGCCAAGATTGGGGGAGTTCGACACCCACCCGCACTCAACAATCTTGGCTAACGTGTTCACTGCATGCAATGTCCCAAAGCCGTACAACAAGGAAATGAACCTTAGAGCTTGCTCTTGGTAAATGACGCCGTAACTCGGTAGGGGATGGAATATCCGTATGTGCAGAGTGTTAGCTGATCGTTGATTCAAATTCAATATCTCCAAGTGTTTTTCTATCAGTAAAATATTGACCGGTAAGTCGATCTCTATTTTCGATTTTTAAGCGACAAATTCCATAATGAATTTCACTCCTATTCCGTACATTTGCATTAGGAGTATTCAGATAATAGTATACTAAAAATTTTTCTCCATATTCTGTGTAAATTTTACTCATTATTGCTTTGCTTTCACTTTCATCAGTTTTTAAATATATTTGTATGGCAAACAAATTTTGAACAATTCTTATTTTTGCTTCCCTTTTATTTCCATCAAATTCAGATATAAGAAAACCATCATACTCTTTATGTAATTTTGGGGTTTTACTTAGAGGATTAAACTTCCAAAAGAAGTGAATATAAGACATTGATAGCACTATTACTATCGAAATTGTTTTACCTATATTTTCAAGAATAGATTTATCGACAAACATTTTATCTACTAAAAGATAAATAATTATTGATATAATTATAATACTTTTTATATACCATTTTAGATTTTCTTCCATGATACCTCCCTCCTTATATTTCAATTTCAAAATATTCGTTTATTTCCTTGATAAATTTTTTATATTTATTAACCATTTCTTCATTACTAAATAAGACTTTTATTCCATTTACCTCCTTAAAAGTACCTAACATAAAGTTATTATTATTCAAATATATCAAAATATCATCAAAAGTATACTTTAATAAAGAATATTTACTAAATAAGTCATTTGGAAGATTCCATAACAGTGACTCCAATCCAAATGACGAAACCTGCTCTACTGATTTATAGCCATCTTCTTTCATTAAATTTCTTATTTTTTTTAAAATTCTTACATGTTTTTTAAAATAATAATTTGTTTTATTATTCTTTTCTTTCCCATTTATTATATGCTGTTCAGGATAATTCCTTATTCTTCCACCACTATCAGGTCTAATCTCAATTCCACCAATATAATTTGAAGAATCAAAGTTATAATCATCTTTATAATTTCTTAGACGATATGCTGGAACCACATCAGCATCAACTCTATAGCTATTGCCAATAACTTTCAAAGATTTATCATTCCTTATAACACCTTGATTATTAAATTTTAAATTTAAAGCTCTTTCTACATCATCCTTCAATTCTTTAGCCGAATAAGTTCCATCTGTGAAAAAATATTTTTCCCCCGTAATTCCTGCCCTATACTCAGGAATAAAGGTTGATTCCAAAATAACGGCCACATCTACATCACTATGACTTCTAATATTCGTATTGTTTGCATAAGAACCTTGTATAAGAATTCTCAATTTTTTACTATAGTCACTAGTATTCATATCTAGTGTATAAGAAAATGTATCCTCACTATATTTTTTTATAACTTCACTATTGTCTAAATACCCTGATAGTTTCATAGCATCTCTAACCATTTTTATGGCATTTTTACACTTTTCATCTTCAGTTTGACTTAATGGTAGTGCGAATTTTTTCAATAATTCTTCATCAAATTTCATTTTTACTTTCCTCCTAAGCTTAAAATGTCAGCTAACGGTTCCAGTGTATGCGATGTGAATTGAGGCATTAGAGTGGTGCAGCCTGAGGCTCGTGAGCTTGCAAACCTCCGAAGCAAACCACGTCCCATAAGGGCTTGCCGAAATCATATCGTATACACTGTGTTATACACTGGCTCTAGTCTTAACTTCATTTTTATTTAATACCGTTTAATTTACCTTTAAATCGCTCCCATTTTTCCTTAGGAGAACACGAGTTTCGACGGATATCATTACTTAATCACCCCAATGTTCTAATTGAGCATATTCCAGATTTGACTCTTTTTCATAGAATTCTGCTAGTTTTTTTAAAAGTTTTTTTGTTTTGCTATGTAGAGGATTTATCTTTAAACTATTATTTTTGTATTCTTCAGCAATTGCTCTCTCTTCATTTCCAGCATCATAAATATTTTTATGTGATACTCTAATTCCATTAGGATATATTTTTCCATGTAAAATTCCATCAAATAATTCTTTACAATAGTATTTTTCTAAAACATCTCTGATAACTTCATGTGGCCACACTTCATCAGAGCCTTTGGGTGATTTTGATAACATTTGTCCTATTATAGTGTAGACAGATTTAGTGTAATTATGATCTTTAGAAAATTTTGTTACATATTCAAGCCAACTTAAAAGAGTATTTTGTTCTATAGAATCATTTAGATTAATATTAAACTTCCAGATATCAAAAAATTCTTTTATATTTAGATAGATTTGTATGTTATTATCCAATTTTTTAAAATAATTTCCATCATCATCTCTAAATCCCATTTTCAATATTTCAATAAAAAATTCTGGATTAGTAATAATTTCTTTATTTAAAATTTCCGGATTTACATCAATATATCTAAATATTTTTAAATAGTTCCATTCTAAAATCATTAATTTGTTTTTATCATAATCATTTTTGTTATATACATATTTAAATAATTCTCCAAAATTGTAACTAGAAATAGTTTTTTTTTGAGAAGTTAAATATCCTTCTAAAGCTAATACAATAAGATTTGATGGTATATCTTTATTCCTATAACATTCATGATATATAAAATTTATTGCTTTTACATAATGTTTATAGTACATTAGTTTTTCAATTAATTTGATAGCAACTTTTGATTCATTTGTTCTAAATTCAGCTTGCAGTTCAAAGTATAATTTTTCAATTTCTATATTTAAAGATAAAAAGTCTAATAATTCACTAGTAATATCTTCATATTGTAGCAACATAACTTTATTTTCATTACTTAATAGAGCTGTATTATTTAAGAAATTAACAATTATTGACACTCCTTTTTCACTAACAAAATATCGAACAAATCCATGTATAACTCTATATTTTTTTAAGTCTAATAATTTTAGAATAAATTCTTTATCAATGTTGTCAAAAAATAACTCACCACAATAATATCCAATATGAAAAAGTGAACTAGAGTCAGATTTTTTTATTAAATCAAAAATTAGACTTCTATCTTTATTAGCAATTTCTACTAAAGCTTCACATCTTAATTTTTTTGCCTTACTTCTTGAGACTTCCCAATTTTCTTCATCTTGAAACAAATTATATTCACTATTTTGAAATAACCAAAGATTTTTTAAAATAATATCTTCAATAATTATATGATCTTTTAGTTCTGTTAATTTATCTAAATAATTACCTTTTATGGCCCAGTAAGTATTTTTAAATCTAATATGTCTGTTTATTTCTTGTTCTATTTCTACTTTTAAAAGTTGTAATTTATCTTCACTTAAATTTTTAGTATAAGAATAAATACTGGATAATACTAAATCTTTAAGATTATTAGGTAAATTAGAATAGTCAGATATTAAATCAAAACAACATTCAACATTGAATATATTATTACACTTAAGTTCAATTATTCTTTCAGTTTGTATTAAAATTTCTTTGTTATTATGATATTCTCTTTTCTCTAATCCCCATTCTCTATAAATAGGAGAACTATTAGGAAATAAAACTGCATGAGGTTTTGGTAATATGTTAGTTACTAATCTCCAAGCCTTTTGAGCATCTTTTTTAAAAAAACTCTCAATAGCTGCTAAACGAAATTTATACTCAACAATTGTTTGAGGCCAGTATAAATTAAAAATATTTTCTAGTGAACGCATAGGATTATTATTATTATAGTCAATAGTGAAACAATCTACCAATTCAAACAGAATATTAACACAATCAGAAAAATATTCCTCATTCCATACCAATTTTTCAATTCCCCATAAAATAGACATATATGATTTATCTCCACCATAAAAACTGTCTACAGGTTTAAATAGAGATAAAAAATCTTCATTATCTCTATTATTTAAAATAAAATCAACTACGATATCAGGAGAAATCTCTGATAAAATTTCAAAATTTTCTATAAAAGTCTGCAATTTCTGTTTGCTATCAATATTTTTTATAATATTTTTAATAGAATAATCAATTTTTAATTGATAACTATCATTTATACATACCAAAGTTGTAATACTTTTCAACATTTCATTTTTTAAATTAGAAGAAAAATCAGTAGTTTTATTGTATAGTTGCCAAAATTGTTGTTTGCCTTCTTCTAACTCAAACTTTGGATTAGTTACTTTCATAATTTCTTCAAATTGTTCTATAAAAATTTCAAATTTTGAAGAATCAATTTTATTATGCAATTTATACCATAATTCCTTATAATTTGTAATTTTCCAAATTGAGTTAATTTTTTTTATCGGAGGATCAACTTCGTAAGTCCAATTAAGCAGTTTATTAATATACTCTGAATATTTTTCGTTAGATATTTTTTCTATAATTTCTTTATCTTTTACATTTTCATCATTCCAACATCCGACTAGTAATGCAGGGAGTAATTCTACTAAATTAGGCTTTTTAATCCAATCTGATTCTTTCAATAGCTGATTTTTTGAAGAAAGTCTGATCAATCTAAATATGCTCCCTTTCATTTCTCTCTCAAGCTCATATTTCTTATTTGAATCAATTTGAATATTTCTTAATTCTTCTGAAATTTTACCTCTATTGATAAATGATAATTCTATTCCCTTATCAATACTACCTTTGTACTCCTTTCCAAATGTAAATAATTGTTTATTGTTAGAGTTCGTAATTGGTGAGGTAAAATCATAATATGTTATTAAATAGTGATTTTTCAAGTGTTTAGAAGTTAAATCCCAATCTTCTTCACTTTTTACAATTAATGTTTTTGAAATAATATTATCCTTTTTGTCACTTTCTAATTTTTTAACAACTGCAATAAATGATAGTATCGCTTCTTCTTTTGATTCTCCAATAATATTTAAGAATGGCTTGTCATTTTCTATCCAAATTTTAATTAATTTCTCTTCTTTTTCTCTACCTGCTAAAATCATATTTGATGTTATTTCAAATTCTGTTTCTCCAACAAATTTATCCCAAAATTCATTTATACTTAAGAAATTATCAATTTGTAGTTTATGTATCATTCCTTTTAACCACTTTGAAATTACAGGAAATAACTCTAACCATTCTTCTAAATCACATGCATCATAAATTTTAATATCTTTCCATATACCATCTTTTTTCTTTTCGTTAATCCAATCATTCTTTGTAGTAAATAGTCTAGGAGTAACAAAAATAAAAGTTGAATTACTTTTATCAATTCCTAAATCTTGTTCAGAACGTTTAGAGTAATCACTTTCAAGTTTTAATTTCACATTTTTATTTGTTCCGATTTCCCATATAGAAATTCCTTTTGGGATATATTTCTTATTATTTTCAACTTCAACAAATCCATCCAATCCTGAATACTGAACACTATCTCCACTTGGAAATCTAGAATATTTTATTTCGTTATTACCATAAGAAGCATATATAAGTTTTTTTACTAAAGTTGGACATTCCTGTTGAGATTCTTTAGAATTTGTTTCTGACCATAATTTTAAGTCATTTGTAGTTATCCATTTAAAATCCATAGCAAACCTCCTTGAACAATCTAAAATTTCTTTATAAAAGGCGGTATAGGAAGTACCGCTGACTAAAATAAAAAAATGGGATTGATTTTTATTCAAATATCTAAAGTATAAACCTGCTTGCATATAACTCGTTTATACACGCATAAAACCTTCGCATATCCCTCCATATAGTTCGTATATACGCAAATCTATCCATCTTCAAATAAATATTTTTTTGATTTATATATCTTTTTATACTCTTCTAGTTTTATTAAAAACTGTTTTGATCAAGCTACCACTCCGTCTTTATTCCAATTAAATTCTACTATATTTATTCATCCTATGTCAATATTTATATTCATTATCTTTATGTTTTCCAATTCTAAATCCCGTGATAATTTTACGGCATTTCCATATAAGTTTTACTTTCACTTAGAAAAAGATTAAAAATAACATTCATATCTTATTTTAAAATATATAATTTTTATAACAAAATATGAAATTTTTTTAAATATTCTTCAATAATTAAATTATTTTTCTAATTTTTTAAAATTTCACTATCCTTTTTTCTTTATTACTAAGCATTGCTAATTCTATTATATGTATCACATCAGTTGCACTTTCTGGAGTAACAGATAAATTTTCTTCTCCTGCTATAGCTTTATATATATTTATATAAAAATTTCTATAATCTCCATTTTCGCTCTCTATTTTTCCTTTTATATTCATTCCATTTATAGTGCTATTTATTTCTCCCCATATGTTTTCTGGTTCTTTTCCCCAGTTAGAAATATCTTTTGGAATATTCCCTTTTCTCAATTCTTCTTCTTGAATATCTGTCCCACTTTTTACAAATGTGCCTTCTCTTCCAAACACACTATATTTATACCCTTTTTCTCTAACAAGCATGCTAGCCTTTAAAGTAACTTTTAATTCATCATAATAAAGTATTAATTCAAAATTATCAATTACAGTAGAGTTTTCTCTTTGCATTCTTAAATCAGCAAATACCTCTTTTGGACGTCCAAATAGTTCAAGTGATTGATCTATTAGATGACTTCCAAGATCGTAAAGTATACCGCTTCCTACTTTTTTTGCTTCTTTCCATGTACCATCTTTTATATAATTTCTAAACCTATCAAAATGAGCTTCATATTCTACTATTTTTCCAAGAGTTTTACTCTTTATTACTTTTTTTACTGTTAAAAAATCACTGTCCCATCTTCTATTATGATTTACTGAAACTATTTTATTCATATTTTTTGCAATTTTTATAAGCTCAATAGCCTCTTTTGTTGTAACAGTAAATGGCTTTTCAACTACCACATGTTTCCCAGCAAAAAGTGCTTTTTCAGCAAACTCTTTATGTAGAAGATTTGGCAATGCTATTACAACAATATCTATGCTTTTATCATACAAAATCTCCTCATACTTAGATACAATTTCAGCTTCTGGATATGTTTCATTTGCTTTTTTTATATTTTCTTTGTTAGAAGTCATTATCTTTTTTATTATATAATAATCTTCAAGGCTTGCTAAAATTGGTGCATGAAATACTCTCCCTCCTAATCCAAATCCTGCTATTCCTATGTTTAATTTCTTCATTTTTTACCTTCTTTCATTTATATATAATGATTATACCCTCGTATACCTTCCTCCACTTATACTTTTTATAATCCCTTTTATCTCCATTTCCATTAAATACACTAAAATATTATTTCCTTTATACCCAGTCTCCATTATTAATTCATCCAAATTTTTCTCTACTACTAATTTTTTATATAAAATTTCTTCTTCTTTTGAAAGTATTATATGTTCATTTTCAATATCACTTTTATCTGTATCCCAATTGAATTCTTCTAAAATATCTTCTGCATTTGAAACTAATTTAGCTTCACCTCTTTTTATTAAATTATTACAACCTTCAAAAGATGGATATGAAATAAATCCTGGAACAGCAAAAAGTTCTCTATTTTCATCTAAACATATTTTTCCAGTAATTAGACTCCCACCAGATTTATAACTTTCACAAATTAATATTCCATTAGATAATCCTACAATTATTCTATTTCTTTCTGGAAAGTTCCATCTCAATGGTTGTGTCCCAATTGGATATTCTGAAATAATTAATCCTTCATTTTCTATTTTTTCCCATATTCTTTTATTTTCATATGGATAAATTACATCTAAACCTGATCCAACTACAGCCACTACATTCCCGCCACTTTTTAATGCTGTATTTAATGCTATTGCATCTACACCTAATGCTAATCCACTTATAATTGTAACTCCTGACTCTATTAATTCTTTTGTTATTTTTTTAGTAGCTGATTCTCCATAAGCTGTTATTTTTCTTGTGCCTATTACACCAATTGTCTTATTTGGAATTTTCATTTCACCTTTATAATATAAAAACAGTGGTGGATTTGATATTTCTCTTAATAAATATGGATATTTTTCATCTTTCAAAGATAATATTTTTATACCTAATTTATCATATTTTGATTTTTCTAACATTATTTCTTCATCTGTAATTTTTTTTATTTTTATTAATTTTTCTTTTTTTATTTTTAATTTCAATGATAAGATATTTAGATCTGAATTTATTATATTTTCAAAGTTTTCAAATTCAATCATTAATTTGTATATTTCACCTCTTGTTAAACCTGCTAAATGTAATTTATACCATTCATTCATCTGTTTCTCCTTTTTATTTTAATAGATATTTTTGATAGTGTTAAGTTTTTGTAGAAAAAAGAATTTCAGCACAAAGAAAAAAATTATTTAAAACCACGGTATAAATACAGATTAAAACTAACAAGTAAAAAACAAGCTATACTTCATATAATAAAACATAAATATTTTCCTGAATTTTTGGTTTCTTAAAAATTTTACTTTGAAAAACAGCATATCTCAAAAAATGGCGTAGCTTATTTTCTAAATAAATTTATACTTTCCTAATAATCCAAAAAATATTTTTCTTTTATTAGTGTATATTTGTGTCCATTCGTGGCAAATCATCTGCCTTTCTCCGTGGCTAAAATCCTACAATTATTTTACTTTTTCCAAACTTCTTTTAGCTTCTATTTGTATATCTAAATTTTCACTATTTAATTTCTCTTCTAAAACTGGAATTAATATTTTACATTCACTTCTATAATCTTCTGCAAGATTCCCTATTGAAATAATTGATTCTTTTATCTCATCTAAATCTTCAGAATATAAATACTTTATGCAATGACCTATTGCTTCTTTTAATTTAGATTTTCCTAACTCTTTTATTGTCATTTCTTTTATAGCTTTAATTTTCATTTCTGATTTCTCATTATTTATTATTTTTTTATCTTCTATCTCTTCATTTATCGCATCATTATTTCCTTCTGTAGATTTAAAATCTTCTTTTTTAGTTTCACTATCATTTAAAACTGGTAATTCAATAATATCTTCAGCTATTTCATCATCTAATTCTACCATTGTTCCATCTAATACTTTGTTTTCTTCATCAAATTCATAAATATATTTTTTTATTATATCTAAAAATAGTTCTCCATATCTTTCATATTTAATTTCTCCTACACCTTTTACTCTTAAAAATTCATTTTTAGTTAATGGTTGATATTCTGACATCTCCACTAAAGTATTATCCGAGAATATAATATATGGTGGTACATTTTCTCTACTTGCAATTTCAGTTCTTTTCTCTTTTAATAACCTCATTAACTCTTCATTTGCTTCCACTTTTTTCTCGATTTTTATTACATTTTTATATACTTTTTCTCCCTTTTTTAAAACATTATAAGATAAATCGGATAATTTTAATACAGGATATTCTCCTTTTGTAACTTCTAAATATCCATCTCCAATTAATAAATTTATCATAGCTTTTATATCTTTCACACTATATTCAGACATTAATCCATATGTTGTTATTCTATCCCATCTGTTTGCAATAACTTTTTTAGATTTTGAACCTTTTAAAATATTTGCAATCATTGTCATTCCTAAATTTTGATTTACTCTTCCTATACATGAAAATATTTTTTGCGCTTCAACTGTTATATCCTGCTTCTCTATATTTTCATTACAATTGCTACACATACCACATTTTTCTTCTATAATGTCTTCTCCGAAATATGATAATATATATTTTTTTAAACACATTGATGTTGTTGTATAATTATTCATATATTGTAATTTTTCATATTTTGATTCTATAATCTCTGGATTAGCTTGAAATTCATTATTTTCTATAAAATATCTCTGTAGCATTACATCTTTTGGACTATAAAGCAATATACACTCTGCTCTTTCTCCATCTCTTCCTGCTCTTCCAGCTTCTTGGTAATAACTTTCAATATCTTTTGGCATATTATAATGTATTACAAAATTAACATTTGATTTATCAATTCCCATTCCAAAAGCGTTTGTCGCTACCATTATTTTTATTCTATCATATATAAATTCATCTTGATAATATTCTTTTTCTCTATCTTTTAGACCTGCATGATATTTTCCTACTAAATATTTTTTATCCAATAAAAGTTCATATAATTTATCTACATCTTTTCTAGTCGCCACATATATTATTCCTGATTTTCCTTCATTATTTTTTAAATATTCAAGTACATAATTCTTTTTATCTATCCCTTTTATTACTTCAAAATACAAATTTTCTCTTTCAAATCCATTTACATATTCGTTAAAATTTTTCAAACTTAATTTTTTTATAATATCTTTTCTTACTTCTGGGGTTGCAGTTGCTGTGAATACTCCTATTACAGGTCTATTTTTTAATCTATCTATAAACTCTGGAATCTTCAAATAACTTTTTCTAAAATCATGACCCCATTGTGAAATACAGTGTGCCTCATCTATTGCAAGCAAACTTAATTTATTATAATTTAAAGCATTAATAAATTCTTCTGAATCTAATCTTTCAGGAGCTACATATATAATTTTATGAATTCCCATAGATATCTCATTGATAATTCTATTTCTCTCTTTTGCAGTTTGACTACTATTTAAATATACTGCACTTAACCCTAAATTTATTATACTGTCTACTTGGTCTTTCATTAGTGATATTAAAGGTGAAACTACAACAGCAATCCCTTCAAATATCATAGCTGGAATTTGATAACATATTGATTTCCCACCACCAGTTGGTAAAATTCCAATTGTATCTTTTTTACTTAAAATACTTTCAACTACTTTAATTTGTCCTTTTCTAAAACTATCATATCCATAATATTTTTTTAATATCTTTTCTGCTTCTTTTAGCATTAACATTTCCCCCTAATAATTACCACTCTACATAACAATCAAAATCTAGCGTTTTTATCTTCAACATCTTCTTCTAAATCGTACATATCAGATCCCTTTACAGCTAATTTATCTGCAATTTCATTATATTCATCTCCATTATGTCCTTTTACTTTATGAAATGAAATATTTTTAAATGATTTTTTTAGATTATATAATTCTAACCATAAATCAGGATTTTTTTTAGCACTTCCTTTAGCTATCCAACCATTAATCCAAATAGTTATTCCATTTACAACATATGCACTATCTGAAAAAATCTTTACTGGAATATCTTTTCTTTTCAATGACTTCAAAGCTTCAATTACAGCTTTTAATTCCATTCTATTATTCGTTGTATTTCTATAGCCACCATAAATCTCTTTTTCTTTTCCTTTATAAATAAGGATAGCTCCATATCCGCCTCTGTTATTCTTTGATTGATTATTAGCACATGCTCCATCTGTATATATTAATATTTCTTCCAATCTGTCCTCCATCTAAATATTAAAATTATTTTAATTTTTTTATAATACCATTGTAACTCTATTTCTCCCAGTTTCTTTTGATTTATATAAAGCATCATCTGCCATTTTCATATATTTATTATATGTATTACAACACTCTAAATTAGGAATCATAGATGCTCCACCAATACTTATTGTAAATTGTATTTCCTCATTTTCATAAATAAAATCTTCATTTTCAACATTTTGCCTTAGCTTTTCAAGTATTTTCAAAAAATTTTCTTTCTCTTTAGAAAAATAATAAAATACAAACTCTTCTCCGCCATATCTAAAAACTTTATCATTTGCTCTACTTAAATTTTCTTTTAATATTTTTCCTAATTTTTTCAAACAAAAATCTCCAGCTAAATGACCATAAGTATCATTTATATTTTTAAAATGATCTATATCAATAATTGAAAAATGAAGATAAAAACCTTCTCTTGATGACATTTTAAAATCATCTATAAATCTATCATCAAAATATCTTCTGTTATTTAATCCTGTTAATTCATCTGTAATTGAATTTTTTTTTAGTTTATTATTTAAAATTTTTAATTCTTTTTTTTGAAGCTCTAATTTTTTAGTCCTTTCACTTACTATTTCTTCCAAATTATGTATATATTTAGATAAATCTTTTCCCATATTATTAAATTTTAAAGTTAATAATTTAATTTCATCTTCATAATTATTTTTAATTTCTATAGGCACAAAATTTGTGGAATCATATGCTTCTACAGATTTTATCATATTAATTATTGAATTTGTTGTATTTTTAGAAATTTTATTCGATAACAAATATAATAAAAATATAATTATAATTAATAAAATAATAAATATAACTATAAAGTTAAATATATGTTTATAAATAATATCTTTTGATTCTGTAATATAAAAAGAGATATTTTTTAATTTTTTTATGTTAAATTTAGAATTTTCAACTTTAAAATATTTTTTTAATTCTTCTTTTTTTATAGTTTTTGTCTTATTATTTTTTGTAACAAAAATATTGTCACCAATATATGTAATTAAATTAATATCCATTCTATTATTATTTTTTAAATAATTCTCAAATATTTTTGATAATTTTAAAACAACAATTAGTTTTTTATTTTCATATGAATCCAATTTTTTTAAAATAATTATATTTATATTAGAATTTTTATATATAAATAACGTCTCTCCTATTTTAAATTTATTTTTTTCTCCTAAATGTATAGATTCTCCATTATTATTTATAATTTCTATTTCTGAAATTATCTTTTTTTTAGAAATTTCTTTCATCAACTCTTTTTTCAAAGATTCACTAGCATATTTACTAATCAATTTATTTTTATCAAATAAAAAAACTACATCATTTGTATTTGCTATCATATTCATAAAATTATCTATTTCAGATATATTGGCAGATAAATAATTCTTAAAATTACCATTATTTAAATATATCTCTTCCGTTTTAAAATATGTAAAAAAATTAAATAATATTAATGAAGTTATTATTAAAATAACTGTTGTTATAATTATATCTGTAAATATAACATATCTAAATATTTTATCCTTTAATTTCATAATAAAACCTCTTTCTATATTAACGATTTCTCGATTTTTATAAATCAATCTTTTTAACTAAAATTTTAAAAATTAAATCGTAAAAAAATTATATTAATTCCCATCTGTAAATATTTTTTTATATTCAGTATAACTTATGCCAGTATATTTTTCAAAAAGCAAATTATAACGTTCTGTTTTTCTAAATTCCTCCATAAACATCGATAACATTTTATTCAATTCTGGAGTGTTATACGAACTACAAAATGCTAAATATCCTACTTTATTTTCAGCTGGAAATAAAGCTTTTAAATTATCTTTAAAAGTTAAGCTTGTTAATAATTTTGGAAAAAAAGAAAATGAATCTGATATACTGACATCTGCATTTCCTAAAATAACTTGATAATAAAATCCCATTCTGTCAATATAATCTCCAGTTGGAATTATATCAATTTCCACATCATTTTTATTTACTTTTTTAGTTCTTCCTAAATAAGTAAACTTATTATTTTTAATACTAACTTTATTAACAATATAATTTATATCTCTTTTTTTTAATTCTTTTCTAATCGTGTTATAGAAATTAAAAACTTCCATTGTTATAATTTTTTTTCCTTTAAAATCTTGATAATTATTTATATCTTCATTTTTCCTTGTGAAAAACATAGATACATTTTCAACAAATGGAGTCATCTTAACTAATTTCTTTCTACTTTCAGTCACTGTAATAATATCTGCAATAATATCTACTTTTTTATAAATATCTGGAGTACCTATAATATTTTTCTTGAACATAATTTCTCCATCTTTTGTCCAATATTCTTTAAATGATTTAACTACATATAATTTTAATTTCACATTTAAATATTCCGCAAAACTCTCTGCAAGTTCAAAAGTAAATCCTTGTTTATCCTTTATTTTAGGTTGATAAATACCTCCTGTTGGAATATTTCTAATTCCTATAATTAAATACCCAGATTTTTTTATCTCATTTAAATCTCTTGAAAATGCAAAACTAAACATTAAAACCATTAGAATTAAAATAATTTTTTTCATGAATTTCCCACCTCCGCAATTATAATTTTCATTACATTGAGTAACTTGCCATTTTAATGTAAAAACCTTATTTTTAAACATTCTTTAAAGTATAATTATTATACCCTATTTAAAACAAAAAATCTATAGAAATAATAAAAAGAGGACCTAAATCCTCTTCTCATCATTCAAAAAACTAATCTTCTATTACCTTATTATATATGATATATAGACCTTTGTGTTCTTCTTTATCTTATAATTCGTGTCCCATTAGTGACAATTAGTGGCTAAAAAATTTTCTCTCTCTTTTCATTTCTCTTTCTTTCCAATTTCCCATTGTACATTATAAATTATCTTCCGAATTTCCTCTTTGCTTCCGCTACCATTACAGCAAATTTCTTTTTAGAAATCCGTATCTTTCTATATGCACTTTCTATGGCTTTTTCTCTATTTTTACCTATCCCTTTTCCTTTAAAAGTTATATTAGACAAAACTAATTTAGTTTTATTTTCGACAATATTTAAATCTAAATTTACATTTGCAACATACATTGTTCCACTATAACTTTCTACTTCATCAATGCTATCTACAGAAACTTTTCCAGTTACAATTAAATTTGCTTTTTTTGAAATTATGTCTCCACCTTTAACTATTAACCTACTTATATTTCTATTTATACTTTTGATTTTTTGATTTTTCTCATTAACTATATTTACAGAAAAATTTGTTGTTTTTTCTTCTTTTCTAAAATAATTTGCATATACTTTAATATTTTTAAAATAATCTTTTAATTCAAATGGAACTTTTAACAAATCAACACTTGCTATAATTTTTCCATTTCTTGATTCATCTGTAAAAACTGTAACATATACTTTAAATTCTCCGTTATTATCTGTTGTTGCTTTTTCTAATATCTTATTATTCTGATATTTTACTACTATTGGAAAATTAGGGATTACTTCATTTTTATATTTTATTTTAAATACTATTGGATTTTTTAAAACTTCTCCCTCTTTTCCATATTGATTTTTTCCATCTACAACTTCAAAATAGATATTAGATATTATTTTTTTTATTTTAGCATTAAAATCTAATTGACTAAAAAAAGTTGGTATTATATATTCGTTATTTGAAATAGAATCATATATTATCTTCTTTTTATAAAACTCATTAACTTTCTTTTTAGCTTTTAAATATTCTTTTACTAGAACATATGGAGTTAAATTCAACTCCTCATCTTTTTTTATCTCTTCACTAATTTTATCTAGTTCTGTCTCTAATCCTAACAAATATTTACTTTTATCTAACAGTGCCAATACATAAAATGAATTTCCACTTTTCTCTTTTTTAACAAAGTCTACACCAATTAAAACTTCATTTGCCAATGCTTTTATATTAAGCTCTACATTTTTACTATAATTTTCTTTATTTCCTACTGTAGATTGTACTGTTTTAGATTCAATACTACTGTCTATATTAGTCTTTATTTGAGAGGCTATATCTACTTGTGCTGCCATTTCTGCTTCTTTATAATTTTTTCCTTCTCCTAAACCAATGAAATAATTGTTAGTAGAATATTCCGAATTCCCATTATTCAAATACCAACTTGGTATACCTGCAGATATTGCCATTATATTAATTAAAACAAACATTGCTATTATTAGTTTTTTCATAAATTTCTCCTCCATAATTTTTTTAAAATAATCATCTTATGACTATTCTGGAGATACCTCTAAAATTATCATTTTCCTATTCAAATTTATTTTTTTTATTCTACCATCCATACCAGATTTTCCAAACTCTTTTTTTATATATCTATATATTTTAAAACTTGATGACAATTTTTCATTAGAAACCCATATTGAATAATCAATCATATTTTTACTAACTATATTTTCTTTGGATTTATTTGATAATTTTTCTATAATATCTATTAATTCAAATTGAATATCCTCTAATTCATCTTCGTCAAATTCATCTGAACAGTTTATTACTAATTTATATTGTATACCTTTTTTCAAGTCTGCTACCCAATAATTATTTATTCTCGATAAAATATTATTCATAGCATCATTTACAGCTTCTTCAATAGAAATCTTAACATTCCCATCTCTACTATTACTATATCCAGTTTCAGTTCCTAATAATCTTGAAGTTGTTGTTTCATAAGCCTTTAAATTCACAACATATTGTTTTGTCCCATATCCTGCATCTGTTAATTCACCTGAAAATGTAATATAAATATCACTTCCAACTGATAAAGCTAATTTATATGAAAAATCTTCTTCTGCATCTGCTAATCCCATTTGAGCGCTATTTAATTTGTTCATTTTTTCTTGTTGCTCTGGTACTACTACATCATATTGTTTTGCTGTTAAATAACTTTCTATTACAGATGATATATGCCTCATATTATCATTTTTATTTAATAACTCTATTGGGTTTTCTCCCTTTTTTGTCATAGGAATTACCATTATAGACGGATTTCCTAATTTTTCAACTAAATTTTCTCTTTTAATTAAAACTCCATCATTTGTTAAATCTTTCATCAAAAGTTCTTTATTTACTTTAAAACTTTTTGCTATTTTTATTCCTTTTCCTCTATCAATAATTATCTTTTTTGAAAATCTTGTGCTTTCATAAGTGATATAATTGTTAATCTTTCCTATTTCAAAATATTTCTCTTCTATATTTTGAAATTTATTTTTTTCATCATTACTACTTAATATTGGATCTGTTCCTTCATATAATAAATAGTAGATTATTGCCCTTTTAGCATCTTTTATTGCATTAAAAATCCCATTTTTTTCAATATCCTTTTTTATTTTTCTTTTACTTCTTTCCTTTGATTTATAAATACCTGTACCTTTCATCAAAACTTCTGCTGAAGATACATTTTCTATAATAGTTGCTTCTTTTGACAAAGGTAAATTAGATGCAAAGCCAAAAATTGTTATAAAAAACATAAATATCAGTATTAATTTTATTTTTTTCATAATTTTTCTCCTTTCTTAGGAACATTTAAAAATATTTTTTTATATTTTGTTGTAAAAACGCTTAAATCGTTACCTGTTTTAAAACAAAAGGATAAAGTTATTTTTAAAGCGTTCCTAAACCATTGCGTATTTTAAAACAAAATCAGAAGGTTATTTTTAAGCCGTTCCTTAATATCTCTTTAATGGATCTAACACACCAAATACATCAAATGGTAATTCTCCTAATGAATAGGTAAATCCTAATCCTATTGACATCCCTCCCAAAGTCGAATTAAATCCTGAAGCTGTATAATCCTTATTAAATTCATCGCCACTTCTATTATTTGTATATTTTGTTGTAACTTTGCTTGGCTTTAATGATATTTTATAAGTTATCCCTAAATCTAACATTAAATCTGGACTCAATAAATATTCTGTTCCTATATCTAATTTAACTCCATAACTCAAAAAAGATATATCATATGTGTACTCATCATAATAATCATAATTATATTTATAATAACTTTTATAATTATAATTAAATGATAACATATCTACACCTAATCCCATTCCTCCATTTAAATTAAATCTACCAAACCACATTTTTTTAGACAATCCTAAATAAGCTGAATATGTATATATAGTTGGTGTATCATCTGTAGTTGTTGTTAATTCAGGAAGCATCGCCATTAAATCTAAATCTAAAAATGTCTGTGGCGAATTAATAATAGGTGCTAAATCGTAAGAAAATATTCCTTCTATTCCTGATGCTTTATTTGCATCTTCGGTTATTATTTCATCTTGATAACTACTTGAATAGCCACCATTTTTAGCCCAATCTAATATGAAATTTATATCTTCTTTTTTTATATTCAAATTTGCAGCAGAAACTGCTTTTAATTTCAGATCTAATCCTAATAATGGATGTTCTGTTATTAATGTCCCTTCAGTTTGAGGCGCTCCTATGTATTGTTTTATTGTACTATAATTAGTAGGATCTTTCTTATTATCTCCTGTTTTTATTATTCTAGCAAATCCTACTTTTTTAGTTATTATTTTACCATTTTCATTTTCTTGTTTCTCTATAATATCAAAAGCATCATCTAAGAATAATCCTTCTTTATGTCCTAATGATATAGAATACTCTTTTCCAGATTTCACCTCAACTATTTGAGCAGCTAATTTAAAATCATCAATTTTTTTAGTTTTTACTCCTAAATTTTTCGCTAAAGCAAGTATAGCCGAATATTGTGCATATTGTGCTTCACTTACATTATAACTATTTCCAGCAAAATTAAATTTTCTATATTTATAATTTCCAAAGATATCCTTTGCTCCTATTTCAGATGTTCCTATTGCAAAAGTTTCATCTGCAACTAATTCCTTTATTGATACTTCACCTGTTTTGGATATTTCTACATGATACCAAATTATTCCGCCATCTATTTTATATAAAATATTTTTTCCTTTAACTACTTTGTTAACAGAAGTTATATATGGTAAATAAATATATGCTGAATTCATTAATATTTTCATCTCTTCAAATGTAGCTCCTAATGATTTTCCCTTAGTTGCAGCAAAAGTTTCTAAATCTGTTTCACTTTTTAAATTTTCAATTCTAATCTTTTTTATTTCATTTGAATTTAAAATATTTAATATCTCTTTTCCAACTGTATTTTCTAAAATTTTTGATATTCTCTTTGGAGTAACTCTTTTTAAAGCATTTGCTTTTCTCCTAAATTTAGTTGTTAATTTTTGGGGTAATATATTAAAATCAAATCTACTATTTGATTTTATATCTTTTGTTTCTTTTATTGGATTTATTCCTTTAACGTAAAAATCTAACATTTCATCTAACATTTTATAATTAAATTTATATCCTTCGGCTATTGCTCCTGGCTTTACCCATACCGAGTCCACTGCTGTAATTGATTTTCTAACATATTTTCCATCTTCGCCATACATAAATTCACTCATTAATAAAATTAGTATAATTAATATAACACTTTTTTTCAGCATATAATTCGACTGTTATTTCTAATCCATTCCTAAACAGTCTTCACCTCCTAGCTCTTATTTTTAAAAAGTTCCTATTTTTGATATTCCCATAAAGAAACTGCTATCTTTTAAATCTTCATCTCTTTTCATTCCTAAATCTAAATAAAGTTTTTTATCTTTTACTATATTTAATGTTAATTTAATTAATTCTTCATCTATTTTATTTTTATTCATATCATATTTAGCGTCTCCATAAATGGTTATTCTCTCTATGTTTTTACTTAATCCTAACACTATTATTTTATCTGAATCTGTTTTTTTATAATTCAAATGACTATTCATACCCATAATAAATTTAGAATCTAATAATATATCAAAACTTTTATCCTTTACAAAATAAATTCCGCCTATATTTATTTTTTTAAAATCTAATCCGAGTTTTATTCCATAATTAAAATCTCTTTCATCATATTTTAATAATAGTTCAAAAAAATCAAATAAACCATATTTAAAATCCATATTATTAATATTTTCAGCAAAATTTCTATCTATTTTTAATAAATAATTCCTATTTCTTATAACTTTAGCTTGTTCTATATTTTCTGAAAATACCTTATATGTATTATCTATAGGGATATATTTTTTTCTTTTTGATAATCCAGTTAATTTAACTCCATAACCTTCTTTTATTTTAAATGAACTCCATAAACTAACTTTTCCTAAACTTTCATTTTTAAAAAGTTCTACTATTTCCATTTCTCCAACTTTTTTTAAAGAATAATCATAAATATTTGCAATTTCTCCTAATTTTGCTTCTCCTTGACCTATATTAATTAATACTCTATTGAAATGTTTTTCTATAATTCTGTTGTCATATTTTTTACTTTCTTTGTTTTTTTCATTTTCTTTTAATATTTTTTCTCTTCTTATTTTAGTTTTTTTATTATTTTTTTCAATCATATTTTTTATTATTTTTTTATCATTTTCCCAATTATCTGTCTTTTCTACAACCCATACATAATATTTTTTATCATTTTCCCAACTATCTATTATTTCTACTTTTAATTTTGTATCTACAGTTTGAACACTTCCAACAGCTGTTTGTGATTCTGTATTTGTTTTAACTGTTTTGATTTCTGTTTTTATAGTAGTGGATTTATTTCCTGCTAATTCTGCTTTAGCACTTGATATTGCTTCTTCTCGTATAGCATTATTTGTTTTCCCTAAAGTTTTATCTACTTCTCCAATTGATGAATGTAACCCTTCTATCACATAATTTTTTGTCCACCAAGGTTTCTCTCCATCTATTTTTTCTATTTTAAATATTCCTGCATTCAAAATAGCATTTAATAATATAAATATTATAAATAATTTTCTTTTCATATTTATCTCCATTTTCATCTTCCATCCTAACTTTTTTTATTTTTTATAAACCTAATATTTATCCACTTCGTTAGTTAATTCTTTTTGATTCTCTTGAGCTCTTTTTAATACCTTTGAATTATCTTTTTTCACTTTCACCTTCTTAACTTCTGCTCTTTTACATCCAAAACTTACAAATACCATACCTATTATAAATATTGACAATATTTTTTTCATTGAATTCCCCTCCATAATTTTAAATTTATTTTACAACCATCCATATATATAATTCTCCCGTATCTTTATTATACCACATTCCATTTATAACTGCATTTACTGTTTTACCCTCTACTGTCTGCAAACTATATTGCTCAAAAGAGCTCTCACTTTTTGTTGCGTGACTAAGTGACCTATTTGAAACTTTAATTCCCATCTGTTTTGATATTTCATCTATTGCTCTTGATATAGCTATTTCTCTTTGCCTCGTTGTACCATCTATAGTTCTTTTAGATACTCCTATTCCAGCTAATTTATATTTACCATTTAATGTTGAATTAAACACCCAATTAGGCATTTTATTTGATGAGTTTTCATTCTTAAAACTATTCCCTTTAGAATTCATAGAAGAACAACCTACTAAACTTAATAACATAATAAATATTACTATTCCTGCTTTTTTCACTTAATTACCTCCCTCCATTTTCTCTCTCTAATTGATACTCTTTTTAAATATTCTCTTGTTTCTTTATAGGGTAATTTTTTAATTAATCTATTGTATACTTTTTTAGGCGACATTTTATTTATTTTAATAATTGCTCTGCTAATGTGAGTATTACCAATAAATGCTTTTGATACATTTCCTGCTCCTGTATTATATGCTGCAATTGTACAATACATTCTACTTTCTAAATTATTTATTTTCCTTAAATATCTATAATATAATACATTCATATAAGCTGCTCCAATCTCAATATTTTTTGGAGCATTATATAACTCTTTTGGCGTTAATATTTTTACTTTTCCATATAGTTTTTTAGTTGCATCTGCTCCTGCTGATTTTGGCACAATCTGCATAAGACCATATGCAGGAACATAAGATGTTGACATTGGATTAAAATCACTTTCGGATTGAATTATTGCATAAACTAAGCTTTCTTTTATTTTTTCTTTTTCAGAATATTTTTTTATATATTTACTATACATTAAAGCTTTTTTGTTTTTATAATTTTTTGGAAGCTTTATTTTTATAATAACTCTCTTTTTCCCTTTAATCTTACTCTTTTCCATCTTAAGTTTATTTCTCTTCACTTTATCTATTACAATTTCAGATACTTTTTTTATATTCTTTTCCCCTTTTTTCAAATATATATCTGTAATTATTGGAAATGAAATTGGACTCTTAATTTTTTTATTCAGTCTCTTCTCTGTATTTTTTAAATATTCATTTCTATTGAAAGCTGTATTTGTATCTTCTAAAATTAATTTCGAAAAAGATTTTGCTAAATCTTTTTTTATTGTTTTTTCATCTCTTGATTTATCAACTATTTTTTCAATAGTTATTTCTCCTTTTTCAAAATCAACTATTTTTCTTTCACTGTATTTATTGTCATATTCTACAAATATTTTAGCTGAAGATACTTTTGGATTTTTCCAATTTTTAAGAATATTTTTTTTATAATTTTCAAACTCTTCTTTTTGAATTTTCTCATAATTCTTAAACTCTTTTTCTATATTTTTCTTATAAGTTTGATATTCTTTATTAGAATTTTTTTTATAATTTTCAAATCCATCATCTCCAAAACTAAATATAAATATAATTTGAAAACAGATAATTAACATTAATATTCTTTTCATAATTGCTCCTCCATAATCATATTAAAAAATAATCTGGCATTAAAAAACACCAGATTATCAAATTATTTAGGTACATTAAAAAAATAAATTTGTCAAAATCATTTGAGAAAATCTTTAGATATATTCATATTTATTCAAACAAATGACTTAGGAACGTTTAAAAAATAAGTTTCTTATTTTTAAGCCGTTCCTTATTAAATTTTTTAATTACCTTTATTAAACATCTTATCTATTGAAGAATCTAATTCATCTTGAGCATTTTTACTTTTAAATTCTTGCCATAGTGCTTTTTCATTTCTTAATGTACTATTTACAGTTTCCTTTATTTTAGGCAATGTATCCTCTTTTTTGATTGCAACTAATATATAAACTTCTTTTTCTGGAGATATCCACATATTAATTTGTTTTGAATTAGTAAGAACTTTACTTGATACTTGTTTTGACACATTTGTGGCAACTTTATCCACACCATCTTGCCCACCTACACCAACAGCATTAGTATAGCTTTTAAACATATTATTTACTTTTACTTCTAATTGTCTAGCAAGTTCATCTCTTGCATTTGCCATTGCTTCTGTTCTAGCAAAACTTAATCCTGCTGCACCTATTTTTGCACTTCCAACTGCTGCTATTCCATCTTCTACTGATGGATTCATTACCCAATTTGGATATTGTGATTGTTGTTGTACCTTTGTTTCTGGTTTTGGTTTATTATTTGCACAACCTCCTAAAACACTAAGTCCTAATGCTCCTAATATTAATGCTCCTGCTACTGATTTTTTCATTTTTTTGTCCTCCTCTTTATTTTTTTGTAATGAATTTAAATCAATACATTATTGATAATCTCTATTTTTTTACTTTAAATTTTAAAAAAATAAGATTAATAAATTAAATAGTTTAAATCAAATAGTTTAATTGTTTTTTTTATTAAAAGCCTAAGGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACACTTAAAACATTGCGTATTTTATAACAAAATGGGAATGTTATTTTTAAGCCATTCCTAAGTAGATAGATTAGAAAAAAATTATTATATTAAATAAAAAATAAGATTAATATAACAAATAAAAGATAAGAACATTATTTTATAAATAGTTCTTAATTTTTACCTATCATATTAATTACATATTACAATATTATTTTTCATTTGTCAATTTTTATATTTACAAAAACAGGGGAGATTTTGAGAGGGTCAGGAATCAAAGGTGGGGCACTCCTCAAAAGCAGGAGCAGCAATATCACATTATCTGATACTCTAATGATAGCGCAGTCTCGACGGCTACGTCGGATAATGTTTATTATGTAGCGAGCCTTATCTGCTTACAAGCGACTGGCGGAACAAGATTAATAGAAGAAATCCCTTGCCAAACAGTAAAATATAATACTGTAAAAATTATACCTATAACCATAAACAACCAATTTAAAATTCTATTAAGTAATTTATTATTTAAAAAAATTTTTAAAAATATCTCATCTCTTATTATTCCATATAGGCTAAACATCAATGTCATCAAGCTAAGAGATTTAGCTAGCGATAAAACAATATTATAAAATTCACACAAAAAGGAAATGAAGAGATTTTGCAGTATATATAGTTATCATAAAAAAAGGAGAACTATAACTGTGTAATCAAGAAAAGAAAAGAGAAGCGAAAAAAAGATAGAAAAGAAAGGAAAAAAATAAAAAAGGTACTAAACAACCACCAGCTGAAGCAGGTGGGTTTCCTTTGCGACTGAAAGTCGCTATTTAAAGGCTAAAGCCTTCTTGAAAGGTCTTTGGCTAAAGCCATCTAAAGTTTCCGACTAAAACTCGTTTACTCTGTTATTTTAAAAATATCATTGTCTTTCATTTTATCTTGATTTTCAACATATTCTTTTATCATTTCCTCTGTAACACTTCCAACCGTTCCACAAAAATATCCTCTTCCCCACAAATGTTGTCCCCAATATTTCTTTTTCAACTCTGGAAACTCATCTTGTAATAATTTTGATGATCTCCATTTTAAATATTGCACTATTTTTGCTGGGGACAATGTCGGTGGACAAGATATTAACAGATGAATATGATCTTTTGTTATATTCCCTTTTACTATCGTTATATTTCTCGCTTCGCAACCTTGTCTAATTAAATCCCTTAATCGTTTCGCCATCTCTCCTTTTAATATCTTATATCTATATTTAGTCACCCACACAATATGGTATTTTATATCATATATCGAATGGCTTCCTTTTCTATATTCCATTTCTATCACCTCAACAAATTATACTACACATATTTATCTTTAGCAAATTTTGCTGAAAGCTATTCGCCTAAAGGCGAAGGTTTTTAACCTGGCGCATAGAAAATAAACGGAGAGGAGAAAAAATTTCAATTAGCATTAATTACAACAGCATATGGTTCATATCACTACGCGAGACTGTATAACAATCAAAAGACAGATAGCTTTTTAGATCTTCATGTTAAAGCATTTAAACATTTTAATGGAGTATATAAGACTGTAGTATATGATAATATGCGTGTAGCAGTAAAAAGATTTATAGGACCAACGGAAAAGGAAACAACAGATGATTTAATAAAATTATCAATGTATTATGGTTTTGATTATAGATTTTGTAATACAAGACGAGGAAATGAAAAAGGGCATGTAGAACGAGGAGTTGAATTTGTAAGAAGAAAAAGTTTTTCAAGGAATTTAGAATCTTCAAGCTTAGAAGAAGCAAATAATCATTTAGAAAATACGTTGAAAAATATAAACTCAAAGCCAAGAAAATGGATGGGAAATAAAAGCCCAGAAGACAAATTAAAAGAAGAAAAAGAATATTTGTTAAAGTTGAACCCAGATTATGTAATAGCAAAGAAGGTAGAATGCAGAGTAAATAAATACAGCACAATAACAATAGAACAAAATAAATATTCAGTACCAGAAAGATTGGTAAATAAATTTGTAGAAGCTAAAATTTATCCAGAAAATATAAAAATATACTTTGAAGGAGAATTATTAGCAACACATGAAAGGAGCTATAAATTACAGGATTGGATATTAGATATAAACCATTATTTAGAAACGTTAAAAAGAAAGCCTGGTTCACTAAAACACAGTACTTCACTACAATGCTCAGAACACAGGCTACAAGAAATATACACAAGTTATTATAGCAAAAAACCAAAAGAATTTCTAGAACTTTTAGAGATAATAAGAGAAAAAAGTTTGAAAGAAGTTGAGAAAGTAATAGAGGAATTATTAAAAAATGGAGAAAAGTTAGTAACTACAGAAAATATAAAAAACATAATAAACCAAGAAAAAATAGCTATTCCAGAAGCAGTAGATAAAAATGAAATAGAAGAAAAATCTATTGAATTATTAGAAAAAATAAGTGAAATATTTACATCTAATAATAATGAAACGAGGTATATAAGTTGAAAAATAATGAATTGAAATTAATAAAGGAATATTTAAAAGAATTAAAATTATCAGGAATAGCAACAGAATTAGAAGAAAAAGTAGAGGAGGCTAATAAAACAGAACAAAGCTATGAGCTATTTTTAAAAGAAATACTAGAGCTTGGAATAGACAAAAGAAGAGAAAATGGGAAATTGAATAGATTAAGATACGCAAAATTCCCATATAAAAAATATATAGAAGATTTAGAAAAAGAAAGTTTACCTAAAGAAGCTCAAATAAGGTTAAAGGAGTTAAAGAGTTTAAAATTTATAGAAGAAGGGAGGAATTTAATATTAGCAGGTAATGCAGGAACAGGAAAAACACACATGGCAATAGGATTAGGAATAGAGGCGTGTATGAAAGGTTACAAGGTTCTGTATGTAACAATACCATTATTAATAAACGAATTAAAAGAAACACGAAGTGGAGGTAAATTGAGAGTATTTGAAAAAAGATTTGAAAAATATGATCTAGTAGTTTGTGATGAATTAGGATATATTTCATTTGATAAAGAAGGAAGCGAGCTGTTATTTACATTTTTATCGTTACGAGCAGGAAGGAAAAGTACAATAATAACATCAAATTTACCATTTAACAAATGGAATGAAGTATTTAAAGATCCAGTACTAACAGCAGCACTAGTGGACAGACTAATCCATAAATCTTATGTCATAAATATGAATGGGAATTCGTATAGAACTAAAGAAACTTTGGAGTGGTTAAAGACATAATTTTTTTATGCTCAACTGGGACTTTTTCGATTAATAGGGTGGGAACTTTTCACTTGACAAATACAACATTTTTATCATATCATTTTGATCTCAAATTTATTGCATACAATTTATAACTTCCTACATAGATAGTATCATTATTTCCTATTGCTGGCTTTGAGTATATTATATATCCTATTTCATAATTCCATTTTAATGTCCCATCTGGATTTATTGCATACAAATTACGATCATAACTTCCTACATAAATTGTACCATCACTTCCTATTACTGGACTTGAGTCTATACTATTTTCTATTTCATAGCTCCATTTCAATGTCCCATCTGGATTTATTGCATACAATTTATGATCACAACTTCCTGCATAGATAGTACCATTACTTCCTATTACTGGGCTTGAGTTTATCCAATCTCCTGTTAAATAACTCCATTTTAATGTCCCATCTGGATTTATTGCATACAATTTATTATCATGACTTCCTACATAAATTGTACCATCACTTCCTATTGCCGGATTTGAATTTATAGAATTCCCTGTTAAATAACTCCATTTTAATGTCCCATCTGGATTTATTGCATACAAATTACTATCACGACTTCCTACATAAATTGTACCATCACTTCCTATTGTCGGACTTGAGCTTATCCTATATCCTGTTAAATAACTCCATTTTAATGTCCCATCTGGATTTATTGCATACAATCTATGATCCCAACTTCCTACATAGATAATACCATTACTTCCTATTGCCGGACTTGAGGTTACCCAATATCCTGTTAAATAACTCCATTTTAATGTCCCATCTGGATTTATTGCATACAATTTATTATCAGAACTTCCTACATAAATTGTACCATCACTTCCTATTGCTGGTGAGGATACCCAATCTCCTGTTTTATAGCTCCATTTTAATTTGCTTGGAGCTTTAACATTTAATGCTTCTGAACTTATTGCACCATCATCATTTTTTGCTGTAACTTTTATTGTAAAAGTCCCTTCTGATGAATATATATGTTCTTTTATTATATTATCAAAGCCACTTGTTATTGTTAGAGATGTTGTATTATCTCCCCAATCTATTGTTACTTCTTTTACCTCTCCATCACTATCTTTAACTGTTCCTGTTAGGGTTAATTTTAAACCTTCTATCTCACTAGTAATATTTATTTTTGGAACTATATTTGGTACTTTAACATTTAATGCTTCTGAACTTATTGCACCATCATCATCTTTTGCTGTAACTTTTATTGTAAAAGTCCCTTCTGATGAATATAGATGTTCTTTTATTATATTATCAAAGCCACTTGTTATTGTTAGAGATGTTGTATTATCTCCCCAATCTATTGTTACTTCTTTTACCTCTCCATCACTATCTTTAACTGTTCCTGTTAGGGTTAATTTTAAACCTTCTATCTCACTAGTAATATTTATTTTTGGAACTATATTTGGTACTTTAACATTTAATGCTTCTGAACTTATTGCACCATCATCATCTTTTGCTGTAACTTTTATTGTAAAAGTCCCTTCTGATGAATATAGATGTTCTTTTATTATATTATCAAAGCCACTTGTTATTGTTAGAGATGTTGTATTATCTCCCCAATCTATTGTTACTTCTTTTACCTCTCCATCACTATCTTTAACTGTTCCTGTTAGGGCTAATTTTAAACCTTCTATCTCACTAGTAATATTTATTTTTGGAACTATATTTGGTACTTTAACATTTAATGCTTCTGAACTTATTGCACCATCATCATCTTTTGCTGTAACTTTTATTGTAAAAGTTCCTTCTGATGAATATATATGTTCTTTTATTATATTATCAAATCCACTTGTTATTGCTAGAGATGTTGTATTATCTCCCCAATCTATTGTTACTTCTTTTACCTCTCCATCACTATCTTTAACTGTTCCTGTTAGGGTTAATTTTAAACCTTCTATCTCACTAGTAATATTTATTTTTGGAACTATATTTGGTACTTTAACATTTAATGCTTCTGAACTTATTGCACCATCATCATCTTTTGCTGTAACTTTTATTGTAAAAGTTCCTTCTGATGAATATATATGTTCTTTTATTATATTATCAAATCCACTTGTTATTGCTAGAGATGTTGTATTATCTCCCCAATCTATTGTTACTTCTTTTACCTCTCCATCACTATCTTTAACTGTTCCTGTTAGGGTTAATTTTAAACCTTCTATCTCACTAGTAATATTTATTTTTGGAACTATATTTGGTACTTTAACATTTAATGCTTCTGAACTTATTGCACCATCATCATTTTTTGCTGTAACTTTTATTGTAAAAGTCCCTTCTGATGAATATATATGTTCTTTTATTATATTATCAAATCCACTTGTTATTGCTAGAGATGTTGTATTATCTCCCCAATCTATTGTTACTTCTTTTACCTCTCCATCACTATCTTTAACTGTTCCTGTTAGGGTTAATTTTAAACCTTCTATCTCACTAGTAATATTTATTTTTGGAACTATATTTGGTACTTTAACATTTAATGCTTCTGAACTTATTGCACCATCATCATTTTTTGCTGTAACTTTTATTGTAAAAGTCCCTTCTGATGAATATATATGTTCTTTTATTATATTATCAAAGCCACTTGTTATTGTTAGAGATGTTGTATTATCTCCCCAATCTATTGTTACTTCTTTTATCTCTCCATCACTATCTGTTGCATTTATTGTTAAATTTATAGTTTTATCTGTTATTGTTTCTTTAATATCCATTTTAGGTGCTACTAATTTTTTTAATTCTAAATTTATTATATTTTCTTTTTCTGATATCTGAATATCTTTTGTTATTTGTTTATACCCCTCTTTTTTTGCAATTAAAGAGTATTTTTGAAATTTTAAATCATTAATAACATATTTCCCTAAACCATCAGTTAAAGTTGCCTTCCCACCAATTTCTACTTTTACATCCTTTAATACATTTCCTCCACTCTCTTTAATAACTCCAGAAAGATTTCCCTGATCATCTTTTTGATTAAAACACCCTGTAAACATAAACACAATCACAATCATACTTAATAAACTTTTTTCCCTCCCTATTGTAATTAAAATTATTTCGTTATTTCTTATTTTTTGCAGTTTTTCATTATAAACCAATTTATAAAATATGAGTTCTTATAGACTATAAACAATATTTATATGCTTTTAAGAAAATTAGACGCACTTTAATAAAACGTTTGTCATTTTATTTTTTTTGGCGTGGTAATCCCTAATATTCTTATAGCAACAAACCTCCCATATCTAACAGGATCTATGTCCTAAATTCCTTCGTTCTGTCTGTCTATAAGTTAGGTGTTGATTAAAGCTCCTTTGCTGGGTCATTGCCCTAATGGAAAAAATTCCAACCAAATACCTGCTCATATTTTATGTATCCATTTAAACTTATTCTGCTTCTTCATAGGCCATTATTTCTAATGGACGTTTACCCTAAGAATTAACATTTTTAAAATTTACTCTTTATGCTGCTTGTAATTCTGGTCTCTTTATATCATTTACTAATTTTTCTGCATTATATTTTATTCCCTTTTTCAATATTGCATAAAATACTCTTATTAACTTACAACTTATTGCTATTATTGACTGTTTTTTCTTTAATGGATTTTTAGCGCGTGTTGTATAATATTCATGTAGCTCTTTGAATTCTTCAACTCTTCCTATTAAAGGCATCGCTACTTGGAATAGAAGCATTTTCAGGTTTTTCCTTCCTCATTTTGATATACTTGTTTTTCCTTTGTGTTTTCCTGAGCTATTTTCTTTCAAGTCTAGTCCTGATAACTTTTGTATTTGTTTTGGTGAATTATAATTTGATATATCACCAATTTCTGCAATAAATCCCGCTACTGTTGTTAGTCCTACTCCTTTGATTTCTAACATTAAATTACTATTTGGAATCTTTTTTAATAATTCTTCTATCAACATTTTTATTTCTTCTTTGGCACTTACTAATCCCTCTTGAACTCCTATACTCTTTTTTCTCCTATTGCTCTTACTTTTTCTTTTCTCCATATTTGGTTTATATCTTCTACTTTATAACTTAATACTTCTGACGGCAATGGTATTTCTTTTAAAATCATTATACTTCCTTTTCCTGTCCAATCTTTAAAGACTCTTTTATATTCTGGAAAATATATTTTTAACCATCTTTCTACTTTATTTTTTATCCTATTTAAATCTTTTATTAAATTTAATCTATTATTATTTGCTACTCTTAATTCTGCATACTCTCCTTCTAATATATTCGGTTCATTATATCTACCTTCTATTACTAATTTTGCTATCGTCTTCGGATCTTTCATGTCTGTCTTGCTTGGATTATTATCATCTAATTCCTTGCTTCTTTTTACATGAAATGGATTCACTAATACAAGCTTTTTATTTGTATTTTTCAAATATGAACCTAACCCAAACCAATAATGTCCTGTCGGTTCTGCTCCTATTAATGTTTTCGTCTTTGAATTATTCTTTTTTAATGTTTCTATCCAATTGTTTAATGATAAAAATCCTTCTCTCGTATTCTTAAATTTAAATACTTTTCCTAACTCTAATCCCCGCCAATCAAAAGCTCTTGCATAATGCTCTTCACTTCCTACATCTATTCCTACTACTAATGTTTTTTCTGTTACTTGCAATATTTTCTTATTTTGTGTATAATTCATTTGAATACCTCCGTTATTTTGGTTTTGTTTTTTCGTTAACTACTTGACCATTTTACCGCAGGTATTCTTTTTTGTAAACTCTGTTTTTTGTTAATTACAGGAATGCTCCTTATTTATATATTTTTTGTTAATTTTAATATTCAAATATATCTAATTTTTTCTCCAACTCTAAAATTATTTTATAATTATCTATTTGAACATTCTCATAAATTGGATTATTCTTTATATTTAAATATTTTAAAGAATTTAATTCTAACATCACTCTCAAATCAGTTATTAAATTATTATCTGCATATAAATTTTCTAAATTTGTCATATTCTGCAAATAACTAATCTCTTTTATTTTATTATAACTAAATTCTAATGTTTCTAAATTCATTAAATTTACTATTGGAAACAAATTATCAATTTTATTATTACTTATCATTAATTCTTCTAAATTTATTAAATTATCTAATCCATCCAATTTTATTATTTCGTTAAATTTCAGATCTAATATTTTTAATGCAGTTAATTTCTCCAATTTTGATATATCTTTTAATTGATTGTCAGACAAATATAATTTTTCCAATTTTGTTAAATTTTCAATACTAGAAATATCTTCTAACAAATTCCCTTCTAAATTTAATTCTTTCAAATTTACCATATCAGTTAAAGGTAAAATATTTTTTATACTGTTTTCACTTAAATCTAATTTTTCTAAATGTTTTAAATTTCCTAAAAAGCTTATATCTTCTATATTATCTCCTGCCAAATATAATTCTTTTAAGTTATTTAATTTTTTTATAAATTCAAAATCTTTATTTTTTAAATATGGCAAATATAATTTTTCTAATCCCATTAAATTTATTAATCTTTTTATATTGTCAATTTTATTCTGTATAATATCTAACTCTTTTAAATTTTTAATATACTCATCTATATTAAAATTCTCTATGTCATCTTTTTCTAAGTTTAATCTTTCTAAATTCTTAATATTTTTTAAAAATGAAAAATCTGATATTCTACAGTTTTCAATAGTTAAATCGTTTAAATAATCAAGTTTAGGAATTATAAATTTTATTAACGTTTTATTTTCTATACTTTCTATATATAATGTTTTTAAATTTGTAAAATACTTTAATTCCTCTATTAAATCAAACTTGTATATAAGTAAATTTTTAACCTGTTTTAAATCATTATAATAAATATTTCCATTTTCAGGAATATCTAATTTTGCCTTAATTACATTTTCAAAATGTTTATTATAAAAAAATATATACGTTTTAACAGTAGATAATCCTTTATCATCAAATGCTATTATTTTTAATTCTATTGTTTTATGTTCTAAATTATAGCTATGATTTAAATTCAACATCAAAAAATTTTCATCTATTTCTTCATCTATTTCTCCATCATTCTCCCAATCAATTTGAATCTTTTTTATTTTACCATCTATATCTAAAATATTTCCTGATAAATTTATATTATTATTTTCTCTTTTTCCAAACATATTTAATACTGGTGGTTTATCAAATTCAACTTCTATACTCTTACTTCTTATCCCCTCTACTTCACATTCTAAAATATATTTTCCGCTTTTATCTGTTGAAAAAAAATTGTTCTCAATTTTTTGCCTATTTACATAATAATTAATGTGATAATTTGTCAATATATCTCCATATTTATTTTTAACTATACCTTTTAATACTAATTTATCAGTTCCATCCGCTCTTATTAATTTTTTATTTATATTTAATTCTACTTTATCTATTTTTAGTTTCTCATTTAAAAAACATCCGCTTAGAAATAATATTAAAAATAATATTATTAATTTATTTTTAACCATATTAATCTTCTCCATATTCAATATAATATTCTATATTTTTGTATAATATTTATCTAATATATCTAAATTTAATAAATTCTTTGCAATCAAAACAACAATCATCTCACTTTTTTTAACAAAATCATAATTTTATTTTTAAGCTGTTCCTAAATATTGGATAATGTCCCTGTGATAAAAAACAGGCGAGATTGATAATTTGAAAATTTTAATGATAGTGATAAAATGTCCATAAAAAATAAGATTTAAAAGTCTTTCTTATAAAAACTTGGTACTCTCAAAAAAAAGAATATATATATAAATATTTGATGATAATAAACAACTTTTGCCATTTATCATCATCAAATATTTTGTTATTCTATTTTTCTCTTATTTATCTTCCACAACAATTTTTATATTTTTTTCCACTTCCACAAGGGCAAGGATCATTTCTTCCTACTTTAGTTTTTCTTATTGGTTTCTTTTTTACCTCTTCATCTTCTGAAGTATTATAATACATTGGTGTTTCTACCCTTTGTCTTTCTATAAAATCAGGTTTTTCTACTTTTATCTTAAATAAATATGATGTAGTTTCCTCTTTTACTGTTTTTATCATATCACTATATATTTCTGATGATAATATTTTATATTCTACTACTGGATCTTTTTGTCCATATGCTCTTAGATTTATACCCTCTTTTAAAGAATCTAAAACTTGTAAATTTTCTCTCCATCTACCATCTAATATTTCAATCATAATATACTTTTCTAATCTTCTCATTAGCTCTTCTGTAAATTCTTTTTCTTTACTTTCATATATGTCAACTAATTCAGAATAAATTTCATTTTTTATATCTTCAACATCTTTTTCTTTTATATTTTCTATATTTAGATCATACTCATATAATTCATATAATCTATCCTTTAATCCCTCTACATCCCACTCTTCAGGTGTTTCTCCTGTTAATTTTATAGTTGCTTCAAAGTCAGATGTAGATTTTAGCATATTTAAAACTTCGCTTTTTAAATTATCTTTTTCTAATATTTTATTTCTTTGGTCATATATAATTTCTCTTTGTTGATTCATTACATCATCATATTCTAATAATTGTTTTCTTACAGAAAAGTTTCTTGCTTCCACTTTCTTTTGTGCATTTTCTATAGCTTTTGTTATCATTGGATGAAAAATTGGTTCTCCTTCAGGTAAACCTAATCTCTCCATTACATTTCTTACTTTATCAGAACCAAATAATCTCATTAATTCATCTTCTAAAGATAGATAAAATTCTGTAGCTCCTGGATCTCCTTGACGCCCTGATCTTCCTCTCAATTGGTTATCTATACGTCTACTTTCATGTCTTTCTGTTCCTAATATAAATAATCCACCAGCTGCTAAAACTTTTTCTTTTTCAATAGAACAATGTTCTTCATGTTTCTTTAATAATTTTTCATATTCTTCTGTCCCTTCTTCTGCTTCTAATTTAGCCATAAATTCAGGGTTCCCACCAAGTACAATATCCGTTCCTCTTCCTGCCATATTTGTAGCTATTGTTACAGCTCCATATCTACCTGCTTGAGCTACTATTTCAGCTTCTTTCTCATGATGTTTTGCATTTAATACGCTGTGAGGAATCTTTTTAGCTTTCAAAACAGCAGATAACTCTTCTGAACTATCTATAGATGCTGTACCTACAAGAGTTGGTTGTCCTTTTTTATAAAGCTCAATTATTCTATTCACTATTGCATCTATCTTTTCTCGTTTTGTTTTAAATACAAGATCTGGATTATCTTTTCTTGCAATTGGTTTGTTTGTCGGCATTATAATTATTGGTAATTTATAGATATGCATAAATTCTCCTGCTTCTGTTTCAGCAGTACCAGTCATACCTGATAATTTAGTATACATTCTAAAATAATTTTGTAAAGTAATTGTAGCTAAAGTTTGATTTTCTCCTGCAATATCCACTCCTTCTTTAGCTTCTATTGCTTGATGTAACCCTTCAGAATATCTTCTTCCAGACATAAGTCTACCTGTAAATTCATCTACTATTACTACTTCTCCATCTTTAACTATATAATCTTTATCTCTTTTAAATAGTTCTTTTGCTCTTAATGCTTGATTTAAATAATGTGTTAATTCCACATTTTCAGGCGAATATAAATTATCTATTTTTAATATTTTCTCAACTTTTTTTATCCCAACATCAGTTAAAAGTGTAGAATGAGCTTTCTCATCTACCTCATAATCTGTCCCTTTTATTACTTGTATTGATATATCTGCAAATATTTTATACCACTTTGTAGTTTCTTCTGCTGCTCCAGAAATTATAAGTGGTGTTCTAGCTTCATCAATTAAAATTGAATCAACCTCATCCACTATTGCATAATTTAATTCTCTTTGTACTTTTTGACCTTTATCAGTTGTCATATTATCTCTTAAATAATCAAATCCAAATTCATTATTTGTACCATAAGTTATATCAGAATCATAAGCTTCTTTTCTTTCATCATTTTCTAATCCATTTAATATAACCCCAACTTTTAATCCTAAAAATTCATATATTTTTCCCATCCACTCTTTATCTCTTTTTGCCAAATAATCATTTACCGTTACTAGATGAACTCCTTTTCCAGTTAAAGCATTCAGATATACAGGTAATGTTGCAACTAATGTTTTTCCTTCTCCTGTTTTCATCTCAGCTATTTTTCCTTCATGAAGAACTATTCCTCCAACCATTTGCACATCATAATGTCTCATTCCAAGAACTCTTTTTCCAGCTTCTCTTACTACTGCAAATGCTTCTGCTAAAATGTCATCTAATGTTTCTCCATTTGCTAGTTTTTCTCTAAATTCTACAGTTTTAGCTTTTAACTGTTCATCACTTAATGCTTGAAATTGAGGTTCTAATTCATTTATTTTCTCAACTTTTTTTAACATTCTTTTTATTTCTCTTTCATTTTTTGTACCAATTATTCTACCTAACATTTTTTTCAACATAGTATTAACTACCTCTCTTTATTATATTTAGGAATTATTAAAAAATTATATTCTTATACTTTATAATAAAAATATTATTTTAAAACTATCCCTTTTTTAAAACAATTAACCTACAAAAACATTTAATTTTTCATAGATTAATTATAAAAATTATATTCTTCTAATTCTTGTAAACCCTGACATATCAATTACTTTATCAAATTTTTGCACTTTTTCTATTGCATCTAAAATAAGATTAACTCCCAAAGTATCACTTGACATATGACCTGCCATAATTACATTTATATTATGCTCTTCTGCTTTTTTCAAATGTGCTTCTGACATATGCATTCCAATTAAAGTTCCAACCCCTGCATTTTCCATTTTTTCATAAATAGAATCGTTTGCTTCTACTCCACCTGTAACATCTATATAAATTTTTCCAACTCTATTATCTTCTGTTCCTGATATGATTTTTGGTGCATTTTGATTTCTTGATGCTATTTTATATTCTTCTTCTTCTAATAATATTTTAATAATATCTTTTAATTTATAAGGCATTTTATTCTTAAACAGTTCATCTAAATATGTATGAACTGCATTATCTGCTGCTGTATGAATATTCATAAATGGAATATCTAAAATTTTAGCTGTATCAATAGCTCTATTATAATTCAAACTCATTAAACTTCTACCATATTTAACCAAAGATTCGTTTAATATTTTTTCTGCTGTACTTACTCCAACTCCAGCTTCTAATAATAGATCTTCTTGTATTTTTATCATTTTATTTAATCCAAATAAACTTTTCCCCTCTGGATGATGTGCTAGTACAAGGTCTATCTTTTCCCCTTTTTCTCTTAATCTATCTACAATTAAAAGTTCTTGTGCTTCCATATCTATTCCTACTGCTATATTTTTTATATCTAAATTTTCATCACCATATAATATATTTGAATCATTATATGGATTCCAAATTAAACTTTCATTAAAATACTCTTTATTTTCCTCTTTTTCATATAATTTTTTATTTTCTTCTAATACTTCCTTCACTCTATCTTTTCTTGGATCCGCCTTTATCCCTGCTTCTATTCCCAATTTAAATATGTCTATTAATTTCATTCTGTATTCCTCCGCTCTATTTTTTTATGAAATGTCTACATTCAGAATATATGCTATACACATAGCCCATTTTATGTAACCATTATAACATATTTTGCTTATAATTTTAAACTTTTTTTTATTTTTTTAAATTAGTTATTACAGTTCATATGTAATAATTAAAAACTTAATATAAATTACTAATTCTACTAATTTATACTTTCCCAGTAAGATATAAAAAGTCTTGCTAAATTTTAAAATCAGCAAGACTTTTTTATTTAAAAACAACCTAAAAAATAAGCTACGCTTCATCTGGTAAAACATAAATATTTTTCTAAATTTTTGGCTTCTGAAAAATTTTGCCTTGAAAAATCGCATATTTCAAAAAACGGCGTAGCTTATTTTCTGAATAAATTTATACTTTCCTAACAAATAAAAAATCATATCTCTTATTTTTTAAACGTTCTTCAATTCTTTTATAACTTTTTTTATATGTTGTGCATTTTTTTTGCTACATATAAGCAAAGAATCTTTTGTATCTACCACAACTAAATCCTTTACTCCTATAACTGCAATCACTTTTTCACTTTCTTTTTCTCCAACAACTATATTATCTTTACTATCTATATCTATTACTCTAGCATCTTTTACTATATTCCCTTTTTCATTTTTATCAAATACTTCATCTAATGCAGTATAACTTCCTACATCACTCCATCCAAAATCTACTGGAATCACTTTTATATTTTTTGCATATTCCATAACTCCAAAATCAATTGAAATTTTTTCAAATTCTTCAAATTCTTCCTCTATTCTTACTTTTTTTTCTTTAGGATCAATCTCTTTATTTCCCATTATAAGCTTTATCTCTTCTAACGTTTCCCAATGATTAGGCATAAATTTTTCTATACTTTCAAGGATTGTTTTAGTAGAAAATATAAACATTCCACTATTCCACAAATAATTTCCTGATTCTACATATTTTTCAGCTCTTTCTAAATTTGGTTTTTCCCAAAATCTAATTACTTTTGAAGCTTCTCCAATATAACATTCTGCTTCTGTTTCTATATATCCATATCCTGTTTCTGGTTTTGTAGGTTTTATTCCAAGTGTTATAATATTACCTTTTTTCGCTTCTTCTGCTCCTGATAATATTCTTTTTCTAAAATTTTCTTCATTTTTTATTAAATGATCAGAAGCTAATACTATCATCTCTGAATTTGGATATCTAATATCGATATTCAAAGCTCCATATCCTATTGCAGCTGCTGTATCTTTAAATGATGGTTCTATAATTATATTTTCTTCTGGAATCATAGGAAGCTCTTTTTTTATTCCATTAGCTTGTATTGCATTAGTCCCTATAAAAATTCGTTCTGCTGGTATTATTGGTAAAATTCTATCCACAGTTTCTCTTATCATAGATTTATCTGATACTAATTTCAATAATTGTTTAGGTTTTTCTTTTGTTGATAAAGGCCAAAATCTTTCTCCGCTTCCCCCTGCCATTATAAAAGCTGTTAACATAATTTTTTCTCCTTTCAGATATGTTTATAGTGATTATGTTATAATATTATCAAATCAGCTTGTTCTTGTCAATACTCTTAAATTTTAAACTTCTCTATTATACCATTTAGATTTTCCACTTTACTATTTAAATTTTCAGCACTTTCACTTATATACTCTATAACTTTCATTTGCTCTTCTATTGAAACATTTATTTCATTTATATCCTCTAATATTTTATTATTATCTTTTTCAATATTATCAGAATCTTTTAATATTAATTCGAAATCTTTTATTTGTTCATCTTCAACTAATGTTATATTCCCCATATTTTCTTTTATTAAATCCGCTGTTTTCATAATATTATTAAGTTTTGATTTTATTTCATTTATTCCATCTTGAGTCACTTTACTTATTCTTTCTGTTTTTTCTGTTTTATTAACTATTTCTGTATTTTTCTTTTCAATTTCTCCTACATATGATGATATATCATTAGCTATATCATTTGTTTCACCTGATAATTTTCTTATTTCTTGTGCTACTACTGCAAATCCTTTTCCTGCTTCTCCTGCTCTTGCAGCTTCTATTGCTGCATTTAATGCTAACATATCTGTTTGATCTGATATTGAATTTATTTTTAATAAAAATTGACTAATATTTTTTATATCTTCACTTAAATCCTCTATCAATTTAGAAATATCTTCACTATTTACAATTATATCTTTAACATCATTTATTAAGTTATTAGAAAAACTATATCCCTCGTTTGCAATACTAGACATTTCAATGCTATTTTCACTAGATACTGTTATCTTATTGCTTACCATTTCAACTTTTTTTGTCAAATCTTTTATTTTACTAGAAAACATTTTTATTCTACTTATATTTTCTTCTGAATTATTTTTAACTTTTATAGAATTCTCTCCTATACTCTCTACAGAATTTCTACTCTCTACAGAACTACTTACTAAGTTTTCAGCTTCTTTTCCAACTTCTAAGGTAACATTTTTAGAATTTACTATTATATCTTTCATACCTTTTATCATATTATTAAAACTATCTGCTAAATCTTTTAATTCATCTTTTGTTTTTATTTCTGCTACAACATTCAAATCTCCATTTTCAGCTTTTTTCATTAATGTTTTTAATTTAAATATTGGATTTGTTATCATAAATGATATCACTGCTGTTAATAATATTCCTATTAAAACTCCTATAACTAATATTATTATTACAAATGTTTTACTACTTTTTGCTTTTTTAGATATACCATTTTTTATTATTTCTGATTTATCTACAGTGTCGCTTACGTTCTTGCTAGTTACTTTTCTTAATTCATCAGTTATCCCTAAAGATTTATTAATATTTTCATCTACTTTAGATTGTTCTTTATAAATATCAACCCATTTTTCATTTTTAAAAGATTGATATTGGCTAATAGAATCAAATATTTTAGTATGAATATCTAGTTTTTTTCCTAATTCTATATATACTTTTTTTAATTTAGGATATTTTTCTAATTGTTTTTTTAATATAACCCTATATTTAGCTACTGCATCACTCCATTTTTTTGTATTTTCATTATAAGAATCACCTTTTAATATAAATGAATCTTTTTCATAGCCAATTATTTCTAACAATTTACTATTTAATAATTTAAAATCTGTCAAATTATATATATCACTTGAAAACATAACCGCTCCAAGTATTATTCCTCTATATTTTGTTTTTTTATAATATATTACAGCATCTTCTAAATTATTTTCACTATTTCTCAAATCTGAAGTTAATATCATACCACTATTTTTATCAAATTTTAAAGTCTTTGGCAGTTTTTTTAAATATGGATGAAATAAAACATTAAAATTTTTATCTAATATAATTCCATATCCTTTTTTTCCATATCCACCTACATAAAAATATTTTGATACATAAACATTTCCTTTTACAGTATTTGCAACTTGTAAATCTGTAAATTCCTTATTATTAACTATCGCTTTTTTTCTTCTTAGTTGCATCTCTTCTATTCTTATACTATTTTTAAGTTTTCTTTCTATTGTTTTATTTATATTACTTTTGTAATTTACCTCTAAATTTCTAATTTTTCCTTTTAACTCTTCAGTGGTAACTAATAATTTTTTTAAATTCTCATTATTAACATCTTCTTTAATTATAATGCTTTCTTTTAGAGCTATTATTTTTTCTATACTATTTTTGACAGTTTCTATATTTTTCTTTAAATCTACTATTTTATTATTATCTCCTAAGTCTCCTGCTTGAACATTTATAATTTTATGTATATTCTCTATCTCTCGTTTTGATTTTTTAATTTCTTTTAAATTATCCTCAAGAAGTATAGTCCTTTCTTTAACTTTTAAATTTAATATAGAATTTTCAATTTTCACTGTACTTTCTATCAACGGTATTGTATTTTTTAAAATTTTATTTGAAACACCAGATATAGTTTCAACACCTTTTTTCATAGATTGAACTTGTAATATACCGTTTTGCCCAATAAGAATTATTACAATAAGTAAAATCCCACCTAATAAAATTAACTTTTGTGATATCTTCATTTTTCCCTCCCATTTTTTGATTCCATTTACATATTTAATATTACTATGGAACGTTTAAAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTAAAGCAAAATGTGAATGTTATTTTTAAGCCATTCCTATATATATCATACTTTCAAATCTTTTTAATAAAATAAAACTCATTTTTAATTTTATTAAAAAGATGGCAAGCAAATTAATATTTGCTTGCCACACAAAGTATATGATTAAATCTAAAAAGATTATCTTTTCAAAATCATATTCTTATTGATTCATATCTGATATTTTCTTTTCTGCTAATTTTTGCATTCCTGCTGCGGCATCTTTTGCTGATATTTTATCATTCATTATATCTTCTTGGAATGGTCTAATTGCATCCCATATAGCTCTCATTTCTGGAACTATTGGCATAGGTTTTCCCATTAACATTTGTGCTACAGATCCTGCTAAGAATGGATCATTTTTTATAGATGGATCATTAGCTGCTTCTATATTTACAGGTAATGTTTTATCTCTTGTAGCTGTAAATAATTGGATATCTTTTCTTGTTATAAATTTAATGAATTTACCTGCTGCTTCTTCTACTTTTGGATCTAATCCTTCTGGTACAAATAAACCTTGGACAGCTGTCATTGGTGAATAGAATCCTCCACCTGGTACTTGAGGTACTTTAGCAAGTCCCATATTATCTTTTAATACTGATTTATAACTAGAATATGACCAATCTCCATTAATTATAAATGCTGCTTTTCCATCTTTAAATAAACTATCCGCTGTTCCATAATCAGCTTCTGTAGGAACTGCTTTAGATACATATTTTAAGTCATGTACAAATTGTAAAGCTTTTACCATAGCTGGAGTATCCAATGTTGGTTGACTATTATCATCCATTACCCAACCACCAAAAGCTCCTAAAAATCCTACAAACCAATATGGTTCATTTAAATTATATACTAATTTATATTCTGTTCCATAATCTGTAGCAAGTAATTCTTTCCAAGTTGTAGGTACTTTTTTTACATATTTTTTATTATATATTAGAGTCAAATGATTTCCTATTTGTTCTGGAACACCATATAATTCTCCAAAAATAGTTAATTGTTTTAAACTTGTAGGTATAAATTTTTTCAAAAATTCTTGATCTAAACCTTTTACTTCTGAAATTGGTTTAATTATACCCATTGTAGCATATACACCAACTGTATCTGATGGTCCTAATACTATTGCTGGTGGATTACCTGAAAATGCTGCATTTTGAAAATTGTATCTTAAATCTTCTGGAGCATAATGTACTCTTTTTACTGTAATTCCAGGATTTTCTTTTTCAAACATTGCTATTGCTTTATCATATGTTGGATCTATAGTTGATTCCCACTTTTCCCATATTTGAATTTCTGTTGAAAATGATAAACTTGTAACTATAAGCATAGCTATTAACATTAATAAACTTTTTTTCATTTCCTAACCTCCCATTATTTTTTTAATTTTGCTTTTAAAGCTTCTACCTCTTTCACTTTTTGTGCCATTAATTTTTTGTAAGTATTTTGCACTCTTCTAGTTTTTAATTCTGCCTTTGATAACTTTAATTTTAATTCTTCTACTTCTTTCACTTTTTGTGCCATTAACTTTTTATAAGTATTTTGCACTCTTCTAGTTTTTAATTCTGCCTTTGACAACTTTAATTTTAACTCTTCTACCTCTTTCACTTTTTGTGCCATTAATTTTTTGTAAGTAGATTGAACTCTTTTTACATTTAATTTTGCTTTTTTCAAATCTACAACTAATTTATCCAAACTTTTGGCATAAGCTCTATTTTCTTCTTGCAATTTAACAACTTGAGCTTTCAAATCTTTAGATGTATTACCTTTTTTAGATAAACCTGTACATCCTGTAAAAGATAATACAATTAAAATAGAAGCAACTGCAATTCCTCTTTTCATGTTTTCACCTCCCTAGTTTTATTTTAAAAAAATTATTTTCATTCAACACAAAAGTGTCTCTTAAATTACCATCTCTTAGAGAGTATACAACTCAATGTACCATTTGTCAACTTTTTATTCTTTTACGCCACCTAATGTAAGACCTGAAATCAAATATTTTGATAAATACATAAACAGAGCCATTGCAGGAACCATTACTAATATTGAAGCTGCAGCAAAATTTCCCCATTCAGTTTGAAATTGTCCAGCCATAGTTTGCAATCCCAAAGGTAATGTTTTTAAGCTTTCTTTTTGCATAAATACATTAGCTACTACAAAATCTGTCCATGAAGCCATAAATGAAAATAGTGCAGTTACCACTACTCCTGGTTTTACAAGTGGTAATATTATCTTATAAAATGCTTTAAATTGGCTAGCACCATCTATCATTGCTGCTTCCTCTAAGGTATATGGAATAGTATCATAGTACCCTTTCATTTGCCACACGCATAATGGCAAAGCTGTTGTAGTATACATTAATATTAATCCAAAATATGTATTAGTAAGATGTAATTTTGACATTACTAAATACATTGGAAGTAACAACATAGTTGCTGGAAACATTTGAGTTATAAGAAAAAATGTTAATCCACTCTTTTTCCCAGGAAAATTAAACCTAGAAAAAGCATATCCTGCTGTAGATGCAAATGAAACTCCAAATATAACAGTAAAGAATGATACTATTGTTGAGTTTTTTAACCAAATCCAAAAGCTAGCATGAAAAAATTTAGTTATTAAATCTGCTGAAGCATATTTGGGATCTAACCCTCTTAAAAATAAAATATTTTTAAAAGAATCAAAACTAGCATCTTTTGGTATTATTGCTAATGATGCTGTAAAAGCTCTATCTCCAGGTCTTAATGATATTGTTACAACTCTAAGTATTGGATATATCGCTAATATACTTGCAATTATTAATATTGTATGTATTATTATTCTTTTACTTAACTTGTCTTTCATTGCCATTATCTAACTCCCTCCTCTGCTTTAGTAACTTTGATTAATAGCACACTAAATACCATTAATATTAAAAATATAGCTACAGAGAATGCAGCTGCATAACCATATCTATATAAATTAAATGCAGCTTTATACACATATGTTACCAATATATCTACTTTCCCAGTAAGTTTATCTTGAGACATTAAATATATTACATTTACATTATTAAAAGTCCAAACCACTCCCATAATTACTGCTGGAGTCATTACAGGTTTTAATAATGGCAATGTTATATTTTTTATTTGTTCCCAAGAAGTCGCTCCATCTATTTCAGCTGCCTCATAATATGTTTCAGGTATACTTTGTAATCCACCTAAAGCTATCATCATCATAAATGGTATTCCTAGCCATACATTAGTTATTATTGCCCCTGTCAACATCCAATTAGCATTAGTAAGCCAAGGTATAGTTACTGTTGCATTTATATGAAAAAATCTCAAAACATCATTCATCATTAAGTTTATTGCACCATATTGACCATTAAACATACCCTTCCATACTAATACAGCTATAAATTGAGGTATTGCCCAAGGCATTATAATTAATGTTTGATATACAGGTCTCATTTTCATTTCTCTATTTAATAATATTGCAAGAAAAATTCCTCCTGTAACGTGGAAAAATATGTTTGCAAATGTCCATATTATTGTTCTCATAAAAACTTTCCAGAATAAAACATCTCCAAATATTGACAAATAATTTTCAAATCCATTATAATAAAGTTTATCCGCTTTTATAAATACTATAAATCTTTTTAAATTTAAATTTGAAAAAGATATCCTAAAATTATATAAAAATGGATATATAATTATTACCAAAACTATTAATACTGCAGGAAATAGCATATAATATGCGAATCTCTCTTTTTTTACCCAATTATATGTTTTAGTTATCTCTTTTTTCGTTTCTTCTATATTTTCTTTTACACTTTTCTTTTCTTCTTTTTTTAATCCACCTCTAATTATATAAATCAAAGATATTATATATACAGTAATAACTACAACGTGTTGAGTTACCTCTGCTACTCCAAGTTTATTAATAACAGATACTTTTAATCCTAAGTTATGTAATCCTATACCTAGTAATTTATCATATAATAATACTCCCGCAGTTAAAATTGTATTTAATGTTAATAAAAAATATAATCTTTTATAAGCTAATACCGCAAAAGCAAATATAAGAGATATTATTATCAAAGAATAAAATACAAAATTGCTTTTACTAAGTTCATTATCTGTTAATTTCTGATATTTCTTCACTTCTTTAAATTGTAATATTTTCCCTCTATATTTCTTCATGCTTATTGTTGTAGATAATGGAAATCTTCTAAAAATAGAATCTTTTTTCAAATCACTTTTTCTGTATTCTGTTGTTCTCATAACTTTTCTTTTTACTTTTTTATTATCAAGAACTCCACCTAAGTATGTATTTCTACTAAAAAACAGAGTAATCGCAAATAATAAAAACAATAAAAAAGAAGCAGTATATAAAGTAGTTTTATTTTGTTTCATTTATATTCCTCCTATAATTTCTTCTTATAAACTTATATTTTCTTCTGTCTCTTTGTCAAATATATGACATTTACTTGTATCAAACCATATTTCATATTTTTCTCCTGATTTTACTGTTACTCCTTCACTTCCCAATCTTGCTATATATTGATTTTTTCCCGGTGTGAAATATACAAATACTTCATTTCCCATTTGTTCTACTACATATATTTCTGAATTTACATAATTATCTTTTTCGTTTGGATGTGTTTCATGACTTCCTATATGTTCTGGTCTTATTCCAAACCACACTTCTTTCCCTACGTATTTTTGTACTTTGTCTGCTTTTTCTTTTGGCAATCTTAATTTCATATGTTCTGTTACTACATATGTTGTATCTCCTTCTTTTTCTAGTTTTGCTTCTACTATATTCATTGATGGACTTCCTATAAATCCTGCTACAAATTTATTTTCTGGTTTATTATATAAATTTAATGGAGTGTCTACTTGTTTTATTACTCCTAACTCCATTACACATATTCTATCTCCCATTGTCATTGCTTCTACTTGATCATGAGTTACATATATCATTGTTGTTCCTAATCTTTTATGTAATTTTGTTATCTCTACCCTCATATGTACTCTTAATTGAGCATCCAAATTTGATAATGGTTCATCAAATAAAAATACCTCTGGATCTCTTACTATTGCTCTACCTACTGCTACTCTTTGTCTTTGTCCTCCTGACATCTCTTTTGGTTTTCTATCTAATAGGTCTGTTATTCCTAATATTTCTGCTGCATCTTTTACTCTTTTATCTATCTCTTCTTTTGGTGTTTTAGCTAATTTTAGTCCAAATGCCATATTATCATATACGTTCATATGTGGATACAAGGCATAATTTTGGAATACCATTGCTATTCCTCTATCTTTTGGTGGTAACTCATTTACTATTGTATCACCTATTGCTACCGTTCCTCCTGTTATCTCTTCTAATCCTGCTATCATTCTTAATGTTGTTGATTTTGCGCAACCTGATGGCCCTACAAATACCATAAATTCTCCATCTTTTATTTCTAAATTGTGCCCATGTACTGCTTTGAATCCATTTGGATATGTTTTTTCCATATCTTTTAAAACTACTTTTGCCATATTATTTCTCCTTTCAAATTTGTTTTTATATTTAATTTTTCTTATTTTTTATAGCCAAATACATTATTTGATTTTTTTACAGCTTTTTCTCTTTATTAATTTAGGCTCTATTAAAATTTCATTATTTACATTTTTATTTTCTATAACATCCATTATATATTTCACTGCCATTTGCCCTATTTCCAATGGATTTTGATCTACTGTTGTAAGCGAAGGATTACTGTAATATCCAAATCCAATATTATCAAATCCAACTACAGATATATCTTCTGGAATTTTCATTCCATTTGCTTTTACTCCTTCAATAAATCCTATTGCCATTAGATCACTTACTGAAAATATAGCTGTTGGTCTATCTTTTTTTCTAAACAACCTTTTTCCAATTTCATATCCACTTTTTTTAGTAAAATCTCCTTCATAAACATACTTTTTATGAAATAAATTTTTACTTTCTAAAATTTTTTTATAAGCAAAGTATCTCCTTTTAGATATCTCAGCCTCTCCACCTATTATTATCCCTATTTTTTCATGTCCTAACTCGGTTAAGTAGTCTATTACAGATTTAACCCCTTTATAGCTATCGCTACTTAGAAAACTAATATTTTCTCCTTTTAAATGAAAATCGATTATAGATATTGGTAATAATAAATCTTTTACAGAATTTATTTTTTTATCTTCAGAGTCAACTCCAATAAATATAACTCCTTCTACCATTTTTTCTCTTATTATTTCTGTATAGCTCTTATTCTTATTTTCTGAAAATACAAGTATATCATACGCGTATGAAACAGCTGTTTCTATTATTCCATCTAAAAATTTATATCCGTAATATTCTTCCCCTTTTAGATTTTCTTTTCCTAAAATAAACACCCCTAAAGTATTACTTTTTTTTGTTGCAAGTTTTTTGGCAAAATAATTAGGAGAATATCCCATCTCCTTTGCTGTTTTTTTCACTTTATCTTTTAATTCAATACTTATATCCTCTTTATCGTTAAGTGCTTTTGATACAGCAGCTTTTGATATATTTAATTTTATAGCAATATCTTTTATTGTAACTCCCAATTTTATCACTCCTTAGAAATAGTAAAAAAATAAGCTACGCTTCATCTGGTAGGACATAAATATTTTTCTAAATTTTTGGCTTCTGAAAAATTTTGCCTTGAAAAATCGCATATTTCAAAAAAATGGCGTAGCTTATTTTCTGAATAAATTTATACTTCCCTAGTAGACTCGAAAATAATATATCCATTTCATAACAAAATCATTTTCTAAAACTTCCTCTTAATCGATTAAGTTGATATTATTATAACTCATAATGAAGATTTTGTCAACTATTTTGTGCTTTTTTTATCTGAAATTGATTAATTTTTGCACATTATACTTAAATATACCGCATAAAAAAATAGAGCTAGTTATTGTCAGCTCTATTTTAACTTTTCATATATTTATTTTTTCCATCTTCTAAAATTTCATCATATAAAATCGGCAGCTTTTTTTCTATATCTTCTAGCATATCTAACAACTCATACTCTAATATATCACTTAGCAAAACATAGTCTCTATCCTCTATACTTTCCACTATTGACTCTACTATATTCTGAAAAGATTCTATTAACTCATCAAATTCTATTTTTTTAAATTCAATTCCTAAAATTTCTTTTACACTTGAAAACACATTATCTATCCATTCTAATCCATTAGTTAGTTGAACTATTATTGTAAAAGCTTCACTTTCTTCTTCAATAGCCAATAAATTTACTATATTCTGTATTCCATCTTTCAATTTATAGATATAATTATTCATCTCTTGAAAAGATTCTAACAATAATACTTGAGGTATTTGAGTTTCAAATTCTATTTTTTTCACTTCATTTATCGTTACATTATCAACATCTTCCAAAGCTCTTCCATCTATATTAATGGATATGATAACTTTCCCAGTTTCTTTTATAAAATTCTCAACTTCTTTTATAATAGTGTCCAAATCATCTGTTTTTTCTATGTCAGCATCTACTTTTACTTTATCAATAAATATTTCCATTTAAATTCTCCTTTTTATAGAGTTCTTAAGTCATTCCTGTTCCTAAAGAACGTTTAAAAAATAATGTTTTTATATTTTATTCATAAAAACGCTTGAACCACTACGTATTTTATAAACAAAATTTATAGGTTATTTTTAAGACGTTCCTAAACTAGCAAGTTGACCTGTAAGCCATGAAGATTGACTATTACTAGTAGATATTGCTTGCTCCATTGCTGTAAATTGTTTTTTTAGCGAATCAGATCTCATTTTTAATCTACTATTCATACTATCTATCCACTCATTCATATCTTTTACTGTACTATCTAAGGATTTTATATGACTATCCATTGTTCCATTATATATTGTATATGGATTAAGATAGCTTTTTAATCTAACTGCAATTCCATCTCTAGAATTATTTTCATCATAATCATATGTTGACGTTATAGTTTCTCCCGAAGCAGGTGCTGTCCCAAATTTTAATTCTCCACTCTGTAAATTAACATATATTTCCCCAGCTTGTGGAGTACCTGATGTTATTAATTTATTAGTAGAATTTGAAGCAGTATATGTTGTAGTTCCAACTTGTAATGTTACCTTATCTATGCTTGAAGGTGTATAATTTAGACTATAATCAACAGTAGTTCCATCTCCAGTTCCTACAGCCTCATCTGTTATTGTTCCTGTTCCTATATCTTGAGTAAACAAACCTTTTACAGCTTCCATATTAGCTTTTAAAGCTTCAGTTAATTTACTTTTATCTATTTTTAAAGTTGATGTTTTTGTATCACTAGCTTCTACTCCAACTAAAGCCAACTGATTATAATCACTATCTAATCCACTTACAGTTCCTGTTAATTTATTCCTTAAAGAATAAATTAAATTAACTGCCATACTATCGCCTTGTAGTTCTCCATCTTTTTTAGTTTTATCTTCTAAATATGATATTAAGTTATTATATTTATCCACAAAACCACTTATTTCTCCATAAGCTTTATCTGTATCTTGAGATACTGATAAAGTAATTTTTTCTCCTGTATCAGTAGCACTTTTCAGCTCAAAATTAACTCCATTTATATTAAATTTATTAGAAGGCTTTGTAAAATTAACTCCATTTATTGTTACAGTGGCATCACTACCTGAATATACTGATTTTTCAGTAGTTGCATCTGTATCATCTGTTTGGTTCATCAAATTCATAGATGCTAAAAATCCACTTGTATCATTTTCAAGTGTAATATCATCTCCAGATTCTTTTGCTGTAAGAGTCATTTTTTTTGTATCATTATCATAAAAAGCTGTAACTCCTGCACTAGAACCATTAATATCATTTATTATACTTTCTATACTATCATCTGCTGTATTCATCTCAAAAGTATATCCATTTATTGTGAAAAAACCATTACTAACTCCTGATAAATTTGAAACATCTGTTATCTTCTTTTGATAATCTGGATTTTCTCCATTTTCGATTTTTTCTCCTAAATGAGTTTCCATTCCAACTGCTGTTAAAAATCCACTTGTATCAGTAGAATCAAACTCTATATTTTGAGAAGTTGATGCTTCTTTTGCTTCTATTTTAAATTTACCTGTTGTAGAATCAAAACTAGCTACTACTCCTGCGTTAGATACATTTATTTTATTTATCACCATATTTATTGTATCATCTGCTATTACATCTACAACTTTTCCATTTATCTTAAAACTACCTTCTGTTACTGAACCTCCAACACTAAATTTTTCATTTGGATCTGTCAACGTAGATGTCTCCTCTACATTAGCTTTCACTCCATCAGTAAAATTTAATGCTGTTCCAGAAGTTATTTTACCAGGCTCTGCCAAAACTACATTTTCCAAAACATAGCTACTTGCAGAAGCTGATGTTGTCGCCGTTCCTGTAATTTTAGAATCATCTGTCGAAGATACCGTCCTCGAATCAAACGTAGAACTAAATTTTAAATTAGTTGCTGCACTTTTCAAAGATGACATTTTACTATCTATATTTTGCCAAATAGTTTTTTCCATTTTTATTTTATTTATTTCTTTTTGTTTTTGATACATTGGTTGCCTATCAGCTTCTAACATTTGTTGAATTATTGAAGACGTATCTAATCCTGATGCCATCCCCGCAAGTTGTACTCCTGCCATTTAAATTCACCTCCCCATTTAATACCAATAATCCATGTTTTTCAAACGTTCTTTAAATTTTTTTATCCAAAACATTTCCAATTAACTCTTCTACTCCTTTTGCTACATTTATTATCTCTTTTGCTGGAATTTGCTGTAACATTTCTCCTGTTTGTTCGTTATATATTTTAACTACCCATTTATTTGTATCGTCATCCTTTTCATATCTTATTCCTTTATCTTTATTATCGGTTTTTATCCCTAGTTCCTTAAGTTTTGTTTCTACTTTATTCTTGATATTATTATATCCTATTTTTTTATCTTTTTCTACCGCTTCTTTTGGAACTTCCATTTTTTTTATAGGTGGGCTATTCTCTAAATATGCTCCCACATTTTCAACTCTCATTTTAATTCACCTCCAACATTTAGGAATGATTAAAAATAATCTTCCTATTTTTTTAATGTTCTTTTTTAGTTTCTATATCCCATAATAGCCGACTCCATATTTGGAGTCGGCCTGGCCGGCTTTTTCATTTTTTTATTTTAGTAAATTCAGCACACTTTGTGGCATTGAATTAGCTTGTGCTAACATCGCTGTCCCTGACTGCGAAATTATTGACTCTTTTGAATAATTCACCATTTCTTTTGACATATCTACATCTCTTATCCTACTTTCTGCAGCCTGAAGGTTTTCAGAAGCTGTACCCAAATTATTTATTGTATGCTCCAACCTGTTTTGCATTGCTCCAAAACTAGCTCTTTGAGTAGAAACTGATGTGATAGCTGTATCAATTGTAGTTATAGCACTATTTGCAGCTGTTTGTGATGAAACTGAAATACTAGAAATCCCCAAAGCACTTGCTCTCATACTTGAAATATTTAAGGTTACTGTTTGAGAAGCATTCGCTCCTACATGAAACGATAACCCAGTTGTTGAATATGACCCTGATAAAAGGTTCATTCCATTAAACTGAGTTGTTTCCCCAATCCTATTCACTTCACTTACAAGCTGATTTACTTCTAATTGTATCATATCTCTATCAGAACTTGTATTAGTATCATTTGCAGATTGAACAGATAATTCTCTCATTCTTTGTAATATTGAATGAGTTTCATTTAATGCTCCTTCTGCTGTTTGTATAAGACTTATAGAATCTTGAGAATTTCTTTCTGCCATATTAAGACCATTGATCTGCCCTCTCATCTTTTCTGATATGGCTAATCCTGCTGCATCATCACCAGCTCTATTTATTCTTAAACCTGATGATAATTTTTCCAACGATTTCGCTATAGTCCCTTCAGAATTAGTTAAATTTCGATAAGAATTCATAGCTGAAATATTATGATTTATAATCATAGCAATCTCCCCCTCCATGATATTTTTTCTAAAGCATCCCTGCTTTATCATCACGCGAGATTATACCGCCGGCCAAAGTAGTATAATATCAACATGACCACCGTTAGATTTAATTTAATTAAATCCAACAGAAGAATTTATCATGGAGGGGAAGAACTATTTTTTAGTATTAAGAGCCAAAAGGCTCTTAATACTTAGATTATCTAAGTAATTGTAACACACCTTGTGGTTGTGCATTTGCTTGTGCTAACATTGCTGTACCTGATTGAGAAATGATCTTATTTTTACTAAATTTAACCATCTCTTTAGACATATCAACATCTCTTATTCTGCTTTCTGCTGCTTGTAAGTTTTCTGATGATGTATTCAAATTATTTATTGTATGCTCTAATCTGTTTTGCATTGCTCCAAATTTTGATCTCTCAGCTGAAACTGACTCAATAGCTGTATTTATTGTAGTTATTGCTGTTTCTGCTGATGCTGCACTTGTTATTGATAATGCTTGTGATGCACTTGCTCCACTTATTCCAAGAGCACTTGCTTTCATACTGTTAAATTTCAAACTTACAAATTGACCTTCATTAGCTCCTACATGAAATCTTAGACCATTTGTAGCATAGCTTCCTGTCATCAAAGTTTTTGTATTAAACTCTGTTTGTCCAGATATTCTATCTACCTCTTGTCTTAGTCTATCCATTTCTTTTTGTATTTCGCCTCTATCTGTTGTCGTATTTGTATCATTTGATGATTGTACTGCTAATTCTCTCATTCTTTGTAATATTGAATGTGTTTCATTTAATGCACCTTCAGCTGTTTGTATCAAACTAATAGAATCTTGTGCATTTTTTGCAGCCATGTCCAATCCTTTTACTTGTCCTCTCATTTTTTCTGATATAGCTAGTCCTGCTGCATCATCACCAGCTCTATTTATTCTTAAACCTGATGACAATTTTTCCAATGAACCATTTACATTATTATTGGTTTGAGTCAAGTTTCTAAAAGAATTCATTGCTGACATATTGTGATTGATAATCATTTTTATAACCCCCTCCGTGTTTTTTTCCCAAGCATCCTTGCCTGAGTTGATTGTAAAAATATAGGGCCCTTATATTTAGCAACCATCACTAACTTCTATAAAGCTAAAAATTAACAATTGTTACTAAATGTAAAAACACGGAGGAGATATCCTTGAAAGAAAATTAAGAATAATTTTCTTTCATATTATTATCAAACATTTAAACTTAAGAACGTTTAAAAAATAATTTTCTCTTTTTTTGTTATAAAAACGCTTAAAGAACATTTAAAAAATATTTTCTTATATTTTGTTGTAAAAACGCTTGAATCGTTGCGTATTTTAAAACAAAAGGATAAGGTTGTTTTTAAAGCGTTCCTAAATTATTGCGTATTTTATAACAAAATCAGAAGGTTATTTTTAAGCCATTCCTTAATTTATTATTACCCTCTTAGAAGTTGTAATACTCCTTGAGGTTGTGTATTTGCTTGTGCTAACATCGCTGTACCTGATTGAGCAATAATTTTATTTTTACTAAATGCAACCATCTCTTTAGACATATCAACATCTCTTATTCTGCTTTCTGCTGCTTGTAAATTTTCTGATGATGTACCTAAGTTATTTATTGTATGCTCTAATCTGTTTTGCATTGCTCCAAATTTTGATCTTTCAGCTGAAACTGTTTCAATAGCTGTGTTTATTGTAGTTATTGCTGTTTCTGCTGATGCTGCACTTGTTATTGATAACGCTTGCGATGCACTTGCTCCACTTATCGCTAAAGCACTTGCTTTCATACTATTAAATTTCAAACTTACAAATTGATTTTCATTAGCTCCTACATGAAATCTTAGACCATTTGTAGCAAAACTTCCTGTCATCAAAGTCTTTGTATTAAACTCTGTTTGATTAGATATTCTGTCTACTTCTTGTCTTAGTCTGTCCATTTCTTTTTGTATTTCGCCTCTATCTGTTGTTGTATTTGTATCATTGGCTGATTGTACTGCTAATTCTCTCATTCTTTGTAATATTGAATGTGTTTCATTTAACGCACCTTCAGCTGTTTGTATCAAACTAATAGAATCTTGTGCATTTTTCTTTGCCATATCCAGACCTTTTACTTGTCCTCTCATTTTTTCTGATATAGCTAGTCCTGCTGCATCGTCACCAGCTCTATTTATTCTCAAACCTGATGATAATTTTTCCAATGAACCATTAATAGTCTTATTTGTTTGTGATAAATTCCTATAAGAATTCATTGCTGTTATATTATGATTGATAATCATTTCCCTCATCCTCCTTGACTTTTTTTTGGCATCCCTGCCTATTACAATGTTTACCGCGCGGACTTCAACATTATAAAGTGGTTTTTTTAACCACCACAACTGAGATTAATAAAATTAACCCCACTCATTGTGGTTAAATCTCGTCAAGGAGATCTGATACTATCTTCCCTTTTTTATTTTATTATTTTCTTTTTACATATCAAACTATCTTAAAATAATTTTATACCTTCCCAAATATAAAAAATTTTAAATATTAACTATCCTTTCAACAGTTGCAACACTCCTTGCGGTTGTGCATTTGCTTGTGCTAACATTGCTGTTCCTGATTGAGATATAATTTTATTTTTACTAAATTTAACCATCTCTTGAGACATATCAACATCTCTTATTCTACTTTCTGCTGCTTGTAAATTTTCTGATGCTGTTTTTAAATTATTTATTGTATGTTCTAATCTGTTTTGCATTGCTCCAAATTTCGATCTTTGTTCTGATACTGATTCAATAGCACTATTTATTGTTGTAATTGCTGTTTCTGCTGCTGTTGCAGTTGTTATAGATATTGCTTGTGATGCACTCGCTCCACTTATTGCTAAAGAACTTGCTTTCATACTGTTTATTTTTAAACTAATAGATTGACCTTGATTTGCTCCTACTTGAAATACCATTCCTGTTGTTGCAAATGCTCCAGTCAATAGTTTTTTAGTATTAAATTCTGTACTGTCAGCTATTCTGTCGATTTCTTGTTTTAATTGATTCATCTCTTTTTGTATTTCTGATCTGTCTGATGATGTGTTAGTATCATTGGCTGCTTGAACTGCTAATTCTCTCATTCTTTGCAATATTGAATGAGTTTCATTTAGAGCTCCTTCTCCTGTTTGTATCAAACTTATTGCATCTTGAGAATTTTTACTTGCCATATCTAACCCTCTGATTTGACCTCTCATTTTTTCTGAAATTGCTAGACCTGCTGCATCATCACCAGCTCTGTTTATTCTTAACCCTGATGATAATTTTTCTAATGATTTCGTAACACTATCATTAGTTGTTGATAGATTTTTGTAGGCATTCATAGCCACAATGTTGTGATTAATAATCATTTCTCTTCATCCTCCTTGATTTTTTTTGTCTTTTCGACATCCTTGTCTTTTCAAACATATAAAAAACCCTGTTTAAATTTTTCAAACAGGGTTTTTTTGTTAGTTTAATTAAAGATTAAACTATATAATAAAACAATTAAAGAGTTGCAGAAAAATAAGTTTCTTATTTTTTTAATTACTCTTTAAAACTTGTTTCATTGTATAATCAAACCTTTTACTAATCCTTTAGTTAATTCTTAAACCTCCCTGTTTAAGGTTTTTTTATGAGGTTGACTCCTCTATTCAATTGTTAGTTATTTTTTTGCCACAAGAAAATTTCTCTTGTGGCGCGCCCAATACAATTCAAAAAGAAACAAAAATAACACTTGCTATTAGTTGGAAGTCATAAGAACCCACTAATGGCAAGTGTTAATATTTAAAAATAAATTAACAATACACTTACCGAACCATTCCTTTAGCTCTTACTTAAACCTCCTTGTTTAAGGATTTTTTATGAGGTTAGCTCCTCTATTCAACATCTTATTTAAATTATCGTCATCTTCTTTTATTACTTTAATACTTTTTTATTTTTTTATTTCTTACTTTTTTAGAAATATTAAAAAAATAATATTCTTGTATTTGTTCATAAAGATATTATCGTTATATATATAATTTACTTTAGCTTTTTTTGTATATTTTTTATTTTTTTATTTTTTTAAATAAATTTCCTAATCCACTTATTTTTTCTTTTGAATTTTTTGCTGCTATCTCATTTTCTTTTTGAATCTCAGCATAAACTTCCGCTCTATGAACTGTTACTTTTCTAGGAGCTTTTATTCCAATCTTTACTTGATCTCCTTTTACATCTACAACAACTATTTCTATATCATCACCAATTATAATACTTTCATTTTTTTTCCTCGATAGCACTAACATATTATTTTACCTCCTGATCAGAGGGTAAGTTTTTCTCCATCTCTTCTAATACATAATGTTTTAACTTATGTCTTGAATTTGTTGATATAACCTGTTTTGCTATTTTTCTTTTTGCATTAATAACTATTGGTCCTTGTAGATTAGCTGTCATTTTAGAAGGATCATCTGGTATTACAACAATTGAAAATATTTCTGAATCTTCAGGTTTTGTTAATTTCAAATCCTCAGTATCTTTTTCAGAAATTTCTAAAGCATATTTTGGCATAAATTCATATGGCCTTATTATAACAAATGCCAATGCTGGTTCTTCTATTGCTTGTAACCATTTTAATGGATTTCCTTCTTCCATATTAAAAATTACATATTTTTTAATATCTTCAAATCCTAATATTCCTTCTGGAAAATTTATAATTTCCGCTTCTTCTATTTCTATTTCTCCAAATCTAGTAGTGCTTATTTTCATATTCTTCCTCCTACTTTATTATCCTTTATAATTAATATTACCACCTATAACGTTTATATTTACTTTTGGATAATTTGCTTTTATATTTATCTCGCCCATTTGAGCTGAAATATTCAATCTTTCTTTTGATATAGTTTCTATTTTCCCTGGACTATAACTTGAAGTTACATATCCTTTCCTAACATCTATCTGAATTGGATTTTTAGGGAAAACATCTAATTTTACTTTCGCCTTTAAATTTCTTTCTGCTTTTCTTTTAGCTATATAAGGGATGGGACTTGCACTTTTTTTATCTATTTTCATCATTGCATCACCATCACTTGCATATTCTGCTATAGCTGTGTATGAATCATTTAGACTTTGCGATGCCACTTTATCAGTCATATCCATAATATTTTTCGAATTATCTAGTTGTCTAAACGCAGGATAATTATGTATTAATAACTCAGCATCTTTTTTCTCCACTTCAAATCTATGTTCCGTTTTTATTAATTTAAAATCTCCAGTTTGACCAGTTATATTTATTTTAGGGTCTGTTTTTGTTATATTAATTTTTGCATTTATTGTCTCTATTTTTAAAGATGGAAATTCTATCATTTTTACCACCTCAATCTTTTAAAATTTATTTTAAAAAATTATCTTAAAAAATCCATTAATGTTGGTTGAATAACTTTAGCACCAACTGATAATGACATACTTTGTACACTTTCTTGAACTTTTAAATCCATTATTGTTTTGGTTACATCTGTATCTTCTGTTCTTGATAGTAAATCAGTTATATTTATAGTTTGATTTTTTAATTTAATTTCAGCTTGATCCATTCTATTCATTTTTGCTCCAACTTCTGATCTATATCTTAAAATTTTTGTTAAACTAGTTTCTAATTGTGTAATACCATCTCCAACTGATTTTCCATCTCCATTTTTATCACTTATCTCTCCAGAATAAATTGAATCTCTTAGATCCATCATTGTTTGAAATATATTTCCAGAGTCTATAAATATTTCTTTTCCTGAAATATTAAATGAAGTTTTTACATTTTCATCAATTTCGGCTTGCAATCTTCCTGAATCCCCATTGTATTTAACTACAGTAACATTATTATTATTAATCCCAGTTCTAACATTTCCATTTACATCTGTTAAATCTCCGCCTGGTCCACTTACTCCACTATCATTATCTCCATTGTAACTTTGAAAAGGAGCTTCAGTAGTTTCATATCCTCCAAAAATATATTTACTTCCCACTTTGCTGTTAGCTATTCCTACTAACTCTGAAGTTAATTGAGTTATCTCATCTGCTATTGCATCTCTTGAGTTTTGTTCAAATGTTCCATTAGCTGCTTTTACAGATAACTCTCTTGTTCTCTGAAGTATATTTGTAACCTGACTAAGTGCTACATCAGTTGAATTTAATACCGTTTTTGCGTTATCAACATTTGATAAATATTGATCTATCTCTTTTAAATTACTCCTATACCCCATTGCTTTTATTGTCCCTGTAGGATCATCTTCAGGAATAGATATTCTTTTTCCAGAAGAAAGTTTATTATTTGTTTTATCTAATTTTGCTTGATTTATTTGTAAATTAGCAAGTGTGTTGGCTATAGTCATTTTATTTGTAATTCTCATTTCTAACACCCTCTTTATATTTTAGGTTTTAAAGCTTATTTATCAACGTATCTAACATAGAATTCATTGTACTTATATATTTTGCCGCAGCATTATACCCATGTTGATATTTTATCATATTTGCCATCTCTTCATCAAGTGATACACCTATTTTAGATTGTCTCCTTTGTTCTAAATTATCAATTAAAACTTGTTGATTCCCTGAAAACCTGCTTGCTTGCTGTGCTGTAACCCCTAAATCTGATACTAAAGATTCAAAATAATCAGCATAAGTATACTTACCAATTGATTTTTGATATTTAAGGTCACCAATATCCATTGCATTACTTCCATCTCCTGATGCATTTGCAGTATCTGCAATTCCATCTCCATTTGTATCAGTCCCTTTTGCTGCAGCTATTCCATCTACACTATCTATTGCTACATACATTTTTGATGCTGCACCTGGTTTTGGTCTTGCCGTTCTATCACTTGATAATGCTGCTAGAGTTGTTGTATCTTCATAGTTATATTCTGTATTCCCAGAAGTTAATACTCCTAACTCTTGTAATAGAGAACCACTGCTGTCTTTTAATGATTTTATAACATAATTTGAATCTTTTTCCCCTCTTAATATTAATCTATTATTTGGTCCCATAGATGCAACTACACCTGTCTCTTGATCATTTATTCTATTTATTAAATCAGAAGCTGTATCTTTATCTGTATCATATTCTATTTGTATTCCATTTATTTCAAAATCTCCAGTAGCTGAACTAATATCTGTATCTGTAGACAAAGCAGATACTTCACTATCATCTATAACTGTACTTCCTTTAACTTTATATATAGCCCCTTCACTTACTCCATCACTATCTAAATCCATAGTTTCATCATAAGTATCAAATTCACCAAAAAAATCATTTCCCTTTTGTCCATTTATATCAAATCCAGCTTTATGAAGCTCATTTGTATTATCTATTAGTCCTACTGCTAACTGATCCAAATAATCTGTATATTTATTTATATCCTTATCTCTTAATTCTACAAGCCCTTTTAATTCTCCATTTTTCAAATATATCTCTTTATCAGTATCACTCCATTTTATTTGATACATTCCACCATTAACTTTTGTATCTTTTACCGTTTTTAATTCTGTATAATTACTCCCCTGAACAGCTGTCCTTCCACCAATAATTACAGAATACTCAGTTCCTCTAGAGACACTTACATTTACATCTTTAGAAAGATCCTCTACTAAAAGATCTCTTTTATCTCTCAAATCATTAGCTTTTGCTCCATCAGATTCAACTTTTTCAATTTGAGCATTTATTCCTGCAATCTGCTTTAATTTTGAATTAATATCTGTTACTTTTATAGCTACGTTATTATTAACATCATCTTTTAAAGCCGTTAGTTGTTCATATGTATTATTTACAGTATTTGCTAAATCTACAGCTCTTTCTTTAACAGTTATTCTTATAGAACGATCTTCTGGATTTTGGCTTAAATCATGCAAAGAGCTCCAATATTCATCTAAAATATATCTTACACTTTGGTCTGATGGTTCATTAATAATATATTGCAAATGTTTTAGATTACTTTCACGCACATCCCACTTAGCTTTTTCTTGTTTTTCTTTTATCATTCTATCATCTAAAAATTCATCTCTTACTCTTTCTATACCAGTAACATCTGCTCCAGAACCAATAGTCCCATATTTTGTGCTAGCATAACTTGTCGATTGTATATCTGCAATTTGTCTACTATATCCATCTGTATTAGCATTTGCTATATTATGACCAGTAACATCTATTGCTGTTTGTTGACTCATCAGACTTTGCTTTCCCATTTCTAATCCAAAAAATCCCATTCTATTTCACCACCTCTAAAAAAAAGCAGCAAATAGCCGCTTTTAAATTTTAGTATTTAATAAATTTTTTCTAACTGCATTTTTTTTCTCTTTATCTTGATTATATCCCATCTCTCTTTTACCTGATAAATTATCTATAATCTTATTAATTAATCCATTTGACATTTCAACTATATTTTGAGCTGTTATATTGTTATTTTTTATTTCATTTATAGTTGCTAACATTATTTTTCTAATTTCAATTAGCTCTTTCTTTTTCGAGCTATTTTCCAGACTCTCTATATAGTCTAATAATTTCCCCCATTTTTCTCCCAACAAATCTATTCGTTCTTTTTCTAATTCAAATATTTTTTTATTATTTTCAGATTCTAATTGAATTACAACATCTAGTTTTCCCATCTTCTCATTAATTAAATATTCTAATTTTTGAATAGAATAATCTAATGCTTTTTTATATAATTCAAGTTCTTTTGTTAATATTTTTATTAAATTATCTTCTATAGAGTTTCCGCTCATAAGTCACCTCTAAAATATACTATCTATTAACGAATCTGCAACTTTGTCTAAATTCATTTTATAAGTTCCATTTGCTATACTTTGTTTTAATGAAGAAATCTTATCTGAATTCGTATCATTTATTTGTGATAATTTTTGTTTTATAAATTCTATTTCTACTTTATTATTATCTATTTTAGCATTTTGAGATATTGTAACTTTATCTTTTATTGCACCAGTTTTAGAGAATTTATCAGAATCTTTTTGTTCATTTTTTACCTTTGCATTCTCAATTTTATCTGTTTTATATGCCTTATAAATATTTGAGATATTTCCAAATACTTTCATAATTCTCACCTCTCTTCTATATATATTTTCTACTATTAAATTTATCGTCTTTTTTCCATTAAAACTTTAACTATTTTTTAAATTTATCAGAAATATACATTGACCTTTTCGTTTCATCTTTTCCTTCATCTTTTGTTCCACTTAAAGAATCAGATACAACCCCTAATTCATTTTGACAACTTTTACAAATTTTACCTGTATGTATAGGCTTCCCACACATTTCACAAGGATAAGTCATTATTATACCTGTTCTCTCTAATCTTCCTTCTCTTACCCAATCCATTATCAATCCTTCATCTATTTCCGTTTGTTCTGCAACCTCTTTTATTGAAGCATTAGGAGAATCATACAAATAATTTTTTACTTCCATAAATAGTTCCTCTTCTTTATTTAAACAACTAGGACAAATATTTTTTCTTCCAGTTTTCATAAACAGTTTCCCACATATTTTACATTCTACTAAATTATCAAATCCCATTTTCCATCACCCTTTTTCTATAGTATTTTGCTACAAATAACGTTAAATAAATTATTTTATTCGGTTTATATAATTTTCTTATATTTTTCTCTATCTCTTTTAAAGTTGAACCTGTAGTTATTACATCATCAACAATTAATATATTTTTATTATTCAAATCTAAATTTTTATCTATTTTAAAACTATTTTTTATATTTTCTTTTCTTTTATTTTCATTTAAAATTTTATACATTGATTTAGTATTTTTTATTCTTTTAATTTTAATATAATCTAATTTTAATTTATCCAAAATAAGATCTACCTGATTAAATCCCCTTTTTCTTTTCCTATTTATATTTATTGGAACTGAAATTATTTCATCTATGTTTTCTTTATCTAATAAATAATTTACTTTTTCTTTAATAATTCCACTTATAATTTCACTAATTGATTTTATTCCTACAAATTTATAATTTAATAAGATTTTTTTATGATTCTCATCATAATGCCAAAAATAATACAAATTATCAATTTTTTTCAAACTTGATTTATAATAAAACTCTTTGTAACAATTATAACATAAATATTTTCTTGTGTCATCTACTTTTCTATTGCAAACAACACATTTTTCACTAAATATAATTTTTTTAATATTCAAAAACAAGTTCTGCATTTTTTTCCAACACCTTTTCAGAATACACCTCTACAAAACCACAATCTAAGCATATTTTATAATAATATGTCCCCATTTCTACTCCAACAATATTTTTTGTTTTTTCTGGAATTATTACTTTTTTCAGTTTATAATTGTTAGAACCACATTTTATACAACTTAAATTCAATTTTTTCACCCCCAAAAGCTATCCATTATCCAATTATATTCATTTTTATTTATTGCAACTACATCAAACCTAAAATCAAATTTTTCCAATTCATTTTTTTGTATATATTCTTGAGCCGTTCTATATATTCTATCCTGTTTTCTTTTATTTACAGATTCTTCTCCATATCCATAATTTTTATTGCTCCTATATTTCACTTCTATAAAAATTATTGTATTATTTTTTTTTGCAATAAAATCAATTTCTCCCCTTTTCCCTCTAAAATTTTTCTCTAAAATTTCATACCCGTTTTCTTTAAATATTTTTATTGCTTCTTCTTCTTTATTACTCCCTACCCTTCTTTTATTCATTTATATTCGCTGCCCCTACTATAAACTTTGTTTTATCTTCTGACAAATCAATCTCTAAAGGCTCTCTCTTTTTTCCATCTTCAAATTCTATAATTAATATATCTGGTCTAATCACTTTATTTTTATTAACTTTTTTTACAACTGCTATTTCTCCTGTATTTAATTTAACATAACTTCCTGTTGGATATATTGACAATGTTTTCAAAAAAACTTTTACTAAATCAGGATCAAAATGAGTTCCTGTACCACTAACTATAATTTTCATTGCATCATATGGTAACATTGCTTTTCTATAAACTCTATCAGTAGTTAAAGCATCATATACATCTGCAATTGCTACAATTCTTGCAAAATAATTTATCTGTTCTCCTTTTAATTTTTTTGGATATCCTGTCCCATCAAACTTCTCATGATGTTCTGCCGCTATATATTTTGCTATATCAGAAATATCTTTTCTGTCTTTTAATAATAGATATGTATATACAGGATGTTGTTTCATAATTTCAAACTCTTCATCTGTTAATTTACTAGATTTATTCAAAACTTCTAATGGAATCTTTGTTTTACCTAAGTCATGTAATAAACCACCTATTCCAATATCTATAATATCTTTTTTAGATAGCTCTGCCTCTTTTGCTATTAAAATTGATATTGTGGATACATTTACAGAATGAGTATATGTATAATCATCAAAATCTTTTATATTAAGTAAATTCAAAGCTGAATCTTCATTTTCTAATATATCATCAACTATTCCTTCAACTGCAGTTTTTATCTCTTTAGAATTAACATTTCCCATTCTAATATCTGAAATTAAATTTTCAACAACCTTTAAAGCTTCTTGCTGAGTTTTTTTACTTAATGCTTGTTTTACAAATTTTGAACTTTTTGATGGTAAAAATTTTTGTTTACCATCTATTGAAAAAATTGTATCTGCTCTATTTACAGTTTTTAATTCTATACCTTTATTTTCTGCCATATATTTTTTCAAAGATATAATATCATTTTCGCTTACTTCTATTCCTTTTGTTAAAAACACTTCCCCTGTTCTATTATCTATTAATGTTATCCCAGATTTCATTCCAGGCTTAAGATCATTTATTGATATTTTTTTTGTTTTTCCGTTCATCTTAATCCTCCTTTTCTATTGAGTATACGTATAAAAATATTTCTGCTATTATCTCGTATAACTCTTCTGGAATTTCCTCTGAGATATCTAATTTTGAAAGTATTTCTACTAAACTTTTATCCTCTTTTATATATATTCCATTTTCTTTAGCTATCTCTATTATTTTTTCAGCAAGATACCCCTCTCCTTTTGTTATAACTTTTGGAGAGTTATCATTTTCTTTATCATAAACTAATCCAACTGCTTTTTTTTTCATATTTTTAAATTCACACCTTTATTTATAATTATTTTTTCATCTTCTATTTTTTGTATTCTTAATCCCCCTACAAAATAACCCATTTTTTCTATTTTTTCTTTTAATTCTTTTATTTTAGACATATATTCATCTTTCATATTTATATTTTGAATAAAAAAATCTATATCCAAATATTTATTCCAATTCTTAATTTTTATTGTTACTTTTCCGGAATTTTCAAGTTCTAAATTTATTTTCAGATAATAACTGTTTTTTTTATCACTATTTTCTGCATCTTCACTATTAGAATTTTCATATTTAACTTCTATTTTTGCAGGAGTTTTCATCATTTCTGATAAAAACATAAATTCTATAATATTTTTCTCGTTTAATTTATTTAAATTATTTATTATATTTAACCCTTTTTTAAAGCTGCTATCTCCATCTTTGCTTTCACTTAACATTTGTTTTATTTTTTTTGCTACTTCCTCTTTTGTTGTTTCTTTTTTTATATCTTTTAATTTTTCATTTATATCGCCATTATAATATGAATATATATTTTTCAAATTGTCTGAATTTATCTCTAAACCATTTTTTACCAATGTAACTAATGATTTTAATAGACTTTTACTATTAGGAAATTTATCTTTTAATTTATTAAAATTTTTTATTATTTTTTCTACATCATTTTGTTTTAAAATTTCTCCTTTTTCTCTTGAAATTATATTTATATCACTTTTTAATTTTAAAACATTAGCTTTAGAATTTAACTTCTCTTTCATAGGTACTAACTCTGCAGTTTTACTCTCCTCATCATTTTCTAAAATTGCAACTTCTATTTTTTCTGCTGAAATATTTTCTACTGTTAATTTTATTATATCACCTTTTGTTAATTGCCTCTTTGTAGTTGCTCTAACTTCTGTACCTTTTATATTAATTAATATTTTATTATTCTTTCCAACTTCTATTACTTTAGCTTTTGTTATTTCCCCTTTTTTTAATTTGCTCATTAATTCATGTTGTTTTGTTTGGGTAGATATTAAAAATTTTGATTTTACTCTTAAAAAGTTTGACATCTCTTACCCCTTTTTATCTCCTAATATTTTTTTCAAAAATGATTTCCTATGTATTTCACAAGGCCCTATTTCTAATAATTTTTCTCTATGTTGCTTTGTCCCATATCCTTTATGTTTTTCAAATCCATATTCAGGATATTTATCAGAAAACTCTACCATTATTCTATCTCTAGTAACTTTTGCAATTACAGAGGCTGCTGCAATAGATACACTTTTACCATCACCTTTTATTATCGCTTCTTGTGTATTTTCATATTCTCTTATTTTTTTATCGCCATCAACTAATATAATATCAAAATCTCTTTTTATTTGTGATATTGCTTCTCTCATTGCTTTAAAAGTTGCATTTAATATATTTATAGTATCAATCTCTTTTTCTCTAACAATTCCTACTCCTACTTCACAATTTTTCATAATAACTTCATATAATTTTTCTCTCTTTTTTTCAGTTAATTTTTTAGAATCATTTATCTCTTCTAATCCGCTATAATCATTTATAATAACTGCTGCTGCAACTACAGGTCCAGCTAAAGGCCCTCTCCCTGCTTCATCTACTCCTACAACTATTTTATTATACTCTTTATCAAATTTTATTAATTGGCTCATATTATTCTCCTAATCTAATTATTTGTATCAATTTGTTCTATTTGTTATTAATTTTTTATTATAAAGGGCAATCACATGAGATTGCCCCAATGTCATCAAGTTAACGATAATTTATAATTTTATATTGGGTTTGCCAACGGCAAAACCCCTACATTATAAAATAAATTAATACTGTAGGGGCTTGCCGTTGGCAAGCCCAGTTCTTAACTTGATAACATTGTAATTGCCCCTACAAATATATTTTGTTTTAAAATACGCAATCTTTTAAATATTCTTTAATTCTAATCCTAATTGTTCTAAAACATCTTTAAAATCTTCTGGAATTTCTCCTGTTAATTTCATCTCTTTTTTTGTTACAGGGTGCATAAATTCTAATTTATACGCATGCAACATTTGTCTAGCAGCTATTTTACTTGTTTTTCCATAGACATCATCTCCTAAGATTGAATGTCCAAGGCTTTTCATATGAACTCTTATTTGATGTGTTCTTCCTGTTTCTATTTGAACTTTTACTAAGCTATAACCATCTTTTTCATCTAATACCCAATAATTTGTAATTGCATTTTTCCCATTTCTATATACTACTGCCATTTTTTTTCTATCTTTTGGATTCCTACCTACTAATGTTTCTATTCTTCCTTTTTCTTTTTTTAATTTTCCATTTACAATAGCAATATAAGTTTTTTTTATAGTTTTTTCCTTAAACATCTCTGTTAATTCTCTATGTGCTAAATCATTTTTTGCTACTATTATAAGTCCACTTGTATTTTTATCTAATCTGTGAACAATTCCAGGTCTTAATACTCCATTAATTCCAGATAAATCTTTTATATGGTGCATTATTGCATTTACAAGAGTTCCGCTGTAATTTCCAGGTGCAGGATGAACTACCATATTTGCAGTTTTATTTATTACTGCAATATCTTTATCTTGATATATTATATTTAGTGGAATATCTTCAGCAACTATTTCTAACTCTTCATTTTCTGGTATATTTACCTGTATATCTTCATTCCCTTTTAATTTATAGCTACTCTTTATTTTTTTTATGCCTTTAATTTCTATTAATCCATCTTTTATCAAATTTTGAATATATGCTCTTGAATATCCCTCCATTTTTTCATTTAAGTATTGATCTAATCTTTTATTTTCATCTTCTAACTCACTTTTAAAATTTATTTTTTTTGTCATATTTCTCCTTTTCTTCTTTATGATGCTTTCAATGTTGTCTTATTATAGGCTCAGTCCTATAGATACGATTCCTAATTATCTTATATTGCCTCTGAGATACCCGTAAGGGCAATTCATGAATTGCCCCTACATAGGCTAAAATATAAAAATAGATTTTTTATTTTCTACTATATCAAATTATACTCTATTTTTTTTGTCTTATCAACTTTTTTATAAATGTTTTTCTATCCCACATTATTAATTGTACATTGTCAATTATTCTCCTGCAAACTTATATAACATTTTTATCTCTTCTGGCCAAAGAGTTTCATCTTTTGTTTCTAATATCATTGGCTTTTCTTCAAATCTAGGATCTGCCATTAAAAATTTAAATGCATCTACTCCTATATTTCCTTGTCCAATATTATGATGTCTATCTACTTTACTTTTAAATTCTGATTTTGCATCATTCACATGAAATGCTTTTAGATATTTTAAACCTATTATTTTATCAAACTCTTCAAAAGTCTCTTCATATTTTTCTTTTGTTCTTATATCATATCCAGCTGCAAATCCATGGCAAGTATCATAACAAACACCTATTCTGCTTTTGTCTTTAATTTTATCTATAATATAAGCTAAATGTTCAAATTTATATCCTAAATTAGTCCCTTGTCCTGCTGTATTCTCAAGCACAACTGTTACTGATGTTGTCTCTTCTAATGCTCTATTAATTGATTCAGATATTCTATCTAAACATTCCTCTTCACTTATTAACTTTAAATGACTCCCTGGATGAATATTCAAATATACTAATCCTAATTGTTCACATCTTTTTAATTCATCTAAAAATGAATTATACGATTTTTCTCTTTTTTCATCATCAGGATTTCCTAAATTTATCAAATACCCATCATGTGGTAATATTTGTTCTGGCTTGTATCCATATTCTTTTAAATTTTCTTTAAATTTTATTATTGATTTTTCTGTTAATGGTTTCGACTCCCATCTTCTTTGATTTTTTGTAAACATTGCAAATGCCTTTGCTCCTATTTTATTTGCATTTAGCGGTGCATTTTCTACCCCTCCAGCTACACTAACATGGGCTCCTATCCATTTCATTTTTTACCTCCTATTTCCATTTTGGCAGTATCAATCATTCTATTATAAGTTCAATTATAAAAATTGTCAACTTAAATTGACTTTCTCTATATTTAATGGTAAAATTTTAATATGAATAAAGAAACATTAAAAAATAAGTTTCCTAATATTTTATTTGTTAGGAAAGTATAATTTTATTAAAAAAATAATATGATTATTTTTAAATCGTTTCTAAATAAAAAAGGGGGATTTAATATGAATAAAAAAACTATTTCATTAAAAAATATATTAAAAAAATATAACTTATTAATTATTTCTATTAATATTGCTTTTATCATTATTGCTCTTCTTTTTACTATTCTTATTACAAATAACAACATTAAAAAATTAGCGTTAAATAATATAATTAACTCCTCTAATTATATTTTAGATAATTTTGATAATAGTTTTTCTGGTTACGAAAATTCTTTTAATTTTTCATTAAAAACTGCAATTATAAGTTTAAAAAAACAATTAAATAAAACAAATAATTTTTCAAAAAAAAATATAGAAAAACAATTAAATAAAATAAATAAAGAATTAGATGTTAAAAAAAATTTTTATGTTAGTACTCTTAATTATTATATAATAAATCCTAAAGGTAAAATTTATATTACAAATTATCCAAAAGATTTAAATTTAAATATTTTTAATTTTAAATCTCTTAATATGTTAAGGGATTTAAAAACTAGTGATATCTTAATTGGGAAAATAAATTTTGAAGTATCAAGTAAAAGATTTAGAAAGTTTATTTATACAAAACTAAATAATGGAGATATTTTAGAACTAGGAGTTTTTCTAGATAATTCCTTTATTGAAAATTTAAAATCATCTTTTTCCAATTTAAAGAAAAATAATGATTTTATTACAGATATTAGTTTTTACGATTCTTTAGGACAAGATTTATTTTATAATAAAAATAATCTATCTAATAAATTTATAAATAAATTAAATAAAAAGAATATAATTATAAATAAAATTGGATTTAATAAATATGAAATGTATTTATCGTGGGAATCTGCTTATAAAAAAAATGTGATTTCTTCAAAATATTATTATAAAATTAATGTCTCATTAGCTTCACTAAATAACAAAAATTACATTATTATTTTTATATTAATTATATTTACAATTGTATATATAACTATTGCTTTTTTTATTAATAAAACAACATATAAAAAGATTGCGGAACCCTTTTCTGAATTAACTAAAAGTATGAAACTGTTTTCAAAAGATAGAATTTTAAATAGTCAAGATATTTCTTCTAACAACAATATAGAAGAATTTAATTTTTTAATTGAAACTTATAAAAATATGGCTGATGAAATTACTGCTGGATTTGAAGAATTAGCAGCAATGAATGATACATTAAAAGAATCATATGATATAGTTGAAGAAACTAATGAAAAAATGGAGCAATTATTATCTGTATCATCTAGCTTAATTGAAAAAGCTGTTAATAAAGATACTGATTTCTTATCATTTATATTACATACAGCCTTAAAACTTATTCCAGAAGCTGACTATGGAACTGTTTATTTAATAAAAGATGGTTTTGTGCATTATATAGATGCTGTTGGACATAATAAAAAATTATTAAATAAAATACATATTGATCAAAAATATTTTCAATATGGTAATTCTTCTATAGAAATAGTTGAAAATATACTTGATCAAGATGTTTCTTTTTTTCCAAAAGATTTATTTGAAAAAATTAAATTAGCTTCCAAACCAATAAAAACTACATTAGCTTATAAATTTAAAGTTAATGATGAAATTGTAGGTGGAATGTCTATTGATATTTCTAAAAATAGTATAAAACATTTTTCACCTTCATCTACAAATATTGTTAAAGCTATTGGAAGTTTTTCTACAGCATTCTTTGCTATTATAAAATATATAAATCAAAAAGAAGTATTTAGAAAAGATATTGTATTTTCCATGATCAACCTTTTAGAAATACATGAAACATATATGAAAGGGCATTCGCAGCAAGTAGCTGATTTATCCTTAAAAATAGCCGCTAAAATGGGACTCGATGAAAAAACTTTAGATGAAATTTACTGGGCATCATTAGTTCATGACATAGGTAAAATTATTATTCCAAGTGAAATTTTGAATAAAAAATCTAAACTTACAGATGAGGAATTTGAAATTATAAAAAAACATACTAATTATGCTTATCAGGTTCTTAATAAATCTGAATTTTTAGGTAATATAGCAAAAATTGTTTTACATCATCACGAAAGAATTGATGGAACAGGTTATCCAGAAGGGTTACATGGCAATAATATTCCACTTGCATCAAAAATTATAGCTGTAGCAGATGCTTGGGATGCAATGACACATGAGCGTTCTTACAAGCCTGCTTTATCGAAAGACAAAGCAATAACTGAAATAATCAATAATAAAAACAGACAATTTGATTCAGATATTGCTGATATTTTAATAAAAATTATAAAAGAAAAAGAGAAAATCTAAAATTGATTTTCTCTTTTTCTTTTATTTTCTATACATATATTTTTTTAATTATTTCTATGCGAATGTTTTATCTTTATATCCCCAATTTTCTCTTTCCAATTCATGAAATGTAATATATACATCTGATATTCCTAATATTTCTTTATAAATTTTACTCATTTGTTTAGTTATTTCATTTTTCTGATCTTTTGTCAGATTTCCTAATAATTTTAATTCGACATAAGCGTATTCTCCTTGTTTTCCACCCAAATATATCTCTGATTTTCTAAAACTAACCATTATATACTTTTCACATTTTCCTGCTGTTTCTTTTAAAATTTTAGCGATTTTAGATTTTAATATATCTTTTTCTTCTAATGTAACCTCTTTTGAAATTTCATTTCCTACATATGGCATGTTTACCTCTCCTTTCGATATTTTAAATATATTTTTATATTACATCCGTAAGGACAATTCATGAATTGCCCCTACAAAAACACCAATCTTATTTTCTTTCTAAGGCTCTTAATGTAAACATACTATCTTTTATATTAACATCTAACTCTATATCTTTCATAATTATTTCAGTATATGAATTTTTCTTTATTTTATCTTCCATTTTTATATCTGAAGGATAATATTTTCCATCTATTATATCATTTTTTAAAACTGTCATAGCTTTTAATAATTTTCCAGAAACAGCATACATCTCTTCTTTGATTAAATTAAAATTTGTTTTTCCTATCCAAATTAATCTTTTGTAATAACTTGTTTCTACTCCTTTTTTTACAACTAATTCTAATAGATAAAAATCTTTTGTTTCTTCTTTTACTTTAGAATTATATATATCATACAACTTATTTCTATTTGTTTGATCTTCATATGAAAAATCACTTCCCATCATACTTTGTCTAAGCATATGCCCTGAAATTTTTACAGTTCTATTAGCTTTTGGTAAATACATCCACATATTATCTCCTATTCTTAAATACTTAGTCCCTTTATCTCTTGAAGGATATGTAAATTCTACAAATGATTTTTCTGTTCCTTTTCCATAAATTTTCATTTTTTTTGTATATTTTCTTCCTCTTTTAAAAATTATCATCTCACCGTTATATTTTATACTATTTGGAGTTATATTTTCATCCACTTTTTTTAATATCTCATCTCCTGTCATTCCATACCCTAAATTAAAAATTGCTAACAAAGCAATCATAATAATTAAATTCTTTATCACATTTTTTCTATTCATCTTTATCATCTCCCTATTATTATATTTTTCTATCATAAAGTCTAAAAAAACCTACCTCTCCGTCAGCTTCGCTGCCACCTCTCCTAAAAGGAGAGGCTTTTTTGGATTTCTCTTATCTCAAATTTTCTACTGGAGCTTTTCTTACTTCATATAAAGTAACTATAGTCGTGGCTAATACAGATATTATTAAGCTTAAAACTATTGCAAAATATATTGTTCCTAAAGTTGGCTTCATATATATTGTACTTTTTACATTTATATCACTTGAAAGTCTATCTACTACATTTCCTAAATGTATCCCTTTTATTGAAAAATAGTAAGATATTCCGCCTCCTAACATTATTCCTAATACTGCTCCTATTGAAGTAAGTATAACTCCTTCTAGTACAAACATATTAAATATTTTATATCTGTACATTCCAAGAGCCTTTAATACTCCTATCTCTTTTTTTCTCTCAAATACTACCATTAACATTGTATTTGCTATCCCTACTCCAGACAATATTGCTAATGCTAAAGCTAATACATATTTTACAATAGGAAATACTCCTGCTGTATATCTATTAAAACCAATCTCATTCCAACCTTTTATTTCTAAATTTTTATTAACTATCTTGTTTTTTAATTCTAACTTTTTTTTCAATATATCTTTTTTATTTTTCAAATATATAACATATTCTGTAGCTAATCCATCCATATCTAATAGATATTCTGCATCTTTTAATCTAATATAATAGCTTCTATTTAGCTTGCTATTATCCATTTTATAAAATCCAACAACTTTATAATTTAATGCTGACATCTCTTTATTTATTGTGTTTGTAAGAAGTGTAACTTCATCTCCAATCTTTAAATTTAATTTATCCTTTATTGTCTTACCTATAATTATTTCATTCTCATTTGAATAGTCTAAAAATCTTCCTTTATAAATAAATTTATCAAACCCTATTATATTATAATCTTTTTTTTCTATACCATATCCCAGTCCTGCTATATTTTCATCTCCAAAAAACATAGCTCCACCAAATTTTATTCTAGGAACACTATTTTCTATACCTTTTATATTTTTCATAACTTTATCTATATTTCTATATTCAATTGAAGCTTCTACATCTAATGATTTCTCTTTTATATCAAAATCTTTAGATGTAATCCTAATATCTCCAGTAACTCTTCTTCCTGCCTCTTCCATCATATTTACTGTACCATCTATCCAACTAAGTCCAACTATAATTCCAGCTACTCCAACTACAACTGACATTGCTGTTAACAAACTTCTTTTTTTATTCCTAAAAATATTTCTAAATGCTATTTTGAACAAAATTCCCACCTCTTTTCTATTATAATTAATTTCCATTTACCGCTTCTACTGGATTAAATTTTGTAGCTTTATACGCTGGATAAAATGCTGCTACAACTGATATTACAAATCCTAATATAAAATATCCTATAACTTTTGAAAATTCTAATTGCATAAATATTTTATCAGATAAAGGTAAATCTATCCCTGAATCCCCTGCATTTATTGGTATTCCAACTTTCTGATAATGTATTGTTACTAAACTTCCTATAAAAACTCCTAAAAAACTTCCTATAACTCCTACAAACGCTCCTTCAAAAATAAATAATTTTAAAATTTTAGATTTACTCATTCCATTTGCCATCATAATTCCGATCTCTTGTTTCCTCTCCATTGTAACCATAACCATTGTATTAGCTATTGTAATCCCTGCCATAGCGAGCAAAATAAAACTTACTATATTAAATGCTTTTCCTCTTATTTGAGTTATTAATATTACATCTTTCACTTCATCTTTCCAATTAACTGCCTCACAATTAATATCTTTTAATTTATCTTTGTTTGCTATATCTCCTAAAACAGCTATATCATTTATCCCATTAGTTATTATAAATTTTTTCACATAATCAATATTCAAAAATATTAATCTACTGTCTAACAGAGGATTTCCTGTTTTTATAATTCCGCTAATAATCAAATCATCTGCATTTAAACTATTTTCTACAGTTCTTGCCGTTATGGTTATTCCATCTCCTACTTTTAATTTTAAATTATTTGCTAATTCACTTCCTATTACCACTCCATTTTTATTCTTAAAAAAATTACCTTTTAGCATATATTTTTCTCTTTTAAATACTTTTTTTTCTTCATTGGGATATACCCCTAAAAACATTGCAGGCATATCTAAATCATCTTTTATAATTTTTCCAGAAAATTTTATTCTTTTTGTGTAAATAGAACCTTTTAGAATTTTATCCAATTTTTTTTCATCTTTTATCATAAAATCTAATGGATTATTATTATCTTTATCCTCATAAAATCCTTTAAGATAAATTTTATTTGTTGCAATATCCGTTTTTACATATGTATCTATTAACTGTTTTTTTAATCCATCATTTAATCCTGCTCCTAATATTGCAATTAATATCCCAAAAATTATTGTTACCAATGTAAGTCCTGTTCTTATTTTATGCCTAAAAACATTTCTATATGCCATTTTAACTATCATTTTATCTCTTCCTTTCTTATTTTCCCATCTCTTAGCCAAAGAATTCTTTTAGCATAATCAATTATTAATTGATCATGGGAAGAAAACAGAAATGTAACTTTTTCCTCTTCATTTAATTTCTTCATTAATTCCAAAATCTTTTCTCCTGTTACACTATCTAAATTTGCAGTTGGTTCATCAGCCAATATTAACATTGGTTTTTTCACTAATGCTCTTGCTATTGCTACTCTTTGTTGTTGTCCACCTGACATTTCGTTTGGACGTCTATTCCTTAATTCTTGTATTCCAACTTCTTCTAATATTTTTTCTATTTTATCCTTTTTTTCACTTTTACTAAATTTACCTAACAGATCAAGTGAAAACTCTACATTTTCATAAGCTGTTAATACTGGAATCAAATTATAGCTTTGAAAAATAAATCCTATTTTATCTCTTCTAAAATTTGAAGCTTCTTTTATTGATAAATTTGTTATATCTTTTCCTGCTACAAATACTTTTCCGCTTGTAACATTATCCATTGCACCTACTATATTTAATAATGTAGTTTTTCCCGAGCCAGATGGCCCTGCAAAGACTGCAAAATCTCCCTGAGGTATATTTACATTAATCTCCTTTAATGCCCTTACCATAATCTTTTTATTTCCATAATCTTTTTCTACACTTTCCAATTTTATCATTTCCATTTATAATACCCCTTTCTACATTTTTATTTTTTTATTTTATCCGCCTTTATCCTGTGGTTAAAATTCTTTTATCTTTTAGCTTAAAATTCCACATCCATCTTTACTCCATACTCACTATTATTCAAATTATCATCCTTATATATAAAATCTAATGTTACATAATCATTATATATATATGAATAATCAGCATTCCAATTGTAGTTAGCATTTTCAAAATCATATATTAAAGTTTGAGAAAAATAAGCATTTTCACTTAAATTATATCTATACATATTAAATGTCTTTTTATTATTACTATCTAATTTATATTCATATTCAGTCAACAGATATAATACATTATCAAATATATCTATAGAATAATCAGCTCCTACATTAAAAAATTTATTTTTAACAAGATATTGTCCCCAAATTCCTAAAATTAAATTTCCTTTAAATTCTAATAATAATTCATCTTTTTCTTTTCCATAATTTCTAAAATAGTTTACCATTAACTCACTATTTAAAATAGTTTTTGTATATCTTATTCCTAAATTTTCATTTTCTTTTTCTTTTTGAAACAAAACCATTTCTAGCCTTGATAACCCCTTTATATATTTTACATATAATGAATCCACCCCTTTTCCTTGCTCTTTTGGATTTTCCCAATTAATATTATTAAATACATTTCCATAATTAAAAAAATAACTACTTCCCCAATCTATATTTTGCCTTCCTAATGATAAAGTTATATCTCCAATATAAAATTCTGAATATAATTTATTTATAATAGTTTCGCTCTTATTATCAATTAAAATCTCCCCTTTTGAATAAAAATCATCTTTTGAAATATCTGTTGATAATCTTAATTCACCATATTTCTTTTGAAAATATTTTGTAGTAATCCCTACAGAAAAATCTGCTGCAAATATAATATTTGATAATAATAAAAATGTTAATATACCTTTTGCTATTCTTTTCATTTTAATTCTCCTTTCTTTTTTTATTTATTATTTCTACTCTAACCTAACTCCAATAATTCTTCTAATACTGTAACTTTACCTTTTTTCAATCCTAAAATTTTCTCTAATATTCTCTCACGTGCGAGTACAAACTCTTTTCTATAATTTTTATCTGATATAAGTTTTTTTATATCACCAGAATAAGATATCATATGCAAAAGATGTTCTAAAGTAATATCTATATATTCTAGCTCAAATTCTCCGTTTTCAACTCCTTCTTCCACAATAATTTTTAGATATGGAAATAATTTTTTTACATATTTTTCTGTAAATTTATAAAATATTATCTCCATCTGATTTTTTAATATTGCATCTGCCATTTTTTTAGTAAAATCTGAATCATTTAATTTCATATTTATCATTCTTTTTAAAATAGAAAAAAGTTTTTCTTTAGAACTTAAATTTTTATTATTTATAATTTTATCAAAACCTTCTAAAACATTCAAAAACATATAATCCATTAAGTCATCTAAAAATTGCTCTTTTGATTTAAAATAATAATAAAATGTTCCTTTTGCAATATTTGCTTCTTCTATAATACTCTCAATAGATGTCTTTTCGTAACCATTTTCCGCAAACTTATTTTTCCCAATTTTAAAGATTTTTTCTTTTGTTTTATTTATTTTCATTTTTTATTTTTCGCCTCCTTTTTTATACTGACCGTCAGTCTAATAAAAGTATACTCTTTTTGTTTTTATTTGTCAAATAAAAAATCGTATATTTTAAAAAAACAGCGTAACTTATTTTCTGAATGAATTTATCCTTTTTTAGTAAAAAAAGGATTTTTTTATTTATATCGTATATTATAGTTAGAATAAAAATAAAGGAGATGACTTCTCATGAAAAAATTTATTATTATATTTGCTATATTAATATTTTTTATTACATCATTTGGAGAAACTATTCAAGTAGTAACAGAAGAATATCCACCGTTTAATTATTCTGAATATGGTGTTATTAAAGGAGTATCTACTGATATTGTAAAAGCTGTTTTTAAAGAAGCAGGTATTGATTATAATATTAAAATTTATCCTTGGGCTAGAGCATATAAAACTACTTTAATTAAAAAAAATCAGATACTTTATACAACAATAAAATCTAAAAAAAGAGAAAAGCTTTTTAAATGGGTTGGTCCTATTGTTCATATTGATTTATATATTTTCAAACTAAAATCCAGAAAAAATATTATAATTAATTCAATTGAAGATATCAATAAATATCGCATAGAAGGTGTCCGCGATGATATTACCACTCAATATTTACAAACATTTGATAAAAACATTTTTATTACTTCAAATTCAGAAATTGGAATTAAACATTTACTAGAAAAGCATACAGATTTATTTCCATATGGTGGTCGTGTTATTTACGCTTTAATGAAAAAATATAATAAAGACCCTAATCTAATTCAAAAAGCTTATAAATTAGATGCTCTTTCTACTGGAGGCTATATGGCATTTAATAAAGATACTCCTGATTATCTTGTTAAAAAATTACAAAATGCTCTTGATAGAATTAAAAAAAATGGGACTTATGATAAAATATTTGAAAAATGGAATAATTAAAGATTTTCAAAAATAAAAAGAGCCGTAAATTCGGCTCTTTTTTCTATGTATTAATACCCCACACCAGCTTTTTTAACATTATTAGCATCAAATGCATGACAAGGTGTTACCCCATGTACCATTCCACACTTATCACATACGCTTTCAAATTTTTCCATTCTAAACTCATTTCCACAACTACATTTTATTTCCAAAGGTACTGGTAAATATTGATTTGTAAATCCCATTGCTCTAACTTTATCCACAACTTGTTGCCCATTCTCAAAACTTGCTGCACATCCATCATGTGATGACATAATAACCACTCTCCCATTTTTTAAATATTTGATAAATTTTCCCCATATCTTAGTCCATTTCTCAATCCCTGCATTCTTTTATCAATAACTTCTAATTCTTTTAAAATTTCTTTTTCCTCTTCTGTTGTTTCTATTATTTTTTCTATACCACCATTGTTTATTACAATTCTTTTATTTCCTAATAAAGCCAACATTGGATCATGAGTTGCCATTAATACAACTTTTTCTTCGCCAATTAACAGTTCCAGAGCTCTTTTCCTATCAACTCCAGCATTTTCTATTTCATCTATTAAAACTATTGGAGATTTACTCAAAATTGCTGTATCTGCAATCATTAATGCTCTTGATTGCCCACCGCTTAAATCTGTTATTTGAGTTTCTCTTTCAAATTTTTCTCCAGCTAAATCATTTGCAGAATTTATTATTTTTTCTATTAATTCTTTTGGATTTTCTACTAATCTGCTTTTGGCATGAAGCTGTAAAAAATCCTCTACACTTAAATCCATTATAAAATTCATATTTTGAGACAGTTGTGCCACCAATCTATTACTTGAAGAAAATCTCCATTTTTTATCTGGATTTTTTCCATTTATAAGTATTTTTCTATTTGTAGGTGTATCTCTATCTGCAACCCATTCTATATCTGCTAATAATCTACTTTTCCCGCTTCCTGTTGGTCCTACTATACATATAATTTCACCTTTTTTTATTTTTAATTCTTCATATTTTTCTTCATTTCCAAATTTATTAGTTCCTGCTATTATAGAGATAGAATTAACATCGTCATCTTCTTTTATTCCCAAGAATTCTATCATTTGTTTAATATATTCTTCTATTTTTAATAAAATATCATCTTTTTTTACTCCTAATTCTTCTAATTCTTCATTATCTAATTTATTAATATTTTCTTCTAGTGTAGATTTATAATCTAAATTTTCAAAATTATTAGTTTCAAAATAGTTACTCATAAATGAATATTTTTTTAATAATTCATCTATTTTCATCTTTTTTATCTTATCAAATTTAATCATTTCAAATCACCTGCTTCTATTTTTTTTACATTTCCTAATTGATGTTCTGCTCCAATTCTTGTTTCTCCAAGACAATATGAACAAGTAGCTGATGGCATAGAAAATCTTAATTTCAGCCCTTTTACGCTATCTGTATGTTGGTCATTTTCATATATCAAAGTGCTTAATTCATACGCTCCTTGACCTGTTAATCCATTTACATTCATTATTGTAGCTCTTGGATTTACCATTGCTACTCCAGAAGAAAAAACTTCTCTTTCTGCTTGTGATACTATATCCCCTTTTGTTATTACTACTATATCTGCCATTGTAAGCATAGGCCCTATTTTTTTTGGCGTATTTACTCCACTCAAATTATCTATGACACATACTGCTTTTACATCTTTAATATAAGGCGAACATCTATTACATAATCCCGCACTTTCTGTTATTAATACATCTAAGCTATTTTTTACTCCCCATTCTACTACTTCTTCAATATTGCTTACAAAATAATGATCAGGACATAATGAACCAGATAATCCTTTTAATACTGGTATCCCTAATTTTTTATAAATCAAATCATCATCTGTATATAAACAATCAAATTTTGCAACTCCTACATTTAATTTTCTATCTTTAAACGATTTTATTAATTTTGTTATTATTGCAGTTTTCCCCGATGAAGGAGGCCCTGATATAGTTATTAAATTCATATTTATCACTCCTAATTTTTAGTTTTACTTATTCAAAGAACGTTTAAAAAATAAGATTATTTTTAAGACATTCCTAAATTTACCTTTTTAAATTCTATTTCACATTTTTTTAAAAGTTCCCCAATATTATTTTCAGCTATATAATCCCAACCTATCCACATATATTTTTTATCTTCTGTACCATTTTTTACATCTGGATTTATACTTGGGAATAATCCTTGATGAGATAAAACTTCTCCTACCTCTTTTGAGCTGAAAAATTCAGCAATTTCTTTTAATTCATCCTCTTTTTTAGCTTTTGTAAGCATAAATATTGGGCTTATAATTGCTCCATCACTTGGCCATACATATTTCATAGGACTTCTTTCATTAATTGTTTTAGTAAAAAAATATGGCATTACTGTGATTAATGGTGGCTCAGGCTTCACATAAGATTTTACCATTTGTGCAGGATGTAGACTTTGATGTAAATTTCTAGCGAGTTTTCTCACTCCATCCATTCCAAAATTTTTATATACATTTATAAGTATTGCATTAAATAGATCAAAATCGCTTACAGGTAAACTTACGCTATTTGCATAATCTTCACTTAATAAATCTTCCCAACTTTCAGGAACTTTTTTCCCATTTAACGCCTCTTTATTAATTAAGAATACTGCTGGCACTACTCCAATCATTGAATATTCACCTTTTGGATCTTTCAAATCAGTAAATTCTTTATTATATTCTTTCAAACCTGTAATATCTTTAAAAACTCCACTTTTTTTATATTGTCCCATTAATTCATCTTCGAAAAACAGATCAAAACCTGCTGATATAAATATATCTGATAAATCTTTTTCGCTTCCATTTTTTAAATCCTCTTTTAACCAATCTAACCCCATAGAAGCAGCTTTTAATTCATAATTTATACTATTTTTTAATTCAGGTTTATTTGCTATGAATTTTTCAAAAGCATTTAACATTGGAACTCTTACTGGACAAGGTAATAATCCTTGAATTTTCAATTTATAATCTTCTAAATCATTTTTTCCTTGCGAATCTACAGCTGTTGTATTTATATTTTTATCAATCACTTCATTTAACAAGTTTTCAAATGTTGATATATCAATTTTTTTTGTTTTTAATGCCTGTTCAAGTGTAACTAAACTTCCAAAACTTTTTCTTTGACTCTCCTCTTTCAAATTTTCAAAACCATTATTCACAAATATATCTATTGTTTCTTTATATTTTTCAGTTATATCATATAAAGTATCAGATATATTAAAATATTTATTATTCATAACTTCATCCCCTTTCATTTTCTTGAACTAAGTATACCATTTCTGTCAAGAATATTTCTGTAACAAACGTTACGGAATGGAATTAAAATCAAAATTCAAAAAAATATTGTAATTACTAGGTTCAAAGAGTATTAATTGTTACGATATTATCTTTTAATAAAAAAAACACCCTCTCAGTCACTATCGTGCCAGCTCTCCCAAATGGAGAGCCAAAAAAAGCCTCTCCTTCCAGGAGAGGTGGCAGCAAAGCTGACGGAGAGGTATCTTTTATTTAATCTATCTAATTTATAATAAAAAACTTAATTTTAGAAATATATTAATACTTATTCTTTTATCTTTTAATCATCAATTGTCATTATCTCTTTTTCTCTCAATAGCTTTTCTAATTCCATCACTATTTGGCAATTTTTTCAAAACTTTATCTAATTCTATCTTGTCCTTTTTTAAAAAATATATCTTAGCTAAATTTTGATATAAATCTATTTTTTTATATCCATTTTCTTTCGCTTTCAAATAATATATTTTTGCTTTTTCTAATTTATTTTCTAAAAAATATACATTTCCTAATTGATTATATAATAATTCACTTTTTTTATTTTTCTTTACTCCTTCATTTAAATGTAAAATAGCTTTTCCTAATTTATTTTTTAATATATCTATTCTACTTAATAAATAATAAACTTTTTCATCTTTACAACCTAATTTTAATGCTTTTTTTAATAATAAATCTGCTTTATCTAAATTATTTATTTCCAACATTATTTCTGCTATATTTATATACCCGTTGTACCATTCTTTATTTTTTTTCATCCCCATTAAATTTATCTCAACAGCTTTTTTATATTCTTTATTTTCAAAATACAATTTACCTAAATTATTATATGCCCACATATATTTATCATCTATTTTTATAGCATTTTTATAAAATATTTCTGCTTTTTTATAATTTCCTATATCTTTATACGCATTTCCTAAATTATAATTAGCTATAATACTTTTCCTATTTTTCAAATATACATCATTCCATATAGTCAAATCATCTTTATAAATATAATTTCTATACCCTGTTACTAAAATTAATAATAATAATATTGCCCATAAATTTTTTTTCATTTTTTATCTTCCACTTTATTATTAAATTTATCGATTAAATAATATAAAGTTCCCACAAAAGCAAATATAAATCCTACAGAAGGTAAATATACTCTATGTTCATAAATCACATCTTCTATTGGAATTATTGTAGATGTAGGAATTAAAACAACATAGAACCATAAAATTCCAAAAGCATAAAATTTATTTTTTTTAATATTGTATATAGCAATTAAAATTAATCCTATATGTAAAACAAGAGATAACCAAGTTATTAAATCCATATTTTTTTGTATCTTATAATCATAATCCAAACTTTGTCTTATTGGCAAAATCATAAGTCTTAAATATGTTCTCACTACATTCATCTCTGTTCTCAAATAATCTTCTCTTGTCATACTCTTTTTATGTTCTTGTCTTAAATCAAATGTTTTTATAATTTGCACTTTATCAACTGATACTGCTTTATATACCCTTATCCAAAATGGTATTAATGCTAATGATGATATTAATAAAAACAGTCCAATATCTTTTTTTTTCAATTTTTTTATATTACCAAAAATAATTTCATAAATCAATATTATTCCACCTAATGTTACTACAATCTCCTTACATCTCGAACCTAATATTATCATTATAGCACTATAAATGACATATTTGATTTTAATTGTATCTCTATATCTCAAATAAAAATAAAAACTTCCTAAAAAAAACATTGAAGCCATTGACTCTAGCCTTTGTGTAACATATGTAACTGCTTGTGTAGTTATTGGATGTGCTATAAATATAGCACTTATAAAAAATGAGATTTCATCTTTATATGTTTTTAATTTCGTTTTTGAAATTATATTTTTTGAAATCAAATAGACAAATAATGCTGAAAAAAAATGTATAATAAAATTTACTATATGATAACCAATTGGATTTAATCCACCCAATTTATAATTTATTGCAAATGTAAAGTAAACCAATCTTCTACTACTAAAGCTTTTTCTAAATATATCTAAAAATGCTGACCATAAATTTTTTATTTCATAATTATATATTATTGAGGAATAATCATCAAAGTGAAAACTCCCCATAAAGCTTGTAGAGTATGCTATTAATCCTATTAAAAATATAACCGCTAGTGCAATCCACTGCTTTTTATATATTACATCTAATTTTTTCATTATTTATTCTCTCCTTTTTTTATTCTATCTTTTATTATGTTTAAACTTCTTAATACAGTTTTAGATTTTGACATTTCGTAGCCTTTTGTTAATATTTTTATAGCTTTTTCTTTTTCTCCTATTCTATAATAAAGTATTCCTAGGTTATTATATGCTTTCCCATCATTTGGCTTTATATCTATTCCTCTTTTTAATAAAGGTTCAGCTTTTTCATATTCTTTATTTAATGAATATGCTACTCCTAAATTTGTAAGTACATTATAATCATTTTGATTTAATTCATATGCTTTCAAATTATATTTCAAAGCTTTTTCAGGATTTTTTAATTCAATGTAATTTTTACCTAATCTTAATAATACTTTAAAATTATTTTTATCTTCATTTTTTCCTTTATCCATTATTTGCTCTAAAAAAAACGTTTCTTTTTCTCTATTTTTTAATTCTTTAAATAAATCTGCTAATGCCTCATATGCAGGTGAAAAAGAATCATCTTCTTTTACTGCTTTTTTATAATAGTCAAAAGCTATTTTATATTTTTTTTGTTTCACATAAATCCTTCCTATTGTTACATAAGTATGTGGATATCTCGGATCTATTTTTATAGCTTTTTCTAAATATTTTATTGCATTATCATAATCTTTTTCTTTATAATAATTTACTCCTAAATTTATCCATCCTCTTGCTTTTTTAGGCGTTTTTTTAGCTATATCCATATTTAGAGTTACTCCAGTTAGCCAAGTCATATTTCTAAATAATGTAACAATAGTTAGCATAATTAATATTGCTATTAATAACCTATTTAATAATTTCAATAAAAGCACCTCTCTTTGTTTTGTATTTTGTATTTTTTTATGTTATAATTTTAATACAATTGAATTGCTACCCTCAATATTAAATTTTAAAAGGAGCTAATTATGTTTTTTTATAATCCACAACCAAAATTAGAAATAAAATTACAAGATTTAATTAATAAATTTATTCTTGAAATAAAATCTAATAAAAATCTATCTAAATATATCAAAATATTTGGTATTACAGGTCCTGCTGCTAGAAGTCAGGCCGTATATCCATATAGTGATATTGATTTTTATGCCATTACAAATTTTATCTCTTCTAAATATGAAAAAATATTAAGAAATATTTTCAACAATATCTTTATCAATTTAGACATTGAATGTTCTTTACTTTTAGTTGCGCCTTCAATATATTATCGACCAGATTTAATGTTTTTTGAGTTTAATAATTCTGGAATAGTTTATTTAGGAGAAAAACAAAATAAACTTTCATTAGATAAAATACCTAATTGGGAAATTTTTAGACTTCTAACTTTTAGAAGCAATCCTTTTTTTTCTACTTTTTCTTTATCAAACAATAAATTGATAATTAAAGATATTGAAAAATTTTATTATTATTATTCAAAATTAATATTAGGTATTAGTGAAGCATTTCTTATACTAAAGAACAAATACAGTGCTGATAATTTTGAAAGGCAAAAAGATATTAAGAGTTTAGAGATAAGTTTACAATTAAAAAATGAGATAGAAAAAGCATTTTTATTTAGATATAAAAATTATAACTATACAGAAACTCCTGAAAAACTTTTTGAAAATGCTATAACTTTTTTAAAAATTGTTTGGGATAAATTAATAATCGAATATTTTAAAACAGATAAAAAAACTGCATTAAACAAACTAAAAAAAATTAATGCACCTTTCCCTGCTATTTTATATACAAGATTATTTTTTATGATAAATTATTACAAATATAATAATAAAATTATATTTTCTATAAGAGAACCATTTATAGATGAGATATTTTCTACTTTAGAATTTTTAGAAAATCCAAGTGAAAATATTAGAAAAAAATTAGTTTTATATTGGAAAATAGCTCCTAGATTTTGGAAAAAAAATTAGTTAGGAACGGCTTAAAAATAAGTTCCTTATATTTTTAACGTTCCTAGAGTTTTTATATCTTTACTAATTTTTTTATATCCTCTCTTGTTATTGTTTTCGTTATAAAAATATATATACTATATACAATTAATGCTACTGCAAAAGATATTGGTCCTTTTATCCAAATACTCCAATCTAACAACATTCTAAATCCAACCATTATTATAATAAAAATTAATCCTGCTATGAGAAAATTTAATAGTTTCCATCCGTTCACATTAAACTTTAACTCTTTCCTAGAAACGAAAAAAGTATAAATCCACATAAAAAAGTTTGAAATTGATGTAGCAAAAGCTGCTCCATACAAACCTGTAAATGGAATTAATGTTAAATTTAATATTACATTAATTATTGTTCCTACAATTGTAATTTTTAAAATTTCTTTTGGTTTTCCTATTGCATATAATATTCCATTATTAATATAGCTTAATATCAAAAATATTAATCCAAAACTTAATAAAGATAATCCTCCATACGCTCTATAATATTTTGTACCATATATAATATTAATATATACCATTGGATATATTATAAGCGTTGAAAAAATAGGAACCATTCCTGCTAATAAAAATAGATATATTTTTTCAATTAATTCTTTTAATATTTCAAAATCTCTTTTAGCATACAACTCTCCTATAAGAGGAGTAAAAAAAACAAATATTCCAGAAAAAAGAGTTACAAATATTTTAAAAATATTTACTGCTACTTTATAGTTTGCAACTGAAATGTTGTCTTTTATTACAGATAACATAAGTATATCTATATTATTTAAAATATAATTGTTAAATCCTATTCCTATAGTTAAAAAACCATATATAAAATATATTTTGATTCTCTTAGAAGATAATTTTAATTTTTCTCCTCTAATTTTAGGAAATAATATTTTTATAAAAAAAATTATTTCTATAAAATAACTTACAAACAATATTTTAGATAATTTTGTCAAATTTGAATTATTATTAAGATAAAAAAATATACCTGAAAGATATATAATACCTCTTATTATTTCTCCAAAATTTACATTTTTTATATCTTGAAAAGATTTTACAAAAGTTTTATATAAATTTTCTAAAACCATTACTATAATTCCAGCAAAAAAGATAAAAAATAGATTACTGTTTTTTATCTTTAATAAATCACTAATTAATCCTGATAAAAAAAATAGAATAATTAGGGAAATTAATCCATTAAATAAGAGTGATACTGAAGAAACTATTATAATTTCTTTAATATTTCCATTTTTTTTTCTAATATTAAATTTTGGAATATATCTTTGAGCTACAGAACTCCAACCTAAATCAAGAAAAATAGAAAATAAAATTAGAAATCCCCATATAGTAGAAAAATCTCCAAATTCTTTCAAAGAAATTTTCCTAGCAAGTAAAATATTTGCCAAATATCCTAAAAAACTACTAATTAATAATCCACCATAACTTAATATTAAATTCCAGTAAATTTTTCTTTTTAATGTTGGCATTTTATTCTCCTTCTGTACTTATAAATAATATTTTTTACAACATCTATTAATAACTTAAATCTTCTTATCATCTCTTTCATTTTCTATCTCTTTTTCCATATATTTAACCATATTTTTAAACTCTTTAAATTTAACTTTATTTGCTAAAACTATCCCTAATGGAACTGGAAAAGAGCTGTGCGGTGGCTTATTATAATTATACTCTCTTTTTTTTATATATAAATCAGTTCCTCTTTCTGTTTTATTTAATTTTACATCTCTCTTCATGAATATTTCAGATAATCTATGATAATTTAAAATAACTTCTGATTTCAATTCTAAATCTTTTTTGGAACTTTTAATATTTATTAATTTAGGCTTTTTATTATTATATGGTATAAATTCTTTAGGCAGTTGATATTTTGTATTATCTAATTTCAGATTTTTTAAAAATTCCCTCATAAAAAATAGATAAAATCTTTTTAAATTCATGTAATTATTATAAGTTGGATATTCAAAAATTTCACTTTTTAATTTTAATTTTTCTATTGCTTTCATCACAATAAAATTGGTAACATCATGGTCAATATGTCCACCTTCATATGTTGGGATAAATATTTTATTCGGTTTTATTTTTTTTAATATCTCATTTATATCCTTAAATAATTTTTTAGCTTCTTCAATTTTATATAGTGTTGTATCTTCATATTTTAAAAAAATTAGATTTTTTAATGGGATTTTAAAATATTTTTTTATTGTCTTCTTTATTGCGACTCTTCTTGCTTTTATATACCTTTTTTCACTATTTTTAGCTCCTTGAGTTGTATAAACTATTGTAATATTATTCCCTTTTTTTAACTCATTTTTCATCATTAAACTATTATTTATAATATCATCATCAGGATGTGGTGCAAATATTATTATATTTTCCATAATTTCTCTCCAATTTTAATTATTTAGGAACAGCTTAAAAATAACCTTCCCATTTTGTTTTAAAATACGCAACGATTTAAGCGTTTTTATAACAAAATATAAGAAACTTATTTTTTAAACGTTCCTTAAAACACTCAAAAAAACTTTTTTAAATTTCTCCTTTTGCCTATCTTCTGAATACTTCTTTGTTACCTCTTTTGCTTTTTCTCCTAACTCTTTAATATTATACTCTTTTTTTTCTATACTTTCCAATATTCCAACTATATTTTTTTTACTTAAATCAATTACAAAATTTTTTTCTACCTTTTCTACAATCTCTTTTAATCCTACATTTTTACTAACTATTGGCAATATTCCACAATACATACTTTCTAATACAGCCATTCCTGCTGCATCACTTCTTGAAGGTTGTATATATATACTTGATTTTTCAAAATATTTTCTTATATCTTTTTCATATCCTGTAAATATTATATTTTTATATTCAGAATATCTCTTTTTATAATTATTATATAAAATATCTTCTCCAATTATATATAATTTATAATCTTTATATTTTTTATTAAATCCTATAAAAGCTTCTATCAAAATATCAGTCCCTTTTATTTTAGAAGGTCCTCCTATTGTAAGAATTGCTTTTTTGTTGTAATCTATTTTTATATTTTCTAATCTTTTTGTATCTATAAAAGGATAAACAACCTCATTTTTTATATTTATATATTTATCTGCTATTTTTTTTATTTCGTAAGTAGTAGAGATTATTCCATCAATATATTTACAAAGCCACAATTTGTAATCTAAAACTATTTTTTTATCAAATTCTAAATCTCTAAAAAAAGAGTTCGAATTTATTGCTACTATCTTTATATTTTTATTAAATATCTTTTTTATAATTACAGGTAAACTTTTATTTATTGCATCCACTATATAAATATCTGCTTTTGGTATAAAAAAAATAGAAAACATTGAAAAAATTTGATGTAAAATAGCATTTCTCCTGATAAATTCTCTATCAAAAATAGGTAATAAAAAATACGAAAACTCCTCTACTCCTACACTTTTAGCAAACTCTTTATGTAATTTATGTGCTTTTTTTTCAATATATACTATTTTTAAATTATCCATTAATTCACTTCCTATTTAATAATCTATTTTTTATTTTTCCCAATTTAGGAATTATATTAAATATAATTGGGGAAGTAGAATATTTGTTATAGTGATACTCCTCTCCACCCCATCTTCTTTTAAATATAGTTATACCATCATCTTTTTCTAAACTTATCCCACCTAAATCAAAAAAACTATATCCATTTTCTTTCCCAAATAGTATACTTTCCCAATATAAAAGATTGTTTGGTTGAGATTTATAATATTCTGTTTTAGAGAAATTATAATTTAATTTTATACTATTTCCAAAACAAATTAATATACTTCCACCAATAATATCATTCTCTTTTTTTATAATCAATAATTTTTTAATCTCTTTTAGAGAAGAAAATTCATCAAAAGAATGTATATTCAATTCTTTTCTTATACACATCTCTTTATAAATCTCATATGCCTTCATCCAATCTTCATTTTTTTCTACAATTTCACAATATAACCCATCTTTCTTAGCTTTATTAATTCCCCATTTTGTTCCTTTGTTTAATTTTTTTCTTAACTCATCTTCAGATTTAGTTATATCAATAATTATAGTCCCTATTTTTTTTGAATATTTAAAATATTTTTGTAATAACCCTTCAAATTTAAAATTTACTCCGCCTATAATTATATTAAATAAAGGGGCTTTAAATAATATAACTTTTTTTAATTGTTTTATTAGTAACTCTACCACATCAACTCTATCATCTAAAGCAAATATACCTCCAACTAAAATTTTACAAAAAATAAAATTTAATTTTAAAGCATAATATAATCCACCTATAAATTTGCCATTTTCATATGCCCCTATTCCATAAACTTTATAACCTGTTTGTAAATATTTTTCTTGATAATCATAAATAGAGTCTATATCTTTTCCAAATTTATATGCAATATAATCCCATTCTTCTTTATTTATATTTTCATAATTTAGTATATTTACCGTTATATTTTTCATTTTAGCACCTCTTTTTTATATTATGGCGTAACTTATTTTATGCAGAAATTTATACTTTCCTAACAAATAAAAATGGATAACTCTATTCCACTTCCTACTTATCCTTCCCTCTTCTCCATTTTCCATTCACTAATATTCTTCTTTTCAGTATCAAAATTTACTCCTACCAAATATATCTCTTTCCCCATATCCATATATCTCTTGGCATATCCTTTTTCTCTTATCTGTTTTATTGCAATATCCACATTTTGATTACATTTAAATTCTACTATATGTATCATATCCTTTGTCTCTATCACCATGTCTATTCTTCCTTTATTTGTTAATACTTCTGCATATACTCTATATCCATAATCTTTCATTAATATATTTATCATATAAAATATACTATGATAATATAATTCTCGTTTTTCTAAATCCTTTGATATTAAGATATATGGTATCTTCGCAAATAACCCTTTCATTAATTCGAAATATTCCTCATATTCTCCTCTCGCAAAATGTCTCATCATTTTTATTGAAGTTACCCCTTCATTTTTCCCTACATAACTTGATATTAATTGCTCAGTAAATCCTTGTTCCACCTCTTTATTAGGATACCCTAATTTATATATTCCATATTCATAATCTTTTATTGTTAAATATCCCGTTTGAAACATCAATGGCTCTAATTGTAATCGTTCTATATCATAAGCTATTATTGAATTCTCTTCTAATTCTAAGTTTTCCATTTCTGTTACATCATAATTCCTTGCTTTCATTAGATTTACTAAAAATGTTGGCGTCCCACTTTCAAACCAATAATTCTTTAATTTTTTATATATACATAATCTCCCTATTGAAAATGGATTATATACACTATATTCTTCTTCGGTAAATCTAAATCCATTATATTTCTCTTTTATCTTTAGATACATCTCTTCTTTACTTATACTATTAGATTTCGCAACCATTTCTATATATTCATCAAAATATTTATGTAACTCCTCTTTAGTATAACCTAAAAATGTTGCAAAGTCTTGATGTATATCTAATTCTATTAAATTATTTAATGTTGAAAATATTGATACTTTGCTAAATTTACTTACTCCTGTTATAAATACAAACCTTATATAATCCTCTAATGGTTTTAAATTATCATAAAACACTTTTAGTATCTCTCTATTGGCTTTTCCTATATCTAACTTTTCCTTTTCTTCTCCTAAATGGCTTATTATTGGTTTGTCATATTCATCTACTAATATTACTACTCCCTTTTTATATTTTTCACTTAATTTTTCTATTAAATTTTTAAACATATTTTCCGGATCATCTAACAGTAAATCTATTTCATATTTTTTAGAAATTAACATTAGTTCTTCTTTTAAATTCTTTTTTAATTTTTCGCTTGTATCATTTGCTATTCTATTAAAATCCAACTTAATTATTGGATACTCATCCCATTCTCTATATTTACCCTCTATATATAGCCCTTCAAATAACTCCTTCTCACCTTTAAATAATGCCTCCAATGTGCTAACTGTCAAACTTTTCCCAAATCTTCTTGGTCTTGATAAAAAATAATATTTCCCCTTACTTACCATTTCGTATATATATTGCGTTTTATCTATGTATAAATAATCATCTCTTATTATTGTCCCAAAGCTTGACATATCTACTGCTAATTTTTTCATCTTTTCAACTCCTTTTTAATCCTAAGAAACGTTTAAAAAATAAGTTTCTTATATTTTGTTATAAATATGCTTGAATCATTGCGTATTTTAAAACAAAATAGAAAGGTTATTTTTAAACCGTTCCTAAATTATTCTTTCAAACAGACACATAGCTTTTAACCTATATCTTACATAAATTTTGTGACTATTTTAAATTTTGACAGAATCATCAAAAAATTTCTTCCTATTTTCCCTATAATATAAGATATAATATGGTTAAACAACAAAAAAATAGTTTATATCAATAATAACTATTTTTTTGTTGTTCGAACATATTCTAATTTGATCCCAAAAATAGTTTTCTAAAATTAATTTACCTATCAATTGAATAAACTTCAACTGATAGGCTTAATTTTACCATATCTTATGATTAGACCCCCAAAAGGTAGTTTTCTAAAATCATTCCATTATATATAGTTTCGTAAAAACGCTCGAACACTCTATATAGTAGTATGAAGAAAAATAAATACCTTTTTGTGGGGCAAACATATCTATATTATTCTAATTTCTATTTAAATTCAACCATATTAATTTTGTTTATAAGCTCAGTATTACTCTTTCTTCCTCCTGCAGCCCACAACTTATTATTAGTAAACGCAAATGCTGGTCTTCTAGAATAATAATTTTCAAATAAATCTCCGTCAAATACTTTATAATCTCCTGTAATTAAATTATATTGTCCATAATTTCCATTTGAGGTCTCTATATTAAAAATATATAAATAGTTTCCTTTTTTTAAAATATATGGAGAATAATATCCAATTTTATAATTATCTTTATTTACCACCAATTTAAAAGTTTTATCACCTGCTAAATCTATATACCATAGTTCTCCTTTAGAAACTAAATATACCTTGTTCGATTCATAAAATACAGCCGTTCTATCTAAGTCAGGAATATTTAATATATTCGTTATATTATTCTCTACTCCAGTTAAAGCATCTATTCTCAATAATCTATTATTATCTTTTTCAAATTTACAAAAATATTTATTATCCATTACAAAAGCTCCATCTCTATAATATTTAAATGAACTATTAACGTTTAAATAAGTAAATTCACTTGTAGTTAAATCTAACACTGTTATTTCATTTAATGAACCTCCTCCTGGGATTACATAGGGCGAAATATATAGCTTCTTATTACTTAATAAAGCTATTCCAGCATAACCTCTTTTTTCTTCTGGAATAGTCGCAATTGTTTCCCAACTACCATCAGATAAATTAATTTTTTGTACTTTATCTGATGTCCCAGTTCCAGAATTTGTACTCCCTCCAAATACATATAGATAATTATCATTATTTGTATAGGCAGGTGCCATTCCTGTTCCATCAAAAGAATATCTAGTTCTGTTTAAAATTTCCAATCCATTATTTGGAACAATGTTAAAACTCCATATACTGCTTTCAGACTTTCCATTTTTATCGTCTTTAGCTACTACTTTCCAATAATACGTACTATCTACTAATCCAGTTACATTATAACTACTTGTCACATAATTACTTGCTACCATTGGTAAATATGTACTATCTACTCCCAAGTAAATATCATATTTCAAACTGTCTCCGTCTACATCATTACAATCCCAAGATAACGTTAAGTCTCCATTTGTCACTGTTGTTCCATTTTCTGGTATAGGATTACTTGGAGCTTCTGGTACATTATTTATTAACGTATTTAATATTATATTCTTATTCTCTATTCCTAATGCATTTAAAGTTATAGTAGCTTCTCCTTTATAAATATTTCCTTCTGCCATTAATGTATAATCCCCTTTTACAAGATATGATTTCAAATATCCTGCTGTTCCAAAATCTCCACTTCCTGTTATACCTAATAATTTCCCGTCAGCATATACTTTGGCTCCACTTACTGGTAAATTTTCTGCATCAAATACATTTACTCCAACCACTCCAAGAAGATTACCTGTTGCCACTGCTCTTCTTCTTAAATTCAAATCATAAGTTAAGCTTTGATTTTCTTTTCTTAATTCTACATTCTCTAGTATGCTACTTCCTATTATATCTTCAGGATTTTTTGAGGCATCATAAAATTCCATAGTCATTGTTACTTTATCATATCTATAATCGCTTAATGTTATTTCTGCTCCATAGTTTCCATCATTATTTAAAGTTAAATTTAATTGTTGTTCTCTAAGTCCATTCACAGGTCCCACTATCTTAAAAATAGATTTCAAGTTTTCAATCCCATTTACTTCTTCTATTACTTCTTTTGGAATATTAAACTTAAATATCGCATCTCCTCCATCTAATGTTAAATTAAATACTGTTTCACCATGTAGTGGTATCAGATCCATATCTATATCTGTCAATCCCAACATCACATTTTCCTGTGTTTCAACAGATTTACCTATTTGAACTCCATCATCATATAGTTTCAGTTTTATATTATGTTCTCCCATATTTAAATTTATATACTGTTCTGTTATCCCTATTTCAGGGTTTATTGCAAATTGAACTTCATCTCCATTATCTACTATCATCCCTATTACCGGATTTTTCAGAACAGACAATTCTTTTGTATCATATTTTAATTTCAAAGAAGTAAGCTGATTCATATTTATTGTAGTAGATGTTTCTCCTATTACTGGTTTAAGAATTAAATTTATATTATTTGTTCCATCTATTATTATCTGATTTAAAGCACTCCCTATATACTGATATCCTCCACTTGTGAATATTAACTCTATATTATATGTTCCAGGAGATAGAATTATAGTACTATTTGATTTTGCTACAAAATTTTCTTCATCCAATGTGCCATACCAATCAAAAGTTTCTATTTTACTATTTGTTATATTTGTTACTTTCATTGTTCCTTTAACTGCTCCAGGTGCTCTCATTGTTCTTTTTGTCACTACTTTGCTTGCTATTGTGGCTAATTTATAATTAAATGATAACTTCGCTTTACTTTTTTTTAGTTCTTTGTCTTGATTAAAACATCCTATGATTCCTAATACAAAAAGCACCACCATTAATATTTTAAATACTTTTTTCATAAAATCATCCTCCCTTTTTTATTTTGAATTCTATCTAATACTATAATAACCCCAGTAAAACTATTCTAATATAATTTTATCTTCATTAACTCTTCATCTCCTTTCATTTGAATTAAAAAATCATTATTTAACTATTCCACTATAATTAGTATACTATATTTCTCTATTAAAATCTATGAAATTCCATTTTTATAATAAAAATTATCCTCTCAAATATCGATATAACAATAATTTTTAATTGTCAACTTTCCATTATAAATTATCCTTTCCCACCTACCATCCATAAATTATGTCCAAAATATTTCTCAAATCCTTTAAACAATTCATTCACAATTTTAGGAAAACTAACAATTTCGCCCTCTCCAAAAACTTTATCTACTTTTATTCCCTCTTTTTCACACATTTTTCTAAACTCATTAAATCCATATCTTTTTCCTGAACTAACCATAAATTCCTCAAAACTTCTTTTATGAATTATATTCCCAACTAATCTTTCTAAATATTTAGGACAATTTTTATTTAATACAGTAATTAAAATAGTCCCCCCTGGCTTACATACTCTATAATGCTCCTCTATTGCTTTTTGTGTTTCAGGAAAATGTTCTATAACTCCTAAGGAATATACAAAATCAAAGCTATTATCTTCATAAGGTAAATCTCTTGCATCTCCTTGAATTACATTAGTTAATCCCCTCTTATGACAAATTTCAACCTGTTTATCTGCATAATCAATCCCACTATAATCATAATCTTTCCAATAATAAAGCCATTTTCCACTACCTGCTCCTATTTCTAATATTTTAGAATTTTTTGATAATTTATTTTTCTCTTTTTCGAAAAATTTATAAATTTCTCTATTTTTATCTATCCCATTATTAAAATTATAATTGTTCCAATATTCTTTTAATTTATCCATAATTAATTTCCCTCTTTTCTTTTACTTATCAATTTAGCTGGTACTCCTCCAACTATAGAAAACGGTTCTATATTCCTTGTTACAACTGCTCCAGCTCCAACTATAGAATCTCTACCTATTTTTATCCCAGCCAATATAGTTGTTCCTCTTCCTACCCACACATTATCTTCTATTATCACTTCTTTATATTTATATCCCTGAAACTTTATTGGAATATCTATTCTATCATGATTATGAATTTCATCTGTTATATACACATTTGGAGCAATCATACAATTTTTTCCAATTTTTACTTTTTTTTGAGAAACTATAAAACAGTTCGGATTTAAAGATGTATTTTCTCCTAAAAATATTTCCCCTTTTCCACCTAAAATTACATTATCTTCAATTTTAACATTATCTTCAATATATGTATTCCAGTTATCAAATCTAATATTTTTTCCTATTTCTATTTTACTTCCAAAAAAATTCCATTTATAAAAATATTTATAGAAATAATAATTAATTAAAATTTTTATCTTTCTTTTTAGAATTTTTTTTGCCCTAAAAAATCCTATTTTTTTTATAATTCTCATCTTCCACCACCACTCTTTTAAATTCCTCTGTCTTAATTTTTTTTGTATATTTTTTTACTTCATTATAATTTTCTTTTATTATCTCTTGTTTCTCTTTTTCAGAACTCAAATATATTTTTTCTATATATTTTGAAATATTTACAATATCATATAAATCACTACTATGTATTAATTTTTTATTTACTATATCTCTTTCTCCTACTTTATTAGATATTAATGGTATTACTTTCATATACATTGCTTCTAATATTGAAACTGGATGTGGATCATATTTTGCCATTTGTAATATATAGTATGACTTCTCTAATATACTACTAATATCTCTAAAATTAACTTTACCCAAAAATCTTATATTTTCATTATTTTTTATTAATTTTTTTACTTTCTTTTCAAGTTCACCAAACCCTACTATAACCAATTTTGTTTCTTTATATCTTTTATTAAATTTAATAAAAGATTTTATAATATTTATAATATTCTTCTCTTCTCTAAGTTGTCCTATATAACAAAATAAATTTTTATCTTTTTTATTTATATTTACATTATTTTTAAATTTCTCTATTTTAAAAAATGGATTAACAATATCTACTTTTTTATCTTTAAATAATTCCTTAATATAACTTTTATTTAATCCTGATACTGTTATATATCTATCCACACTTTTTAACAACTTATATAAAATTTTACTTCTCATATTTTCTTTATCTTCACAAATTTTATAAAATGTAGTTGAGGCATCTAAATATATTATTTCTGTTCTTTTTATGCTAAAACATTTAATAATATTTGCAATATAAACTCCAGTAGCTCCATTTAATATTAATTTATCATATTTATTTAAAATATTTAATCCCACAAAAAAAGTATTTATTAAATTTATAAATATATTTCTATTACTATAAAATTTGTCATTAATAAAATCAGCATTTACCCCTTCTCCAAAAGCTTTATGAACAAAATGTGGCCTTATTCCATCTAACAATGTTACAAATCCTATTTTTTCTTTCTGATTATAATATTCTAAATAATCTTCTATAACTTTTTTATTATCTATTAATTTTATTCCATTTACTTTTTCTAAATATTCATTATAATTTTCTAATATATATTCTATTTTTTTCTCTAATTCATTATTAGCATTTATTAAAAATTCATTCCCAAAATATTCACTAATTCCACCTATATCTTTGGAAATAAAAATAGTTTCACATTGCAAAGCTTCATACAAGCTTATTGGAACAGAAAAAGTATTGTGTGCTTTTTGAATTGGATATATATATATCCAAGCTCTTGAAAGCTCTTCTATATTATCAACTACCCCTTTTAATTCTATATTAGAAACTCCTTTGATTTCCTCTAAAACTTCTTTTCTATCCTCACCCAATCCACTATCTGCCAAAACTAATTTTAAATCTGGGTACTTTTTCACTAAATTTTTATAAGCATTTATAACTTCAAAAACTCCCTTATATTTTGAAAAATGGCTCATAAATAGTATTGTTGGGTTTTTATTTTTTTCTCCTACATAATCTATATCTTCTATTAATGGCTCTATTTTTTTTATTTTCCAAAATTTAAAATATTTCTCAGCTATCTTTCTTTGATAATCTGTCTGTATAAATATTCTGTCTATTTTCTTATTTATAATTTTAACCATAAAAGCAGATAATTTACTCTCCCAAAATTTTGATAATTCTCCATCAGTTATTGTAATGAAACTTTTTTTATATTTAGCAAAATTTACTACAAAATATAAATCTGGAGTTGGTGCAGAAAATATATGCAATATATCTGTCTTAAAAAAGCTAATATTAAAAATATTCCCTCTTATTATCTCTATTCCATCTTTAATTTCAACTCTTTTTTTTCTCTTGAAATTATACTTATCTTTATAAGTACAATAAATTTTTATTTTATAGCCTCTTTTTTTTAGTTCCTTTGCTTGAAGCCAAACTTGTTTTCTCAATCCTTCTCTTATTGGAAACTCTATATCTTGTGGAATAAATAAAGCTATCTCCATTTTATCACCAACCTAATTCTATTAAAATTTTTCTCCATATCTTATTGATTATTTCATCTACTACAACATCTATATCTTTGTCATTTTCAATTTTTATAAGATTAAAATCATTAGTTAAATCTAAATATACTCTAATTTGTCTATCTAATTCATCTTTTTCAAATTCTTTCTTCCGTTTTAATATCTCAGTAGATTCTAAATATAGATATATTATCGTCATCTTTGGATAAAACTTTTTAAATAATCTTTTTAAAATACCACTTTTTAATGCCAATACATCTTGTGCAAATACATCTATTGGATGTCTATCTAAAACAACCAACTTACTTCTCCTCGTATATGAATACACTTGAAAAAAATATCTAAAAAAATATTCAAAAAAATAATTTAAAAATACAATGTTTTTCACAAATGATACTTTTTTATTTTTAAATTTTTCTACTTTTTTTACTAATTCTTCTCTTTTTTTCTCTTCTGATTTTTTATTTAATAAATTTAATATCTTTGTAGTAATCAAAAATGGTTTCCACCCAAAATATATGTAGTTACCCTCTACCATACCACCTAATTTAAATTTTTTCATAAATAATTTTGATATAGAGCTTTTCCCACTTCCATCTGGTCCTACAAATGCTATTGCTGTTTTTCTATTTTTTATGGTGAAGACTCTTATTATCCATTTTAAAAATCCTATAGCATAATTTAAAATATTTTTAGGTTTCCTCAAAAAATTAAAAATATAACTTTTAATTATCTGATTTTTCAAATAATTTATATCTTCTCTTTTTTCTATTTTTTCTTTATAAATTTTAAATGTAGATAACCAGCCATAATTCTCGATGTAATCCATAATCAGTTTTGTATCTATTTTACCTACCAAATAATTTAGTCTTTCTAACTCTTTTTCTTTTGATTTCCTGTTTTCAAAAATATTATGTGCTAAATATATTACAAACTCTCCATTTTCATTTGGAATAAATATATCTTTTTCAACTTCAATTCTATTTTCTAATATTAATTTCTCATCTAATACTTCTACTCCGTCCCAACTTATCTTTTTGTGCAAATGAACACACATAAATCCTTTATTTTTTACATATTTATAAAATATAATTTTATTCTTTTCATAAAATTCACTCCTAAAAACTACAAATCCATCTTTTACTAACAACTCTTTTATATTATAAAACTCTAATTCTTCAACCAAAACATCTATATCTACAGCCCTATATGGATTATAATATGGAAATTTTATCAATACATATTTATATTTTGAAATTAATTTTAACAGTTCTCTATACTCTTCATTTAATTCACCAAATATATCTCTCATATTAACTCCTCTACCTTTTTATATACTTCTTCTACAGTTATATTATCCATACATTTCCCACAACTGTTAGTTTCTTTATATTTACATTTTGATAATTCTAATCCATAACAATTATTATATTTACCTTGAATTATCACACTATTTTTATGAAAAGGTCCCCATATATTTCCATTAGTCGGTCCATACAAAGCTATTAGCTTTTTATTAAGGGCATTTGCTATATGTACTGCCATTGTATCTACAGATATTAATAAATCTAATTCATTAATAAAATCTATAATTTCATCAAGTTTAAAATTTCCTGCAACATTTATTACCCGCTCATTTATGACTAAATTTTCTATTTTTTCTTTATCCAGTTTTGAACCTAACAAATAAATTTTTACATTTTTACTGCTTTTTAAAATTTTTAAAATTAATTTGTTCCACTTATCTAATTCCCAATTCTTGTTTTCCCTTCCTGAAATAATTTGTAATCCTATCCATTTTTCATCTTGTTTATCTTTTATTATTTTACTTTTACTTATTTTTAGTTCTAAACTTCTATCAAATATTTTTCCTCCAATATTCTCTAATAAATTCAAATTTTTTTCAGTAATATGTATTTTTTTTTCATTATTCCAAAATCCCTTTGTAAGAAGAAATCCTAGCCCTCTATATTTATACCCTATACTATTTTTTGACAATATCCTTAATAGTATTATATTAAATGGCGATGTATGTAATTCAAATCCTAAATCATATTTTTTATAATTTTCTTTTAGAATTCTAAAAAGTTTTTTCCACTCTATTTTTTCTCCTCTATTTCCCCATAAAGTATTTATTGGAATCATTTCATCTATATATTCACATCTTTTTAATATTGGTATTGTTAATTCTCTACAAATTACAGTTATTTTACTTTCTGGATAATTTTTCTTTAAATTTTTAAAAAAAGATGTAGTTAAAACCATATCTCCAATATGGTCTAATCTTATTACAACTATATTTTTAGGATGCTCCAAATATATTTTATTTTTTTTTCGTAAAATAAAATTAGGTATAAAAAATAGTATATTCCCAATTATATCAATTAAAAGTAATATTAATTTGAATTTTTTTTGTACTAAATACTTCATTTTATCTCCTCACTTCATTAATGTCTATGGTATTTCTCTTATTCTTCTAATTAATACTCTTCTCACTAATATTCTTTTCTCTTATATCATCTATTTTTTCTATAAATCTACATTTTTCTCTTCTATAACTAAAATACCTTTAAAACTTTATCATTCTTTTTTAATACATATAAATTCTATACTTCTAAACCACAACCTCAAACAGACTTTTCCCATCAATCTCTACCTTTTTTTCCTCATACTTCTTCCCCTTATTAAAATTAAATATTACCAAATATCCCTTATCTTCTCCTTGCCCATCCAAATATCCAACTAACTGCTTTAACCCTTGTTTTTCCATCTCTTCTCCATGCCATATCTTTAACTCTATTATATATTTTATTTTATTATATACTACAACTATATCCATTCGATTATCTTGCCTTGTTTCAGGCTCTACAAAATAAAATCCTTCGCCATTTATTATTGGTTTCAGAAATGATAAAAACAGTAACCTTCCTTCTCGTTCTATAAATTTCTCATCTTTATCTCTATATTCGCTTTTCATAAATAATTGAAATTTTTCTAATATTTTTTCCATATCTAATATATTATTTTCTTTTATAAATTGATTCCTATTAGGTGTTGTTTTTATATGTCTATTTACAATCATATCTCCTATCATATGATTGTATAATAACACTTCAAATATTTTATTACTTATTACAACTTTCCCTTGTTTTTCTATTAATATTCCATACATTACACCTATATCTATTACTTTATTTGTTGAAAAATATGGAACTTGTTCTCCTTTTAACATTAACACTCTTATTAATTCATATAACTCCCTATTATTCTCTATATTCTTTATCACATCATCGAATAGTGTATTTTTCTCATTTAACAACTTATTTATTGCTTTTCTCAACCCTTCTTCTGTAAACTCTCTATTTAACTTCTCATCTATTATTTTACATAATTTACTCACTAAAAATGGATATCCTGATGTATAATCTCTTAATAAGTCTGACATCTTTTCTATATCCATTCCTGTTTTATTATCCTTCTCATAATCTATCAACATACTACTTATCTCTTCACTACTAAAACTCATATCTATATCAAAATCCGCTGCTATATTCCACGGGCTATTATATATTCTCTCTTCATCTTTTCTATATCTTAATTTCAAATTTTTTATATCATGTACTCCTGCTAATATCACACTATGAAATGTATAATCTTCACCCCTATCTCTTCTTAAATATTTTTCTCGCAACATCCCTATAAAGTTCAAAAATAGTTTATTGTTACTACTTTTATCCACCTCATCTATCATTAATGTCACTTTTTCGCCCACTTCTAATACTAAATCTGTTATAAACTCATCTAACTCTTTTATATTATTTATATTCCTATAATCTTCTATAAATTTTACTAACTCCTTATATCCTTTTACCTTTAAAAATCTCTTTATCATTTGTACGAATGTATCTATAAATTTGTCTTCACTTTCAAAACTAGATTCTCCTACTCCTTCAAAACTTATTGATATTACCAAATATCCTTCTTTAATTATTTTCTTCTCTAATAAATACATTGTTGTTGTTTTCCCATATTGTCTGGGTCTATTTATTATGAAATATTTTTCTTTTTCTATTAATTTTATTATTGTTTCATCTATTTTTTTACTTGTATCTACCATATAATGTTTAGCTGGTATACATATCCCTGTTATATTAAATTCTTTCATAAAATTAATACACCTCCATCTTTAATGTATAATGGAAAATTGTTAAGTATATCTCCTAAAGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTATAACAAAATGGGAATGTTATTTTTAAGCCATTCCTAAACCACAACCTCAAACAAAATCTTCCCATCAATCTCTACCATTTTTTTCTCATACTTCTTCCCTTTATTAAAATTAAATATTACCAAATACCCCTTATCTTCTCCTTGTCCTTCCAAATATCCACATAACTGCTTTATCCCTTGTTTTTTCATCTCTTCTCCATGCCATATCTTTAACTCTATTATATATTTTATTTTATTATATACCACAACTATATCCATTCGATTATCTTGTCTTGTTTCTGGCTCTACAAAATAAAATCCTTCGCCATTTATTATTGGTTTCAAAAATGATAAAAACAGTAACCTTCCTTCTCGTTCTATAAATTTCTCATCTTTATCTCTATATTCGCTTTTCATAAATAATTGGAATTTTTCTAATATTTTTTCCATATCTAATATATTATTTTCTTTTATAAATTGATTTCTATTCGGTGTTGTTTTTATATGTCTATTTACAATCATATCTCCTATCATATGATTGTATAATAGTACTTCAAATATTTTATTACTTATTACAACTTTCCCTTGTTTTTCTATTAATATTCCATACATTAACCCTATATCTATTACTTTATTTGTTGAAAAATATGGAACTTGTTCTCCTTTTAACATTAATACTCTTATTAATTCATACAACTCTCTATTATTCTCTATATTCTTTATTACATCATCAAATAATGTATTCTTCTCATTTAACAACTTATTTATTGCTTTTCTCAACCCTTCTTCTGTAAATTCTTTATTTAACTTCTCATCTATTATTTTACATAATTTACTTACTAAAAATGGATATCCTGATGTAAAATCTCTTAATAAGTCTGACATCTTTTCTATATCCATTCCTGTTTTATTATCCTTCTCATAATCTATCAACATACTACTTATCTCTTCACTACTAAAACTCATATCTATATCAAAATCCGCTGCTATATTCCACGGACTATTATATATTCTCTCTTCATCTTTTCTATATCTCAATTTCAAATTCTTTATATCATGTACTCCTGCTAATATCACACTATGAAATGTATAATCTTCACCTGCGTTTCTTCTTAAATATTTTTCTCGCAACATCCCTATAAAGTTCAAAAATAGTTTGTTATTACTGCTTTTATCTACCTCATCTATCATTAATACTACTTTTTTTTCTGCCTTTATTATAAATTTACTTATTAATTTTGATAAACTCTTTAAATTATCTACTTTTTTTAATTCTTTATTTAAAAAATCACTCAATTCTTTCTCTTTATATTCTAATATATCTGCCATTAATTCTAATACTGTTTTTGATAACTCTTTCTCATTCTCAAAACTAGATTCTCCTATTCCTTCAAAACTTATTGATATTACTAAATATCCTTCTTTACTTATTTTCTTATTTAACAAATACATTGTTGTTGTTTTTCCATATTGTCTTGGCCTATTTATTGTGAAATATTCTCCTTCATCTATATATTTCAATATTACTTCATCTATTTTTTTACTTGTATCTACCATATAATTTCTTTCTGGTATACATAATCCTGTTACATTAAATTTTTTCATAATTTATCTCCTCTTTTTTTATAGACAATTATCAATTCCCAATTATTCTTTCATTCTTTTCTATCTTTTTCAATATTTTCTCTATGCTATCACTTTTTTTTATATTATTTGCATTATTCAAATATTTATACGCCTTTTTATAATCTTTAACACTATAATAAATTACTCCCAAATTATAATTAGCAATATAATTTTTATTATTCAATTCCACTGCTTTTTCTAAATTAGTCACACTATTTTTAATATCTTTTTTCAAAAAATATGTTTTTCCTAATTGTAAATAAAAATAATCACTTTCTTTTAATTTTAAAGCTTTTTTATAATACTCTATAGAATTATCATACTCTTTTTTTCTATAATATATATCTGCAATTCTGCCTAAAATATAATAATTTATTATATTTTCCTTTTCAGACTCTAAAAATATATTTAATACTTCATTATCTTTTTTTAAAATACTATACCCTATTTCTCCAATCCAATAATAGCTCTGCATAAAATATGGATTATTTTCTATTGATTGTTTAAACATATTATATGCCATTTCCAATTTCTTTTCTGTTTTCAATCTCATTCCTTCTTTATAATAAAATTCTCCTAATCCTTTTCCTATCTCTTTTAATTTTTCAATATATTTATCTCTATTTTTATAATCAACATCTATTAACGCCAAATATAACTTCTCATTTTTACTATCCTTTTTTTTAATTTCTTGTAATAATTTTAATGCTTTTTTTCCCTCTCCTTTAGAATTATAAATAAGTGCTAAATTTATCTTTGAATCCTCCATTTTTATACTTTTTTTATAATATTCTGTCCCCTTATCAATATCTCCTTTTTGTTGATAAATATATCCAAGTAAGCTATTTACTTCATCAGAACTTTTCATACCTATTAATATATCAAAAGCTTTATCTGTATCATTAAATTTTAATAAAATCTTACTTTCCAATATCTTTTTTCTTAAAGAAATTTTATTTTTTACTAAATTTAAAACTTTTAAACTATCTCTAAATCTATTTTTATCATAATACATTTCAGCTAAAATTAATTTAACATCATCCCCACCAATATTTTTTTCTATACTTTTTTCTGATAATAAAATTGCTTTATCTACTCTATCTGTATTTTTATATAAATCAATATAATCTTTCAATATACTTTCATGCTTTGGATATTTACTTGCAGCAATTTTTAAATATCTTTCAGCTATCTTATATTTTTTCTCTACAATAGCACTTGTACATAAATTTATCAAAGGTCTTTCTAAATTAGGTTCTTTTTTATGATTATCTTCCCACAAAGAAGTCATACTTAACCAAGTATAATTTCTTGCTACAGTTACTCCACCATAAACTACTCCTACTAATAACATTCCATATAATATTTTTTTTCTCTCTTTTAATAATAATATAAAAAAATAACTTATAACTATTGAATACCCTGCTACAGATATATATGCTCTATGCTCATATATCAAATCATCTATTGGTATTATTGTAGATGTTACTATGAATCCTATAAAAAATAGTAATACCCCATATCCTATTATTTTTTCTTTTTTATAATAATATATTCCAAATGATAATAACAGAACTAATATTATAAAAGGCAAAATAACCCACAAACTAAAAAAGCTATTTTCTATTTTTATATTATAATCCACTCTCTGTCCATATGGAAATATCATTAATCTTAAATATCTCAATATTACTTTAAATTCAGTTATAAAATAGGTATATCTTGTTAAATCTGTTTTTCCTGGATTTAATGCAAATGTTGAAGTTACAGTTGAAACTTTATCACTATGTAGCATTAAAGAATATCTTACTCTTAATATTAATGGTATAAATCCTGTCATATAATAAATTATACTCTGCCATTTTATCCCACCAAAAAAAAACATCTCATATAAAAATAAAGCTATTGGAAATGTTACCATTGTCTCTTTACTTCTTGTCCCTAATAATACAAATATTAATCCTACTATATAATATAAATATTTCCTATTTTCACTTTTTCTATATTTTATATAAAAATATAGCCCAGCAAAATAACACAACCCTACAAATGAAGCTAATCTTTGTACTACATATGTTACAGCTTGTATTTGTATTGGTAATATTAAAAATAATAACCCTACTAATATACTATATATTTCTTTGTTTTTGTTAATCAATCTATTTTTTATCTCTGTTTCTAATATTATTAAATATAAAAAATACGCACTAAATATATGAATTAACAGATTAGTTAATTTATATATAAATGGTGCTTTTCCTCCTACTAACCAATTTAATGCAAATGTAAAATATACAAATCTTCGGCTACTACTTGTATTTATATTAAATATACTTAAAAAAGCCCCTTTTATATCTTTCACTTCAGGATTTAATAATATAGAAGCCACTGTATCATATTGAAATGCTGAAAATAAAGCTAATAAATATACTGCTAAACCTGTTATTAAAAATATTAATAATACTCTCTTTTTATTTAATTTCAATTTTTTCCCCCTTAAAATAGTATTTAAGAACGTTTAAAAAATAAGTTCCTCATTTTTGTTATAAAAATGCTTAAACCATTGCGTATTTTAAAACAAAATCAGAAAGTTATTTTTAAACCGTTCCTTAATGATTATTAATAAGTTTACTTTTTAACAATCATGTGATTAAATCTCATCTTTTAATTTTTCTTTCTATTTTTCATTATCAATTGTCAATTATCCCTTCAATTATACCACATTTTTTATAATAAAAAAAGAAATTACGCTTTATATAGTAAGATATAAATATTTTTCTAAATTTTTAGCTTCTGAAAATTTTTGTTTTGAAAAATCGCATATTTCAAAAAAACGGCGTAGCTTATTTTCTGAATAAATTTATACTTTCCTAGTATATAAAAAAGCCCGCCTTAACGGCGAGCTCCTTTATTTTCTTTTAATTGCCAATTTTCCATTGTCAATTATTTATTCCTATTCCCAAGTAATTCCATCATCTCCTGTCATATTCTCTCCTGATGCATTTATAAAGTTAGTATTTCTATCCATTACTTGCTGAGTAGCTATAGAACTATGATTTGCACGGTCTATTGCATTAAATTCTACTTCAAAATGCTTTCCTTTAGCAAAATGCCCTATATCTGCGCTAGTACTATCAATACTATCACCTGTTGCAGTTGTAGATAACAATACTATATAAACTTCTGTTTTTACTGCATCTGCTGTAGTCCATGTTTGATCTCCATTTGTATCAAGGTATCTTACAGCATAATTCTTGATTTTATCTAATTCTACTGTATCACCTGCCGTAGTTGCTGCTAAATTACTAACTCCATGATTTGATACTTCTGTTCTTGTAGAGCCTGATACATTATAAACTTTTATAGATGTATCATTTACAGAAGATACTAAATTTCCATCTGTTTCTACTCCTACCCCACCATCTACTGGTGCTGCAAAATTAAATGTTGTAGTTGAAGATCCATTTCCTACTAATAATGGTTCATCAAATGTAAGTTTTAATATTTCTGCTGTACTTGTACTATTATCATCTAAATTACTAGATGATACTTCTAACCATCCAAATAGATATAAATCATCATCATTTCCATCCATTCTATCTGTTCCTGTCCTATCTATTTTATGATCTCCATCTGTATCTCCAACATTTGTGGTATCCATATCTAATACTGGTGCCCAACCTGCTTGTCCAGTTGTAGCAGTTGATGAATAACTATATAATTGTGCATTTGCTACTTTTGGTCTTCTCAAATCTATACCATCAATAGTTCCTCCAGCTAACGCATCTTTTTCTACATGAGTTCTATTTCCTGCATTATCTTCAAACCAAAAGTCAAGATTATACGTACCTGTATCTCCAGTATATCCTTGTGATGTAGTAACAACTTGATCTGCTAAAATTCCTGTATAAGCTGCTGCGGCACTTGAATCTTGTTTACCAGCATTTACATTTCCGCTTGTGAAACTAAATGACCAAACTATATTACTGTTTGCTGTTCCACCTGTATCTGTTCTTCTAAATCCTGGAATATATCCAGAACCTGCTATTCCTAATTGTGGTGCATATATTGAACCAACGTCACTTGTTTTATCATTGTCATGCACTTCATCTATATCTGCTATAAAAGTTAACTCATCATTTAGAGTTATCATATCATTATCTTTTGTATATCCATAGAAAGTTCCATTGTTAGCTTCATTTAATGTAACCGCAATATCGGTGTTATCTATTTCTGCACTACTAACATCTCCTATTACAGGTTGGCTATCTATAGCTGGACTTGCTGCTACAGTAGTTCCTGTTGAATCTAAATATGAACCATTTTTAATCAAATCATCATTTCCTACTCCTGCTGCTGTCTCATTACCATTCCAATCTTGAGCTGATACTAACGGTGGATTTACGTCATCGGCTCCACCAGTATCTATTGCTCCATCTGTATAATTTGTAGATGGTGCACTTGCAGCTTTTATTTCAAGATCATAATATAAGTAGTCATCACTATAATCAGAAGCTGTTCCATTATTATTATAACTAAATTCTACATTTTGTGCAGTAGGTCCACCTGCTGTTCCATCTATTAATCCACCTATATTTACTGTTGCAGTCATTAAATCTCTTGAAGCTGTCGCAGCTGTTAAAGTTGTTCCACCACTTACTGCAGTTACACTAGCTCCAATTGGTATTATTAATCTTATTTTATCTCCTAAACTAAATGTTCCTGTAGGTGCTTTATCTACTAAGGCTTGTACATACATTTCATTATCAACTAAGCCTGGTGCATCATCATCAGCTGTTACAGTAAATGCAAAAGATTTGTCACTTATTCCTTTCGCTACGCCACTTTTATCATCAGTTACTCTTGAATGTAAATAGTAAGTTCTTGTTACTCCTCTCAAACTTATATCTGGTGTCCATTTTAACATTTGAGCTGGTATACTATTTATAGTTTTACTCTCTGTTTCTATTTTTCCAGGATTAGCCACAATTGGTCCATCTGACGAATCCAAAGTTATATACCAATCAAAATTCAAACTATTTTTATCATCAGCTGCATCTGTTAATGTACTGTCTGGATAAAAACTTAGAGTTACATTTTTATATTCATCGTTTGCTCCAAAATCGTATGTTTCTGAACTTGTTTTCTCAACTATTGCTCCACTCCAATAGTCAGTTCCTCTTGCTCCACCCATTACACTTGCAATTGTTGGAGCTTCATTTACGCCTACATCTATAGCTGAACTATCTGTTCCACCTTTTAATACCCCTTCTGAATCTTTATCCATTACTAATAGATTAATATTAAAATGTCCATTTGTATATGGTCCATCAACATCTCCTAATGCAGTAGCTCCATTATATGGACTCCAATCTACTGCTGAAGTATTATCATAAGTTAATGTTCCATATTTCCCATTTCCACCTATTGTCCAGAAGTATTTAAAAGTATCTCCTGAATCAGAATCACTAACACTTGATACTAGTGTAACTGGACTTGTTCCTGATAAAATCCAATTTCCATTAGTTACATCTACTGTATCACTACCAGTTATTCCTGTTATTGTTGGTTCTTGATTTAGTTCTACCGAAACCTCTCTTGTATTTGTATATGTTCCATCAGTAATACTAACTATAAAAGTAGCTGTAGCACTTGATGGCATTGTTGTTGGTGCTGTATATGTCCAAACTTCTTGTGACACGCTATCTCCATCACTATCTGTTCCCGCTGTTAATGTCCCACCAGAACTAGTTTTTTCCACAACTGTTACTGTTGCAGAACTAGAACTTCCTTCATCTCCATATACATTAAGATTAACTGTTTTTCCTAAAGTTACATATGGCGGTACTGCTACTGATGTAATTGTAGGTCCATTTACTACTTGGAATTTAAGTATTACAGTATTAGCATAAGTTTTGAAATATACTTTATCTCCTGCTTCCCAATTACTACTTTCATCTATATCTATTGCCAACCAATCAATCGAGGCATCGCTTCCATCTGCTGAAGCTCCCCAATCAGAATCAGTTAGATCAATTGGAGCATTTGTATTATCTTGTAAATCTCCATCTCCATCTGTATTTGTTCCTGTTCCACTTACATATACTTTTATGTCACTACCTCCATAGCTCCAATAAGTACCTGCTGTTATATCTTTGATTTTAAAATATACTCCTGTTGTATCTGATGAAAATTCAAGCATTAAGTTTTTATCGTATGAAGTATATCCTGCTCTTGTTCCTATATCTACTTTTAAATTTCCTGCTCCTATATCAGCTCCATCTGCATCTACTACTTCAGTTCCTACTCTATAATAATCCCAAGGCCCTTTTATTGCTCCCTCGTCTACTAATTGCTCCGTACCATCATTTAAATGTAAAGCTAAATAATGATAACTCGGTGTAGTTCCTGTAGTATCAACTGTTGCACTTGGTTTTATCTCTACTGGTACATTTGATAATGTAGTTGTATAATCATTAGTAAATGTATAGTAACTTGGTGAACTTGTACTTGTTGGATCATATATATCAGTTGCATTACTACTTGCAATCGTCCAGCTACTATCAGCTGAAGCTCCATCAACTAATGTTCTTGATAAATCTATTCCTGCAGTTCCTCCACCTGCTCGTCCTGCATCATAAGCTTGATTTGCAAAATATCCAGATGTACTTGTTAATGGATAATTTGTTGTATCAGGACTAACTCTTGTATTATCAGGATCACTTACTGACATTGTTAAGTTAAATTTTTGTCCTGGTGATACTTGTACTGTACTAAGTGTTGTTCCATCAAATAAGCTTTGACTATTCCCTTGTGCATCTGTATAAGTTATTCCTGTTAATGAAGGTAACTCATTAACATATACAGTATCGCTAGCATAAACAACTTGATTGTTAGGTGATGTTCCTGAATCTACTGTTGCTTTTAGAGTCTTAACTCCACCTCTCATCATATATTTATACCTTGTACCATTATCTACCCCTTCTGTTCCTGGATTAAAATCAAATGTTCTTGTTGTAACTCCAAAATCTTTTCCTGTTGTCCCTAATACTTTTGTACTGTCAATTTCATTATAAACTGACCAAGTTTGTATTATTGTTGTACTTGGAGCACCTGTATAATAGTAATATGCATTGTTTCCCATTAGAGTATTCATATCAGATGAATTTGATATTGGGATTGATACTTGAGAACTATTAACAGTATCTGTTGTTATATCATAATTTGCAGCATTGCTTCCTGTAGCTTCAGTATATTTAGCTGCTTCTGTAGCTCCAGATACTCCACTATCTTCAGCCACTACTGTCATTGGTGTTGCTATTGCTATTGTAAACATCTCTTCTGCATTAGCTCCACGACTATCTACTAATTGAATTAACACCTCAGTTGTCCCTGTACTGCTTGGTGCTGTAAAATCAACTGTACCTGTTGTATTAGTTGACTCTGCTAAAGTTCCACTACCTGTTAATATTGAATAATTATAAGTTATTGTATCTCCTGTGTCTGCATCACTTGCAGTCACTGTTATAGTTCCTGTTCCACTTGGTGCTATTGTATTTGTACTGCTTCCTCCACTAACTGATAAAGCAACATTTGAAATAGTTGGTGCTGTATCAATTATAAATGTTATTGTAGCAGAATCAGAATCACTGCTATCATTAGGATCAAATACATTAAATACTACACTTGCACTATTTCCACTTGGTGCTGTACTTGGTGCTGTATAAGTATATGTATAAGTATATGTTGTTCCATTATTACTTGCTCCAGTTTGTGTCAAACTACCATAACTAAAGTTAGTAGATACAGCATGACTATTATCTGTATCTGTAAATACTAATGTTATTGTAGCTGTTTGACTTGTTTCCATAATATACTTTGTTTGTGTTGTTGAAGCATCAGTTACCGCTAAACTTCTTTGTGGCCCAAAAGAATTATTTGGTACACTTTTTACCACAGTTGGAATACTTCTTAATACTATTCCACCTGCTGCTGGATCTTTTTTTACTCTTATTGTCCAAGATGCTGGATCTGACTTCAACCCTTTATCATCTACAGCTATTGCTGATACTTGATAGTATCCTGGTTTTGTAGGAGCTGTCCATGTCCCATCTGCTGCAAAACTTCCTCCAGTTGCTGTATACTCAACTGTTGTTTTCCCACCTTCTGGGTCCATTGTTGTTGTTTCAAATTTAACTTTTTGCCCTCCGTTAACTTCAGGACTAGTTAAATCTTTAGTGTTAAAATATGTTACTACTGGTCTTTTATTTGAATTTGCATTATATGCTGGGTTTGTTGGTGTTGGTGTTGTATCTGGGTTTGTTGGTGTATCTGGTGTATCTGGGTTTGTTGCTTGCCCTCCATTACTTTCTACTACTGAAGTAACATTATTTTTTTCGCTAGACTTATTCAAACATCCAGCTGTGGTTAAAAATGCTGCTACTAAAAAAATTACACCTAGTTTACGTATTATCTTTTCCATCTCATTGACCTCCTTTTCTTTTTTTTCTTTCTTCCATGAGATTTTCTTTACACTTTTACTTCCCTAAAAGCATTAATCATCAGCTATCTTACGACGTTCCCCTCGTCACCTCCTATAAAATGTTAAACTTTGGCCGGCTTAACTGTAAAAAAACTTTTTACTATTAATATTTTTCGACAAAACAAAGCTAATCCTTTAGCTTTATTTTAAAAATATTTTTTTATTTCCGATACACTCCCACGTTATAAGTTTACTTCATTTTTGAGTAAAAAACAACCTTTATTTATTGAAAATAGAATTATTTATAACCATATTTTAGATTGTTTCTGAAATTTAAACTATCTTTATCTGAAATTTTAACTTCTAAAAAAATAAACTACGCCTCATATAGTAGAGCGTAGCTTATTTTTTTATTACTTGAATAAAAATGGATTCTACCCTTACATGAATTCCTATTTATAACACTTTTTACTCTTCTTTGTGCTGAAATTATTTATTGCTGAAAACTATTCTAAGTTTGATGACGTTTTACCTCTCCTTTATCATTTCCAACACTTCTTCAGATTCTATCTCTTGCATACACTTATAATTATTGTTACATTTTGGTATTCTACCCCACAAATCATAACATGGAGTACATTTTAAATTTTCCTTCCAAATATATGAGCTTCCTTTATTTAATGGGGCTTTTTCTATAGGATTTGTAGGTCCAAATATTGATATAATATTATTATTAACAGCACTTGCTATATGCATAGGTCCAGAATCATTACATATTATATAGTTGCACCTCTTCATTATTGCTGCACTTTCTTTTATAGATGTTTTTCCAGCTAAATCAATTATATCTACATTTTTTATATTATCTATAATTCTTTTATTTATTTCTACATCTTTTTTCCCACCAAATAAAATTATTTTGATCCCTTTATTTAGTAGCTTTTTTATAAGTCCTGTATATTTATCTATACTCCATCTTCTTAAACTATCATCTCCAACTGCAGGATTATTCGCTCCTCCAGGGACAATTCCGATTACTTTTTTATCCTCTAATTTCATACTCTTAAAAATAGTTTTTGCGAAATATATATCTTTATCACTTAAAAAAATATCCATTTTCACATCTTCTTTATTATATTCCAACCCAAATAAATTTAATATATCTAAATAATAATATATTTCATGTTTTCCACCTACATACTTTATATTTTTATTATTATATTTTCCATCTCCATATCTATCAAAACCATATCTTTTACCACCTATCGCCATAGCAAATAATGATGCTAATTTATGTTTATCAAGTACTACTATTGTATCATATCTATTTTTTCTCATTTTTAAAATAGTTTTTAATATATATATATAATCTTTTTTCATAAATAATTTTTCTTCTGAAAATGTGTATAAATCATCAATATATCTATTATCTTCCAATACAGATTTACTCCAATTTCCAACTAAATAATCAAGCTGAATATTTGGCATATTTTTTTTTAATTCTCTAATTAAAGGTGTCGTCATCAATACATCTCCTATTGCTCCTGAACGTATAATTAATATTTTTTTCATATTTCACCTCTTTATTTTTTTCAATAAATCTCTACTTTGACTATCATTGATTTTTTCTAATATTTTTATAGCTTTCTCTTTTTCTCCTTCTGTATATATTATAAGTGCATAATTAACCATTGCTGTTGGAATAGTTTTTACTTTTAAGTATATTTTTTTTGCTTTCTCTAATTCTCCTAATTTCTGATATGATAGTCCCTCATAAAATAAAGCTTCCTCACCTACTGCTCCTTTTAATGAATTTAATGCCAACTTTGCTTTCCCTTTTACTAAATAATATTTCGCTTTCAAAACTTTATATCTTGTTTCCTCATAATGAAAATCTTTTAATTTTTCTATTACTCTTCCTAATTCCTCTATTCTATTTATTCTAAAAAAATATTCTCCAAGCATAATATACCCATCATAATTAGATTTATATTCTAAAGATTTTTTAGCAAAATATGCTGCTTTTTCAAACTCTTTCTGTCTATATGTAATCATTGATAAAATTAAATATTTTCTATAATCATTATCTTTTAAGTTTTTTATAACTTCTTTCCCTTTTTTCATTTCATTATTTCTAACAAGATAATTTGCATAATTATAAACTATTCTTGGTTTTTCTCTATTTTTCAAAAAAATATCATGCCATAAACTTTCTCCAGTTCTATACACTTTATTTCTATTAATTGTGATAAATATTAATATTATTAAAATTGGAAATAATATATAAGCTGTCTTATTTTTTATATTTTTCATTATTTCTCCTTTATTTTATGTTTTATCTCTCTAAATAGTTCATTCACTGTAATTAATTTCATACATTTATAATTATTTATACATTCTTTTACCTCTCCTAAATGAACATTTATACAAGGCGAACATTCTACTTTATGATACAATGATATATTATTATCTCCTAACGGCCTAAATCTATCTGGTAAATTTGCTCCAAATAATCCAATTGTATCTGTTCCCATTGCTGCTGATATATGCATAGGTCCTGTATCATTTGCAATATAAATATTTATACGCTCTAACAAATAAAACAGCTGTTTTATAGTCAACTCATTTATTAAATTTATATAATTTCCTTTTAAATTTTTTTCTATTTTAGAAAACAGTTCAGCTTCATAATTGGTTCCTGTAAAAATAATTTCTACATTATTATATTCTGCTTTTATTCTATTAAATAATTCAGCAAAATTTTCTTCATTCCATCTTCTTCCTAATCCAGTTGGTGCACTTCCTATATGAAATCCTATTAAAATTTTATTATTTATATTATATTTTTCTAATTTTTTCTCAACTTCTAATTTATCTTTTAATTCATATTTTAGTTTTACTAATTTTGTGGGGTAATTTTTCTCTTTAATCAAATTAAAATATACTGCCGAACAATGAATTTTATCATTATATAACAATTTTTTATCATATATAAATTTTCTTTTCCCAGTATTAAATCCTATAAATATTTTTTTTTTCAAAATTGCTCCTAATAATACTGATATATTCATAAAAGGCTCAAAATCATATATTATATTATATCTATTTTTTCTTAATTCAAAAATCACATTTAACAATTTGAATATATTTTTATAATTAAATATCTTAATTTTATTTATATATTCAATTCCTTCATATACGCTTTTATTATTAGAGGTACATAAAACATCTATTTTATATCCTTTTTCAAATAATCTTTTTATTGCCGGAATTGTTAAAATTGATTCTCCTATTGCCCATAATTTTATTATTAAAATTTTTTTATTGTTTTTATCTCTGTTTTCTATATTCCCTCTATTTTCTCTGTTTTTAATCTTTTTTAATGGATATAATAAATATAAAAACAGTATTATAATATATTTATCTATAAATTTAATAAATTTTATCATAATTTTCTCCTTATTTTTTTCATCTTAATTTTTCAATTTTTACTATTTAGGAATGGCTTAAAAATAACATTCCCATTTTGTTATAAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCTTTACTTCTAACTCCCTATCACTTCTAATCTCATTTTTCAAAATGGATAACTCTTGTGCTAAATTCTTTATTTTATCTTCATATGTAGAAATTTTTATTGAAATATGTGCTGAATAAATCACAAGAAATATTATCGCTCCAAAAAACAGAGTATACACAGGATTAGAAATACCTATTAAATTATTTAAAAAACTTATTAAATTTGGAAAAAGTGATATTATAAAAAATATAAATCCCAAAATTAACCATAATAAAGAATATTCCTCTTTTAATTTCCTATCTCTTACTAATTTTATTATAAATCCAAATATCAATATTCCAATAGCTCCAAAAAACAACCTTAAATCCCATCTCATCTAAATCACCTCTATTTTATAGTTTTCTTATTAACATTACTAAAATTGAAAGAAACATCTTAAACACATAATAAAGTGGTCCAATTATTCCGCTATGCATTGATTCTTTATTGCTTAATTCATACATCAAAACTGGCACTTCATTTATTTTTAATCTTTTTTTATATAACATTATCAAAACATCTGCATCAGGATAGTCTGTTGGATAAATATCTTGGATAAATACTTTTAAAACTTTTCTATTAAGTCCTTGATATCCTGTTGTAATATCAGTAATTTTTTTCCCTATTATTGTTGAAGTCACCCAAGAAAATAGCCCCATTCCTATTTTTCTAAATAGAGTTGGATTATAATTTGATCTATTTTCTAAAAATCTAGATCCTAAAATAAGATCCCCTTCACCATTTTTTAAAGCTTCATAAATATTTTTTATATTCTCTGGTTCATGTTGCCCATCAGAATCAAGTTGAATTACATATTTATACTCATTTTTAAAAGCATATTTATATCCTGTCTGCAATGCTGCTCCATAACCCATATTGAATACATGATTTATAACTTCTGCTCCTGCAGATTTTGCTATTTCTTCTGTATTATCTTTTGATCCGTCATTTACAACAACTATTTTACTTTTTATATCTATCTCTTTTAAAACTGTACTTATTTTTTTTATTACTTTTTCTATATGTTTTTCTTCATTATATGCCGGTATCAGTATAAGTAATTCTCCCATAAAAAAACACCTCATTTCTTAAATTTACTCTCCCTCTTTATTATCGGCTATATCACTATTATATTTAAAAAAAACAGAAAGAACTCTCTCTTTCTGTTTTTTTTATTTAATTCATTTTTTTAATGTACCTAATTTTAATTTATCCTTCTTCCCTGTAATTTGATATAACCATTTTAATCTCTTATATAATTTAGAATCCATTCTACCAATTTTAACACATTGTTCAAAATAATTTATTGCTTTATCATATTTTGAAAATTTCATACTAATATTCCCTAAAAGATAATTTCCTCTATAATTATTTTTTACCTCTAATCCTAAATTAGCAAATTTTATTGCTTTATTATAATTTTTTCTTATATAATTTGCTTCTGCTAAATAATTATACATTTTAGCACTTTTTTCTATTTCCAAACTTTTTAACGCTGTTTCTTCTATTTTATCTAATTTTCTCAATTTTTCAAATATTTTTATTTTTATCTCATAATTTTCTATATCTTTATTATATCTTGAAATTGCAATATTTATTGATTTTAAAGCTTTATTATAATCTCCTGTCTCCAAATAAATTTTAGCTCTATCTTTATACGCTTCATAATAATTATCTATTTTTAATATTTCATCTATTTCTTCTAATGCTAAATTATATTTTTTCTCTTTCAAATAAACTTCAACTAAATTATATCTTGGTCTTACTTTATTTGGTGTATATTTTATATTTGTTTTCCATAATTTTGATTCATTTTTCCATTCAAAATTTCTATTAATAGTTAATCCGCTATATATCAATAAAATTATTATGAATATACTATTTTTTATGATTTTACTTTTTATAATTTCATCTATAAATAAAGTTATAAACAGTATCACTCCAACAGATGATATATATACTCTGTGCTCAAAGCTCAAATCCTCTATTGGTATAATTGTTGAAGTTACAAATATTCCCATAAAAAATAAAAATATCGAAAAACTATATAAAAACTTTTTTTTATATAGATAAATAATTAAAAATATAAGTACTAATAAAATAAAAAATGGAAACAGAACATCTATGTTAAAAAATGAATTATCCACTTTAAAATCGTAATCTATTCTTAATTTTAACGGCAACAATATAAGTGCAATATAATATACTATAACTTTAAATTCAGAAATAAAATATTTCCCTCTTGTTAAATCAGCATTAGCTTGTTTCATATTAAAAACTTTTCCAATTTGATTATTTCCATTTAAAGCAACCATTATCTTAAATAAAATTGGAAGAAAAGCTATAAAATAAAAAGGAATTATTTTTTTTATATTTTTATAGTCAATAAATGTTAATACTAATGGTAAAGTTATTACAATTTCTTTACACCTTATTCCTGCTAAAAAAGATATTATAGCCAAGATATAATATCTTTTTTTATCTGTTTCTCTATTTTTCAAATATAGGTATAATGTCAAAAAATAAAATAGTCCAGATAACAAAACCATTCTCTGAACTATTAAATTTAACGCTTGTGTTTGAATTGGATTAACTAAAAAAATTAATGCTGCAAAAAAAGATGCTTTCTCTTTTTTAGTAAATATTTCTAAAAATTTATAAACAGTAAATGCAGTTAAAATATGTATTATTATATTAAATATATGATAGCCTATTGGATTCTCTCTACCTATTAAATAATTTATTGCAAATGTAAAATATGCAAGCCTTCTATTGCTACTATATTGCAAAAATACATCTTTTAATGCAGAAAAAATATCTCTTATTTGAGGGTCATATTTTAATGAAACAGAGTCAAATACAAATCCTACTTTTAATGTATTCATATATAATATAAATCCTAAAACTGAAAAAAGCAAAAATATCAGTAAATTTTTATTTTTAGCCATTTATAACTCCTCTTTATAGTTCATAATTGTTCCCAAATAACATTTAAATACAAAAATAGCATAGCTTATTTTCTGAATAAATTTATACTTTACTATTAAAATATAAATCCCATTTTCAAGCCATTCCTAAACAATTGAATCTCCATCTACAAATTTTTCATCATATTTTAAATTACTTATTTTCATTATTGTCGGTAATATATCCACAACCTTTATTTCTTTTTCAGATGTATTTATGCAATTACTAAAGAATATGCCGTAACTACCTTCATATTCAGGAAATGTACCATGTAACCCTTTTATTGTTGACCTTACAGGTGAAAAATAATCAGGAAATTGTCGGATTCCACCTTCTACTACTCCTATTATCTCTCCAAATTTCTCTTTTTCTTTAAAATTAATTTTATATTTATCCAAAAGGGTATCATTTAAATATCTAACACCTTCTGTATTATTTAAAACTTCTATTATTTTATCTTTAACTCCATTATCTTTAGTCCAAAATCTAGCAAATGTTGTATCAAAAAAAGCTATAAAATCTCTTGGTTGCTCTAATCCTGCTTTTTTTAGTGGAGTCTGTATATCTACAAATTTTTCAACATTATACATACCGTGATCTGAAAATATAAATAAATTTACATCTTTAAACTTTTCCAAAGCTTCCTTATAAAGAGATTTTACTTTTTTGTCTATTTTACTCATTAATTCCTTTATCTCTTTTGAATTAGCTCCATATTTATGTCCATATCCATCAGGCTCATAAATATAAAAGCTATCTACAGTTTTATCACTTATTTTTAGTTCTTCCAAACTTGTTACATTTTCAAAATAAGTATTTTTAGTTGTAGCATAACTTTCATATGAGACACTATTTTCATCTAAATAATCATATAATGTCTTTAATTTATTTCCTTTATTCCCCATATTAAAATATGGCAATATATCTAATGGAATTGAAGGTGGAACTTTTATAACTGTTTCTCTAAAAAATTTAGGTAAAAACTTTTTATATTTTTTAGGCGTATAATAATATGGTACTTTCATAAATGCAATTGCATATTTTCTCAAGAAGTCAGTTGGAATTAATTTTAAAAATTTAGTCCATTTAAAAATAGAATTTTCTTCATCTTTATAAAATACAACAAATTTCCCTGTTTTATCTTGATAGCATCCTGTATAAATAGAAGGATGTATTCCAGAACTATATCCTAAAAGAGTATGTAATTTCAAAAAAGTATTTTTTTCTTTCAGCTCATATAAAAATGGAGTATACTCTTTTGAAATATAATCAGGTCTTACTGCATCAATCATTATAATTAAAGTTTTTTTCATATTTGCCCCCAATTCATCTTCTAAAGAACGTTTAAAAAATAAGTTTCTCATTTTTTGTTATAAAAACGCTTAAACCATTGCGTATTTTAAAACAAAATCGGAAGGTTATTTTTAAGCCATTCCTAAATTATTACTTTTTTTCTATTTATTTTTTCCGTCTCTCTTTTCTTAATTTCATAGTAGAGTTTAAAAAGTAATGTTCAAAAAAAATCTTTCTCTAATTTGCATTTTTCAATTCTAAAATATCCTCTTTAGTTAATCCTGTGATTTTAGATATTATTTCTATATCCAGTCCATTTTTTAATGACTCTATTGCAATTTTTTCTATTCCTTCTTTTATTCCTTCTTTTATTCCTTCTTTTATTCCTTCTTTTATTCCTTCTTTTATTCCTTTTTCCCTTCCCTCTTTCCTTCCTTCTTCCAACCCTTTTTCTATTGCCGTTCTCATTTCCTCATTTCTGTCCATTCTTAATTTTCTCTCTGCTTCATAAACTTCTCTCTCTTGGTCATCTAAATACATTATCTCTAGTTTTTCTACTGCTTTTTTTATCTCTGCTTCTTTTATTGCTTCTGGCATATTATTTTTACTCATTTCATAGGCTTTATTTAGAAAAGTTATCCATCTATCTAATAAAGTTTTTAACTCTTCATAACCTTTTTTAAATTTCCTCATCTCTATAAAATATAATTCTTCATAGTCTAAATCTTCATATACCTCTTCTGTTTCAAAATCTTTTAATACTATTCTTCTTAAATATCTATCATCATCAAAATAATTAAAATCTAATAGATGTATCCCTATTGTCTTTTTTAATTCTCTATAATCTGATGCTTTTTCTATCTGTCCGCTATATACTTTACTCCAATAATATAATGCTCTTTTCCCATAAAATCCCTGCTCCGAAATTTGCATCTCTATATCATACCATATTCCATTTTCATCTACTGCTTTTATATCTAATATACTACTTTTTCCTGATAAATAGCTTGATAGGTTATATGGATTTTTTATTGTTAAATCTTTTATCTTTGTTTCATTTTCTAATACTGCATTTATAAACGATAACAATATATCTTCATTCTCTTCACTTCCAAATAATTTCCTAAAAACCAAATCAATTTTCGGATTATATCTACACATATTACCACCCCTTTTAATTTTTTCACATTCACAATAATATGATTAGACCCCCAAAAGGTAGTTTTCTAAAATCATACCACTACATATAGTTTCGTAAAAGCTTTCGAACACTATATGTAGTGGTATGAAGAAAACTAAATACCTTTTTGTGGGTCAATCATAATATTATAACATATTTATTTTTTTTAGTGTAGTATATTTCGAATATAGGTGATATCTTGAAAGGGCAAGGAACTAAGTTCCTTACCCTCTTAAGATATCCTTGCACTAATTTTCATCTTTTCATTTAAAAACCTCTCCAGCCTCTTTATACCACAAAATCAAATCTAAATACTCCATAGGAACTCCTATCTCTTTAGAAAACTTAACCATCTTCTCTTCAATATCCAAATATATTTTTTTAGTCATACTTTTTGGAACTTCATCGATTACTCCAGATAAATTTAAATTTTTCAAAATATGCCTATCTAAAATTGCTAAATTCTCCACAAATCCAACATTTCTCAGAAAATGCCCAGCTTCTTTATATCCTATCCCTTTAATATTTTTTACAATCCATTCCCTTTTTTCATAATCATTACCTAAATTTAATAAAAACTGTTTTATTTTAAATTCCCCTTTTTTCAAAAATTGCTCTCTTGCTAATACCAAGTATTCTGATTTACGATTCCTAAATCTTACTACATTTAAATATTCATTAATCTCTTCAGCTGTCCCATTAAAAAGTATGTCATTGCCTACCATTTTTTCTATTGCACTCCAGGCACTTCTAGCTTTTGATTGAGGTGTCAATACACAAAATGCAAGCTCTATAAAAATATCTTTATCTGTTCCAAATTTCCATTTATTTTTAAAATCCTCTATTCTATTAATAAATATATCATGTTCATCTTTATAAATCTTTAATATTGTATCCCTCATATTTTACTCCCATTTCTTTTCTTTAAACATTCTTCACATATTCCTTTGAAATATATATGCTCTTCATCAATTTGAAATTTTTTTAACCCTTCTCCAAAACTTTCTGGAACTTCTATATTTACATCATATACTTGCCCACACTCTGTACATTTAAAATGCCCATGCAAAGATATATCTGCATCATATCTAGTCTCATTTTCTTCTATTGTAATAATAATCGCTATTTTTTTATCTACAAATAATTTTAATGTATTATAAACTGTAGTTTTAGAAAGCGTTGGTATCTCTTCAACCAATTCTTTATAAATTTGATCCACTGTAGGATGATTCTTTTTTGTTATTAAATAATTAAATATTTTCATTCTCTGATAAGATGGCTTTATATCGTGACTTTTTAGATATTCGCTAACGTCTTTTATAATCATACCCATTTTTTTCACCTTCTTTCTTTTTATTTTATTTCTTTGTTATTTTAACATAGGAACGGCTTAAAAATAACCTTCCGATTTTGTTATAAAATACGCAATGATTTAGGAACGCTTTAAAAACAACCTTATCTTTTTGTTTCAAAATACGCAACGATTCAAGCGTTTTTATAACAAAATATAAAAAAATACTTTTTAAATGTTCTTTAAGCGTTTTTATGACAAAATATAAGAAACTTATTTTTTAAACGTTCCATACCCTAAATTATATTAGGGCGTTATAAATAACGCCCCTACAAAATTATTAATTCATTTTCTCATTTTGTCTTCTATATTTCATCTGTCTCCATTCACACTTATCCCATGGTTAAAACATTATTTTATCTTTTATCTTTTTCCTATTCTATTTATTCCCAAAATATCTTTTTAATAATCCTGCAAAAGCTGATCCATGTCTAGCCTCATCTTTACACATTTCATGAACAGTATCGTGTATTGCATCATATCCTAATTCTTTTGCTCTTTTCGCCAATTTTAATTTACCTTCTGTTGCTCCATATTCAGCTTCTACTCTTTTTTGAAGATTTAATTTAGTATCAGCATCTACTACTTCTCCTAATAATTCTGCAAATTTTGATGCATGTTCTGCTTCTTCAAATGCTATTCTTTTGTAAGCTTCTGCAACTTCAGGATACCCTTCTCTATCTGCTTGTCTACTCATTGCAAGATACATTCCTACTTCTGTACATTCTCCAGTAAAATTAGCTCTTAATTCTTTTACTACATCTTCATCCAATCCTTTTGCTACTCCTATTCTGTGTTCATCAGCCCAATTTATATTGTCTGCTGAAAATTCTAATTTTTTAAACTTTGATTTTGGAGCATCACATACAGGACACTTTTCTGGTGCTTCCTCTCCTTCATATACAAACCCACATACTTGACATACCCATTTCATAAAATAATACCTCCTCTTTTTTTTATAAATTCTGATTATATTTTTATTTTACTGAGTAAAAACACCTTTTAGGAGAAAAAATCTTTTCCTCTTTTTTTAATTTTTTTATAGCTTTATCTACCTCTTTTTTATCTATTCCTGTTTTTTCTGCAATCTCTCCGCCTTTTAAAGGCTCTTCTGATTCATCTAACGTTTTTAAAACTAATTCCACAATATCCATAAGATTAAAACTCCCTTCTAATGTTTTAAATACTTTTTATAAAAATGTAATCTTTACAAATTTATTATACTTCTTTTATTGGGGTTTGTCAATAGTTTATTTTTATAACTTTGAACCAAAGAACGTTTAAAAAATAAGTTTTTTATATTTTGTTATAAAAACGCTTAAATTATTGCATATTTTAAAACAAAATGGGAATGTTATTTTTAAGCCATTCCCAAATAAAAAAAGTTGTTTTCTTAATATTTTAAACTCATCTTAATTTTTATATCTATTTCTCATTTTTTAATTTTAAAATTTTTTCTTCACTTATTCCAATTTTTTCTGAAATTGTTTTTATATCTAAAACATCCAATAAACTCCTTGCTATTTCGAGTTTTCCTGCTTCTATTCCTGCTTCTATTCCTTTTTCTATTACGGACTTAAGTCCTTCCTCAACTCCTTTGACAAATCCTCTTTTCTCAGCAGCTTTTTTTGCAGCTTCTTCATCTCTTATCCATTTTAACCTTGCTTCATAACTCTCTCGCTCTTCATAAGTTAATAACGTATCATCCAATAATTCTACCGCTTTTTTTATTCTTTCTACTACTTCTACTTTTTTTACTTGCTCTTTTTTTGATACTACTAAATTTGTTAAGTCTATTAATAGTTTTTTATTTGATTCTGTCCAAAATGATTTTTTAAACGCAAAATCTATTCTTGAATTTATTCTACACATTAATTTTCCTCCTGCTTTGTTTTTAAGAACGTTTAAATCATTGCGTATTTTAAAACAAAATGGAAATGTTATTTTTAAGCCGTTCCTTAATAATAATTTATTCTTAAAATAGTTATAACTTATCCTACTCCCCTACATCTATTTATTGATTTTCCAAGTTTCTAGTGCTAAATAGAGCATCACAGCATTTTCAAACTTCATTGGATTTGAGCCAGTTATTTTTTCTATCTCTTTTAACATTTTACGAATTTTACTTCTATGAATATCTAGTTCTTTTTCAACTTTTGATAATACCATATTATTTTTATAAACAGTTTCTAAAATTCGTATTATATCTACATGATTTTCTTCTCCGTATTCAATTATATTCTTTACATAGTTATTTATTTTAATTTTCCCTATCTTATCCACATTGTCTATTAACATATACATACCAACATTACTATATTCATATACCAATTCTGATTTTAAAAATTTTTTTCCAAGCTTCATATATCTTTCACTGTCATTATATGAGTATCCCATTGCTTCCAATCCAGGCATATCATAAGTATCCCCTATTGCAATTTTGTACTCAAAATTTAAATTTGAAAATATTTCTATAAACGGATTTATTATTTTTTTCTTTATAATATTTTTATCTGCAATTGTAGTACATAATAAAAATTTATTATTACCCACATAAGAAAGTATATCCTCTTTTTTTAATACATTTTTTACTGCCATATATAATCTTTTTTTGAATTTCTGAATTATCATATCTTTTTTATTTTTTAACATAGCATACATATCTTCTATTTCTATTAAAACTGCTACTCTTTTTACATAAAAATCCAATCCTAAAATCTCACTTCTATTCAATATTAAATCAATATTTTCAAATTTAAATTTTATAACATCATTCACAAAATTTTCTATTGCATACTCTTTCAATTGCTCATCATAAATCTCTTTTAAATACTTAAACATTTTTTTCTTTAATTTATCATTTGAGTTCAACCTAAAATAGGTCCCCTCCATTTCTATCAAACTATTTTCTTCTTTTTCTTCTTTTTCTGATTCTTCTACTACTTCCAGCTCACTTCCAAATATCTTTTTGAGCTCTTCTATCATAATAAAGCACCTCCTAAAATATAATGTATTTTCAAATATTATCTAAAGAACATTTAAAAAATCAGTTTTTTATTTTTTGTTATAAAAACGCTTAAACAGTTGCATACGTTGGGCGTGGCTTTCATAAAAGAACCTTGAGCCTTTTAAAACAAAATTGGAAAGTTATTTTTAAGTTATTCCTTAATTAAATTATACCTCAAAAAAACTATTATGCAAAATTTTTATTTGTAATCTGGCAAAAAATATTTTTTTCCTGTCTTAGGATGAGTTAAAATTTCAAAATTAATCTTATACACTTTTTTTATCAATTCTTTTGTTATAACTTCATCTATATCTCCATATTTTTCAACTATTCCATTATTTAACATAACAATTTTATCACTATATTCTATTGCCATATTCAAATCATGCAACACAGCCACAATTGTAATAGATTTATCTTTTTTCACTTTATTTAATATTTTTAATATTTCAATTTGATAATGAATATCTAAATGAGAAATTGGTTCATCCAAAAATATAACTTTACTCTCTTGTGCCAAAACTCTTGCTATTATTACTCTTTGTAACTCTCCACCACTTAATTCTGTTATATATTTATCTCTAAATTCCCACACTCCTGTTAATTTCATAACATCTTCTACTATTTTTTTATCATCAATAGATTCTTCTTGAAATCTTTTTAAATAAGGGTTTCTCCCAAACATAACTACATCTTCTACTGAAAAAAAAATATTTTGTTCTCCAAATTGTGGTACATATGATGCCATTTTTGCAAATTCAATATTGCTATAGCTTAACAGGTCTTTATTTAGATATAATATTTCATTTTTTTTTACATTTAATATTTTTAAAAATTTCTTTAATAATGTAGTTTTTCCAGAACCATTAGGCCCTATTATAGATATAAAATTTCCTTCTTTTATATCTAGGTTTATATTTTTTAATATTTCTGTATCTCCATATTTAAAATTTATATTATTCCCTTCTATAATACTCTCTTTTCTATTTTTTTCTTTTTTAATATTATTTTTTATATTATTTTTCATTAAAATACCTTCTTTTTATTTTTATATAACAAATATAGAAAATAAGGAACGCCTAATATAGAAGTTATTACACCAACTGGTATTTCTGAAGGCATTGCTAATACTCGTGCTATAATATCACATCCAATTGCAAAAATTCCACCAAATAAAAATGAAAATATAAGGCTATTTTTATAATTTTGTCCAATTAAAATTCTAACTATGTGTGGTACAATAAGCCCAATAAATCCTATTATTCCTGTAATTGAAACTATTGCTGAAACTACTATTGCCGATGAAAATAGAAATATCTTTTTTACAAATTCCACATTAACACCAATTGTTTTAGCTTCTTCTTCTCCTAATTGTAATATATTTAGATCTCTCGTAAAATATATTGCTAATAACAGAAACAGTAATAATATAATTCCTAAAAAAATAATTTGTTCCCAATATACAGTAGCAAAACTTCCCATTGTCCAATATATAATATCTGCTATTTTACTTCTATTAAAAATCATTATTAATGATATTACAGATGAGAGGAAAAAACTAACTGCAACCCCAGCCAATAAAATAGCAATAGGTGGCAAAAAACTACCAACTTTTGCTATTTTATAAACTATTACTATTGTTAATATTGCTCCTAAAAATGAAATCATATTTATTATACCCATACTCTTAAAAAAAACTATTCCTAGCACTGCTCCCAATGCTGCTCCTGCAGATACTCCTAATGTATATGGCTCTGCCATTGGATTTTTTAATATTCCTTGATAGATACTTCCAACTATTGCTAATCCGCCGCCAGCTAATAAAGCTAAAACTGTACGAGGCAATCTCAATTTAAATATTATAATTTCATATGCTTTTTTAGCATTGTTATTTCCTAAAATAACATTAAAAACATCATTTAATGGTATTGTCACACTTCCAAATATTATAGATAAAATAAAAAATAAAATCAATAATATTATTGTAACAAAAAACAAAACTTCTCTATTTTTCATTTTATAACTCCTGTATGAAATATTTTTGCTAATTGATAAATTCCATCTGCTAATCTTGCAGATTGTCTATTTAATAAATTATCATCTATTTCAAATATTTTATTATTTTTTACTGCTGATAACTCTTTATAGCCCTCTAATTTTTTAAAATCTTCTTTTGCATTATAATATTTTGATACAACTATTATTTCTGGATCTTTTTCTATTAATTTTTCTAAACTATATTTCCAACCTTTTATTTTAACAATATTTTCTCCTCCTGCAAGAGTTATCATTTTATCTATATATGTTCCTGCCCCTGCTGAATAATCTCCATATTTACCATATCCCACCACATAATAAACTGTTGGTTTTTTTAAATTCTTTACTTTTTCAGAAATTTTTGAAATTTTACTTTTCATATTATTTATTATCTTTTCTGATAATTTATCTTTATTTAAAACTTCTCCTAACTCTCTTATCATTTTATAAGCCCCATTTATAGATGAGTCATTATAAAAAGTCACAACTGTTATTCCCACTGACTCTAATTTATCTACAAATTTTTTCTGAACATGAACTGATGCTAATACTACGTCTGGATTAATCTCAATTATTTTTTCTAAATTTGGATTTAATAAATCTCCAACTGCTTCTATTTTTTTTACCTCTTTTGGATAATCTCCATATATTGTTCTTCCTACTAATTTCTCACCGGATTTTAATGCAAATATTGTTTCTGTAATAGCTGGACTTAATGACACTATTCTATTTGGCTCTTTATTTATAGTAATATCTCTTCCATAAGAATCATGTATTTTTATTGGATAATTGCTTCCAAATGTTAGCATTACTATGAATAACATAAATATTAATATAATTTTTTTCATTACTTCCTCCATTAAAATTTCGAATTCTCATTTTATATAAATCAATCCCTCATCTAAAAAACTATATTTCGCTTTTGGCAAATTATGAGGACAAGGGCGAACACATAGATTCGCCCTACACAAATCACAATTAAAACTTATATCTTACACCTAAATCAAAATTCCTTTCCGCTGATGGATAGTATGCCATTTTATCAGTTGCTCCATAAAGATATGGGCTATATACTATTGTGCTTGAATATTTTTCATTTAAAATATTTTTTATTCCACCAAATATTTCTATATTATTTATTTTATAACTAGAATTAATATCCAATGTTTTATAACTTTTTACTTTATCGCCTTTATTCTCCAAATCATTTATTGCATATCTTTTCCCAATATAATTTAAATTTCCTCTGATTTTTAAATTTTCAACTGGATTTATAGTTAATATTAAATTAAATTTATGCTGTGGAACTCCTGGCACTTCTTTACCTTTATATGCTCCATCTGTAATTTCACTTTTTATATATGAATAACCCTCTTTTAATGTAAATATAGAAAAATCTTCTTCTAATATTATATCTGCTCCAGTTCTCAAAGTTTTTCCAGACATATTTTCATTTTTATAGCTAGAACTATTATAATATATTTCATCCTTCATTTCTGTTTTATATGCATTTATATCTACATATAATATATCCACAATAAAATCTGTTACTCCTAATTGTAAATTATTGCCAGATTGAGGTTTCAAATCTTTCATATATTTCCCAAAAGTAAGATATTCATCTGTTAATGGTGTCCTGTAATTTGTGTTATACTCTAAATATAATTTTCCAGTAGGTCTATAATTAAAATTCATCCCTGCTGTATATAAAGTTTTATAATACGCTTTTTCATCTGCTTTTTTACTATCGTTATAATATTTTAGACTGTTTTTTTCTCTTCTTAACCCACCTTCAATTTTTAATAAATCTGTTAATTTTAAATCATTTAAAATATAAGCTCCTATTTTTTCTTTATTAACTTTGTTTAAATCTGCTCTGTTTTCTCCAAATTTATAATCCACACCATAAGAACTTTTAAGGTTACCTATAATATATCTAAATTTTAAATTATCTGCTATTTCTTTAGAATCTGTTGTTGATTTTGGAGTTCCCCAACTAATCATATCTGTTATCAATTTTTTTTCTACATATTTAGAATTATTTTCAAATTTAATATTGCCTATTTCAAATTTTTCCCATAATCCATATTCTTTTGTTTTAGTTGCTCCATTATCTTTATTTTCAGTTCTTCCAACTGGACTTCCTGAATAATCCGTATATAGAGCATCTGCTCTATCTTTTTCCATTTCATCCTTTGTAAGAGAACCTGGCATTCCATAACTATCTTTATAATTTTTATAACTCATCCCTATTTTATCCATTATAGATAAATTTAATTTAAAATTCTCCATATTAAATTTAGAGTTTTTTCTATATCCATCCAAATCTTTTTTATTATATCCTAAATTAATCGACATAATCTCATTTTTATATCCAATTTTACCAGAATATTTTTTTGCATTATAACTTCCCACATTTAATCCTATATCTCCACTTACACCATTTTTTTTACTTTTTTTTGTAATTATATTTATTACTCCTGATACAGCTTGGTCTCCATAAAGTACCCCACCACTTCCAGGTAACACTTCTATTCTTTCTACGTTATCTAATAAAACGCTATTTATATCTGCTCCAGACATATCTATAGAATTTATACTAATTCCATCAACTAATATTAATAAATTCTTTTTTGCATTATCTCCTTGACCATGCAAATCAACTGTAACTGTTTTCCCACTACCTGTATAATCTGAAATAACAATTCCACTTATATCTTTTAAAACTTCTGATACTGTAGATGCTCCGCTTTCTTTTATTTCTGATTCTGTAATGATTTTAATATCTTTAGAACTATTTGATATAGTATTCTCAAATCTTTCACCAGTTACTGCAATATCACTTAATTTATACTCTTCAGCAAACACCATAATACTTAAAATAACAAAAACTAATAGTACTCTCTTCAATTTAAAATTCCTCCTCAATTTTTATATAATCTTAGTTTCAGATGAACATTTTAAAAATAATATTATTATATTCTAAAATAGAATACATAAATTACTTTTAAACTACTCTTAAAAAAAATCATATAGTTATTAAGGAGGAATATTTCTTTTAGTCATATATATGACCTCCCCTCCGAAGGATTCCTGTGGAACAGCTTAAAAATTACATTTTCAAACTATCCCTATCTTTTTATCAGGTAAGTCTCCTGGCTTAGCTTCATTCTACTAACCTCCTTCCCGGATTTTATCCAGTGGTATTAGGCTTTCGTCTGCTTTACAGTAGCGGGGGCTGCTTTGGATTTACACCAAATTCCTCGTTATGCTTATTATTAGGAATGACTTAAAAACAACATTATCATTTTGTTTATAAAACAAGCACTGTTTCTAGCTTTCTTATAAACAGATATTAAAACATTATTTTTTAAACATTCCTTAGCACCTGATAACTTATTATATCATAATATAAAAAAAGAATCTATGGATTAGTATTGTAAAAAAAAAATAAAGTCACATAAAAGTGACTTTACTTTGCTTTTCTTAATATTTCTTCTTCTTCATTATATTTTATTTTACCATCTGCTATTATTTCTCCACCATCATCTAAATTAATACTTCTGTTTTGTCTTATCTTTGCTGGAACTATAGAAAAGACTCCATTACCTAATTTTTCAATTCTAGATCTTACTGCTAACGAAGCTCCACTTAAAAAATCTAAAGTTCTTTGCGCTTCCTCTTTTGAAAGAAAAGTTAAATTTAAATTTACTATTTTGTGGCCAACCACCTCTTCTGCAATATATCTTACCTCTTCAAATTTTTCAGGAGCAAAACTTGCATACTCTATTAAATCATAACTTTGAAAACGAGCTTGTGTCTTTGATTTTACATCTTTTATTGTTACTACTTTGTCTGAACGATTTTCTTTTTTTGCTACTACTTCTTCTTCAAACTCTTCCTCTTCAACAGGAAACCCTATCATATCTATTACCTTATTAAATATACCTTTCATATATTTCCCTCCTCTCTATAAAAATATTTTACTTCCAATTCTTATCATTGTAGCTCCCTCTTCAAGTGCTATTTTATAGTCATTTGTCATACCCATTGATAATTCTGTTAATCTTCCATTAAAATAGTTTTCGTTTAATTCTTCTTCCAATTCTCTCAACTCTCTAAAAACTTTTCTGACGATATTATTATCTTCGGCAAGTGGCGCCATTGTCATTAGCCCTTTTATATTTATATTTTTTAATTTTAAAAGTTCTGTCATATCATTTTCCAAATCTTCTCTATTATATCCAGATTTTGACTTTTCTCCTGAAATGTTTACTTCTAGCAATATATCAACAACTCTATCAATTTTTTCTGCTTTTTTATTTATCTCTTTTGCTAATCCTAAAGAATCCACTGAATGAATTAAAAATATATAATCTATTATATATTTTATCTTATTTTTCTGTAAATGTCCAATAAAATTCCAATTTATATCTTTTTCTTTTAAAATTTCTCTTTTTTCTCTTAATGCTTGAACCCTATTTTCTCCAGCATTTTTGATACCTGCCTCTAAAACTTCCTCTACTCCTTTATAATCTACATATTTAGTAGCTGCTATTATTTTTACTTTATCTGGATTTTTAGAATATTTCTTTATATCCTCTTTTATCAATTTTATATTTTCTGCCACACTCATTTTATAATTCCACCCTTTCAATAATATCGGAATAAAATATTTTTTTCTTTAGTTCTAAATATTTATCTATCTTTTTCTCTTTCTCACTAGAAAGAATATTACTTTGTTCTATTTTCATTATCTCATACTCTAAATGTTTTTCAAAAACTGATTCAAGAATTAATATGTTATATTTAGGTCTTATTTTATATTTTTTTATCATATTATTTATTATTATTTTTTCTTCTTCCGTAATACCATTAAATTCAAATAAAAAATTATACAATTTTTTATCCAATATTTTTCTTTTAAATTTAGAAATATTTACAATCATAAACCCCAACGAAAAAAATGCAACTATTATAAGTATAACTAATAAGGCATCTCTAAGTGCATTTGGGTTGGATTTTATTTGTATTCCTCTTAAAAAATCAAAAACATTATATTTCATTACAATCACAGCCCTTTTTCATAATATTCTCTTGCTAGAGTTTGTATCTCGCTGTTTTTATCTGTCAAATAAAATATTACTCCATTTTTATATTTTATTTTATATGAAGCTTTTAATACATTCTTTCTAATCAGGTCATCTTTATCTTTCATTAATGCATTCAACAAATATTGTTTCTCTGTTAATCCTAATTCTCCAATTACAAACACAGCACTTACTTTCATTAATTTATTTGGCATAGATGCCATTTTATCAATTTCATCTATAACTTCTTTTTTCCCTAATCTATATAAAGCCATAATTGCATTTGCTCTTATTCTGTTGTCTTTATCATTTAAAAATGGTACTAAAAGTTTTGCTCCTGCTTTTTTATTTAAATTCCCAAAAACTTCTATTGTATTTGCTCTTACTCTTTTGTCTGGATCATTTAATAATTTTAATAATCCTTTTAACAAATCTATATCCGATATATTCACTATTATATTTACAACAGATGCCCTTATTGTTTTATCTGGATCAACTAATGCTTTCTCTAAAATTTTTTTAAATTTATTTTTATTTGGCATATATCTCAATATTTCTATAACTCTTTTTCTAGCTTCTGGATCAATACTTTGTATTTCATTAGATAATATATCTTCTGTCTCTTCTTCTACTTTTCCAAACATTTTAACAACTTTTTTCTTTGTATCTTCATCTAAAATTAAAAAATTATCTATATATTTTTTAAGGCTTTCATGAGCTATTATCTTACTAGCTTTCTCCATAACACGTTTATTTGGATGATCCATTGATTCTAAAATTATTTTTTTAGCAGATACTGTGTTTATTTTTGCAATTGCTTCTATAGCACATAATTGTACACTATCTTTCGGATCAGATAACATCTCTTTAAAATCTTCTAAATATTTTTCATTTTTTTCTTCACCTAATATTTTTATTACGCTTTCCCTTATTTCAGAATCAGTATCTTTTAATAATCCAATTATAATTTTATAAATACTCTCATCACCAATAATACCTATTATTTCAACCGCAACTTTTCGTTCATAGCTATTTTCTGATTTTATTTTTTTAATTATTTTTTCTAATAGCTTATTTTTTCTTAAAAAATCTGATAAACTTCTCTTTTCTTCTTCAGATAAATATTGTATATTTTTTATGACATATTCTCCTATCAATCTCAAAACTTCTTCTTCAACTTCTGATTTCACTTGATAATAAGATAATAATTTCAATCCATTACTTTTTACTTCCAATTTTTTTGATTCTAACATCTCAATTATTAAATAAATTTTTTCTGGAATTTTTATATCTTTAATCAAATTAAAATAATCATTTTTTACCATCCATCTATTTTCTAAATCTTCTCTTATTATTTTACTCCCTGCTTCTTTAAATTTAAGAAGTATTTTTATAATATATACTGCATTTTTTATATCTGTTTTGCCTAACTCTTTTTTCAAAAGAATTAATATTTTGCTCTCATCTTCATTGCTATCTTCTATACTTATTTTTTCCATAAAAGCCATAATTCCTTGCTGTGCTTTTAATTTTACTTCTTCAGAATCATCCCCACTTAATATAACTAAATATTTCAGCACCTCAAAACTTCTCAATTTTTCTAATAGTTCTAATATATTTAATTTCATTCTAGGCATTGGAAGCTGCATATGTTTATCTAAATATTGCAACACAACGTCTCCTTTTTTTGCAAGTAAAAATATTACCTCTTTAACTACTCTTCTATCACTATCGTCTAATAAAGTTACTAATAATTTTAAACTATTTTCATCATTATAAATGCTAATATTTTGTGCAACTGTTTTTCTCACTTCCCATTCTCTATCTTTTAATATTTCCATATAAAACTCTATAAAAATTAATGTTTTAACAGAAGATAATTTTTTCAAAAAAGCAATCCTTACATTTTTATCTGGATGTTTCAAAAATAAAGTTATATTTTTATACCAATCTGTATTTTTAAAACTACTTTTTATTCTTTCTAAAAAACTATCAATTTTCAAACTGTTCTCTAAAAAAAAATAACTTAATTTTTCATTATTATGTAATATCTCTATAATTTCATTTTGAATTTTTTTATTATTATATACTTTATCCAAAACTTTATTTAATTTAACTATATCTTTTGTTTTGTAGATATTCATTATTATAGATTTTAAATTATTTCCACTCATTTATTTCATCCCCTATTTTATAAACTCTACAAAAACATCATTTGCTAAAAATAGACCTTTTTTTGTCAAAAAATATCTATTTTTTATCCTATTTAATAAATGCCTCTTTATTAATTTTTCGGCTATTTCAACATATTCTGAATTTAATATTTCTACTCCTTCTCTTACGAGTCTTAGCCCTAAAATATATTTATACTCTTCTATATGTCTATCATTTAGTTTTTCTACTTCTTTAATTGGAAATTTTTTATTATCTATTTTCTCAAAATATTTTTCAAAAGTTATCTCATTTTTATATCTTTTATTTTGTATATATCCTGAAGCTCCTAATCCTGCTCCAACATAATGTTGATTTCTCCAATATTTAAGATTATGTTTCGATTCATAATTTGTTTTTGAAAAGTTAGATATCTCATATTGATTATACCCTATATTTTCTAAATATTCAATAATATATTTATACATCTCCGCTTCTAAATCTTCTCCAACTAAATTTAATTCTCCTGATTTCTTCATTTCCCAAAATTTTGTATTTTCTTCTAAAATCAAAGAATATATAGAGATATGTTGGGGAGATAATTCCTCTAAAACATTTAAATCTTTTTTTAATGTTTTTAATGTTTGTCCTGGAACAGCAAACATTAAATCTAAATTAATATTATCAAAGCCTGCTTTTCTAGCATCTTTATAAGTTTTTATAGCAATTTCGCTATTATGGATTCTTCCCAAAATTTTTAACGTCTCATTATTAAAGCTTTGGCATCCAATGCTAACTCTATTAATACCTAAATTTTTTAATTCTTTTAATTTCTCATAATCAACTGTTTTAGGGTTAATTTCAAAAGTTATTTCAGCATTTTTTGCAATATTTATGCTATTCAATATTTCTTTTACTTCCTCTATTTTTAATAATGATGGCGTTCCACCACCAATATAAACTGTATCATATACATAATTAGAATATAACTTTAATTCCTTTATTAAATATTTTATATATAGATCTCTATTTTTATTATTACTAAATGAAACAAAATCACAATAATTACATTTCTTTACGCAAAATGGTATATGAATATAAATTGCATCAATCATAAAATTCTCCTTAAATTATGTTAAAAATTTTCACTTTAAAAAATCGTATTCTAAAAAAACAACATAGCTTATTTTCTAATAAACTTGTACTTCCCTGTTATATAAAAAAGTAGAGAGAAACTCTCTCTACTTTTTCTAATAATTTTGTTGCGGGGAAGATAGCTTGATATAAAATTTATCGTCCTCTTTATAAAAAACCTTAACACATTTTTTTATTTTTCTTTAAAACTTTTTATTTTTATTTTATTTCCATATCTCTCTTTTTCCACTTCCATAACTCTTTCTCTATTTCCTGATTTTGATTTTATTTCAAACTCCTTTTTTTTAGCATAATAATTAACATAAAATGGCTTAGTCTCATTAAAAGCATTATCTTCTAACTGACACCAAATAGTATAAATTCCTTCTTTTGATGCTGTTTTATATTCAAAACTATCTTCATAACTAATCCAAGATTTATATTTTAATGTATCTTTTTCATTTGATATTTTATATCTAAATATCCCTGATAAATTATCATTCGCTTCTATCTTTACTTTTATATTACTTCCAACAGTGTATTTCTCTCCGTCAGGTAAAATAAGCTGTCCAACTGGTGGAGTTCTATCTATTCCAAATTTTATAACTTTTTCTGAAAAATTATCATTTAAATCATATGCTTTAATTTTAAAAATAAATTTTCCTTCTGCATCTATAGTTACAAATAGTTTCTTCTTATTCTCTTTCCAGTTTGCCATTCCAGCTCTATAAAGCAATTTATTATTTTCTGCATTTTCTATTGAAATTTGATATTTTTTTATTTTATTCTCTTTTAATAATGGTAAATCCTCTATTTTTTTTATCATAAATCCATTCTTAATCTGCTTAGAATATACAATTTCATCTGAATTCTCAATATTGTAATAGTAGTCCCAATAAGCATTTGGCTTTTGAGGAGAAATATTATCTATGATTTTTATTTTTTCTTCTAATATCTTCTCACTTTTATTCATATTATTATCCCAAATTTCTAATTTAACCTCTAACTCCGTTCCCTCAAAATCATAAAAACTTTTTAAATTATCCAAGATAACTTTATTATCAAACCTGAATTTTAGTTGAATTTTAGTTGATTTACTATTTGGGTTTTGTTGCATATACCCAATCTCTTTACCATTATAAAGAAACCATAATCTCACTCTATAAATCCCAGAAATATCTTCTATATTTAATAACAACTTTGGATATTTTCCTTCTTCCATATTTATTAAACTATCACTTAGTTTATATTCCAATTTTGGAGGTAATTTATCATCTTTTTTTCCCTCATATTTTTTTTCTTCTGTAAATATTTTTTTTAATTTTTCATACTCTTTTTTCTTATCTACTATTTTCTCTTTTGTTTTTTCTTTAATTTTTATATTTTGATTAATATTAGTTTTTACTCTCTTCTTATTTTTTAAATTTTTTATAAATCCAAAATATAAAAACAGACTGCCTATTCCTAATATTAATGTAATTATTAAAATATATTTTGTTCTTTTCATATTTTTTCTCCTGTTTTTTATTGTTATGTTAAAATAATAAAGTCAGAAGAAACTTAACCTCCTGACTTTAAGAATATTAAAAAAATAATATTATACTATCCATTCATAGAAAAATCTAGATATATCGCTTAATTACTAATTTAAAATAATTGTAGCGTTCAAACTAGGATAAACATGAATAATTAGCCACTAATGTACACAAATATATAATACTAATAAACCCCTTTATCATTAAAAAATTTACCATATCCCTTTTTATCAGTCCCAACAATATGCTCTACTAACCATTTATTTAAAAAATCCATTAAATCTTTAGATAACGTTAAATCTCCATTTTGAAATTGTTTATATGCCTCTTCAACTTTTGCCACAAATTGTCTATGTATTTTTTTATGAGCTTCTCTGTTTGGATAATCATATTTTTCAAAATATTCCTCTTCATGGCTAAAATGGGTAACTGTATAATCTGCTAACTCCTTCAAAATATCCCCCATAACGCTTTTACTTTTTCCTTCTAACATTGCATCATTCAAATCATTTATTAATCTAATTAAAACTTTATGTTCTTCATCAAATATTCTCACACCTGTTGATATTGCAGGAGTCCATTCCATAAATTTTTTCTTTTTATCTTCTTCAGTTATTTCTATTTTTATTTTTCCTATACTATTTTTTAAAGCAGTTGAAACTTCTGTCAAATTAGATGATAACAGCAAAATATCTTTTAAAGTAACTGCAATAATTTCTAGATCAGATGATTGATCTTGCGATAAATTACTTATGCTTTCACCATCATTTGCCACACTTTCTGTAGCTGCTGTAATCTCCTTTATAGAAGATGATTGATCTTGTATTGCTGTAGATATTTTACCTATTTCTCCATTAGTCATATTTGTTTTTTCAATAATATCATCTATTTTTTCTATTGTATTTTCAGAAAGTTCCATACCTTTTTTTACTTCTTCATATCCTAATTTTACAGCTTTTATAACTTCTGTTACTTCATTTTGAATAACTTTTATTAATCCATCAATTTTATTTGTAGCTTCTTTTGAGTTCTCTGCCAAATTTTTAACTTCTTCTGCAACTACTGCAAAACCTTTTCCTGCTTCTCCTGCCCTTGCTGCTTCTATTGCTGCATTTAATGCTAGTAGATTAGTTTGTTCTGAAATTTTCCCAATTAATCCTACTATATTTCCAATCTCTTCAGAAGATTCCCCAAGTTTTATAGATCTAGTTTCTATAGCCGATACTGTTTCTTCTATCTTTTTTATCTCATTTAGATTTTCTTTTACAGCTTCGCCGCCTATACTAGCTAACTTAGCTGTTTCATTTGAAATATCCAAAGTTTTTTCTGCATTACTTGCTACTAATTCAAAACTTTCTGATAATTCATTTACTGTAGCATAAATTTCTTCAGTAGAAGAATATTGATTTGTTACATTTTTCATAACATCTGCTGTTTTAGAAATAAGTTCTTTTATATTTTCTTTATTCCCGTTTTTTCCCTCCATTAAATTCTCTATATTATATGTCAAATCATAAGATGTGCTTTCTACTTTATCTCCAGTAACATTTATTCTCACTATTATTTGTTTAAATACTTTCATAAATTTATTAAATTCTAAAACTAATCCTCTTAACTTTCCTTTTATACTCTCATCTGCTAAATCTCCAAAGATATCTTTACCTAATAATAAATCTTCCAAATTTTCCTTCATGTGATTAATAGCTTTAGTTTCTTTTTTACTAATAAAAATCCACCCAACTATCAAAATTAAAATCTCCAATACTGTAATAACTAACCCTAAAATAATTCCTTTTCCAAATATAATTAAAAATATATTTGACAATAATACTACTCCCAACAATAACAAATTCATAACAATCCCTCCCTATTTTTTTATAATTATTCTAATTCTTATTCTAATGAACGTTTAAAAAATAGCTCTCTAATATTTTGTTATAAAACCGCTTAAATAATACTTAAATCATTGTGTATTTCAGAACAAAATAGGTGAATTATTTTTTAAGCTATTCTTAAATTAAGTATACCACATAAAATTCAATTTTCACAATTTTTTTTTTTACTTTTTTTAATTTTTTTTACTTATTTATCTCTATCATTTCCAAATTCAGTGGAGTTCCTCTTTTTATATCCACCACAACTTTTTTTCCTAATATATCTTTATAATATTTTGGAGCAATTCCATATCCAGGTCTTATACTCCTCACATTTTTTTCATTTAAAATCTCACCTTTTTTTATATCTTCCACAACAAATAAAGATCTCGCAAATACTCTACTATTTTTTTTCTTTTCTGTTAATTCATAATCAACTTTTCCAAGTGTCTTTTCTACATCTCTTACTCTATCCACCATCTCTTTAAATTCATCTGGTGTCATAGAAAAACTCGCATCAGGTCCGCCTATATTTCTATCTATTATAAAATGCTTTTCTATAACTTCTGCTCCAAGAGCTACTGCTGTTGTTGGAACTATACTCCCTATTGTATGGTCAGAAACCCCTATTTTCACATTAAATTTTTCTTTCATATCAATCATTGTTTTCAAATTTGCATCTTCTAATTTTGCTGGATATTGAGATGTACATTTCAATAAAGTTATATCACTATTCCCAACTCTTTTACAAGCTTCTATAGCATCTTTCATCTCTTCTAATGTTGCAATTCCTGTAGATATTATCATTGGTTTTCCTTTTGAAGCAGCATATTCTATTAATGGAATATCCGTTATTTCAAAAGATGCTATTTTGTATATTGGAGTATTTAACTTTTCTAATAAATCAACTGCTGAAAAATCAAAAGGGGTAGAAAATATTGTTATTCCTATCTCTTTTGCATAATCAAAAAGTTCTTTATGCCATTCCCAAGGAGTGTAAGCTTCTTGATATAATTTATACAAAGTAGTTCCATCCCAAATTGTTCCTTGTTTTATTTTAAAATATTCATTATCACAATCAATGGTAATAGTATCAGCTGTATACGTTTGTATTTTTATAGCATCCGCTCCAACTTCTTTTGCTTTTTTTATAGTTCTTTTTGCATTTTCTATTTTATGTCCATGATTTGCAGATAATTCTGCAATAATAAAACAACTTTTCATAATTAACCTCCTTTTTTGTATTCCTATTTTCTATATTTTCTTTATATATTTCGAAAATTCTTCTCCTTCTTTAAATAAATTAAATCCTAACCTCTTAAATAATTTTACCGAAGAAATATTATTTTTATTAATCACCGCTATAATATTTTTTATATCATCTCTTTCTTTTTTTACTTTTTTTATTACATCACCCAAAATATATTTTCCCATACCTTTACCTTTTATTTTTTCACTAAAACTAGCACTTATTACTGCTTCTTCTTTATCTATAATTTTATTTAATCTAACTTGTCCCAAAAAATCATTTTTACCACTCTCTATAACAAAAAAAATAGTGTTTTTATCATTTAATTGTTTATCAAACCAAATCAAATGTTCACTCCAAAGAATTTTATTTTTATTTAAAGAATATCGTCTGACATAATCTTTATTTGATAAATCATATATGTTTTTTTTATCTTTTTCTTCCAGTTTTCTAATTTTATAATCAATAAAAAAATTATTAATTATTCTATTAACACCTTTTCCATCTATAATTTTTGGAATTTTAAAATAGTATAATTTTAACTTTTCTATTGTAAATTCATCAAAACAATTTATTCCTAGTTTTGATAATCCTTTAATATTATTTTCTTGATTATCTGCCACTTTTATTGCAACAAAAGGAATTCCTATTCTTAATAATTCATAAATAGTCTGACCTGCTGCCGAAATTGCAAAATCACATTTTAACATTAAGTTTTTCATCTCTTCTGCATTTAAATTATAATAAAAATTTGTATTATTATCTGCTTCTTTTTTTATTTGAGCTATATTTTTATAACCTTTTCCTATTACTATATGTTTTTTTAGTTTTAAATCATTTTTAGCTAATAATTTTAGAATTTTAGGAGTAATATTTTTAATATCTGAGCCACCAAATGTAATTAAAATATCTTCTATTTTTTCTTTATTATCTTTATTATCTTTATTATCTTTATGGTTTTTCATAATAGGAATATTCAAAAATTCTTTTCTAAGTATTACATAATTAGCCCCCAACAAATATCTTATTCTTTCTTTTTCAGGATAATTTAATTCTTTTCCATAAATAGAAGGATTAACAACTATTCCTTTAGGATATTCTATTCTTTGATTATCATCAATATATAAAATTTTCCCCACTTTATTTGATATAAATTTATAAATTTCTTTGTCTGCCAAATATGAATCTATTATAACATAATCATTTTTATGTAACAAATTGGAAAGATAATTTTCATCTCTCCAATCTATTAATCTGATTTTTTTATTTTTAATTATATCTAAAACTTCTTCATCTCCATTTATAATAAATTCAACTTCATATCCTCTTTTTTCTATCTCTTCATAAAGAGCACTACATCTTGTTATATGCCCATACCCTATTTCAGTTCCACCTTCTGTAAATATATAAAATTTATTATCCATAATATTTCTCCTTTAGATAATTTTTAGCTCTATCTAAATCTTGATTATTAAGTAGTCTTATCGCTTCATCTATCTCTTCATTCAAATTTTTACAAACTTTTTTCTGCTCAATTTTATTATTTATATTATATAACCATTTTTTCTCATTAAATAATTTTATAATATCTTCTGCTCTAAAATATCTATTTTTCATATATAAAAAATCATATACTGCACATAATAATATATAATCTTCTTTAGTATCCAATGTTATTCTTATATTAGGAGCTCTTAATTCATCTTGAGCTTCCAAAATCCCTATTTTAAATTTTTCAGAATGACTCTTATAAATATATGGAGTTACATGCTCTATTTCAAATTTTTCTTTTGCATTATTATAAGCCTCTTCCAAAACTTTAAAATTAATTATTTCTGCATCCAAGCCATGAGGAAAACTTCTTTTTAACGCATTAGTTGTATAATCATTCTTCTCTTTTATATGTTTTTGTATTAATTCATCTATTATTTCCCAATCTATACAAGGACAATCGCTAGTTATTCGCACTATAATATCTAAATTACTTTTTTTTGCTGATAAATAGTATCTTGATAATACATTCTCTTCTAAGCCTCTATAAAAATCAACTTGCTCTCTGTTTGCAATTTTAATAATTTCATTATCATCTTCGTTTGTAGTTGTTGCTACTATTATTTTATCTATTTTTTTACTTTTTTTCACTCTTCTTATTACCTGCTCTAATACAGTTATTCCTGAATCAAAAGGCAGGAATTGTGCTACTTTCCCTGCCAATCTTGATGAGCTCATTCTAGCTTGAATTATGCATCCTATTTTCATAATTATCACACCTTAATATCCTATTTCAATTTCATCTAATGCTTTTTTTAAATCTTTTGCATCCAACCATTCACTATTATCTCCAGAGTTATATTCCCATCCTTGTTCTATTAATTTCCCGCCAGGTAAAAAATACTCTTCAAAATTCCACCATTCAAAATCAGGATAAATAATATAATAATCTCCATATTCATATGTCATTCTCGAATCATCACTTGTAATCATACGTTCATGTAATTTTTCCCCTGTTCTTATTCCTACCTCTTTAATTTTTCCACTAGGCAACATAGCTTTTACTAATTCTGTTATTTTAAAAGATTCATTTTTAAATACAAATGTTTCTCCGCCCTTAGATTCATCTAATGCTTTAAATACTAATTCAGAAGCCTTTTCAAGTGTCATCCAAAACCTTGTCATTCTAATATCAGTTACAGGCAATTCCGTTGCTCCATTATCAATTAATTTTTGAAAAAAAGGTATTACAGAGCCTCTACTTCCAGCCACATTTCCATATCTAACTACCGAAAAAACCGTTCCTTTTTCTCCTTTGTATGAATTTGCAGCTATAAACAGTTTATCAGATACTAATTTAGTTCCACCATACAAATTAATAGGATTTACAGCTTTATCTGTAGACAATGCAATAACTTTTTTCACACCACAATCAAGAGCAGCATCTATTATATTCATTGCTCCATTTATATTTGTTTTTATAGCTTCCTTCGGATTATATTCACACGCTGGTACTTGTTTCATTGCAGCAGCATGAATTACATAATCTATCCCTTTAAATGCTCTATATAATCTTTCTCTATCTCTTACATTTCCAATAAAAAATCTCAATTTTGAAAATTGTTTTTTAGTTAATTTTTTTTCAAACATTTGCCTTACCATAAATTGTTTATATTCATCTCTTGATAAAATAACAACTTTATCAGGATTATATTTATTAAATATAGCTTCTATAAATTTTTTCCCAAATGAGCCTGTTCCACCAGTTATTAATATTTTAGCATTATTTAACATTTCCATCATTCTCCTTTTTAATTTCTTAAATTTTAAATTTTAAATTTTCTTTATTTCTTTTATTATCGGCAAGTTATCAAAATTCCCTAAAATCTTTTATCTTTTATCTTTTATTTCTTGTTTTTATCTTTTAATTCCCCCGTGCATTTGCGTAAAGTTATAAATTTTCTTAATGGATTTGCCGTTAAGCAGCTGCCACTGTCTGAGCGCAGCGAGTTTGGCAGTTGTAGGCAAGTCCATTTAGAAAATTATAACTTGGAGCACTAGCACTTGATTTTTTGCTCCTTTTTTATCAAGAAAAAAGGAGTTCGCCCAAAGGCGAATAAAACAAAAACCACAAAAAAGATAAAACTAAAATAAAAGTTCTATCTTTTTTTAATTAAAATTAATTTTAAAAGTAAATTTTTAATATTTTGTTATAAAAATGCTTAAATCATTGCGTATTTTTCAACAAAATGAGAATATTATTTTTAAGCCGTTCCTATATTTTTATTCCTAATATTTTTTCAATAGCCTTATACAAATGTTCTTTCCCTACAGGCTTTGTTATACACAATTCCATACCAGCTTCTAATATTTTTTCTATTTCCTCTTCTCTTGCATATGCTGTAACAGCTATAATTGGTATTTTATTTAATTTAGAATCATTTTTTATTATTTTAGTAGCTTCATATCCATTCATTACCGGCATTTGTATGTCCATTAATATTAAGTCTATTTTCTCCATTTTCTCTAAAATTTCAATAGCAATTTTTCCATTAGTTGCTGTTATTGTTTTAAAATTTATTTTTTTCATTAAATACTCCAACAAATGAGCATTTATAACATTATCTTCTACTATAAGAACTATTTTTTCTTCCTTAATCTCCTCTAATTTCATTTTATCATTTTTTGTTTTATTATTTTTCATCACTGCATTCTCTTCATCTATATTTTTATCTAACTCATCACTAATATCCTCTATTTCATTATTCTTATTTAAAATTTCTAAAGGTAATATAAAAGTTATTTCTGTCCCTTTCCCCTTTTCGCTGTTTATAAATATTCTTCCGCCCATTAATTCTACTAATTTTTTCGAAATAGATAGTCCTAGTCCTGTACCTTTATACCTCTTATTATATGAAGAATCTCCTTGTGTAAAAGGTTCAAAAATTTTATCAATTTTGCTTTTTTCTATTCCTATTCCACTATCTTTTACTTTAATCTCTATTCCCATTTTATTATCTATAATATATTCTTTTTTTACTTTTATATTAATTACTCCATCATCTGTAAATTTTATAGAATTTCCTATTAAATTTGTTAATATTTGTCTTATTTTCCCTTCATCTGCCATTATCTGTTTTGGCAGTGCTTTATCAAAATCCAATAATAATTCCAACCCTTTTTTATTAGCATTTATCGATAAAAATTCTATAAGATTTTCAAAAAAACTCTTTATTTCAATTTCAGTTTTATTTATTTCTACTTTCCCAGCTTCCATCCTAGATATATCTAATATATCATTCACTATTTCCAATAAATTTTCAGCAGAATTTTTTCCCATTTTTACAAATTTCATCTGCTTCTCATCTAACTCTGTAATCTCTAAAATTTCTAACATACCTATAACTCCGCCTAATGGAGTTCTTAATTCATGGCTCATATTAGCTAAAAACAAGCTTTTAGCTTTATCTGCTTTTTTAGCTTCCTCTATTGCTTTTTTTAATTCTTCCTCTTTTTCTTTTCTTTCTGTCACATCTATTGCTATTCCTAATGAATAAACCTTTCCACTTATTTCAAATGGTATTTTTCTAACTTCTAACCACCTTTTATCTTGTTTTATAGTTGTAAAAGATTCTAAAGGAATATATTTTTCTATTTTAGTTTCTATAACTTCTATATCGCTTTTAAGATATTCTTCTGCTTCTTCCAAATTTAAATTATATTTTTCATATATATCTTCTATTTTAAAATTTTCTATTTTTTCTATTGGAATACCATAATAATCACTTAATGTTTTATTGGCAATTAAAAATTTACCCTCTTTATCTTTTGCAAAAATAAAAGCAGGTGCATTATCTATTATTTTTCTTATTAATATATATTGTTCTTTTATCTCATTTTCCATTTTTCTAATTTTTGTAATATCTCTTGTAATTGATACCATTGAAATAATTTCTCTATTTTCATTAAATATAGGATTTATCTTGCTTTCTACCCATATATACTCACCTTTTTTATTTCTCATTCTATATTCATAAATCATCTCTGAATCTTTATTTGTAGTATGTAGTTTTTTTGCCATTTTTTCTATATCATCTGGATGTATAAAACTATATGGATCCTTACCTATAAGTTCTTCTGCTCTATATCCTAATACCTTAAAAACAGAGTTAGATACTTTTGTAAATTTTCTATCTTTATCATGAAAACTTATTATATCTGTTGTTATATCCATTAAATATTCACATTCTTTTTTCGTATCATTCAATTTATACTCACCTCCATAATTTACCATAAATTAATATCAAAACTGCTACATCCATTTCTTAATTATACCATATCAAATCCCTAAAATAAAGAAAATGCAGAAATAATTTCCGCATTTTCTTTATTTTTATAACTATTTTCTATCTTTCTTAATTTCTTCAAATATTTCATCTAAATTTTCAACTACAGCATCTATATCTTTTTCTTCTATTATTAATGGTGGCAAAAATCTTAAAACTACTCCACCAGCACTTCCAATTAATATTTTTCTCTTTAACATTTTTTCTACTGTATCTTTTATTAAATCGCTTTCTATCTCTAGACCTATCATAAGCCCTTTTCCTCTAACTGATTTTACAAAATTATATTTTTTTACTAATTCATTTAATTTAAATCTAAAATATTCTCCTTTTTTTCTCACACCATATAGGAATTCTTTTTTAGAAATTTCCTCTACTACAGCTATACCTGATGCTGTCGCCATAAAATTTCCACCAAATGTAGAAGCATGATCTCCAGGCTCAAATATCGAAACTTCATCCGTTGCTAATAAAGCTCCTATTGGCAACCCATTTCCAAGAGCCTTTGCTGATGTAATCATATGAGGTTTCAATCCGTAAATTTCATATGCATATAAATACCCTGTTCTTCCTACTCCAGTTTGTACTTCATCAATTATAAGCAATATCCCTTTTTCATCTACTAATTTTTGCAACTCTTCCCAATATTCTTTAGGCGCAATATTAACTCCACCTTCTCCTTGTATAACTTCTATCATTATAGCTAATGTATTATCATCTATTTTAGATTTTAAATCCTCTATATTTCCAAATTCAGCATATTTGAACCCTTCTGTAAGAGGTGTAAAATGTTTTTGATATTTCTCTTGTCCTGTTGCTGTAACGGTTGTTAATGTTCTACCATGAAAAGATTTTTTCATAGTAATTATATCAAATTTCCCATTTAACTTTAACTTACCATATTTTCTAGCTAATTTTATTGCACCTTCATTAGCTTCTGCTCCACTATTTGCAAAAAAAACTTTATCAAAAATTGTATTTTTAACTAAAAGTTCCGCTAATTTTATTTGTGGCTCAATATAATATAAATTTGAACTATGCATAATTTTTTCTGCTTGATTTTTTATTGCTTCTACAACTTTAGGATAAGAATATCCCAAATTATTTACTGCTATTCCTGCAAAAAAATCTAAATACTCATTTCCTTCAGTATCATATAATTTTACTCCATCTCCAGATACAAATGACACATCTATTTTTCCATAAGTATTCATTATATATTGTTTATCTTTTTCTTTTAATGTTTTTAAATCCATTCTTTAATTATCTCCTCTCTAATCTTCTTTATCTGCTTTTTTTATCATTGTTCCTATTCCATCATCTGTAAATAGTTCCAATAAAATAGCATGTCTAACTCTTCCATCTATTATATGGACTCTCTCTGCGCCTTTTTTTAATGCTGTTAAACAAGCATCTACTTTAGGCAACATTCCACCAGATATAATCCCACTATCAATAAGTTTTTCTGCATCATCTAAACTCATTTCTGATATTATACTACTTTTATCTTCTATATCCTTTAATATACCTGCTATGTCTGTCATTAATATAAATTTATATGCACCTAATGCTCCTGCTAATTCTCCTGCTACATAATCAGCGTTTATATTATAACTTTTTCCTTCTTCATCCACACCTACAGGAGATATTACTGGAATAAATCCCTCTTTTTCTAATATCCTAATCATTCTAGGATTTATAGTTTTTACATTTCCAACATAACCTATATCTACTTTCTCGCCCTCTTTTTCAATATATTTTTTATCTGCAACAATCAAATTGGCATCTGTACCACTAAGCCCTACAGCTTTTCCACCAAATTTATTTAATTTTGTTACTATATTCTTATTTATTTTTCCAGCTAATACCATCTCTACTACTTCCATAGTTTCATAATCTGTAACCCTATTCCCCATATTAAATTGTGCAGTTTTCCCCAATTTACTTAACACTTTATTTATTTCAGGTCCACCACCGTGAATAATAACAGGATTCATTCCTACAAATTTCATTAAAACTATATCTTGAACAACTTCATCTTTTATTTTTTCATCTATCATTGCATTCCCACCATATTTTATAACTACTGTTTTTCCATAAAATTCTTTTATATATGGCAATGCTTCCATTAATATTTCAGCTCTTTCAATTTTTTTCCCTATCAATTTGCTATCCTCCTTCAATATTTATCAGCTCCTATAATCAGCATTTATTTTTATATAATCATATGACAAATCGCAACCCCAAACTCTTGCTGTTGCCTCTCCTAATTTTATATCAATAGTTATAACTATTTCATCTTTTTTTAATTCTTTATTAATTTCAACTTCACTTTCTAAAACTCCTATTCCATTCTCACATACTTTTATATCTCCTACAAAAATATCAATTGTTCCTTCTTCCACTTCAGCATCAGAATATCCAATTGCCATAATTATTCTACCCCAATTTGCATCTTCTCCATAAACTGCTGTTTTTACTAATGGTGAAGTTATTACTGATTTTCCTATATTTTTCGCATCTTTATCAGAGTCAGCATTTAAAACTTTTACTTCTATTAATTTTGTAGCTCCTTCTCCATCTCTTGCAATACTTTTAGCTAAATGCTCCATTACAAAATTTAAAGCATTTTTAAACCTCAAATAATCTATACTATTTTTATCTGTAACTTTTTGATTATTAGCAAAACCATTTGACATAATAATAAGACTATCATTAGTAGATGTATCTCTATCAACTGAAATCATATTAAATGTCTTATCAGTTATATCTTTTAATGTATTTTGTAAAAGCTCTTTATCTATATCTATATCTGTTGTTATAAATCCAAGCAGAGTCGCCATATTAGGATGTATCATACCAGACCCTTTTGCTATTCCACCAATTCTTATTTTTTCACCATTTTCTGTTTCAAATTCTACCGCTATATGTTTTTTTACTAAATCTGTTGTCATTATAGCTTCTATTGTATCTTTTCCACCATTATCTTTTATCTCTTTTACTGCTTTTGGAATAGATTTTTCTAATTTTTCCATAGGTAATTGCACACCTATCACTCCAGTGGAACATACCAAAACTTTTTCTTTATCTAATCCTAAATTTTCAGCTGTTATTTCAGTCATCCTAAGAGCATCCATATATCCTTTTTTTCCTACACAGGCATTTGCATTACCGCTATTTACAACTATTGCATTAATATTTCCTTTTGATAAATTTTCCCTATTTACATCAATAGTTCTTGACCTGACTTTATTAGTTGTAAAAACAGCTGCTGTTACACATTCCTTTTCACAATAAATAATAGCTAAATCTTTTTTATCTCCTCCATTGCCTTTTATATCAGCAACTACTCCAGAAGATTTAAATCCATTTACCCAAGTAATATCTCCATCTTTTAATACTTTCACTTCGTTCATTTTTATCACCTCTATATTAAATTAAAAATTCTCTTTTAGAAAATTATAGTTATTTACAACTTTTTTTAAATATGCAGTAGTTATATCTTTACTCTTTTTTTTATCACTTATTTTTTTAGTAAGAGAAGGTCCTAAATTATAAGCTACAATACCTTTTTTCACATTATCAAATTTTAAAATCTGTTCAAAAAGATAAAAAGCACCAATTAACACATTTTTCTCTATATTATACAGTTCATATTTATTTTTTAGTTTTACTCCTATTTTTTTACCTGCTTCTTTTGCTGTCCTATATTTTATTTGCATTAATCCATATGAAGGATCAGTCGATCTTAGCCTTGCCCTAAAATTACTTTCTGTCATTATAACTGCCAAAATCATTCTCCAATTATATTTATATTTTTGACTTTCTTTATATATTACTTCTGATAATTTTTCCTGTTCATTTTTATTTAATGTATTTCTACTTAAATTTTTTATTGCATCTAATAGTTTTTTAAACTCTATTAATTCTTTTAACTTTTTATCTTTTATTCTCATTTCAGCTTTTAATCTTTCTATTGTTCTTCTATGTTTTTCAATTTGTATATTTCTTTGGGAAATTTCTCTAATTATAAGTTGAGAAAATAGTGCTATTCCTATACCAAGAAACAGCAATAATATAAATGTAGCAAATTTACTCATTCTAATATTTATACCTGGTCTACCTGCTTTTATAGATATAAATTCCTCAAACATAGTTTCAATTTTATTTTTCTGTTTTTTATTTGCTTTTTCTTTGATTTTAATCGCCCCCTGAATAAATAAATATCAAAAAAATTATATCCCATTTTTATAATCTTCCTAATATTCTTCTTCTCACAATTATACTCTATCTCCTTATATTTATCAAGATAATTCGAAAAATAAAATGGTTTAAAAAATAGGGTTTGCCATTGGCAAACCCCTACTATTTTTATTTTATATAATTTTTTTCTTTTGCATAATTAAATAATCCACCAGCATCTATTATATCTTTTACATCTCCTAATTCCTTTAAAACATACTCTTTTTTAGACGTTTTATTTTTCAAAATTCCTTTTAAAACATCTATTTCAAGTTCGTCTCCTGTTTTTATTTCATCTATTAATCTTTTTTCTGTTTCATATGGAATTAAAAATCCTCCATCAACACTATTTCTATAAAAAATTCTTGCATAATCTTCTGCTATTACAGCTTCTATCCCTGCTTTTGCTAATGCAAATGGTGCATGCTCTCTACTTGAACCACATCCAAAATTTTTACCAGATATTACTATTTTATATTCTGATTCAAATTCTCCCTCTTTTATAAAAGGAGTATCTCCTATTGCTTCTTTTGGTAATCCAGAAAATGCATATTTCCCATAAAGTTTTGATTCCTCTTCATCATCTAATTTATATACAAGATGCATTGCAGGAATTATTTGATCTGTATCTATATTATCACCTAAAACATAAGCTTTTCCTTTTATTATATCTGCCATTCTAATTCCTCCCTTATATAAACTTTCTTGGATCTGTAATATACCCAGTAACTGCTGAAGCTGCTGCTGTATATGGAGATGCTAAATATATTGGTGCATCCATAGAACCCATTCTACCTGGAAAATTTCTATTTGTAGTAGATATTACTACTTCTGTATTATGAGTTCTTCCAAATGTATCTACTGGACCTCCAAGACATGCTGCACAAGAAGGTTTTCCTACTTTACACCCTGCTTCTACAAATATTTCCCTTAAACTTTGACCATCAAATTTTATCTTATCCAAAGATTCATTTACTTTTGTAGTTGCTGGCACAATAAACGTATCTATTGCCACTTTTCTACCTTTTAATATTTTAGCTGCTGCTACAAAATCAGCTGTTTTTCCACCTGTACAAGACCCTATGTATGATCTATCTAATTTTACATCACTTAAATTCTTAGCTAGCTCTTTATTCCCTGGAGAATGTGGTTTTGCTACTACTGGTTCTAATTTAGTTGCATCATAGACTTTTGTAAATGAATAATTAGCATCTTCATCAGATTTTAACATTTCAAATGGTCTATTAGTTCTTTCATTTACATATTCAACTGTAATTTCATCTGGCTCTATTATTCCGCATTTACCACCAGCTTCTATACTCATATTACAAATTGTCATTCTTTCTTCCATACTTAAAGAATGAATTGCTTCGCCATCAAATTGCATACATTTATATGTAGCTCCATCAAATCCAATATCTCCTATAACTTGTAATACTATATCTTTTCCCATTATGTATGGAGGCAATTCTCCTTCAAATGTAAATCTCATAGTTTCTGGAATTTTTACCCACAATTTACCTGTACCCATTATATAAGCACCATCTGTATTTCCTATTCCTGTTGCAAATTCTCCAAATGCTCCTGCTGTTCCTGTATGAGAATCTGTTCCAAATAATACTTCTCCTGGTCTAGTATGTCCTTCTTGGGCTAACGCTACATGACATACTCCTTTATAATTTGTTGTAAATGGTTCATAAAAATATTTCAACTCTTGTTTTTTCGCAAAATCTTTTACATATTCTATATTTCTCATTGCATGTTTATCTTTTGTAAATATATAATGATCAGGCACTAATACTATTTTTTCTTTATCCCAAACCTTTGCATCTTTTCCAAATTTTTCTTCAAAAATAGCCATTGTTCCAGGCCCTGTTACATCATGTGTCATTAGTACATCTACATCTACCCATACATTTTCACCAGGAGTTACTTTTTCTTTTCCTGAATGTTTTGCTAATATTTTTTCAACAATTGTCATTCCCATTTTGCTGCCTCCTAATCTCTGTCATAGTCTATTAATACATATAATTATACAACTTTCCTATTATTTTGTCAATAAAAAAATAAGCTATGCGTCATATGGTAAAGTATAAATGTTTTTCAAAATTTTTGGTTTCTGAAAAATTTTGCCTTGAAAAATTGCATATTTCAAAAAAATGGCATAGCTTATTTTCCAAATAAAATTTATACTTTCCTAGTAAATAAAAAAAGAGAGTTTTTATCTCTCTTTCTAATTTCCTTTTTTATATTTTTCTAACCAATACTCACTTTTTCTTTTTATTCTCTGCATTGCATTGTCAATTGCCTTTGTCTTTTTATCCATAGTTTCTGCTATTTCTGTATAGCTTTCTCCACACATCATTTTTTTAAAAACATTATATTCAAATTTACTTAAATTCTTTTTCAAATAACTTTTTAATCCTTCTATTTGTTCTCTTGATATATATATCTCTTCTGGATTATAGATTATATAAGATTCTAAATATTTTGAACTATCATAATTATCATCTACATAATCGTTCACCACTTTATTTAACGCTTTATTTTTTTTAGTATTTGAGCTCTTTATAGCTGAAATCAACTGTCTTTTTATACAAATTGATGCAAATGTTTTAAAAGATGCTAATTTATTTGAATCATATCCTCTAATAGCTTTTAATAATCCTATCATTCCTTCTTGAATTAAATCTTCATGATCTGCTCCTATTAAAAAGTAATTTTTGGATTTTATATATACAAAATCTTTATACTCTGTAAAAATTTCATTTACAGCATCCTCATTTCCAGATTTTGCTTCTTCTATTAACTTTTCATCAAGGTCTTTTATCTGCATTTTATCCTCTCCTATTTAATAGAATTTGTGATAATAATATTCCTCCTGCTACTGAAACATTAAGAGAATTTACATTCCCAACCATTGGTATTTGAACCATAATATCGCAATTTTCTTTTACAAGTTTTCTAATACCTTGCCCTTCACTTCCCAAAACTAAACAAGTTTTATTTGCATATTTTTCTTTAGTATAATAATTTTTACCATCTGCTTCTGCTCCATATACCCAAAAATCTATTTTTTTCAATTTTTTCATAAATTCTACTAAATTTTTAACAACTACAATATTTACATGTTCTATTGCTCCTGTTGAAGTTTTTATCACTGTCTCATTTATTTTCACACTTCTTTTTTCTGGAATTATTATTCCATCTACTCCAAAAGCATCTGCACTTCTTATTAAAGCACCAAAATTTCTAGGGTCCTGTACATTATCTAAAACAAGTACTGTACTCTCTTTTTTTCCTGCTAATCTTTCTAAAAATTCCCATTCATCAACAACATAATTATATTCTTTTAAGTAAGCCACTATTCCTTGAGTGTCTTTCTCTCTTTTCTTTATATAATCGACTTTTATTCCATTTTTTTTACATAAATTCACAATTTCTTCAATTTTATTTTTATTAACTCCTTCATAAATCTCTATTTTTTCAATTTCACTATTTTTTTTTACTGCTTCTCTTACTGGATTTACACCATATATTTTATTCATATTTAAACAACTCCTAATTTTATTCTTTCTATGTCTGCTCCTATTTTTTTTAATTTTTCTTCAAATTTCTCATAACCTCTGTCTATGTGATATACTCTATTTATTATTGTTTCTCCTTTTGCTGCAAGTGCTGCAAGTACTAAACTTGCTCCTGCTCTCAAATCAGAACACATAACTTCTGCCCCTTCTAATTGACCTCCACCAGTAATTATAGCTATATTTCCTTCTATATGTATATTGGCACCCATTCTATTTAATTCAGATACATGCATAAATCTATTTTCAAAAATTGTTTCTTTTATCTCACTTGTTCCTTTTACAAAATTAAGTAAAATCATTATTTGTGCCTGCATATCTGTTGGAAATCCAGGATGTGGCCTTGTTTCTATTTTTATTGCTTTTAATTCTTTTTTTTCAATTGTTAATTCTCCATCTTCTTCTATAACTTCTATTCCAGCTTCTTTTAATTTCATTAAAAAACTTTCTAAATGTGACAAATTTGCCCCTAATATTTTCAAATCTTCTCCCACTAATGCAGCTAAAATTATAAATGTTCCTGCTTCTATTCTGTCAGGAATTATTTTGTATCTACCTGGATATAATTTTTTAACTCCAGTAATTTCTAATCTATTTGTACCTACTCCACTTATTTTAGAACCCATTTTTATTAAAAAATTACATAAATCTTCTATTTCAGGCTCCATTGCTGCATTTTCTAAGATAGTTACTCCTTCTGCTTTTACAGCTGCCATAATTATATTTTCGGTAGCTCCTACACTTGGAAAATCTAAATATATTTTATTTCCTACTAATTTTTTAGCTACTGCTTCTACATATCCATGTTCTAAATTTATTGTTGCTCCTAATTTCTCAAATCCTTTCAGATGATAATCGACAGGTCTTGCTCCAATTGCACAACCACCAGGCAGAGAAACTTTTGCTTGATTTACATTTCCTAATAAAGGTCCCATTACAAGAAAAGAAGCTCTCATTGTTTTTACTAAATCATATGGAGCTTCTATACTTTTTATTCCTCTGTTTATAAGTTTATAACTATTCTCATCTATTTTTTCAACTTCTATTCCTAACTCTGTTAATAATTTTAACATAGTTCTAATATCTTTTAAATTTGGAACATTCTCAAAGATATACTCTCCCTCTTCTAATAAAGACCCTGCTAAAATTGGAAGTGATGCATTTTTAGAACCACTTACTCTTATTTTTCCTTTTAATTTTTTATTTCCATTTATTTTAAATCCATCTACCATCTATTTATTCCTCCATATTTTACTAATTCTATTTCATGATTTTATTTTCATCTTATTTCTTACAAACGGCACATTTAATCCCTAATATTTTATCAAATATAGTCATTTTTTTAAATTCATCTTTATATTGTGGCAATTTCTTCACAACTTGTTCATAACATTCATCACAAATCTTTTTCCCCTTATTTTTGCTGAATTTTTCTCCAAGTCCAGCATCAATAAAATCCTGATCCATATCTCTAATTACTACATTTTCTTTTGTCTCTTTTAATGCTTCTTTTGCTGCTATTATTAGTCCTATATTTCCACTATAGGCTAATCCGTCCACTAATTGATATTTTAATTTTATCTTTTCTGCTTCTGCTATATATGGCTTTAATTTTTTCAATGGTAAATCTCTTGACATCTTTAAAATATAAGCTCTAGTTTCATTTATTGCAGCTATAATTTCTGGATATACATCATCTTCTATTATTTGGTCTTTTGTTAAAGCAGCAATTATTCTCTCTTTGTATTCTCCTAAAAATATATTTTTTTCACTTTGAACTTTCAAAAAACTCATTCTATTTTTCTCAATTTCATCTATCATTTCTCGTTTATCCATTTTATCTCTCCATGTTTATAATTTTTAATTCTCCTTTTGCAAAATCTGATACATAAAGTTTATTTTTATCAAAAAATAGATCTCTTGGCATTCCAAAATCTCCTATTTCAAATAATAAACTCCAATTTTTATCAAATTTTATTACTCTTCCATTTCCTTCATCGCTTATAAAAAAATTCCCATATTCATCTGAAACTATGCTTTCTGGATATTTTAATCCATTTAATTTTTTTTTATATTCAAGTTCAAAATATCTATTATATTTTGATATTTCAGAATTTTTCTTATCTAAAACATATATATTATTCTCAAATATTTCAAATGATATTGGATTTTCTCCATTTATTTTATACTCTTTTTTCTTGCTTCCATCTTTTGTAAATATAAAAATCTTTTTATAATATGAATCTAAAACATATAATTTTTCATTATATAATTTTAATTCTACAGGGCTTACTAATGTTTTTTCTTTTATAACTTTTTTAGTATTAAAATTTTCTTTATCTATTAAATATACTTTTTTATAATAATAATCTATTATAAATATTGTTTTATTATTTACTGCTATTTTATCAAATAAAATTTCAAATTTATAAGCATCTTTAAAATTTAAATCTTTATTAAATTTTAAAAGCAATTTATAACCTATTAAACTTAGCCATATATTTTCATCCTCTACACAAATAGCTTTTGGTTTTGAAAGTTTTAAATTATCTATTTTATTTATACTTTTTATCTCTTTGATTTCGTTATTCATTTCCCAATAATAAGAGTTTAAAATTTTATATAACTCTTTCTTATTTTTTTCATCTATAAATTCAATAAGTTTTTTATTTTCATTTTTATATTTCTTATTTAATAAACTTTTATTATAAATTTCTGCTGTTTTTTCTTTATTTTCATTTCTTATATAATAATATAAAAGTTCTTCTTTCCTATTTCCAGATTTTAAAATTTCTTCTACATTATCTTTGTTTAAAGATATTTTTAATTTATTTAATTCAGATTTTTTTTCACAGTAATACCACAAATTATCCTTTTCTATATTTAATATTGAGTAATAATCTCCTGCTATAATTGTCTTTAATAAAATTCCATAATCAGATAATTTTATAACCCTTTTATTAAATGTATCAGCTATATATATATTCCCTTTTAAAACCTTTATATCAGAAGGAAATTTTAATTTTATAGACAATTCATCTGTTTTTTCCCCAGAAAAATCATATAAATATATTTCACTAGATGATTTATCCAAAACATATATTTTATTATTATATATATCTAATTTTATAGGATATAGTTTCCCAACTTTAAATTCCTTTAAGAAATTGTTTTTTTCATCAAATATAGAAATTGTTTTTTTTGTAGAATTAATAATATAAATTTTATTCCTATATATTTTCATTCCATATGGTTCACTCAAAATACCTTTTCCAAATTCAGAATACTCTTTTTTATCTATATCATATATAACAATTCTATTATTATAACTATCTGATATATAAATTTTATTTTTTCCATACTCTATACATCTAGGATGATTAAAATCATATTTTAGCTCTTCATTATTAACAACAACTTTGTTTTCAAATTCATATACAAAAATCTCTAATTTTCCATCATTATAATAATCTGAAATTGGTTTCATAACTTCCCCCGTTGAAAATTTATTATCAAATTAACAAACCATCTTTAAGACAATTCTAAAGAATATTAATTTTTTGATAATATATCCTTTATCTCTTTTCTTGTTAGAGATGTTAATTTCATTATAGTTTCAATGTCTAATCCTAACATTATTGACTTTCTTACTACATTTTCTACCTCTTTTCTTATTCCTTCTCTTATTCCTTCTCTTATTCCTTCTTTTCTTGCTAACATTCTTGTTTCCTGCACATCATAATGTACTGCCATCTCAAACATATTCTCCAACCTCCCCTCATAAATTTGCTCAATAACTTCTTCTCTTTCTTCTTTAGGAACATTTATCCTTATTAATAGCAAATTCATTGCTTCTACTACTTTTTCTAATTCTCTTTTACTTCCAATATCTTTTTTCACATTTTCCCAATAACTTTTTTCTATATTACTTAATTTTGATAACTCTTCTGGCTTTTTTATCTTATCTATTAATAACAGTGTTGATAATAAATCTTCGTAAGTTTCAAGTTTTTCAAAACTTATTTTGTTCAGTTCTATTAATTCATATTCAAAATTAGGTATAAATCTTTTAAATTTTTCTTCATTTTTTACTTTTTCTTTAAACTCTTTTACTGATGTCCAATTCTTTATTCCGTCATAAAAAATTATTGGATATATTGGTGGCAATAAAAAACTTTTATTTTTTGATGCTTTCTTATTATCATCTATATATTTTCTCCAAAGTTTCACCATATATTCTAATATTCTAAAACTCATTAAAAAATTTATATTTGATTGTTGTTCTAATAAAACAAATACAAATATCTCTTCTCCATTAATTTTAACTTTATAAATTATATCACTTTCTCTATTAGTTTCTAATCCATCTGTAAATAATGATGGAATTAATTCAAGTTTACTTTCATCTATTTCTGATACCCAAGATTCTTTTATAAAATCTTTTAAGAGCATTAGAAATAATTTTTTATCTGAAAATATCTTCTTGAACATATCGTCTCTTTTTACTTTATTTCTCATAATTTTCCCCTTATACTCTAATCATTCTAATTTATAAAAAAATTTATTAATAAATAAGCTACGCTTCATCCGGTAAAGCATAAATATTTTTCTAAATTTTTGGTTTCTGAAAAATTTTGCTTTGAAAAATCTCATACTTAAAAAAATAGCGTAGCTTATTTTCTGAGTAAAATTTATACTTTCTTATTAAATTAAAAAATTCATCAATTCTATTATACTAAACTTACTATATTTTTTCAATACTTTAATATGCTTATTTCTTTAAGACATGATAAATTACCATTACGAATATCCCATCGCAAAAAACGTAAGGGTAATTCATGAATTACCCCTACACATATCCCCAATCTTAAAACAAAAAAGCAGGTATTCACACCCTGCTTTTAAGCCTCATCAATTTCATAATATAAATGTTTATAATGCAACTTTTGAATTATATCTCTTATTGCTAAATCAACCCAAAATTTAACATTATCTATTGAATTTCCATACCAAATGTCATCTGAAATCATCTCATCACTTTCGTTATAAATCTTAACTCTGTACTTCAAATTATTCCCCTCCCTTTTGTTCTTCAAAAATCATCTTATTAATAGCGTGTAGATAAGCTTTTACACTTGCTTCAATAATATCAGTACTTGCTCCTATTCCAGTATAATTTCCTTTTGAACCTTTTATTCTAACTCTTGCTTCTCCTAATGTTTCTTTTGTTTCACTTGTAGATTTTATATTATAATCAAGTAAAATTGATTTTTCACCAACTATTTTATCAATAGCTTTATACGCTGCATCTACTGGTCCATCTCCAATAGATGTTTCTGTAAATTCTTCTCCTGATTTTGATAATCTTACAACTGCACTTGGTATCTGAGTTCCACTTGATACACTTACATATAACACTTTATATTCTTCGTCAACTAAAGTTCTTTCTCCATCTATTATAGCTCTTATATCTTGCTCTTTTACTTCTTTTAAATTATCAGCTAATTTTAAGAATTTTTTATATAAATTTTCTATTTCACTATCTTCTAAATTATATCCCATCTCTTCTACTTTTACTTTGAAAGCATGTCTTCCTGAATGTTTTCCAAGTACAATATTATCTCCAAATACTCCTATATCTTCAGGTTTTAATATTTCATATGTACTTCTTTCTTTTAATACTCCATCTTGATGTATTCCTGATTCATGTTTAAAAGCATTAATTCCTATTATTGCTTTATTTTTAGGAATATAAAATCCTGTAAATGTTTCTACCATTTTGCTTGTATTATAAAACTGTTTACTGTTTATATCTGTAAAATAATCTCCTAAAATATCAGTTCTTGTTTTTAATATCATAACTAGCTCTTCCATTGCAGCATTCCCAGCTCTTTCTCCTACACCATTTACAGTACATTCTACTTGTTCTGCTCCATTTTGAATTGCTGCTATAGAATTTGCAACAGCTAATCCTAAATCGTTATGACAGTGAACACTTATTTTAGCTTTTTCTATCCCTTTTGTATTTTGTTTTATAGATTTTATAAATCTTCCAAATTCATCAGGAAGTTTATACCCAACAGTGTCAGGAACATTTAATACAGTTGCTCCCTCTTCTATTGCTGCTGCATATACTTTATATAAAAATTCCAAATCTGATCTTCCTGCATCTTCAGCTGAAAACTCTACATCATCAACATATTTTTTAGCAAGTCTAACAGCTTGCCTAGCTCTTTCTAATACCACTTCAGGCTCCATTCTCAATTTATATTTCATATGAACTGGAGATGTAGCAATAAAAGTGTGTATTCTTGGCTTTTCTGCTTTTTCTAAAGCTCTTGCTGCTGTTTCTATATCTTTTGATGTAGCTCTTGCTAAAGCTGCTATTGTTCTCCCTTTTATATTTTCTGCTATAGTTTTAACAGCATCAAAATCTCCTGGCGATGCTATTGGAAATCCTGCTTCTATAATATCTACATTTAATTTTTCCAATTGTTTTGCAAGCGTTATTTTTTCTTTTGCATTCATTGTAGCTCCAGGGGCTTGCTCTCCATCTCTTAAAGTAGTATCAAAAATATCTATTTTTTTCATTACTTCCACCTCTCTATAAGTATTTCAACATCTCATCCAATGTCTTTTTCCCTTTTTTTCGTGCTTCTTCAGGTAGAGTTATTTCGTATTTTTCTTCTTCTAAACTTTCTAATATATCTTCTAAATGTGTTTTTTTCATATTAGCACATACAAAATTTCTTGATACAGAATAAAATTTCTTATTAGGAGCTTCTTTTTGCAATCTATGAATCATTCCCTCTTCTGTTCCAACTAAAATTTCTTCTGCTTTTGTCTCTTTTACAAATTTTACCATACCTCCTGTACTCAAAACCTCATCTGCAAACTTTACAACTTCGGGTTTACATTCTGGATGAGCTATAAGAACTGCATTTGGATGTAACTCTTTTGCCTTTTTCACTTCTTCCAAAGTTATTCTATTATGAACATTACACTCTCCATCCCATAATACTATATCTTTTTCAGGAACATTTTCTTTTATATAATTCCCTAAATTTCTATCTGGCATAAATACAATTTTATCATTATCCACATTTTTAGCTATTACCAATGCATTTGCTGATGTACAACAAATATCTATTTGCTCTTTAACATCTGCATTTGTATTTACATAAGCTATAAATGTATAGTCAGGATATTGCTCTCTTAATTTTCTCACATCTTCTCCTGTTATTGTATCCGCCATTGGACAGCCTGCATCTTTTCTTGGTAATAATACCTTTTTTTCTGGATTTAACATATGTGCCATCTCTGCCATAAATTGAACTCCACAAAATACAATTATATCAGCCTTTACATCTACAACTTTTTTTGCAAGTTCTAAAGAATCTCCTGTAAAATCAGCTATATCTTGAATATCCCCTGTTTGATAATTATGTGCTAATATTACTGCATTTTTTTCTTTTTTTAATTTATTTATTCTATTTATCATTTCTTCCTTTGTCATTAATTTTTTGCCTCCTATAAATTTATAAAATTTTCAAGAATTATAAGTCCTTCATCATGGCTTTTTTCTGGATGAAATTGAGTAGCCATTATATTCCCTTTTTCTATTGCTGAGGTAAATTCTATTCCATAATCAGTAGTTGCAATAGTCACATCTTCTGATGGCTTAACATAATATGAATGTACAAAATAAAAATAACTATTATCTTTTATTCTTGTTAAAATTTTATTTCCTTTTTTTATTTTTATATTATTCCAACCTATTTCTGGAACTTTTAATCCTGTATTGTTTTTAAATTTTAAAACTTCACCTTTTATCAATCCTAATCCTTCTTCAGATGGATCTTCTTCACTTTTTTCAAATAAAATCTGTAATCCTAAACATATTCCAAGTAACGGTTTTTTCTTTGCTTCTTCTATTATTACTTCTTTTAGTCCCATTTTTTTTATATTTTTCATTGCATCTCCAAATGCTCCAACACCTGGTAAAATAAGTTTATCTGCTTTCCTTATTTTATTTATATCCGAACTTATTTCTACATCATCAGTGAATAGATTTAAAGCTCTTTTTACATTTGGTAAATTTCCCATTTTATAATCTATAATTATTATCAATTTTAACAACTCCTTAGAAATGGCTTAAAAATTCTTAAAAAAATTGTATGAAACTAATCCTACATTTACATTATAATTCAAACTCTCCTTAATCTCAAGTAATTTTTCTAAATTTTTAATATTTTTTTCTATTTTTTGCTTTTTTAATAAAAATATATATAAAATATCCCTTAAAAACTCTCTATTTTTTCCAATTTCTAATGCTAATTTTTCAGCAAAAATTATAATTTCTAATTCTGATAAAAATCTTTTTTTATTAATATAATCAATTATACATTTTATTATATTAACTTTAAATTTTATCTTTTGCGTGGACATATCTTTCATTTCTGATTCTTTTGTTTCTATATCTTTTAAATCCTCTTTTAAGTTATTTTTTAACTCTATATAATTTTTTAAATTGTCAAATATATTTTCATAACTTAATTCTTCTTCAAAATTATTATTAAACTCTTTAATATTTTTACTTTCTAAAATTTCTTCCATATTTCCATCAAAAAAATCATATATCTCTTCAGTAACCTCTAATTTTTTATAAGAAAGAGGTTTTATTTCAACTAAACTACTTCTCGAAATAATTGTTTTTAATAAATTTAAATTATGAGTCAATAATATAAAATATGTATTTTTTACAGGTTCTTCTATTGTTTTTAATAAAGCATTTGCTGATTCTTTATTTAATTTATTTACTTTATTTAAAATAAAAATTTTTGCCCCACCTTCATAACTACTATTTGAAGCTTCTATTATCATTTCTCTTACTTGTTCTACTTTTACACTTTTGTCTTCCATATCCAAAATTTTCAGATCAGCATAAATTTTTTTATCAATACTTTTGCATACTCTACACTCATCACAATAATCATTTTCAACTTCTGGACAATTTATAGCTTTTGCAAAATTAATTGCAAATTCAAAAATATTTACACCTTTTTTCCCATAAAAAAGATATGTTCCAGAACTTTTTTTCATTTTTAATTCATTTGTTAATATTTTTTTTGCATTTTCATCTCCTAAAAAATCTTTAAATCCCATTTATCTTTCCGCCTTTTCCAACCTTCTTAATACATCTGCCATATCAAGTGCTATCCCTGCTCCAAGTACAACTGATTCCAATGGATTATCTGCTAATGTTACAGGTAATTGAGTATTATTTGACATTAATTTAGTAAAGTGTCTTATCATAGAACCTCCACCAGTCATTACAATTCCTTTATCAACTATATCAGCTGCTAATTCTGGAGGTGTCTTTTCTAGTACTTGTTTTACTATATTCACTATTACCATTAATGAATCTTCTATTGCTTCTAATACTTCATTAGAATTTATAACAATTGTTTTAGGAAGCCCAGTCAACAGATCTCTCCCTTTTATATCCATTACTTCCTCTTGCTCTAATGGAAGTGCTGCTCCTATTTTAATTTTTATTTGTTCAGCTGTTCTATCACCTATTAAAAGGTTATGTTTTTTCTTCACATATTTTATTATATCTTCATCAAAATTATTTCCAGCTGTTCTTATAGAACGACTTACCACTGTTCCTCCTAAAGATATAACAGCTATATCAGTAGAACCTCCGCCAATATCAACTATCATACTCCCTTCTGGAGCAGATATATCTATTCCAGCTCCAAGTGCAGCTGCTCTAGCTTCTTCTATAATGTATGCTCTTTTGACTCCTGCAGCCAAAGTTGCTTCTAATACTGCTCTTTTTTCCACTCCTGTTACTTCTATAGGAACACATATCATTACTTCTGGTAAAAATATATTAAATTTACCAAAAACTTTTTTTATAAAATGATTTAGCATCTGCTCTGTTACATCATAATCTGCAATAACTCCCTCTTTTAATGGCCTTATTGCTATAATATTATCAGGTGTTTTTCCTAACATCTCTTTTGCTTCTTTCCCTGCTGCTAAAACTTTTTTTGTAACTCTATCTACTGCCACAACTGAAGGTTCATTCAAAACTATTTTTTCTTTTTGCTTATAATACGCAAGCGTATTTGCTGTCCCAAGATCTATTCCTATACTTTTATTCATACTAAAAAACGATTTATGAAATAATTTAGCCATTTTTTTCACCCTCTATTATATATTTTTCTATCAAATTATTAACTTTATCTTTCTCATTGTTCAAATAATAATATCCAACTAACGCCTCTAGTGCAGTAGCGTTTTTATACTCTTTTTGAGTACAACTTTTAGGATAACTTTTTATTTTAGCATTTCTTGCTCTTAATGCAATACTTTTTTCCTCTTCTGGTAAATTTTCAAATATTTTTTCAAAAATTATATTCTGACTTTTCGCATTAACATATTTTCCTACTAAATTATTTAATTTCCCAACTTTATAATTTTTCATTACGAAATACTCTCTTATATGTAATTCCCATATACTATCTCCAAGATAAGCCAGAGCTAAGCTACTAAGTTCTTTTAATTTTGAATTTCCCATGTTGTTTTATCCTTCCCATCTTTTAAAACTATATTTAGTTTTTTTAGTCTATTTCTTATTGTATCTGCTAATTCCCAATTTTTCATATTTTTAGCTTTAAATCTTATTTCTAATAACAATTCAACTAATTCATTTGTTAAATTATCTTCTATTTTAGTTTCTAATTCTAATTCAACTCCAAATACATCTTCTAAAATAGTTTTTATTAAATTATATATTTCATTTAAATCATTCTTATAAATTTCTGGATTTGATTCTTTATCTAAAAATTTATTTAAATCTTTTATTAATTCAAATATAGCCCCTAAAGATTTTGAACTATTAAAATCATTATCCATTCCATCTTCAAATTTATCTTTAAATATAACTAATTGCTCTTTTAAATATTTATTTTCTGATTGTTCCATATTTTCTATTGGATTATTTATCAATAGTTTTATTCTTTTCATAAAAGTCTCTATTCTTTCTAATCCTGTTTTAGCCATTTTCAATTCATCTTCACTAAATTCTATAGGTTTTCTATAATGAGAAGATAATACAAAAAATCTTAATATTCTTCCATTATATTTTTCTAAAATTTCTCTTAACAGAAAAAAATTGCCTTTTGATTTCGACATTTTTTCTCCTTTTATATTTATATAGCCATTATGCATCCAATAATTTGCAAACTTTTTACCTGTTGAACATTCTGATTGAGCTATCTCATTTTCATGATGTGGAAAAATAAGATCTTGTCCACCACCATGGATATCAAAAGTTTCTCCAAACTCATCCATACTCATTACAGAACATTCTAAATGCCACCCTGGTCTTCCTTCTCCCCAAGGAGAATTCCATTTTGGCTCATTTTCTTTAGCTTTTTTCCATAAAGTAAAATCTAATGGATTTTTTTTATTTTCATTTACTTCTATTCTTGCTCCTGATATTAAGTCTTCAACTTTTTGATGGCTTAATTTTCCATATTCTTTATCACTAAATACATCAAAATAAACATCTCCATTTGACTCATAAGCATATCCTTTTTCTTGTAATTCTTTTACCAATTTTATCATTTTACCTATATACTCTGTAGCTTTTGGATGTTTAGTTGTACTCTCTTTTATATTTAAAGGTTTAGTATCCTTAAAATATTCTCCAATAAATTTTTCAGCTATCTCTTTTACTGATTTCCCTTCTTCATTTGCTTTATTTATCATTTTGTCATCTATATCGGTAAAATTTTGTACATAATTTACTTTGTAGCCTTTATATTCTAAATATCTTCTAACAGTATCAAAAAATATTATAGGTCTCGCATTCCCTATATGTATATAATTATAAACTGTAGGCCCACAAACATACATATCCACTTCATTCTTTTTTCTTGATTTAAATTCTTCTAATTTAGAAGTTAAAGTATTATAAATTTTAAGCATTTTATCCTCCTAATACAATATATTTATTATCTGATCTGTTTTTATTTTTTTTCACTCGCATTAGCTTCTTCTTTATTAATTTTTTTTGAATCTATCATATTAGATTTATTATTATTTTCTAAAGTTGATGCTAAATCCAATATATCAAAAAATGCTTTTACATTAAAAGAAAATTTCAATTCTATACTATTTCCATCAGAAATCCCAGCTATTTTATAGCTACTGTTTTTCATCTTAAACTGTGGCATTAATTTTGATAAATCTATATTGCTATATAAAAATGTATTATTCTCTAATTTTATACTATTATTTTTTATTTTGTAATCATTTAATATTAATTTACCCGCTTTATCAAACTTTACATTCATCTTATTTGATATAATATATTTTCCATTTTGAGGTAATAATCCTAAATTTTTAAATACTCTTTCTAATCCATCTTTAGAATTTAAATCTAAAACAGCAGAAATATTTTTTTCTGTATCTGCTTTTAAAATCATTTCATTTCCTACACTATCTAATAAATTCTCTCCTTTTCCACCTGTAAATAGATCTAATACTGACAAATAATCTGTACCTTTATATTTTTTTATATCATTTAATATATATTTTATTAAATTTGAAAAGCTGTTATTTGCTAAATATAACTCATTATCACTAATACTAGTTTCTAAATTCCTATTGTTAAGTTTATTTGTGCTTAATAATTTAAATATATCACCTTTTCCATTAAGTTTCATACTAAAAACTATTGAATCTTTCGCTTTTATATATTTAGAATATATAGTTGCAAAATCTAAATCTGTTATATAATTATTTTCAGGAATATATTTTTTATAACTATTATAAATTTTATTTGCATCAACTATATAATACACATATTTATTTCCTTCAGTTTTAATTTTATCTAACATTCTTTTGTTAGTTTCACCTTTTTTTACTAAATTAATATATTTATCTAAATAATCTTTTGATAAAGTTAATACAAAATATCCTTTATAAGGTCTCATATAAATTTTAATATTTTTCAATTCCTTTTTATAAATTTCAGTAACATTATTTTGTTGGAATAAACTCTCAATATATTCATCTTTTAATATATAACTATTCCCATCTTTATCAAAAAATTTATCTAGTTGAGTTAGTGCCACAGAATACAACTCTCCACTATCTAATATAATAGCTAATTGTATATCTTTTGCACTTTTTATATCTTCAATTTTTTGAAATTCATGCACAACAAGAGTTTGCTTTATATATTTTTCCAATTCCATAGAACCTTTTGCTTTTTCATATTCCTTAGGCATTTTAGTTTTCATATAATCTTTTATTCTCTCATTTAATTCCAATATATCTTTATCATTTGATTTGCTAATTCCTACTACATCACTATCCTTAATTACAAAATCCATAATATCAGCTTTACTTACATTTAAAAATATTCCATACCCCATTACTCCTAAAAACATTATTATCGCTACAGAAATCCAAACTTTTTTCATTTTTTAAATATCCTCCCTTTTTTCTATTCTACAATTTCCTCTACATTCTTTAAATTCTTTTATTAATATATGTACCTCTTTTTCAAAATCTTTCATTCTTTTCATAACTGGATCTGGCAAGTCTACATGGTCTAAATTAAGAATAGATGCTTTTACTTTTTCTCCATTCATTCTAACAATTCTGCCAGGAATTCCAACTACTGTTGCATTACTTGGTACATCACATAATATCACTGCATTTGCTCCAATATTAACGTTATCTCCAATTTCAAATGAACCTAATATTTTTGCTCCTGCTCCTACAATTACATTATTACCTATTGTTGGATGTCTCTTCCCATTTTCTTTTCCTGTTCCACCTAATGTTACACCTTGATAAAGTGTTACATCATCTCCTATTATTGTTGTTTCTCCTATTACTATCCCCATTCCATGATCTATAAAAAATCTTTTTCCTATTTTAGCAGCTGGATGAATTTCTATTCCTGTTAACATTCTAACCAAAAACATAATAAAACATCCTAATGCTGGTATTTTTATTCTATATAAGAGATGAGAAATTCTATAAAAAATTACCGCATGCAATCCAGGGTAAAGAAATAATATCTCTAAATAATTTTTCGCAGCAGGATCTCTTTCTTTTATAACTTTTATATCTTCAAACATCAATCCTCCTCCTATTATTCCTAATCTATATTTTCAAATTTATTTTTTTCTATTCTATTTAATTCTCTTAATGTCAAACTTATATCTTCATCTTTTAATGTTTGAGAATATATTCTAGCTCTTCTTATCTTTTGTTTTTCAACTTCTACAAATAGTAGTTCCTCTTCAAAATATTTTGCTTTTCCTTCTTCTACTCCAAAAGGATCAATTACTTCAGAACCACCCCAAAAATTAATTCCATCTTCATATCCAACTCTATTACTATATATAAGATATAAATTAAACATATCCGCATAAACTCTATTTATATTTTCCCAAGTTTTTATTGATGATAGCTTTTCTTTATCATTTATTCCTCTTGATGGGCTACTTGATAATACAAAAATATAGTCTGCTCCATCTTGTGCTAAAATATAAGCTGATGACATATGCCAAGCATCTTCACACACCAACATTCCTATTCTCCCAAATTTTGTATCAAAACTTCTAAATTTATTCCCTTTTGCAAAATATCTATATTCATCAAACATTCCATATGTAGGCAAATAAACTTTTCTGTGTATATGTTTTATCTCTCCATCCTCTACATAAAATGCAGAATTATAAAATTGATGATTTTTACTTTCTTCTACTCCACCAAAAATAATAGATATTTTTTTACTATATTCTAATATTTTTTCATAAAATTGTTCTTTCCATACTGCTACTACAGGCACCATATCTTTCAAACTATACCCTGTTACCGCAAGTTCTGGAAACACTATAATATCTGCACCATTTTCTATTGCTTCGTCTATATTTTTATACATTATATCTAAATTTTTTTCTACACTTCCAAGATAAGGCTTTGTCTGTGCTAATGCTATTTTAAGTTTCATCTATCCTCCTCCTAAAACTACTAAATAAAATATTCTTTCTATTTATATTTTTTTATCTTTTATTTTATCTTTTATTTGTGTAAATTAGTGTAAATTGGTGGCTAAATTTTTTCTTTTTAGCTTTTTTTCTTTTCATTATTCATTATAAATTATCCCTAAACTCCTATCTCGAATATCTCCTTTCCCGCTACATTTAATCTATCTTTTATATACTCTTTATTCTTATTAAAATTATAAAATATCATATATCCTTTGTTCAAATTTTGTGCTTCTAAATATCCACACAACTGCTCCCTTCCTTCTTGTTCATATTGTCCACCACGCCATATTTTCAACTCTATTACAAATTTCTTATTATTATATGTCACCACTATATCCATTCTATTAGAATGCCTTGTTTCTGATTCTACAAAATAAAACCCTGTTCCATTTATTATAGGCTTTAAAAATGCTAAAAATAGAAGTCTTCCCTCTCTTTCTACAAATTTTTCATCTATTTTTCTATATTCTGCTTTCATTAATTCTTGAAATTTAATTAAAACTAATTCCATATCTAAATCGCCGTTCTCATCTATAAATTTTCCCATATATTTATAGTTAAGCGCAGCTCCTTTTTTTATCTCTCTCATTGCTATCATATAATTATATAAACGTATTTCAAATATTTTGTTATGAATTATTAATTTATGGTTTCTACTCTCTCTAAATATTCCATACATTACTCCTAAATTATGAGCATCTAAATTATAATGTATTTCCTCTCCATCAAGAACTATTCTTTCTGCTAAATTATACAGTTCATCATATCTATTTATATTTTTTATCAAATCATCAAATAATGTATTATTTTCATTTAACATTATTTTAATTGCTTCTTCTAACCCTTTTTCACTAAAATCTCTATTTAATTTTTCATCTATTATTTTACACAATGCACTTACTAAAAATGGATAACCTGATGTAAATTCTCTTAGCTTTTTAGCCATAAAATCTATATCCATCTCTACTTTTGTTTCATTTGTATAATCTATTAACATTGTTTTAATCTCATCTGCACTAAAGCTCATATCTATATCAAAATCTACTGCTATATTCCAAGGACTATTATATTGCCTTTGTTCATCAGGTCGTAATTTTAATTTCATATTTTTTACATCATGTACTCCTGCTAATATTACACTATGGAATGTATAATCTTCGCCTTCATTTCTCATTAAGTATTTTGTTCGCAATATGCCAATAAAATTTAAAAATAGTTGATTATTACTACTTTTATCTACTTCATCTATCATTAAAATTACTTTTTTATCTATTTCTAATACTAAATCTGTTATAAAATCATCTAATTGCTTTATTTTTTCTACTTCTTTATAATTTTCAATAAAATCTACTATTTTATTTTTATTTAAAAACTTCATTTTTTTTACTATTAATTCTATAAAAGATTTTACAAATCTTGATTCACTTGCAAATTCTTCTCCCATCCCTTCAAAGCTTAATTTTATTAATAAATATTCTCTATTTTCTTTCAATCTTCTATCTAATAGATACATTGTTGTTGTTTTCCCAAATTGTCGTGGACGATTTATTATAAAATATTTTCTTTTCTCTATTAATTTTATTATCTTATCTAATTTTAACGAGGTATCTACCATATAATGTTCACTAGGAATACAAGTTCCTGTTATATTAAATTCTTTCATTATTTGTACCTCCGTTGTTTTATATGGTTTTAATTTTTTATTTTCTCTTTATCTTTTCATTGTCAATTTTCAATTATCCATTGTCCATCAATTATTCAAATAATATTCCACACTATCAATCAACGCTTCCCAACTTGCTTTTATAATATTTTCAGAAACCCCAACTGTTCCCCATCTCTCTCCTGTTAATTTATCTACAGTTTCTATTAAAACTCTTACTTTTGCTGCTGTTCCATCTTTACCATTTAAAACTCTTACTTTATAATCAACTAATTCCATATCTTTTATTTGTGGATAATGTGGTAATAGTGCCTTCCTAAGAGCTGCATCAAGAGCATTTACTGGTCCATCTCCTTCAGATACAGTATGCGTTTCTTTCCCATCTACATCTAATTTTATAGTTGCTTCAGATATCATTTTATTTAATTCTGTTCTTTCTATTATCATTCTAAAACTAATTAAATCAAAAAAGTATTTTCTTTGTTTCATTGCTTTTTTTAATAATAATTCAAAAGAGCCATCTGCTCCTTCAAATTCATACCCTTGATTTTCCAAAGATTTTATTGCCTTTATTACCTCTTTTACTACATTATCATTTTTATCCAATTTTATTCCAAGTTCATTTGCTTTGTACAATATATTACTTTTCCCTGAAAGGTCTGACACTAATACATTCCTTTTATTCCCAACTTTTTCAGGTTCTATATGCTCATATGTATGAGTATCTTTCATTATTGCACTTACATGAATTCCACCTTTATGTCCAAAAGCATTTCCTCCAACATAAGGCATATTTTCTGCTTGACTTCTATTTGATATTTCACTTACAAATCTTGATAATTTTGTTATTTTAGTTAATTTATCTCCAATAACATCATATCCCATTTTAATCATTAAATTAGGTATAATCTCACACAAATTAGCATTTCCACATCTTTCTCCATAGCCATTAATTGTTCCTTGTATTTGAATTCCGCCTTTTCTAACTGCCTCTATAGAATTAGCATTAGCTAATCCACTATCATTATGTGCGTGAATTCCAAACGGAGTTTTTATAACTTTTTTTATTTCATCAATAATTTCTGCTATTTCATAATATAAACTTCCACCATTTGTATCAGCCAATACAATTATATCTGCTCCACCTTTTTCTGCTGCTTTTAATACTTTTAACGCATATTCAGGATTTGATTTATATCCATCAAAAAAATGTTCTGCGTCAAAAAATACCTCTTTTACATTTTCTTTTAAATATTTTATAGAATCTTCTATTAATATTAAATTTTCTTCCAATGTTATTCCTAATGCTTTTTCTACATGCAAATCCCAAGTTTTTCCAAATATAGTTACAACGTCAGTTTCAGCCTCTATTAATTTTTTTATATTAACATCATCTTCTACTCTATTTTTAGGATGTCTCGTACTTCCAAAAGCTGCTATTTTAGAATGGTTCATTTTTGTTAATTTTATTAATTTAAAAAATTCTTCATCTTTAGGATTTGAACCTGGCCACCCACATTCTATATAATCAATCTCCATTTTATCAAGTTCTTTTACTATTCTCAGTTTATCTTCTACTGAAAAATTTATTCCTTTCATTTGAGAACCGTCTCTCAATGTTGTATCATAAATAAATATTTTTTTTCCCATTTAATTTCACTCCTTTTGCTTTAAAAACACTAAATCTTCTGGTGTTGTTATTTTTATATTATTATAATTTCCCTCTATTATTTCTATTTTTTCCCCAATATATTCCATTAATGAAGAATCATCTGTTCCATAATAATCATTTTCAAAAGCTGATTCATATGCCTTTTTTAATATCTGCGTTCTAAAAATTTGCGGTGTTTGTGCTGCTATTAATTTTTCTCTTTTAGGAGTATTTACAATATTTTTATTTTTATCTATCTCTTTTATTGTATCTTTTACTTTTACTCCTACCACTACTCCAGATATAGTACTATTTTTGTTTAATTTTTTATATCCTTCATCTATATAATTTTGTTTTATAAATGGTCTCACTCCATCTTGTATCCCAACTATACTATCGTTATCATCTATTAATTTTAACCCATTATATATAGAATCTTGTCTTTCTTTTCCACCTGCTACAATTTCTTTCACTTTTTTTAATCTATATTTTTTTATCATCTCTTTAACTTCTTTTATATAATCTTTATTAGTTACAATTATAATATCTGTAACTTTACTGTTTTTTTCTATCTCTTCTACTGTAGTTATAAAAATTGGTTTCCCTTTATACTCTAAAAATTGTTTTGGATAATCAAGCCTCATCCTTTTTCCTATACCTGCTGCCGCTACAATATAATAATATCTCATCTTCTCTTTATTTTCCCAAAAATCATTCTTCCTGCTGCTGTTGGATATACACTTGTTACCACAAGAGTAATAGTTCTTCCCAAAAATGGTCCTCCATCTTCTGCTACAACCATTGTCCCATCATGTAAATAACCAACTGCTTGTCCATCTCTATCTCCTTTTTTTATTAACTCTATTTCAAGTTCTTCATTTGGAATAACCACTGGTTTTAATGCATTTGATAATTTATTTATATTTAAAACTTTTACTCCTTGAATTGTTGCCACTTTATTCAAATTATAATCTGTTGTAACTACATCTCCATTTAACTCTTTTCCTAATTTTACAAGTTTTGCATCTACTTCTTTTATTTTATAATCTTTATCTTCCACAACTACTTTATTTGATTTGTTAGCTTGAATTGATTTTATTAAATCAAGTCCTCTTCTTCCTCTTGCTCTTTTCATATTATCTTCTGAATCAGCTAAATATTGTAGCTCCTCTAAAACAAAATTAGGAATAATAATTTCTCCTTCTACAAATCCAGTTTCTAATATATCTAATATTCTTCCATCAATAATTGCACTACTATCTAATATTTTACCTCTTCCTGTTTTTTCTGATTTTACAGATTTTTTTTCTTTATAAGCTTTCATTACTACATCAATAAAATATTCTATTCCCCATCCAGCTACTACTCCAAATAATATATATACAGATTTATCTCTTAGCATAAAGAAATTTGAAGCTTTGTAAAAAAGAAATACATTCACCAAAATTAAAATTAATCCCCTTACATTCATTTTTTCACTCTCCTCATAATTATGGTAGTGTCAAATAAAGTTTCCTTTTTAAGTCACTATCCTTTATATTTATTATCTTTGCGCGTTATATTTGACTCCTCCCCCAAAATAAGGTAATATTTTATTATAACCAGTAACAAAATACACCAAATTAGGAGGAGATTCTTATGCCAAAATATGTGTACACTTTGCTGAAAATTATTGCCATTCAACAAAAATTAATTATTGCTTTAATGATCTTTGCTCTAGGTAAAAAATTCGAGTTTCTTAATTCTAAATCTGATGATAAACCCATCGATAAAAAATACCATAGACTCATTGTTGATAAAATGCCTATTTTTAAAAAAATTGTTAAATTTGACTATAAAATACTTCTTGAACAATACCAACTTAAACACAATAAGCCTTTAAAACCCATTAAACGCAGAAAAGAAAGCTCCGTTCCCAAAAGCTTGATTTGCCCCATTTGTGGTGCTCCTCATATATATATTTATGATAACAACGGACATAAAGGTCAATTTAAATGTAAAATATGCAATACCAATTTCCATGAAAAAAATCACTTTGCAAAATTTGTTGTTTTTAAATGTCCTCATTGTGGCAAAACTCTTGAAAAAATTAAGGAGCGTAAAGATTTCTTCGTCCACAAATGTACAAATAAAAAATGCTCTTTTTATTTGAAAAATCTACAAAAAATGGATGCTGACGAAAGAAAAATTTATAAAAATGATCCTAGTAAATTTAAACTTCATTATATTTATAGAGAATTTACATTTGATTTTAATTCTCTTGATAAAGATTCTCTCGTTCCTATTCCAAGTGATTTATCTAAGATACAAGTTTCTCCTTATACATTAGGGCTTATTCTTTCTTACAATATTAATTTTGGTATCTCTGCAAGAAAAACTGCCAATTTATTAAAAGAAATTCACGGCATCAATATTTCTTATCAATCTATTTTAAATTATGCTAAAGCTGTCGCCACCAATGTTAAACCTATTATTGACAATTATCCCTATAAACTTTCTGACTCCATTTGTGGTGATGAAACTTACACTAAAGTCCTTGGTAAATGGAAATATATTTTCTTTTTCTTTGATACTAAGAAAAAAATTATTTTATCTCATTATACTTCTTCTTCAAGAGATACTAAATCTGCTTGCAAAGCTCTTATTGATGTTATTAGCAAGTATAGGGAGCTCCCTGAAGACTTCCAAGTCATTGTTGATGGCAACCCCATATACTTGCTAGCACAACAATTCTTTGCTCAACACGACATTAATTTTAACGTTGAACAAGTCATCGGTTTAACTAATAAAGATAAAGTTTCTAAAAAATTTAGGCCTCTTAAACAAATTATTGAAAGACTGAACAGAACCTTTAAAGAAAATTATCATTATACTAACGGTTACAATTCTCATTCTGGCGCTTTTACTTCTGTTACTTTATTTACAGCGTATTTTAATTTCCTTCGGCCTCATTCTTCTTTGGAAAATAACGTACCTGTTGTTATTCCTGAACTTACTGATTTACCCAACATGCCTGCTCGTTGGGGTAAACTTATTGAGTTATCTCAATATTTTATTCCTGAAAAACATATAGCATAATTTTTATAATTTTACTTCTGCCTTACCATTACTTTTTTCTCAAAAGTGATGGATTTTTCTGCTTTTTGTTTTTTATTTCTTTCTAATATTTTCAATTTAATTCTATAAAAAATCTTAGGGTTTTTTCATGATTTTAGCATAAATTTCTTCTTCTTTTTCTGCTTTTTATTTTTTTAGTTTTTCTCATAGTTTTCATAAACTTTTGACACTACCATAATTATTCATAATATGTTTGACCGACAAAAATATGTTTAGTTTTCTTCACACAACTATATGTAGTAGTATGATTTTAAAAATCTACTTTTTAAAAGTCTTAGCATAATACAACTTTATAACATCTCTATTTTTAATCGGTGTTATAAATTCTGCCTTTTTACCATTTAACTCTATTTGTAGCACTCCTCCTCTCTCTTTTATTAAATCTTCTGGATTGTAATAATTAAAAATATCTGATAATATTAATTTTGAGCTAGAACTTCCTGCAACTTCAATTCTATCCCCATTTTCTATAATATCTTCTCCAGAAGTTTTTTTACTGTTTTTTAATATTTCCACTCCTATTTTACCAAAATTTATAATTTCACCGTTTACAGTAACTTTAATCTCTTCGCTTTCTTCTGTTATATCCATTACATCTTTTACTTTTAGCATAGCTTTATCTATTTTTTTAGTTTCAAGTATATCGCCATTAAAAATTTCACTATTTAAATCTAATTCTTTATTATCTCTTAATAAAATTTCATTTGGAACTAATATTTCCATCTCTTTTCCATTTATATAAAATTTTAGACTATTTTCCGAATCTAATATATCTTTTGCTAAAAATTTTTCTTTAACTTCAATTTCATCATTATCTTTTATAAGATAATTATCAGCTTTAATTTCACCATTTACCTTTATAATTGGTTCTAATATCTTTTTTTCATCATTAATTTTTACCTCTATATTTTTATATTCTTTTTTTAAATTTTCTATATAAAAAACAGCATCTCTTCCTGCTCTTTTATAAATAATTTCTATCTCATCATTATCAAATATTTCATCTTCTAAACTTCTTTTTTCACCATTTACTTTTATAGTTGCAAGCTGTCCTATTTCCCCTTTTTCAAATCTCAATTTACCATTTAATTTGAATGTAATTGGATTCCCAGAACTGCTATATAGTTTTTTCATACTTAGCCCAGAAGACAACAGTGTATCTCTTAAAGTTATACTATTTTTAAATGAAAAAACTCTGTGTGAAATCCTATTAATTGTTACAGATATTATTTTAAATCCTCTTCCGTTTATTGCCATATTTGCAATCCCAACAGGTGTAATAAATTCTGCTGTTGTAAGCATATTTGTTTTATCTACCATATTTTTTATTATTTCTGTTCCTCTTACAGCTACTCTTTGTATTGGCAATGAAATAGCTTCACTTAAATTTTCTCTCAATAGCGGAATTAAGCTTCCTCCACCTATTAATATAATAGCTTGAGGTGCTTTCCCATTTAATTCGAGAATTTTATCAGCAATTTTATGTGATAATTCATGTATTACAGGTTCTATTTTCCCTAATATCTCTTTTTTATCTATTTCATATTCCATTCCTAAAATATCTGTATACCCAACTTTTTCTATATCTTTATTTAATTCTCTTTTTATTTTTTCAGCTTCTGAAAAATCTAATATATACTCTTCTGATATTTTTTCTGTTATTTCGTCCCCAGCCATTGGAACCATCTCATATCCAATTATTTTACCACTTTTAGTAACAGCAATATCTGATGTGCCTGCCCCTATATCTACCAATGCTAAGTTAAGTTTCCTCATATCTTCTGAAATTACCACACTTATTGCTGCAATTGGTTCTAATGTTAAATTAATTATCTCCAAATTAACTTTTTTCGCCATTGTGAATATACTATCCACAACTATTTTAGGTAAAAATGTAGCTAAAACTTCTACTTCTAATTTGCTTCCTTTTTGCAACTTTGGATTTTTTATATATTCATTATCCAATTTATATTCGCTTACAGTGTAACCTACACAATGATATTCTTTATATTTTTCACTTAAATTTATCATACTATTTTGTACTGCTATTAATTCTAAAGTAGCCACATTTTCTTCAGTTATTTCATATTTTGGATTAAATTCTTTTTCAGCTTTAGCACTTGATGTTACCAATGCTCTTCCTGCTACTGCTACTGCCACTTGTGTTACTCTGTTTTCTTCTCCATTTTCTATACTTTCTTTTATTTTTAATACCGTTTCAGATACTTTTTCTATATCATGAATTTGACCATCTTCCATAGCTCTTGTTTCATGCTCTAATGTTATTGATTTTTTTATTATAATTTTATTTTCTTCATAATCGACTAATAATCCAACTACATTTCTAGTCCCAACATCAAGAGCAAATAAATTTTTCATTGTATACCTCCAAAATCGTATGCTTTTATTTTAATTCAGCAACTGTTACTCCTAATCCGCCTTCATTCATATTCCCATCTCTAAAACTTGCAATATATCTGCTTGTTTTTATATACTTTTGTATTCCTATTCTTAATTTACCAGTCCCTTTTCCGTGAATAATATAAATTTCTTGATAATTATTTAGCATTGCTTTGTCCAAATAGTTATCTAAGTCAATTATTGCTTCGTCTAAAGTTTCTCCTCTTAAATCAATTTCACTTCTAACTCTTGACTTTGTAAATGCATAATTTTTTGACCTGCTTTTTTGTTTTTTCTTTTTTTCAATTTTTTTCACATCATCTATTGAAACCATTAATTTTAATATCCCTGCTTGTACCTGTATTTCTCCTTTTGATTCCATAACTTTTAAAACTATTGCATTTTGACCTAATTTTGTTAAAAATACATCTTCCCCAACTTTTATATCTATATGTTTGTTTCTTTTTTTGATTATTTTTACTGTTTTTTCTTTGTCTTCTACTAAAGATTTTCTTAACATATTTAAACTTTTTTGTGTCTCTTTTGCATCTTGTTTTATATTTTCTTCTTTTTGAATTTTATCTACCAAAGCTTTTGCTTTCATCTGCATATTTTTCAGTAATTCATCTGCTTTATCATACGCTTCTTTTAATGTATTATTTTTCTCTTTTTCTATCTCTTCTAATTTTTCTTCATATTCTCTAGTTTTTTTTTCAAAATCTGCTTTAAGTTCCTCTACTTTCAATTTTTCTGCTTCTATTTCTCTGCTTTTCTCTTCTATATTTCTTATCATATTTTCTACTTTTTTATCTTCTTCGCTTATATATTTTTCTGCTCTTTCTATTATATCAGGTTTTAATCCTAATTTTTTAGCAATTATAAGTGCATTACTTTTCCCAGGTATCCCCATTAATAGTTTATAAGTTGGAGATAACGTCTCTACATCAAATTCCATAGATGCAGTTTCTATCCCCTCTTCATTATATCCATAAGCTTTTACTTCACTATAATGAGTCGTTACTATTAATTTAGCATTTTTAGATTTTATATAATCAACAACTGCCATTGCAAAAGCTGCACCTTCTATAGGGTCTGTTCCAGAACCTAATTCATCTAATAATATCAAACTATTTCTAGTGGTTTTTTCTGTAATTGTTTTTATATTCTTTAAATGTGATGAAAATGAGCTTAAACTTTGCTCAATGCTTTGTTCATCTCCAATATCTGCATAAACTCCATTAAACATCCCAATATCACTTTGTTCATCTGCTGGTACAGGTATTCCAGATAGTGCCATAATAGTTATTAATCCTGCTGTTTTTAATGTAACTGTTTTCCCACCTGTATTAGGCCCGGTAATTAACATTATATTATATTTTTTACCAACTTCAAATGTAAGTGGAACGCTCTCTTCTTTCCTTAACAAAGGATGTCTTGCTTTTATTAATTTAAGATATTCTCTATCATTATATTTAGGTATTTTACAATCATTTTCTATAGAATACATTGCTTTTGAATTTAAAAAATCTATTTCTAAAATGTTTTCTGCTAAATTTTCAATTCCATCTCTATTATTTCTAATTGTATCTGTTAATCTAAGTAATAATTTTCTTATCTCTTCTCTTTCCCTTACTTCAAGTTCTCTTATTTTATTGTTTAAAGATACTACGCTAAGTGGCTCTATATAAATAGTTGCTCCACTACTAGACCTATCATGTTCTATTCCTTTTATTTGCCCTTTAAAATCTGCTTTTATTGGAATTACACATCTTCCATCTCTTATTGTAACTATTTTTTCTTGAATAGCTTTTGCATTATTTGGATTATTTACAATTTCGTCAAATTTTCTATTAATAGTATCATTTATAGATTTTTTTTGTCTTCTTATCTCTCTAATTTCTAAAGAAGCATCATCTTTTATCTCTTTATTTTCATCTACAACTTTGCTTATTAGTTCTTCTATCCCTTTATATATTGGAACATCTTTAAAAAATAGATATAATGCCCTATATTTATCTTTTAAACTTTCTATCTTATTTTTTGCTCTTCTAAAAAGCTTTAAATTTTCATTTATATAATAAAATTCTTCTGGTGAAAGATATGTACCAATAAGTTCTGTTTTTTCTATTACATTTTTTATATTTTTTAATCCTTCTAGCTCAATTCCAGCATCATATCTAAGTAAATCCATATAATCTTCAATTATTTTCATACTTTTTTTTATTTCATTTATATCTTTTAAAGGCTCTAAATTTAATATTCTATTTTGAACTTCTTCTGTATATACAAATCCTGATATAATATTTCTTATTTTATCAAATTCTAAAACTCTATAATCGTGATTGTCCATTATTCCTCCATGTTGTTTTGTGAGTAAAATCATAAAATTAAAAAAATAGCATAAGAACGTTTAAAAAATAATTTTCTCATATTTTGTTGTAAAAATGCTTGAAACGTTGCATACGTTGGGCGTAGTTTTTTATGTGGTTTTCATAAAAGAACCTTGAGCCTTTTAAAACAAAAAGGATAAGTTATTTTTAAGCCATTCCATAGCTTATTTTCTAAATAAATTTATACTTTCCTAACAAATTAAAATTTATAGTATATTTTTTTATATTATAGCATATAACATAGTTTTTTTCTATTTTTTTATAGGAATTTTATAGAATTTCGAAATGACAGTCTTATAGAACTAGGTCGATTTTTTAAGAGTTTATAGGATAATAATGTGTTCAGACTTTCTTAGAAAAAAGGGATGAATCATAACCATTTTTCTAAGAAAGAACTGGAAATTTATTTGTTCATAAGCGTAGCTTATTTTTCATTTACTAGAAAGTATAAATTTCTTCAGAAAATAAGCTACACCATTTTTTTGAAATATGCAATTTTTCAAGGCAAAATTTTTCAGAAACCAAAAATTTAGAAAAATATTTATACTCTACCAGATGAAGCGTAGTTTATTTTTTATTGTACTTACACATAATTTTTTCTAAATTTTCTTCTGTTACAAATTCATCTAATATTTTTAAAATAACAGTTAAATTCTCATCTATGTCTTCTCTTTCTGATTTACTAAATCTACCCAACACATAATTTACTGTTGCTTCTCTACTTTTGGATTTTCCTATTCCAACTTTTATTCTTGGAAATTTATCTCCAATATGTGAAATAATTGATTTTATACCATTATGTCCGCCTGCGCTTCCTTTTAATCTAATTCTTAATTTACCAATATCTAAATCCATATCATCATACACTACAATAATATCTTTTTCAGGATTTATTTTATAAAAATTTACTGCTTCCACTACAGAATTTCCGCTTAAATTCATAAATGTTTGTGGTTGTAATAATATTAATTTTTCCCCTTTATAATTTATTTCCCCAACTATTCCTTTAAATTTATTTTTAAAATTCGAAACTCCAATGTCATCTGCAAATTTTTTTATTGCTGCAAATCCTATATTATGTCTTGTATCTTTATATTCTTTACCTGGATTTCCTAGTCCTATTATTAATTTCATATTTCACACCTCTATTTTTATTTTTAACTTATAAAATCATATCATTTTTATATTAAAAAGTCAAAAGTAATATGAAAAGGATAGTGTCAAGTTTTTGTAGGAAAAACAATTTCAATTAAAAATTACAAATTTTATTCATTTAATTATACACTGCTTATTCTTTTAATCACATTTTTATATTCTAGCTACATATTTTATAATTCTTTTTCTTATTCTTTTATACTTAAATAATTTATATTTTGAAAATATAAATTAAGTAAAAATAATCCCCCAAAACAAGGAATTACCAATAAAGTAAATGATACGTTTTGAGAAAATATATCTCCTAATTTACCAAAAATTATATAAATTAATCCCGTAATAACTGAAGATGTAAAAGAAAACAATGATAGCAAAGAACTTCTGGATTCACTTGGAATCATCTTTTGAATAAAATTATCTTGTGAAATGTATGATATATCTGATAAAGCAGTTACTAATAATAAAACAATTAAACTTATAAAGCTATTATTAAAAATCAATAATAATAATAACAAAATATATAATATCGAAGAAGTTAATAAAATTTTATTAATTTTAAATTTAGAATTAATTTTTATAGAAATCTTATGCATTATAGCCGTTAGTATTTGTAAACTACCATAAATTAGAGCTATTTTTTCTATAGATAATTTTTGTGAATCAAATAAAGATTGACTTATAATGTAATAATAAGATGCAACAGCTTCTAATATAGAAGTTGCAATAATTAAAAGCCATAATTTATTAGCTTCTTCTTTTTCAAAAAAATTAATTAACTCTTTTAAAAAATCTATACTTTTCATATTAGATGTATCTATTATACTATCTCCTTTTTTTTCATAAACAAAAAGTAAAAAAATCCCTCCAATTAAAGTTGCTGTAAGAGTAGAAATATAAACAATTTCCCATGATATATTTTGGAGAAAAGCTCCTACTATAATTGATATTCCCAATAAAAAATTAACAATAGTGCTAGTATTCCCACTATATTTTAAATACTTATCTTCTTTTCCGTATAATTTTAAACTATCATAAAAAATAGCAGAATAAGTTCCAGAAAAAAAAGACATTGATATCCCCTCAAAAACAAAACTAATCCATATGGTAATAAAGTTATAATGAAAAATCATAAGTAATAAACTTAATATATTAAAAAAAACTGATATTAATAAAGTATTCTTTCTTCCCATTCTATCTCCTATTACTCCTGAAGGAAATTCAGTAAAAAATATAACAAAAAAGAGAGAAGATTGCAATAATCCTATTTTCATATTTGATATTCCTAAATAAATTAAAAACAAAATAAAAATCCCTCTTTGAAACACTAAAGAAGAAAAGCAATCCAATAAAACTAGATATTTAATATTTTTTTTATATTTAATATTCAATATTATTCACACCAACTTTCAATTCAATATTTTATAAATTTTTATATCTATTTTATGGTTCAACCACAAAAAGGTATTTTTAACCTTTTTTCAAAAAATCAGTCTAATAGAATCAATGGTTTGAGCAACAGTAATTTTAGAAAAAATATTAAAATTATAGTTCTTGTGGTCTAACCATTTTATAATAAATTTAACCCGAGTTTTATATTTGCCACTACATTGAGATTCCTGGTATTTTTTTGCATTAAGCCCTTAATTCCATTGAATTCGATTTGAAAAAAATTTAAAATTTTCTAACTGTTACAAAATCACATAAAACTCGGGTTAATAAGGAATGGCTTAAAAATAACCTTCCGATTTTGTTATAAAAGGCTCAAGGTTCTTTTATGAAAACCACATAAAAAACTACGCCCAACGTATGCAACGTTTCAACCATTTTTATAACAAAATATGAGAAAATTATTTTTTAAACGTTCCTTAATGTATTAAATTTTTTAATATATATGTTAATTGAGTATCTACACCATTTATTATATCATCAATTTTAGGCCTCACTATAATATCTGGAATAACTCCTCTTTTTATCTTCTTTTCACTTGGATCACTTAAATATTTATTTGAAATAGATATCAAAGTTTTAGTATACTTCGTTCTAAAAGAAATTGCATTTCCATAATCACTATATCTAGTTCCACTTTCTTCGCCTATAATTGTTCCTAATTTATAAGCTTGGACCATTCCTAAAAATGAAGTTGCACTTGAAAAACTTCCTCCATTTGCAAGAACAAATACCTTCCCACTATATCTGTTTATACCACATACTTCTTTTACATTACTTTTTAAAATTTTTCCATTTTGTTTATCAGTTATTTCATTTCAGTTGTAACTATTCTTATGAATACCATATTTGTTTTGATCTTTTTTTAACTCTTTACAAACCTTTACTTGAATATAAGAAAACACTCTGATTTTTTTATTTGTAATATATCTGCCTAATAATTCACCACAATCACTATTTCCACCGCCATTATCTCTAATATCTATTATTAAATTATTTATCCTTTTCTTTTTTAATTCCGAAAATGATTTCTCTAAAAAAGAAAAATACTCTTGATCATAATCAAATGTTTTTATTCTCATAATTGCTACTTTTGATGAAATTTGTTTAAAACTATATTTCTTCTCTTCTTTTATAAATATTTTTTTATACTCTTTTACACCAATTCCATTTATAATTTTTTTCTTTATAAGATTATCTTTTTTATCTCTATAAACGATTTCATACTGCTTTGTAGGGTTATATAATAAATAATAATACATAAAAAACTCATTATTTAATTTGAATTTTTTCCAACCAATTGTATCATAAGATATATGCTCAGATATATTTTTTATAATTCTATCAACAGGATTATTATTTATTTTTAAAATTAGAGAACCTTTGGTTATTTTATTATTATAATCTTTTATCAAATATACTTTATTTCCGATTATATAAAATTTAAAAGGTAAGAATTTAACATCTCTCTTTAAAAATTTTCCTAATTCTAGGAAAACTGTAGTATGCCCATCTTTAATTTTAGCCATCAAAGAAGCTAAAAATGCAACTGCTTCTCTCTCAGAAATAGTATCATTGAATTTTTTGAATTTTTTTTCTATATAGTTATTCAATTCTTCTTTTTTTACACGAGCATAAAAATTTACATGAATGTCTTCTCCTTTTTTCACTACATCTTTTACTTCTTTTAAAAACATCTCCTTACTTATCGCTGCATTAGTCAAATTACTAAAATAAAACATTGCCAAAAATATAAAAACCATTTTTTTCATATTATACTCCTCCCTATTGTAATGGTAGTGTCAAATAAAGTTGCCTTTTTAAGCCACTATCCTTTATATTTATTATCTTTGTACGTTATATTTGAATCCTCCCCCAAAACAAATGACTATTTAGGAACGGCTTAAAAATAACCTTCCGATTTTGTTTTAAAATACGCAACGATTCAAGCGTTTTTATAACAAAATATAAAAAAATATTTTTTAAACGTTCTTTAATGCTAAATTTTATTTCTATACAATAATTTTTAATGTAATTTTAAATACTTTTCCCACACCAACTTTCTCCTACAATAGCTATTTTTTATAGTTTTGTTTTTTTAGTCTATTTTTCCGGAATTATAGTCAATATACTATGATCCGGTAATACATAATAATTGCTTCCTCTGCTTATTTCTTGTCGTACATTCTCAAGATCAAAATTCATCTCTTTTTTATTGCCATTTCGATCAATATATTTTAATTTTACATATTTTTCTTCATCTTCTAAATGCTTCCATCCTTTAATATCGTGCTCTTTTAAATATTTATCAATTTCCTGTTTTATTATCTCCATATTTTGAGCATTAATATTAATTTCATTTAAACTTAAAATAGTTTCTCCATTGCTTTTTAAGATGTAGTTTAAATTTTTTTTATAAATATAGTTCATCAGTTCATTTTTTTGTATAAAATTAGATCCATAAACTGAAATAAAAGCTTTTTTATTAACCTCTTCAATAAATTTATTTACCACATTATAATACTCTATTGAATTTTTAGTTGACATCAACATCCTTAAATACTTTTCTTTTAATTCAGATTCAATATTAAAATAATTATCATTATTATTTAATATTTTTACTATAAATAAAAAATTAAATATTTTTAGCGAAGTAGTCAGTCTTGGAATTGGTTTTATTTTATACCACCAATTATCAATATAGTTATTTTTAAATTCTTTTTCAAAATTCTTTTTATTAAAAATATGCCAATTACTACTTTCAATATGATATACTATAGAATTATCAATTAATTCTTCCATAAATTTCAAAGGAAAGTAATAATATTCTCCTTCTTTTATAAATTTTTGTTCATAATTATTTAATTTTCTATTATTTTTAACAATTTCATTTTTTGATATATTAAATATTAAATTGTTGCCTGCATTCATTTCAGAAATTCTTATTTTATCATCTGTTTCCTTTTTTTCAAGTTTATTATTTATAACTTTAAGTATCTTATATGCACTATTAATAGAAATAAAATCAATTCCTTTAAATTCTCTAATATTAATATTTTTTACTTTTATTCCATAATTTGCTTTTTGTCCTAAAAGTGTTGAATCTAAAAATATATTTATACCACTTGCTATATCTTTTTTAAACATTTCATAATTTAATTTTAATTTTTTCTTTACTCCTTTATAGTTAATTTCTATTTCAACTTTATTTTCTCCATAGAAATATAGTTTTCCGTCATTTGTTATTTCTGCCTTTGTATCCCCAATAATTTTATAATCAGCTAAATTATAAAGAGAATATTTCAAACCGTTATTCCATTTGATAATTGGATTTATCTGAATATAACTTCCATAAGCTTTTACAACATAATACTCAACATCAATATCCGCTATATCTTTCTTATCTTTTCCAAAAAAAAATATATACGGATATTCAACCCTTTCACTCCAAGCCTCTGGTGTATGATCTTTATCTTTTGCTTCAAAATACAATATATCTTTTCCAAGTATATATCCCTTTCTTTCAAGTATATCTATTATATTTTTCAAACCATACATATAGAATCCTCTACCACCTTCTTTAGTCCCTCCATCAAGCCAAATTTTAATATCTTTTTTGGGTTGTTTCTCTAAAAATTCATACAATCCTTCAAACTGCGGTAAAGATATAGCTCCTGCCATTGATATCAAATCCGAATTTAAAATTGTCAACATCAAAGATGAACTAGCGCCACCTGAAGAACCCATTATTGCTCGATTTTTTCTATTTGCTAAAGTTCTATACTTGCCATCAATAAAAGAAATTATTTTTCTAATATTAGGAAATCTACTATATATTCCAACAACAATTACTTCTGGAATTTTTTTTTCTTTAATTAATCTACTTATATTTTCATCTATCTTCCATTCACCATCTGAAGCTGTACTTTTACAAAACATATCCTGTCCATCTAACATATATATTACGGGATAGTTTTTATTTGTATTTTTGTAGTTTTCAGGAAGTAATATTTGCATTTTAAAACCATCAACTTCATCAAGTTCTATATTTTTCATCTTTGCAACGCCACTTATCTCTCTTCCTTTACTCTTCCTTTTTTTCTTATCAACCAAAACAACTTTAAAAGTAAATCCAAGCATAGGAGGAATTGAAATTTCTATATCTTATTATTACTTTCCAATTTTTTTATCTTCTTAAATTTTACTCCTACACTCCTTTTCATATATACTTCAATATGATCTAAACTTTCATCTTTTTCAACATTCCAAGATAATTTTATTTTATTAATCTCAGATTTTAATTGTAAATTATTTACTTCTTTTTTATAAGGTAATTCTGTATTACTATTTTTATAAGTTAAATTGGCACATCCTATAATTAAAATATTTAAAAACAGTAATAAAAGTAATTTTTTCAATTATATTTCCTCCTTAAAATACTAATTTTTGTAAAAGATATTATTTCACTAAAATTTCATAAAAGTTTTAAATTTACATTTTTATTTTTTCTAAAAATAATTGTTCTATTTTATCAAATTCACATTTTAAGTTTTTTTCCATTCTAATATAGTAAGTGTTTTTTATCTTTTTTTCTATCCACCCAATATCTTTAATTAAAATTTTAATAAATTTATACCTTTTTTCTTCTACTTTTTCTGAATAAATTTTATTGCATTATTTATATTTTTTATAATTAAATTTTCCAATGACCATCTAACCATTCTAACTTCACTCTCCCAATAAAATCTAAAATTAATAAAATTGTTTTTTAGTTATACTTTTTTCTAAATTTATATCCATTTTTAGCTTTTTCAATTTCTTTATAATCAATTACAGTTTTTATTTTTTTCCCTTTAAAACTTATCTCTACTTTTGAATTTTTTTTAGCAATAGGTTTAAATTTCCAACTACTGTTAATAAATTCAACTCTTCCATCTAAACTCTTATACTTTGCTCCATCAAAAAGTGTGTATTTAGCTCCACTTTCTGTTTCAACTATAGCATTAAGATAATAATCAAAGCCTGTTCCTTTATCATTTATTACATGAGATACATTACTTGTAACATTTAACATTTTTGTTCCTTTTGGATTTAGAAATGTCATTATTGGATATATTATAAACTTTTTCCAGTTATTATAGTCATGATATCCATCACTATCTTGATAGAAAAAAATATTTTTTCCATATTTATATCCTTGATTTGACCACAATTTAAGTAACCTAAATGTTTCATCTCCATATTCATGAGTTCCTTGAGAAATCCATATCCTTATATTACGTTTCCCAATTTTTTTAATATCATCTAAAAATTGATATTCTCCCGAATCAAATGATAACGACAAAGCTCCCGCAAATGAAAATATATCATCATAATTATAAAGTAGCCATAAAGATATGTAAGCTCCATATGAAAATCCGATTAAACCCCGGTTTTCTCTATTTGGAATTGTTCTATATTTAGTGTCAATAAAAGGAATAATTTTATTAACAACATAATTTCCATATTCTTTAGAAAGAGATTTTTCATTTTGTCCCAAATAAGGAACATACTCTTGTCTTCTTTTGTTTGTTGAATAAATCGCAACTACTATAACCTCTTTCATCTTTCCAGATTTTACATATTTATCTATGCTCTCATCAACCATACAGTCCATTCCTTCCGCATATTTTATTAGCATAGCCTGACCATCTTGTGCATAAATAACTGGATATCTCTTGTCCAAATTTTTATTATATCCAGGCGGAAGATACACCGCTACTTTCCTCCCACCTATTTTTTCCATAATAATATTTTTCTGAATTTTATAAACCCTATTAAACTCTCTTTTAATCTCAGTTCCATCCTCATATTGTACAATAAAAGAATAGTTAAAAGTCTCATAAGCAGGATGTTCAAAATCATATCTATTTTTCTTTGGTGATATTTTAATAGGCTCTTCAATATCATCTTTGCTTATAATCTCAAGTTCTCCTATATTCCCACTATACTCTTTTTTCTTTAATATTATCTTTTTACATTTTTTAGGTGAATATATTTTCCATTTAAGTGTCAAGTGTGAAGATTCTCCCTCAAGTGTTACAAATTTAAATCCTTTTTCATATTTGCCCGAACTCACCTTTTTTTCTCTTATAGAAAGTATCGTACACCCTGCCATTGCAATTCCAAAAATTATAATTATCACAACTATTTTGATATTCCTCATTAAACTCCCCCTTACCTTCTTATCCCAAGCCTTTTTTCCTCGTTATTTATCTCTTTTTTTTCAATTTTTATTTTCTTTTTTATATTCCCATACTTTACTTCAATTTCAAAATCCTTATTCTGTAAAAATTTAAAATTCCCCCATTTATCTATGTTTCCCGCTTTATTATCTAAACTAAAATATTCTGCACTCCCAAGTAGTGAATATTTCACACCATCATCTAAAATAGCTACAGGATTTACCATTTCCGAAAGTTCATTTGTTCGAGAAGATACTCCTACTTCTACTTCAGGTTTTATTTCAACTACTTTTCTTTCTAATTTTTTCCCTTTAAATAGAAGTATTGGATATTCTATTCTTTCTTTCCATGAAGTAGAAAAATGTTCTCCATCTTTTACTTCATAATAAAATAGATCTTTTCCATACACATACCCTTTTGAAAGCAATATCTTAATCATCTTTCTTGGCTTTGGGTCCCATTCACTTGTTCCAACATCAATCCATATTTTTACATTTTTTTTCGGAGTATTTTTCATCTCTTCAAATATTTTATCATTTCCAAGTTCATATGAAGGTGAAACAGAAACTATCATAGAAAAAAGATTGCTATAGTTTATCCCTTCCCATAATGAGTATAATCCAGCTGTAGAACACCCTACAACTGCTCTATTTTCTTTTGTAGGAATTGTTCTATATTTACCATCTATATATGGAATAAGTTTTTTTTCTATAAAATCACCTAACTCTTTTGATTTTGATTTTTTAAAATTTCCATACTTCTGCTGCTGTTTATCTTCATATGGAATATATTCTTCAGCCCTATTTCTATTATAGATGGCAACTACTATACTCTCTTCTACCTTGTCTTTTGCAATAAGTCTATCCATTATTTTATCTATTTCCCAGTTGTTACCCAAATATGTCGTAGTAAACATAGACTGCCCATCATGCATATATATAACAGGATACCTTTTACTTTTATCTTTTTTATAACTTGGAGGCAAGTATATCTCCATTTTTCTTCCATCAACTTCATCTAAAAACACACTATCATGCTTTGCTGTAGCTGTTATACTTTTCCCTTTACTTTCAGTTCCATCTTTATATTTTAAACTTACTTTATACTCCATTAAAAGGTATGCAGGATGTTCAATTTCAATGGAATTTTCATTTGGAGAAAGCTCTCTAATACGTTTAAAATATTTTCTAAAATCATCATAATTTCTTTTTATCTCTATTTTGGCAACTCTCTTATCTTTTATCGTATCCCATGTCAGTTTTATTTTTTTAATTCCTTCTTCCACTCTCAAGTTTTTTACTTCACTTTGTTTTTCTACACGTAGCGAACTACATCCTATAATAAAAAACAATGCAAAAATTACGATAAATATAATTTTTTTCATATTTCCTCCTACTAAATTTTTAAATTATTTTATAATTTTTTCTTCAATAACTTTTTCATTTTCACCAATAAGTCTTATCTTAAGCTCATACTTTTTATCAAAATCAAGTTTAGTATCAAATTTTTCAAGATACGCTGGTTGATAACCAATATATTTAAACTTATCTTTTTCCCGTTGTTTTGCCCATACCTCTATACGATTTGATGACTCATACCTATTTAGTTTCCAATTTAAAATGATTTTTCCATTATTTATATTCCAATTTAAAGAATCTATTTTTATACTTGTATTTTTAATTATCTTAGTTTTTTTATATGGTAATACTTCTACTATTTTTTCAACATTACTATAAGTTACTTTTACACGACATGGTAAATTATTCAAAAATTTAAATTCCCCATACTTATTAATTTTTCCATTTTCCTTATCAATAACTTCATATTTTGCTAAATCCATAAGCGAATACTGTATCCCACGTTTTGTTGTAAATACAGGATTTATAATAGTTGTTACCCTACCAGGTTTATAACTTTCAGGAGTACCATATGGTCTTGGTTCTACTCCAAATCCATAAATTCTTTCAATTTCAATTCTAAATTCACCATTATCATCAGTACCATTTTCAAAAAATAAAAGTGGGTCCATTTCTATTTTTCTCCATGAGTCTACATGATGATATTCATCATTTCCTTCATAGTATATTATATCTTTACCATACTTATAACCTATATTTTCATATGCTTTTACCGCCATTCTTCCATTCATTTGCCATTCATTTGTTCCTGTAAATATATAGACTTTTTTATCTGTTTTTTTATTATTTTTGATTTTTTCTATTTCAGCAAAATCACCTACATAAAAAGCTGGAGATAAAGAAGCACTATTTTTAAACAGTTTTGGGTAAGTTTCACCTATATAGTTTGAAAGAAGCCCACCATGTGATACTACATATATAGTTCTTCCATCTGCTCTTTTTATTGTTCTATATTTCTTATCAACATAAGGAATTACTTTTTCTGCTATAAATTTTGAATATTCTACTCCACCAGGATTTGCTACACCTGCATTTTTTACATCTTTATATGGAAGAAATCTTCTATATCTGTCCACGGGACTCTCTATTCCAATAACTATCATATCACTAAGTTTATCCTTGTTTAGTTCAATCATTTCATCAAACATCAATTCATCTTCACTCATATTTAGCTCAAAATTATCCATACCATCTAAAAGATATACCACAGGATATTTTTTTTCTTTGTTAGTATTATAATTTTTAGGAAGTATAACCTCTAATTCAATTCCTAAACCATTATCTAATATTACTGAATTATGCTTTCCAATTACATCAAATGTATCACTTTTCTTTTGTATTCCATCTTTGTATGTAATTTTAAAATAGTATTTTAACTTTGCAAATGTTGGTTGTTGAACATCTGTAAAATCATAATCAAAAGGTAATTCTTTTAGCTTATAATATTTATTACTAGCATATTCCAAATTTCTAAAAAGTTCTATCTTTTCAATATTGTTTTTATTTTGTAAATTCCATTTAATTCTTGAAAATTTATCTCCTGATTCAATTGTTATTTGAGTTGGCATATACTTAATTTGTGTTTTGCTTTTATCTTTTTCTAATGAAGTACATGCAATCATTGTTGACAATAAAAAAATCATAAATATATATTTCATCATTAACTCCTCTCTTATTTTTGAATTGACAATTTTTTCTTTTTTTTCATTCTATCATGTCCGAGTTTTTTTATATGATTTATTAAATAACCTATCCAACTTTCCTAACAAAAAATAAACCACACCTATTTTTTCTAAGAACTAAATATGAAATTATTTATCCACTCCTCAATTAATCTTTAACCTTTTCCATTCCTTTACTCTTTTTCTAACAACACTTTTGCATTCTTAGGATAATTTAATTTTTCTAATATTTTATACAATTTGCTATATTCCTCTATTGTATAAATATGAGAATTATACCTCACTACAGTATCCAATATGATTTTATTTCCACCATTACTATTACCTATTTTCAAATCTCTTTTTATCAACATATTTTTTTCTTTTATTTCCAATGATTTTGGTGCTATTCTTACTTTGTAATTTGCTGGATATTCTATGCTAATATTGTTTTTTCTCAATATATCACTAACTAATTCAAATGGATATTTCCTTACATTTTCAAATAGATCTAACATATCCAATCTATATGGCAAATCAAAATATATGAAATCCCCATCTATTGAAGCAAAATTTGTATATTTATATGTGTAACTTATTTTTACTGGACTACCTAATTCTACATCCATTTGCTTACTTATTGGATAAGCATTTTGAGAAATCATTCCTAATTCTTTTTGATAATCCTGTTGTTTCATTATAGGAGTCATATATTTATATTTTTCTCTTTCTCCAATTGCATTTATTCCATAAAAATATATTGTCTTATTAATTAATGCATCTCCATTTAAATCAATTTTTATATTATAGCTTTTCTCTATTCTTGTAATATTTTTTTCAATTGATTTAACATTTACAAATTCAGGTTTTCCTGTATCTAATATTAATCCTATATTATTTTCAATTACACTCTCGCCTAATTTTGAAAATTCATTTGTAGCATCTACAAAATAATCTTTATTATCTATGGTAACTTTTGAAATAGCATAATTAAATCTATTCATATCTATCCCTTTTTTTACATCATCCCATACAAGTTTATCTGAGCCTAATATCACTATTTCCCCAGAAATACCTTCCTCTTTTAATAATAATAAAAATAAATTTTCTATATCCAACGAAGTTCCATATCCTCTTGTTAATATCTCTTTTGGAGAACTTGCTTCAAAATCTAGCAAATTATCAATATATTTTATCTCTATATGTTTAGCTATAAAATCTTGTATAATCTCTTCTTTTTTCATATTTGTCATATCTTTGGTTATTAATTTATCCAATACTTTTTCTTTTATCTCTTTTAATATTTGTAAATTTTCTTTACTTTTATTTATTTTTATAAATTTTCCTAATAATTCATCTCTGTATTCTGCCCAATTGTTATAATTTGTAAAAATAACAGTTGGCATAAATTTTAAGCTTTCTGGTATATTACTTTCATCTAAAATCTGTGGCATAAACTTTTCACTAAATTTTATTATTTTCCTATCTTTAGCTATATTATCCATATATTCCATTTTAGTATTCCAGTTAAATTTTGTTATATTAAAATTCATATCTTTTGGTATATTTATAATTTCAACTTTATTATAAACTGCTTCTCTACTTGCAAAATTTACAGTTCCTGATATTTTTTGTTTTTTATTATTTTTTATTGTATATTCTATATCTATAATATCGCCCTCATTTACCGCTGGAAAAGCTATTACCTCCATTTTATGTGCCGCATATTTCATTAACCCTACATCTGAAGGTGCATCTATTATTCTAATATTTTTACTTTTATCTACTGCAATTTCTTTTATTCCACTCTTACTAATTTTTACTGTCTTTGCATTAATAATATCTACTTTTTCAAATCTTTTATCAAATTTTATCTTATATTCCGAACTTGCTTTTTTCCCTTTATAATTTAATATCCTTTTTATTATATGTTTTTTTATTATATAGCTATTATCCTTGTTAAAAATTATACTTTCTCTATCCAACAATGTTACTACAGAAGCGTTTGGATATCTTTTCATATCTATCTTTGTGTTATATATACTATTTGTTTCTGAAAAAATCATACTAAACATCATAAAAAACCAAATTAAAATAATCTTCTTCACTTTTACTCTCCTTTTTTCTTTATTTTTTTAAGAAATTCTTTATTATAATATATTTTTTATTATAGCTCTCTTCCTCTTTTAAATACTCTTTTAATTTCAAATATTCTTTTGTAGAATATTCCAATTTATCTAATGTCATATATTTATAACTTATAATTTTGCCTTTATCTGTAATATATTTAGAATAAAAAGTATGCCCATTCTCATTTATATCCATTGTACTTGGAACGAATTTTATTACAAAATTTTTATTCTCGCTATTATAAATAATCTTTTCTGAAATTGAAGCTGTAAATCTATTTTTCAAAGGATATTTTCGCATTGGTAATTTGACATCTCCTAATGCCCAATTATATAATCCTAATATCCTTGAAAATTTAGGCAACTTTATCATACTATATTCATTTCCACTTATAATATAATCAGAAATTTTATATTCAACTGATAATTTTAATGTAGAACTATCTCTTAATAAATTATTAGGTAACAACTCATATTTTTCTAATTTTGCTGTTTTAGATAAAATATTTAAAACTCTTTTTATAAATTTATCTTTTTCATCTTTATTTAATCTTGCAAAATATCCTCTATAAGCTCCATCATTTATTCCTAAAAATTCTATATTGGTTTTACATTGAAATTCTCCATTAATATTTTTTATATTTGTTACTATTTTTAATTTATTTTTTACAGCTTCTATTACAGGTGTAGTTTTTAATAAATCTCCATATTTTTTTGCAATTAAGTATGATTTGTCCATTTCATAATCTGGAAATAGTTTCTTGGTAGTCTCATCAGTAGGGTCCATTAAAATATATTTCCCATTTAATTTCACTGTGGCAATCGCATGATTAAAATATGGAATTGGAACTTCTTTGTCTAATTTATCTCCTACTTTTACTAAAACCATATTTGCTTCAAATCCTTGACTTCTAAGCATTGCAACTATTAATGCTGCTTTATCTCTACATACTCCTGTCATCTCTTTCAAAGTTAAATCTGTAGAATTAGGTTCTAATCCTGGTCTATTCTTTTCATTGGTAATTCCCATATATCTTATTTTTCTTGATACAAAGAAAAATATATTTTTAATTTTTTCCATATCTGTTTTAGAATTCAAAACTAAACTTTCAGCTTTTTTTCTTATTGATTCATCTATTATTATTTTGGGTTCTGATAAATTAAAATACCATTTTGAAATCTCTTCCCAACTACTATTAGTTGTAACTATCCATTTCATAGCAACTTGAGTTATAGATGGCATTGAAGGTTCTGGTATAATTTGAGGTATATTTTTTTCTTCTAATTCATAAATTATATTTTTATCATTACTTTTTTTGGTTAATTTATATTTATCTTTCAAACCATTTAAAACAACTGAATATTTTAAATCTTTTTCTTTTGGTGCTATGATTTTATATTTCGCTTTAATTATAGGATATTCATTTCGCAATAAATAAAAATCTGAAAAATTATCTTTTATCATAGTTTTAAAGTTATTATGCTCTACTTTATAATATAAATAATCTCCTACCTCTAAATTTGGTATTTTTAATATTAATAATTTCTGACTTTTGTCATATATATTTGACTGTGCAGATTCTGGTGAAATTTGTATTTTTGAATTTTTAGATATATTAATCTCTAATTTCTTTCCATCTTTTTTTATTAAATATGCTTCTTTCAAAAGTAATTTTTCATAATTACTATCATAATTTAATACAACATTTTCATTTTCATTTTTTCCTTTTTCGTCTAAAATTTTAATTAACATATCTTCTGTTTTTAAACTTTTTCCATCACTTTGATATTTCACAATAGAATTTTCATCTACTAAAACATAATGTGCATTTGGATAATCTTTTTTTTCAACCTTTAAAAATTTGTTATTTTCAACAGAATATGACACTATTGAAAATAGCATTAGCAGTACAACCATAATTTTCTTCATTAATTTCCCTCCTGTTTTTTATGAGTTCTCTCAGAAAGTCTAGAACTATTAAAATACCTATAATGCTTACTATTTTTGCACTATAATTTCCTCTCCCCACCTCTAAATCTCAATGTCGTCAAGCTAAGGATTTTATAATTTTATATCGGGTTTGCCAACGGCAAAACCCCTACATTATAAAATAAATTAATACTGTAGGGGCTTGCCGTTGGCAAGCCCAGTTTTTAGCTTGATGACATTGGAGATTCGGTGGGAGCTCTTTTGACTTTCTGATAGAACTTAATTGTGATAGCATTAGATAAAGCGTAGCTTCTTGTTTTATTATAAAAGTTCTTAAATCGTTGCGTATTTTAAAATAAAATTAAAATGTTATTTTTATTTTGAAAATTCATCCTAAAGCATATACAGCTCATTATCCATTCTTTTTAATATTTCATATCCTTTCATATAATATTTTTTTTGATTTCTCATTGGATAAAAAAAATCTTTTCCAAATTCTTCATTTGTATCTTCTACTTGTAATTTCCATAAACTATCAAGTAAAAGAATATTTTTTTCCTTCATATAATTTAAAGTAGCATTAAGCAAACCGCAAATATAATAACTTTTATAGAAATTAGAAAATTCATCTTCAACCATTCTGCTATCTTTCTCAAAAGAATAGTTACTAAAATACCTATAAGAACCTTTTACCATTAAAAGATTTTTTACTTCCGGACCATAAGAATAACTTTTATCATCTTCTATTAAAATAGTATTTTCTAATTCATCTTTTGAAACAACTACATCAACTAATTTTTTCTTTTTATTTCCAAAAAATGGATTTTGTGCAACTTTATAAATATTTCTTTTACTCTCATCTCCACTCTCTCTATATCTTTCTACATTAAATAAATCTTCTCTTGAAAATATTTTTACATCTTTTAAAATTTCTTCATAATTTTTTGGAAATGTTTTTTTCATTAACTCTTCTACAGCTTCTACATTTCTATCTTTTATTCCACTACTAAAAAATATTATATTATGATTATTTTCTTTTAACCATTTAAATAATGCATAAAACCCTGGAAAAACCATATGAATATACCCTAATGCTTTAATAGTGTGTCTTTTTACAAATTCTTCACCTAAAAGTTCTATATATTCATTATATTTTCTTTCAGCCTCATAATCAAGAACCGATACAACAACATTATCCAAATCAAACACAAAATTTATCTTTTTCATTTTCAACACTCCTTATCTATTTTTTCTAATTGTCAATTGAATTATACCATATCTAAAAAAAGTTGCCAATCATATTCCATAAAAAACAAAAAGGATAGTTAATGCTATCCTTTAATCTCATCTCTCTTTACTTTATATCTAAATCCATTTAATTCATTTTTCGCCTTATCATAATTCAATTTAGCTTCATCTCTATTTTTTTGCTCTTTAAGAAAATCCAATAAACTCATATATCCATTTTCATATATATTTTTATCTACTTCATATCTTTTTTCCATATTCTGCATTTTTTCTTTTGCTATTTCTAACTTTGATAATAAATTCTTATATTCTATCTCTGCATTTTCTTTATCCTCTTTACTTTTTATTTCCAATTCTTTCTTTTCTATTTTTAATTTGTCTAATTCCTTCTTTGTTTTTCTAACATCTGTTCCATATTCTATTATATTTCCTGTAAATACAATTCCTGCATTCCAAACTTTTCCTTCTATATCATAATTCATATCAAAATTTATGTTAGGTTCTGATTTTCTTTTATAATATTTCAAATTTTCCTCATTTAATTTCTCATTTAAACTATTTACAACTATCTTATCCTCATTAATTTCTATTTTAAAATTATCTATAGCTTTTATATCTTTAAATTCATAATCCGAATCTTCTATCCCAACTTTTTTTAATAACTCTCTCTTCTTATTCTTAATCTCTTTTTTTAAATATTCAATACTATTTTTAATAGATTTTATCTCTATTCCCATATATTCAACATCTATTTTTACTGCTTCTCCATATTCTAATTTCTTTATCAAATTTTCATACTCTTCATTCATCACTTTTAAACTATTCTCATTTATCAATATTTCAGAATCCAAATTTTTTATTCTTATATATAAATCAACTATATTTTTCAACTCTGTTTTTTTACTGATTTTCAGATTTAATTTTGTTAATTTGCTATTTAAATTTATACTATTATCTTTATATTTTTGTTCACTATAAATTATATCATTTAAACTTTTCGTTAATCCTAATTTATAACTTACTCTCTTCACTTTTGAGGTTGTATTATCATAAGTAATTGCACTGTAAAACATATTATATCCTAAATTTACAGTTATCCCTCCTGGATATTTTGATATATCTTTTGTCATTTGTAAATTTAATGGCATTTTATCTTTATCTGTATAATAACTATAATTTGGTGTTATATTAAAACTCAATTTCCCCCATTTATCAATAAAATTACCATTTTCATCTATTTTTAATTTATCTAATTCCAATTTCTCTTTTTTTACATAGCTACTTTTATTATTAAAACTCTCTATTATATCATCTAATCCTAGCTTTTTTGCTGCAAATATATTTACACTTATTAAAATCATTATTACTAATACTATTTTTTTCATTCTGCTAACTCCAATTTCAGATATTCTATTTTGCTCTCATAATCTAATTTTTCTATTACTTTATTCAAATACTCCATATCTTTATCAAATAGTTCTGTTTTACTTGCTAGTCCTACTTTTGATTTACTTACAAGCATCTCTTTTTCTAACTCTAATATATTTAATTTTGATTCTAATACTTTTAAATCACTTATATTATCTGCTAAATCTTTCTTTAATTTATCTTTTGTTTTGTCTATATTTTTTAAATCTTCCTCTCTTTGTAATCTTACCAATTTTAAATTTATCTCTCTATTATCTATCTCTTTTGCTCCTAATTTTTCTTGATTTGCTAAATTTAATTCTTTAGAATATACAGCTTCCAATATTTTATAACTTTTTTCTATCTCTTTTTTTATATTTTTGATTTTTTCCAATTTCAAATTGCTTATATCTTTTAATTTTTTTACATTATAATTTTTAGCTCTTATATTACTTTCTATCTGCTCTTTCAAACTAAAAATATTATATTTTATATTTAATATATCCATTTTACTCACAACCTCTTGATTTTTTTCCATTATCTGCTTTTTCTTCTCATACTCTTTTAATTTACTTTTTAATATCTTTGATATTTTATCTAACTTTTCTAATTCGCTCTCTATTTGAAATTTCTCTTTTAACTTTTTATTCTCCTCTTTTATTATCTCTAAATTTTTACTTACCAAATCTCTTTTTAATTTCAGATAATTTGTATCACTCCAACTTTTCTCTTTTAATATTTTTAATTTTTCTAAGCTGTTTTTTATCTTTTTATACTGCTCTTGCAATATATCTAATTGGCTACTGTATATATTTAAAGATAACATTATAAATATTAATAACTTTTTTAACATAACTGCTCCTTTTTTGGCGAGATTTTTAACTATTGATTTATTTGTCATTTACTCAAATAATTTATCCCATAAATATCTTGCAAATCTCTTTTTTTCTCCAATAATTATCTTTGCTTTTCCTTTTAATCCGTTTCGCAAATATACACCTTTTAATCTATTATTTTTTAATTTTGTAGTAAATCCTTTTATCTTTACTTCTACTTTATTATAAGTTATTCCTTTTTCTGCTTGTGGAAATAATTTTATTACTTCTCCTTCCAATGTTGAATATTTCTCATAAGGTATTGCATCTATCATTAATATTACTTTTTGCCCTTTTTTGACTTTTTCAATTTGATTTTCCTTTAAAGTTACTAACATTTTCAAATTATTTAAATCCGCTAAAGTAAATAATAAATCTCCATTATTAACTATTGCTCCCTTTAAATTTTTTAATTTATTCGTAATTATTGTCATCCTATCATAAGGTGAAGCTATATTACAGTTATTTAATTTATTTTTTAAATTTTCATTTTTATTTTTATAATATGTAATTTTTTTCTTGATATTTAATCTTTCTATATATATTAATTCTTTTTTTAACTTTAAGTCATTTTTTTGAGAAAAATTTAAAAACTCAATATTTTTCTTTCCTAATAAATACTTGATTTTCTTTAATTCGTAGTTGGATATTTCTCCCATTTTAAATAAAATTTTATCATGTTCATATTCATTTTTTAAATTTTTATAATCTATTTCTAATAATTTTAACTTATTTTCATTATTTTTATCTTCTAAATTAATCTCTTTTTCTTTAATATTTTCTTCTTCTAAATTTTTAATCAAATCTTCTATTAATCTTTCATTTTCTATAATTTTCCCCTTAATATTTTCTGAATCTATTTCCATCACAATTTCTTTTTTGTTTACAACTTCTCCAAAACCTTTTTCTATTTTTTTTATTCTACCATTACAAGGAGAATATATATTATATTTATCCGCAATTACTACACCTTTTCCTTCTACATACTCTGTTTTTTTTAATACAAAAAATAAAATTAATATTACCAATACAAATATTATTGTAGTTATTACTAAAAATTTTATTACTGATAAAGGATTTTTCATTAACTCTCTTCCTTTCTTTAAATATTATGATTTTTAATTCTTATCTTTTCTATTCACCAAATCATAATAATATCCCCGTTTGCTTATTAACTCTTCATGTTCTCCTTCTTCTATTACTCTTCCTTCTTTCAAAACAATTATCCTATCTACATTTTTAACTGTTGATAAACGATGGGCAATCATTATAACTGTTTTTTCTTTAAGTTCTTTCTCTAAAAAATCTTGTATTTTTCTTTCTGTTATATTATCTAAAGCTGAAGTGGCTTCATCTAATATAACTAAATCAGGATTTTTTAAAATTATTCTTGCAATTGATAGACGTTGTCTTTGTCCTGCTGATATATTACTCCCATTTAAATCAATCTTTTTCATCATCCCATCTTTCTCTTGATTCAAGAATTCCCCCATTTGACATTTATTACATATCTCTTCTATCACTTCATTTTTTTCTTTTTTTCCTAGCAATAAGTTTTCTTTTAAACTATCACTAAAAAAAAAGTTGTCTTGATTTACTACTCCTATAAATTTCCTATAATTATTAATATTAATTTCTTTTAAATTATTTCCATCAATAATTATATCCCCTTTTTCAGGCTCATATAATCCCATTAATAATTTTACTATAGAAGATTTTCCGCTTCCACTTTCTCCAACGATTGCTATTTTTTCCCCTTTTCCTATTTTTAAATTAAAATTATCAAACAATTTATTTCCTATTTCGTAAGAAAAAGATACATTTTCAAATTTTATATCTCCTTCTATACCCTTTATCTTTTTTCCTTTTATATTTTCTTCTTTTAAATTTAATATCTTTTCTATCCTTTCTACCGCGACCAAAAAAGAATGGAAATCAATATTAAAATTAATAAATTGAATTAAACTATTTTTTAAAATACTACCATAAGAACTTAAAGCAATATAACTTCCAAAAGATATTTCTCCAGTATAAACTAAATATCCGCCAAAACCGAACATCAATATAATCTCCAAAACATCAATAAAACTGCTCCCAATGTTGCTAAGCCATTTATATTTCAAATAACTAAATATCGACACTATTAATTCTCTATTTTTTACCCAGTGTTTTCTTTCAATATATTTTTCTTTTACATTTAATTTTATATGTCCAAAATTAAAAAAAGATTCATTAATAAATGAAAATAAGTTTGAAACCGATTCTTGTGTTTTTTTATTAGTTCTAGTTAATCTTTTTCCAAAATATAAATTATTAAAAACATATCCAGGGATTAATATAAAAGAAATTAAAAAATATTTCCAACTTAATCCTATCATTATTATAGACACTACTAAAAAAGTAAAAAAAAACATTATTAATTCAAATAATTTAGTTGACATCACTTGCTCAACATTATAAATATCACTATCAAAAGTTACATATATATCCCCAAAATTCACTTCCTTTATATTTAAAGAATGTGCACTAAATATTTTTTTAAACATATTCTTTCTTAAAGTTGCGCTTATAAAATTCCCTATATAAGCTAATAAATAATCTTTAGATATCTGAAATATACTACTCATAACAAAAATAGTTACATATAATAATATAAAAATATAAAGCGCTTCTATATTTTTTCCTATAAAAAATTCATCTATAATATATTTATTTATTAGTGGTTTTATTAAATTTAAAATTGTAATTACTGCCATAACAAAAACTACATATATCTGTAATTTATATATTTTTTTTAAATAAGTATACATTTTTTTTATTGCTTTTATAACTTCCATATAATTCATTTTAACAACTCCAATTATAACATTTCTATAACTTATGAATGGCTTAAAAATAATATTCCCATTTTGTTATAAAAGGCTCAAGGTTCTTTTATGAAAACCACATAAAAAACTACGCCCAACGTATGCAACGTTTCAACCATTTTTATAACAAAATATGAGAAAATTATTTTTTAAACGTTACTTAATCTATTAAATTTTTTAATATATATGTTAATTGAGTATCTACACCATTTATTATATCATCAATTTTAGGTCTCACTATAATATCTGGAATAACTCCTCTTTTTATCTTCTTTTCACTTGGATCACTTAAATATTTATTTGAAATATATATTTTAGTTTTAGTATACTTCGTTCTAAAAAAAATTGCATTTCCGTAATCACTATATCTAGTTCCACTTTCTTCTCCTATAATTGTTCCTAATTTATAAGCTTGGACCATTCCTAAAAATGAACTCGCACTTGAAAAACTTCCTCCATTTGCAAGAACAAATACATTCCCACTATATCTGTTCATACCATATACTTCTTTTACATTACTTTTTAAAATTTTTCCATTTTGTTTATCAGTTATTTCATTCCAGTTGTAACTATTCTTATAAATACCATATTTATTTTGATCTTTTTTTAGTGCTTTACAAACCTTTACTTGAATATAAGAAAATACTCTTATTTTTTTCTTTGTAATATATCTGCCTAACAATTCACCGCAATTACTATTTCCACCGCCATTATTTCTAATATCTATTATTAAATTATTTATCCTTTTCTTTTTTAATTCAGAAAATGATTTCTCTAAAAAAGACAAATACTCTTGATCATAATCAAATTCTTTTATTCTCATAATTGCTACTTTTGACGAAATTTGTTTAAAACTATATTTCTTCTCTTCTTTTATAAATCTTTTTTTATACTCTTTTAGACTAATTCCATTTATAATTTTTTTCTTTATAAGATTATCTTTTTTATCTCTATAAACGATTTCATACTGTTTTGTAGGATTATATAATAAATAATAATGCATAAAAAACTCATCATTTAATATACATTTTTTCCAACCAATTGTATCATAAGATATATGCTCAGATATATTTTTTATAATTCTATCAACAGGATTATTATTTATTTTTAAAATTAGAGAACCTTTTGTTATTTTATTATTATAATCTTTTATCAAATATACTTTATTTCCAATTATATAAAATTTAAAAGGTAATATTTTAATGTCTCTCTTTAAAAAATTTTCTGTTTCTATTAAAACTCCAGTATGCCCATCTTTAATTTTAGCCATCAAAGAAGCTAAAAATGCAACTGCTTCTCTCTCAGAAATAGTATCATTAAATTTTTTGAATTTTTTTTCTATATAGTTATTCAATTCTTCTTTTTTTACACGAGCATAAAAATTTACATGAATATCTTCTCCTTTTTTCACTACATCTTTTACTTCTTTTAAAAACATCTCCTTACTTATCGCTGCATTAATCAAATTACTAAAATAAAACATTGCTAAAAATATAAAAACTATTTTTTTCATATTATACTCCTCCTAATTTTTTTCTTCTTTATAATTAAATATTTCAAACTAAAATCTAAATATTATTTTTATAGCCATTTCTCATTATATAAAAGATTTTTGAAATACTAGAAATCAAAGTATAAATTCTTTTATCTATTAATTTACATTTATATATTTTATTTACTAACTATAAATATTCAAAATACAGTTTTGAATATTTTGTTACAGCATCTTTTACACTTTCGCCATCAATTTCACAAGATATTTTTTTATCTAATATTTTCTTTTTGCATCCTCCATGACAAATTGGTAATTCTTTACAATCTAAACATTCCAATTGTTCTTTATTTTTAACAACAAGTTGTCGCCATTCCTTTTCCCTTTTTTTATTTGTTATATTCATTTCTCCATCTTCTGTAATATATCCTATATTATTTTCTTCTTGCCCTACTGAACTCTCACAAGGATAAACAAGTCCTTCTGAAGAAATAACATAAGAGTTTTCTTTATATGCATAACATCCAACATTTTTAGGCATTGGTAATAAATTAGAAATTATATATTTTATTTCTTCTTTTTTAAAATTATTTTTTTCTATTCTGTATCTCATTCTTTTATAGTATATTTCGTTATTTATTTTATGCTTTATCTTCATTGCCTCTTTAGTTCCATAAATTTCTTCTTTAATTCTTTCATTTGAACTTCTTTTTGTTTCTACTTCATAAACAGGAGCAAAATAGATAAAAAATCTCATATCATCCATAAATTCTTTTTCAAATTTCTCTATTAAAACTTTAGAACTTTTTAAATTTTTTTTCAAAAAGTTTACTCTAATATCTATATTAAATTCTTTTTCCACTTTTTTACTTATTAATAATAAGTTTTCATAAATTTTATCAAATGTACCTTCTCCATTTCTCAAATTACGAAGCTTGTCATGAGATTCTTTATCTCCATCAAATGTTATTTGAAATTTTTTTATCCCTTTATTTACTAATTTTTCAAACTTATCATATGTTAAAAGATATCCGTTAGTAGTCATATTTGATGTTAATTTTAAATGTGAATACTTTTCTTCTAATTTTTTTATTTTCTCCATAAAATTTAAAATATTTTTATATTCTAGCATTGGTTCTCCACCAAACCAATGTATATTCACATAAAAATTTTTATCTCTATTTGAAGCTTTTAATTTATTTTCTATAAAATTATATATACTTCTATATACTTCTTCCTTCATAGTTACATTTTTATATTTATAAATAAAGCAATAAGGGCATCTAAAATTACACTCTTCTGTTGGAAATAAAACTAAATTTAAACTATTGCCATAATCAAATTTTCTTGAAACTTCTAATATTTCATCCCTATTATTTTCAATAAGATATCCATATTTAATTAAAACATCTTTTATTTTTTCTTCTTCTAATTTAATATTATTGGGTTTTTTTAATAATTTTATAATTATATCTTCTTGGTTTTCTTTAGGTATAAATATTGCTCTTGTTTTACAATTATACACCGCTAATCTCTCATTGTCTAATTTTATTTTATAATTATATCTACTTTCTTTATATTGTAATTTTTCCATTCTTCTCTCCTTATCAATTTAATAATATCTATTTTTTGCTCATAACTATATCCATTTAGATTCAGTAAAAATATCATAAAATATTAATAGAAATATCATTATAAATTTTCTTATTTATTTTATTACTTTTTTCATGTCACTTAAAAACTTTACTACTATGATTATTTATATGCTCCTTATATAAATTTAACAATTAATAATAAGGTCAGGGTATATTTGTTTGTTGTTTATTGTTTGCTGAAGCTATAAATAACCTTTAAATAATTTTATAAAACTGTCTTTTTAAGTTTAAGAAATATAATATTTATTAAATTATTTTATTTATAATTTTACCAATGTATATGTATAGTACAATGAGTACATGTAGATGCATGAGAGCAATCATGACTATTACATATATGATGGCACCCGCCACTACTACTACCGCCACCATCTTCGTATCCATATACATCTACATATCCATTTACTTCTAATTCTTCTAATTCTAATTCTTTTATTTTATCTTTCATTAATTCCCTCCTATTTTTTATACCCTGACCAAAATTTAATTCTAATCAAATTATTTTATTAAATTTAACCTCTTTTTATTAATAAAATTTAATATTTTTATGCTTAAAACTTTTTCATCTTTTAAATACTTTTCTAGAATTTTCATAATTATTGTCGCATGGCCATGTTCATCTTCTGTCTTTTTATTGTCAATTTGTGTACTAAAAATATAAATCTAACAATTAATAATAAGGTCAAGATATACTTATTTGTTATTTGTTTATTTGAACCATAAAAAAATATTTAAATAATTTTATAAGACTACCTTTTTAAGTTTAAGGAATATCAATATTCATTAAACTATTTTATTTGTAATTTTACTCATGTATAAAACAAGGCTCATATGGATAATGACAACTGCACACAAAACTGCCACTACCACCATCTTCATATCCATATACATCTACATATCCATTTACTTCTAATTCTTCTAATTCTTTTATTTTATCTTTCATTAATTCCCTCCTATTTTTTATACCCTGACCAAAATTTAATTCTAATCAAATCATTTTATTAAATTCAACCTATTTTTATTAATAAAATTTAATATTTCTTTTAATGTTAGTTTTTTATTTTCATTTATCAATTTTAAAATAATTCCTGTTATATGAGGAGTTGAAAAACTTGATGAATGCATATTATATTCATTTCCATCTATCCACCTCAATCTTTGTGTCCCACCTAAAATAATATCATTATTATTAAAATCAAATTCAAGTTTTTCTTCAAATAAATTCCCTTGTTTTATTTTAATTCCTATTACTTCTTTAAAACAAGCAGGATAAGCTACTTCACCTTCATTATGATGAGAAGCTATAATTATTATTTTTTTTTCTCTTGCTTTGAGTATTTTTTTATAAATCTCATTTTTATACTCTTTGCTAATTGTCCCCAAGCTTAAATTAATAATATCAACTTTCTCATCAATAGCAATCTCTAATGCCTTTAGTAATAATTTAGAGTGAGTTGCTAAATTTTTATTTAATATTTTTATGTTTAAAACTTTTTCATCTTTTAAATACTTTTCTAGAATTTTCATAATTATTGTCGCATGACCATGTTCATCCTCTGTCTTTTTATCATCAACATGAACTCCATATTGTGTATCAAAAAAAATTCTTATATTTTTATAGATGTTCAATTTTGTTTTTTTGTATAATCCACTGTCTATTAGTGCTATTTTTTTCATCTCAATCACCCTTTAAAATTTAATAAACAAATTGTATATTTATTTTTTATTTATTACATGTATTAACGCCTTTTTCATAATTAAATAAATAATTTATTTAAAATAATATCACCTAATATTTTTATGTCCTCACTATTATTAATATCTATAACTGGCAACATAAATTTATTAAATAACTCTTTCTTTTTTTCTTCCATTTCCAATAATGTAACTTTTTCATAAATAGTCTCTTGCCATTGGTCTTTAGATACTGCTTTTATATCTGGCAAAACTAAAGCAATTACTTTCTTTTTTCCTAATGCTTCTAAGGTATTAATTGAATTTTTTATATGCTCAATAGGATCTATATGATTTACTACTAATATATATATATCCGGATTTGCAACAAATAAACATACTATTGAAGGTAAGGTCAAAGAGTTAGAATTTACATTAAGCTTAAACGGAGTAATTCCTGATTGTCCCCCTACAATTAAACAATCATATCCTTTTTTATCTGTCTTTTTTAAAAGATATCTATATAATCCCAACTCAGAATTTATTCCTTTAGGAAGATTTGTCCACATCTCTTCACATCCCAAAAGATAAGAAGAGGGTTCAGTTCCAATATGACCTATTTTTAATCCTTTTTCCATTAATACTTTTTTTATAAATAGTTGAGTAGTTAGTTTTCCCTGATGAGGGCTTGTTCCAAAAATTCCTATTACAGGAGTTTTTATCTTATATTCCCATTCTTTTTCTTCAATCACTTCATTATATCCAGTAATATCAGCTTCAGGATAAACTGCAAAAATATTATTTTCTTCTAAATATTCCTCTCCACTTTTACTTATATATGGTTTTATATCTGAATCAATTACATATATATTTTTTTTATTTTTCAAAGAAATATCCATAACTTTAGAAAATTTTTCTTTTGTTTTTAATTGCTCATGTTTATATTTAAATTTTGTATCTATTCCATTTGAATCCGTAAATATCACTGTATCTGCTCCACAAATAGCTTTTTCTACATTATCTGTAACAATTAATCCTTCTCCTAAATTTAGTATTTTTTTAGCATCTTGCCCTATTATTTTATCATCAAAATCTATAACTCCTGTAATTTCATACCATAAATTTAATTCTTCTGAAGCTCTTAAAATTCCTCTTGCTATTTTATTATAAGGATATAAAACTGCTTTTTTTATTTTTTTCCCTCTCATAGCTTCATTATAAAATTTATTTTTTAACAACTTGTTTTTTATTTTATACATTTCTTTTATTAATTCTACATTTTCAACTTCAAATTTATCTTTTAATTGTTTTTTTCTCATATCAATTTGTTTTTCATTGATTTTTTCATATTTCCCATAACTTTTTTCTATTTTATCAGGTAATAATATCGCAAATGGCTTTTCTAAATCAGTATAAATTTTTATTAAATCTATTGCCTTTCTTATCTCCATATCATCATCATATCCTGCTACTAAAATATATTTATCTGGCATTAATCCTTTTAATAAAGTAATTTTACTTAAACTCCATTCTAAATTATCTGTATTTCCTACTCCACCTTGATCTGCAAATATTAAATATTCTATTCCTTTATATTCATATTCTTTTATTAACGCTTTTAAATATTCTTCTGTTTCCTTATAACCTATTTTCATATTTGCAATTTGTGGTTTTTTAAAATAACGCCCTGTTGGTTCCGTTAATATTATATCTACTTTTTCACTTTCACTTAACTCTTTATACAAATTCATTTGTGCTGTAAATTTTCCAATACAACTTTTTGTCCCAAATATCCCTATTTTTTGTATTTTTTTATTATTTGATTTTTTTTTATATCCTAAAACTTTTGTGACAAATTGATTAATCTTTTTTCGTTCTAAACAATCAATATCTATATCTATTCCCATATTTGATAACTTCAATATGTCAACACCTAAAAATGTACTAATAATTTTTATATTTTTTAAATTAGCAACCTTTATTAAATCGAGCCATTTTTCCCTTAGATTTTTACTTTCATAAAATTCTTCAAAATTTTTCATAGGAATTCCAGGATCATTCAATATTAAAGTATCTACTGTTTCTAAAGCTTTTTCTACATTATCTGTTATTTTTACACCAATTTTCTTACCATTAACCATCTCTCCTGCATCTTTACCTATATCAAAATTAAAATCAATTATAGAGGTTATTTCAAAATCAAGCATTTCTTTGAATCTAACCAAACCATGTGTTACTTTATTAAATGGATATATACAAACTTTTTTCATAATCTCACTTCCTTTTTTTTACTTTGGTAGTGTCAAATAAAGTTTCCTTTTTAAGTCACTATCCTTTATATTTATTATCTTTGCGCGTTATATTTGACTCCTCCCCCAAAATAAGGTAATATTTTATTATAACCAGTAACAAAATACACCAAATTAGGAGGAGATTCTTATGCCAAAATATGTGTACACTTTGCTGAAAATTATTGCCATTCAACAAAAATTAATTATTGCTTTAATGATCTTTGCTCTAGGTAAAAAATTCGAGTTTCTTAATTCTAAATCTGATGATAAACCCATCGATAAAAAATACCATAGACTCATTGTTGATAAAATGCCTATTTTTAAAAAAATTGTTAAATTTGACTATAAAATACTTCTTGAACAATACCAACTTAAACACAATAAGCCTTTAAAACCCATTAAACGCAGAAAAGAAAGCTCCGTTCCCAAAAGCTTGATTTGCCCCATTTGTGGTGCTCCTCATATATATATTTATGATAACAACGGACATAAAGGTCAATTTAAATGTAAAATATGCAATACCAATTTCCATGAAAAAAATCACTTTGCAAAATTTGTTGTTTTTAAATGTCCTCATTGTGGCAAAACTCTTGAAAAAATTAAGGAGCGTAAAGATTTCTTCGTCCACAAATGTACAAATAAAAAATGCTCTTTTTATTTGAAAAATCTACAAAAAATGGATGCTGACGAAAGAAAAATTTATAAAAATGATCCTAGTAAATTTAAACTTCATTATATTTATAGAGAATTTACATTTGATTTTAATTCTCTTGATAAAGATTCTCTCGTTCCTATTCCAAGTGATTTATCTAAGATACAAGTTTCTCCTTATACATTAGGGCTTATTCTTTCTTACAATATTAATTTTGGTATCTCTGCAAGAAAAACTGCCAATTTATTAAAAGAAATTCACGGCATCAATATTTCTTATCAATCTATTTTAAATTATGCTAAAGCTGTCGCCACCAATGTTAAACCTATTATTGACAATTATCCCTATAAACTTTCTGACTCCATTTGTGGTGATGAAACTTACACTAAAGTCCTTGGTAAATGGAAATATATTTTCTTTTTCTTTGATACTAAGAAAAAAATTATTTTATCTCATTATACTTCTTCTTCAAGAGATACTAAATCTGCTTGCAAAGCTCTTATTGATGTTATTAGCAAGTATAGGGAGCTCCCTGAAGACTTCCAAGTCATTGTTGATGGCAACCCCATATACTTGCTAGCACAACAATTCTTTGCTCAACACGACATTAATTTTAACGTTGAACAAGTCATCGGTTTAACTAATAAAGATAAAGTTTCTAAAAAATTTAGGCCTCTTAAACAAATTATTGAAAGACTGAACAGAACCTTTAAAGAAAATTATCATTATACTAACGGTTACAATTCTCATTCTGGCGCTTTTACTTCTGTTACTTTATTTACAGCGTATTTTAATTTCCTTCGGCCTCATTCTTCTTTGGAAAATAACGTACCTGTTGTTATTCCTGAACTTACTGATTTACCCAACATGCCTGCTCGTTGGGGTAAACTTATTGAGTTATCTCAATATTTTATTCCTGAAAAACATATAGCATAATTTTTATAATTTTACTTCTGCCTTACCATTACTTTTTTCTCAAAAGTGATGGATTTTTCTGCTTTTTGTTTTTTATTTCTTTCTAATATTTTCAATTTAATTCTATAAAAAATCTTAGGGTTTTTTCATGATTTTAGCATAAATTTCTTCTTCTTTTTCTGCTTTTTATTTTTTTAGTTTTTCTCATAGTTTTCATAAACTTTTGACACTACCTTTACTTTGGTAATTTCTATTAGTACTTTTACACGTGTAAATATATTATAGCAGATAATTGTTTCTGTTTTATTAAGAAAATGTTAACTTTGTGTTAATTTTTACTTTTTAATACATAACCAACTCCTCTTAATGTTTTTAAGTTATTTTTTAAAATTGGTATTTTATTCCGTAATTTACAAATACATGTATCAATTACTCTATCAGTTCCTTTTATATAATCACTGCCCCAAATTTCATTCATTAATTCTTCTCTAAATTTTATTTTATCTCTATTTTTAGTTAGATAAACTAATAATTCATATTCTTTTCTTTCTAAATTCACATTTTTATTTTCATAATAAATTTCTCTACTACTCTGATTTATCTTTAAACTATAGTATTCAATAAAATTATTTTCTATTTTAATTTTATTTTTAAAATTAATCATCAAACTTTTTATATTTCTTATCTTTAATTTCAATTTTTTCATATCAATTGGCTTTTCTATAAAATCTATTGCTCCTGACATTAAACTCTCTTCTTCTATCTCTTCTCCGCTCATTCCACTAATTATTATTATTGGTATATTTCCATATTTATCTAGTTTATTATATATTTCTTTACAAATATCTAGCCCATCTATATCAGGCAATCCTTTATCAAGTAATATCAAATTAGGTTTATCCTCTTTTATTCTTTCTAATCCTTCTAATCCTGTTTTTGCTGTTATTATTTTATACCCTTCATTTATTAACATCTCTTTAATTAATAAACTTACAAGTTTACTATCTTCTATTATTAATATTTTCATAGATTTTCACCCCTATTTTGTATAAGACATCTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTGATTTTCTGATTTGCAACTTTTTTCAGGTTCAATTATTTTACCTCCTTATTTTTTAGTTTTTTACTTCTATAAAATATATAAACATTCTATATTTATATGCATTGTGTTCTTATAGTATCAATTGACTAATATTATTATAACACAAATTTATTTTTATTTAAAATTAAAATATTTTAATTTTGTCATTTATTTAAAACATATCCAAATTTATTATTATTCTATCTTCTGGAAACTTTACATAACAAAAGACAGGCATATAAACCTGTCTAATAGCTCCTATATTATTTTTTCTAATTTTTTCTATTTATTTTTCTCTCTAAGTTTTAATCATTATCTCCTCTTCTCAACTCCATAACTCTTTCAATTGCAATTCCAGTTGATTTTGCCACAATCTCTGTATCAACTCCACTATTTAATAAATTTAACGCTATCTTTTCATTTTCACTTAATCTATTTTTATCTTTTTTTGACTCTTCTAATTTCCTGTACTCGCTTCTTAACTCCTCTATATTATCGTAACTACTTGCTATCTCTACATCTTTTCCTTGAAATGCTATCCCTACTTTTATTACATCTTTTACTCCATAACTTTTTATCTCTTCTTCATATTTCTTATCTTCTATCTGTTTTAAGCCTGATATAGCACTCTCTAATAAGTTTTTGTCATCATCTAATGACAATTTTTTAAATTCTATTATTATCCCTTTTTCATTTTTATTTCTTGGTATTAACAATACATCAGCTCTTCCTAATCCACTCTCTCTATTACTTTTCACTATATACTTACTTCTTAAATCAACTATCATTCCCAATACTAATCCATGATAAAATCTTTCTGGTTCTTTGCTTGTAACATCAAAATAACTTATACTATCCATTACTATATTTTTAAATTCATTTTTAAATGTCTTTATTTTCCCCAACAACAATATATTAAATATATTTTCTAATTTTATCTCCTTCTCTTCCAATAAATTCAGTACAACTCTTTTATAAAATCTTATTGTTTCTCTATTTGGAATTGCTAATTCATAATACTCCTCATCATTTTCCTCTTTCTTATTTATGCTTTTTAAATATCCACTAAATAGAAATAGTGTCCATATACTACTCTCTCTACCTTGATTTAAGTCATCATATACCAAATCTTCCTCTATTCTACTCCAAATTGTTCCTCCAGATATTAATATCTCTATTTTCTCTTTTACAGTTGCACTTCCTTTTCTTATTAACTCTTTTATTAGATAATTACTACTTGTATTTACCCAATACGGTTTTATCTCCCCATTTTCATCTGCTAAATTTATTATTGAAAATGGATTATATATCTCCATTCCTCCAAAGTTATATCCATCATACCATTTTATTACTTCTTCCTCTTCATAATCCAATTCATAATACTCTAATAACTCTCTTACTTCTCCTTCTAATAATCCAAATTTATCGTTAAATAGATTAGTTAATATTGTTGAGACTTTTAAATTATTTAATCCACTAAATATACTCTCTTTTGCTACTCGAAGTATTCCTGTTAATACACTTTTTTCTAAATATATATTATCTTTTAACCCTTCACTTAAAAATATTTTAAATATATCCATAAACTCTCTATAATATCCATTTCTATATGCTGATAATATTGGTGCATCATATTCATCTATTATCAGCATTACTTTTTCCCCATAATAATTACTTACATATCTTAATAAATCTTTTAAGCTATATTTATATTCATCTATTTTTGCTTCTTTTCTTAATATATTTTTATATATTAGTTTTTCTTCTTCTTTTAATATATTTGAATTTAATATATAATCCTCATATTCTCTATATAATTTAGCTATTACTTCTTTAAACATAGCTAACATATCATCTAAATTTAATGCATCTAAACTTTTTAAACTCATAAATATAACTGGGTATCTATTCATATATTTATCTATTATCTCTTTTTCTTCATATATCTTTAAATTTTTAAATAGATGTTCATTATTTTCCTCTATATCAAAAAAATATTTTAGCATATATTGATTTAATGTTTTTCCAAATCTTCTCGGTCTTGTTATTAATACAACCCTTCCACTCTCTATTACCTCTTTTATTAACATACTTTTATCTACATAATAATAATCTTCTTCTATTATTGACTTAAAATTGCTATCTCCTATTGGTAATCTCTTTTTATTTTTTTTCAATTTAGACAACCCCCTTTTTAACTCTCTCTTATTAATTGCTTTTTCACGTGTCCATCCAGTGGTTAATTTTTCTTTTATCTTCTCATCTTTCAATTATACCATATCTAAAAAAAGTTGCCAATCATATTCCATAAAAAACAAAAAGGATATGAAATATTTTATTAATTTCATAATTCAACTATTTATTTTATTGGATTTTTTTAATATACTTCTTTAAAGTTTTTCCTAAAATTTCATCCTTTCCATTTATAACTTCATCTTTTTCATAAATAGTTGATTCTACTCCATTAGAAAAATTTTCTTTATCTTCTCCTATATAAATAGAAACAACAGGAATAAAAACAATTGAATTATCTCTCAAAACAAAAGCAAACGGAACTCCTATTCCACCCTTCGTTTTTTCTCCTATTAATTCTCCAATTTTATATTTTTTTATAACTCCGGCAAATAAATTAGCAGCACTAAATGTGTTCTCATTAATTAGTAATATTAATTTCCCATTAAAAAATCCATTACCTTTCAAAGAATTTATTTCTTCAATTTTTTATTATTATATTCGAATACAAAAGTAATTTTTTTATTTGTTAAATAAGACAAAAGCCACATAGCGTTACCTGTTAAACCGCCCTTATTATTTCTAATATCTATAATTAATTTCTTTTTGCCTTTTACTTCTTTTAAAATTTTTAATAATTTCTTTTTAAAATTTTCATTATCAAAGTTCGGCAAATTTAAATATCCTATATTTTTATTTATATCCATATAATGGTTAGACCACAAGAACTATAATTTTAATATTTTTTCTAAAATTACTGTTGCTCAAACCATTGATTCTATTAGACTGATTTTTTGAAAAAAGGTTAAAAATACCTTTTTGTGGTTGAACCATAATATGATAATAATTCGGCTAATTATTAATGCAACTCCTGCCTTCATCAAAAATAAAAATGTCATTAAAAAATAAATAATTAATTGTAATAAACTTATAAATAAAATAAATTTAATAGCATCAAAAACATTAAATCTCCCTTTAATCCATAGCATATTTATCTCCTTTTTTAGTTTAGAAACTGTTTAGCTGTGACAAATATAAAGATATACTTGCCACAGATTATTGAATTTTTTACAACTTAAATTTAACAACCATGTCTTTCTGTATTATGAGCAAATACTCCGATTCCCACTCTTATATTAACCATATTTTCATCTATTCTATTTTCTACATACCTTATTTTTATTTTAATTCATTTTTTTTATCTACTATTTTAAAATATACTTTATTTTTTACAAATAAAGTCATTTAATATATTTTCTACTTCTTTTTCATTTTTTCTCAATATATTAACATAATATTTCTCTCGAGAATTTAATAATTTGATCTCTAACTTACTATTTTTTATATTATATTCTTTAATATCTTCCATTTTTATAAATATTTCAGGTAAATATATTCCTTTATCATTTATAATTATTGATGAATTTTTATTCCTTTGAATAATTGTTAAAGGTATTAAATTTAAAATAGAAAAATGATTAATAAAATATGTAAAACTAATTTTCAAATAAAATATCTTATATAAGCTAATTAAAACAGAAGCATAATATACATACAAAAGTATATTAAATACCGTTTCATCTGAAAGAAAAAATATTTTTTTAATATTCCATCTTTTATCAGTTGTGAATATAATATAACTATGATTTTTGCTTCACATATTCATGCTTATTATAAAGGTAAATGTGGAAACACTCCATATTATTATCACTGGTGGGGCTGGTGCAGAACTAGCAGGAACTGATAAAAAACATTATTTTTATCATTATTTAAAAGTTAATGTAACTAAAAAAGGTATTAATTACGAATTAATAAAATTACACTCGCCAGATTATAATATTTTTGATAGAGTATTTTGGGCATTGTGGATATATTTATATGCATTTATTTCTATTAATGCTTGGAGTATTATTATTGTTATTGGATTAACTTATACTTTAATTATGTTTATTTATTCTGAACACTTTAAAAATTTTAAAGATTTTATATATTTATTCCGTTGGAAAAATAAAAAGTAAAAAATAGAAGTAAAAAAGAACAAAATAATTTTTGTTCTTTTTTACTTCTATTTAAATTATCTATTAAATTCTCTTATTTTTTCTAATACTTTTTCTGCATGTCCTTTTGGTTTTACTTTTTCCCATTTATACACAATTTTAAAATGTGGATCTATCAAAAGTGTAGTTCTCTCAGTTCCATGATACTCTCTTCCGTACATTTTTTTTAATTTCCATAATCCATATCCATTAATTACTTCCAAATTTTCATCACTTAAAAGTTCTATTCCTATTTCATGTTTTTTTATGAAATTTTTATGTTTTCTTGGCGAATCTTTACTTACTCCTATTATTACAGCTAACTCATTGTCAAACTCTCTTTTTAATTTTGTAAATTCTAAGGCTTCAGTTGTACAACCGGATGTATTATCTTTTGGATAAAAATATAACACTATCCATTTCCCTTTATAATCTTCTAATTTAATCTCTACTCTATCTTGATTTGGCAAAATAAATTTTTTAACTTCTTCTTCTACTTTAACCCCCATTTAATCTCTCCTTTATAAAATTCATTTTTTCTTGTTAAAACTTAAATAAAAGGCCTATATTATCTAGGCCTTTTATTTATAATAATTTTTTCAACTCTTCTTTTAATTCTTCTAAATTTTCTTCACTTGGTATATATAATAATCTCTTGCTTAACTTTATATCAAATTTAGAATCAGATAAATATTGTTCTATCTGAGCTACACTTTGACCTCCCCATCCATAAGAACCAAAAGCTATTGCTTTCCTATTTTTAGGTGTAAGCCCTTTCAAATATGTAAGAAATGAAGCTACTGTAGGTAACATATTATTATTTAAAGTAGGAGATCCTACACAAATATATTCTACATCTAAAACTTCAGTTATAATATCTGAAATATGATTATTTTGTAAATTTTTCATAGAAGTCATATATCCCTTTTCTTCAAAAGCATCTTGCAGTGCATATGCCATTTTTTTTGTAGAACCCCACATTGTATCATATACAATCAAAGCTTTTTTCCCTACAATATTTGAAGACCATTTTACATAACTATCTATTATCTCTTTTACATGTTTTCTAAATATCAATCCATGACTTGGTGCTATCATCTCTATATCTAATCCTGAAGCTTCTTTTAATTCTCTTCCAACTTGCATTCCATATGACATTACAATATTAGCATAATATTTTTTTGCTTCTTCTATTATAATTTCACTAGGAAATTCATCATCAAATCTTTCAGAACTAGCTATATGTTGTCCAAAAGAATCATTAGAGAATAAAATCTTTTCTTCTGGCATATATCCTACCATATTATCAGGCCAATGTACCATTGGTGTAAGAATAAATTCTATACTTCTTTTTCCTAATTCAAGTTTATCACCAGTTGAAACTGTTTTTATATTCCAACTACTTGTGTCATAATGTTTAGCTAATCCTTTTGCTCCATTTGGTGCTGTTACTAGAGTAGCATTTTTAGCTATCTCCATTACACGAGGCAATCCTCCAGAATGGTCCATTTCTACATGATTAGATATTACATAATCAATTTTAGATGGATCAACTATTGATGAAACTCTTTCTAATAATTCATCTACTAAATAATATTTTGTAGTATCAACCAAAGTTATTTTTTCATCTATTATTAAATAAGCATTATAAGTTGTTCCTCTTTGAGTAAGGTATCCATGAAAATTTCTAATATCCCAATCAATTCCACCTACCCAATAAATGCCTTTTTTCATCTCAACGGCTTTCATTATATTTAAGCCTCCTCAAATTGGTCTTTATCTACTCCGCATACTGGACATACCCAATCTTCTGGTAAATTTTCAAATGCTGTACCTTCTGCTACTCCTGCATCTGCATCTCCTACTTCTGGGTCATACACATATCCACATACTACACATACATATTTTTTCATATTAATTTCCTCCTGTTTTTAGTATTTGTATATTATCATATTACTTTATAATTTAATGATACTCTATTATTGTATTGTAAATTATAAAATAAGTCAAGATATTTTAATAATTTTTTTCTTTTAATTCAAAATAATCTCTTGGATGTAAACAAGCTGGACATTTTGCTGGTGCTTCCTCTCCTTCATAGACATACCCACAATTTCTACATTTCCATCTTACAACTTCTGATTTTTTAAATACTTTGTCATTTTCTATATTTTCTATTAATTTTTTATATCTTTCTTCATGTTCTTTTTCCACTTTTGATATTGCTTTATAAGCTTGTGCTACTTCTGCAAACCCCTCTTTTTCTGCCACTCTTGCAAATTCAGGGTATAATTCTGTCCACTCTTCATTTTCCCCTGCTGCTGCTGCTTTTAAATTTTCTAATGTTGTTCCAATTTTTCCTGCAGGATATGTAGCTGTTATTTCCAAATCTCCACCTTCTAAAAATTTAAAAAATCTTTTAGCATGTTCTTTTTCATTATCTGCAGTTTCTATAAATATAGCTTCTATTTGTTTATAACCATCTTTTTTCGCCTGTGATGCAAAATATGTATATCTATTTCTTGCTTGTGATTCTCCAGCGAATGATTTTAATAGATTTTTCTCTGTTTCAGTCCCTTTTAAACTTTTCATTAATATCTACCCCCTAATATTTTTTTAAATGTTCAATGTAGGATCTACAAATACTCTTTGTACTAATTCTTTATCTAACATAACTAATCCCATTTTATTATCTCCAATTAAATTCAATTGATCCAATATCTCATTTACATTAGCTTCTTCTTCTACTTGTTCCCCTACAAACCATTGTAAAAAGTTAACTGTAGCATAATCTTTTTCTTCTGTTGCTATAGACATCAATTCGTTTATATTTTTTGTTATATATTCTTCATGACTTAATACTCCTTCAAATACATCTAATGGAGAAGTCCATTCTATAGCTGGTCTTTCTATTTGCTCTAATATTACTCTTCCGCCTCTTTCGTTTACATAATCAAACATTTTCATAGCATGTGACAACTCTTCTTGATATTGAATTTTTGTCCAATTTGCCATACCTTTTAATCCTGTTGCATTAAAATAAGCTGACATTGAAAGATATAAATATGAAGAATATATCTCTCTATTTATTTGTACGTTTAATACTTCTTCTACTCTTTTATTCATTTTTCTCTTTCTCCTTTTTTAATTTTATTTTTTTACCCTTTCCACAATCCGTGTAAAGTACAATATTCTCTTGCTGATACAGCTTTTCCTTTTTCTACATAAAATATAGCCTCTGGAGCATCCCCAGGATTTAAAAATTCTCTATATGCTTTTCCATCTATTAATAATTCTATCCATTCTATATAATGTTCTTCCGTCATTGGATGTGCTGTAGTTTCTCCCACTTTTACTTTATACCCATTTTCTAATTCTTCTATAAATGGTACATGTTTTTCAGTTGAAGAATCTGCCATCTTTTCTTCCTGTAATACCATTGGTTTTCCACAACAAACTAATTCTCCTGCTCCACCATGTAACACCTCTACAATATTTCCACATACTTCACATTTGTACACTTCTAATTTCTTTGCCATTTCTAACTACCTCCCCTGTTTTTATTAGTTCTCTTATGAACTTTTATAATTTTATTTTTTCATTCAACTTATTTATTTTTCAAAAATCAATTTTATCGTTTCCTCTTTTGTCATCTTATTTTTTATACATCCCATTAACTTATTACTATTTTTTGTATCTCCTACAAATATTCCACCTACTACTCTATCATCTTCAAAATAAAGATTTTTATATTCATTTTTTTCTCTGTTTTCATATCTTTTATATTCACAATCTGGTTCGCTATCATCTAAAACTTTTCCTATTGAATATATCTTTGTATTTATTCCTGAAAAGTTTATTGCTTGTGATTCTTCTTTATATTCTATATTTTCTTCAAATATATTTTCTCCAGCTATTTTCCCTTGTTTCATTCCTACTATCCATATCCCTGCAATTTTACCATTATGCTCTGCGCAATCTCCTGCTGCAAGTATATCTTTATCGCTAGTTTGCATATATCCATTTACTACAATACCTCTGTTTGTATTTAGTCCAGCATCTTTTGCTAACTCTATATTAGGCCTTACTCCTGCTGATATTACTACAATATCCGTATCTATAATAGTTCCATTATCTAATTTTACTCCTGTTACTTTTTCATATCCTAATATCTCTTTTATAAAATCTCCAATATAAGTTTTGATATTTTCTTTTTCAATTGCAGCTTTTAATATTTCGCTCCCTTTTCCATCTAACTGTCTTGGCATAATTCTACTTGCGACCTCTATTATTGACACATCTAATCCAAATTTTTTCATTCCCCAAGCTGCCTCAAGTCCTAATACTCCACCACCAATAACTACTGCTTTTTTAGAATTCAACATATCTTCTTTTAAATTTTTCACATCATCTAATGTTCTTAATGTATGTACATTTTTAATATCTTTATTCTTTATTGGTGGAATAAAACTACTGCTTCCAGTTGCTAAAATTAATTTATCATATTTTAGAATTTCTCCATTATCTAGTTCTATATTTTTATCTTTTTTATTAATTTTCTTTACTTCAGTATTTGTAAAATTTAAAACATTGTTATCTTTATACCACTTTTCATCTTTTACATAAAATTTATTTTTAAATTCTTTTTCTAAAACATACCTAAGGATTGTTGGCCTATAATATGTATTATAGTTCTCTTTTGACAATAATTTTATTTCATAATCTTTATTTTTTTTTCTAATTGTTTCTGCTGCTGATATTCCAGCTATTCCATTTCCAATTATTATTATCTTTTTCATTTTACCTCCAGTTTTAAACTTTTATTTTATCTCTGCTCTCTCCGGAATAAAAATTACTAATTTGTAATGATTACAAATTTATTATACATCTTTTCTTATTGTTTGTCAACTGTTTCTTTTCATTCTTTATTGGAATAATAAAAAAATAAGCTATGCTTTAATATGTACCCTTTGTCAAGTACTTTAAAAAAAGTAGTTAAGCTGATTTATTTTCTAAAGTCATTTTTATCTGTCTCGCTCCCTTTTGTCTCCCTTTGAATTCATATGCTTTTATAATTAAATCTCTTGCTTTTTCATCTTCTAATTCTTGATTACTTTTATTTGTTTTTGAAGTTTCAGACAAATATTTATAATAACTTATTCTAAATATTTCTGCAACTTCACATAAATATTTTATAATATTTTTTACACCACTTGTTTCTATTGCATCTTTGATTATAACAAACTTTTCTGATGGCGATAATTCAATTAATTTACCGTTCACCTCTCTTTCTCGCACGTCTAGCTTTTTTTAGCAAATCAATCTCCGCTTGAAGATAATCATTTTTCACTTGAAGCCTTTCATATTTCTCCTCTAAAGATAGCTCTCTTTCTAAAGGTCATCCAGAGTTCTCTTTTCTTCTATCATCTTTAACCCTAATACTCCTTGCTCTTTATAGGCATGTCTCCATCTTATAGGGTACAGTATATAATTTTCTGAATAAATTTATACTTTTCTATTAAATAAAGAGCAAAGATAGAAATACCTTTGCTCTTTTTTAATCTTATCTATTAATATTTTCCGCTTCTTAAATCTTTTACCATCTTATCATATTCTCCGCTATCCTTTAACATTTTAAACCCTTTATCAAATTTTTTCATAAGATTTTTACTTTTAGATAATTGTTTTGGTAAAATTAAGTATGAACCACTTGTATCTAATGGCTTTTTATTATAAAGAAACTGTTTTTGTTGCTCTTTTGTAAAATTATCTCTTATTAATTTTAATCCTACATCTAAATCACAAATAAAAATATTTACTCTTTTTGAAAATAATTTCTTAAATCCTTGTAAATCTGTTGGAGCTAAATCTAATTTTTTACCTATATTTTCAAAAATTTTTACAGAAGAATATCCTAAAGTCCCTCCAATTCTTTTACTTTTTAAATCTTCTAATTTATTCCAAGTGAAATCGTTTCCCTTCATAAAAAAAAGAACTGTTTTCCCCACTACTATCGACTCTTCACTATAATAAAAATATTTTTCTCTTTTCGCTGATTTATTCCAGCAATTAGAACCATTATATTTCCCTCTTTGAGCTAATATAAACGCTCTTTTCCAAGGAAAAAATTTATATTCTACATTTACTCCTACTTTTGCAAATGCTCTTGTTACCACATCATTTGCAAATCCATATCCTTTTAATTTTTCCCCTGTATATGGTTCCCATTCACCAGTTGTTAATGTTATCGTCTCTCCAAAACTCATAACACTCAAAACTAACACCATAAATAAAACTAAATACCTTCTTTTCATTGTAATCTCCTCCTTTTTTTCAGAAAATTATATTATAAATTCATCTGTAATTATAATATACTACAAAAAATACATTTTCCTTTTTTTTAGAGTTATTTTTTTATTCTTAGATTACAATTCAAATTTTAAAAAATTTAAACTACAAGATTACATTAGAAGAAAAATAAACTTTAGAAAAACATTTATTATTTTACAAAATGAAACATAGCTTATTTTTTCATTCAAATTTAACAACTTTTTCTAATTTATCACCTACAAATAATATCACAAACTTTTTCATGTTTTTTCTATTCTGCATTTTTTTATCATTTAAATATCTATGCAGTTGCTCTTTTCCTTCTTCTACTATTTTACCTATATCTTTTGATAAATCTTTCCACTCTTTTTTCTTTATATATTTCAATTCTATCATTGCTTCATATGGTACTTTTTCATATCTTCTAGTTACCAATATATCTATATATCCTTTTTTCATCTCTCTTTCGCTTTCAATATAATACCATGGACTTTTTATTAAATAGGCCATCATTATTGCTTTTAAATGTTTCTCATCAAAATTTATAAAATCTCTATTTGATAATTCTCCCAACACTTCTTCTACTAATTTTAATAGGGGATTTATATTCCCGATTTCTATTAATTCTCCAATTGATTTATTTATATCACTTGTTTCGGCATATACTTTATATTCTCTGTCAATATAACTCATAAAACTCTCATAAAATAGTTTTCTCATTACATAATTTGGTATTTCTAATTTTATTCCTTTAAATGTTTCCTCTTTTATTGTTAAATATCCCAAATAAAACAGTAATGTTATTGCATCATCTTTTTTTTGTTCTCTTTCCATATTAAAACTATCTATTAATTCTCCTGTCACTCCATCATTTTCTATTATTTCATCTATTATTTCCTGACTTTTCGGACTTAATCTCATCATATTTTCCATTTTTTTATAATCACTTGCTATATTTACATCTATTATTTTTTGTGGTTTCCTATTTTCTCGCAAATAATCTGCTAAAAAATACAATACCATATCTGTATTATATACTGTTTTTTCTCCTATTAAATTAAATAGATATCCGTTATAACTTCTTTTCATATCTTCTAATACATTTGCTGGTATATTATACATTTTTAATAAATTTATTACTGTCTCTTCTGTAAATCCTGTTAATTCATTAAATTCTCTATCTATACTTAAATTTTTCACTATATTAAATCCACTTGTTATGCTATCTAATGTTACTGGAGCTATTCCTGTCATAAATATTCTATCTACTATTGTTTCTGTACTCTCTTTTAGAACTTCATAAAATTTTCTTACAAATCCTGTTTTACTTACTATATCTTTAAATTCATTAAATTTAAAACTTAATAACTCATTTGCAAAATGGTCATATTCGTCTATTAATACATATATTTTTTGCTCTATTTTTAATTCTTCGTACTTCTTTTTGAAATCTCTTAACAGTTCTGCAGGCTCTTTTAAATTTTTATCTAATTTTATTTTTAAATTATATTTTTTTACAAAACTATCTAATTTATTATATACTTCTAATTTAAAACCATTTTTTAATATATCTTTATTTTCTGTTGATAATCCTGAAAAATTAAATTTTATAATATAATAACTATTTTTTCTTGACGTTGGATTTTTTCCTATATATAATTCTCCAAATATTTTGTCAAATTTATCACTATAATTTACATCATAATATTTCCCTAATGTATCTATCCATAATGTTTTTCCAAACTTTCTTGGTCTTAGAAACATTATATATTGTTCATCTAAATTTTCTAAATTTTCTATATATTTTGTTTTGTCTATATAAAAATAGTTTTCATCTAATATTTTTTCTAAATTTTGTAATCCATATGGTATTTTTTTCATTTACAAACCACCCCTTATAATTCCAACTCATATTATAATATAAAAATCAGCTTAAAATTCCACTTACTCTTACTCAACACCATCATATTCACCATTTTTTAAATCTTTTTCCATTTTATCATATTCACCACTATTTTTCAATTTTTTAAATCCTTCGTCATATCTTTATTATAAAATCTCCATTTTTAAATGTTTTTCTAAATTTTTGGCTTTTGAAAAATTTCGCCTTGAAAAATTGCATATTTCAAAAAAACAGCGTAGCTTATTTTCTGAATAAATTTATACTTTTCTATTAAATAGAGCAAAGGTAATAATACCTTTGCTCTTTCATAATCTTCTCTATTCATATTCACCATTTCTTAAAGATTTTACCATCTTATCATATTCTCCGCTATTTTTTAACACTTTAAATGCCTTATTATATTTTTTTATTAACTCTTTGTTTTTAGAAACTTTTTTTGATAGAAGAAGATAATAACTCATCTTTTCCATTGGCTTTTTATTATAACTGAATTTTGCTTGTTGTTCTTTTGTGAAATTATCTCTTATCAACTTTAATCCTACATCTAAATCACTAATAAAAATATTAACTCTTCCTGCATATAATTTTTTTAATCCTTGCACATCAGTTGGAGCTAAATCTAATTTCTTTCCAACATCTTTAAAACTTTTTATGTAAGAGTATCCAAGTGTTCCACCTATTTTTTTCCCTTTTAAATCCTCTAATTTATCCCAAGTAAAATCATTTCCTTTAATATAGAAAAAAACTGTTTCTCCTGATAATATTGGTTCTTCGCTAAAATAAAAATAATTTTCTCTATCTCCTACTTTTCCCCAAGAAAGTGTTCCATCATAATTACCCCTTTGAGCTAATATAAATCCTCTTTTCCAAGGGAAAAACTTATATTCTACATCCACTCCTACTTTTGCAAATGTTTTTTTCACAACATCACTTGCAAATCCATAATTTTTTAACTTTTTACCATTAAAAGGTGCCCATTCTCCATTTGTTAATGTTATCGTCTCTCCAAAACTCATAACACTCAAAACTAACACCATAAATAAAACTAAATACCTTCTTTTCATTGTAATCTCCTCCTTTTTTTCAGAAAATTATATTATAAATTCATCTGTAATTATAATATACTATAAAAAATACATTTTCCTTTTTTTAGAGTTATTTTTTTATTCTTAGATTACAATTCAGATTTTAAAAAATTTAAACTACAAGATTACATTAGAAGAAAAATAAACTTTAGAAAAACATTTATTATTTTACAAAATGAAACATAGCTTATTTTTTCATTCAAATTCAACAACTTTTTCTAATTTATCACCTACAAATAATATCACAAATTTTTTCATATTTTTCCTATCCTGCATTTTTTTATCATTTAAATATCTATATAGTTGCTCTTTTCCTTCTTCTACTATTTTGCCTATATCTTTTGATAAATCTTTCCACTCTTTTTTCTTTATATATTTCAATTCTATCATTGCTTCATATGGTACTTTTTCATATCTTCTAGTTACCAATATATCTATATATCCTTTTTTCATCTCTCTTTCGCTTTCAATATAATACCATGGACTTTTTATTAAATAGGCCATCATTATTGCTTTTAAATGTTTCTCATCAAAATTTATAAAATCTCTATTTGATAATTCTCCCAACACTTTTTCTACTAATTTTAATAGGGGATTTATATTCCCGATTTCTATTAATTCTCCAATTGATTTATTTATATCACTTGTTTCGGCATATACTTTATATTCTCTGTCAATATAACTCATAAAACTCTCATAAAATAGTTTTCTCATTACATAATTTGGTATTTCTAATTTTATTCCTTTAAATGTTTCCTCTTTTATTGTTAAATATCCCAAATAAAACAGTAATGTTATTGCATCATCTTTTTTTTGTTCTCTTTCCATATTAAAACTATCTATTAATTCTCCTGTCACTCCATCATTTTCTATTATTTCATCTATTATTTCCTGACTTTTCGGACTTAATCTCATCATATTTTCCATTTTTTTATAATCACTTGCTATATTTACATCTATTATTTTTTGTGGTTTCCTATTTTCTCGCAAATAATCTGCTAAAAAATACAATACCATATCTGTATTATATACTGTTTTTTCTCCTATTAAATTAAATAGATATCCGTTATAACTTCTTTTCATATCTTCTAATACATTTGCTGGTATATTATACATTTTTAATAACTCTATTACTGTCTCTTCTGTAAATCCTGTTAATTCATTAAATTCTCTATCTATACTTAAATTTTTCACTATATTAAATCCACTTGTTATACTATCTAATGTTATTGGAGCTATTCCTGTCATAAATATTCTATCTACTATTGTTTTTGTACTCTCTTTTAGAACTTCATAAAATTTTCTTACAAATCCTGTTTTACTTACTATATTTTTAAATTCATTAAATTTAAAACTTAATAACTCATTTGCAAAATGGTCATATTCGTCTATCAATACATATATTTTTCTTTCTAGTCCAATCCTTTCATACTCCTCTTTAAAATTCCTCAACAAAACAGCTGGTTCTTCTATTGCTTTATCTAAAATGATTTTTAAATTATATTTTTCTATAAAAGTTTTTAATTTTTCATATACTTCTAACTTAAATCCATTTTTTAATATATCTTTATTTTCTGTTGACAATCCTGAAAAATTAAATTCTATAATATAATAGCTATTTTTTCTTGAAGTTGGATTTTTTCCTATATATAATTCTCCAAATATTTTGTCAAATTTATCACTATAATTTATATCATAATATTTCCCTAATGTATCAATCCATAATGTTTTCCCAAATTTTCTTGGCCTTAAAAACATTATATATTGTTCATCTAAATTTTCTAAATTTTCTATATATTTTGTTTTATCTATATAAAAATAGTTTTCATCTAATATTTTTTCTAAATTTTGTAATCCGTATGGTATTTTTTTCATTTAAAAACCACCCCTTATAATTCTAAATTAAGTTACAATTGCCCGTTTCTTAATTCTTTTTTCATTTTATCACATTAAATACTATTTTTCAATTGTTTAAATCCTTCATCATATCTTTATTATAAAATCTGCATTTTTAGATATTTTTCTAATTTTTTGGCTTCTGAAAAGTTTTGTTTTGAAAAATCACATACTTAAAAAAACAGCATAACTTATTTTCAAAATAAATTTATACTTTCCTAATTAATTAAAGAAAGAGCAAAGGTAAAAATACCTTTGCTCTTTCATAACCTTCTCTATTCATATTCACCATTTCTTAAAGCTTTTACCATCTTATCATATTCACCACTATCTTTTAACATTTTAAATCCCTTATTATATTTTTTTATTAACTCTTTGCTTTTAGAAACTTTTTTTGATAAAAGAAGATAATAACTCACCTTTTCCATCGGCTTTTTATTATATCTAAATTTTGCTTGTTGTTCTTTTGTGAAATTATCTCTTATTAGTTTTAATCCAACATCCAAATCAAGAATAAAAATATCAACCCTTCCTGCAAATAGTTTTTTAAACCCTTGCAGATCAGTATGAGCTAAATCTAATTTTTTCCCAATATTTTTAAAACTTTTTGTATAAGAGTATCCCAGTGTTCCGCCTATTCTTTTCTCTTTTAAATCCTCTAATTTATCCCAAGTAAAATCATTTCCTTTCATATAGAAAAAAACTGTTTCTCCTGATAATATTGGCTCATCACTAAAATAAAAATAATTTTCTCTATCTCCTACTTTTCCCCAAGAAACTGTTCCATCATAATTACCTCTTTGAGCTAATATATAACCTCTTTTCCAAGGGAAAAACTTATATTCTACATCCACTCCTACTTTTGCAAATGTTTTTGTTACCACATCACTTGCAAATCCATATCCTTTTAATTTTGCTCCATTAAAAGGTGCCCATTCTCCATTTGTTAATTTTATCGTCTCTCCAAAACTCATAACACCCAACACTAACGCCATCAATAAAACTAAATACCTTCTTTTCATTGTAATCTCCTCCTCTTTTTTCAGAAAATTATATTATAAATTCCTCTGTAATTATAATATACTACAAAAAATAAATTTTCCTTTTTTTTAGAGTTATTTATTTACAAAAAGTAACTAATTAGAGCACATAGAATATGTAACCTGTTTTTAATCCATTCCTAATTATTATCATCTAACTTTTGAAATTTTTTTAATTCTTCATTTTTAATATTTTTATTGTGATGTTCTAATATAAGCTTTGCCATTTCAATATTATACTTTTTTAATTTTTCATATCCTTTTATTGTATGATTTGATAATTTGCTATTGTTTTTTAATATTACATGTAAAATTCTATCCACAATATTTATATCTTTTTCTTTACCTATATCATGCAACAAAGCCAATTTTATTATTTTTTTATTATCTTTTAATTCTATATCTTTTAAAATATCTTTTAATATATTTATACTATGTTTTTTATCATAATTACTCATATTATCAAACAATTCAAATTCATATTTATCAAGATATTTTCTAGCCATATTTTCATCTTTACCTGTATAATTTGGAAAAACATATCTTATTAATTGTTTAACTCTATTAAACATCTTTTACTATTACCTTCCCAAGTTTTTTCTTTATTGATTTAATGTTTTTTCCATTTTTACCTATTATCTCGCCTCTTTTTTCTTTATTTACATATAAAAAATATATATCTTTTAGTTTTTCAACTTTAAGTACATTTTCTATTTCAACTGTTTTATCCTGCTTAAAAAATAGATTCTCTATATCTTTTTTTAAATTTATATTTTTAAGAGTTAAATATTTTGGATTTGCAGGTTTTAATTCTCCCTTTACAATATAATTTAACATTATTCTAATCTGTTTTGGCATAAAAGAATTTCCTTCGAATATAAACTTTTCTCCATCATAGCTAATTTTTACTTTCCTAATTTTTTGTTTTAATTTTTTTCCCTTTTCATCAGAAAATTTACTTACATCATATTCGCCACTTAAATCTTCACATATTTTCTTTATCTCTTCTATAGTTTTATTAAGTTTACTTAGAGGATAGCTATATTCATAAGCTCTTCCTTCTACAATGTCAGGTAAAACTAATCCTGAAATTGTTTTTTCTATTTTTATTATTCCAAAATTTTTAGCTATATTATTAAATTCACTTTTTAATTTAATAATATCTCCATTAAAATTACTGCTAATATATAATATATTTTCAGTTGCACTTACATTACTATCAGTTCTAGCTGATTGCTGAACTCCCTTTGCCCAAGTTATTCCTAATTCATTTAATATTCTTTTAAATTCACTTTTTACACTTATTTTATTTTTATTTTCATCAAAAGATGTAAATTTAGTTCCATCATACCAAATCCAAAATAGATATCCATATTTTTTACTTTTTTCTAATTTTCTTAAATCTAACTCTAACATAATTAATTTTCTCCATTCTCTAATTATTTTACCAACATATCTACTGTAAGAGGATATATTATTAATTTTTTATGTTCGCTGCTCTTTAATATTAAATCAAACTCTATAAAATTTCTATCTGTATTTGGTTCTCCATTTGTTTCTCCAGAATTGTTTATATCTTCCCAATCACTACCAGAGCTATTCCTAACTCTTAATCCACCTAATTTATCAAACCATACTTTATATTTTTTTTGACTACTACCATTATATAAATCCACATTTTTTATCTCTACATTTCTAAATAGTGAATCACTATATTTTTTGCTGTCAAATTTATACATCATATACTTTTTAGTTAATGGGTCTTTTAATATTTCATTTGTATCCTCATTAGTGGTATAATCTGGAATCATATCTCCATTTTTATCATTAAAGCATACATAATCAAAGCTTTCTCCAGCCAAACCATTTACAGTTACTCCATTAATATCTTTTCTAAATTCTATCATATAATTTTCAGTTGAAGAATATTTCAAAGTCTGCATATATACTATATCATATTTAAGTTTATATAATGCTTTATCTAATTTTTCACTTTCTAAATAATTATCAAATTTAGCACTACCTACTGATGTTAATATTCCTATTATAGCAATTACAATCATAAGTTCTATTAAGGTAAATCCCTTAATTTTCACATTAATCACCTTCATATTCAATATTTTTCAACACATTTAGTCCTGACATTTTTTCTATAATTCTTATATTTTCATTTAAAAATTCTTTATCTTTTATATTATTTCTATTATTAAAAACCAATCCTTTTATTTTTATTCCTTCATTTTTTAAAATATTTATCGTTAAAAGAGTATGATTTATTGTTCCTAAACTATTATTTGTTACAATTATAACTTCTGATTTGTCTTTATATTCTTTTATTAAATCCAAATATGTATAATATTCTGTATATGGTACTAATAATCCTCCAGCGCCTTCTGTATACACAATATCATTATTTTTTAAATTTTCGTCTATTTTTTCTTTTATTTTTTTTATATTTATCTCTTTATTATCTAATTTTGATGCCATATGAGGTGAAACTGGTTTGTTAAAAAAATATAAATTAATATCAGATATTTTTTTATTTAATTTTTCACTATATTTATAACTGTCTGAACCTTTATAATTATCAAAAGTTTCAAGTCCTGTTTCTATAGGTTTTAATGCCATAACTTTATTGCTATTTTTTATATCTTCTTCTATTAATTTTAAAGTAGCATATGTTTTTCCTATTTCTGTACCTGTCCCAACTATAAAATATAATTTATTATTTTTTTCATCTCTATTTTTTACAATATGGCATTTTCTACATCTAGCTTCATATGAATCTTTAGCTCCTACCATTATAACTGGGTCATCATAATATGCTGGTTCTCCATCTATTATTCTTTGAGTTCTTGAAGCTGGATTACCACATACTACACATATTGCGTTAAATTTATCAACATATTCTGCTTTTGCCATTAATTCTGGCATAGGATGAAATGGTTCTCCTCTAAAATCTTGGTCAAGTCCTGCTAATATAACTCTTTTTCCAGAATTAGCCAACTCTTCTACAAATTCAACTATACCTTGACCAAAAAATTGTGCTTCATCTATTCCCACTACATCTAAATTTTCCATCTCGTTCACATATTTTTTCATACTTTCCACATTAGATACAGGAATTGCCTCTATCATATTTTTGCTATGAGACACAACTTTTTTTTCATCATATCTATTATCAATAGAATGTTTAAAAGCAATTATATTTTGATTCGCAAATTCTGCTCTTTTTAATCTTCTGATTAGTTCTTCACTTTTTCCAGAATACATACTTCCTGTTATCGCTTCTATCCATCCTACTCCTTTTGTAAACCATAAATGCATTTTTTACCTCCAGTATATAAATTTCAAAATTCTAACTCTTTTATTTCTTAAATTATATTTATTAAATTATATTTATTAAATTATATTTATTAAATTATATTTATTAAATTAATTATTGCTAATATTTTTTTCTTTCTATTATCAATTTTCTATTATCAATTGTCAATTATATCTTATTCTATTATACCTTTTTACATTATAAAAATCAACAAAACAAAAAGACATTAAGATTATCTCCTAATGCCCTTCCTCTATTGTAAATTTTTCATTATTAATTATCTAAAATATTTCCATTGATAAATATCTTTCTCCTGTATCTGGTAAAATTACTACTATTTTTTTCCCACTGTTCTCTGCTCTTTTTGAAATTTCAATTGCCGCATAAACAGCTGCACCAGAAGATATTCCTGCTAATATTCCTTCTTTTTGTGCTAGTAATCTCATTGTTTCAAATGCATCTTCATTTTTAACTTCAAATACCTCATCAAATATATTTACATTTAATACATCAGGTAAAAATCCTGCTCCAATTCCTTGTATCTTATGAGGCCCAGGCTTTCCTCCTGATAATATTGGTGACCCTTCTGGCTCTACTGCTACTATTTTTACATTTGGAAGTTTTTCTTTTAGTGCTTCTCCTACTCCTGTTATCGTTCCACCTGTTCCTACTCCTGCTACAAATATATCTATATCATTATTCATATCATTTAATATTTCTATTCCTGTTGTTTCTCTATGTACTTTAGGATTAGCTTTATTTTCAAATTGACTTGGAACAAAACTATTTTTATATTCTTTTGATAATTCTGCCGCTTTATTAATTGAACCTTTCATTCCTTCTACACCTGGAGTAAAAACTATTTCTGCTCCATACGCCTTTAATATACTACTTCTCTCTCTGCTCATTGTATCTGGCATTGTTAATATAAGTCTATATCCTCTAACTGCACAAACCATAGCAAGTCCTATTCCAGTATTTCCACTTGTTGGCTCAATTATAACTGTATCTTTATCAATTAATCCCTCTTTTTCTCCAGCTTTTATCATTGCGAATGCTATTCTCTCTTTCACACATCCACCTGGATTAAAAGACTCTATTTTTACATACAGTTCTGCATTCCCATTATTTATTTTATTTAATTTCACAATTGGAGTTTTTCCTATAAGCTCCAATATATTATTGTAAATTTTACCCATTTTACACCTCCATTTATTGTACGATTTTCCAGTATTGGATTTTATCTTTCTTTGATAATTCTACAATCTATTTTTATATAATTTTCTTTACTTTATTTAATTTTGTTTTAGAATTTGGGCGAACACACAGGTTCGCCCCTACAGTTATTATATGACAAAATAAATATTTCTTAACTTAGGAATGGCTTAAAAATAACATTCCCATTTTGCTTTAAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCCTTACCCCTTGCTTTTCTCCAAAGCTTGTTTTAAATCTTCTATTAAATCATCTATATTTTCAATTCCAACAGATAATCTTATTAAATCTGGTGCTACTCCTGCTGCGATTTGTTGCTCTTCGCTAAGTTGTGCATGAGTCGTACTTGCTGGATGTATCACTAATGATTTTGCATCTGCTACATTTGCAAGATGTGAAAACAGTTCTAAACTATTAATAAATTTTTTCCCTGCTTCTAATCCACCTTTTATTCCAAAACTGAATATTGAACCTGCTCCTTTTGGCAAATATTTTGCAGATAATTTTTCATATTTGCTTCCTTTTAATTCTGGATACTTTATCCAACTTACATTCTCATTTTCATTTAAAAATTCTACTATTTTTCTAGCATTTGATACATGTCTTTCCATTCTAAGAGATAATGTTTCTAATCCTTGTAATAATAAAAATGAATTAAAAGGACTTATACAAGCTCCCATATCTCTTAAAAGTTGTACTCTTGCTTTTACTATATATGCCGTTCCACCAAGGTCAGCATATTTTATTCCATTATAACTTGGATCTGGTGTTGTAAAATCAGGGAATTTACCACTTTTTTCCCAATCAAATTTACCTCCATCTACAATTAATCCGCCTATTGTTGTTCCATGACCTCCTAAGAATTTTGTAGCTGAATACACTACTACATCTGCTCCAAATTCTATTGGTTTACATAAATAAGGAGTCGCAAATGTATTATCAACTATTAAAGGAATTCCATTTTCATGAGCTATTTTAGCTATTTCTTCCAAATCTGCTACATTTGCCCCTGGATTACCTATTGTTTCTACATATAAAGCTTTTGTTTTATCTGTTATTGCATTTTTAAAATTTTCTACATTGTCAGGATTAACAAATGTTGATTTTATCCCATATTTTGGCAAAGTAGATTTAAAAAGATTATATGTTCCCCCATATAATGTGCCAGCTGCAACTATTTCATCTCCTGCTTTTGCTATGTTTAAAATCGCATATGTTATTGCCGCTGATCCTGACGCAGTTGCTAAAGCTGCTGTCCCGCCATCTAATGCAGCAATTCTTTTTTCTAGCACATCAGTTGTTGGATTCCCTATTCTTGTATAGATATAACCTGCTTCTTTTAATGCAAACAGGTCCGCTGCTTGTTGCGTATCATCAAACAGATATGATGTTGTTTGATAAATTGGAACTGCTCTTGACCTTGTTTCAGAATCTACTATTTGTCCTGCATGTAATTGCAATGTCTCAAAACTATAATTTTCTTTTCCCATTTTACACTCTCCCTATTGTAATTAAAATTATTTCGTTATTTCTCCTTTAAATATAAAACATATTTACTGTTTTATTTTTATATTTATCTATTATATCTTCTAACGTTATTCCTTTTAAAAATTCATAAATTTTATCATCTAATTTCATCCAAACTTCTTTTTCTAATATTCCATCTAATGTTTCACTGTTATAATCTTCATTGTAGCTTTTTAAATCTTTTTCTAAAATATTTAATATTTTATATATTGTTATTTCAGAAGGCTTTTTTTTCAAATAGTATCCACCTTTAGAGCCCTTTACACTTTGCAGACAATCTAAGGTTTTTAGCGATATAAATATTTGTTCTAAATATTTAATTGAAATATTTTCTTTTTCTGAAATTTCTTTTATTGTAACTTTTCTTTTATTATAATTTAATGATAAATATGCCATAGCTCTTATCCCGTATTTACTTTTAGTAGATATAAACATTATTTTATCTCCTTTTTAATCATACTAAATTAATATGATTACTATGTTAATAAAAGTGTACTGTTTTTTACAAGTTTTGTCAACTTCTTTTTGCGATTTTAATTTTATATCTCTATACTCTCATCATTTCCTCCAACTACATCTTCTAACTTTTGTAAAAATATAATGCCTTTTCCTTCTTGCTCTATGTCTATTCCCTCATTTTTCAGTACTCCCACTAATCTTTGAGCGTATTCTTTATCTTCTGTTATTCCAATTAATATCTTTGAAGATATATTTTTATCACTAAACAGAGCAAAACTATTTAAAAAAGGTATATCAAAAAACATTTTTCTAATTCCATATGTTGAATCTATTATTGTTGGATTAACTAATCCAGTTTCTATAGCTAATTCCATTACTTTATCAAATTCTATCACTTTATTTATTATTATTGTAGCCAAATATTTATCTTTTTGCTCTTTAGTTTTTACAATTTCGACTTTTTCAAAATCAGATATAAGCTTTATTACATCTTCTGGTACATCTGAATTTATCAATGATTTTTTTATCTCCTCTTTACTTAAAAATCTTGCTATTTTTGCCATAATATTTAAATAAGTTTTGCTATCTTTTCCTACACCTATACAAAATATTAGATTTACTTTTTTATTAAATCCACCATATTTTATTCCATCTTTTGATATTATAACCACAATAAAATCTTTTTTTACAATATCACTTTTAATATGAGGCATTCCTATACCTTTTGCTATTTCTGTACTCATTTGATTTTCTCTTTCCCAAATTTCTTTCAAAAAAACATCTTTATCCTCAATATATCCCTTTGATAATACCAATCCTGCTATTTTTTCAAAAAGTTCTTCTTTATCTGTTATTTTACATTTTGTTATTATTAACTCTTTATTTATTATATTCTTTAAAACCCCCATTATTTTTCCTCCTCCTTTATCTTTTTCCATCCAATTATGATTTCCAAAACATTTAAATCTCCAATAACTTCCCTATTTTCATTCATCACAGGTAATTCCTGCACATCAAATTTATACATTATTTTTACTGCTGTATCTAAACTATCTTTATCACTAATCCCTATATAATCTGTTTCCATAATATCATCAACTATATTTGCAGAAGCAAATTTTGACAATGAATAAAAATTTTCATTCCCACTTTTCAGATAAAAATCGCTATCTATCATATCGATTAATAATCTTTTTACTGCCTTTTTTAATGTAATATAACCTACCATCTCTTTTTTTGAATTTATAACATATATTGTTCTATTTATTTTATTATCCAAAAATAAATTTGCTACCTCTTCAATCTTTTTTCCCTTTTCTACTATTAATGGTTTTGTAATTTTATTTCTAACATCTTTTATTTTTATAGTTTTCATAGTTTCCTCCTTAATTTTTAAATGCAGCCTTTAACATAAATGGCGTAGTTATTGCCGATACTATTACCATTAATACTACAGCTCCAAATACTGTATCTCCGATTATATGTTTAGCCATTGCCATATTTGCCACTACAAGAGCCACTTCCCCTCTTGGAACTAATCCTATTCCTATTGCAACACTCCTTTTTATATTAAATCCACTAAATTTTGCTCCTAAACTACCTCCAACTATTTTACTAATCATTGCAACTAAAACAAAAATTAGTGCGAAATACAAATTGAATTTTCCATTTCTTAAATTAGTTGTTAATCCTATATTTATAAAAAACATTGGAACAAAAATAGATTGTCCTATCTCTTTTATCCCTTGATCAACTTTATTTTTAGATTTTGTCTGTCCAATAGCTAATCCTGCAAAATATGAACCTGTTATTGCAGCCATTCCACTTATTTTAGCTCCCCAAGAATAGAGAAAGGACAATGCCAACCCCATTGAAACTTCTGTATCTTCAGAAGATGATTTCCTTGAATATTCAAAAACTTTATTTAATACAAAGAATGCAATAAAACTAGCTATCGCAACATATATCACCATATCTCCTAATATGCCCATTGCATTTTTATCTCCCTGTCCTAAAAAACTAAATATAAAAGTTAATAATATTATCCCAATAACATCATCTAAAATTGCAGCTCCCATAATATTCATACCTTCTACAGTCCTAAATTTTTTCATATCCAATAAAGTCATCACTGTAACACTTACACTGGTAGCCGTCATTATTACTCCTATTACCAGCACTTCATTTAATGGCATATGAAAAGCTTTTGCTAATAATATTCCACTTATAAACGGTACTATAACCCCATTTGTAGATATAATAAGAGCACTTTTTCCTGATTTTTTCATACCTTCCATATCGGTTTCTAATCCTGCTTCAAATAACAGAAGTATTACTCCTATTTCAGAGAAAAACTCTATTATTACATTGGTTTTAATAAGATCAAACCCCGTTGGTCCTATTAGTAATCCAATTAAAAGCATTCCTACAACTGGAGGTTGCTTATATTTTGTTGATATTCCAGAAAAGATTTTTGCTAAAATTATTATTATTGCAACGTGTGCTAATAAATGCTGTGAAATTTCCATTTTTACCCCCTTTTTTTATTTTTTCCTATATTAAATTCTTCCATATAATTATTCAAAAGTCAAACTTTAATTTTAAATAGAAAAATAAGCTATATAACTATTATAAGTTATATAGCTTATTTTCTTATCCTAAATTTATCTTTCCGTTTCCTATTTCTATTCCTACTCCACCATTATCTAAAGTTAATTTATCATCTTTCATTTTTATTGCACTTCCACCAGTTGTGATATTTACTTTTTTATCATCCATAGTTATTGTGCTATCTTTATTATTTATTCCTATTTTACCATCTTTTAAAATTATCTCTTTTTCTCCTTTTGTTAATCCCACACTTTCTTCTGTTATTTCTACATAACTTTCATCATCTTTTCCTGTTATTTTTATTGATTTAGAATCAAATCTAACCTCTTTTCCAAAACTTGTTCTGATTATTTTTACATCTGGGTCGTTGTCTATATCTTCAGTTTTACTACTTACATTTCTTATACTTACTTCTCCTGCTTCAGCTCCAAAATGGACTTCTACTAATGTATCTTCTTCTGGTGTGAAATATGTACCTGTATACATTCTTTCTATTGGATAATAGTAACTCTTGCTTTCGTCATATTCATTTTCCATTTCTGTATATTCTATTTGTGCTTTATGTTGTTTTGATACTTTTTTTATTGTCCCTTTTAATGTTAGTCCTGTTATACTTTCTTCTCTTTTTACTACTCCTATATTAAATTCATCTCGTCTTACAAATACTAAATCTGATTTTAATACTCCGCTTTCTTTGTATATCCTGTTTTTTATTAATAATAGCGAATCTTGTTTCCCTGTATTTACATCAATATTTATATTATATGGATTACCTATTGAAAACAGTTCTTCTCCTTTTATTTGAGGATATCCTTTTAATTTGTAACTATTTTCTATTGCTCTTTTTTTCATCTTTCTACTTAATAATAAATTCTTATTATCTATTGTTTTTTGACTACTTCCAAATTCTCCTATTGCTATTCCTGCTACTGTTTTGGGATTTTTACCTTTACTATCATCCACTATTATTAAATCATTCTCTCTTCTTACTATTCTCTTTAAAAAATCCCAATCACTTTCTTTATATTGCACTTCTACTGGGTTTAATTCTGTTATTAACTCTTGTTTGTCTATATGACTATTAAATCCAAATGAGTATTTATTTTGATAAGTTTCATTTAATTTACTTATTACATCTTCATATTTTGTACCAAGATTATGATATACTCTGTTTCTTTTTTCTTTTTCTAATTCTTTGCTTAAGGAATAACTTTTTATTTTTACCTTACAACTATTTTGCTCTATTTCCATAGAATGTTCATAAATTAATCCTCTAAATATAGGCTTATTATCATCTCCATATAATATTTCTATTCCTTGCTTTTCTACATTTAGAAATCTAGTTACTTCATCTGTATCTTCTCCTGCTATTATCCCTTCTATTTCTGCTACTGTGTGTTCATTTACTTCTTTTATTATTTCTAAATTTAATAAATTAACATATTTTATACCTTTTATTTTTACTTGATAATCCATAAATCCTTTGCCTAAATCTTCTTTTTTCTCTTTTGGTTTTTCTATTAAATCTATCCCTAAGTATCCTTCCATATAGTTGCTTATTGTTAAATAATCATCTAAATTATTTCCGTAATAATAACGTAAATTACGGTCCATTAAGATAAGATTATCCCCATAATATTTGCAGCCTGTATCTCTATTTATTTTATCTTTTACTAGACTTTCTTCTTTATCTTTTCCTTTATATGTTCCGCTTATATCTTTTCCATCTGCTGTTACTTTAGAATTTTTTCCTATATTACGAATGTTATAATACTTATCTTTATATCCCAAACTTGAATACAGCTCATAATCATTATTCGGTTTCTCTCTTTCTATATTTAAAAGATACTTTGATGGTGTTGTTATTTTTAGTGTTATCTCTTTCTCCTTAGTATCTATCCCTAATTTTTCATTATAAATTATTACTTTCTTTTCATCTTCTTCAAAGCCTAATTTTAATTTTACTTCTCCTTTTTTAACTTCTAATTTTATTAATTCATCTATTTTATATCTTCTAAGTTCATCTTCTAATTGCTCTATTGAGTTTATTATTTTATATTTATTTAAATATTTTTCTATTAATTCTTTTTTCAATTTATCTTCTTTGGAAAAATATTTATCTGTTCTTTGTTTTCTTTCTGGTAATTCTTTATATAATTTTTCACCTAACTCTTTCAATAGCACATCTCTTAAAAAGGCTGTATTTTCTTTATAATAGATTGCATAAAATAACTTTTCTTTTAATTCTTCATTATCCTTTATTCCTATATATTTTAATAATCCTTTTATATATGACTGTAAATAATCTTTATTTACTATTTCCATTATATCTTCTTCTTTTGCTATATGATCATATATACTCTTTCCACCTCTATTCTTTTCTTCTGTTTTTATATGTGGATAAAACATTGTTAATCCGTGATAAGCTCCTGCATCTAAATGGTTTGCTTCTTTTTCTTTTAACACTTTTAATAAATTCCCTACATATATCCCTTTATTTTCCTCTTTTAAATTTTTATCTACTAAATATCTTTTTCCTACATGTTTAAATACTGTTCCTGTCACATCTTTTGATATTGAGTATGCTATTAAATTTATATCTTTATTATAATAATTATCCATAAATATTTTTTTTCTCTCTAACAGTTCTATAGAATAATCTAATGAATCTTCACTTGTTAAACTGTTTTTTTCTATCTCTATTTTGTTACTCTCATCCCAATGATTTAAGCCATTTGCATTACTTTTTAAATACTCGTCTAATCCTTTGCTTATTATGTTTTTTAGCTCTTCTTTTGTTGGAATTTTTATTAAACTATTTGGTATATCTACAAATTCTGTATTTAGTGATATAAGGTATGTTCCGTTCGTTTTTACAAAACCTGCCTGAATAAATTCTTTTAAGATATATTTCCCTTTTTCTCCTGTTGAATCAAATATCTCTTTCCATGATAATTTTGTTAAAATTGCCTCTGTCCCAAATAGTTCATATCCATTCATTCTGCTAAATCCTGCTACTCCTACTCCGTTCCATATTACTGTTTTTGATATGTTTTCTGCTCCTATTACTGATACGTATTGAGATAAGCCTCCGCCTAAGCTGTGCCCTGTTATTGATATTGTTTTGTGTTGATTATTTGGTGCATTTAATATTTTATTATAAAAATCTTCCGCTAATTTAAATTGTATCCCTGGCATTCCACATACTATTTGACCATTTGTATATATATGTTCTTCCATAAAATTCTTAAAACTTTTTTTCCCGCCTACCTCTTTATCTGTTCCTCTATACGCTATTACTATTTCATTGTCTTTTTCAAATGCTGCTGCATAAAATCCTTCATATTGAGCTTTTATATCTTCATGTTTCCCTTCGTATTCTCTTTTATATTTACTTAAATCAAATCCTTCTAATAACTTCCATCCTTCCATTCTTTCAGTAAAGTAGTTCCATCTTTGTTGACGTTCTGAATTGTTAAAATGGTGTTTTAATAAAATATCTTTTAATGGGTTATTATTATCTTTATCCTCATACCTCTCATACGCCAAATCCGCCAATACTAAAAATTCTAAATCTTTTACATTTCCTCTTTCCATTTTTACTCACTCTCCTATTTTTATTTTTTGTAATTTCTTCTATAACCTAACAATTTTTCTATATCTTTTATTGATTTTATCTTATAATAATCCTGTTCTTCTATTCGAAGCCCAGCATAATTTTTTTTCCAATATTCCGTTACATCAAATTCGCTTGTCCAACTTGAAAACCAATTACTTACTTTCAATATATGGTCTATATCTTTATCTTTAAAAAAATCTTCATCATATATATTTATTGTTATACTTGCCCACTCTAAATTCTGATTTTTCAAATATTTAAACAGTTCCCATACTTCTTTTATAAAGGCTTCTTTCTTCTTTTTTGTGCTTACTACATCTTCAAAAATTAATATAAATATATTTACATGCATTTTATTTGGAATATTTTCAAAAAAGAAATCAAATTTTTTCCTTTTCAAAATTTTTAGTACCTCTCTTTTTTCATCATAGATATGTATTCCCATATTTCCCCAAAAATAAAGTTTTTTTTCTTTAAATATCTTCTTTATTATTGATTTATAATATATTGTTGTTAAATTTGCTTCTTTTATCGAAGAATAATTTTCAATAACCCTTTCTTTTGGATCTTTTTTGACAAACGCAAAAAATGTCTCCTTATCTATATTATTCTCTTTTGGATATACCTCCAATACCCATTTACTTCTCTTGCCATCATAAAATATTCTCCTTATCTCAAATTTTTCATCATATCTTGTTTCTAATTCATTCATTACTAATGACTTTATTCTTGCTTTTTCTTTTTTATTTTCACATCCTGTTAATAAAGTTGATGTTACTAATAATAGCAGAATAAATAACAATATTCTTCTTTTCATCTTCTCAGCTCCTCTTTTTATTTTTTTGTTATCTATGATTTTAAAACTTAATTCTAATATTAAATTTTTTAATATCTTAATTAAATTTAAAAATCTTGTTATCTATTTCCAATTCTTTATTGTAGATTATTCCTTTATTTTCCTCTTTTAAATTTTTATCTACTAAATATCTTTTTCCTACATGTTTAAATACTGTTCCTGTCACATCTTTTGAAATTGAGTATGCTATTACATTTATGTCTTTATTATAATAATTATCCATAAATCTTTTTTTTTCTCTAACAGTTCTATAGAATAATCTAATGAATCTTTACTTGTTAAACTGTTTTTTTCTATCTCTATTTTGCTACTCTCATCCCAATAATTTAAGCCATTTGCATTACTTTTTAAATACTCGTCTAATCCTTTGCTTATTATGTTTTTTAGCTCTTCTTTTGTTGGAATTTTTATTAAATTATTTGGTATATCTACAAATTCTGTATTTGGTGATACAAGATATGTCCCGTTCGTTTTTACAAAACCTGCCTGAATAAATTCTTTTAAGATATATTTCCCTTTTTCTCCTGTTGAATCAAATATCTCTTTCCATGATAATTTTGTTAAAATTGCCTCTGTCCCAAATAGTTCATATCCATTCATTCTGCTAAATCCTGCTACTCCTACTCCGTTCCATATTACTGTTTTTGATATGTTTTCTGCTCCTATTACTGATACGTATTGAGATAAGCCTCCGCCTAAGCTGTGCCCTGTTATTAATATATTACTATCTATATTTTTAGTTAATATATAATTATAAAAATCTTCCGCTAATTTAAATTGTATCCCTGGCATTCCACATACTATTTGACCATTTGTATATATATGTTCTTCCATAAAATTCTTAAAACTTTTTTTCCCGCCTACCTCTTTATCTGTTCCTCTATACGCTATTACTATTTCATTGTCTTTTTCAAATGCTGCTGCATAAAATCCTTCATATTGAGCTTTTATAGATTCTGGTTGGTCTTTATATTCTCCTTTATATTTACTTAAATCAAATCCTTCTAATAACTTCCAACCTTCCATTCTTTCAGTAAAGTAGTTCCATCTTTGTTGACGTTCTGAATTTCCTGATTCTGTTGTGTCATTAAAATGATGTTTTTTTAAAACTTTTTCTAAATCATCCCCTTCATCTTTCTTTTCATACCTCTCATATGCCAAATCTGCCAATACTAAAAATTCTAAATCTTTTTCATTTCATCTTTCCATTTTTACTCACTCTCCTATTTTTATTTTTGATTCCAGTCTAACTTTCTTAACTTATCTTTTATCTCTTTAATATATTTTATATTTTTATAATCTTTTTCTCTTATTCTTAAAAGATATGTTTGTTTTTTCCAATATTCCGTTACATCAAATTCGCTTGTCCAACTTGAAAACCAATTACTTACTTTCAATATATGGTCTATATCTTTATCTTTGAAAAAATCCTCATCATAGATATTTACTGTTATACTTGCCCATTCTAAATTCTGACTCTTTAAATATTTAAATAGTTCCCACACCTCTTTTATAAAGGCTTCTTTCTTTTCTTTTGTGCTTGTTACATCTTCAAATATATAGATAAAAATTCTAACATCTGTTATTTTGGGAATTTTATTAAATATAGTTTCTATTTTTTTTATTTTATCTGTATCTAAATTTGTTTCTCCTATCCCAACATTTGCCCAAAAACGCAATTTATTTTCTTTGAACATTTTTTTTATTATTGGTCTGTAATATATTTTTGTTAAATTAGAATTTTTTATTGTATAATAATTCTCTATCACCCTTTCTTCTGGATCTTTTTTGACAAACGCAAAAAATGTTTCATCATCTATATTATTCTCTTTTGGATACACCTCCAATACCCATTTGCTTCTCTTATCATCATAAAATATTCTCCTTATCTCAAATTTTTCATCATATCTTGTTTCTAATTCATTCATTACCAATGACTTTATTCTTGCTTTTTCTTTTTTATTTTCGCATCCTGTTAATAAAGTTGATGTTACTAATAATAACAAAATAAATAATAAGATTCTTCTTTTCATATTTTCATCTCCTATTTTTTAGTTTTTATGAACATTTTTTTATATATTTAGGGAAATCAAGTGCTCCTTCTAATGATTCTTTTAATAAAACTTTTAATCCTGAACCAAAAAACTTTGCTCCTTCTCCTCCTACTTTTGATGATAGAAATGCTGGCATTATGTTTCCAGGGACATTTGCTACAATGAACATTCCAATTTCTAATGCTTGAATAGTATTGTTTGCTTTTTCTACTTCATCTCTATTTGGTAATTTTAATAAATTTTTTGTTATTTTTTCTTTTAGTTTATTTATTTTAGCAGTGTTTTTATTTTCTAAGGCTTTTAGTAGATCGTAAAGATCTTGTTTTGAATCAGAATCTAATTGCTCTGATATTCTTTTCTTTATCTCCTCTTTTTCTTTTTCTTCTAATTTTTCTAATGCTTTACTTAATGCTTCTGAAAATACGTCTACATAATCTGACATATTTTTTGTTAAATATTCTGATACTATTTTGTATTTGTCTCCTCCGTAGATTACTTCCCATTCTCCTAAGAATTTTCCAACAGAATCTAATTTTGATAGGTATTCCATTCCTATTCCTGCTGATTTTCGCATTTCGATTAGGGCTTGGGTTTTGTCTAGTTTTCCGTTTTGATATCCGTAGATGTATTTTCCTATTTTTTTACTAGTTTTTTTATCATCATATTCTCTTACAAATGATTCTGGGGTTAAAAGGTCTTTTAGCTTATTTGTTCTACTTTTTCTACCTCTTTCATTTAAAGTTAAATTAACAAATTGCCAATCTAAATTTGCCAAATTACTAAATACTAATAATTCTTTATCTGTTGTTTTAGCCGAACCACTACTTTCACTCATTACATTTACCACTTTTACTCATCTCCTTTTTTATTTATGTATATATAAGTTATGTAATTATCTATTTTTATATCACTTAATTTATCATATTTTCTATCTTTATCTTCTTTTGTTATTGAACTTTTATAATTTGCCTCTAACATTCCTATAGAATATATCCAACACTGTCTTTGAGCATTATATTTTTCTAACTCCTTATAACTCAACTCACTTTTACTTATCCTATTCATTCTCTTAATCAATTCATAATCACTCATTTTCTTAACTTCATCTTCTAATTTTCCACTCATCTCCTTTCTTAATTTCATTGGTGGCATATACACTTTTTCTCCCTCTACTGTGAGTGCTACTTTTTTTCCGTGTTTTATTTCATAGGTGTAATCATAATATCCTGGTGCTAATACTCGCTCATCTATAAATATTACTCCCATCTCTAAATATTTGAACAACCCTTCCTTTTTTAAATATTGGATATACTTATATATCTCTTTCCTCCTTTCCTCTTTTTCTTTTTCATTATCTATTCTATCAAATATATAAATATATAAAGTTAGTTCTAATCTTTTATTTTTTAGATCTTCTTTTACTGCTTTCATTTTTTCTTGAAATCCACATTCTAAATATTGTAAATATCCATCTCCTTTTTTTTCTGAATATTTTACACGTGACTTTATTCTTATTTTGTTTCCAAATATTTTTTTGGATTTTAAAAGCAAATAATTTTCTGCTTCATCATTCATTTTTATTACTCCATAATTATCACCAACTCCTCCTAATCTACCGAAGGGTAATATATCTACACTTGCTCTCGCATGATAATAACTATCATATTCTTTATTTGTTCCAATTATTGACTTAGGATATATTTCTGCCTGATAAAATTTTTCTCCATTTGCACTTCTTGTTCCTATGTTTTCTACAATAAAATCTTCTCCGTAATCTTTTTTTAGTTCCTGCTCCATCTTTGTTCTTATCTCTTTTACACTATGCCCAAAAATCATTGGTTTCAATACTGGTATTAATAATATCAATATTATAAAAATAATAATTCTTGGCAATTTTTCTTTTAATTCTTTTTCCATTTTTTCACTCCTTTTTTATTTTTTATTAGGGGAATATAAGTTTATTCGGAAAATAAGCTATGCAATTTTGTTAAATTTTTTAGAAATTAAAAATTTAGAAAAACATTTATGCGTTATCAGAGGAAGCTAGCTTATTTTAAACATTCTAAAGGTTATTTTATCCCTTTGTTTATCTCTTCATTTCTTTGTCTTGATACAAAGAAACGAAGCAAAGAAAAATCAAGAAGCTAAAAAACTCGTTCGCTTTAGAGGAGGACGCTCTCTCAGACAGTTTTAGCTTCAGGAGATTTTATGATAAAAAAGCTATAAATCTTTTAATAGATTTATCTTTAAAGTTATATTTATTATATTATTAATTTCTATTGTTTTCTTTTTCGCTTTTTTATCATAAAATCTTTTTTAGTTTTATTTTGGACAAACTTTATGATTTTGAGTTTTTTTGGTATTTAGATACAAAAGTCAAAATTGAATTCGGTTCTAAAACAGTTTAAAGTGTGTTTTTTCTGTATGGAGATTATAACATTTTTGTTGGTTTTTAGGAACATTTTTTTATATATTTAGGGAAATCAAGTGCTCCTTCTAATGATTCTTTTAATAAAACTTTTAATCCTGAACCGAAAAACTTTGCTCCTTCTCCTCCTACTTTTGATGATAGAAATGCTGGCATTATGTTTCCAGGGACATTTGCTACAATGAACATTCCAATTTCTAATGCTTGAATAGTATTGTTTGCTTTTTCTAATTCATCTCTATTTGGTAATTTTAATAAATTTTTTGTTATTTTTTCTTTTAGTTTATTTATTTTAGCAGTGTTTTTATTTTCTAAGGCTTTTAATAGAGCGTAAAGATCTTGTTTTGAATCAGCATCTAGTTGCTCTGATATTCTTCTTTTTATATCATTCTTTTCTTTTTCTTCTAATTTTTCTAATGCCCCGTTTAATGCTTCTGAAAATACGTCTACATAATCTGACATATTTTTTGTTAAATATTCTGATACTATTTTGTATTTGTCTCCTCCGTAGATTACTTCCCATTCTCCTAAGAATTTTCCAACAGAATCTAATTTTGATAGGTATTCCATTCCTATTCCTGCTGATTTTCGCATTTCGATTAGGGCTTGGGGTTTGTCTAATTGTTCGTTTTTATATCCGTAGATGTATTTTCCTATTTTTTTACCAGTTTTTTTATCATCATATTCTCTTACAAATGATTCTGGGATTAAAAGGTCTTTTAGTAGGGGATATACTCCATCTTTTTCTGTTAATCTTACAAATTGCCAATCTAAATTTGCTAAATTACTAAATACTAATAATTCCTTATCTGTTATTTTGTTATTTGCTATTTAATTTACCCTTTTTAACATCATCTCCTTTATTTTTTATATAAATATAGTTTAAAATTTTAGCTATCATTATATCATTCAAATTTTTATAATTATATGGTTCAACCACAAAAAGGAAAAAAGGAAATTTTTCGTATAATATATATAAGCATATAAAATTATCGAGGAGGCTTAAAAATGTTTAGAACAAATAAATATCAACAATTAAAATTAGAATATCCAGTAGCAATGATGCCAAAATATTTAGTAGAAATATTAGAAAAAGGTTGGGCGGAAGAATTTAAGAAACATATCTATCCAAAAATAAATGAAGAAAAATTTTCATTATTATTTAGCGAAAAAAACATCAAAACCAAATTCACCAATAAATGTAATAATAGGGTTATTGAGATTAAAAGAATTTTTCAATCAAACAGATGAAGAATTAATAGGAACACTATCTTTTGACATAAGATAGCAGTATGCATTAAATACAACAAGCTATACAAAACAACCAATATCAATAAATACACTAACAAATTTCAGAAGAAGAGTGTATAAATATGAATAGGAAACAGAAATAGATTTAATAAAAGAAGAAGTAGAATCAATTTCACAAGAAATAGAAAAATATTTAAAAATAGAAGGAAGTTTATTTAGAATGAATTCTTTTATAGTAAGTTCAAATTGCAAAAAATTAACAAGGTTAGAATTGGTCTATGAAACAAATTTAAATTTAATAAAAAAATTAAATGATTATAGATAGAAAATTAATACTGGTTGAATGTAAATCATATTTAGAAAAAGGAAATAAGAATGAAACAATATTATAGAAGTAAGAATACAGAAACAAGTTCAAAATTAGAGATTCTATTAAATCATACAAAATTATTATATGATTGACCCACAAAAAGGTATTTAGTTTTCTCCACACCACTACATATAGTGTTCGAAAGCTTTTAGAAAACTACCTTTTTGAAGTCTAATCATTCAGTGATTAAATTTATCTTTTAATTATCTTTTCAAATATTTCTCCAAAACTCTATTCAATTCATTTTTATCTATTGGCTTTGTCAAAAAATCATCCATTCCATTTTCCAAAGCTTTTTCTCTATCCTCTTTTGTACTACCTGCTGTTAAAGCCACTATTATAGTATGCTTCCCTAACTCTTTTTCATATTCTCTTATCTCGTTCGTTGCTTCTAATCCATCTTTTACTGGCATTTGAATATCCATAAGTATAATATCAAAATTATTTTCTTTTGATTTCTTTACTGCTTCTAATCCATTTCCCGCTTTTAATATTTTTACTTCTGGCATATACATTTCCACCATTGTTTCTATTAACATCATATTTATCTCTACATCTTCAGCTATTAACATTTTTAATCTATTCTCTGTTATTACATTTTTATCCTCTATTTTTATTTTGTTCTCCATATTATTTTCTGCCTTGTTTTCTCTCTCTTTACTATATCTTTTTGAATTTAAATTCTCTAAATACTCCATCAATAATTTTGATTTTATGGGTTTTGTTAAATTAAACCTAACTCCAAGTCTCTTACATTCACTATTTAATTTCAAGTCATCAGATGAACTGTGTAACAAAATTATTGGCAGTTTTTCTTCTGACATAATTTCTCTTATTTTTTTTATTGAATCTATCCCATTTATATCTGGCATATGATAATCCATTATAACTGCATCTAACTTATATCCCTCTTCTACTATATTCACTGCATCAAATCCATTATTGACACTTATTGTTTCTATACCCCAATATCTCAATGTGTGCTCTAATATCATTCTATTTTTATCATTATCATCTACTATCATTATTTTTTTTATATCTAATAGTTTGTCTAATTCCAATTCGTTTCTATCTTCATATTCAGTCTCTATTGTAAAATAAAATTTTGTTCCTTTTCCATATTCACTTTCTAATTCTATTTTACTTCCCATTTTTTCAGCCAAAGCATTAGATATTGTAAGTCCCAATCCTGTCCCACCAAATTTTCGTGTTGTAGAACTATCTGCTTGCGAAAATGCTTCAAATAATTTTTCTTGCTGTTTTTCTGTTATTCCTATCCCTGTATCTCTAACTATAAATGTAAAAAATCCATCTTTTTTATTTTTCTTTATAAATTTTAACTCTAACTCTATTTCTCCTTTTGGAGTAAATTTCACTGCATTTCCTAGTAGATTTATTAATATTTGTCTTAATCGAACTATATCTACTACTGCATATCTTGGCACATCTGGTTTGATATTTAATAATATTTCAATTCTTTTTTTATCTGCGTTATATTTTATTATATCTGCTGCAGATTCTACTATCTCTATTATATCTGCTTTTATCAATTCTAATTCCAATTTCCCTGCTTCTATTTTAGAAAAATCTAATATATCATTTATAATTCCAAGTAATGCCTCACCTGAAATTTTTATATTACTTAAATATTGCATTTGCAATTTATTTAATGGCGTTTTTAATACTAAATCTGTAAATCCTATTATTCCATTTAAAGGTGTCCTTATTTCATGACTCATATTTGCTAAAAATTCTGATTTTGCTTTACTTGCTGATTCTGCTTTTTCTTTAGCTTCTATTAATTCAATATTTTTTTTATTAAGTGTTTCAGTCCTTTCTTGAACTTTTTCCAATAAATTATTGTTAAAATCTTCTAATTCCTCTTTTATTTTTATATTTTCTTTTTTATAATAGTTCATTCGAGAACTAATAGATATAAAAAATAGAGTTGAAACAATAATAAAAAATGCATTTATTAAATTTAATGTGAAAAAGTTTGTAGGTAATATTCCCATTCCTCTTAATCCAAAAATAACAATTGTCAATAAAAAAAATAAAATACCAAAAGAAAAAATTTTATTATATATTTTTTTAGATTTTAATAATTTAAAACTTATTATTATATTTGGAACTATTGTTAATATTGCATAAATCGTATATAGTATTAAACTATATCTTACTTTTATAAATAACATAGATAAAATTATTACAAAACCTAAAACTATAAATAATTTCAAAATTTTAGATTTACCTTTTTTATTCTTTGATAGTCCAAAAAAAGAGTAAGCAAAATATGTAAAAGCCATTAAAGCTATAATTCCAGACCCTATATATGCATAAAACTTCCAATATAAATTATTAGAATTCAAAAATTTAAAAAGTATTCCAAATTGTATTCCTTCATAGATTAAGTATGAAAAAAGATAAGTTATCAAATAAATATATGTAATCTCTCTGTCATTAATAAAATATACAATAAATACCAAAATCAATACTAAAATAAATGCAAAATAAAATCCCATATATATATAATTTTCATTTGAAGTTTTAATAAATTGATTATATGTAGATAGTTCAAAAGGAAATCTCATTGTCCCTTTAGTTTTTATTTTAGCTATTAAAGTATATCTCTTATTTGGAGATAATTTTAGATGAAAAGAATAATTTCTATTATCTATAGTCCTATTTTTATATGCAACATCATCTCCAGCATGTATTTTTTCAAATTTTCCATTCTCATTAAATATATATATATCTAAAAAATCAACTAATGGATATTTTATAGTTAATATCCAATTATTTTCTGTTGTGCTGTTTATTATATTTGATTTTATCCAATAATTAGAATCTGAAAACCCATAGCTTCCTCTGTTTTCTATCTCTTTATTTTTATAATCTACATTATATAATTTCTTAAAATTTATATTTTCTTTATTATTATCAACATAGACTTTTGAGCTTTCGTTAATTGAATATATAGAATTTACATCTGTTAGTTCAGTAAACAATTTATTATTTACCTCTTCGGAAAATAAATTACTGCTAAACAAAATAGATATATATATGATTATCTTTAAATATTTCATAATTTCCTCCCTATTTTTAATAATATCTAAAAAATTTTCTTGAAAATTCCGTTATTTAATTTTAACATATTCTATTTTGTTTATCAATTTTTTTTAATTATTATTAAAAAAAATAGTTACAGTACAGATGTAATAATTAAAAACTCAATCTAAATCAGTAATTTTACTAATTTATTATTGACTCTTTATATTAAGGGCAATCACAGGGGATTGCCCCCAATGTCATAAAGTTAACGATAATTTATAATTTTATATCGGGTTTGCCAACGGCAAAACCCCTACATTATAAAATAAATTAATACTTCCCTAACAAATAAAAAGATGTCAGACAAATTCTGCCTGACATTTTTTATTAACAAATTTGTTATCTTTTAAGCTTTCTTTTATCTCTCTGCTTTTCTCCACAAAGCTAAAGTTTTATTTGGAGTCCAATTTCTAAAAGCTATATGAGTTTGCAAACATTCATATTTTTTCCCTTTATAATTTACAATATCTCCAACTCTATATTTTATTCCCACTTTCCAATCTTCTATGTTTTTAGTTGTATCCCCTGCTTTTAATGTATAAACAGGAAGCATACTTGTATCTACTGCATCTGCCGGCTCTATTGTAATAAATCCAATTCCGTCATCATAATCTTTATCTCCTAAATTTATATTATCTTCATATCCAAATACTATTTTATTACTCTCTTTATCAACATACGCTACAAAATGATCCATACCATTTGAACACAACTCTTTTTTAGAATATAAGTATCCATTATTCATATTATTATATCCATTTGAATGAACTAATATTCCAAAATTATCTCCTGCATTTAAAGAGATATATTTAGTATCTCCTGCCTCTAAAATACCGCCTGAATTCTTTTTAGAAAAATTATTAAATAAGATAAATTCATCTCTTTTTTCTATATCATCTGTATATCTAAATATTCCAACTCTATTTTTATATCCTGCCCCTTCATTTAAAAATGTAATATTTACTGTAGCATCTTTTAATAATTTTAAAGTTTGTAAAGAGCCTATCATATTTTTATTATCATCAAAATTTCTATCAAAAACTTCTTTTGCTGTATCTTTTACACTCTTAGGGACTTCTTTTTCATCATATTGATTTTTAGAGATAAAACTATATATATGAACACCACCAAGCCCTGTTGCTACAAAAAGATAGTTTTTATCAACTATTTTTCCATTAATATTAACCCTTTTAGCCCTATAAGCTACTTCATTTGCTGAATAATTTTCATTATCATATACATCTCCTCTAAGTGTATGTCCTCCTACAAATTCTAAAAATTTAGCCCTTTTATCTTCTGGAATAGTAGGATCTATTGAATCAGCTCCATTTATTTTATATACTCTAAATCCAGCACCACCATTTGCTGTAAACAGAAGTCCACCATCATGAGATACACTATTTGTATACGATTCTACTCCTTCAGGATTATCTATAGTCATTATCTCTTCTGCTGTTTTATCACTATTTATTTTTAACACTTTTAATCCTTTATCCGACATTCCAAGAAAAGCTATTAAATCTTCATCTTTATATATTTTTCCATTTTTTATACTGTCATATATATCAATAGCCGCTTTATGCCCTTCACTAGAAAAATCTCCTACATTAATAACAGTGTTTCCAAATGAAATATCTCCATCTTTTCCATCGCTAAAAAAAGATAATAATCCTTCAGAAGAAACTGCTGTATCTCTTATATCATCTTTCGACATAATCTTATCTATTTTAGAAAAATTAATATCTATATTATATAATCCACCATTTTTAGCTCCTGTCGAAACTACATATGAAGAATCTTTCATATTAATTGAAGTTACTGTATAACTCTCTAATATCCTAAAATTACTATTAATTTCAGAAGCAATTTTTTCTTTAGATGATAAATCTACATTAAATTTTGTTATAAACGCTGTTTTTCCTGGTTTGGCACCAAATTTTGCACCTCTTCCTTTATAAATATCTGCCATTCCTCCATATACAACTTCATTTGTATCTTTATCAAAATAAACAGAGTTTATATCTAAATATGGATGCTTCACTTCAAGTATCACTTTTGGTTCTTCTGTACTTATATCCACTATTTGTAAAGCTCCACCTAGCTCTTTTCCTTTTGTATTATATGCTATATATGCTCTATCTCCTGATATAAATATATCATTTGCTTGTACAGCTTCTTTTCTTCCACTTAAAAATACAGGTTTTACATTTGCAACATATTTTATACTATATTCAAAATTTTCTGTTAATATCGCTGTTCTTTTTGTCCCTTCCCCTTCATTTAATGTAATTTCACTATTTTTCAATCTAACACCATCTACATTTGTACTTATAACTATTCCATCTTCATCTAAGCTCCCGCTGTTTAGTTCCTCTTTGTTTGCAAAACATCCTCCAAACAGTAATAAAGCCACCAATAAACTTATTAACTTTTTCATAATTTTTCCCTCCTGTTTTATTTTTATTTTATACTTGTAAATATTTTATTTGTTATCAACTAAAGAAATAAGCTACACCTCATACGGTAAATTATAATTTTTTTTATTTTTAATTTCTAAATAAATTTATATTTTCCTATTTACTAAAAAATATTCCCAAATAAAATCTGTATCTTGCTTTATATTTTCTTTTAACTCTATAAAATACAACACATTTCCTTTAGATATTTTCTCTACTACAAGATCATTCCTTTTAATATCAAAATTATTTTTTGCTTGATAATAATATATCCTATATTTTTCAAAATCAACTTTCATTATCTCTTTAAGATTTTTAAATATAATATTATCTCTATATGCTGTTTTTATAAAATATAAATTATCTCCTTTTTTAATAATTATTCCATTTTCCCAAGAAACAGCTATTTTATATTTTTTTGATTTATAATATTTTATAAGTTGATTTACTCTTTCATCTCTCATAACTGGATAAACTAATCCTTTTTTTATAACAAACCCTTCATCTTTTATATACAACATTGGAATTATATTATCTACATATTTTAAAATTTCATCTTCGCTATATCCTCTATTTTTATTTTCAATTTTACTATCCACTATAGAAGCAAATATATACAGTTTTTTATTTTTTAAATTTCCCCTAACATATTTTAATATTTCAATAAGTTTTTCATTATTTCTTTTCTTAAATTTATTTGAAGCTCCATTTATTCTTTCAAAATCTACAACTAAACCACTGTATTCTATATCTAATTTTTTCAAAGCATCAATATTTTCATTAAATATACTTTTATATTTTTCATAAATTTCATTAAATTTTTCTTCTCCATATGAATCAAAAAACCATAAATATAATTTTATATTATTCTTTTTTAAATGATTTGAAAAAATCTGTAAATTTTCCCTACTTGTTTTATAATAGAAAAAGCTCCCTTTTTTAAATACATATCTACTTCCAAGATGCAAAATCACGCTACTATATTTCCGTGACATATCGTCAGCTAGTTTTATTATATCTTCTTTTTTACCATCTCTAAATGTTTTTAATATTTTATCATCATTTCCAACAATTATTCCCTCTTTAGAAAATATATAAGGAGTAATTAACATAAATAATATAAAAACTATTTTAATTTTTTTTATATTCAACCACCTCCAATTCTACTCTCCTACTTAATGTTCTATTATCTCCTGTTATATTTTCTTCTCCTTTGCCAGTTAATATAAAATATTTATTAGTTAAATATACAGATTTTAATAAAAGTTCTCTTCCTATTTTTTCTGCTCTTTTTAACGATAATTTTAAATTATAATCTCTGTTTCCAGTTTTATCTGCATAACCAGTAATTTTTATCTTAAATTTCTCTTTTTTTAAAATTAATAGATCTATCTCTTTTGCTATTTTGCTTAATCTATCTTTCTCTAAAAACTCTACACTATCTTTTTTAAAATATATAGGTTTTTTTATCAATTCTTTTAAAGTTTCAAATTTTTCATTTTTTATTTTTTTATTTTTTATATTCTTATTTATACTATTCTCTTCTATTTTTGTTTTCTCTTTTTTTCTTAATTTTATTAATTTTTCTCTTTCAATCTTAGATCTGATTTTTCCAGTTCTAAAATCATTAACTACAAAACATATACTTATTGTATATAATATTATAAAAGCACTCATAAATATAATTAAATATACTTTCATCTTTTTTCCTTTTTGTATATGTCTCTTTGTTGCCACTCCCTCTTTTCTCTTCATTATCCCCCAATGCTGTTGTTTTAAAATATATTGAAAAAAACCATTTAATTTAAATAACAAAAGCATCTGTCTATATCCAAAATTTTCTAAAATTCCATAAAAAAATAGTTTGCTATTATCTTTAAATTTTTTATATCTTCTAAATGTCATCATTTCTAAAAATACTGCAAAACCAGATATTAACACCCCTAACAAAATAGACAAACTAAAAAACAGTACAAATACATTTCTATCTAACATTCCAGATATATAAAAATATGGCAATAACAAATATCCCATCAATTCAATAATAGGTGCAAGTAACTCAAAAATATAATAGTATGGAAATGATAAAAAACCTATAGTCCCATATCTTTTTTTAAAAAACATATCCTTATTACTTGCTAAAGTCTCTATTAAACCTCTATGCCATCTAGATCTTTGATTTTTTAAGGTCTCTATATCCTCTGGAACTTCTGTCCAAGATAATGGCTCTGGCACAAAACTAATTTTATATTCAATTTTATTATCTCTAAAATATTTATGAAGCCTAATTACCAACTCCATATCTTCTCCTACTGTTGATTTTAATGTAGTTTCAGATGAATATCCTCCAACTAAAATAACAGCTGACTTTTTAAATAATCCAAAAGCACCAGAAATTATTGGTAAAGCATTTATTAATGCCCAAGCATATCTTCCAAACATAAACGCTCTTAAATATTCCACAACTTGAAATTTAGCTAAAATCGTTTTAGGAAAATTAATCTCTTCGACTCTATTTCCAGATATTTTGCAACCATTAACTACTCCTACTATTCCACCTGTTGCAATAACTCTTTTAGGATCGGATAAAATTGGTGTTATTACTTTCAAATATGAATCTCTTTCTAAAATTGTATCTGCATCTATACTTCCAAAATATGGATATTTTGATATATTTATTCCTACATTTAAAGCATCTGCCTTCCCACCATTTTCTTTATCTACAACTATAAGATTATTATTAATTTTACTTCTATATATCCTTTTTACAGATTTTGTATTGATATCTTTCCTATATGGATAACTATACACCTCACATTTAAATTCTTGCAAAACTTTTTTTAAAGTCTCATCTTTTGAACCATCATTTATTACAATAATCTCATACTCAGGATAGTTTAAATTGTTTAAAAAAGCATTAATATTCTTTATAATTACAGCCTCTTCATTATAAGCTGGTACTAATAATGATATTGGTGGCGTTTGATTTGACTGATACATATTAATATAATTATATAATTTAGTTCTTCTTTTATATTTTAAAATACCTCTATATGAAGTGATAAAAAGCAAAATATACCCTAAATTTATAAGTATAAAATAGGTTATCACTACTATTGAAATTATAAATATAACTTTCTCCATCTCACCACCCTATAATGCCTTATTTTTAATTTTTTCATAACGCTATCTGTTTTGGAGTTATGAATAATTTTTCAGTATTACATTTTAAAATTTTATTATCATATATTGTTTTTAACTCTTTTAAAATCTGTATTGATTTTATTTCACTAATTAATATTTTCTTTATTTCATCTTCAATATTTTTATTTGATATTATATTTTCTAAAATCATAATATTATTCGAGTTATTAACTACTTTTAATACCTTTTCAATTATATTTCTAACTTCACCTTTTTCTAAATTAAAAATAATATTTTTCATAAAAAATGTATTGTGAGCAACTAAAGCATAACCTGAAATATCTCTTGCAAATCTATCTTCACTATCTAAAGTTTTATATAAAATCTTTTCCCCTTCTTTTCCAAATTTCAATAAAGAGTGTGCTGCATTATATCTTACTCTCCAATTTGAATCTGAAAGCATATTATAGACTATTTTTACTCCATTTTTTGTTTTCCATATATTTTTTGCTGCAATTGCCCTCAAAATCCAATCTTCACTTTTTGAAGCTAATCTAAGTATTCCAATACATTTACCTATTGCAAGTTCTCCAGATGCCTTTACTAATTTTATCAAAAATTCTTTTTCATTATCATCTTTATTCTTTTTTCTATATGCAGAAAAAAATTCTTTTGATATTATATTTATAATATTATACTGCTTATTATATGATATAGCATAAATCAATTCTCCAATATTTTGAGTTTTTAAACTTGAAATAAGTAACTCATTTAAGAAAAATTCATTAACTCTCTTATTCTCAATCATATATTTATATAAATTTTTATTATCATTTTGAAAACAGTTAAATACTCTTTTCATATTATAACCTTCATTTTTTTCTATAATATTAATCACTTCAAACATATGCTTTATATAATCTCTAATCTCAATTTCACTTAATTTATCTATCCATTCATCAAATATTTTCATAAATGCTATATAATAATTTGCAACCATACTATTTTTTATTAATTTTTTCAAATCTATATCATATAACTTATGTAAATTTTTTTTACTTCTTATCTCTCCTATTTGATAAAGATATAACTCTCTATTGTCAACATTTTTACTATTTGTCCAAAATTTATATAGGTAGTCCGAAACTCCAATTTCATCAGAAATTTTTATAACTCTTTTTCTAAATTCTCCTTCAAAACTATTTATTACCTCTATTAAAGAATCCACTATATCTGAATCATATTTTTTTTTACTATAATTTCTATTTATGCTAAATTCTATTTTATCTTCATTTTTTTTATAGTCAACTACAAACCATTTAGATTTTTTATGTACATCTATTAATTTCATCTCTTTTTTTCTATATGCAAATTTTATAAATAATTTTATATATTCCTCTTTTCTATTTTCATTTTCTATATCTATTTTTTTATAATAAAAATGTTGAATTACTATTATTATATAAAATATTAAGTCTATAACGAAAAATATTATTAACAATAGTAGTAATAGCTCCATTTTTTATGCCTCCCTTTTTTTCTTCTCATATATTCTTTCAATTAAAGCTTTTAATATATTTGGGTTAAAAGGCTTTTCAAAATAAAAATCTATTCCCAAATTAAATGCATTTATAATTCTATCTTCTGATGTTTCAGAAGTAATTACGATAATCTGTATTGAATCATCTTTCTTTTCTTCTCTTATGATTTTTACTATCTCTTCCCCTCTTCCATCTGGCAATATTAAATCTAAAACAACAATATCTAAATCTATTTTATCTAAAATATTTTTTGCTTCTTCTATATTTTCAACTATTTTTATCCAAAATTTTGTATCTCTATTAAACATCTCTGATAAAAGCTCTTTATATATTTTTGTTCCTTCTATAAATAATATATTTGCTAGCATATCTCCCCCTAAAAAATTTGTATCCCCATTTCTATTAACACTTTTATATTATTTTATAACTTCTCCTATACTTTTAAGTCCTTTTCTCAATATATAATATGAGTTTTTCTTCTCTTCCATATCAGGATTGTTTACATATTTTCTACTTATATCACTATAATCTACATTATCTAAAGAATTTCCGCCCCAACCGTTCCAACTATATTTATTTGTTTCTATTAAGTCATTATTTATAGAAACCGCAAATGAAACTCCATCTGTTATCTTAGATTGTAATTTCCAATTTTTCTTTCCAAATATACTCGAATCTATCTTAACACCATCTATAACTGCACATCTACTTGGATCTGAAAATTGTAATAATGTCCATGGAACTCTAACTAAAAGCTCTGTATCATTTATAATCAATGCATCTGTACTTTTTATTGTCTCGTTACTATTTGCTACTCCTAACTCTCCAATATTTTGATTCTCTATTTTAGTTACTTCTCCCATTTCATTATATTTTTCAAGATTACGCCACCTTACTTTTTCCCATTCTTTTTCTCCAATAGTAGTAGAACTATATTTTCTACTATTATCTAAAAAATGCCATATTCCATAAAGACTATACTCTTTAGTTACATATAGCTGTGCAATCTTATTCCCTTTTTCATCTATTTCAGGATATACAATTGTAAATTCATATCCATTTTGAGTATTTTCTCCATCTTCTAATATAGAACTTCCAAGTTTTTCTTCACTATTATCATAACTGTTTATTCCAATTACAACTGTATCCTCTGTTTTCCATATATTAGAAAGTTTTATTTTAATATTAAGATAAGTTTCATTTGCCATAGCAGATATTGATTCTATATTTTTATTCTCACCTCGATATATCTCTTTATAAGGATAATTGTCTGGTTTAAATTTTATAAATCCAAAATTTTCTTCTGGACTTGTAATATCATCCCACAAAGCATATCTACTTCTTGGAAATGTAATTTCATCTGTTATCCAAGTTCTTTTCCACCATTCATCAATCCAAGCAAATAAAACTCCGCCTGCACAATTTTCATCGTAAATATTCTTCATAATTCTAATCCCATATTCACCCTGCATCTCTTCATTAATTCCACCATGGTTCATTCCTGACTGTGCAAATTTTGCATTTCCCCAACTACTAGGAACTCCAGTTTCAGCTATTACCAATGGTATCCCTTTTGCGTTATAATAACTATTTAAATCATCTAAATATCCCATATATGAATTTGGCCCATAATCATCACTATATTTTGGATCATTATATTTTGGATCATATGAAATAAAATCAGGATAATATGGATAAGCATGATAACTTGCAAAATATCCTGCTACATCATTATTAGATTTCTTTATATCTTCTAAATAAAAAGCTTCATAATCTTCAAAACTGTTTGGAGGCCCTGGTTCTGATTCATGTTCTAATGGATCTAATGTTGGCCAGCTTGATAAACTTATTGGTCTTTGATGTCCATATTTTTCCATTTCATATGATATCACATGATCTATCTGTTCTACAGCCCAAGCTGTAGATACATTTTTTGCATTATCTATAGAATAATATCTACCATTAAATGTTCTACTTTTAGACAATTGATTAGTTCTTTCTATCTCATCTGGATATATTTCTCTTCCTATAATCCACCCCAATACCCACCTTGAAATATTTACATTATAATCTCCATATGCTTTCCCATATCTATGAGGTATTCTCTTATTTCCATATACACAATCAACTAAATCTTCTATCTCTTGACTAAATGATTCATCTGTTAAATCATATAGAGTATGTACATCTCCTTTTTCGCTGTTTTCATCTAACCATATCCCCTGAAAAAGATATATTGGATTATCGGCATGTTTAGAATTAAAATCATCTAAAGCCATATAAAATCTGGGATAATGTAGTGTATATATTCTTAATGTATTTATTCCTAATTCATACATCTCCTCAAACCATCTATAATATGTAGTATAATCTGGAGATAAATTCCCTGCATTTGTACCAGGTACTCCAACTCCAAGATTCATCCCTTTTATAAAAAACTTTTTATATACTTCATCTTTATAATCCCAATATGCAAGATAATTATCTTTTGTTATAAATGGAACTTCCACTTCTTTTGGTAAATTATATTTTACTTCATTTTTATTATTACTATTTACTATCTTTTTAGAAGGGTTTTTAACTAAAAAACATCCTGAAAACAGATTAATTACAACTAATAAGAATAAAAATTTTTTCATATATCCTCCATATACAGAAATGAGTTCTATCATAAAATATAGCAACCTTAAAATAGTTATAATGGTTACTATTTTTTCACTATATATTTTATCATACACAAGTAACAAAACAGTAACAATAAGAAAAAATATATAATAAATTAAAATAGATATTACTTTAATAGCAATATCTATTTTAATTTATATCCCATACCTTTTATATTTTCTAAATTATCTTTTAATGGCTCTATTTTCTTTTTTAACCTTGATAAACACATATCAAATGTTTTATTATTTGAATCTAAATAATCTTGCCATACATTAAAGTATATTTTATCTTTAGATAACACTATCCCTTTATTAATTATAAAATATAGCAAAAGCTCAAACTCTTTTTTGGTTAGCTTAATCTCTTTATCATTCACTTTCACTATCTTTTTATTTTTATAAACTATTATATTTCTATATTTTATAATATCTTTTGAATTAACAGTTCTATCTCCTACTAATCTAATTGCTCTCAAAAAAAGTTCCTCTACATTAAAGGGTTTTCTCACATAATCATCTGCTCCTATTTCAAATCCTTTAATTACATCATTATCTGATATTTTTTGTGTAAGAAGTATCACTTTTGGCAATCCATAAATAGCTGGATTGTTTTTTATTTTTTCACAAACATCATATCCTAATATATCTGGAAGATTAATATCCAATATTACCAATTCAGCTCCATTTTTTTCTATTTTATTCAATCCTTTTTTTCCTGTATCACATTTTTCTACAAAGAATCCCTCTTTTTCAAATTTATCTGCTATCAATTCCAAAGTTACAATATCATCCTCAACTATTACTATACTCATTTTCATCCCCCTGCATAAGCAAAACTATTAAATAAATTAAAAAAATAAGTTTATTATTTATTATTAAGCATTAAATTTCCCAACTCATTTTCTACCTTCCAAACCAACTTTATTATAGCTTCATAATCTTTTTCATTACATAATTCTTCTATTTTTGATAAATTTCCATACATATCTTTTAATCCTATATTCCCTGCTCCACTTTTTAATTTGTGAGAAATATTTTTTACTTGTTCAAATTCATTATTTGATAATTTCCTCCTCATTATCTTCATCTCTTTTGGATAAGTCTCTAACATTAATTTTAATATTTTCTCAGGTATATTTAAATCATTCATTTTATGTATCACTTTTTTATCTTCAATATAATAGCTATCTTTATTATATTTTTCTAAAACATCCAAAATAGTTTTGTAATTAAAAGGTTTAGAAATATACTCATCAAAGCCAGATTTCATACATTTTTCTTTAAACCCTTCAGATACATTTGCTGTTACTGCAAATATTTTTGTTGAATTTACAATAACTTCTTTTAGCTCTTCTAGTATTTCAAATCCATTTTTTCTTGGAAGCTGAACATCTAAAAATATAAAATTATAATTTCCATTTAAATATTCTTTTACTACATTTATTCCTGTTGTAAGTCCTTTTGTTTTTATATTTATATTTTCTAACATCTCTTTCAATATCTCTATATTTATCTGATTGTCATCAATAATTAAAGCTTTTTTTCCTATATATTTTTTATTATCAATTTTAATTTCATCTCTTTTATTTTCACATATTTTATTTTTTTCACTAAAAACTCCAATTATATCCTTTTGAATAGGTTTTATTTCAATCTCTTTTTCATTATCTGCATTTTTATCAATTAAATATAATTTCATACTATTATCTGGAAATATCTCATTATTTTCAATTATACATTTTCTTAAAAAATCTCTATCAATAAAAACATTATAACTTTCATCCTCAATATTTTCAATTATATCTTCCAAAGAATCATAATCTTCTGCTATATAATATCCTAAATCCAAGTCAGATAAAATCTTTCTTATATATCTTTCTAAAAATTCATCATTCACTCCAATTATCGTATCTTTTTTATTTATCTTAAATTTTTTAATTGACTCTTTAGAATATTCAAAAAAAAGCTTAAATTTAAACTCTGAACCTAACCCCACTTCTGAAAAAACATCAATTTCTCCCCCCATACTCTTTACTAAATTTTGAGAAATAGCTAACCCTAATCCAACTCCTTCATATTTTTTAGCAATTGATATATTTCCTTGCTCAAATGCGTTAAATATTTTCCTCAAATTTTCTTTTGGAATTCCCGTTCCAGTATCTTTTACACTTATTATCACTTCAACTTTTCCATCTTTCTCTTCTAAAAGTTCAGCAAAAATAATTACTGTTCCCCTTTCAGTAAATTTTATAGCATTATTCAAAAGATTTATCAAAACTTGCTTTAATTTTGTATAATCTCCAAAAATTTCATATGGTATTTTTTGTGACACAAATAGATACATATCAAACCCTTTATCCATAATTTCATTTTCAAACATCATTCTAATCTCTTCAAATAGTTCCATTAAAGAAAATTTAATATTTTTCAGTTCTATTTTTCCCTCTTCTATTTTAACTATATCCACTAATTGATTCACAAGAGATTTAAGATGTTTCGCAGAATTTAAAATCATATCTATTTTTTCATCTCTATCTTTAACATCTTTTATATAATATAATATTTCACTCATACCTATTATTCCATTTAAAGGTGTTCTAAGTTCATGACTTATATTTGCTAAAAACATATTTTTAGCTCTATTCGCTTCCTCAAGCTTTTTTTTGTCTTCAATACTTTTATGTAATTTCACAACATGCGCTATTAGTTTTTTATTTTTTTCGTTTAAGTCAGAAGACATCCATTCTACTTTTTTCAAATTATCTCTAATTTCATTAAAAAATATAAATACTTCTAAAAATAAAAATATAGCCATTCCAAAAAAAATATATTCTGATTCTATTTTTCTATAATAATTATAAATATCTATTAACATACCTATCAAAAATATTATTGTACCTATCATATACATCTTTGAATATTTTAATTTTTTCACACAAGCTTTAATAAACATATATATTATATATCCCACAGCTAATATTATCATTATTTGATTAAATATTTCTATCTTTTTTATTACATTTGGTATAAAAACTATTATTAGCGAATAAATAATTATATAATATGCAGAAAGTTCTGCAATTATTTTATTGGTTATTTTGGGGTATTGATAATATAAGTAAAACAAAAAAAACGGAATAATTATATATGTAGTTAATTTTTCTACAACATATATATCTGAATAAGGTATTTTAATAATATCATTGAAAATTTTTTCATTATATAATATAACTTTAAATGAAAATACAATACACATATATACAAAATATATAACTGATTTTCTCTTTTTTATTAAAAAATATTGAAATAAAAAAAGTACTCCTATAATTCCAATTGCTCCAACAACCATACTATTTATTATTAATTTCCTTAATTTAATAATATTTAAACTTTTTATATATTCATTTTCTAAAGAATATATTGATACAGAGATACTAAAAAATAATATGCTTAAAAATATCTTTTTCATAACTATCTCCTTTTTATTTTTTAATGTGAAAAAATAAGCAATGTTTCATCTGATAAAGTATAAATATTTTTCTAAATTTTTAGCTCCTGAAAAATTTCGCCTTGAAAAATTACATGTTTAAAAAAATGACGTAGCTTATTTTCTGAATAAATTTATCCTTTCCTAACAAATAAAAAAAATAATCTTTATTAAATTATATCATAATAAAGATTATTTTGTATATTTTTTATTTTTATAAAATTTCAATTTCTTCTTTTTTTAATAATTTATTTTTTTTATAAATAATAATCAAACTTATAAAAATCAACATTCCTATTAATAGTTGCATATAATTAATTTTAGAAACTATACCAACTTTATCCGCATAACATGCACCTATCAAAATTACAATTAAATTATTGATACAATGCATAAATATAACTGTTTTTAAAGAGTTTGTTTTTAAATAAACTATAGCAAAAATTATTCCTAAAAAGAACGCATTTATTCCCTGTGCTATATTGAAATGAGATATTGCAAAAATTAAAGCCGAAACTATTATTGATGTAGAGTTTTTATACTTTAATGTTAATTTTTTTAATATTATTCCTCGATTTACAACTTCTTCAAAAATAGGACCTATTGTTACGCTAGTAAATATAAATGTAACTATACCTTCTTCATTTACCATATTCTGTAAATTTAGTATACTTTGTTTTAAAAATCTTTCTATTAAAACATCAACTGTATTATTAAAAATTAATATATAACATAAAACTCCTAATACTAAATAAAAAAGTAATATTAATTTTTCTTTGCTAATTTTTTTATTAATTTTTATAGAAATATTTTTCATATAACCTTTTTCGTATATTATAATCAATACTATTATTTCAGAAATGATACCAATAATCCCAAATAAAATTTTATTATTAAAATTAAAATTTTTAGTAAATAATTCATTATATATACTTATTATTCCAAACATAAAAAGCATTGCAATTATAGTTATAATTATTACTAAAATATATACAATTACACTAAATTTAACCGCTCCAAATATTGTAAATCCATCATTTTTATTTAAGCTCTTTTTTTCCATTCCAAACTCAACCTCCTCATCTATTTTTTATTAATTCCAAAACTTTATCCATAACTTGATCTTTTCCCAATGCCTCTTTTTCTGGAGCTATATCCACTTTTATATCTGGTATCAAATTCCCTTTTCTTTTAATATTTTTCAATACTTTATAAGAAATAATTGGTATATTTATTCTAAAATTTGAGTTAGGCAAAATAACAACTGCTCCATTACCATAACATTCTATCCAACCACCTGTTTTATTTCCTATTATTTTTATCTTTTTATCTTTTAACCGTACATAATTTGAAAATGTTACTCCTGCTGAAAATGTTCTTCTTCCAACTAATAAATATACTTTTCCTTTATAATAGTTCTTATTATTTTTCTCCAAATTTCTATAAAAATAATCTGCTAGTTCTGGAGATCCTCCAAGATTAAATCTATCATCTATGATCAAATATTTTATTTTTTTATCTTTCATCTCATTAAAATAGCTTTTCATATTTCCAATAAAATTAACTATCCCATCAGAATTTTCAAATGGGAATTTATTTATTCGTATTATAGCTATATCTTTTTTCAAATATGACAGTTCGATATTTTTGCCATAATTATTATTCTTCCAGCTTTCCCTTTCAGATATTCCACCTCTTAACACTACCTTTTTTATACCTTTTGAATTTGATTTTATATATTTAACAGTATATTTTTTACTACCATTATATATTAAACTATACCACATTGGAAATCCATCTTGTATTCTAACTTCAACCCATTTCTTTGAATTTGGATCTGATGCAATTAATTTCTTCATTCTTTTTAGTATTTTATCTGCCGAAACTCCATTAATAGAAATTATTTCCCCGCCGACCATTTCTCCAATTTTAGAAGAATTTTTTTTATTAATCAATATTTTATTATCTCTTATATTTACTAATATAGGGAATCCATTTCTAAACAAAGGAAAATTTCTAATATCTTTTTTATATCCACTTTTATTCCATTCTAAATTTGTATGCCCATCTTTTATTTTTGCTATAAATTCAGAAAATAAAATAAATAGTTCTTTTTTGCTTATTTTTTCTTTTGATTCTATTTTTTTTATTAAAGCTTTATATTTTTTATTAAATTCATTTTTACTAATAGAATAATATAAATCTGGATGAATCCTCAACTTATTAACCATATATTTTGCATCTTCTATTGCCTCTTTTGATGTTAATGTTTTTTTACTTTTAATTTTCTTTTTTTTGATTTTTATATCTTTAAAATCTTTAAATTTTATAGACTTTAAAATTTTATTAAATATCTTTTCTTCTTTATGTTTATTTAAACTCAAATTTGAAAAAACAAAATTAAATTCTTTATTTGATTTATATAAATTCAGTTTAATTTGTTTTTCATTATAATTTAAAAAAGCATCTGTGACTTCTATTCTATCTCCAACTACATTATCAATTTTTATTTTTTTAAATATCTTTTTTTTTATTCTTAATCTTACATTTTGCTCTTCTTCTTTTTCTGTTTTTTTATCTTCTTTTAAAATTTTGTCAATTGAATCTATTTTTTTATTTTTTATTGACACAAAAATATTCGATGTTTTATTGTTTATAAATTTAACAAATATTTTATCTTCTCCTACATTTACCACATTTACACTTGATGGATAATTAAATTCAAAATATTTATTTGAATATCTTTTTATAATTTCATTATTTTTTTGTAAATTTTTACACGAAGTCAGTAATAAAATAATTATTAACAGATATATAATTTTACTTTTTCTCATTTTTTTTCCTCCTTAGGTAATTAGGTAATTTGATTAGTCAGCTGCATAACTCTGCAATCCTTTTTTTATAATTCGTTTACATTCGTTTCATTCGTGGTTTCAATCTTTTTTATTCTTATTTTTTACTAAACTAAAAAATTAAACTCTTAACTTGACGACACCTTCTCTCTTTTCCCACGCATAATCATCAATCCTATTCCTATTAAAATAAATGCAATCACTATATTCATAATTAAATTCTTAGAAAAATCAACATTTATAAAAATAGATATACTGTTATGAAAAAAATGTAAAATCATCCCGGGAACAATAGACTCAGTCTTATATGCTGTATATCCAAGCAATAATCCCAAAATAAAAGTTGGAATTAATCTATAGATACTTAAATGAGTCATTGCAAATAAAATAGAAGTTATAATTATTGCTGACTTAGGAGATATTTTGCTTTTTAATGAATTTAGCAACACTCCTCTAAATAATATCTCTTCACATAATGCTGGTGTTAATCCTATAACAAATAATTTAGATATTGGACTCATACTATTTATCATATCTTCTATTCCCTTTAATGATTTTCCAGAATCAGGCAAATATTTTCCTAAAAATATAGCATATAACATTATTATAATAAATATTCCCATCCATAATATACCGCTTCCAAAACTTTCTTTTAATTTTGGCTTTTTTAATCCTAAAGATTTTTTTATATCTGCCTTTAGATACCAAAGAGTGAATATAGGGAAAAATGCAAATATCACATACTGTATAATAAGAGTTCCTAGCACCATATTTATTTTTGTTCCAAAAAACAGATTGCTATATATATACATTATTATTGCTATACAAAATATTAAAATAGCATCTTGCGGATCTATTACCCTCTTCTTTTTAATTTCACTTCTTTTTAATCTAAAGTCAAAACTTTTTCCATTTCCAAATAATATTTTTTCTGTTCCAAATACTTTAAACATAAATAATAGTCCTAATATAGATACAATTATATTTACAAATAAAGATATAGAAAAAAATGTTAAATTTAATTGATTTAATAAAGCTGATTTAATTATAAGCACAGAATTTACAATTGGTATAAATGAATAAAACTTACTCATTTTAATTCCATCTATCATACCTACATAAGTCGGTAACATAAATAAAAATGTTATTGGAGCAAACAAAGCTGCACTCTCTTTATAACTATTTGCAAATAATCCAACTCCTAAAAACACACTAGTTGACAATATTACTAATGGCATCAGCATAAAAAATAATACCACAAATAACATTGGCGTTAATTCTAATTTTCCTTGTAAATTTCCTTGTACACTATTAAGTCTCGAAAGAGCAATACTCAGAGCAATCAAACTTGTAAATAGCGTGGCAAGTCCCATAGTAAAACAAGCAAAAATTTTCGCTATTAATAGCTCCATTTTTTTTATTGGTACAGAAAATAATGTCTCTAGTGTTCCTCTCTCTTTTTCCCCTGTTGTCATTTCAATGGCAAATCCAACTGTTGAAAGCATTGCGTATAATACCAAATACATTGGAACTACTCCACTAAAAGAGTGTTGAGTTATCTCTTTTTTTTCTGCAGTATCTATTGATTTTAATTCTGTTAAATTTAATATTGGCTCTTTTATATTTAACTTTTCAACTATATTTTCTTGCTTATATTTTTTATATTTCTTAAATATTTCTAAAAATCTCTTTTTACTCTTTCCGCTATCAATATTACTTCCCCTATAAAAAATTTCTATTATCTCTTTTTTATTTTCTACTTTATAACTAATAGCTAAATCTAGTTTTTTAGTTTCAATATTTTTTTCATAATCTTTATTCTTTAAATTATAAACCTTAAATTTCCCTTCATATTTTATTAATTCTTTTAATTTATTAGGAATATTTGTAATATAATATATTCTACTTATTTTATCTTTTGATATCTGTTTATCTTTTTCTGCAAAATGAGATATTACATTTATCATTAAAGGCAATATTATTAATGGCAAAAATATAGATATTACATTTCTTTTATCTCTTATTATACTTATTATCTCTTTTATATAAACTGTTTTTATATTTGATAATTTCATTAATTTACCTCCTGTCTTTTGTTTTTTTCTTTGTGTAACTTTGGCTCCTTCGCGTCTTTGTGCTGAAATTATTTTTTCCACCTGTTCCAAATATAACTTTTTCTGATTTAAATATATAAGTCATAAATATAATAGATATAATTGAAACTATTATATTTGTAATATTTGCTATTAATAAATTTAATATATTATAATTGCCTATTAACATATTTCTCATAGATATAATTCCACCAGATATCGGTATCATTGCTGTACACAATGTTAATTTAAAATTAGGAAAAATAGCTACATAACAAGGTAACATTAATATTAATAATACTGGAGATAAATAAGATTGAGCTTCTTTATATGAATTTGCAAAAAATCCAACGCCTATTATTATTGAACTTGATAATATTATAATTGGAATTAACATAAAAAACATTATTACCATTCTAAATATATCTATCTGAAATGAAAATTTGGGTATTGCAATCATTATTCCCATTAATAATGGTATAACTGCTAAAATATTTATAAAACAACTTATTATTCCCACAGAACTACTTGCTAATAGTTTCCCAAATATTATTTCTGATTTTTTTACAGGAATGCTAAAAATTGTTTCCAAAGTTCCTCTCTCTTTTTCTCCAGCAGTCAAATCAATGCTAATAGCATAAATCCCCATTATTGAGTATATTGTTAATAAAAATGGAAGTAAACTCCCTAAAATCATTTCTGTATAATCTTTACTTTTTGAAAGATCATTTGATTTTAATTGTACAGCATCTAAAATAGGAACTTTTATATTCAACTCTTTTATTTTGTTTTTTTCTAATTCTACCTTATATTCATCAAATAATTTATCAATTCTCTTTTTAGCAAGTTTACTTTTTGTTATTGTTGAATTATACAAAATTTTTATTTTTTCTGGTGAATTTTTATTTGTATTTGTAAATTCAATTTCCATATCTATTTTTTCATTTTTTATAAGTTTTTTATAATTTGAATCTTCTGAATTTAATATTTTAAATTTATCACTTAAATTTATTTTTTTTAAGAAAAGTGATGGTATTTCATTTTTTATAATTATTCTACTTTTTTCCGATTTTAATTTATTGCTAACTGTACTCTGTAATTCAAATATGAAAATTAAAATTATTGGATAAATTATTATTGGTAAAAACATAGCTATTAATGCTTTTTTATCTCTTAGTAACTCTTTAAAATCTTTTTTAAATATCAAAACTACTTTATTCAAATTCATCTTTTATATTCTCCTCTCTATCAATATACTCAAGAAAAATATCTCTAATATTATCTTTTCCAGTTTTTTTCTTTAAATTTTCTACCTTACCTGTTTCTACTATTTTCCCTTTATGAATAAGTGCTATTCTATCACATAACATTTCCGCTTCTTCCATATAATGTGTTGAAAATATAATAGTTTTTCCCTCTTCTTTTTTTCTTTTTATAAATTCTATTATTGTTCTACTTGTTAATATATCTAATCCTAAGGTTGGTTCATCTAATATATATATTTCTGGATTATGTATCATACATCTTGCGATTGAACTTTTTTGAGTTTGACCAGTTGATAGTTTTTCGACTATTCTATCTTTAAAATCATTCATATCTAATATATCTAATATCTCTTTTGTCCTTTTTTTAATAATATCTTTATCTAAATCATAAAGTCCGCCAAAGAATTTTATTGTTTCAACAGGTGTTAATTTTTTATATAATTTAGTATTTCCAGATAAAAAACCTATTGATTTTTTTACTTCTTCTGGATTTTTTATTATATCAAATCCATTTATTACTGCTTCTCCATTAGTTGGTTCCATAATTGTAGAAATAATTCGTAAAAGTGTAGTTTTTCCTGCTCCATTAGGCCCTAAAAGTCCAAATATTTCACCTTTTTTAACTTCAAATGAAGCATTTTTTACTGCATAAAATTCCCCTAATTTTTTGTCATAAAATTTTTTACTTACATTTTTCACATTTATCATTTTTTATTATCACTCCTTTTCAATATTAATTTTTTCACATTATCCTGCTTTTTATTTTAAAATTCTGATTCTTTATTATCTTAATTTTTTATGATAAAATATGATTTTATGACATTTAAGAGTGGCTTAAAAATAGATTATATATTTAATGATAAAATATTTTTCACACTCCTTCTAATTTTAAAAATTAATTTTTCAAAGTTATTCGCAATTAATAATTAAACTTATGAAAGAAAAGTTTCTAAATACGATTTTTTTATAATTAATTATAGCACAAATTAATTTTTATTTTAAGTTAAAAAAAATTAATTTATGTTAAAATTTTACAATATAACAAAAGACAGGTTCACACCTGCCTTTTATAATCCTATAAATATATTTTAACTTAAAAATATTATTTTAAGTTTAACCTATCCATTCTATATATCATATCTCTCCACTTTATTTGATTTAAAGAATATGTATTTGTTCTTCTAACCCTTCCTGATGTACTTATTATAACTTTTTTCATTCTTTTTGGAAAATTTAAAACTGCTCGCACTACACCTTGATAACCATTTCCTAAATAATATTTAACCTTTTTATTATTATATGTCCTTATTTTTTTATTTTCCCCTAATAGATAATAATTTAAGTCATATACCATTTTATAAACTACCGCTTCATTTATAAGATTTTTACCACTTCCAGAAAAAGGCTTATTCACAAACACTGCAAATCTATCTTGAAATTTTATTTCATTATTACTTCTATCTTTTAATATCAAAACTATTTCAGTTACAATTCCATAACCTTCTGCAATTATATAATTTGGAATAAGTATTTTAATACTATACTCGCTTTTGTCTCCTCTTTCAGCTAAAGAACACATTTCATTTAATTTCAAACTTTCTTTTAAAGAATCTCTCATAGCTTTAGCATCTTTTTCATTAAATTTATTTTTTTCAGAAAATCCATTTGTTTCTTGAGCTAATGGAGTAATGTCAATATTGTTGTATTTTATATATTTTGGCTCAGAAACATATACAGTTTTTTTAGTTTTTACAGCATTTGTGACCGTTATTACCTTTTTTTCTACTAGTGAACTACATCCTAATTGTGTTAATAAAATTAAAACTCCTAATACTATTTTTTTCATTTTTACCTCCAGTTTATTATTGTTATATACTTTTTCTATTACAAATAAATTTACATTTTCCTAATAATTAAAAGATATATAAGAGAATCAGAACCCAAAATATAATTTTCTAACTCAAATATACGATTAGATAATTTTAAAAATTAAATTTTTTGAATATAAATTTTATTCTCATTTTTTACTTTCTTAGTATACCACTTTTCCTATTTTTTATGCAAGATTTTTTTTATATATGCTTTTTTTTTATATCTATAGCTCCATCTTAGTTACTTTAGAACTAGTTCATCTAATTAGATGAACTGTCTTATCATAACAAAAAGACAGGTTCACACCTGCCTTTCTAATGCTCCAGATATTATTATAAAAATAAAATTCAATTATCTTGCACAATTAAACCTTCCTCTGTTTCCTCCACTAAATATAAATTTTTCATTATCAGATTCAACTCTTTGCTAAATTCATCTGATAATTTAATCATCTTCTCATTATCACCTTCAAAAATAGAATTTTCCAATGCTCTAATTATTTTATCTAATTTTTTAGCACCTATAGTTCCAGCAGTTCCTTTTATTTTATGAACTAACCCTTTTGCTTCTTTCAAATCACCATCTTCTATTAACTTTTCTATTTGTTTATCTATTCCATTGTAATTTTCACAAAATTTTATTATAAACCGTTCTAATAACGCATCTCCTAATGTAGTTCTCATATCTTCTGTAATCTCTATTCCATAATATTTATTTTTACTCTTATCCAATTTTGTATCACTCATTTCTGCCACCCCCTTCTTTTCCAACCATTTATTTAATGTTATAAATAAATATTTAGGAGAAATAGGTTTTGATATATAACCATCCATTCCTGCTTTTTTACATACATCTTCATAACCAGGCATTGCATTTGCAGTCATTGCAATTATCGGAATCTTATCATACCTTTCATTCTTTCTTAAATTTTCTGTTGCTTCAAATCCATTCATAACTGGCATTTGTACATCCATTAATATCATATCAAAATCATTATCTTCTTCTAAGATTTCTATTGCTTCTTTTCCATTATTTGCTATTTTAACTTTAATATTTATTTGATTTAATATTGCTTCAGCTATCTCCTGATTTATTTCATTGTCTTCTACCAATAATATTCTGTTTCCTGCTAAATCTTCATATTCATCTTCTTTTCTCTTGATTTTGTAATTTAAATGTGAGTTTTTATCTTTTTTCAAAACTTTTTTTATCACATTTAAAATTTCAGAACTGTATATAGGTTTTTCTAAATATCCATCTATTCCATGTTCTTTCCCTTTTTCTTTTATTTCATCCACATCATACGAAGATATTACTATTATAGATGGTAGCTTTTCTATATCTTTTTCTTCTTTTAATCTTTTTATTGTTTCTAACCCATCCATCTTTGGCATTTTCCAATCCATAATTATAAGTTCAAATGGATTATCTTTTTTTTCTTTTATTAGATTTATTGCCTCTTCTCCAGATGAAGCTACTTCCACAATTCCACCATAACTTTCTAAATAATTTTTGGCAATTTCAACAGATATTTTGCTATCATCTACAACTAAAATTCTCATATCCTCAATATCTACAAAATCTATTTTTAATTTTTCTCCTAATTTTTGTTCTTTTAATAAAACATTAAAAATAAATTTACTTCCTTTTTCATATTCACTTTCTACATTAATTTCTCCACCATACATTTTGACAATTTTTTTACTTATAGCTAGCCCCAATCCTGTCCCACCATATTTACGTGAAATTGAAGAATTCGCTTGAGTAAATGTATTAAAAAGCTTATTTTGTTGTTCTTTTTTCATTCCAATCCCTGTATCTATTATGCTAAATTGAATATTTAATTCTCCATTTACCCTATTCAAAAGCTTCCCTTTTATCATTACATACCCTTTTTCAGTAAATTTAATAGCATTTCCTGTTAAATTTATTAAAACTTGTTGTAACCTTGTTGGATCGCCTATTAAATATTGTGGTATATTAGTATCTATATCAAACAATAAATCTATCCCTTTTTTCCTTGCATTTTGAAGTACTATTGTAGAAATATTCTTCAAAATATCATCTAATTCAAATTCAATATTTTCCATACTCATTTTTCCAGCTTCTATTTTGGAAAAGTCAAGTATATCATTTATTAGCGATAACAGATGATTTGCAGAACTATTAATTTTTCCTAAATAATCATATTGTTTTTCATTTAAATTAGTTTGTTTCATTAAATATGTTAATCCTAATATTCCATTCATCGGCGTTCTTATTTCATGACTCATATTTGCTAAAAATTCTGATTTTACAACTGCTGCTACCTCTGCTTTTTCTTTTGCAATTTCCAATTCAGCTGTTCTTTTTTTTACTTTTTCTTCCAACGATTCGTTTATTTGTTTTAATTCTTTATAAAGAACTGCATTTTCAATTGAAATTACCATTTCAGAAGACAACATTTTTAATATGCTAATTCTATCTTTAGTAAATGCACCTTTAACTAAATTATTTTCTAAATACAAAATAGAGATAATCTTTTTTTTGCTATTAAAAAGTGGCATACAAAGTATCGAACTATTCAAATTCATATTTTCATTTTCAAATATATTTTCAAAAGAGTTATCTCCAAAGATAAAATTTTCTCCTGTAGTTATAACTTTTTCAACTATCAATTTCAACTGTTCATTCGGGTACTTTTCTAACTCTATATGAGCTAAAATATTTTCAACTTTTTCTTTTTCTTCTCCATCACTTTCAAATTCAGCTTCAATATAAAATTTCTTATCTTCTCTTAGTAATAATAAGCCACTTTGAGCACCTGCATTTTTTATAACTACATTCATTAATTGACTAAGAAGATTTTCTAACTCAATCTCTTTTGATAAAATATTTGCAGCTTCTAAAATACTAAATATATCTGTGTTTTTCATCATATTTTCTTGCTTATATTTTTTCATCTCTAAAATTCCAGAATATTTTTCCAACATATTTTCTACTTTTGAAATAGCTCCCCATTCTTCATAGCATTCCAAAGCTTCTTTTAAATATAATTTAGATATTTTTTCATTGTTTTGTTCTAAATAAAATCTTCCAGCTAATTCATTAGATATTGCCTCTTCATTTTTAAATCCATTTTGTTTAGCTTTTTCTATTGCCAAATCATAAAATCTCATTGCTTTATTATATTTTTTCAGAACTCTATTTTTTTCGGCTTCCACAATTAAAAATTTATGTTCAAAATTCATTGGAGCATTTTTACTCCATATTTTTTGTCTAATTTGATTAGCAAATATTTTTCCAAATCCAACAATTTTATTTTTGATAGACAATTTATCATATTCTCTAAAAAATATTAATGAATCATAAAAAAAATACTCTGGATATGGAATAAATCCTAATGCAGATGACAAATATTTTTTAGCTTTATGGCTATTTTCATCTATAATTTTTTCATTCTCAAAAATATACCCTAATATCATTTTCATCAAATGATAATTAAATATAATATGTTTATCATTTGATTTAATATTTTGAGGTAATACCTCTTTTTCATTATAATTAGGACCATTAAATTCAAAAATATTCTCCACATCTTCTGACAAATTATATGCCATTTGAGCAAACAATTGATTATAATTATATTGAGTATTTTGACCATAGCTTTTAAAAGCCTCACTAAAATTATTAGTTGATTTATAATATTCCTCCAAACTTTTCCCTTGAAAAAAAGAGTTATACCCATAAACCGCTCCATTATAAGTTCCATATTCAAAATCGCCTGTTTCTATTCCAACTTTATATCCTCTAATTAATGAAGGAAATGTATTTTTCAAAGGTTCTTTATAATATCTTATTGTTGTATTATAAACCATCAAAACTTTAGCTTCTAATTCTTTTGCATCAAATTTTTCTATTAAATATAGTGCCAATTTACCAAACTCATATCCTCCATTTATCATATATAATGCTCCTGTTAAAATAAGTCCATAATTAACATACGCAAATGCAGAATAAGAGATATTTCCATACTTTATCGATAGTTTAACCATTTTTATAACTAATAATAAATATAAATCTGTATTTACAATAAAGGCTGCTGCTGCAATACTTGTTAATATTCTCATTACAGCAATAATCTTTTCATTTTCCATATTTGGAAGCTCTCTTAACTCTTTTATATCTTTTTTCATCATCTTTAATTGTACATCACCAATATTTTTTAATACAGTTAATCTATTTGGATTTTTCGAAATCCTTATTTTTAAAAGTTTTAATACATCCAATGCTAAATCAACAGCTTTCTGTGGCCTGCTTCTTGCCACATAAGATTGTATCACTATTTCATATGCTTTCACTTTATCCAATAATATATTTCCATTTTTTAAAATAGTATCAAAATAAATATCCATAATATTAAAATATTTATTTAAATACGCTGTTTCACAAGAATTTATATACAATCCCAATGTTAATTCATAACTGTTTTCCCAATCTTCTTTTTCTAAATAATTTACCCCTTTTTTAAAATAATTATATGCACTGAAATAGGCAGCAGATCTTTTAGCAATTATTCCACTTTTAAAATTCATTTCTGCTAACCAAACTCTTTTTTCACTATATTCTCTTTCATTAAAAGATTCTTTTGCTATATTAAAATGTTCTGTAATATTAAAAATATTTTTATTCTTATACTCTTCAGAAGAATTTTCTTGCATCATTTCTCCAATTCTTCTATGTAATAATTGTAACTCTTTTTTTGAAATTATATCATATACCGCTCGAAATATTTCATCATGTACAAATTTAAAATTTACATATCCATCTTTTTCATAACTTAAAGATTCATAAAAATTTGATACTGGAACTATAATCTCAGCTTTTATTGCTCCCCATAAATCTTCTCTTATCTCTTTTAGTGGTTTTTTCATTATTTTAGATACAATATTTATATCAAATTCATTTCCAATGCAAACACCATATTTTAATATCTCTTTTGTATTTTCTGACAGTATATATATTTTACTTTTTAAAATTTCACTTAAATTCTCTTTTAAATTTGATATTTTTTCTAAATCAAACTTCCAATTTCCATTTTTCAAATTAAATTTTAATAAATTAGAATTATATAGAAACTCTAATAAATGTTTTAAATTAAAAGGATTCCCTAAAGTTTTTTCATAACATATTTTTTCTAAATCACTTATATCTTTTTCTTTTTCAAAATTTTTAAAAGAATCTCTAATAAATTTCTTAATGTTTTTTTCTGATAACGCCGTTAAATATAATTCTTTAAAATTCCTATTTTCTTTCTTTAATTCCTCCATTAACAAACTCAAAGAGTGAGTTGGAGACACTTCATTATTTCTATAAGTTCCAATAAAACATAAATATTTTACTGATTTATCATTAATTAAAAATTTTATTAAACTTAGCGACTCTAAATCTGCCCATTGTAAATCATCAATAAAAATAATAAGCGGATTAGATTGAATAGCCCATATTTTTATAAATTTAACAAAAGTAGATTTTAATCTATTTCGAGATTCTGTAGGAGACAGTTCTTTCATTTCTGGCAAATCTCCTATTAACAATTTTAGTTCTGGAATTATATCTATTATCGCTCTTGCCCCATTCCCTAAACTATTTAATAGTTTTTCCTTCCAATATTCTTTTTCATCAGAGTTGATTTTTTTTAAAATCAATTCTCTAAAAGCCTCTATAAAAGCTTTATATGGAATGTCTTTTCTTAATTTTTCAAATTTACCTGATATCAAAACCCCATTATTCTCCATAGATGACAAATTAGCTTCATTTACTAAAGAAGTTTTTCCTATTCCTGGATGTCCTCCTATGAACAAAACTTCAAAATTCCCTTTTGAAATTTTATTATAGCTATCTTTAATAGCCTCTATCTCTTTTTCTCTTCCATAATATTTATTAGATATTAAAAATTTATCTGTAATATCATTTTTCCCTATTTCAAATCTGTTTATAAATCCATTTTCTGCAATATCAGAAATACATTTTTCTAAATCAAATAATATTCCTTCATAACTTTGATATCTATCTTCTGGATTTTTATTTAATAATTTTAAAATTATATCTGAAATTATTTCAGGTATTCCAATAGAGATATCATTTAATTTTAATGGCTTTTTCGCTAAATGAAAATATATTATTTCTGATGGAACATTTGAAATTATTGGCATTTTTCCTGCTAACATTTCATAAAATATAATACCAAATGAATAAAAATCACTCCTATAATCAACACTTCTTGCTAATCTTCCCGTTTGTTCAGGAGATATATATGGCAAAACCATAAGTGGAAAATCAATTTCCTCTAAAGCATTATAAACCTTAAAATCAACTTTAAAATTAAATTCAAAATTCAAAATTTTCATCTCATTGGTTACCAAATTATACATTATTGAATATGGAGTAATTAACTTATTAATATTATTTATATTACTTATATTACTTATATTTTTAGAAATAGATAATATTTTTATTGCAACTTTTAAAAATTTATCTATATTTAAAAATATTTTTTTATCTACATCTTTTAATAATACTCCTTCGAAATTTTCCATAGTGAAATAATCTATATTTTCTTTTGTTACATAATCAATTGGTTTTATTATATCATCTACTTCTTCAGATGATTTTTTTAATAAATTGTACTCATCTTTAAGTTTCATCTCTTCTTTTTTGTTATCTGATTTTTCCAACAATTTTATCAAAATTCTTTTATTCTCCACATTATCCCATACTCTATATATTTTAATATTTTTAAGTTCCCAGATTTTCTCTTTTATTTCATATCTATTATCTAACATCTCCATAATATCTCCTCTCTAAAACAAAGGGCTATTCAGTGCCAAATTTTGTTTCTATACAATAATTTCTAATGTAATTTTAAATACTTTTCAGACCTCATCTCCACCCCTTCTCCCAATGTCGTCAAGTTAATGACAATTTATAATTTTATATCGGGTTTGCCAACGGCAAAACCCCTACATTATAAAATAAATTAATACTGTAGGGGCTTGCCGTTGGCAAGCCCAGTTCTTAGCTTGATGACATTGCCCCTTCTCCTCTCTTAGGAGAAGGGAGCAAAACAACAAACCCAATATCCACACTATAGTTTCCTCCTAAGTTAGGAGAAAACGACAACAAGGAATGAGGTCTGTTAGCATAAATTATTCTTGTAAGGGCAATTCATGAATTGCCCCTACACAAAAGCTAGATATTTTCAATTCTTTACTCTTTTTTAGAAAAAATCAAATCTTCTATTTTAAATGTCATATCTATCCCTAACATTTTTTCCCAATTTTTTCTTGTTTGATAATCCAAATTATATATATTATTAAGCTCAAGATAACAAGACAAATCACATTGGTTACAATCACAACTATCATCAAAACTACTTACCATACAGGTATTATCCTGCTCTCCTGCACTATTAACTGTTGTTAGCAGCCAATAATCACACTTTTTTTTCTTTCCTACACTTTTTAATGTTTTATATGAATTAAAAATATTATATCCCTCTTTTTTTAATTTCATAATAAATTCTGCACTTTCTATCTTTTCTTCTTTGCTCATAGAAGAAACGTCTGTACTTTTATATCCATATAACCAATTAAAATATATTGGAAACTCTTTAAATTCTTCCACAAATTCTTTTATATTATACTGATTAAAAGAGTTTATCATTGATAAAATAACTATATTTTTATCTCTGTTAGCTAATATATTCTTTTTTATAATATTATAAATATTTTCTCCTCTTACTTTTTCATGAAACTCTTTAGTGCCATCAACACTTATCCAAACTGTATCTGAATTAATATGTGAAAAATCATTCACTCCATTAGTAATAGTAATCGTATACAATTTTAACAATTTACTATAATTAATAATCTCTTTAATATCTTTTCTTAATGTAGGTTCTCCTCCTTCAAAAACTACAATTTTTATTCCACTTTTCTTTAATTCCAATAACTTACTTTTCCATTCTTGTGTTGATAAAACTCTATTTTTTTCACTTCTTATAGAAGGATTACACATTTTACAGTTCAAATTACATACATTTATAATTTTTATATTTGCTACAATAGGAGATTTTATCCCTAATCTCCATTTTATTTGCCTATGAATTAAAGACATATCCATATTTAATAACCCCTTTACATTATTTTTTCAATTGAATCTATTATTCTTGAGACAGTCCCTTCCAATTTATCGCTCAATTCTTCTTTTAACCATTTAATATCTTCAACAGTAAATATCTTTTTCAAAATATCAAATTCTAAATTTTTAATTAATTCTACAATTATTGAAATAATATCTTCTGTTGTTATTGTAAGCGTAAATGTTTTTTCGCAATATATAAATCCAATTTTATTAAAAAGAAGAATTATTTTATCCAATAATTCTGTATCTCCAATTGATAAAATTCTCGTAGCTACCTTATTAAAAAGTATTTGGAATTTTTCATCTGTTTTTAATCCAATTAAAGAGTCTAACGTATCTTTATCAAATTCATTTTTTTCAAAAGCAGTTATCAAATTTCTAGCATATCTTTTATAATTTTTTACAATAAATGCAAATCCCCACCCACAAGGTGTTGTCCAACATGCAGCATCTCCTACAAATGTTACATTGTCTTCTGCTATATATTGTGATACTCCACCTGATGGATACCATCCATATTTTATTTCTTGAATTTCGCAATCATTATATTTTGACATAACTTTTTTTTCTTTCATTACTTCATTAAAAGTATCTTTCATTATGTCAAATGAAACCTGACTATCTTTCAAAAAAAGTATTAACGGAAATGAACTATTTTCATCTAAAACTTCATATTCAAACACTGGCCTGCCTTCATTAAGTGATGTACTAACATCTGGATTAGTGTTTTTAAATGTCTGCCAAAACATATAATCTCCAACTTTCATATCTTGAGGAATTCCATCTTTATGTTTCATTATTGCTCCATATACAGACCACCAATAAAGTTTTTCATCTTTCAAATGATATTTTTCTCTTATTAACGAATCATATCCAGAAGCATCTACTAATAATTTAGATTCAAAATTTCCTTTAGTTGTATGTATAGTTACTGGATACTCTTTTTCTTTTTCTACTTGATGATCTAAATAATTACATTCCAACAATATCTCAGAACTGTTTTTTGTAATTATTTCACCCCAGTATTCCAGTACCTCATGTTCTTTTATATAAAGATATCCACCCTCTAATTCACTTTCCCATGCTTTATCTTTAACTCCTGTAAAAGTATCCGCCAAAAATCTTTTTACTCCAGGATAAGTATATTCTAAAATATCACCTGCTTCTCCAATATCACAAACTTCTTTTGGTACAAACCAAGACTTTGTAGTTTTTGAAATAGAAGATTTCCCATCAACCACCAATACTTTAAGCTCTTTAGATAATTCTGAGGCAACAGATAATCCTGCAGGACCTGCCCCCACTACTATTACATCATATTTTTTAATTTCTAACATAAATTTTTCACTCCCCTTTTATTTTAATTTTATACTTTTAATTTTAACACATAAATTTAGAATAATCAAAATTTCATTTTTTAATACAAAAGACGAACATTTTAGTTCGCCCCATAAATAAATTATATCAAAATTTCTTTTTCACTTCATCAATCTCCTATTCCCCTTTTATATATTGCATCTGTACATCATGCAGTGTTATTGCTCCTGCTGTCACAGCGACTATATTCTCTGAACCAGGAGAAGGTTGATACATTCCAGGAGACTTTACACTTATTTGACTTTTACCTTCTGGAATCCCATATAAAGTATATTTCCCATTAGTATCTGCTACTGTAAATTGATACTCCTTACTCCCCTCTTGGCCCCATACAACTAAAGAATGTCCACACAATTCTTTATTAAATCCACTTATTCCACCTTTAATCGTTCCATATTTTATTGTTGTATCTTCTCTTATTTCAACACTCACTTCTTTATTACTTGAAAGATTTATCCTTCCAGTAGAATATGCTGTATAGCCATCTTTAAAAGCATATATATTGATATTTCCACCTGGAATTTTATCAAATACAAAGACTCCATTTGAATCTGTAACTTTCTTAAAACTTTCTCCAGAAAAAACTCCATTTACAATTACAGTTACCCCTTCTAAAATTTTCCCTGTATTATCTCTAGCTACTCCATTTATAGAATAAATTTTATCAGAGGCCTTTGGTGTTAAATATCCTATTAAATTTTTCTGTCCATAACTAAATACAGATACTCCAGTTTCTCCATAATACCCATCTTTCTTCATACTATATCCATCTCCAGAGGCTTTTGGTATAATATAAGGTTGAGTCTCGCTATCTCTTACTAGCGGGAAATATCCATCATTGTCAGTTACAAACGTTACATCTTGAACTCTTATTGTTACTTGTCCTAAAGTTTGATTGGTTAATATATCTTTAACATATCCCTCTATTATTCCCACTTTTTTCACTTCTGGAAATCCGCCAAAACATCCTCCTAAAGTAATTGATAATATTATAACTAAAATTATTTTTTTTCCCATTTTACTCATTTATCACACCTCTTCTATTTATATATTTCCCTTCTATTATAATCGAATTTTAAAAAAAAAACTTGAGAGCAAATACTCTCAAGTTTTAAATTATTTAACTGTTATACCTATTGTTGCTGTTCCAATATTACCATTTACATCTGTAACTGTTAATGTAGCAGTATAACTTCCTGCAGTTGAATATGTATGTTCAGGACTTGCAGAACCATTTGGAGCCGTTCCATCTCCAAAATTCCATGAATATGATTTTATCATATAATTATCACTTGAACCACTTCCATCAAAAGCAATCCTACCGCCTACACTTATAGTGGTTATTCCATCTCTTACTCCTGCTATAGCCACTGGAGCTATTGTATCTTGTACTGTAATCAGTATCGTTGCAGTTGCAGGCCCATTGTTACTCATATCATTGACCTGTAATGTAACTTTATAAATTCCTGGTTTATCATATGAATGATGTATTATTCCGCCAGGTACAGATTCATCTACTCCATTAGCACTATCAAAATCCCATGAATAATATCTTATTTTATCATTATCAGTTGAACCAGTTCCATCAAATACTATATCTTCTCCAATTTCCACTGTAGTTTTAGAAGCTGAGATCACTGCTACTGGTGGCACAGTATCATCTACCGTTATGACATCTCCATATCTAGGGAGATTATCCGTCAAAACTTCTTTTGATATATCATCATATCCTGTTGCTTCTCCTGAAATTATTATATCTCCTAACAAATCTGTTCCATCACCAATATTTTCTCTTAATTTATAATATCCAGTTAAAGTCAATACACTTCCTTTTAACAAAATTGTATTATCTCTTATTGTCGTATCTGTTAAAGTCCATCTATCTGATACATCTACTCCGTTTTGTGTAAATACTGCTTTTATACTTGTTATTTTCACATCTTCATTCCCACTGTTTTCTAAATCAAATTTTATAGGTATTCCATCTCTTCCAGGTTTTACATTCTCCCAATCACAATAAACATTTTTAAGAGCCAAAGCTCCTGGCAATTTTATATCCACAGTATAATTTTTTTCTAAATCACAAATTGTAGCTTCATTTGTATTTTGATTTATAGGTGTTTCTACTACTTTAAATTTCACACTTCCTATTCTTGGAACTGTAGGTGCATTTAATTTCCAAATAGCTTTTTGTCCAACAGGAACAACTTTTTCAATTGTCTCTCCCGCAGCTAATTTCAAATCTGCAACACTTGATATATCTATTGCTACTTTTACATTCCCAGAAACTACATTACTATTTGCATTATTTGCTATTGCATACATAGAAAATTCTTTTCCTGTTCTTAATAATCCATCATTTCCACCATAATTATCTGTTTCTATACCAACTTCTAAGTTTAATTTTGATTTTTCCTGTACAGTTAATGGAATCACTTTTTCCGTACTAACAAAACTTATCTCTTGTTTTGTTTTGCTATCCACAGGCTTTTTAGTTATTTTTAATTTTATATTCCCAACTATTGGAATTTTACTAGCTTTCAATGTCCATGTCATTTGCTTGTTCATTGTTAATGTTGTTTTTGAAACCCCAGATAATAATGTTATTCCATCTAAATCAGACAAATCTAATTCTATTTCTCCTTGAGTAGAAAATGTTAATTCTCCATTATAATTTACAATTCCATATACTGTAAATTCTTGTTCTGTCTCAACTACTCCATCTTTTGCTCCCTCAGGAGAAGCAATCCATAAATTTAAACTTCCAGTCCCTTTAGCTAATACTTTCACTGTATCCAAAACTTCTGCTCCACTGTCGCTTATTTTCAGCCCAAAACTATTACTCAATATCGCATTTACAGTTGCGTCACAAAATACGTCTCCTGTTGTTGCTGTTGAAGCTAAATTATACCTTTTTGATATAGTTCCTAATCCCCCTGCTGGTATTGTAGTTAATCTATCTGAATCCCCTGTGGCTTGCCACTCTGACGACACATCTGTCCCATCTGGTTTATAAAATTTACCAACTAAAGATTTTATTGATACCTCTACACTAGTATAGTTTTGTACAGTATATCTAATTAATATGTTTGATTGTCCTGGTGCAACTGTTTCATAAACTGCATCTACACTTTTCAACTTAACTTTTGCTTTGCTAGAGTCCACTACTGTAAAAGCTGGACTTTGAACTCCTGTTGAAGCTCCATTTTCTCCTAAAAATTCTACTTTTGTATTTGCATACATTAATTTTGTATAAAAATTTCCTTCTATTGTTCCAGGTAATATTGTATAAGTTTCTGTAAAAGTTATTGTAGAGTTCGCTGCTATTTTATCTGGCATATCTGTATTTGTAATTGTAAAACTTTCGTTTTTATCATTTGTTGTTACATATCCAGGTGTTGTATTAAATACAGGTTTCGTTAATAAAGAATACTCTTTATCGCTTGAATTTGTTAAATTATATATAACTTTTATCGAATCTCCAATATTATAACTTGATTTATCTGTTTTCACATAATTTAATTTAACATCAATGTTTTGAGTTGTATTTGTAGTTGTAAATTGATAAATAGCACTAGAGTTTGATATTTTACCCGTTTTTTTATTATATGCACTTACAGAAAAAGTATACTTTACCCCCTCTTTTAAACTTGAATAATATAACTTTTTATTTGACACATACTCATCAGATTCCAATATATTTTCCGCTACGCTATTTCCTTCTCCCTGCAAGTCATAATGATATAAAAAATCATCTGAACTATATCCATCCTGTGAAGCTAAAAATTGAAATACTACAGATGTAGATGCCCCTGATATAGGTGGCTTACTTAATATTCTAATTATAAGATTACTGTCTTTTCCACCAGAACTAATCACATCTTTTGTTGTTATTTGACTCTGATCTGTATTTGTTGTAACAGTATTTAATTTATTACTACTATCGCTAGAAAAACATCCTCCAAAACTAAAAACTAATAAAAATAACAACACTCCTTTTTTCCACATAATAATCTCCCCCTAAAAATATAAAATCCATATCCAAAATATCCTTGTTTATGAACAGCTTAAAAATAACTTCCATATTTATTTTTTAAAAGTTCTTTAAACCATTTCTTATTATAAAATTCTAGAATACCATTCATTAAATATCCTTTATCTTTACTCCTAATTTATCGACATATTTTCTATTTTCTTAATTGAAAAATATAATAGTATCTACAAATTTTTTCAATTAATTTTAATATATTTATTTTGTTATGTACCTTACATAACATATTTACGATTATAACTCAAAAATGTAATTTTCTAAAACTATATTTTTATTCATCAGTATTAATCTATGTTTATCTCATGGTTTTAAAAAATTTTTTCTTTGTGTAACTTTGCGTTCTTCTTTCTTTGTGCTGAAATTATTTTTCTAACAAAAAATAAAAAAAACAGGAAAATTTCCTGTTTATAATTTAAATTTTAATTTATGGAGGCGACGAGCGGATTTGAACCGCTGAATAAGAGTTTTGCAGACTCCTGCCTTACCACTTGGCCACGTCGCCATAAAAGTGGTGCCCAGACGCGGAATCGAACCACGGACACGGGGATTTTCAGTCCCCTGCTCTACCGACTGAGCTATCTGGGCATAATCTAAAAAAAAAAAGCCAAAAGGCCTTGTGTATCAATGGCGGGGCCGACGAGGGTCGAACTCGCGACCTCTGGCGTGACAGGCCAGCGCTCTAACCAAACTGAGCTACGACCCCAAGGTATAAATGGTGGGAACAACAGGGCTCGAACCTGTGACCCCCTGCTTGTAAGGCAGGTGCTCTCCCAGCTGAGCTATGCTCCCTTTATCGCAAAATGATTATACTATATATCTTAATCTTTATCAATACAGCTTACACCTAGTTTTGACACTATACAAGAGATTATTTCTTTATACACTGTTTTTCGCTCTATTTCTTACGATACATATATTTACACATAGATAAAACTTTTGCTGCTTTTATCTATATTATCACTTTTATTAATAAAAAAAGAAGCTATCTTAAATATTATTTAAAATAGCTTCTTTTTATTTATTTTATTTTAATTTACTTTTTAAATCTTCATCCAAAATTTCAACTTTTACTTTTGGTCCTAATTCTTTTTTTAATTTAGATATTTTATCAGCAACTTTTTCATTTAAAAAATTATAAATAACTTCATCTTTTTTCTCCTCTAAAGTAGCTGCTTTAAATGGAGTATAACCTGTAAGATTTAATATATAATCCCCTTTATCTGTAGATATTACTTTAAAATCTCCTTTTTTCATTTTAAATAGTTCTTCAGTTAATTTTTTATCGTATCCTACACCAGCTATATATCCACCTTTTTCTATTGAATCTATCTCTTTTTTAGTAGAAGCTTCTGAGTATTTTTTCATAGCTTCATCTATTTTTATTTTTCCTGATTGTATATCTTTTAATATACCATTTGCTTTTTTAGTTAATTCTTCTTTTGTTTTAGCTCCTACATCTTCTTTTATTAAAATATGACTTGCTTTTACTTTTTTATCTTTTGTATTAATATCTTCTACTTTTATTATATGATACCCAAATTGTGTTTTTACTACTTCAGGATAAACTTTTCCTTTTTCTCCCTTAAATGCAGCATCTGCAAATTCTTTAACCATTTGTTTTTGCGTGAACCATCCAAGTTCCCCACCATTAGGTCCACTTGGTCCTTCAGAATATTTCTTAGCTAACTCTGAAAATTTTGTTTTTCCTGCTAAAGCTTCTTTTAATATTTTTTCTGCTTTTGCCTTTGCTGCTGCTTTATCTGCATCACTTGGTTTTAATTTTAATAATATAATATTTGCTTTTGCTGTTTCTTTTTGATCATATTTAGAATGATTTTTATTAAAATATTCTTTTAAATCCTTATCACTATATTTATAATTTTTTCTAATACTTTTTTTTAATTTTTCTCCCAAATCAGCTATTTGATCACTTACAACATAATTTTCATTAGTTTCTTCACCTGATTTTATTGCCTCTTGAGCTAAAGCTACATTTTCTTTTAAAGCTTCTAATGCTTTTTTATATGCATCTGCTTCATCTTTTGCTCCAAATAATCTTTTTGAAAATACTGTAGTTAAAAAATACATATTATCAATAGTATAATTTCCTGCTTTAATAACATCTTTATTCAAATATTTATTATAATATGCTTCCATTATTTCTATATTTGTGGCTTCTAATTTATCAGCTAACCATTTACTATAATATTTTTGAGATAGTGTGTCCTTTAACTCTTTTTCTATTCCCTTTTTTTCATCTGCATATTTTTTACCTTTATATCTCCCAAATTTATTATTTTCATAATATTCTTTCACTTTAGTTTCTGGAAGTTTATATTCAGCTTTTACAGCTTTTTTTACTTTATTTGCTAATGTTTCATCTTTTATATCTTTTTTCAAATCAGCAATAGTCAACCCTTGATATTTTAATATTGTTCTTAATTGTTTTTGACTTGTAATCCCAGAAGTAGCTTTGTTATAAGCTGCTCTAAATTCTTTTCCTGACAACTTTACTTTTAATTTTTTTGCAGATTCAATTAAAATTTCTTGTTCTATAATCCCATTAAAAGTCATAACTTTTACAATTTCAGGATCGACCTTATCTTTATAATACTGTCTATAACTATTTATACTATTTTCGAAAAGCCTTTCTACTTTTGTAACCTCAATTTTTTTCTTTCCAACTTTTACGGCAAATCTTTTGTTCACGCTACCTATTGTTCCTGCTGCTCCAATAAAAAATACTGATATAACAAATGCGATAGTAAGTACCCAAATTACTGGTTTTAATGTTTTTCTAAGTTTTCTTATCACTTTTTTGCCTCCTATTCTATTATTTTTGTACCATATTATAGCAATTCATGGGCTATTTTTCAACTAATATTTTTATTAATTTTTTTTAATTTAAATTTATTACAAATTTTTACTATAATCACTCTTTTATAATCACTTTAAAATTCCTCATAAAGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTAAAACAAAACGGGAATGTTATTTTTAAGCCATTCCTAAAGCACATTTAGGGAAAAGCCACGTGCTTTTCCCTAAATACAATCTTTTCTATCTATTTTTTCTTATTTTTTAACATTGCTCTTACTTTTAACGGCAATCCAAATAATCTTATAAATCCATTAGCATCTTTTTGATCATATAATTCTGTATCTGCAAATGATGCAATCTCCTCAGAATATAAAGAATAATCTGATTTTGTACCTGCCAATACTATATTTCCTTTATATAGTTTCAATTTTACTGTTCCAGTTACTGTTTCTTGAGTAACATTTACAAAAGCATCTAACGATTCTCTTAATGGAGTAAACCAAGTCCCATTATAAACTATTTCTGCATATTTTTTAGATATTAATTCTTTATAATGTAAAGTTTCTTTATCCAAACAAAGTCTTTCCAATTCATTATGTGCATAATAAAGAATTGTTCCACCTGGAGTTTCATATACTCCACGAGATTTCATTCCTACTAATCTGTTTTCCACCATATCTATTTGACCAATTGCATTTTCTCCACCTATTTTATTTAATTTATCCATTAATTCTACTGCACCTAATTTTTCTCCATCAATAGATACAGGCTCTCCTTTTTCAAATCCTATTTCTATATATGTAGGCTTATCTGGTGCTTCTTCTATTGTTTTTGATAACATAAATATATTATCTTTTGGTTCATTATAAGGATTTTCTAAATCTCCACCTTCATGAGATATATGCCATAAATTTCTATCTCTTGAATAAATTTTCTCTTTTGTTTGCTCCAATGGTATCTTTCTCTCTTTTGCATAATCAATAGCTGCTTCTCTTGATGTTAATGTCCATTTATCATCTTTCCAAGGAGCTATTATTTTTAATTCTGGATTTAATGCCATATATCCAAGCTCAAATCTAACTTGATCATTTCCTTTTCCAGTAGCTCCATGTGCTACTGCATCTGCTCCCTCTTTTAATGCTATTTCAACTTGTTTTTTAGCTATTAATGGTCTTGCAAATGAAGTTCCCAACAAATATTTCCCTTCATAAACTGCACCTGCTTTAAGTGTTGGCCATACATATTCTTTTAAGAATTCTTCTCTCAAATCCTCTATATAAATTTTAATTGCTCCTGTTTCTATTGCTTTTTCATTTAAATGGTCTAGCTCTTCGCCCTGCCCTAAGTCAGCAGCAAAAGCTATAACTTCACAACCATAATTTTCTTTTAACCACGGTATCATTACTGAGGTATCTAATCCTCCAGAATATGCAAGTACAACTTTTTTTATTTTTTTATCCATTTTTTACCCTCCAAATTTATTTTTGATAAATTTAAGCTCTAACACAACTCAAGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTATAACAAAATGGGAATGTTATTTTTAAGCCATTCCTAAAAGCCCTTCTTTTTCTTAATTTATCCCATTATCAAAGCCATTATTGCTTTTTGTGCATGAAGTCTGTTTTCTGCTTCATCAAAAACAACTGATTGTGCTCCTTCTAATACCTCATCAGTAATCTCTTCCCCTCTATGAGCTGGTAAACAATGCATAACTATAGCATTTTCTTTTGCCATTCCTAATACTTTTGAATTTATTTGATAATCTTTCAAATCTTCAAATCTTTTTTTCATCTCTTCTTCTTTTCCCATGCTAACCCATATATCAGTATATAAAGCATCAGAACCTTTCACAGCTTCCTCTATATTGTCAGTGATAACTATTTTAGCTCCTGATTTTTTAGCAAATTTATTTGCTGTTGCTAAAATTTCATCTGTTGGTTGATATCCTTTTGGACATGCCAAAGATATATCAATTCCCATAATACTACTTCCAATTAATAAAGAGTTTGCAACATTAGCAGCATCTCCTATATATGCTATTTTTAATCCTTCTAATTTATGAAATTTTTCTCTCATAGTTTGAAAATCTGCCATAATTTGGCAAGGATGAAATTCATCTGTAAGTGCATTTATCACTGGTACATCTGAATATTTAGCCATCTCTTCTACAATCTCTTGTCCATAAGTTCTTATCATTATTCCATCTACATATCTTGATAAAACTCTTGATGTATCTGCAATTGTTTCGCCTCTCCCTATTTGAATATCTCTAGAACTCAAATGAAGAGCTTCTCCACCTAATTGAGCCATTCCAACCTCAAATGATACTCTTGTTCTAGTAGATGATTTCTCAAATATCATTGCTAAAGTTTTTCCTTTTAACATCTCTTCTCTTATGCCTATTTTATGTCTCATTTTAATAAAATCTGCTGTATCTAAAATTTGAATTAATTCTTCCTTTGTAAAATCTTCTAATTTCAAAAAATGTCTTCCCTTTAAACTAACTGCCATATTGTATCACTCCTTATTTTTTAAACATTATTTATAAATGTCAACCATCCATATTTATCTTCTTCTCTTCCTTCTACTATATCAAAAAATCTTTTTTGAATTTTTTCTGTTATAGCTCCTCTTTCCCCTGTTCCAATCACTATTTTATCTACACTACTTACTGGTGTAACTTCTGCTGCTGTCCCAGTAAAGAATAGTTCATCTGCTATATATAGCATTTCCCTTGGTATCCCTTGTTCTCTTATTTCATACCCTAAATCATTTGCTATTTTAATAATAGAATCTCTAGTAATTCCAGGTAAAGCTGATCCATTCATAGCTGGAGTATAAATAATCCCATTTTTTATTACAAACAGATTTTCTCCGCTTCCTTCACTTACATATCCATTATAATCTAAAGCAATCCCTTCATCATATCCATCTTCTAAAGCTTCCATTTTTATCAATTGAGAACTTAAATAATTTCCACTTGCTTTTGCCATAGTTGGCATTGTATCTGGTGCAAGCCTTCTCCAAGAAGATATTTTAACTTTTACCCCTTTTTTCATTGCCTCTTCTCCAAGATATTTCCCCCATGTCCAAGCAGCAATCATTACATCAACAGGGCAAGTTTTAGGATTTACTCCTAATTGATTATATCCTCTATATACAAGTGGTCTTATATATGCTTCTTCTAAATTATTAATATTTAATGTATCCATCATTGCTTTATTAACTTCTTCTTTAGTAAATGGAACCTCTGTTCTATATATTTTAGCACTATCAAATAGCCTATCTGTATGTTCTTTCAACCTAAATATTGCACTTCCTTTAGGAGTTTTATAACACCTTATTCCTTCAAAAAAACCTGATCCATAATGCAAAACGTGTGAAAGTACATGTACTTTTGCCTCATCATGTTCTACAAATTTTCCATTCATCCAAATCTTACCACTATCTATCATCTTTATTATCCCCTTTCAAGAATTTGTACTACTATTATATCACACCATTTTTCTTTTTTCAATCTAAATATTTTTGCTTTTATATTGGCAAATACAATCTAAATTCAGTTCCTCTATTAACTTCTGATTCGACTTCTATATACCCATTATGACTTTCTATTATCTGCTTACAAATAGCTAATCCTAATCCAGTTCCTGTAGATTTTGTAGTATAAAAAGGCTCAAATATCTCTTTTATTATCTCTTTTGGAATCCCACTTCCATTATCTTCTATTTTTATTTCAATATAACTATCAATTTTCACAACTCTCACCTTAATCTTTTTATCATCTCTTTTCTTTAATGCTTCCATACTATTATTTATCAAATTAATCAAAACTTCCTTTATCTTTTCATTATCTAAAGATACTATCTTATTTTCCGCTAATTCATAACTTAATTCCACTATTCTTTCATCATATAAATAAACAATATCTTTCATAAATTCAAATAAATTAACCTCATTCTTTTCTATTTTAATACCCTTTGTATATTCCAATATTTCATTTGATAATTTTTTCAATCTATTCGTTTCCTCTTTTAATACTTCAGAATATTTTCGTAACTTTTCATCATTAATTATTTCTAATTTTTCTAATCTAAATTGCAAAAGCTGCAACATTCCGCTAATTGAATTTAAAGGATTTTTTATCTCATGTACTATTTTTGCAGCCATATTCCCAACTAATTCTAACCTAGTTTTTCTAAATTTATTTATAACCAACATTCTATTATGAATGACTAATCCCAATTGCATTCCTACTACTTTCAAAAAATTAACTTCATCTATTTCAAAAATCTTATTATTCTCTCTCTCGCTTAAATTTATAACACCAATAATATCATTTCCATGTTTTATGGGTATCGATGCAAATGAATTACTATTATAGCTCATTTTGTTTTTCATATTCAAATCCAATTCTATATCTTTTGCATAGATTATTTCTCCTTTTTCATATACTTTTCCTGCAATTCCTTCTCCAGGAATTATTCTTATTTTATTTTTTATATTTTCATCTATCCCCAAAGAGCCAGCTATAAATAATTTTCCATCATCGCCTAACAATAATATACTTCCTTTTTTAGATTTAAACAGTTCAGAAATAATAGAAATTACTTCATCAAATATATCTTTATACTCTTCACTTCCATTAACAATATAACTTATTTTAAATAACACTTCTTTTCTTACTAACTCATTTTCTATATATTCATATTTTTTTTCTAATCTATTTTCTAATTCTGAAATTTTTAGAGTTTTTGTATCTTTTTCTAAAAATTTTGAAGATAATTTTATAACTCTATTTTTTAATTTAAGATATATTTTTATAAGTAATATTATTATTATTAATTCTATAATCATAATTATTAACATTTATACGCCCCCATTTTTTTATAATATTCAATATTTAATTATACTCTATATTAATTCCAATTTCAAATAAAAAAATGATGTATCTTATTTTCTAAATAAATTTATAATTTCCTACTAAGGAACGTTTAAAAAATAAGTTTCTTCTATTTTGTTATAAAAACGCTTAAATTATTGCGTATTTTAAAACAAAATGGGGATGTTATTTTTAAGCCATTCCTAAATAAAAAAAGCTACTAACTTTTCAATTAGTAGCTTTTTTATATTATTCTTGTACCCAAACTGATGCAGAACCTCCATTTACTTTAAATTCTCCCCATCCATCTGAATTTGTATAAACTTTATCTGTCCTATTTCCTAAGTAATCATAAAATACTGCATTTGGTCTTCCTACGTCCATCCATTTACTTCCAGAACCGCCATCAGTTAATATAACTGCCATAGCTTTAGAATGTGTTGCATCTCCTAATCTTGTCCAACCTATTACATCCCAATTATCCAAATAATCTTTTTGCACTCCATAAGCATATAATTTTCTTGCTTTTATAATTTTACTCAAATTTGAAACAGGTGCCATATTTATATTATGCCCTTTATCAGTATAACTTGCTCCATATACATCTGGATAAAATACGCATGGATATCCTTCTTGTCTTAATAATATTATTGAATAAGCTAATGGTTTAAACCACCATTCCACAGGCGACTCTAAAGCTTGTAACGGTTGTGTATCGTGATTATCAACTATTGTCACTGCTTTGCTTGGATTATCTTTCATTAGAGTTCCATTTAAAATGTTTCTCATATCATAATTTCCATTTGATTTTGAAGCACTATAAAAATTCATATGTAACGGTGCATCAAATAATGATATAACCCCTGATGTTTTTGTAATATAATTTTCTAATTTACCTACATCATAGTTCCAATATTCTCCAACTGTGAATAATTCTTTTCCTGTTGCACTTCTTTCATAATTTACCCAATCTTTAAAAAAGCTAAATTTTATATGTTTTACTGCATCAAGTCTAAATCCATCAACTCCCGTTGTGTCTACATACCATTTTCCCCAATTTTTAAGTTCTTGAACCACTTCTGGATGATCCATATCCAGATCAGCATACATTAAATAATCATAATTTCCATTTTCTCCATCTACTTCCCAATCCCAGCCTTTTCCTGTTCCGTCAAATCTAAAAATAGCTTTTTCTTTTGCACTATCATCCCAATCCACTCCATCAAAGTGGTACCATCTCCATTTAAATGAAGAATATTTATTGTTTCTTCCAGGAAAATCAAATTTTGTCCATGCACTTATCATTCTAGTTCCTAATTCTAAATTTCTATTATTCCAATCCACTTTTGTTGCTTCTACTGTTTCTGTAGCATCTGCTCCTCCACGATGATTAAAAACTATATCTCCATAAACTTGCAATCCTGCACTATGAGCATTACTAATAGCATTTATATACTGATCTTTAGTCCCATATTTTGTTCTAATAGTTCCTTTTTGATTAAATTCTCCCAAGTCATACATATCATAAACCCCATACCCTACATCTGATGCTCCACCTGCTCCTTTATATGCTGGTGGAAGCCAAAGAGCTGTAATTCCCATCTTAGATAGATTAGAAGCCTCTGTTGAAACTTTATTCCATAAACTTCCATCTGCAGGATAATACCAATGAAAATATTGCATCATTGTTCCATTTATTGCAGTTGGTGTTGGCGCTGGTGCAGGTTCTGTAACTTCTGTAACTGAAATATTATGAGTGTCATCATAAAATGTAATTTTATATGTCTTATAATCAGTTACTTGATAATCTTGTGCTGGATAATTTTCACTCCAGTCTCCATAATGGTCAATTTTAAATCTTGCTGGTGAACTTTCCCCATTAAATGTCACCTCTGTTTGCCATGTGTTTGTTGAAATTTTGCTCATAGCTGTTGTTCCCCAACCATTTGCTGTACCTCTAAAATATGCTTGAGTCCATTCAGATCCACTTGCTATAAAAGTCATTAAAACCAATAAAATACCTACATAAATTTTCCTCATTTTTAATTTCCCCTTTCATTTTTTCATTCTCCCTAATATATTTATACCACCTTTTTTATGTTTTGTCAACAACTTTGGTTAATTTTTAATCTTTTTATGCTCTTTTTCTTCTCTGTGTCCTGTTTGCGGACGTAATTTTTTATTTTTATAAAAAAATAAGCTACACTTTATACTGTACCCTATAAGATGGACATTTAAAAAAAAGTTGCATCAGATATGGTATTTTTATATAATATCTATAATGTTAATTTAATAGATTGGAGGATTTCATGAGCAACAAAATATTCACAAAAAAAGAGATTGAAATTTTATCAAAAAATAAATATGTCAAAACTATAAGTTCTAAGGCAATCACATATACATCAGAATTCAGAAGAATTTTTATTGCAGAAAGTCAAGATAAAATTTTACCTAGAGCAATATTTGAAAAATATGGATTTGACGTACAAGTATTAGGGATGAAAAGGATTCGATCAGCAGCAGCAAGATGGAGACGTGCCTATAAAGAGCAAGGAGTATTAGGGTTAGATGATAGAAGAAAAGAGAACTCTGGACGACCTTTAGAAAGAGAGCTATCTTTAGAAGAGAAATATGAAAGGCTTCAAGTAAAAAATGATTATCTTCAAGCGGAGATTGATTTGCTAAAAAAGCTAGACGTGCGAGAAAGAGAGGTGAACGGTAAATTAATTGAATTATCGCCATCAGAAAAGTTTGTTATAATCAAAGATGTAATAGAAACAAGTGGTGTAAAAAATATTATAAAATATTTATGTGAAGTTGCAGAAATTTCTAGAACAAGTTATTATAACTATTTGTCTGAAACTTCCAAAACAAATAAAAGCAATCAAGAATTAGAAGATGAAAAAGCAAGAGATTTAATCATAAAAGCATATGAATTCAAAGGTAGGCAAAAGGGAGCTAGACAGATAAAAATGACTTTAGAAAATGAATTTGCTACAATTTTTAATCTGAAAAAAATCAGAAGAATTATGAAAAAATATAGTATTGTATGTACGATTAGAAAGGCAAATCCTTATAAGAGAATAGCAAAGGCTACAAAAGAGCATACAACTATTCCAAATAAATTGAATAGGGAATTTAAACAAGAAATACCAGGGAAAATATTATTAACAGATATAACATACCTATCATATGGTAATGGTCAACGTGCGTATTTATCAACTATTAAGGATAGTTCAACAGGAGAAATACCTGCATATGTATTATCTAAAAATATTAAGTTAGAAATTGCAACAGAAACAATAAGAACTCTTATGGAAAACAAAAGCTTTAAAATTCATAAGGATGCATTAATACATTCTGATCAAGGAGTCCATTATACAAGCCCAACATTTCAAAAATTAGTTAAAAATAGTGGCTTAGATCAGTCAATGTCAAGAAGAGGTAATTGCTGGGACAATGCTCCTCAAGAATCATTTTTTGGCCACTTTAAAGATGAAGCAAATATTAAAGAATGTAATACATTTGAAGAATTAATTAATGAGATTGATGATTATATGGATTATTATAATAATTATAGATGTCAGTGGGGATTAAAAAAGATGACTCCTATAAAATATAGAAATCATCTTTTAGAAAATAAATCAGCTTAACTACTTTTTTTTTAAATGTACTTGACAAAGGGTACAGATTACTTCATCTCGTAAAACATAAATATTTTTCTAAATTTTTGGGTTCTGAAAAATTTTGCTTTGAAAAATTGCATATTTCAAAAAAACGGCGTAGCTTATTTTCTGAATAAATTTACACTTTCCTATTAAATCAAAAACATAAAAAAAGGCGAACAAAATTATTCGCCTTTTTCTATATTTTTTTATTTAATTTATCTTACAAATAATGGAACTAATACTAATGATACTATTGACATTAATTTAATTAATATATTTAATGATGGTCCAGAAGTATCTTTAAATGGATCTCCTACTGTATCTCCAATAACTGCTGCTTTATGTCTATCAGAGCCTTTCCCATCACCTTTATATCCACCTTCTATTTGTTTCTTTGCATTATCCCATGCTCCACCTGCATTAGCCATCATAATAGCCATTAATACTCCTGTTACTAAAGATCCTGCAAGTAATCCTCCTAATGCTCTTACATCCCATAGTCCCATTAGTAAAGGAACAATTACTGCTAAAACTCCAGGAACTACCATTTCTCTCAATGCTGAACTAGTAGATATTTCTACACATTTTCTATGATCAGGTTTTCCAGTCCCTTCCATTATTCCAGGTATTTCTCTAAATTGTCTTCTTACTTCTTCAACCATTTCCATTGCTGCTTTTCCTACTGCAGTCATTGTAAGTGCTGAGAATAAGAATGTTAACATTCCACCTATAAATAATCCTGCTATTACTTTAGGATCAGTTACGTCTATTGCTAGTTTTTTTCCTGTTAAATGTTCTATTGAAGATTTGTATGCTACAAATAAAGATAACGCTGTAAGTGCTGCTGATCCAATTGCAAATCCTTTTCCTACTGCTGCTGTTGAATTTCCAACTGCATCTAATTCATCTGTAATTTCTCTTACTTCAGGTGGTAATGCTGACATTTCTGCTATTCCACCAGCATTATCTGCTACTGGTCCATAAGCATCAACTGCTACTACCATTCCTGTAGTTGCAAGCATACCTACTGCTGCTACTGCTATTCCATATAATCCTGCAAATTGGAAAGCTACTATTATTGCTACTGCTATTATTAATATTGGAGCTACTGTAGATTCCATACCTACTGCTAGTCCTTGAATTATTGTAGTTGCTCCTCCAGTTTGTGCTGCATCAGCTATTGAGTTAACTGGTTTTTTATCTTTTTCTGTATAGTATCCTGTTACAGATGCTATTCCTAATCCAGCCACAAGTCCTGCTACTATTGCATAAAATATTCCCATATCCATACCTAAATAATATATTACACCAAATGCTCCAATTATAGATAAAATTCCCGCAATTCTTGTACCATTTTCAAGTTTAGAATGTACTTGTTTTGGATCTGTTGTTTTTACTGTAAATGCTGCTATTATACTAGATATTATTCCAACTGCTGCTATTAATATTGGAGCTATCATATGAGCTTTACTCATTGTAGCACCTAAAGCCATAGTTGCAATTAATGAGTTTACATATGATTCAAATAGATCTGCTCCCATTCCTGCAACGTCTCCAACGTTATCTCCAACATTATCTGCTATTGTAGCTGGATTTCTTGGATCATCTTCTGGTATTCCTGCTTCAACTTTTCCAACTAAATCTGCCCCAACATCAGCTGCTTTTGTATAAATTCCTCCTCCAACTCTTGCAAATAAAGCTATTGAAGAAGCTCCCATTCCAAAACCAGTTATTATTGCCATATCCCATTTAAATACCAAAGTTAATATTGAAACTCCTAACATTCCAAGTCCTACTACTGCCATTCCCATTACTGCTCCACCTGCAAATGCTACATCTAATGCTTTAGCAAGTCCGCCATCTTTTGCTGCTACTGCTGTTCTTCCATTTGCTCTTGTAGCTATTCTCATTCCTATATTTCCTGCTACTGCAGAAGTTATTGCTCCCAATACAAATGTTAATGCTACCATTTTGTCTGGCATAAATATTCCCAAAAGAATTGCTACTCCTAATACAAACCAAACTAACATTTTGTATTCTGCCAAAAGAAAAGCCATTGCCCCTTCTCTTATAGCTTCTGTAATCTCTTCTACTTTAGGAATATTGATTTCAAATCTTCCTACTTTTGCTGAATAAAATGCCGCTGTAATTACTGCAAATACTCCTGCTAAAACACCAAAATAAACTAAACCTTCCACTCTGTTTCCTCCTTTAGATTTTAGAGTCCTCACAAAAAATATAGAGCTCTTGAAAGAACTATAATGCTTACTATCTTTGCACTATAACTTCGTCCAATTCCCCCTCTAAATCCCTCTCTGTTAAAAAAAGAATTTTGTTTTAACTCATCCCCTTATTAAGGAAAAGGTTTTGTGGAGGTGCATTTAATTTTTTCTGAGAATCCTCTTTTATTTTCTTTATAAGTTTAACATATTTACTGATTTTTTTGAATTATATTTTTTATTTTTTTATTATATTTATAATTATAGTAACTAATACAGTTAAAATTACAGTTGTTGTTAATGGTATATATATTTTTATTGCTTTTGTTTTTATCATTAAATCCCCAGGTAGTTTTCCTATAAATGGAACTTTATCAAACAAAAATAAAATTGCCCCTAACATAAATATAATTGTTCCTATCACAATTAAAACTTTTGCTATCCCTTCCATTATTATTCTACCTCCTCAAATTTATCAAAAGAGATAAACTCAATATTTTCTTCTTTTAATTTTAGTTCAAGGTAACTTGCTCTTTTAGCATAAACTTTATCTGCATATCTTGCAGTACATATATCGGTTATTCCATCTCCTACATAAACTATATAATCGTATTCTTTTTTATATTCATTTAATATATTAGTTTTACAAACTCCGCACTTACCACATTTTTCATTATAATATCTACTATTAATCTTAATTCTATTATTTTCTATAAAAGTCAAATCATTTCCATATATTTCTATATTATCTATTCCATAATTTCCAAGAATATTCTCTATATTATATATAAATCCACCACTTACAATTTTAACTTCCTTACCTTTTATAAATTCTTTAAATGTTTCATCTATTTCAATTTCTTTTAATAATTCTAAATATAATTTTTCTTCTGTTTTAAAAGTTGCTTCAAAAGATTTTAGCCAATCTTTAACTGTAAAATCTCCATTCATAATTTTTTCTGCCCATTCTTTATATTCCTTTGGATGAAATTTATTAGCAATATAATCCAAAGTATCCTGCTTTGTTATAGTCCCATCAAAATCAATCAAATAAATTTTTTTCATTTTTTCTCCTTAGAAATATAATTCTCAAAATTACTAGAATAACTTATATTCATATTTTTATCTACTATCATCGCTTCTAAATCTTTATTAAAATTTACTATTTTTAATATTTTTTCTTTTTTCAATGGAAATAATGCCGTAGAGTATAAATCTGCAATATAACTATTTTTAGCTAAAATAACTACCATTTTATTTTCTCTTGCAGGATAACCTGTAGTTGCATCTATTAAATGATGATATTTTTTACCATTTATTATTTTATATGTTTGATAATCTCCTGAAACCCCTATAGATACATTACTTACTTCTAAAATTTTTAATATTTTTTCTTTATTTTCGGGATTTTGAATTCCTATTTTCCATTTTTTATTATTTGGTTTTTCTCCTATTACTTCTATACTACTTATTGCACTTATAAATGCTGATTTTATTCCATTTTTCTTTAATATTTCTCTTGCTCTATAGATAGCGTATCCTTTCAAAAAAGAACCTGTATCTATTTCTTGATTTTTTCCTATTTTTACAAAATTATTATCTATTTTTATTTTTTTATAATCTACTAAATTTAATTTTTCTTTTAATTTCTTTTGATTTGGAAGTGCCTTTGCTTTCTCTTCTTTAAAATTCCATAATTTCATAATTGGTGCAATTGTAATATCATATTTCCCATTTGTTAATTCTGACATTTTTATAGCATCTTTTAACATCATTATCTCTTCATTAGAAACTTTTATATATTTTCCACTATTGTGATTTAAATTATAAAATTTACTTCCCTTTTTATAAGGATTATATTCATCTTGAACTCTTGTAATCTCATCAAAAGCTTTTTTTACTGAATTTTCTGCTAATGTTTTATTTTCAGAAAAAACTGTTATTTTTATAAATGTTCCAAATAAAAATTTTTCTTTTTCTATTTTTTTTATTGAATTACATCCAAACAAATTAAATAGAATAATTAAACTTATTAATATATTTTTCATTTTTTTCCTTCTTTATCTATATTTTATTTTATATTTTTAATATCTTTATTTTATTACCTCTTTAATTTTATTTTTTTCATCTACTATAACTGCTTTGGGTTTTAATTTTTTTGCATCTTCAGAACTAAAAATCCCATATGAAATTATTATTACAACATCTCCAGGATGTGCTAGCCTAGCTGCTGCACCATTCAGACATATTATGCCACTTCCTCTTTCTCCTGCAATTACATATGTTTCAAATCTAGCGCCATTATTATTATTTACTATTTGTACTTTTTCATTTGCATAAATATCTGCTGCATCTATTAAGTCTTCATCTATTGTAATACTTCCAACATAATTTAAATTTGCATCTGTAACTGTTGCTCTATGAATTTTAGCTTTATACATTGTTCTATACATATTACTCTCCTTATAGATTAATCTTATATTCTATAATTTTATCCAAAATTTTAAATGCAAGTTCATTTTTTTGCATTGTTTCCAACTCTATAATTTTATTTTCATCTAAAATTATATATGCTTTATTTTCATCACTAGAAAATCCAGATACATTATTTGCAATTATCATATCCAAATTTTTTCTTTTAAGCTTTCCTAAACTATTTTTTATTAAATTAGAACTTTCTGCTGCAAATCCTACTAAATATTGATTTTTTTTCATTTTTCCTAATTCAAATAAAATATCAGGATTTCTTGTTAATTTTAAAGTCAAATCATCATCTTGCTTTTTTATTTTTTCATTTGAATATTCTTTCACTTTATAATCTGCAACTGCTGCACTCATTATAACTAAATCCATATTATCATACTTTTTTAAAGTTTCTTCATACATCTCATTTGCAGTTTTTATATTAATAGTTTTTATACCATCTATCTTTTTTAAATTAGTAGGACCAGATATTAATGTTACATCTGCTCCATATAATTTAGCTGCTTTTGCTAAACTATACCCCATTTTTCCAGTTGATCTATTTGACATATATCTTATTGGATCAATTGCTTCTTCCGTTCTCCCTGCTGTAATTAAAACTTTTTTCCCTTTAAGAATATCCTTCTTATTAAAATAATTTTCTATTTTAATAACAATATCCTCTGGTTCAGCCATTCTTCCTTTTCCTATTGTTTTACAAGCTAGTTCTCCACTAGTTGCATCAATAAATTTATATCCATTATTTTTCAATTTAACTATATTTTCTTGTAAAATTGGATTTTCATACATATTTGTATTCATTGCTAGCGCAAAAAATTTATCTTTTTTAAAAGCTGATATTACAGTTGTCAACATATCATCTGCTATTCCATTTGCAATTTTCCCAATTATATTATAAGTAGCAGGAGCTACAACTATCAAATCTACTTTTTTAGCTAATTCAATATGCTCTACTTCTGTATAATCTATTTGCTTAAACATTTCAACATAAACTTTATTTCCAGTTAATGTTTCAAAAACAATAGGTGATATGATTTTAGTAGCATTTTCTGTCATAACAACATAAATATCATAACCTAATTTTTTTAGTTTAGAAGCTATTATAGCTGATTTATATGCTGCAATCCCTCCTGTAATCCCAAGAAGTATTTTCCTATTCTGCATCTTGTACTCCTATTTTTCCTTCTAATATTTCTAATAAAACATTTTTAATTGTGCTGTTATTTTTTTCATTTACTAATAATTTTTCTCCAGCTAATATTTCTCTAAATCTTTTCCCAGACACAATTGATAATATATATTTATTAGGTATTTCTTCCAATAAAGTATCGATACTTAGTTCTCTCATTTTTTTCAACCCCTTCCTATTAGATAAAAAAATAAACTATGATTCCTTTAGTAAATATGATAACTGCCTTAAACATTCCTAATGTCTATTTTTTCTATTCCTTAATTTCCTAATATTAGATCTCCTAATTTTTTTAATGCTTTTTCAAAATTATCATTTACAATTACATATTTATAATCCTTCTCATATTTAAGTTCTTCTAAACTATTTTTTAATCTTAAATTTATTACCTCTTCTGTATCAGTATCCCTCTTCTTTAATCTTTCTTTTAACTCTGTTTCAGAAGGTGCTTTTATAAATATTAATACTGCATCATCAAATTTTTCTTTTATTTGAATTCCACCTTGCACATCTATTTCAAGTAATAAATTTTTTCCAGCTTTAATTTTTTTTAAAACTTCATCTTTTAATGTCCCATAAAAATTCCCATGAACTAAAGCATATTCTAAAAAACCATCTTCTTCTATTTTTTGTTTAAAAGTTTTTTCATCTAAAAAATGATAATCTATATTATCTTTTTCTCCTTTTCTAGGTTTTCTAGTTGTCGCAGATATTGATAACTCTAAATTATCTAATTTTTTAACTACATCTTTAGTTAATGTAGATTTTCCAGCTCCACTTGGGCCAGATACTACAAATAATTTTCCCATCATTTTTTGTCATCCTTTTTTTCTATTCTAGAAGATATTGTTTCTGGATTAATTGCAGACAAGATTATATGTCCACTATCAACTATAATTAAAGCTCTTGTTTTTCTTCCAAAAGTAGCATCAACCAATCTATGCTGATTTTTTGCTTCTTCTTTCAATCTTTTACTTGGTGCTGATTCTGGACTAATTACCGCTATTATTCTTTCATCTACTACTATATTTCCAAATCCTATTCCAATAGGCCTCATTAACTTCCTCCTACTCAATATTCTGAACTTGTTCTCTTATTTTTTCAAGTTCAGCTTTACTTTCCACCACTAATTTTGATATATCATAATAATTTGATTTTACCCCTGCTGTGTTCAATTCTCTGAATATCTCCTGAATTAAAAAATCTAATTTTTTTCCATTACTATTCTTTTCTATTTCAACATTTAACTGTTCTAAATGACTATTTAATCTAGAAACCTCTTCTGATATATCACTTCTATCTGCAAATAATAAAATCTCTTTTAATATATCTTCTTCATTATATTTTATATCTGAATTTATTTTCTCTAATCTATCTAAAAGTCTTTTTTTATGTTCCTTTACCACTAATTCTTTATAATCATCTATTTTTATTACGCTTTTACTTAATATTTCTATTCTCTCAATTAAATATTCTTTTAATTTTTCTCCTTCAAATTCTCTCATCTCATTTAATTTTAACAATGCTTCTTCTAATCTTGGAATTATAAAATTTTCATATTCTTTTTCATCTATATTTAATTCTTTTTTCTTTATTATATTAGGATATTTTATTAATAGCTCTGCTTTATTTATGAACTTTTCTGAAAATTCTAATTCTATCTTTTCCAAAAGTTTCATATAACTTTTAGCTATATTTTCTTTATACTCAAAAAGTTCTTCTGATTCTCTCTTATCCTCAAAATCTATTCTTAATTCTACATAACCTCTTTTTATAAATTCTGAAACTTTTGTCCTAATTTTATTTTCTAAAAAATTCAATATATAATTTGATTTATATTTTAAATTTAAATATTTATTATTTACGCTTTTCAGTTCTATCTTAATTTTGAAATCTTCATTTTCAAAACTGACTTTTGAATATCCTGTCATACTTTTCATATAAAAAACCTCCAAAGAATGTTTAAAAAATAATGTTCTCATATTTGTTTGTAAAAATGCTTGAAACATTGCATATTTTATAAACAAATAGAAAGGTTATTTTTAAACCATTCCTAACTTTCATAAAAATTAAAATATGTATCCAAAGATAATAATGAAAATATTTTCATAACTATTTTTGGCGTATTTAAAAAATCAAATTCTACTTCCATTTTCTTTAAATCTGATTTTAATTTCACAAAATAACTTATTCCAATACTATCTATATAAGTTATATTTTGTAAATCAATTTGCAACTTTTTTATTTTTTTATCCTTTATTTTGTTGATAACTTCTGCAAAATTCTCTTGAAGCCTTTCTCTTACGTCTATTGATATTTCCCCTGATAATCCTACTATTATGATTTCATCTAATTCCTTTAAAATTTTAAAATCCATTTTTACACCTCACTTACCTTTTTAATTTGATTAGTTAATTTTTCACAACAATATTAAAAAGGATATTCCCAAAATTAATTTCTTAAATTCATCTTAAACTATGCTAAAAACATGATATATTTTTAGCATAGTTTTTAGGAACATCTTAAAAATAACATCTCTATTTTGTTTAAAACAGGCAACTATTTACTCATTTTTATAACCAAATATAAGAAACTTAGTTTTTAAATGTTCTTTAAAGATAAATATATTCAATTTATTTTCCTTAATATATAATAAACTTTATTCTTCTATTTCTTCAACTGTTTCTTCAACCATTTTTAATGGTTCTTTCTTTGCATATTTGAAAAATCCAGTTCCTGCAGGAATTCTTTTTCCAATTATTACATTTTCTTTTAATCCTTCTAATTTATCTACTTTTCCTTTTATTGCTGCATTTGCTAATACTTTTGTTGTTTCTTGGAATGAAGCTGCCGATATAAAGCTCTCTGTATTAACTGCTGCTTTTGTAATTCCTTGTATTACCGGAATATATTCTATTTTTCTTTTTCCTTCTGCTTCTAATCTCTCATTTTCTATATCTATTTTTCTTTTTTCTATCACTTCATCTTCTAAATACAAAGAATCACCTGATTTTTTTATTTTAACTTTTTTAAACATTTGTTTTACTATTATTTCTATATGTTTATCACTAATAGAAACCCCTTGTTCCCTATATACTTGTTGTACTGATTCAAGTAAATATTGTTCTGCCGCTACGACTCCTTTTATCGCTAAAATATCATGAGGAGAAATTACCCCTTCTGTTATTCTATCCCCAGCTACAATTTTCATTTTATCAGTAACTAATAAATGTTCTCCAAATGGTATCAAATATTCTTTAAATTTACTTTCATCTTCAATAGCTCTTACAATTACAACTCTCATCCCTTTTTTCATTTTTTCAACAAACTCTACTACACCTGATATTTCAGAAACTATTGCTCTTCCTTTTGGATTTCTTGCTTCAAATAGTTCTGTTACCCTTGGAAGACCTCCTGTAATATCCTTAGTTCCTTCTCCAACTTTTATTATTTTGGATAATATTTCACCTTTTCTTACTTTTTCATTTTCTTTTACCATTAGATATGCTCCATATGGAATAGTATATTCAGCTAATATTTTTTTCTCTTCTTCACTATATATTACTATTCTAGGATTTATATCTCCTTTTTCCATTGGTTTTACCGCTAATCTCTCTGTTACATTATATTTTTTATCTTTATTTTCTTTAATATATATCTCTTTATATTTTACTATACCATCTGCTTCTGATATTATAGGTACATGATATGGATCAAATTCTACTAATACTTGATCTCTTTTTACATCTTCTCCATCTTCAACTTTAAGTACACTTCCAGAAGGAACATCATATTCAACATTGTTAATTATTAATTTTGCATTTTGAGATACTATTACTTTATCAGTTTCTCCCTCTTTTATTATAAATCTTACATCTTGATATTTAACTGCCCCTTTTTCATCAGATTTTATATCTGTTTGGACATTTCCTTTTTCAGCTACTCCTCCTGTATGGAAAGTTCTCATTGTAAGCTGTGTCCCAGGTTCTCCAATTGATTGAGCTGCTATTACTCCTACAGCTTCTCCTAACATTATCTTTTTATGATTAGAAAGATCTAATCCATAACATTTTTCACATACACCTTTTTCCAAACTACATGTTAGAGGAGATCTTATTTCTACTTTTCTTATTTCTAATTCTGTTATTTTCTTAGCTAATTTTGGAGTAATTAAATCATTTTTTTTCAAAAATATTTCTCCATTATACATTAAATCAGATGCTAAATATCTTCCTTTAATTCTTTCTTCTAATTTTTCTATTACTTCTCCACCTACTACTAAATCACTAACTATAATTCCACCGTCAGTTCCACAATCTTCTGTATTAACAATAACTTCATGTGATACATCAACTAATCTTCTTGTCAAATATCCTGAATCTGCTGTTCTTAATGCTGTATCTGCAAGCCCTTTTCTAGCTCCATGTGAAGACATGAAAAATTCTAATATATTTAACCCTTCTCTAAAGTTTGCTTTTATTGGAATTTCTATAATTTTCCCTTGTGTATTGGCCATTAATCCTCTCATACCACCAAGTTGTCTCATTTGTCTTACATTACCTCTAGCTCCAGACATTGCCATCATATATACTGGATTAAAATCATCTAGATGTTCCATCATTTTATCTGTAATATCATTTACTGCTTTATCCCAAATATCAACTGTTATTCTATATCTTTCTTCATTAATAATTGTTCCTCTTCTATATTCTTGCTCTATCTCATGCACATCTATTTCTGCTTTATCTAATATCGCTTTCTTTTCTTCTGGTATTTCCAAATCTTCTATTCCAACAGTTATCCCACCTATAGCTGCATAATGATATCCAAAATTTTTCACTCTATCTATATAATCAGCTGTTTTAGAAAAACCATATTCATTATACATTTCATTCAATAACTCTTTTAACCCTTTTTTACCATATGTTTTATGATAATTTCTTATCTCCGCTGGCAATACTTCATTAAATAAAACTCTACCAACAGTTGTTGTTACCATTTTATTATCTATTCTAACATCTATTATTGCATGTACTTCTATATTTTTAGTTTCATAAGCTAATATAGCTTCTTTTTTATTTGCAAACTTTTTCCCTTCTCCTTTTGCTCCTTTTCTATCTTTAGTCATATAGTAACATCCCATTACCATATCTTGAGAAGGTACTGCTATAGGCTCTCCACTTGCTGGAGATATTAAGTTATTTGATGCAAGCATAAGAAGATTTGCTTCCATAATTGCTTCTGGCGAAAGAACCAAATGAACTGCCATTTGATCTCCATCAAAATCGGCATTAAAAGCACTACATACTAACGGATGTAATCTTATTGCTTTTCCTTCTATTAACACAGGTTCAAAAGCTTGAATACTTAATCTATGTAATGTTGGGGCTCTATTTAATAACACTGGATGATTTTTTATTACCTCTTCAACTATTCCCCATACTCTATCATCTTCATTTTCAACCATTCTTTTTGCTGTTTTTATATTTGTAGCAATTTTTCTTTTTACTAATTCTCTCATAATAAATGGTTTATACAATTCTAAAGCCATTTTTTTAGGAATACCACATTGATGCATTTTTAAATTTGGACCTACAACTATAACTGAACGTCCTGAATAATCTACCCGTTTTCCCAATAAGTTTTGTCTAAATCTTCCTTGTTTACCTTTTAAAGTATCACTAAGAGATTTCAATTCTCTATTGTTTTGTGTAACTACTGGTTTTCCTTTTCGACCATTATCAATTAAAGCATCTACAGCTTCTTGTAACATTCTTTTTTCGTTCTTAACTACAATTTCTGGAGCTCTAATTTCTAATAATTTTTTTAATCTATTATTTCTATTTATTACTCTTCTATATAAATCATTTAAATCAGAAGTAGCAAATCTTCCTCCATCCAATTGAACCATTGGTCTAAGATCTGCTGGTATAACAGGTACCGCATTTAATACCATCCATTCTGGTCTATTACCTGAATTGTTAAAATCTCTTACTATTTTTAATCTTTTTACAAGTTTTTTTCGTTTTTGAACACTATTAGTTTTTTCTAATTCTTCTGTTAATTCAACTTCTAATTTTTCTAAATTTATATTTTTTAATAAATTTAATATAGCTTCTGCTCCCATAGCAGCTTTAAATTTATTTCCATATTGACTTTTATATAATTTATATTCTCTTTCAGTTAAAATCTTCCCAGAAGCTAAATTAGTATCTCCGCCTTCGATTACTATATATCTTGAAAAATAAAGTACATGCTCTAATTCTTTAGGCGTTATTCCTAAAACAAGTCCCATTTTATTAGGCGTACCTTTAGAATACCATATATGAGCAACTGGAGTTGCTAATCCAATATGTCCCATTCTTTCTCTTCTTACTTTTGATTTTGTTACTTCCACTCCACATTTTTCGCAGACTAGACCTTTATATCTCATTCTTTTATATTTTCCACAAGCACATTCCCAATCTTTTACTGGGCCAAATATTTTTTCGCAAAACAATCCATCCATTTCAGGATTTAACGTTCTATAATTTATAGTTTCTGGTTTCGTTACCTCTCCATGTGACCACTCTCTTATTTTTTCCGGTGATGCAAGTCCAATCCTTATTTTATCAAAATCTTTTATTCTCATATAACAAAAGGCCTCCTTTTACTAATTTTAGGCTATCAAAGAATAGCTAAAAATAATATACTCAAATTTAGATATTATTTTTAAGCCATCCCTAAAGAACGTTTAAAAAATATTTTTCTTATATTTTGTTATAAAAATGGTTGAAATATCACATATTTTAAAACAAAATCTAAATGTTATTTTTAAGCCATTCCTAATTAAATTATTCTTCTTCGTTTTTCAAATCTGCCAAAGAAAATTCCATAATACTTTCATCTTTTATTGTATCTTCATCTAAAGGAATAACTTCTCCTTCAGTATCATATAACTGTACATCCAACCCTAAACTTTGGAACTCTTTTATTAACACTTTAAATGATTCTGGAATATCTGGATCAGGCATTGGTTCACCTTTTATGATTGCTTCATATGTTTTTGTCCTTCCATTTACATCATCTGATTTTACTGTTAACATTTCTTGAAGTATGTTAGAAGCTCCATATGCTTCTAATGCCCAAACTTCCATTTCTCCTAATCTTTGTCCACCAAATTGTGCTTTTCCTCCTAATGGTTGTTGGGTTACTAATGAATACGGTCCAATAGCTCTCGCATGCATTTTATCTTCTACCAAATGATGAAGTTTTAATACATACATATAACCTACTGTTACTGGATTATCAAATTTTTCTCCAGTTCTTCCATCAATAAGATCTACTTTTCCACTTCTGTCTATTCCTGCTTCAGTCAACCATTCTTTTATCTCTTCTTCAGTTGCTCCATCAAATACTGGAGTTGCTATATATTTCCCTAATCTTCCTGCTGCTAATCCTAAATGTGTTTCTAGTACTTGTCCTATATTCATACGACTTGGTACCCCTAGTGGATTTAAAACTACATCTACAGGTGTTCCATCTTCTAAAAACGGCATATCTTCTACTGGTAATATCCTTGATATAACCCCTTTATTTCCATGTCTTCCAGAAACCTTATCTCCAACTGTTATTTTTCTTTTTTCAGCTATATATATTCTAATTACTTTATTTACTCCTGCTGGTAATTCATCACCTTTATCTCTTGATAATTCTAATACTTCTACTATTGTACCCTTTGCTCCATGTGGTAATTTTAAAGATGTATCTCTAACATCTCTTGCTTTTTCTCCAAAAATAGCTCTCAATAATTTTTCTTCTGCAGCTGGTTCTGTTTCTCCTTTTGGAGTTGTTTTCCCTACTAATATATCTCCTGCTGTTACTTTTGCACCTACTCTTATAATTCCTCTTTCATCTAAATCTTTTAATGTTTCTTCTCCTACATTAGGAACTTCTCTAGTTATTTCTTCATCTCCAAGCTTTGTACTTCTTGCTTGAATTTCATATTCATCTATATGAATTGAAGTATATACATCTTCTTTTACTAAACGTTCGCTTATAAGTATCGCATCTTCGTAATTATACCCTTCCCAAGGCATAAATGCTATTAAAGCATTTCTTCCTAATGCTAAATCTCCACCAGCAGTAGCTGGCCCATCTGCTATTACAGCTCCTTTTTCAACTTTTTGTCCTAAATCTACTAATGGTTTTTGATGTAAACACATATCTTGATTTGATCTTTCAAAGTTTAAAAGTCTATATTTTTCTATTCTATTGTCATCAGTTTCTATTTCAATTCTTCTTGCATCTACATATCTTACTGTTCCTGCTGATTTTGTAATAGTTACAGCTCCAGAATCCACAGCAACTTTTCTTTCAATACCAGTTCCTATAAATGGAGCTTCTGTTCTAAGTAATGGAACTGCTTGTCTTTGCATATTTGATCCCATCAACGCTCTATTTGCATCATCATGTTCCAAGAATGGTATAAGTGCTGCTGATACTGATACCAACTGTTTAGGTGATACATCTAAATAATTAACTTTTTCTTTCTCTATATAAACAATTTCTTCTTCTATTCTACATACAACTTCATCAGATAAAATTTCTCCATTTTCATCAAATTTTGTATCTGCCTGTGCGATGAACATTCCCTCTTCTTCATCTGCAGCTAAATACTCTATTTTATCTAATAAAGCTTTTCCATTTTCTACTTTTATAAATGGAGTCTCCAAAAATCCATATTTATTAACTTTTGCATATGTAGATAAAGAAGCTATCAATCCAATATTTGGTCCTTCTGGTGTTTCTATTGGACAAATTCTTCCATAATGAGAATCATGTACATCTCTTACTTCAAATCCAGCTCTTTCTCTTGAAAGTCCTCCAGGTCCTAACGCACTAATTCTTCTTTTATTAGTTAATTCTGCTAATGGATTACTTTGATCCATAAATTGAGATAGTTGTCCACTCCCAAAGAAATCTAAAATCATTGCATTTAATGGTCTTGTATTAAGTAATGATTGTGGTGTTAATGCCCCAATATCTTGAATGGTCATTTTTTCTTTTACCATTTTTTCCATTTTAACAAGTCCACTTTTAATTTGCATTGCTAATAATTCTCCAACGCCTCTTACTCTTCTGTTAGATAAATTATCTATATCATCTGTATGCCCAATTCCGTTATATAAATTTAATATATAATTTATTACAGCAATAAAATCCTCTTTTGTTAATTGAGTATAATCTTCTGGCAAATTTACCTTTAATCTTTTGTTTATTTTAAATCTACCAACTTCTGCCAAATCATATCTTTGTCCATTAAAAAACATTTGTTTAATTAAATTTTTAGAACTATCTAACGTAACTAAATCTCCAGGTCTCAATTTTTTAAAAACTGTAACTGCAGCTTCATCTATATTTACAGTTTGATCTTCTGCTAAAGAATTTGCAAGTGGTTTTTTTTCTGGTTTAACTTCCCAGTATATTATTTCTCCAACTTCCAATTCTATCATTTGAGAAATTTTTTCTTCATCAATTATATCTTTTGATTCTAAAAGTATTTCTCCTGTTTCCTCATCTATAACATCTTCTTTTATAAAGCTTCCCTCTATTTCTGTTCTTAACGCTTCTAAAGATTCTTCTGGTGTTGAAAACTCTTTTAAAAATTCGTTAATATTTAAAGTTTTGCTCTCAAGAAATGTATCCATAATTTCTTCATTGCTTTCAAAAAATCCTATTGCTTTCAAAAATGTTGTTAATAAAACTTTTTTCTTTCTATCTATTTTTACATTAAAAAAGTCATTTTTATCTGTTTCAAATTCCAGCCATGTTCCTTTATAAGGAATAATTTTCCCCACAAAAACTTCTTTTCCTGTTTGAGGATGTGCACTTTTATTAAATGATATTCCAGGTGATCTATGCAATTGAGAAACTACAACTCTTTCTGCTCCATTTATGATAAAAGTAGCTTTATCAGTCATTAGAGGAATTTCTCCAAAATATACTAAAGATTCTTGAATTTCATCTGTTTTTTTATTGATTAATCTTAAGTTCACTTTTAATGAACCTGAGTAAGTTTTCCCTCTCTTTTTACATTCTAATTCATCATTTAAAGGAAACTCATTTTCAAATATATCATACCATAAATATTCTAGTCGAATATCGCCATTAGAAGATTCTATAGGAAAAGTTTCTTTAAAAGATCTTTCTAATCCTTTAACTTCCCTATTTGTTGCCGCTTTTTTAGATTGTAAAAATTCATCATAAGAATTCAATTGAAATTCTAAAAAATGTGGCATTACTCCTCTTTCTTTAATTTTTCCAAAATCAAACCTTTTTATAAGTCTTTCCACTCGCTTCACCCCTCACAATTGATAAAATGGTTAAAAATTAATACTTTGTGGTAATACAAAGCTCAAAATACTAATTTTTAACCACTTTCTTTAAAAAAAGAGTAAAAAGACACTCCTTAAAAGAGTGCCTCTTTATTTAAATTTTCTTACTTAACTTCTACTTCAGCTCCAGCTTCTTCTAATTGTTTTTTAATATCTTCTGATTCATCTTTAGATACTGCTTCTTTTAATGTAGCAGGTGCTCCATCAACTAATGCTTTTGCATCTTTTAATCCTAATCCTGTAATTGCTCTTACTGCTTTTATTACGTTTATTTTTTTAGCTCCTGCTGATTTTAAGATTACATCAAATTCTGTTTTTTCTTCAACTGCTGCCCCTGCAACTGCTCCTGCTGCTGCAACTGGTGCTGCTGCTGATACTCCAAATTCATCCTCGATTAATTTTACTAATTCAGCCAATTCTAATACTGTCATTGACTTCAAATCTTCTATAAACTGTTCTTTATTGAATGCCATTTTATTCCTCCTATATTATTTTATTTTATTATTCTGCTTGTTCCTCTTGTCCTTCTTTTGATTCTTTAACTGCATTTACTGCATATGCAACTTTTGTAATAATAGACATTAAGCTTCCTGCCACTTGACCAAGCAATCCTTCTCTTGATGGAAGTTTAGCAAGAGCTTCTATTTCTGCTAATTCTACTCTTTTTCCTTCTATATACCCAGCTTTAATATTAAATATATCTTTTCCTTTACCAAATTCATATGCAATTTTAGCAGGTGCAACCACATCCCCATAACTAAACGCAAAAGCTGTAGTTCCTTCTAAAACATCATCAAAACTATCTTCTACTCCAGCTTCTTGCAATGCTATTTTAAACAATCTATTTTTAGCTACTATATATTCTACTTCAGCTTCTCTAAAGTTTTTTCTAACTTCTGTATCTTCCGAAACTTTAATACCTTTATAGTCAACTAATACTATAGCATTTGCTTTTTTTATTTTTTCCAATAATCCTTTTACCGCTTCTACTTTCTTTTGATTTGCCACTGTTTCACCTCCCTAATTTTTCCTTATAGAATATTTAAAAAATAATATTTTTATATTTTATAATATAATGTTTAATAATATCCAACATATTAAAAAATATAAATACTATTTTTATATACTTCTATATAAAAAACCTTCGCAAAGACACGAAGGTTAATCAAAGTTCCTACCCTGAATACCTCGGCAGGAAATTAAGCAATGCACCTGCTGTCTTTGGTTATAGAACGGTTTAAAAATAGAATATTCCCAAACCATTCTTATATATATTTTTTATATTTAAGCTTCTACAAATTTAGTTACTAATATAGGATCTATCTTTATTCCAGGTCCCATTGTTAATGATACTGCTACAGTCCTTAAATATTGTCCCTTTGAAGATGCAGGTTTCATTTTTACTATTGTATCCATAAAAGTCTTAAAATTTTCTACTACTTTATCTTCTGCAAAATCAGCTTTCCCAATTGGAACATGAATTGAACCAAATTTATCAACTTTAAACGCTAATTTTCCTTTTTTAAATTCTGAAACAGCATTAGCTATATCTGTTGTTACTGTTCCTGATTTTGGATTTGGCATTAGCCCTTTTGGTCCTAAGACTCTTCCCAATCTACCTAATTTAGGCATCATATCAGGAGTTGCAATTATCAAATCAAAATCCAACCAACCTTGTTGTAACTTTTCTACATATTCGTCCGATCCAACGTAATCAGCACCAGCTTCTTTCGCTTTGTCCACATTATCTCCTTGAGTTAATGCTAGTATTTTTATTGTCTTTCCTGTTCCATTTGGTAAAACAACAGTTCCTCTAACTTGTTGCTCTGCATGTCTAGGATCTACTCCCAAACGTAATGCAACCTCTATAGTTTCTACAAATTTTGCACTTTTTGTATCTAATACTAATTTCAATCCCTCTTCAGGGCTATATAGTTTACTTTTATCTACTTTTTTCGATACTTCTACAAATCTTTTTCCAGCTTTTGCCATTTCTAACTCCCTTCTGTGGTTACGCGGATTATCCTACCACTAATTTCTTAATTAATCTTCTATTTCTATTCCCATACTTCTTGCAGAACCAGATATAATACTAATAGCTGCTTCCATTGTACCTGCATTCAAGTCAGGCATTTTAGTTTCTGCAATTTCTTGAACTTTAGCTCTTGATATTTTAGCCACTTTTTCTGTTAATGAATTTGCAGAACCTTTTTTTATTCCAGCTGCTTTTTTTAATAAATCTGATGCAGGTGGAGTTTTTAATATAAAGCTAAAACTTCTATCTTTATATACAGATATTTCTACAGGAATTATAAATCCTGCTTTATCTTGTGTTTTTGCATTAAAAGCTTTACAAAATTCCATAATATTCACACCATGTTGTCCCAATGCTGGTCCTACTGGTGGAGCTGGATTCGCTTTTCCTGCAGATAATTGTAATTTTATTTTCCCTATAACTTCTTTTGCCATTTAATTATTTACACCTCCTAAAAATTGTGGTTATAGATTTCTCTCCCACTTTGATACATAATTTAACTTTTTAAATTTGTATCAAAAACAAAGATAAATATATTTATCTTTATTTTTGATACAAATAAAATTCAGTTGATATTTCCCATCATTCTTTTAATTAAAGCTTATCAACACCTTCAAAACCAACTTCTGTTGGAGTCATTCTTCCAAAAATATCTATCATAACTTTAACTTTTTTATGTTCATAATCTATACTTGCAACCTCTCCAATACTATTCTCAAAAGGTCCTTCGATTATTTTTACTTTTTCATTTACTTTATAAGGTAACTCTATTACAGTCCCTTTGTTTTTATCTGATTTTTCTATTATTCCAATTTTTCTTAATAAATGTACAGCTTCTTCATCTTCTAAAGGTATCGGTTCTGCTCCAATCCCAACAAATCCAGTTACTCCAGCTGTATTCCTTATTACATACCAAACATCACTATCAACTTTATGTCCTATTCCTTCTAAAGTCTCTTCTTTTTTAACAAGCATTTCAACCATTACATAACCAGGAAATAATTTTCTAGCAACTTTTTTCTTTTTCCCTCTTACCATCTCTATTTTTTCTTCTTCTGGCACTATTATTCTAAACACTTTATCTGTAAAGTTAAGACTTTCTACTCTTTTTTCTAAGTCAGTTTTTACTTTTTTTTCATAACCAGAATAAGTATGAATTATATACCATTTTTTTACAAAATTTTGACTCTCCGCCATTATTTCCTCCACCTCTATCTAATAAAAAAGTTTAACAACTTAGAAAAAAACACATCAAACACGCCTAAATATAAAGAAGTAGCTACACCTAAAGCAATAACTAAAGCTGTCGCATTTTTAGCTTCTGTTACAGTTGGCCATGAAACTTTTGAAAATTCCCCTTTTACCTCTGTTAAAAATTTTTTCACTTCAATATCACCCCATTTGAATATAATAAAAATGGCAGGTCCAGAGGGAATCGAACCCCCAACCCTCGGTTTTGGAGACCGATGCTCTACCAATTGAGCCATGGACCTGCATTTTATATGTTATTTTGTTTCTTTGTGAACTGTTGTTGTTTTACAAAATTTACAATACTTTTTCAACTCAAGTCTCCCAGTTGTATTCTTTTTATTTTTTTCTGTACTATAGTTTCTTCTTTTACACTCAGTACATTCTAATTGTATATTTACTCTCACTTATGACACCTCCATAATATAAATCGGAACTAAATTTTATCATATTTTTTTTTAAAAGTCAATAATATATTTTAAGGTAATAAAAAAATCACCTTAAAATATATTATAAAAAAAAGGGGGGTAGTCTATTTAAATTACTTCATAGCTATCTGCTAATAACAAACACCTAAAAAATAAATTAAAGCTTGGCAGGGACCTATCCTCCCAGACCGCTACCAGTCAAGTACTTTCGGCGCATAAAGGCTTAACTACCAGGTTCGAAATGTAAACTGGGTGTACCCCTTTAGCTATACCCACCAAGCTAAATAATAATTGGTTTATGAACGTTTAAAAATAAAGTTACCTTACTCTTTAAACAATTCTTTAATATTCTTTTTTTAAAAAGAGATTCAAAATTGTATAGTAATATTACAAGCAGTTTTAATCAAAGAAACTATTTAAAGGTTAAGACCTCGGCTGATTAGTATTAGTCAGCTAAATGTATCACTACACTTACACCCCTAACCTATCGACCTCCTAGTCTCGAAGGTGCCTTACTAGCATACGCTATAGGAATACTTATCTTAAAGGGGGCTTCACGCTTAGATGCTTTCAGCGTTTATCCTGTCCAAACGTAACTACCCAGCTATGCTACTGGCGTAACAACTGGTACATCAGCGGTTTGTCCATCCCGGTCCTCTCGTACTAAGGACAGCTCTCTTCAATATTCCTGCGCCCGCAGCGGATAGGGACCAAACTGTCTCACGACGTTTTGAACCCAGCTCACGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGGACCTTCTCCAGCCCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACTCTGCCGTCGATATGGACTCTCGGGCAGAATTAGCCTGTTATCCCCAGGGTAGCTTTTATCCGTTGAGCGATGGCCTTTCCATTCAGAACCACCGGATCACTAAGCCCGTCTTTCGACCCTGCTCGACATGTCTGTCTCACAGTCAAGCTCCCTTATGCCTTTACACTCTTTGGCTGCTTTCCATACAGCCTGAGGGAACCTTTGGGCGCCTCCGTTACCTTTTAGGAGGCGACCGCCCCAGTCAAACTACCCACCTAGCACTGTCTCCATCGTTACACACGACAGATTAGAATCTCAATATCACATGGTTGGTATTCCAACAACGACTCATATACAACTGACGTCATATAATCAATGTCTCCCAACTATCCTATACATATAATACCAAAACCCAATACCAAGCTATAGTAAAGCTCCATGGGGTCTTTCCGTCCTGCTGCGGGTAACCGGTATCTTCACCGGTAATACAACTTCACCAGGCCCACCGTCAAGACAGCGTCCGGATCATTACACCTTTCGTGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTCACCGGGGCTTCAATTCGGAGCTCTCACTCCTCCTCTTAACCTTCCGGCACTGGGCAGGTGTCAGCCCATATACGTCGCCTTCCAGCTTAGCATAGACCTGTGTTTTTGGTAAACAGTTGCCCGGACCTTTTCACTGCGGCCTATTTCTGCTCCATCCGCTTAGAATTTCACATACTTTAGGCACCCCTTCTCCCGAAGTTACGGGGCCATTTTGCAGAGTTCCTTAACGATGGTTCGCCTGCGCGCCTTGGGTTTCTCACCCCGCTCACCTGTGTCGGTTTGCAGTACGGGCGCTAACAACTAGTTTAGAAGCTTTTCTCGACAGCATGGGATTTAATACTTCGTTCCTAATGGAACTCCTCATCACACCTCAGATCTATCCATACGGATTTTCCTATACAGACATCCTACATGCTTATACTTACTATTCCGTCAGTAAGCTATTATACCCTTCTGTGTCCCTCCATCACTATCAGTTATTAGCGGTACAGGAATATTAACCTGTTTTCCTTTCGCCTACGCTTCTTAGCCTCAACTTAGGACCCGACTTACCCAGGGAGGACGAGCCTTCCCCTGGAAACCTTGAGCTTTCGGCGGGTAGGATTCTCACCTACCTTCTCGCTACTCATTCCTGCATTCTCACTTCTGATACCTCCAGAAAACCTTATCAGTTCTCCTTCGCCGGCCTACAGAACGCTCTCCTACCAACATACTTACGCATGTTCCACAGCTTCGGTGAATATCTTAGCCCCGTTACATTGTCGGCGCATCGACTCTCGACCAGTGAGCTATTACGCACTCTTTAAAGGAATGGCTGCTTCTGAGCCAACCTCCTGGTTGTTTCTGAATCGACACATCCTTTCCCACTTAGATATTACTTTGGGACCTTAGCTGGTGGTCTGGGCTGTTTCCCTCTCGACTATGAATCTTATTACCCATAGTCTCACTCCTAATCTATCATCTACGGCATTCGGAGTTTGAATGTGTTCAGTAAGCTATACGCCCCCTACGACAATCAGTGCTCTACCTCCGCAGATTACTAATTAAGGCTGCACCTAAATGCATTTCGGAGAGAACGAGCTATCTCTTGGTTCGATTGGCTTTTCACCCCTATACCTACCTCATCCCCCGGCTTTTCAACGACGGTGGGTTCGGTCCTCCACTGTGTCTTACCACAGCTTCAACCTGGACAGGCATAGATCACCAAGTTTCGCGTCTACCGCTAGCGACTCGTCGCCCTATTCAGACTCGGTTTCCCTTCGGCTCCGTTTCCTTAACCTCGCCACTAACGGTAACTCGCAGGATCATTCTCCAAAAGGCACGCCGTCACATTCCTAAAAATGCTCCGACCGCTTGTAAGCACACGGTTTCAGGTTCTATTTCACTCCCTTAACAAGGGTCCTTTTCACCTTTCCCTCACGGTACTATTCACTATCGGTTAATAAGAGTATTTAGCCTTACGTGATCTGGTCCACGCTGATTCACACCAAATTTCTCGTGTTCGGTGCTACTTGGGTGCCGATTCTTTACTTATGCATACAGTTCATCTACTGGACTCTCACCATCTTCGGTTAGCTTTCCCAAACTATTCGACTTTATACACATCCATAAATAGATACCTTGCAGTTCTCTCGGATTCGGTCCCGCTACCCCAATACAGCAACGGCTGCATCCTTTAACACTATATTGGTTTAGGCTCTTTCCCGTTCGCTCGCCGCTACTTAGGAAATCGTTTTTACTTTCTTTTCCTCGGGTTACTTAGATGTTTCAGTTCACCCACTTACCTCTTTCGTATACATCCTTCAAATGTATAGGTTTGCCCATTCGGATATATAGGGATCAACGCTCGTTTGCAGCTCCTCCTACCTTTTCGCAGCTTACCACGTCCTTCTTCGGCTCTTATTACCTAGGCATCCACCGTGTGCCCTTAATATCTTAACCTTATTTTTCTTCTTTTCTTCTGCTTATTATTACTACTATACAATTCCCAATGTCCTTTTATTTCTAAAAGACTTGCTTAATAGAGAGAAGCTATTATACTCCTTAGAAAGGAGGTGATCCAGCCACACCTTCCGGTACGGCTACCTTGTTACGACTTCACCCCAATCGCTCACCACACCTTAGGAACCTCCCTCCCTTACGGGTTAGGCCAGCTACTTCAGGTGCAACAAACTCTCGTGGTGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCGACATTGCTGATTCGCGATTACTAGTGATTCCAACTTCATGCAGTCGAGTTGCAGACTGCAATCCGAACTACGAAATGCTTTCTGAGTTTCGCTTCAGGTCGCCCTTTCGCTGCCCTCTGTACATCCCATTGTAGCACGTGTGTAGCCCAGGTCATAAGGGGCATGATGACTTGACGTCATCCCCACCTTCCTCCTACTCGTCGTAGGCTGTCTTGCTAGAGTCCCCAACTTAATGATGGTAACTAACAATAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACAGCCATGCACCACCTGTCTATGAGTTCCTCAAAGAGGCACTTCCATATCTCTACAGAATTCTCACGATGTCAAGACCTGGTAAGGTTCCTCGCGTTGCGTCGAATTAAACCACATGCTCCACCACTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCATTCTTGCGAACGTACTCCCCAGGCGGGATACTTATCGCGTTAGCTTCGGCACAGAGGTTCGACCCCCCACACCCAGTATCCATCGTTTACAGCTAGGACTACCAGGGTATCTAATCCTGTTTGCTCCCCTAGCTTTCGCACTTCAGCGTCAGTATCGGTCCAGAGAGCTACCTTCGTCATCGGCATTCCTACAAATATCTACGCATTCCACCGCTACACTTGTAGTTCCGCCCTCCTCTCCCGTACTCTAGCTTATTAGTTTCAAAGGCAAGGACATGGTTGAGCCATGAATTTTCACCTCTGACTTTATAGGCCGCCTAGATGCCCTTTACGCCCAGTGATTCCGGATAACGCTTGCCACTTACGTCTTACCGCGGCTGCTGGCACGTAATTAGCCGTGGCTTCTTCTGCAGGTACCGTCACTTGCTTCTTCCCTGCTGAAAGAACTTTACAACCCGAAGGCCTTCATCATTCACGCGGAATTGCTGGATCAGGCTCTCGCCCATTGTCCAATATTCCCCACTGCTGCCTCCCGTAGGAGTAAGGACCGTGTCTCAGTTCCCTTGTGGCCGTTCACCCTCTCAGGCCGGCTACCTATCGTCGCCTTGGTGAGCCATTACCTCACCAACTAGCTAATAGGACGCGAACCCCTCCATTAGCGCATATAGCATTTACTTATCAATAGATGCCTATCAATAAGATTATGCGGTTTTAGCTCCCGTTTCCAGAAGTTATCCCCCTCTAATGGGCAGGTTATTCACGCGTTACTCACCCGTCCGCCACCTTACTCAGCTCCGAAGAGCCTTTGTGGTAGACTTGCATGTGTTAAGCATTCCGCCAGCGTTCATCCTGAGCCAGGATCAAACTCTTCAATCTATATTTTTTTACACCTTTTTGTCTTTTTCTTGGTTTGCTTTACTTCTCTCTATTAAGTTTTCAATGTCCTTTGCCCTCTCTCGAGGACGAGATTAATATTACCACACTTATCTCATTTTGTCAAATACTTTTTTTGCATTTTTTTATATTTTTACATAACATCCTTTGAAACCTTTTAAAATCAACGGATTATTCAACTTTATTTTTTCGATATATTTGATTTCTTCAATAAATATATTTTATTTTTTATTAAAATAAATATGCTTTTTTTACTTTTTTATCCCAAACACTACTTTTACACTTAAAAAATAAAAATAATAAAAACATTATAAACATTAATACTTTTTTATTTTTTTATACAAAAGTCTTCTATACACTAATGTATAGAAGACCTAAAATCAAATCTCTTTTCTAATTTCTTTTACAGATGCAACCATATTTTTTAGACTTTTTATAGCTTCTGATTCTGCTCTAGTTTTTAGTCCACAATCTGGATTTATCCACAATTTGTTAAGATCATTCTTTTCTATAATCTTTTTTATAACAATCTTAAATTCATCTATCCCAGGTACTCTTGGAGAATGAATGTCATATACGCCAGGCCCTATCTCTTTATCATAATTATTTTCTGCCAACACATCTAACATTGATAAATCAGATTTTGCAGCTTCTATAGTAATTACATCTGCATCCATAGATTTTATTTCAGATATTATATCTTCAAATTCACTATAACACATATGCGTATGAATTTGCGTTTTTAAATCAACTTTAAAATTAGTAACTTTGAAAGCTTTTATAGCCCAATCTAAATATTTTTCTTTCCAATCCTTCTTTCTAATTGGTAATTTTTCTCTTAGTGCAGCTTCATCTATTTGAATGATTTTTATGCCTGCTCTTTCTAAGTCTAAAACCTCTTCTTGGATAGCTAATCCTATTTGATACGCTATCTCTTCTAATGGTAAATCCTCTCTTGGAAACGACCAATTTAATATTGTTATAGGACCAGTAAGCATTCCTTTCAAAGGTTTTTTAGTTAAACTTTGAGCATAGCTTATCCAATCTACTGTAAACGCTTTTTTCCTTTTTATATCCCCAAAAATTATTGGTGGTTTTACCCCTCTTGTTCCATACGACTGAACCCATCCATTTTCCGTTATTAAAAAACCTTCTAAATATTCTCCAAAATACTCAACCATATCAGTTCTCTCAAATTCTCCATGAACCAATACATCTAAATCAATTTCTTCTTGTATTTGTATTACATTTTTGATTTTTTCTTTTATATACATTTCATATTCTTTGGAATTTATATCACCATTTTTATATTTTCTTCTAATTTTTCTAATTTCAACAGTTTGAGGAAAAGAACCTATTGTTGTAGTTGGTAATTTCGGTAAATTCAACACCTCTTTTTGTTTTATAATCCTCTCTTCAAATTTTTCTTTTCTATTAAAATCTTCTTCTTTTAGAACTTTAACCTCATTTCTAACATCTTCAAATTGAAATTCAGCCAATTCTTTCTTATCTTTTATTATTCCTTGATTTTGGATAAATTTTGAATTCTCTTTATAATTTTCGTCACAAAACAGTTCTTTTAACTCTTCTAATTCTTTTAATTTTTCTTCTGCAAAAGCTAAATATCTTTTATACTTTTTAGCTAACTTAGTTTCACTTTTTAACGTATATGGCACATGCAATAAAGAACACGATGTGTTAATTACCAAAGTATATTTTTTTATCTTATTCAATATATCTATGCTTTTTTTATAATCATTCTTCCAAATATTTTTTCCATTTACTAAACCAACAAACAAAGTTTTATTTTCTGAAAATCCATATTTATCAATTAATTCTAAATTTTTTTCTCCCTCTACAAAATCTAATCCAATTCCATAAAAATTTAAATCCAACAACTCTCTATATATATCTCTTACATCTCCAAAATAGGTTTGCAATATTATTTTAAGTTTTGACTCATCTTTCAAAATTTCATTATAAATAAGTTTAAAATTCTTAATATCTTCTTCTGTTAAATCTGTAACTAATATAGGTTCTTCTATTTGTAGATACTCAACTCCTAATTCATTTAATTTATCTATAACTTCAATATAAGCAGATGTTAACATCTGTACATACTCATCATAACTTTCCTCTGAACTAATTTTAGATAACTTCAAAAACGTTAATGGGCCAATCAGAACCGGTTTTGTATCCACTCCTATCTTTTTAGCCTCTAAATATTCATAAAAGATCTTATTTCCATTTAACTTAATTTCCATATCTTTTTTCAATTCAGGAACCAAATAATGATAATTTGTATTAAACCACTTTTTCATAGCTAACGCTTTTACATCTTTGTTTCCACTTTGATATCCTTTAGCCATAGCAAAATATGTGTCTAATTCATTCAATCCTAGCTCTTTATATTGTGTAGGTATCGCATTAATCAATATCATCGTATCTAACATAGTATCATAATATGAAAAATCATTTGATGATATAAATTCTATTCCATTGTTTTTTTGAATTTTCCAATGTCTTTCTTTTAATTTTTTTGCTTTTAATTCTAACTCATTTTGACTAATTTCATTTTTCAAATAGCTCTCTACCAATTTTTTTAGTTCTCTTTTTTCTCCTATTCTAGGAAATCCTATTGTCGAAATTTTAACCATTATTTCTCCTCCGTTTTTATTATTTTTTTACTTTTCATTACACTTATAAAAATAATAAAACAGAGGGAAAACAAAAACTTTTCACACCTCATAATATACCACCTTCCCTCCGAAGTTTTAAGAAATCTAAAAAGCAAATCCTATTTTTATGTTTTTTAGTTCTTAAAATAGAATTACTTTTTATAAATTAGGTAAGTCTCCTGACTTCGCATCATTCTCCCTTTCACCTTCCCAGATATTATATTTATCCAGTGGTATTTAAAAGTTCGTCCACGTCACAGTAGCGGGGGCTGCTCTAGATTTTCGCTAGATTCCTTGTTATGCTTTTTACAGCACCTAATTTATATTTTGCATTATATCAGAATTAGTTGATTAAGACAATAGTCTAATGTAAGAATATTTTAAAAGTTTAAAAATCTTTAGAGAACATTTAAATTACAAAAGGAGCGTTATAAATAACGCCCCTTTCGCATAACACCTTATATTCGTTTATTAATATTGATTATTTAATGTTATAGAATACTCCTTCTCCATTGTATTCTGCATTTTCTGCTAATTCTTCTTCTATTCTTAACAATTGATTATATTTAGCCATTCTATCAGTTCTTGAAGCAGAACCTGATTTAATTTGTCCAGCATTTGTAGCTACAACTAAATCAGCTATTGTAGAATCAGCAGTTTCTCCTGATCTATGAGATACAACTGCAGTTTGTCCTGATCTTTTTGCCATTTCAATAGCATTTAAAGTTTCTGTTAATGTACCAATTTGGTTAAGTTTTATAAGAATTGAGTTTGTAGCTCCTAATTCAATTCCTTTTGATAATCTTTCTGTATTTGTAACATATAGATCATCTCCAACTATTTGGATTTTATCTCCTAATTTCTTAGTCATTTTAACCCAACCATCCCAATCATCTTCAGCTAATCCATCTTCTATTGAAATTATTGGATATTTTTCTACTAATTCTGCATAATAATCTATTAATTCATCTGTAGTTCTTATTACTCCTTCTCTTGCAAAGTTATATTTTCCATCTTCTGTATAAAGTTCTGATGCAGCAGTATCAAGAGCCAATTTAATATCTTTTCCTGCTTCATAACCAGCAGCTTTTACAGCTTCTAATATAATTTCTATAGCTTCTCCTGCTCCATTTAATTTAGCTGGTGCATATCCACCTTCATTACCTACAGCTGTAACATCTCCGTTTGCTTTTAAAATTTTTCCTAATGCATGGAAAATTTCAGCTACCATTCTTAATCCTTCTCTGAATGATTTTGCTCCTACTGGCATTACCATAAATTCTTGAACATCAACTGCTGAATCTGCATGAGATCCACCATTTAATATATTCATCATAGGAACTGGTAATTCTTTTGCATTTGTTCCACCTATATATCTATATAAAGGCATTCCTAATGCTGCTGCTGCTGCTCTTGCAACTGCTAAAGATACACCTAATATAGCGTTTGCTCCTAATTTCCCTTTATTTGGAGTACCATCTAATTCAATCATTAATTTATCAATAGCAACTTGGTCTAATGCATCCATACCAATTACTTCTCTTGCTATTATTTCATTTACATTTTCTACTGCTTTTAATACACCTTTTCCTAAATATCTTGCTTTATCTCCATCTCTTAATTCTACTGCTTCATGTACACCTGTAGAAGCTCCACTTGGAACAGCTGTTCTTCCCATTGCTCCACCTGATAAATAAACATCAACTTCTATAGTTGGATTTCCTCTTGAATCCAATATTTCTCTAGCATAAACCTCATCAATAATAGTTACCATCTTTCTATCGACCTCCTATTTTTTTAGTCTTCTTAGAAATTACGAAGACTTATGTTATTGCTATTTTTCTATTTAGAAATAACTTAAAAACAATTAATCAATTTAATAATAGAATATTAAACATCTTAAATATTTTTATAATTAAATTTGAGAAATTATTCCTTAAGCATTCTTTCATGTTCTGAGCAATTCAATTTTAACACATTTTAATATCTATGTAAAGTAATTTTTTTCTCAATCTTTTTCAATTTTTCCTCTATTGTAATAAAAAAATAAGCTACGCTTTATCTAGTAAAATATAAATATTTTTCTAAATTTTCAGCTCCTAAAAAATTTTGCTTTGAAAAATCAGATATTTCAAAAACAGCGCAGCTTGTTTTCTGAATTAATTTATATTTTCCTAGCAAATTAAAAAGAAAGCCTACTTTTCAGCAAACTTTCTTAATTTTTTCATTTTATCATTATCTTTTAACTATTATACTTCGTTATCTACTTTTTTCTTAGTTCTATCAACCACAGGTGTAGCTCTTCTAACTTCATCTCCATCTGCAGATACTGCAACTACAGGTAATTCATAATGCCCAATCGGCAAAGCATATCTACAACTAAATGTCCCGTCTGAATTTAATTTCACTTCTCTTCCCATAACCGTTAATTTAGCATCTGGTTCTGTTGCTCCATATAAGATTAGTTCTGTACCAACTTTTAGCCAAAAATCTTTATTTTTTCCATTATCTTTTTCAATATTTCCTTTTGTTGCTTCTCCTTGTGAAATACTTAAGCTTCCAGCCGATAAACTTCCCACTGATAAACTTCCTGCGCTAATACTTCCTGCTGTTATTGATCCCATTGCATTTTCTAAATGAGCAATCAATTTCTCTCTTCTTACTCCTTTTTCTAAAAATAATTTTTTTAATAAAAGGGCAACCATTTGCTCAGAAGAACCAAGAACTGCTCCAGAAGCTCCCATTCCACCTATCCATTCTCCATTTACAATTCTTCCTGCTGCTGATTTATCTAATATTTTTTTGAAATATTCTTCTACTATCATCCACTCTTCATCTACAACATTAGATATTTGATTACTTGGAGTTCCTACACTATTCGATCTTGATAATGTTATAAATTCATTATTAGAAGTTTTTAATCCTATATCTGCAATATAGGTAGCTTTTGGATTTAATCCTCCTATAAACCATTCTCTTACACCATCTGGCAACTCTACATCAAAATAATTATTTGCATTTGTTCCATCAAATTCTTTTAAAGTCACATCATACATTCTAATTGTAGGTTTTGATGCCTTTATATTCTCTTCTCCATATTGTTGTTTTGTTTTGTCAAAAACTTCTTGACTTATTTCCCAATACGCATATGCCCATTGAGGATTTTTTGGCATTAATACTATTTTATTATCTCCATACCCTTCTGGCAACGGATCTCCATCAAAAAATACTGATCTTAGTCCCTCTTCTTTTTTTGTTTGTATATTTTCACCTGTTGTTCTATTTGCTAAAGAAACATCCAAACTAGATGGCAATACTTTGTCTGATGATCCTCCACCTACCATTGGTGTTCCTAAATCTAAAATTTCAGCTTCTATTTGTGTTTTACCTTCATCTAAAATAATAGAAGATAGAGCACTAAAAAGTTCCTCTTTTGTCATTTCAGTTCTACCTTTTACTTGATATTCCCTTGCTAATTCATATAACTCTTCTTTTGTTAAGTTTTTTAAATTTTCAATTTTCATAATTGTTCCTCCCATTCTAAATTTTAGGATCACAAATTGTCCTAAAAAAGCATCTATATTTTACTATATTTAAATATTATTGTCAAATAACTTAAAAATATATTTTTACCTAATATAATAACTGCCACGAACTATAAATTCATGGCAGTTTTTTATATTTTTATTTACATTTTTTTCTTATTTTTATAATGCAGCGAGTCTCCCCATTCTCCGTATCCTATTTTATCTCCTACTCCTTTTATTCTGTTTTCCAAACAAGCTTTACATTCAACAGCGTTATCATCAATACAAGGTTTGTTATCATAAAGTTGATAATCTTTTCTATAATTTTTATGCGTTATCACTGGCATTATAATATTTGCTCCTGCTTTTAATCCAGCTTCTCTTCCAACGGGATTTAAAGCTTGTAGTGCTGTTGTAGCCGCTATATTTATATCTTTCAAATAAATTCTTGTTAAAGCTATCATTTTTAATCCTAATTCAAATCTCTTTTTCTTTATCTCTTTTGAATTTTGAGCTATTTCTCCTATTGGCGTTTTTTCACTAACAATATATGGGCCCATTCCTATCATATCTATGTCCATATCTTTAAAAAACAGTATGTCATCCACTAAATCTTCTTCTGTTTGTTCTGGAAGACCTATCATTACTCCTGTACCTACTTGATACCCTATTTTTTTTAAATCTTTCAAACAGTTTATTCTAGTTTCAAATTTATGATCTGCAGGATGTAATTTATTATACAGCTCTTTATTAGATGTTTCTATCCTCAATAAATAACGATGTGCCCCTGCATTATACCATTTTTCATACGTTTCAAATGTTTGTTCTCCTAAAGATAAAGTAATTCCTAGCTCTCCATTACTTAATTTCTTAATTTTTTCTATCAAACCAGTTACAAATTCAATATATTCTTCATCTTGTCTTTCACCCGATTGCAAAACAAGAGAGCCATAACTGTTTTCATATGACCATTTAGCACTTTCCAAAATCTCTTCTTCACTCATAGTAAATCTGTGGACATCGCTATTACTTTTTCTTATCCCGCAGTAATTACAATTTTTTTGACAAATATTACTAAACTCTATAATCCCTCTATAATAAACTTTATCTCCTACATTATCTAATTTTATTTTATATGCTTTTTTATATAATTCTTTTAATTTTTCTTCATTTTCTTCTTTCATAAAAGATAATATTTCATTTCTCCCAAGCTCTTTTTCATTTGATACACTACTCATTTTTACCACCTTGCCTTTTTTTATTTTATTTCCATCTATATATTTTGAATCGCCAAATAATATTCGCAGGAATTACAATTCAAATATACATACGATTTCAACAATAAAATTATAACATATTTTTTTATTATTTTGAACTATTTTTTATAAAAAAAGTAAACAATTTAGTGAGTGCCGCAACTGCAACTAGAGCCAGAAAAAGCTTTCATTATGCTTTCATCAGTTCCATCAAAATAATTTATAACTTTTTCAGTACAAATATCACTACATTTTGTACATCCTACAGGACATTTTTCAGAATTAATTAAATTTATTTGATTATTTTCATTCACTAAAAGTCCTAAAGGACAAACTACCACACACGCCATACATTTTGTACATTTTCCACTAATTATAGGATACCAATTTTTTGCCATTTTTCCCTCCAAATTTTATTTTTTTATTTCCTAAAGTTTTTTTATCTTATATCGATAAATATAATATCCAAAGATATATCTCCCCGATGTATCTTAAAGAATGTTAAAAATTACAGAAATAGTATTTTTAACATTCAAATCCATGATATTTAGAAGAATAGGGCTTTTACCAGCTCTATTCTTCTATAAAAACATCCCGTTTCGGATGATTTAAAGAACGTTTAAAAAATAAGTTTCTTGTATTTTGTTATAAAAACGCTTTAATCGTTGCGTATTTTATAATAAAATGATAAGGTTGTTTTTAAATCGTTCCTAAGAAAGAGCTTAGTGTAGCTCTTTCTTTATTTTTTGTACTTTATTTTTTAATCTCTCATCAAATTCTTTAATGTATATTATTGGATCTTTCGGATTTATTAATCTAGTTATATCTTCTCCATTTACAAATTTTGTTATTGCTCCTCCACCTATCCCTATTGTAGTTTGATTTTCTTCTATTACTTGGATATTAAACACAGATTCTTTCCCTTTTACTGAATAACCTATATTCTCTCCCCAATCAGCACTATTTTTTTGTCTATACATATAATAAGGAGCTAATTTTTTTTCATTTAAAACCTCTTTTAATGCTTTTTCTAATTTTTCTCCATTCAATTCTTCAATTTCATGCCCTTTTTTATATAATTTAGATGCTTTTTTTAATGCTAACATATGAATTGTTAAATTTTCCATATCATATTTTTTTATATTTTTTATTGTTTCCAAAATATCTTCTGTTGTTTCTCCTGGAAGTCCGATAATAAAATCCATATTTATTATAAGCCCTATCTTTTTAGATATTTCATACATTTTATCAAATTTTTCTCTATTAAACACTCTATTCACTTTCATTAAAGTATCCTCATTAAACGTTTGAGGATTAAGGCTAATTCTATCAACTCCATATTTTTTTAATATTTCCAGTTTTTTTTCATTTAAAACATCACTTCTTCCTGCTTCAAAAGTAAATTCCTTCAAATTAGAAATATCGAAATTTTCTCTGACTTTTTTCAAAAGAGATTCCATTTCATATTCAGATAATATAGCCGGAGTTCCTCCACCTATATATATCGATTCTATTCCCACTTCTAATTCTTTTGTTAATTCACCAATTATTTTTATTTCTTCCAATAGTTTTTCCAAAAAATCTCCATAACGCTCTCCCATTTTTCCTTTTTTTTCATACGAAGCAAATGAACAATATGTACATTTTGTGGGACAATATGGTATCCCTATATAAACAGTTATAGCTTTTCTATTTAAATATTTTAGTTCAGTCTCAACTATTTCTAATAACAGATCTATCTTATCCTCTGATACTAAATATATTTTTTCTAATAAATATTTGATTTTATCTATTGAAAACCTTTTATCCATAAATTTTCTGACTAATTTTGTTAATCTTACTCCAGTTAGTGATCCCCATTTATATTTTTTGTCATATAGTTTTAATAATCCTGATTTTGCCATAATTTTTTTCTGTTCTTCAAATCCATCTATATTGCTTTCTGAAAATTTGATTTTTTTATCTTCTTTTTTTAATTCTAATATAATTTCTTTATTTTCTTTTATTAAATTTATCTCTATATTATCGTCTTTAGCTTCTGGAATTAATATTCTAATAAACTCTTTTATACCTGCTATTTTTAATTCAAAATTTGATTTTATTATTTTTATCACCTCTCTTAATTTATTTTATTTTTATTATATCATATTTATCAAATTTTATGTATAGGTTATTGTGACATTATACACAATAAAATTTAAAATAAAAACAGACGACTTAATATACTGTACCCTATAAGATGGACATTTAAAAAAAAGTTGCATCAGATATGGTATTTTTATATAATATCTATAATGTTAATTTAATAGATTGGAGGATTTCATGAGCAACAAAATATTCACAAAAAAAGAGATTGAAATTTTATCAAAAAATAAATATGTCAAAACTATAAGTTCTAAGGCAATCACATATACATCAGAATTCAGAAGAATTTTTATTGCAGAAAGTCAAGATAAAATTTTACCTAGAGCAATATTTGAAAAATATGGATTTGACGTACAAGTATTAGGGATGAAAAGGATTCGATCAGCAGCAGCAAGATGGAGACGTGCCTATAAAGAGCAAGGAGTATTAGGGTTAGATGATAGAAGAAAAGAGAACTCTGGACGACCTTTAGAAAGAGAGCTATCTTTAGAAGAGAAATATGAAAGGCTTCAAGTAAAAAATGATTATCTTCAAGCGGAGATTGATTTGCTAAAAAAGCTAGACGTGCGAGAAAGAGAGGTGAACGGTAAATTAATTGAATTATCGCCATCAGAAAAGTTTGTTATAATCAAAGATGTAATAGAAACAAGTGGTGTAAAAAATATTATAAAATATTTATGTGAAGTTGCAGAAATTTCTAGAACAAGTTATTATAACTATTTGTCTGAAACTTCCAAAACAAATAAAAGCAATCAAGAATTAGAAGATGAAAAAGCAAGAGATTTAATCATAAAAGCATATGAATTCAAAGGTAGGCAAAAGGGAGCTAGACAGATAAAAATGACTTTAGAAAATGAATTTGCTACAATTTTTAATCTGAAAAAAATCAGAAGAATTATGAAAAAATATAGTATTGTATGTACGATTAGAAAGGCAAATCCTTATAAGAGAATAGCAAAGGCTACAAAAGAGCATACAACTATTCCAAATAAATTGAATAGGGAATTTAAACAAGAAATACCAGGGAAAATATTATTAACAGATATAACATACCTATCATATGGTAATGGTCAACGTGCGTATTTATCAACTATTAAGGATAGTTCAACAGGAGAAATACCTGCATATGTATTATCTAAAAATATTAAGTTAGAAATTGCAACAGAAACAATAAGAACTCTTATGGAAAACAAAAGCTTTAAAATTCATAAGGATGCATTAATACATTCTGATCAAGGAGTCCATTATACAAGCCCAACATTTCAAAAATTAGTTAAAAATAGTGGCTTAGATCAGTCAATGTCAAGAAGAGGTAATTGCTGGGACAATGCTCCTCAAGAATCATTTTTTGGCCACTTTAAAGATGAAGCAAATATTAAAGAATGTAATACATTTGAAGAATTAATTAATGAGATTGATGATTATATGGATTATTATAATAATTATAGATGTCAGTGGGGATTAAAAAAGATGACTCCTATAAAATATAGAAATCATCTTTTAGAAAATAAATCAGCTTAACTACTTTTTTTTAAAATGTACTTGACAAAGGGTACAGATTATAAAAGTCGCCTGTCAAATATAAAACTTTTTTTATTTTAGTGCAAAACTACCATTTCATTAGTGCTAAGATCAAATGTAGCTGAACCATTTGAAACGCTTACACTATCACTTCCTAAAATACTTTGATAAGTTCCATTAGATTTAGCTAAACCGCTAACAGATAATGTAGTATGAGCTCCTCTATTCACCGCAACTGTTACTACATCATTTCCATCAACTCTTTCAAATACAAGTACATCATCATTTACCCATTTTTCATTATACGCACCTTTTTGTACAGCACTGCTATTTGCTCTTAAATTTGATAATTTCCCAAGTTCACCATATAACGGTGTAGTTGTATCAAATGAAGGCATCATTTCTCTATTCCAAGGATCTTCTCCTGTTTTAACTTGCCCAAATACAACTTCTTGATTTCCATTAGATGTATATTGCTCCGTTCCATAATAAACAACAGGTATTCCTGGTAGCACTTCCAAAAGTTCTATCCCTAAATCTATTCTTTGTTTCATATAATTTTCATCATTCCAACCTTTTACATATTTCAAATATGTTGCTGTTCTTCTAGCATCATGATTGTCCATAAATGTTGGTTGCCAATCTGGTGAATTAAATTCATTTGCTCTTTGTTTTACATAATTACTTAAATCTTTCATTGTTGAATCATCTGCTATAGCTCCTTCTATTTTGTATTTCATTTGGAAATCCAACACTGCAGATCCAGAACTGTTTGCAAAATTTATAGAAGCTGAATTTCCTGCTCCAGCATCATACCATTCTCCAAAGAAATATACACCTTGAGTTCTATGTAATGTATTTATTGCATAATCATTCAAAGTAGTAGTAAATTCTTTTATAAAGTCTCCATCAATATGTTTTACTGCATCTAGTCTAAACGCATCAACTCCTGCATCCATCCATTTTTCTGCCGCTCCAATTAAATAATTTTTTGTTAATTGACTTTTATGACAGAAATCTGCTAATCCATACATATCTTTTACTATATAATTAGGATAAATATCCCAATCTCCTGCCGCTGCATCTATACCGCCATTATGATGATAATAATTTCCATAAGCCCATTGTTTTCCACCCATATCAAAATATCTTGTCGGTCCATCATTTGGATGATCTGTTAATTTAACTCCATCCTTATATAACGCTCCATATTCATCAGTATATGCAGGATTAGAGTGATTTAAAGCAAAATCTAAAACTAATTTCATCCCTCTTTTTTCCATTTGTTTATCTAATTCTTTAACTAAAGCCCAATCTCCTAAATGTTCATCAACTTCATAAAAATCTTTCGCCCAATATCCATGATATCCAACTTGGTCATAAGTTTCGTCTACTCCATCTGTATTATCCACTAATGGAGTTACCCAAACTGCTGTTATTCCCATATTTTTTAAATAATCAAGTTTATTTATAAGCCCTTGTATATCTCCACCAAAATATTTTCTCCAATTGCTCTTATCTGCTGAATATTGCGCTGGATTATTTCCATTATTGTTAGATGGATCTCCATCGCTAAATCTATCAGTCATTAAGAAATAAATTGTTCTTCCTCTCATATCTACAACTGGAGGTACAATTTCTGTTGCTGTTATTTCTTTTGTAGTTTCATTAAATATTATTTTATATTCTTTATCCCCTGCTGGGACAGAAGATGCATAAGTTTCGCTTTCATCATCATTCACTATGCTAAATGCTACATCAGCTCCAAAAGTAACAGTTATTTCTCCATTAGTTAAAATATCTTTTCCAAAATTGTTTGCTGCACCTTTAAAATACCAGCTAGGTCCAACTTGTTCTGCTGCTGTTATTGTTTTTGTCCCTGCATCAAATGCTACTAAATAATTAGTGTTAGCATTCAAACTGTAATCTGCTGTTGGATAATTTTCTGTCCAGTCTCCATAATGATCTATTTTAAATCTTGGTCCGCCTCCATCATCTCCAGCTCCTGTTGTTATTGATGTCTCCCATTTTCCTGTTGTACTATTATAAGTAAGTGCATCTGCTGCCCAACCATTAAAGCTTCCTCTTATAAACCATCCATCCTCTGGAGTTGTTTGCTCTGTAGCTGTTATCGCTTTTGTTGTTTCGTTAAATGTTATTTTATATTTTTTATCTCCTGCTGGGACAGAAGATGCATAAGTTTCGCTTTCATCATCATTCACTATGCTAAATGCTACATCAGCCCCAAAAGTAACAGTTATTTCTCCATTAGTTAAAATATCTTTCTCAAAATTATTTGCCGCACCTTTAAAATACCAGCTAGGTCCAACTTGTTCTGTTGCTGTTATCGCTTTTGTACCTGCATCAAATGCTACTAAATAATCACTGTTAGCATTCAAAGTATAATCTGCTGTTGGATAATTTTCTGTCCAATCTCCATAATGATCTATTTTAAATCTTGGTCCGCCTCCATCATCTCCAGCTCCCGTTGTTATTGATGTCTCCCATTTTCCTGTTGTACTATTATAAGTAAGTGCATCTGCTGCCCAACCATTAAAACTTCCTCTTATGTACCAAGCATCTACAGGATTACCTTTCGGAGTCGCTGTTATTGCTTTTGTATCATCATAAAATACAATTGTATAAGTTTTATTTGCATCTACTGTATAATCTTGAGCTGGATACGATTCCGCCCAATCTCCATAACGATCTATCTTAAATCTTGGTCCGCCACCACTATCTCCATTTGCAAAAGTTACTTCCAATTCCCATTTATGATTCCCTTGATACGTCATTTGTGTGCCTTGCCACGAGTTAGCGCTCCCCTTTAAATAAGCTTGATTCCAGTCTGCATAAATCCCCATTGTGAAAACTAAAAATGCAGTAATCAAAATTGATACTCTCTTCATCTTTCTTCCTCCTTATAATTTTGTTTTGATTTTGATTGTTATTTTCTTTTAAAGAACATTACAACCTTTTTAAGTGCTTAGCAACAATTAACTATAGCAATTTTGTTTCAAAAAAAATTATTTTTATTTTCAATGAATACTAACCTTCAGAAATCATTTTTAAACTTAATGTATATTTTTTTATACACAATGCAACTTTTTTTACCCATCTTTTCACTTACGATTATTTTTTAACCAATGATTAAATTATTAAATAATAAAAAAAAGCTTAATTTTAACGGCTATTTTTAATATAATTTAATATTTTGAACTGTTCCAGCATTTTTTGAACTATATTTGCTACTGAATGTTTAACTATTAACCGCAGAAACGTTTGGAAAATAATTTTTTTATATTTTGTTATAAAAACGCTTAAAGAATATTTAAAAAATAAGTTTTTCATATTTTGTTATAAAAACGCTTAAATCATTGCGTATTTTAGAACAAAATTAGGAAGGTTATTTTTAAATCATTCCTAAATCATTGCATATTTTAGAACAAAATAGAAATGTTGTTTTTTTAGCTATTCCGCAGTTATATTGTAGTTATATTATAGATAGAAATTTCTATCTAAAAAAAAGGAGGATGTAAAATGAAAAACATCAAAATGAAACTTCTACTTCTGTTGGCAATACTACTTTCTACACTATCTTTTGGGGAGGTTGCTGCTACTCATATCTACCATAATCATATGCCCAATTTTTGGCCATTTTATGATGTAGAAACTTATAACAGTACTAATGTTGGGGACCCTGTGAGATATATGTATGACGGGCAGGTAATAAATGCTAAAATTAATCCACCTGCAAATTGGTTCTTTTTACCAGATGGAAGTGCTACGCCTCATGATGATCTTGTTGCTTATTATACCCATCATGCAAAAACAGGTGCATATCTATCTTGGCCAATGGATACTGCTAATGGTAATCATGACAGATATCCAAAAAGTCAAACTCAAGTAACAATGTCTGGTGCTGTAATTACCAATGTAGAAAGTTTTGCAGAATTAAACAATGTCTCAGGATATGAAAATGATAACTGGGGACAATATTGGAGAGATGTCCATTACGGAACAAGAACAACAAATGGATTTCCTGCTCTTGATTTAATTCATTTTACAGGTCATCATTCTATGGGACCATTAGTTGGAAAAGATTTTTTTTTAAAAGATTTAATATATCAAAATGTAGTTTTATCAAGACCATATTTTTTAGGAGATGGATTTAAATCTTCCAAAGGATATTTTCCTACAGAATTAGGTTTTTCAGAAAGATTAATACCTACTCTTGCAAAATTAGGTGTAAGCTGGTCTGTGTTAGGAAACGTTCATTATTCACGTGCTTTAAAAGATTATCCTTATTTAAACGATCCTGGAAAAGATTGTTTAGTATCTCCGCCAAATAGAGCAGATATGAGAAATACTGATACATATGGTGGTTCATGGGTTGATAGACATATGTTTAATGAGCAGCAAACAACATATAATAAATTCCCTTTTGCTTCTATTCCGCATTATGTAAGATATATTGATCCCGAAACAGGAGCTGAATCAAAAATAGCTGGAATACCTGTTGAACAAGCTGGTTCATGGGAAGAAGGATATCAAGGAAGTGTTTCTGGAGGTTTTTTAAAACAATTTGAAGGTAATACAAATGGAAGAGAACAATATTTCGTTGTTGCTCACGATGGAGATAATTCTTCTGGAAGAGCTGGAGATGGTGGAACTTGGGCAAATTCTGGAAATGTAACTTATGCTGAAAGTGGTATTGAAGGTATCGGAGTAGACGAGTATCTATTAGCTCATCCAATTCCACAAGATGATATAGTTCACGTGCAAGATGGTTCTTGGATAGATACAAGAGATTCTTCGTCTGATCCAACTTGGTATCATTGGCATATACCTATGGGAATTTGGAAAGGTCAATTTGCAGATTTCAACAGAATAAATGGTACAAATTATTCTCCTAAAAAAAACCTAGATGGAGTTGAAGAAGGGCATACAGTTTCATTTGAATATGGTTACCATTATTTAGAAAGAAACTTTGCTTTATTACAAGCTGCTGAAAACTATGCTAAAACAGCTGAACAAATATGGTTAGACAGCCATCCAAACTACTGGCATCCTACATCTCAATTAGATTATGAAATAGTTGGAGCTAACAACACTGCAAATCAGCTTAATCCATATATGTATTCATTCCCTGTAAAAGGAGATTCTAATAACGATTACGCCGGCGGAGCTAATCCAGCTGAATTAGGTTGGTATTTCTTAACAGCATCTATTGATTCTGGTTTTGGATATTATGATGAGAATGTAGATGATGGTGTAAAACCTACTGTTTCGTTTGATCAATCTCTTTATTTTTCGAAACCATATGTAGAAGCTAACTTAGCAAATGATAAAACAGGTCCTTCTGTATGGTGGCCACAAAGATATCCATACAATCCTGGAAGTGCTAATAAAAGTAAAGCTGAAGGATGGACATTACAATATTTTGATAACAATTTTGGAATATACACATATGCGTTTGATGCAAGTGGAATACAAAATATAAAAGTGAAGATTAGAACCCATTCAGAAAAATGGGCAGACCCTAAAGACAGAACTTACCAAGTATATGACCCACAAAAATTATCTAATCAAGGTGTGCCAGAAATAAATCCTGCTAACGTTGGAAATTGGGTAGAATATCCTATGACTAAAAGAAGTTTACAAGATTCTATAAATGGAGTAGATTGGCAACCTTCAGGAAAAGAGATGATGAATATAGTCTCTGCTCAAGAGATAGGAGATATGTATTATTCATATATCGGAGATTATAGAGATCAGCTTATAGATTATTATATAGAAGCTACAGATTCAAAAGGAAACATTACAAAAAGTAATATTCAACAAGTATATGTTGGTGCTGGAAAATATAAAAATGTAGATGATAAAATTATAGAAGATGTAAATGGAACTATAGAAGGAACATATCCATTTGTTACTAATGTATCTCCTGAAAGAAAAATTGATTTATATGTAGAAAACATTGAATCAAACAGTGTAAATGTTGAATATGTAAAAGAAGATGGTAGCTGGAGCAGTATGAAACTTATGGATTCTGTCTCTGCTGATCCAAAATACAAACATACAGTTATAACTTTTAGGTCAGAAAATAGTTCTACTAAAATAAGATATACAGATAATAACGGTTCTTCTTGGAAGCCTTCTGCTAGCGGCGTTGATGTTTCAACTGGAACATACACAATCTATTCAGATAATTCTATACAAGCTGGAGCTCCTAGTGGAATATCTTTCACTACTACCATTTATTATAAAGGTGCTCTTGGAACTAATATACATTGGGCTCCAACAGATGAGGCTGGTACACCTATAGAGAGCGAATGGACTATCGCTCCAGGCGACCCTATGGAAACAAGCGATATCTATGGTTATGTTTCAAAAACTTTAAATTTAGGTATGCACAATAAAGCAATGGTATGTTTTAACCAATCTGGAAGCAATTGGGATTCTGACCATTTATTTAATTCAGGAACTTGGACTTATGAAGCTGGTGTTATCACATCAGGAAAACCTTCAGAAGTCATAAATTATCCTGCAATACCTTCTGGAGTAGCAGGAACGGCTCTTTCTATTTCAGAATTAAAAATCAATTGGGATAGTGCTCAATATGCTACTTCATATAAATTATATATGTCTAGTTCTACAAATGGTGTTTTTAATGAAATTACTGATACTACTAATTTAGAGTATACTGTGACTGGATTAAATGAAAATACAACATATTATTTTAAAGCAAAATCATTTAATAGCAATGGAGAGTCTGATTACTCTAATGTTATTTCTGCTACTACACAAAAGTTGAACTATCCAGAAATACCTTCTGGAGTAGCAGGAACGGCTCTTTCTACTTCTGAATTAAAAATCAGTTGGGATAATGCTCAATATGCTACTTCATATAAATTATATATGTCTAGCTCTACAAATGGTGTTTTTAATGAAATTACTGATACTACTAATTTAGAGTATACTGTGACTGGATTAAATGAAAATACAACATATTATTTTAAAGCAAAAGCATTTAATAGCAATGGAGAGTCTGATTATTCTAATGTTATTTCTGCTACTACACAAAAACAAGCTGTAGATGGTTGGTTCATTAGAGGTAGTTTTAATAGTTGGGGGACTGATGCTTTAACTTTTAATAGTTCTAATGGTAAATGGGAAATAACTATTACTACTGGGAATGGCGATAGTAATGGTGGTCCTAGATTCAAGATCGATCATTTTGGCGATTGGAGCGAAAATTATCCGAATGATGATTATAGTTTAGATACTAACTCTAGTTATAAAATTGAATTTGATGCTAGTAGCAAGGCTATAACAGCTACTTTGCAAGGTAATCCAGCAGACAATTGGTATATTAGAGGTAGTTTTAATGGTTGGGGAACTGACGCTTTGAGTTTTAATAGTTCTACTGGTAAATGGGAAATAACTGTTACCACTGGAAATGGCGATAGTAACGGTGGGCCTAGATTTAAGATTGATCATTTTGGTGATTGGAGTGAAAATTATCCTAATGCTGATTATGGATTGAATTCTAATAGTAGTTATATTATTGAGTTTGATGCTAGCAGTAAGGCTATAACAGCTACTTTGCAATAGAGGGTAATAAGAAAAAAGAACAGAAGAAGCCGGTTAGCATATTGCTAACCGGCTTTTTTTAGTTTCCGCCTGCTTCTTCTCTTCCTGTTATTTGAGAGCCTCCTGTTGTTTCTACATTTACGTTTATTTCTCTTTTTTCATTTTTGGATTTAGCTTTTATATCAGTTTGTATTATTTTTGATATTAAATATTTTCTTGTGTATGTTGCTTTATTCCCCAGATTATCATAAACATCTATACTAAAAGTTACTGTTTGTCCAAATAATCTAGAATTATTTGCTAATGTAAATGTTGCAAATTTTTCAGGTATAATACTATCTGCAACCGGCGTAGAACTAGGTGTTGTTGATACCTCAAGCCCACCATTTATCGAAATAGCGACACTAGTAGTAATCCCATCTGTAGTAGTTCCCTTTAATGTAATTCCTGAAATTTTATATACTCCAGCCTGTTCTGTTATTACTGATAAATCTATTGGCATTTTATAAGTATATGAATTATTTGTTGAACTACTTGGCTCAATTGTAGCTGAACCTATCAAAATTGGATTTTCTGATCCAACTATTGTATCTACTACTATTGTATCATATATATAACTAGCAGATATATTTCCTGCCTTATCTACCGCCCATACATATACATCATTTCCGTTATTTTGGTTATCTACCAATCCACTAACTTCAAACGCATTATAAGTGTTATCAAATGCACTTATCGAAGACGTTGTAGTTACAAATACGCCACCTATTGGATTAGTGCTATTAGCTTTTCCTATAAATCCTGTAGTATCAGGAGACCACGTTGCTCCATTACGTAATACTCCCATATATGCACTACTATTTGTTGTGTACGCAGGATCTGTTTCGCTCTTTATTACATCACTGGCATCACCAGGCCATCCATTTACTGCCTCTTCTGGTATAGCTTGAATAGCTCCTGATATAGTTGGTGAAGTATTATCTAAGTTAATATGCTTTGTTACAGTTGTTGAATTTCCAGCCATATCTGTCACTGTAAATGTAATTACTACAACCTGAGATGTATGCACTCCTGAATCTGTTACTTTTATATGTGTTGTATCTGTAGAATTATTGTCTCCAATTTGTATTGTACTTGGTGTTGTTGATATAGTTCCTGTATATACTGTATTCATTGTTGTATTATTTAACAATCCAAGATAATCAACTGTTTTGGTTTGTACAGCATATTCTGCCACATCTGCTGTAAGTTTAATTTCATCTCCAGCTTTTACATATTTAGGATTAATAATAGGATTAAATCCATTTTTATCTACTACTTTTATAGCTGAAAAACTTGTTATACTTGGTGGTTTTGTATCTACATATAGCTCTGCTTTTTTATTAAAATAGGATATATTTCCTGCTTTATCTATTGCTACAAAAGCATTTTCAGTTGTATTTTCTACTTTTTTACTTTGATAATATCCATCACTTGGACTATAAACCTCAGATAAATCCCCTGTATATGTATTATCATTTTTAGTTAAACTTATATTATATATTTTAAAATCATCATTCACTATATGTGCAGAATCTAATCTTGGCAAATCTGATTTACTTCCATCATAATTTCCCCAAAATACAAATCCTTCAACTCCAGATTCATCATCTGCACTAGCATTTATAGTAAATCCAGGAGTCTTTGTCCGTATTGCCTGTGCTGTAGTTGAATATACAACTCCATTTAAAGTATTAATCGTAAAATTACTTGGCGGTGTATCATCTATCACTATTGGTATTTCTACGCTTGTTTTATTTCCTGCTAAATCTTCTACTGTTACTATTAACTTTGTTTCTCCTGATACTAATTTTAAATTATTAGAACTTATAGTATCATTACCCCATGTAATTGTATAATTATTATCCGTTCCGCCTGTTTTTGAACTCCATTCTTTTGAAGTAGTCCCGAGTTTAGCCAAAGTATTATCTTGAGATAAATTTGCTTCTACAACATCTGCTGTTATTTTAATATCATTTCCTGTTTTTCCATATATTTTAACTATATTAGTTGTATTTGAAGTAAAGGTAGATTTATTTGTAGCTATAGTTGTATCTCCTGTATCTGTATTCCATAAATTATATATATTTATATTTTTTACATTTATCTGATTTATTACTGGTGGAGTTTTATCATATATTATATTCTTAATTATTTCTATCCATGCACTTTCATTAGATGCCCTATCTCTCACTTGAGCTTCTATAGAATATTCTCCTTCTGTTACTCCACTTGGTAAATCTATATACCCTCCTTCTGTTGGCTTATATGTTTTCCAATTAGTATTTATCTCATTAGCATCTTTTATAAATTTTAGTTTTATTTGTGCTATTCCACTTCCTTTGTCTGTTGCATCTAATAATATTTTTATCTTGTCAGAAGATAAAAAATATTTAATTCCTCCATTTGTTGTCGTTTTTACTTTTTTATAACTACTTCCCTTTTCTTGCCATATTGTATCTATCCCATTTATAACTGGTTCTTTAGTATCATATACATATTCAACCTCTGCATCTGGAATAGGTGTTGTATTATAAACACTATCAGTTAATACAAACTTTAATTTATGCTCTCCATCTTCATAAAAATTGCTATTATCATTACATATATTTCTTATAGCTCCAAAAGTAGTTATTTTTCCTGTAATCCCTGAATAAATATTATTCCAATCAACTCTTGTTATAGAAGAGCCATTCCCATCTTTTTTATTTTCCCAGTCAATATCTCTTTTTATATTTTTATCTAAACCAACAGCAAAATATTTTATTCCAGAACCTGTTCCTGTTTGACTTCTATCTTCTGCAACTATTCTTATTTTAACTTTGCTCGATTTAATATTAAAATATTTTCTCCATTTATCATCAGAATCACTTGTTTTATTTTCTATTTCCTTTATACTTTGTACTAAATTACTTTTCAAATCTTTATTGGATATTATTATATCATTTACCACTGGAGGTTGATTATCTAATTTTATACCTGTAACTTTTTTCTCCATTTGGTTTAAAGCTGTATCTTGAGCTACAATGCTTACTTTAAATAATTTTTTATCTACTGTTATTTTATCCATAAGAGTTTTTACAGGAACCCTTAATGTGAAATAGTACCACTTTTTCCCATCTTCTACTTTTAACTCTATATTATCTTTTATAATTTTAGAATATATATTTTCTCCTTCTGACATAGCATTAGTTTGTAAATTTATATTTACTACAAATTTATCTATTTTATTATCTAATATAGTTCCTGAAGCTTTAGTGGTATTTGCCTTAAATTTTATTAATACATTCCCTTTTCCGTCTGTTAAAAATCCTTTTTTATTTTTTGGAGTTAATATTTCCAATGTTATAGGTTGTTTTGGAGCAGTATATTGTCTATTCGAAACTGTATTTATATCATCTGGCGTTAATATTTCTTTATTATCTTTTTCATTTTTTAAATTTATTAGTTTAAAATCAACTTTTCTTACTGTCCCATCTTTATCTGAAAAAGGAGTATCATATGTAACTGACCATCTTTGTACAATTCCTATATCTTTTGTCGCAGCTACCAATGCCTTATCTACTAAAGTTTTTCCATTTATATCTTTTCGCCCATTTCCCATCTCATACATATGAAATCCATCACCTAAAGACAATTTGAATTTATAGTAATATAAATCCCCTACATCTGAAGGAGTCATTCCTCGATTTCCCAAATCGTCATGTATATAATAAAACCACCTATAATATTTTTTATATTTTCGTATATCTAATTTTGAATATTTACTAGGTATAACTCCACCATTCCAATATATTTCATTAGTTAGCCCTTTTTTATCAACATGATATATACCTGTTAAAGCTATACTATTATCCGATATCTCTTTAGATAATTTACTTACAACATTCTTTTTTTTATAATCGTTAGGTAAATCATCTAAATCTGCATTTTCATCAGTTAAAAACATTATCCATTTTTTTGATTTTATTACTCCACTATTGTCATTTAAAATATTCCCATTAGCGTCTATACTTCTACCATTTTTTTTTAATTTTTTAATAGCATAGTATATTGCCCATAGACTATTTTCTTGTCCATAGTTAAATCCTGATGTTGCGTTCAAATTCTCAAATGCATTTATCAATCCATTCCATCCATCTAAAGATCCAAACCAACCATCTTTTTTATAAACCCCTAAATAATAACGATCTTCAAATTCTTCTATTTTTTTATGCCATATTCCTGTTGTACTATCGGTATTTTGTCTAGGCCCAAAAGTTATTAAATTAAATTTAACATCAAATCCATTATCTGTTAAAGTATTTACAAATCCTTTTAACCCATCTTTTACAGAATCAATTTCCTCCTGCATAGAACCTGAATTATCTATACACAGAACTATATCTAATGGATATTTAAAAACTTTTAATGATGATATCGATAAAGCTCCTTGAGTAACTACTATAGCTTTTGTTGCTGTTGGATGTTCTTCTTGTAAGTTAATAGTTATTCCTGTGTTTGTAGATACAAATAAATTACTTAATTCAGGAGCCTTTATTGAAAATGGCATCATTGTTGAATAATTAACTTTTATCTTTGAAAATCTACTTATATCTATGTTATCTATTCTAAATAATCCATTTTTTGTCATAGGATGTTGTGCTATATCAGGAATATCAGAATGGAATTTTTCTGTATTCCCATAAGTTATAACTTTATAATTTCCATCTGAACCAGTCTTTACTGTATATACAGATATTAAATAATCCCCTAAATTTAACCCAATTAACTCTAAATTACTTCCTGGAGTAAAACTAATAATAGCTCCTCCAGCAGAAAAAGATTTTAATCCATCTTTTTCAAAAACAAAATCTACATAATTTGAAGTTTCACTATAAAAATTCTTTATCATATTATCTGCTTTATTCTGTGGATCTTGCCCTCCACCACCAATGATAGTTGGATCAACTATATTTAATGGGTTTTCTTTTTTATATACATTCCACTTATAATTAGTTATAACATTAGAGGTATTTGTAGCTTTTTCTAATCTAAATACTAGCTTTTGATTATTGTAAATTTCATCTGGATTTGGTACATCTCCTTGCCATCCAATTGTCACTTTATCACTATTTTCTGTTGGTGTTGATAACTCTAATTTATTAGTAGAACTCATAGTTGCAATTTTAGTTGTACTTAAATCATCTTCTATTTTATCCAATTCAGAATTACCTATACTACTTACTTTAGCTACCATTACAGCAGTTTGTGTTGTTAATGGTGTATTCTTCTTATATTCCCATTTAACTCCATAATTATTATCATTCAATTCAAAATTTGATATATCATCATAACTATACTCAGTTTCAAATAATGAATTAAACCCATTTTTTAAATTTATAGCTTTAATTTTCTTATAGTAATTTTTATCCATAAATTTATCAAAAATTTTATAATTACCATTAGTAATATCTTTTTTTGCTTTTGAAATCATCCACTGATCTATTTCTCTGTTTGTACTCCCAATTAAATTAGCAACATACTCTCTATTTGCATCTTTTCCTTCATAATTTATATATTTATTATTAACTTTTATATCAAATAAAACTCTTCTTTTACTCCCATCTGGAACAGAATACGGAGAATCATATCTTAAATTCCATAATTTTACAAAATTAAATAAATTTAGAGTGTTATGTAGCTCTAATTTTAAAATATTTAAATCATTTTTTATTTGATAAAATTTAAATTGTTCTCCCATTATTAATTTTAAATGAGCATAATGCTGTTCATTCTCCACTGACATATTATTAGGATATTCTCCTTCTTGATCCAAATCATCTTTTAACATTAATTTATCTTTTTTCACTCCACCAATACCAATTAATTGTATATCATTCATTCTTAACCTAACAGCTAAATCGCTTGAATTTTTCTCTCCTGTAGCGTTTGAATCTGTAATAAATATAATAACTCTATTTGATGGAATTGTCCCTGTTGGTTTATCTAAAACTTCCAAATTACTACTTAAACTTCTTGCATTTTTCTCCATATATATAATTGCTTTGTCAATAGCTTTATCCGATGGTTCTTTTGAAAGATTAGAACTACCAACATTAATTTTAGATAAATCCAAATTATCTTCCCAGTCATTGCTTGGTGTCCAAACATCATCTTTTCCTTTAGTTCCAAAAGTATATAACTTATATTTAACATCATACTCACTATTCTTTCTTAAATCCTCTTCAAAATATTCCCAAGCTTGTTTTACTTTTTCTAACTTATCTTCCATTGATTTTGAAGTATCTAAACACAATATTACATCCAAAGGTTTTTTTATATTTTTATATCTTTTGTCTTCTGCTACAAAAATATTACCAGAATTAATAATCTTTTTTTCATTTTTATCTAAATTTTCTTCTGCAATTTCATTATTATTCTTGTAATAAATATCATCTTTTGTTATCTTTATATCATTTTTTGTTTTCGTTATGAAGCCAACATTAATTGTATTAAAAGCATCTGAATTTATATTATTTATATAAAATTTATTATCTCTTATATTTCCACTTAAATTACTACTTGGCATATTAAAATAAGTTTCTGCATCAAATGTATATACTAAATATTTATCATTAGCTTTTAAAGTGTATAATTGTATCCTATATTGTCCTACAGGAAATCCTAAAAGTTCAAATTCTCCTAATTTATAACTACCTTTAATTTTATTTATTTCTATACTATTAGAAGTTCTATAATCAAAAGAAAAATCAACATAATTAATTTTATTGTCAATAAAATCTTCTAAATTTCCTCCATCGATAATTTTTTTCAAAGGATTCCCTTTCATAAATTCTACTTTATTTACATCTGTATCTATTTTACTTATTCTAAAGATAATTCTTTGTTCTTTATAAGTAGATAAATACTTTATTCTAATATTGTTATCCTCATTCCATTTAAATGAAACACTATTTATTTTTTCTACAGCTTCAAATCCTTTTATTTGTACTGGAATTTTCATATCTAAAGTTTTAGATATATCATCTTTTTTATAAAATTTTACTGTTTCTATATCCGAATTATTATCTATTTGTTTAAAAATTAATATACTACTTCTTGAATTCCCACCATTATATTCCCAAAAATTATTACTTTTGACAAATGGTTTAGCTGTTCCCCAAAAATCTATATTATAAAAATGTTGCAAATAATTATTTTCATCTATATTAACTCCGTATGGAACATTCCCTCCATAATCATTTACTCCGTCTATTTTATAATCTCCATTAACTATTTCAAAATCTGGTTTTCCTACAATAACTTGTCTTCTATCTCCTTCTGGAATATTTTTAACTGTAACATTTATATTTTTATTTATTACATTTCTTGATAATTTTATTATTGCATTTCCTGCTCCTACTCCTAATACTTTCCCTTTTGATACTGTAGCTATATTTTCATTAGATGAACTCCAGTTTAAATATTTAGCAACATTCCTTCTCAAAGTATCATCCGCATTATTGTAGCTAGCGTATATTTTTATTGTTTTATCAAAGGTTTTATAAACAGTGATATTTTGTTCAGAAATATATATTTTTTTTATATATTTATTTTCCCAAGCTGTTTCCCAATTTCCATCAACAAGTTCTACCTGATTTGTAACAGTTCCAATTAAAACTTTACCATCATTTTTTATTATTACTGTTCTAAAGTCTTGAGTATCTGTTATCTTTTTTAGATTATCATTTGGACCTGTATATTCCTCATATTTTGGAGTATTTAATGAATTATTTGGATCATCCCCTCTTATATATAATCTCGTATGAAAAGTATCACCATTTCCGCTATAATGCATAGTTCCTTTATAAAATCCATCGCCATCTACATCGGTAAGCTCTAATGCTCCTGCAGTATTTTGCTCTGTAACAGTACCTTTCAAATTTTTATCATACCCTTTCATTGGCATTCCACTTTGATTAGTTAATCCATTTACATCACTATAATCTGCATTATATGCAAATAAATATACCTTTTCTGGCAAATCATTCCCCCACAAAACACTCATATCAACTTTAACTGTAATATCTGTATCTACTGCTAACAAATTTACTGAAAAAACCGATGATAAAAATAGCAAAATCCCCAATATTATTTTTTTCATTTTTTATCTCCCCCTATTGTATTTTTATATGCTTTCATTTTATTTACATCTACTTTTAAAATTTTTAACTCTTCTGCTGTTTTTTTCATTTTATCAAATTCATCATTCATTTGATAAATCTCTATTAAAACAGGATATATTAATTTTTTTTCTTCAGGAGTTTTTATATCTTTTGATACTTCCTCTATTTTAGACATATAAGCATAAATATCCCCTTTTTCTTTTTTATTATAAATTTTCCAAAATTTCCCTACTAATGCTTTCTCTTTTATTATTCTATCTTTAGTAATCGTTATTTTTTCTAATGGTTTTACATAATTTTCTTCCGCTTCTTTTAAACTCTTTTTATAAACTTTTTTTGCTTCTTTTTCTATTTTTTTATTTTTTTCTATTGTTTTTAACATTTCTTTTTTTTCTGGACTTATCATATAATTACTATAATAAAAATAACTTCCTATCACTATTATAATAACACTTGTAGTATATACTAACTTTTTCACTGTCTATCATCCCCCTATATTTTCTTCACACTTTACATTATAGCTTATGTACGCTTTTTTTTCAATATGTTTTTTATAAGAAATATATATTTTTATATTTCTTCTTTGGTATACTATTTTCGATTTAATTCCATTCTCGATAATTTCTAATTTTAACGCCTTTCCTATATAGTATACTCATTTATTAATAAAAAAACCACTCATTTTCCATAAAAAAAGCAGAGACTTTTCATCTCTGCCTTTTCCCTAGGAATGGCTTAAAAATAACGTTCCCTATTCATATTCAATCTCATTTTCAATAATCTTACCCTTAAAAAAGCTATCTATATTCCCTAAAGTAGTCTCCGTAATATTATATAGAGCCTCTTTTGTAAAAAATGCCTGATGAGATGTCACTATTACATTATTAAATGTTAATAATCTCGCTAACAGATCATCTGTTATTATTTCTCCTGACATATCTTCAAAAAAGTATTCATCTTCCTCTTCATACACATCTAATCCTGCTGCACTTATTTTTTTAGTTTTTAATCCTTTTATAATTGATTTTGTGTCTATTAATTTTCCTCTTCCTGTATTTATTATCATTACTCCATCTTTCATATTGCTTATAGACTCTTCATTTATTATATATTTTGTTTCTGTTGTTAATGGACAATGTAATGATATTATATCAGATTTACAATACAACTCTTTTAATGTAACATATCTAAACCCTAACTCTTTTTCTGCTTTTTTATCAGGATATTTATCATATGCCAAAACATCCATTCCAAAACCATTTAATATTTTTATTACTATTTTAGCTATTTTCCCTGTTCCTATTATACCAGCAGTTTTTTTATGCATATCAAATCCCATTAACCCATTTAATGTGAAATTACCCTCTCTTACTCTTAAATATGATTTATGTATTTTTCTATTTAAAGTCATAATAAGCGCTACTGTATGCTCTGCAACTGCATAAGGCGAATAACTTGGGACTCTAACCACTTTTATTTTTCCTTTAGCTGCCTCCAAATCTACATTATTATATCCTGCACATCTAAGTGCTATTAATTTTACTCCATTTTCTTTTAATTTATTTATAACATTTTTGTTTATATCATCATTTACGAATACACAAACTACATCATATCCTTTTGATAAAGCAACTGTATCTTCACTTAAATGTGGTTTAAAATATTTTAATTTGAAACCATATTTTTTATTTGCATTATTAAAAAAATTTTCATCATACTGCTTTGTATCAAAAAAAGCAATTTTCATATTAACCATCTCCTTTTTATAATCTCATTATACTATTCTTTATGTAAAAAGTCAAGAATTGTGTGATAGAATTAGTCAAAATTTTTAAGATGACAAAATGTATATTTTATGGTAAAATTAAGTAATTATAATACACAAACAAATTTTAGGAGGTATATAACTATGTTTGAAAGAAGCAGCGGAGTTTTATTACATGCAACATCTTTACCGGGTAAGTTCGGTATAGGTACTCTTGGAAAAGAAGCATATCAATTCGTAGATTTCTTAATTAAAAGTAATCAAAAATTATGGCAGACTTATCCACTTGGTCCTACTGGATATGGTGATTCACCTTATCAATGTTTTTCAGCATTTGCTGGAAATCCATTACTAATTAGTTTAGAAACAGTTGTTGAGGATGGACTTTTAACTAATAGCGATTTAGAAACAAATGAAAAATTTGATGAAAGTAAAGTTGATTTTGGAAAAATAATTAATTTTAAATTTCCTATTTTGAAAAAAGCTTTTGACAATTTCTCAAACGGCTCTTTTGAATTAGAAAAAATTAAATTTGAAACTTTTGTCAAAAAAAATTCTAATTGGTTAGATGATTTTTCACTTTTTATGTCTCTAAAAGAACATTTCGGTGGTAAACCTTGGATTGAGTGGGACAATGATATCAAATTAAGAGAAGAGAATGCTCTAAGAGATTATAAAAATAAACTAAAAAATGATATTGAATTCCAAAATTTTATACAATATCTATTTTTTAAACAATGGAAAAAATTAAAAGCATATGCTAATCAAAATTATATAAAAATTGTAGGAGATATCCCTATTTTTGTTGCTTTTGATAGTGCTGACGCTTGGTCTAATCCAGATATTTTTCTATTTGACGAAGAAAGAAAACCAGTAAGAGTAGCAGGAGTTCCACCTGACTATTTTAGTGCTACAGGTCAGCTTTGGGGAAATCCTTTATATAATTGGGATAAATTAAAAGAAACTAATTTTGCTTGGTGGATAGATAGAATCAAAGCAAATCTTGAACTGTCTGATATAATAAGAATAGATCATTTTAGAGGATTTGCTGAATATTGGGCTGTTCCATATGGAGATAAGACTGCAATAAATGGAGAATGGTGGCCTGCACCAGGTAAAGAACTTTTTGAAGCAATTGAAGCTTCACTTGGAAGTTTACCTATTATAGCAGAAGATCTTGGACTTATCACTCCTGATGTAGAAGAATTAAGAGATCATTTTAATTTGCCGGGAATGAAAATATTACAATTTGCTTTTGATTCTTCAGAAGAAAATAATTATATTCCTCACAGTTATAATAAAAATTGTGTAGTTTATACAGGAACTCACGATAATGATACTGTAGCTGGATGGTTTGAAAAAGCTTCAAAAGATGATAAAAAATATGCTTTAGATTATTTTAATAGTAATGGCGAAGATATTTGTTGGGATTTCATTAGAGGAGCTTGGGCTTCTACTGCTGTAATTGCCATAACTCCACTTCAAGATATTTTGAGACTTGGAAGCTTTGCTAGGATAAATACTCCTGGAGTAGCTGCTGGAAATTGGCAATGGAGATTTAAAGCAGAAGATATTACGAATGAGCATATATCTAAATTAAAACACTTAACTACAATATATGGCAGATAAAATTGACAATTAAAAAACTATTTTATAAACAAATTATGCTAATTAAATCGAATAAAATATGACAACGCAGAGGCGCAGAGTTATCAGAGATTCACAGAGAAAATAATAAAATTAAAAATATAAGCTACAGACTTGTTCTGTAGCTTATATTTATTGCTAAATGCTCTCTGTGTAACTTTGCGTTCTCTGCGCCTCTGCGTTGAATCTCCTCTTTTTTACAACTGTTTTTATAACAAAATATAAGAAACTTGTTTTGTTAACGTTCCTAATTTAAGTTTTTTATTTTTTATTTGTGTAAATTGGTGTGAATTGGTGGCTAATCTTTTTTTTTAACCATTCCCAAACTAATATTAAATTCCAAAACTCAATCTAGCTCCAAATACAGGACTTTGAGAATTAGAAAGTGGTCCATCTATTTCTTCGTCATCTAGTTGCCATTTCCCTTGTAAATCTAAATTCATCATATATTCAGCAGATAAATCTAATGAAATAAAGCTTCCTATTCTTTGATGAATATTTAATCTTGGTGCAAACATTAAATATTCTTTTGTTAATATATTTGAATGTGGAGCTGCAATAACTTCTCCAAACTCATTTTTTATATCATCATATATTAGTGTTAAAGTTGCATTTCCTCCACCAAACAAAAATCCAGCACTTACGTTTGTACCTGTGCTTTTTATTAAAAAAAGACCTTTTTCATATACAAATCCGCCATATCCTATTTCCAATTTAACTTTTTTATCTCCAATTATACTCATTATCCTTCCAGTTGCTCCATATCCTCCAAATCTATTTTTGAAAGTTCCACCTATTCCACCGCCACCAAAAGCATACATCACATTATAATTTCCATATTTTTGCCCTTCCAATTCTTTAAATCCAGCTGATTTTAATTTTACATTTAATTCTGAAAGGTCTAAAAATAATACACTTAATAATGGACCGCCATTTCCAACCATTCCTTGTTCATCATTCAGTTCAAAATTCATCATTTCTTTATTATTAATTCTTTTTTCTTTTAACCTTTTTCCATTACCAAATGCTACTGTTGAAAACATAATTGTTGCTAACAAAACTATTAATACTTTTTTCATTCTTATCTCCTCCTTATTTTTTGGTAGTGTCAAATAAAAGTTGCCTTTTTAATCCACTACCCTTTATATTTGTTATCTTTGCACGTTATATTTGACTCCTCTCCCAAAACAAATAACTATTTAATGCTAAATTTTATTTCTATACAATAATTTCTAATATAATTTCAAATACTTTTCAGACCTCATCCCCAGCCCTTCTCCTATCTTAGGAGAAGGGAGTAAAACAACAAATCCAATATCCACGCTATAGTTTTCTCCTAAGTTAGGAGAAAACTACAATAAGAAATGAGGTGTGTCAAAATAAATTCTCATCAAAATTTACATTGTATCTTTCATAAACTTTTGACACTATCATAAGTTTTCTGACTATTCATTTTACATACGTACCATAGTTTCATTTATCAACTTTTTTCCCAAATATTGATAATCCAAAATAATTTTCTGTTACTTCATAGGTTTTGAAATTGCTTTCTTTTAATAACAATAATATTTCATTTTTGGTATATGCTGCATTAATTGAAGATTTCAACCCCTGTTTCATTACTTGTTTTTTTAAATTTGCCTTCATTAATAAGAAAATCAATGGATTTGTATTTCTTTTTAAATCCCCAATGAAAAAATTACCACCAACTTTTAATACTCTTTCTATCTCATTTATTACATTTACCGGATTTTCCCATTCATGAAGTGAATTAGCTGTAAAAACTCCATCAAAAAAACAGTCAGAAAAAGGAAGTTGTTCAGTCGCATCCCCCATCTTTATTGTAAGATTTTCCTTAACACCATATTTTTCTGCATTAATTTTAGCCAATTTTATCATATCTTCGCTTATATCTAACCAAGAGAGAGAGGCATTCGAACATTTTTTTAACCACTCAAGTCCTAAATATCCAGGTCCAGGCCCAATTTCTAAAACTTCACCTTCTATAATTCCCGATTTTATTATCTCATTTGTTTTTAAAAGTCCACGTTCACAAAGTTTTTTTTGCATTTCATCATAATCTTGAACAAGCATTTCTCCTGTAATTCCATGGTTTGTTTCTGGAACTCTTTGTTTTTTCATTTGATTCTCCTCCCTATTATAATTAAAATTATTTTGTTATTTCTTATTTTGAATCCTACTTTTAAATTGTTAATTATCAATTATCCATTGTCAATTATCTTTCCCATCATATATCTTTTAATTTTTTTTGCAAATCTTTTAATTTCATGTTAATAAAAGATGAATAAAAAATATATATAATCACACCTGAAAAACTTGCACCCAAAATCGGTAATATTAACAAATTTAATATATCTCTTCCGCCACTAAAATAAGATACACCAGAAGTTAAGACCATAACTAAAATTACCTCACAAATAATTGTTAATCTCATATTTATTGTTTTCCTAAGAACAAATATAAAAACATACTTAGAAATATATCCTATAATTATTCCTATTAATCCACTTATAAGTAAAGATATTATTATTATTTTACCCTCAACATAATTACTTAACACTCCAATTAAATAAAAACCATCTATAACTATTCCTATAAACATAAATAGTAATATTTCCTTTATTAACTTTATTATCTTCTCCATAAATTTCATCACACTCCTAAATATTTTTTAAATTTTTTTAAATATGTCCTTGTAACTTCAACTTTTTTATTTGTCCCTTCAAATTTAATAATCAGTTTATTATCAAACCATGGGATAATTTGACTTATATTTCTTATACTAACTATATTAGATTTGCTGACTCTCATAAATTCCTTTGAATCTAATTTTTCTTCTAATTCGTACAACTTCTCTTTTATTTTATATATTTTTTTCTCATTTTCAACAATGCAGTATATATTATTATTATCTGCTTCAAAAAATTGGACTTTTTTAAGAGAAATTAATTTTATCTCCTCATCATCTTTCCCAGCTATAAAATCTTTATTAGAGTTGCTGTTATTACAAAAAAATTCATCTAAAAAATCTAAAAATTGATTTAAATTTTCGCTATTAAATAAAATATAAATTTTATTATCTTTTTCTACATTTATAGTTTCATCTATAAAGACAGTATTTGCATTTAAATCTAACTCTATACCTTTTGCTTCTAATAGAGTTTTTATAATTTTAAATTTTTTATCTTCGCAAATTAAAGATGCTTTCATTTGTCACCTCCTTAATTTCATATTAATTTTTTCAGTATCTTTTTTTTAGTAATATTTGAGATAATATTGATTTGTTAGTTATTTGAGTTAAAGTTTATTTCATATAATAATATTATACTAGATAATAATGTTTTTTCAAATAGATTTATTGTATTCTGCAATTTTTCTTCTGTAAAGTGTAATTATATCTCTTTAAGTTTAAATATAATAAAAAAGGACCTGTTAAAACAAGTCCTTTTTTATTTGTTTTTTTAAAATCAATCCAATATTTTCATTATTTCATCAATAAGATTTAACACTATCTCTTTATTTGCTAACGTATCTTGATATAGTTCCATAGCCTTTTCAAAGTTATTCTTTTTAAGTTGTTCATAAATCGATTTAGTATTATTATGAATATTTTTATGAGGCACTAATATCTTTTCCCAAAGCTCTTTAATTTCTATTGGTGGCTTTGTTGAATAATAAGTTATTCCAAAACTACATTGATATTCATTTTCTTCTAAATATTCCTCAATTAAATGCTTTTTAACTTGAACTCCTAATTTTTCTACATATGTAATATGAGCCTTCTTCATCTCTTTTAAAAAATTTTTAATATCTTTTATTGAATATAAATTAAAATTATTTAGTAATTTTGAAAAACTAACATTAAGTTCATTACTTTCATCAATTGTATTATCTATTGTAGTATTAATATAATTTTTAATAGACTTAAATTCAGTAAAAATTTGTTTAATATTATCATTTGTATTAAAAATTTTAGTAGTTGTATCTTTAAGAACATTAACTATTTCTGTATTAAAAGAAGATTGCTCTTCACTTATAGCAGTTAGATTATTTATCTCTTCTGAAATATCTTCAATTTTTTTATCAATATTATAACTTCCTGCAACAACTTTTTCAATATTTTCTTCAGATTTAGTAACGCTCATACCTATTTGATTACCATTTTTATTAACTTCAGATATTTGAGCTTTAATATTTTTTAATATATCATCTATGCTATTTGTTGCTTTTTTAGAATTTTCAGCTAAAGTTCTAATTTCATTAGCAACTACGGCAAACCCTTTCCCCGCTTCTCCAGCCCTAGCTGCTTCTATTGCAGCATTTAATGCAAGTAAATTAGTTTGTTCAGTAATGTTATTAATAGCAGTAATAATTTCTTCTATATTATTTGCTTTAATTACTAAATCATTAGTTTGTTTTTTAAAATTTTCTGCAAATACTTTTAACTCTTTTACTTGTCCATTTATACCATTAATAGCTTTACTGCTAGTATTAGAAGTTTCTATCAACTCATTTATAGATAAAGAAATATTTTGAGCACTTTCTGCAACTATAAAAGATCCGTTAGAAACTTTTTCTTCACTAAGTTTAATTTCCTCTAAAGAACTATTTATACTGTTAATATTATTATTAGTTTCTCCCAATCTGTTTATAGTATCATCCATTAAATCTCCATTTAATAATAGTTCTCTCTTAAATTTATTTATATATAAAATAGTTTTTTTAAAACTAGAAAAAATATCCATTAAAATATTTTTTAAAAATAAAATGCTTTCTTTTAACTTAAAAGAGCTTTTCTCTAATTCATTTTTAGAGTTTGAATTTACATTAATTTTACTAATTGAATTATAATTATTCATTTTAATATTTTCAGAAATATTTTCAATTAATAAAACTTTAGATAATATACTTTTTATAATATATATATATATTGGAATAGAAATTAATAATATAAAAATCCCAATATACAAAATATTTTTTATAACTTCGTAAAAAATATTTTGTAATAATGATATATCTTCTTTTGTTAAAATAGCACCTATAATTTTACCATTAAAATCTGTTAAATAATTTGCAACATACATATTAGAATTTATATATTTAAAAAAGCCAAAATTTTTATCAAAAATTTTATCATTATTATCAAGTATATATTTTTTAATTTGAGTTAAATTAAAAATATTTTCAAATTTATTATTACCATCTTCATAAAACATATTATCTTCTTTTTCATTTTTCCAATTATATACTTGATATAAAATATTTTCATTCTCTAAATTAGATAAAAACTTTTTATTTAATTGAATACCCGCTTCCACTGTACCTATAAATTTATTATCATAATAAACAGGAGAAACATATCGAAGTATAAGTCCACTTTTTCCAATTTCAATACCTTTAATATTTTTTTTATTTTTATTAGATGCAACGATTGTTTTTCTCCAACTTAAGTCATCTCCAGATTTATCATAATTATTAGTTCTTAAAAATGATTTAATATCCTTTGTATGAAAATGTATAATAGATATTGCATATTTTATTTTTAAATTATTTAAATCATATTGTGTATTTAAATAATCAAATAATTCTTTTTTTTGATTATTGTAAAAATATAGTTGTACTTTTTCATCATTTTTAATTTCATCAATAATTAAATTTAAAATAACTCCTTTTTTATTTAACTCTTTAGATATAATCTTTTTTTGAGCACTATATTTTGTTTTTAATAAATTATTTTGAAATATTTTAGTAGTAAAAAAAAGTACAAATATACTAAAAATTAAAAAACCAGAAAAAACAAAATTAAAAATTTTCTTTAAGCTCATAATAACCACCCCTTTATATTTTTATTCTAACTTCCGTTTTATAAATTGTCAAGTTTTTGTAGAGAAAAATATTATTGCTCTCCCTAATCTAAAATATTTTTTAACTTCCCTGTAAAAGAAGTTGCAAACTCTTTTGTTGCTAGATATTTATCTACAAAAGTAACTATAAAAGATTCCTTATATCTTGGCGGTATAATTGTTAATGGCCACATATGTTTTATTATTATATCCTTTTCTATTTTATTTAACTTAAAATTCTTTTCTGAATTTTTTAATGCTATCTTTGGATGTGCAAACCCATGTAACTTATTCTTTGCTAAATCCGGCTCACTATGATTTCTCCAATCATATAAGAAAAAATCATGCAAAAGTCCCCCTCTTGCTGTTGATTTATAATCAGCTCCTATATATTTACTTATTTTATAAGATAAATATGAAACTTCTAATACATGTTTATATATTGATGAATTATGATGATAAAAATTCTTTAATTTTAAAAATTCTTTATTCTCTATAATATCCTTTACAATATTATAATACTCCTCCTCAGAAGGAGTTTTTCCTTTTTCATACTCTATTTTTTTGCTATTTATTAAAGATATGATTTTCCCTACTCTTTGGCTAAGACTATCAGATATATTTTTATATATAAATCCACTTAAATTTGGAAAGGCTTTTGTCAATCTTATTGTTGATAAAAAAATCTTTTCTATCTCTAAGTTATTTAGATTTTCATGATTTTCTTTAAAGAATAATATTTTCCTCTTAAATCTACTTAAAGCATTAGAAGATATAATTAAATCTGTTATAAAATATAATATCATCATAACAGATATTCCTTCTAATATTTCAGGATTTTGTTTATATAAGATTTTTTTAAAAAATGGATGTATTTCATAATTAAATATAATTGCTAATACCATCCATGCTAATGAAAATTTTAAACATACTTTTCCACCGATATTAAATCTGTCCTTAGAATAATCCCACAACTTAACTTTATATATCATTTCTAATAATTCTCCTACAATATATTCTATAATTGTTAAAATAATAAAAAATATTAAACTTTTTAAAGCTATATTATCAAATTTTCCATTATTCAAACTATTATTTATCCAAACAACTGTTAAGGCCCCAATTCCATAAATAGGGGTGAATGGCCCCATCAAAAATCCAGCATTTACAAATCTTTTCTGTCTATAAGAACGATATACCACTTCTAAAATCCATCCTAAAAATGAGTAAATTGTAAAAAACATTATAACATAAAATATATTTTCCATAAATTCACATCCTTAATTATTATTTTTTACATTATCCTCTTTTTATATCTACTTCTATTATCCCTATTTTTTTACTTCTAGAAATTCTCCAAAGCAACCTCCAAAACTAATTATTAATAATAATTTTTTTAATCTCTTCATCTTTTATCTCTTCCTTTTTATATTATACACTATTTATAGTCGAAATGAAACAATAAAAAGTCAAGAGAATAAAAATAAAGAAGCAATTTTTATTAAAAAAATTGCTTCTTTATGATTTTTTTACTATTCTTTACATTTAATTTTAATATCTATCTATAAATTCCTCTTTACAATCTTGCATTATAAGTTCTGCATCTTTTTCTTCTACATTTAAATCAGATATTTCATAAGTCCCTACATCAGAAATAATTCCAACATTAGTTAATACACTATTTATAAAGTTTTCAGCTTTTAAAGTTGTGGTTTTTAATTCTATTTCCCCTGTTGGCGTTACTGATAATAGTGCTGGATTTTTGCTTTTATAACCATTTGAATCTACCTCTCCAATTGCACCTGCTGCATATAACATTTTATTATCATCTCTTTTAAAAACTCCATTAAATTCTACACTTTCCCCTTCTCCTGTAACTCTTTTGGACCATCCATATACACCATCACTTGAAAATTTAATAAAATCTGTAGCATAACCCTCATCTATCAAAACTTTTGCCATTCCAATTACACCAACATCAGCTACAACTTCTAAATCTGTAAATGGATAATCTATCTCATTCATTACTCTATTCCATTTCAAATCTCCATTTTGTGAAAATTTAGCTATAAATCCTCCTTTTTCAGCCCATCCTGAAATATAAAATCCTTCATCTTCCGATGTAACTATAGAATCAAACCTTGTTGCTAATGCCTCTTGATCATCATCTAAATTATCAATTATTATATATTTATCCCAAACTTTATTCCAATTTTCATCATATTTTATCATTACACCTTGTGGAATAAATACTCCTCTATTTACATTACCTATTACTACATACCCATCTTTTACAGGTGCTGCTCCAATTATATCTACAAATACTCCCTCTTCTCCTTCTTGATCTGGAAAAACATTATATGTCATTTTTTCCTTCTTTTCAATTACTCCATTGGAATTTACAATCATAAAACTCCCGCCAAATGATACTATAAATTTATCTTGTGTTATTTTAGCTAAATGAGTCTCTAAAGTTAATCCGCCTACATCTACATTTAAAACTTTTCCCCAAACACTTTCTCCATTTTCATTTAATTTTGCTATAATAACTCCCTCACCTGTAATTCCAGCTACAATATATCCATCACTAATTTTTTTTATTTTATTAAGAAATAATGTTAACTTCTCTCCTTCAACTTTAACCTTTGCAAATTTATTAAAAATGATATTTCCATCTTTATCATAATTTGTTAACATTGAAAATTGAAATGGTGCACTTGCTAATGCCATAAATCCATTTTCTCCATTTGTAACTATATCCTTATAGTCATAATACCCCATTAACATTATTGGATTTTCTGGCATTTCTGCTCCACTTAAAATTTCATCCATAGTTGGAATATTTCCATAAAATTTATATTTTTTTATCCACCCTTTTTCTAATTCTGGCACCTCTTCTGGTTTATATTCTCCATCTCCATCATTAAAATACTCTGCTGATACTATTTTCTTTTCATAAATAGGCATTGTATATTCATATCCATCTAATCCTAAACCATTAAATCCTATTATTGCTTCTATTCCTCCATATACATTCCACCATGGATTTTTATCTATATCTGCTTCTCCTCTGAAATATAACAATACTTTTCCAGTTCCTGCTAATACTGCATTTGTATATAAAGCTACTTCAAATTTTGCTCCTGTATACATTTTAAACTTTGCATTTGCTTCAATTTCAGGTTGAGAAAAATCAAAATTATTATTTAATTCTCTTTTTCCTCCCCACTCTCCATTACTATAGCTTATTTTAACTTCAGCTGTTGCTTGTTCCGATAAAGAGTATTTAAATTTACCATTTATCTCTCCATTACTTCCAACTACCAAATACATAGATGGAGTTATTACTATTGGTACATTTCCTATAAATATATTAAATGGCATAAATGAATAACTAATTAATTTTACTTCCTTATCCCAAGTTTTATGTAAATTTCCAGTTATTTTTAAATTACCAGAGATATTACTATCTACCCCAAAGCCAAACTCTTTTATTGTAAATCCAGATATATCTATATCAAAATCTATTCCAGGATCTATAGATAACTCTCCCTCCAATTTTATTTGGTCATCTGTTGTGTTTTCATCATTGTCTTCATCATATACAACTGTATTTATCTGACAAACCATATCTCTTGCTTCATCTACTCTTGATATTTTTATCCCTCTATAATTTGTAGAAACTCTCTTTATATCATTTTTAGTTAATTTAATTTTTTTATTTACTTTTGCTTGTTCTACAACGTCAGTTATCTTTGCTGGCTTAAAAATAATCTCTTTTTTTCCATTTTTCTCTATAATACTATCAACTTTTACCAATAATCCTTTTGGAAACTTATCACTTACTCCAGATACTATTATATCATCTTTTTTATAAGGAATCTCCTCTCCAACTGAAAATATAATTTTATTATTATCTATATCAACTTCATCTATCTTATTTTTGGTATCTTCATCTAAAACAACTGCTTTATCTGATATTTTTACTGGTGTTTTTACTGCTTTTATTTTTAATATATTACTCTCCAAATCTTTGTATTTGGCTTTTATGCTATATTCCCCCTCTTTAGTTGTAGTAAAAACATTTCCAGTTATACTCTCACCATTAACATAATATGCAATATCTGTTGTTATCTCTTTTTCGACACCATTTCCATCCTTTTCTATTGCTTTTAGTGTTGTTTTCTCTACTCCATTTGCCTCAATTTCTAATTTGTCAGAAGTTATTACAATAGATTTTTCTATATTTTTCTCTTCTGTTTCTGGAGTTGTACTTGAAAAACACCCTCCTAAATTTAACATTAACACCAATGTTCCTAGTAAAATAATTATTCTCTTTTTCATTTAAATAGCCTCCTCTTATTATTTCTCTCAGTAATATTAATTATAATTTATTATATATTTTATTAATAGTGGTATTGGTAACTTTTACCAAATGACAAAAGTAATTCTTTTTATCTTATTTAATTACAGATGCTATTGATTTCTATATAATATTAGGCTATACTATATTTATAATTTTATTGCTAAGGAACGTTTAAAAAATAATGTCCTCATATTTTTAAGCCATTCCTAAAAAGTAGAGGAGTTTTTTTATGGGAGATGGAAGATATTATACACCTTATATGTTTTTTGCTATTTTAATATTAACTTTTTCTTCTATTTTATTAACCTTATCAACTGTTTTCTTTTACATAAGGAGAAAAAAAAAGCTTATAAATAACTCTTTAATTATAATTTTAATATTAAATTATATTTTTGTAATTTCTCTATTTTTAGATAAAGTTATCTTTAGTCTAAAAATCTCTTTTTACTTAAAAAATATTATCTACTATACATATTTTTGTATACTAAACTATTTTGATTTCTATATTTTAATATTTTTAAAGGAACGTATTAAAAAAGATAATAAATATTTATCTGCTATTTTTTTCTTTATTACTATTTTTACTTTTACTTTAACAACCTTAAATTTTATACTAAATATTAAATATAAAATACTTTTTTATCCTATTTATTTTAATAAGATAGTTTTTTCAAATCTATTTTATATAATTTTTTATCTAAATATATTTACACTATTTATATCCTCTATGTATAAAATTATAAAATATAAACCAAATATATATTTTATAAAGGCAAATTTATTAATAATTTTTACTATTTTTATTGAAATTTTTTTACTGTTTTTTATAAATATTCATATTTTTAACATAGAGTTATTTTACTATTATATCCCAATCTCAATATTTACTTTAATTTATGTGGGATTAAAATTTATGCCTGATTATTATATACCTGAACTATTTTCTAACACCATTTATAAATTAAATGAACTTATTATAATAACAGATATAGATGGGAAAATATTATTTAAAAATCATAATTTTTTTATTATAGATATAAAAAGCATAGATTTTATTTATAACAATAATATAATCTCTATATTTAATAATTTTAATGTAACTACTTTAACAAAAGAATCTAATTCTCAAGAAAATATTTTTAAAATTTTCTTAAATAACAAAGAATATTATCTGTCTTATGTTAAAGATAAAATCAAAAAAAATAGTAACTATTTTTTTATCTATAAAATTAAAGATATCTCATCTTTTTATTCTACTCTAATGGAATTAGATAAAAAAAATACCTCTTTGAAATATATAAATTTTCAATTAACAAAATACTCTGATAAAAATAAAGAGTATAATTATGAAAACAGAAAAAAGGAGTTACTAAACAATATACAAAATTCTCTTGGACACAATATTATTGAATTGGTAAAATTATTGGAATCATACAACATTATAAAAGGTAATTCAAATAAAAAATATAGTATACTAACTAAATCTATTAATAAATCAAGAAAAATTTTAACCGATATTAGGAATACCGTTAATAATTTTAAAAAATAGAGACGAGAGGTGTGAATTATGATTAATATTATCATTGCAGATGACCAAATTTTATTAGCAGAATCTTTAAAGTTAATATTGGAAACTGATAAGGAATTAAAAGTTAATGCCATTGTAGAAAATGGAATTTTAGCAATAAAAAAAGTTGAAGCTAGCAAACCAGATGTTATATTATTAGATATAAATATGCCTAAATTAAATGGAATAGAGACTGCTAAAAAAATTAAAAAAATATCTCCTAATACAAAAATTTTAATGCTTACTACTTTTGAGAATAGAGAAAACATTATAGATTCTTTTGTTTCTGGTGCTGATGGATATATTGTAAAAGATATCTCCCCAGAAGAACTAATTGCTGCGGTAAAGTTTACATATAAAGGATTACATATAACTCATTCAAGTGTACATAAAATTTTAATAGATGAGTTTTTAAAATTAAAAAGCAGAAAAAATATATTAGATTCTAACTCTTCTCAATTAACAGAAACTGATTTAGATATTATAAAATTAATTGCTCAAGGAAAAAGTAATAAAGAGATTTCTAAAAGTTTATATTTTGCAGAAGGAACTATAAAAAATAAGATATCATCCATTTTAAATAAATTAGATTTAAGGGATAGAACTCAAATAGCTATTTTTGCAATTGAAAATAATCTTATATAGGGACGAAAAATAACTTACCCATTTAGTTTATAAAATAGGCAATGTTTCTAGCCTTTTTATAAACTAATATGAGAACATTATTTTTTAAACGTTCCATAGGAGTAAAAATTATGAATTATAACTTAAAATTAGAGATATTTTATATAGAATTTTGGCATATTTTATTTATAACCCTATCTTTAGGAGCTATATTTTATCTATATTTAAAATCTAAAAAAAGCAAACTATTATACTCTTTTATATATCTTCAATTATTAATAATAGTATGGATGATTGCTAAAATATTAAAAACAGTCTCTTACAATGTTAATTTGCGTTGGTTCTTTATTGTAATGCAATACTTTGCAGTATCTTTTATAGGTGTTGCTTTTTTAGAGTTTGCATATATCTACCTACATAAAAAAATAATTAAAAAGAAACTTAGATTATTTATATATATTTTTCCTATTTTGCAAATAATAACTGTTATCACAAACCCTTGGCATCACTTATTTTATAAAACTTTTACCTTTTATAGTGATAGTTTTGGGATACTTTTTTATTTATACCTTTTTATAGAATACCTAATGATTTTCATAGGTATATTTTGGTGTGCAAAAAAATTAAAAAACTCTTTTTATACAAAAACAAAAAAAGAGCTTTACCTTATATCAACAGCTATTTTATTTCCCTTTTTATTTAATTTTATCTATATTTCTGGTCTATTAAAAAATTTTTTTTATAAACTTAATATTAGATTTGTATTTGATATTACACCATTATCTTTTACAATATCTCTTTTAATTTTTGTATATATAATATTTAACTATGAATTTTTAGATGTTATCCCTATTTTAAAAGAAAATATCATTAAATATGTAGATTCTGCAATTATTTTAACTGATAAAAATTTTCAAATAATAGAAATAAATAACTCTGCCAAAGAGCTATTTGATATATATAATGTAAAAATTGATAACTTTAGAGAGCTATATTTTAAAATGTTTGATAAAAACCCTAAATTAGATGAAGTCAATGTCCAATTTACAGAATTAAATATAAATAACAAAAAAATATATTTTGAAGTTAAATCTCTTTCTATTTTAGATAATAGTAAAAACAGTATAGGAACTATTTTTAATATAACTGACACTACTGATTTAAACAACTTAAAATCAGATTTAGAATTAAAAAATAAAACTATACTTGCTTCAAATAAACAATTGAAACAAAGAATTTTGTTATCTCAAAAAATTTCTGAAATAAAAGTTTCTAATTTAGTTGCAAGAGAGTTACATGATATTTTAGGTCATTCTCTAACTCTTGTTATTAATCTGTTAGAATCTTCTAAAATATATTTTAATAAGAATAGAGAACTCTCTAATAATCTTATAAATGAATCTATAAAAATATTAAATTTAGGATATAACGACTTAAAAAAAAGTTTAAATAACAAAGTTACGAAAGAAAAAAATAGCGATGATTTAAAAGAAGAACTTTTATTACTAATAAATAGATTTAAACAAGCTGGATTAAATATAAAATTCTCTATTTCTGGAGAAAACACACTATTTTGTAATAAAAAATATACTTTTATAAAGAAAATATGTCAAGAGGCTCTAACAAACTCTTTAAAATATTCTGATACAAAAGCTGTATTTTTATCAGTAAAATTTAAAAATAAAAAATCCCAAATAAACATTATTGATAGTGGAAAAGGTTGTGATAACATTATAAAGGGAACTGGTTTAAATAGTATGGAATATAGAGTTAAAGAGTTTAACGGAACCTTTAATTATACAAGTGAAAAAAATCAAGGATTTATAATATATGCTGAGTTATAAAATCTATAAAAAACAGGAGACGTTTAATCTCCTGTTTTTTATCTTTTATTTTTCACTTTTTTTATTTTCATCTTTTAAATTAAGTATATGTCCTAACTTTTCTTCTTTAGTTTCAAGGTAAAATCTGTTTTCAACTTTTGGTTCCATTTTTATAGGAACTCTTTCTGTTATTTTTAATCCATATCCTTCTAATCCTACTATTTTTCTTGGATTATTTGTTAATAATCTTATACTTTTCATTCCAATATCTGCTAATATTTGTGCTCCCACTCCATAATCTCTCAAATCATCTTTAAACCCCAATTTTTCATTTGCTTCCACTGTATCATATCCTTTATCTTGCAGATGATATGCGTGAATTTTATTTGTAAGTCCAATCCCTCTTCCTTCTTGTCTTAAATATAAAATTACTCCTTCTCCTTTTTCTTCTACCATTTTCATCGCGGTATGAAGTTGATCCCCACAATCACATCTTCTAGAACCAAATACATCTCCTGTTAAACATTCTGAATGAACTCTCACTAAAACATTTTCTTTTCCTTCTACATCTCCTTTTATAAGCGCCACATGTTCTTTTCCATCTATATCATTTTCATAAGCGTATATCTTAAAAATTCCATAATCAGTTGGCATTTTCGCTTCACTAACTCTTCTTACCAATTTTTCCGTTTTATTTCTATATTCAATTAATTTTTCTATTGAAATTATTTTCAAATCATGTTTTTTTGCAAATTCTCTTAATTCAGGAAGCCTTGCCATTGTTCCATCTTCCTTTAATATTTCACATATTACTCCTACTGGTTTTAATCCTGCCATTTTAGCCAAATCTACTGCTGTTTCTGTATGTCCTGCTCTATTTAATACTCCACCTTTTTTAGCTATTAGAGGAAAAATGTGCCCTGGTCTTCTAAAATCTTCAGCTTTTTTACTCTCATCTGCTAAATCAAATACTACTTTAGCTCTATCTCCTGCAGATATTCCTGTTGTAGCTCCTTCTTTTGCATCAACTGAAATTGTAAAAGCTGTTCCAAACATATCTGTATTTTCAGATGTCATTAAATTTAATCTTAGTTCTTTTGCTCTATCTTCTGTTATTGGAGCACAAATAAGACCTCTCCCAAATTTTGCCATAAAATTTATCATTTCAGGTGTAACTTTTTCTCCTGCAGCTATTAAGTCTCCTTCATTTTCTCTATTTTCATCATCTACTACAATAACCATTTTACCATTTTTAATATCTTCTAATGCTTCCTCAATTTTATTTAACATTTTTATTCGTTATAAAAAAATTCTTATAACGATTTCACCACCTTTCTTTTTATTTTTATATATAATTTTCAAAAAAATAAAAAGCCCTAAGAACGTTTAAAAACTAAGGGCTTTTTTTTAATTATAATTTCTATCATCCAGACTTTAACTGTCGGTTTTGGAATTGCACCAAATCAAGCTTACGCCTCGCGGACTATTACCGCCGGTAGGGAATCACACCCTGCCCCGAAATATTTTGTTTTTATAAATCAAATTTATACTTTTCTCTTAAATAAATATACCACTTCTTACTTGTTTTGTCAACTTTCTTTTCTATTTAATTTTTCTAAGTTCTACAGTTTAATTGAAAAAACAACTCTCATAAAAAGAAATTCTTTTTAACCAATGCCATCAAGGATAATTTAACAATATAAAATAAGTGCTAGATATGGCAAAAGATTCAGCACAAAGACACAAAGTTCTCTAAGGTACACTAAGAAAACATTTTTTATTCTTTGAGTAATAAACTTATTATCCCTCTACACAATCCCCTCTTTGTGACCCTTTGTGCTCTCCTTTCTTCGTGCTGAATCTTTTATGTTTTAAAAAAAATTTCGCAAAACCATATATTTATGATATAATAAATTTAAACTAAATTATAATAAAAAAAAGGAGAGCAAAAATGAATAATTTACCAAATTGTCCTGAATGTAATTCGGAGTATACTTATAGCGATGGGAATCTTTTCATATGTCCTGAATGTGGTTATGAATGGACTCCAGAGTCAGAAAATGAAAGTAACGAAAAAGTTTTTAGAGATGCAAATGGAAATATTTTAAATGATGGAGACACTGTAGCATTAATAAAAGACTTAAAAATCAAAGGGAGTTCTACAGTTATAAAAATAGGAACTAAAGTAAGAAATATTAGACTTGTGGATGGAGATCACAATATAGACTGTAAAGTTAATGGCGTTGGAGCTATGAAATTAAAATCTGAATTCGTAAAAAAAATATAGAAAACTTAAAAAGTTATATCTTAAAAAAGAGCCTTTAACAAAAATTGTTAGAGACTCTTTTTTTTATATTTTATTTTGAATTTCTCCATAAAATTATTTCAACCTATCTTCTCAATTAATAGTATCAATTAACAACATGATTAGAACCCAAAAAGGTAGTTTTCTAAAATCATACCACTACATATAGTTTCGTAAAAACTTTCGAACACTATATGTAGTGGTATGAAGAAAACTAAATACCTTTTTGTGGGTCAATCATAATATTAAAAACTATATTTTACTTTTGTATAAATCATATCATTATTATCAAATTGTCCAAAAGGTCCACTATCTCCAACAAAAATATCTCCTCCACCTATTATATTAAATCCATCAAATAAGCTATAATCAACCTTTGTTTTTATTAAAGCATCTTTTGTTTCTACATTATAATATGCAAACAGTTGACAAAATAGAGTATCTCTTAAAAACTTATCATTAATGTTTAAAGTTAATGTAGTCTTTAGTTTATCTTGCATAACCTCATCTTCATCTTTATAATCCAATATATATTCTTGAATAATTTGATTGCTTAAATTTACACCTAATATATTATAGTCTATGCCAATCATATAATTCAAATCATTCTTTTTTACTACTCCTTCATTTAAAATATTTTTTGTTTGCAACGCTTTATCAATATATAATGCTCCTTCTCCTCTTAAAATAAGACCAGCTACTGATTTACTAAAACTTCCACCTATAATTTTATTTCTATAATATTCAGGTTGAACTACTAATCCAGAACTCCCTTTTGAAATATTATTTACAGGTGTAGAATTCCATAAATATCCACTTATTAATTCATAATCTAAAAAATCATTTATAGAAGAAATTTTTATAGCAAAACTACTATTTTTCAAATTATTCTTCATTGACATTTTAGATAAATCCATTGTTGCGTTCTCAAATTCCTGAGGCTTTTTTATTGCCCAAATAGAATTTGAAGCTGGTAATATATCTCCTTGAAAATCTGGTATAAATACTGTTTCTACTGTAGTATCTCCAAAATAATAATCTAATTTAGCAGCATTAACCCCTATCCTTATCTCATCAAAATCTGGCAATATAAATTCTGTCAAATCTTTCGGAGAAATAACATCAGTAATAAATACTCCATCAGCTTTTCCAAATATTATCTGTTGTTTCCCTATTCTTAAATCAAAATTTTCAAAATAAAGGTCTATATATCCCTCTTTTAATTTTAAATCAATATTAGATTCAGAATTATAATTATAAAGAATTGGATTTATATGTAATTTCCCTTTATCTCCACTATAATCTAAATTCAAATTAAAGCTATTTTGTAAAATGGAATAATCTCCATTCTGCAATAAAACTCCTGTGTAGTTTTGCAAATAACCAGTTGTTTCTAACTGATTTGCAAATACTCCCTGAGTAAATAAAAGCCCTAATGAAATCAATAACAATATCTTTTTCATTATCTAACACCTCTTTTCATCATTCTTTCTGTAAATTGCCTATCTGAAATATTAGTATTATGCTTTACATCTTTTAATGAAATTGTTGTTTTATGATTATTTTGTATATTTGTCATTACACTTTTCATTACCGTTAATATTCCATCTATTTCATCTATCTTTTTTATTTCCAAAGTCTTCAATAACTCTCCATCTTCATCATAAAATTCTCTTTTTAATCCAATCCATTTATCTTTTATAACCCAGCTTATAACTTTAGAGTACATATAATCTTCATCTTTTGTAATACTCTCTATAACATAACAATTTTCACCATTCAATTTTTCCATTTTAATTATTTTATGATTATCCTCTTTTGGTTTTCTATCTCCCAAATCATCATATGTGAAATCAGAACCCATAAAATAATCACTTTTACTATCACTTGATATAGCTTTTATTCTTTTTATTGCTGGTAAATATATCCATTGTTCATCATTTTTATTTTCATCATCGTAACTCCAATTCATAAAAGATGTATTTTTTATATCCGATGGTGCTGTAAAAAACATTATTTTTTTGGTAACTTTTCCAAAATCTTTTGAAAACTGCGATATTTTTCTAATTCTCTTATCTCCATACCTGTTTTCTAGTGTCATAGTCATTTTAGAAGTTTGACTATTTCCTGTATCTCTATTGTAGACTTTTTCCATAACCTCTAGTCCTGTCATATCAAATGCAAAACTATAACTTCCTAATATTACCATCATTCCCATTATTATTACTGTTTTTATTAACTTTTTCATTTTCTTCTCCTCCTTCTAATTTTGTATTTATCTGTCAATAGCTATTTTTCTTTTTTATCTTTAAATATAAATTTAGGCTTAATTGTATTTATAGCAATTAACATAATTGTCAAAGTTGACACAAATGCTACAAACATATTAAATGATATTAATGCTCCAAGCTCTCTATTTGGCGGAAATACAGAAAACATTAATACTGAAAATCCTAAAATTACAACTACTGCATTGAAAAATATAGCTTTTCCTGCTTCTTCCATTGTATGTTTTGCTATTTCAATTTCATTTCCATCTCCTGCTGCCCTCATTTTATATCTATCTATAAAATGAATTGCATAATCTACTCCTATTCCTATTGATATACTTGATAATAGTGCTGTTGTTGAAGAAAGAGGTATTTTTAAAAATCCCATAACCCCAAATGTTGTTAATGCTGTTAATGCAATTGGAATTATACCTATAAATCCTGCAACCACACTTTTAAACATAAATGCAATTAAAACTCCTATTAATATTAATGATAATCCTAAACTTTGTATTTGCCCTTCTAATATCAAATCTGTAAATACCAAAGATTTATATGCAGAACCTGCATAATTAATCTTTATCCCTTTAAACTCATTTTTATTATTTTTGACTACATCTATTACTTTTCTTATCAGCTTAGAGTTATCTGATTTTAATTGCAATTGCATATTTAATTTTTTATAATTATAATCTATTACTTTATTTAAATTTTCAGGGTCTCCACTCATTGAATACAGTAACAGATATTGAGCTATCAAATCTCTACTACTTGGTATTGTATAATAACCTTCTTTATCTCCATTCATTACTAAATTCATTCTTTTTAAATAATCTGTCAATGAAAATGTTGCTCCAACTCCATCTATTTTTTCAATTTTAGCTTGTAAATCATCTATTTTTTTTAATATTTCAGGATTCTTAAAATCATTTTCTTTCCCTTCAAATATTATATTTAACTTTGTTGTCCCACCAAAATTATTATTTATAAATGTATCTGCTTTTACAATATTACTATTTTTTTCAAATTTACTTAAAAAACTTGAATCTACCCAAATTTTTGACATTCCATATATTGAAATCACTACTATTATTACAGTTAATCCAACTATGTATAATTTTGATTTTAATATTTTTTCTGTTATATTATCCATAAAACTATTTTCTGCTATCTCTGCCTTACCGCTTTTCTCTTTTTTAGTTAAATGTGGCAATCCAAATAGAAACACTGAAGCTGGTAAAAACATCAAAGATAATACCATTGCAAATAACACTCCAAATGCTGTAAATATTCCAAAATATTTAACTGGATATACTTGAGAAGTTAATAGCGATAAAAATCCAACTGCTGTTGTTATAGATGTCATTATTACAGGTTTATACAATTCACTTAAAACCTTTTCTATAACTATCTCTTTTTTTAATTTATTATCTTTTTCATTACTCTCTTTTGTATAATGTTTAATATGACTAAATATATGTATCCCATCTGCCACACCAATTGCAATCAACATTACTGGTATCATTGTTGAAATAGAATATATTGGAATCTTCAGATATGTCATTAATCCAAATGCCCAAATGGCACTAAATAGCACAATTAACAATGTTATTATTGTTCCTTTTATAGTCCTTAACGTTAAATATAAAACTATAATTATCACTAAAATTACAATTGGAATCATTTTTTTCATATCTTTGGGAGCTAATAGTGCTAAACTTCCTTCGATTACAGGTCTTCCTGCAATATATATTTTATCTGAACCTGTATTATATTTAGATGCCATATCCTTCAAATCTTTATACATCTTTTGAGAAAAAATATCTTTGTCTAATTCTGCAATTATTAATGTTGAATTATAATTTTTAGAAACAAGTTTACCAAAAATCATATTATTATTTTTTACATTTTCTTTTAATTTTTCTAATTTAGATTCTGTTTTAGGAACTCTTTTAAAAAATGAATTTACTTCCATTCCATATTCATCACCTACAATATTTTCAGCAGTATAAAGGCTTACAACATCTGCTTTTTTTATTTTAGGATATTTTTGCAATGCTTTTGTAATATCTTTTACTTTCTGTAGAGTTTCACTATTGATTACTCCATTTTTATTTTCAATTGCTATTATTACTCCATCTTTTATATTGAACCATTCTTCCGCTTTATCACTATAGACAAATGCAGGATTATCTTTTGGCATATACTCATCTAAATTTGTTTCTAAACGCCCATTGCTTTTTATTGCTTTTAGCGAACCTACTGTTAATAATATCATAACTATAAATATTATTATTGGATGTTTATAAATCTTTTTTAATAACTTTAACATAATTTTTCACTCCCTTTTTATTATTGAGGAACGGCTTAAAAATAACCTTCTGATTTTGTTTTAAAATACGCAATGGTTCAAGCGTTTTTATAACAAAAAATGAGAAACTTATTTTTTAAACATTCTTTATCTTCTAAATTAATTATACTCTATAAAAAGGAAAAACACCGTAACTATAGTCACGGTGTTTTGGGCGTTATCTTATTTTTTAATTTCATTTCAAAGTATTACTTCCTCTAATTTTTCTAAAGACAATATCTCTATTACACTATTTTCTTCCTTAATTATTTTTTCATCTTTTAATTTCTTAAAAGCTCTTGAAACAACCTCTCTTGAACTCCCTAACGCTCTTGCAATCTCTGTTTTTGTTTTGATTTTTATTATTTTCCCTCCATTTGATTTTTCATAAATCATCAATATATATTTAGCAACTCTCTCAACCATTTTAGAATATGATAATATTTCTATTAAATTAGATAAATTAACCATTTTTTTGCTCATCTCTTTTAAAAAATTTACTAAAAACTGTTTATTTTCAAAGGAAATTAATAACTGTTCTTTTGATAATTCATAAATTTCACAATTCTCTTCAGCTATTATATTTGCTGGATATAAATCTTCATTAAATAACAATACTCCTCCAAACATCTCTCCTTCATTAACCGTTCCTATCTTTTGCTCTTTTCCACTTGAAAAATATTTAACTATATCCAATTTCCCTTTAACCATAATTGTTAATACAGTGCATTTTTCTCCTTGATTGTATATTATTTCGCCTTTTACTAATCTCTTCTTTTTAAAGTATATCTTCTTATCCTCTAAATTTTTATTATCAAAAAAATTTTCTAAACTAAAATTTTCTGCTATTTTCATAATTTATATTCTCATCTCCTCTTTCCTCTTCCATTCCAGTTTCCATTCTTACCATTTCCATGATTCCTATTTTGCGTTCTCATTGCTCTATTTCTACCACTTCCAAAATCATTAAATCCATGTCTCATCCATAAAAATTCATCTTTATCATTAATAAAACTATATCTTTTTATCTTATCTTTCCCCAAAATAATTTTAACTTTTCTTATATGGTTTATTTTATTATATACGCTATATTCTATTTCTATATTCTCACCTTTTTTAAATTCAATCTCATTATAATCTACAAACCATCTAGGACCTATCACAAACGCTATCTCTTTTACAGTTTCGCTCTCTTTCCCCTTAATAGATACTTTTAAAATATTATTATTTTGCTCTAAAACAACTCCTTTAATTATATTTATATTATCACTATCTTCTGCAAAAATAACAAAACTAAAAATCAATAACATTAATAAAATAACTTTTTTCATCTTAATCACCCCATTTAAAAAACTCTTTAAATTATCCTATTATTCCCAATCTTTTAATTTATATCTTATACCACGACTACTAATCCCCAATATTTTAGCAGCTTGTGTTTTATTTCCATTACAATGCTCTAATGTTTTTAATATTGCCTCTTTCTCTATTTCATTTAGAGTTTTCCCAACATAACAATCCTCAACATCTTTTTTATTTTCACTCTTTTTTATCTCAATTTCCATATCTGGCATTATTAAAAATCTTTCTACTAAATTTTCTAACTCTCTCACATTCCCTGGAAATTGGTATTTTTTATATTTTTCTATTAATTTCCCTTCATAATTTCTAGCTTCCTCTTCTGTAACTTTGTATTTTTTACTATATTTATCTATAAAATATTTTATTAATAGCTCAATATCTCCATCTCTTTCTCTTAATGGAGGCAAGATTATCTTTACTAAATTCAATCTATAATATAAATCTTCTCTAAAATTTCCTTTTTTTATCTCATCTTCTAAATTTCTATTAGTAGCAGCTATAACTCTACAATTAATTTTTATAGGATTTCCCCCACCAACTTTTTCAATCTCTTTTTCTTGTAATACTCTTAAAAGTTTTGCTTGTAATTCTATATTCATCTCTCCAATTTCATCAAGAAAAATTGTACCCTCTCCAGCTAATTCAAATTTTCCTTTTTTATCATTTATGGCTCCTGTAAAACTTCCTTTTTTATGTCCAAACAGCTCACTTTCTACTAAATTATCTGGTAAAGTAGCCACATTTACTGCTATAAAAGGCTCATTTTCCCTATTCCCACTATTATGGACAGCTTTTGCTACTACCTCTTTTCCTGTTCCGGTTTCTCCCTCTATTAATACTGGCACGTCTAAATCAGCTACTTTTTTTATTATATTTTCTACATTTTCCATCTTTTTAGATTGATAAATTAAATTAGTTTTAGCTGAATTTTCTTTAATTATATCTTTTAAGTTTCTATTTTCTATTTTTACTTTTTTTGTTTCTAACGCCTTTTTTATTGTCTCTTTTAATTCTTCTATATTTACAGGCTTTGTCAAAAATCCATAAGCCCCTTTTTTCATACATCTAACAGCTGTTTCAACTGTTCCATATGCTGTTAATAATATAAAGCTAATATCCAATTTCAATCTGTTTATCTCATCTAAAAAATCTTCTCCTGTTAAATCAGGCATCTTATAATCTGATATAATCAAATCTACTCTCTCTTTTTTAGACAAATCAATTCCAGCTTTCACTCTATTTGCTGTATAAACTTCATATCCCTCTAATTCCAATATATCTTTTAATATATCTAGTTGTACTTCTTCATCATCTACAATTAATATTTTCCACATATCTATTTCACCTCTATAAAAATTTCTGTTCCAATATTTTTTTCTGACTTTACATCTATTCCCCAATTATGAGCATCAATTATCTTTTTAACTACAAACATTCCAATCCCATTCCCCATTGATTTTGTTGTATAATATAATTTAAAAAGATTTTCTAATTCCTCTTTATCCATTCCAATTCCATTATCTTTTATTAATATCCCCTTTTTGTCTACTTTAATTTTTACCTCTTTAAAATCTCTTTTATCCAAAGCTTCTAAACTATTTCTTATTAAATTTATTAATACTTCCTTTAACTTATCTTTATCTCCAATTACAATTAAATTTTCTCTGTTTTCAAATATAACATTTACCTCTTTTTCTTCAAATTGAGGCTTCATAAATTCATATATCTCTTTTATTAATTCATTTAAATTCAACTCTTTTTTATTTAAATTCAAATTTTTTCTAAGAGCTAAAAACTCCTCTATTATCCTATTTATTCTAAAAACTTCTTTGGACATTATCTCTATATATTTTTTTATTTTTTCATTTTCAGCTATTTTTTTTAGATATTCTATACTGTAATTTATTGTATTAATCGGATTTCTTATTTCATGTGCAACCATCGAAGCCATTCCACCAAGCAAAATATCTTTTTCTTTTTCTTTTATATAATTTTGTGCCTCCAATAATCTTTTTTGATGAATATTATAAATCACCATAAAAATTACAACTACTATTATTACAAATAGATTAAAAATTAAATTTATAAGTCCTCTATTAATCTCCTTATAATCATTTGTGAAATTCATATATAATACCATTTTATAATTATAAATTAAATTATTCAATTTATCATCTATTTTTAAATTAGATATTGTTTTTATAATTTTTAAATTTTTATCCACATTCCCTATTTTTATAAAAATTTTATTAGAATTATCTAAAATTTCTATTTTTTTTGTTTCTCCACCTTTTATAATATTTGACAAAATCTTATTCAAAGATATATTTTTTATTAATTCTTGAGGTTTAGGATATCTCTTTATTATAATATAATCCCCTTTTTCCCCTGCTAAATATATACTGCTACTGTCATTATAATATTCTACAACTAATATCCCATTATCTAATATCTCTTTTAATCTATCTTTAAATATTGGAATTTTATTATCTCCAAATATTATTTTAAAATTCTTATCTAATTTCACAGAATTATTTTTACTAAATTTTGTATATTTAAAATCTAAAAATATCTTTTCATAAAATATCTCTTCTATATAAAAGTATTTTTCAATAGATTCATCTAAAAGTATTTTTACTGTATTTGATAATTTTTTAGTCTTTATTTTAATTTTATATTCTAAATACACCTTTTTTTCTGCATAAGCATTTATATTATATACTCCATAAATTATAGATATACCTATTATAATTAAAAAAATCGTATTTTTCCTCAATTTGTTTATATAATTCAATATTTTCACCACCTAAAAAAAATAGAATATAACAGCTCTTTAAATTTAAAATTATGATTAGACCCCCAAAAGGTAGTTTTCTAAAATCATACCACTACATATAGTTTCGTAAAAGCTTTCGAACACTATATGTAGTGGTATGAAGAAAACTAAATACCTTTTTGTGGGTCAATCAAATTATTATTAATTTTTAAAAAGAGCTTAATTATATTCTACTTTATAACAGATTAATTATCAATTGTTATTTTTTAATTCCACTTATTAAATCTTCTTTTCCCAAAATGTTTACCACTTTCTATAGAAACACTCTTTTCAATACTGTAACCTGAATTGTGTTTAGCTATATTTTGATTTTCAATTAAACTATTTGCTCCAACTACAGCTAATGCAAATATTGATACAACTCCTATTACTTTTGGAATAAATTTAAGCTCTTTTGTCTTTTTAGGAACGGCTTAAAAATAACCTCTCCATTTGATAATAAAAGATGCAATGTTCTAAGCATTTTTATTATCAAATATAAAAAAATATTTTTTTAAACGTTCTCTTAGGTTGTGCTGTTAATTCTGTCATATACCCAAAAGGACATACTTGACACCAAGTTCTTGGTTTAAAAAACACTCCTAATATAGTTCCAACTATTGTACTTGTTAATATAAATCTAAAAAATACAAATCCAATCTTGAGTAAATCTCCTCCTGTCTTCGTTAAAGAATATATAAAGAACCCAAACATTAACGTAAAGAACAGTGCTTTAAATTTTCTGCTTTGAAAAAACTTAGGTGCTTTTTTATTTAAAGATATCTTTTGTAATATTTTTGTTAAAAAATTTCCTCTTGGGCAATAAAACGCACAAAATGTTTTTTTCTTATCTTTTATACTCATATAAACTGCTGGTATCATACATAATAATGCTGCTAAACCAAATAATGGGTTAATTATAGCTAATAATAAAAATAATATCATTAATGTCCAGTTCCATTTTAAATATACCTCTTTTAATTTTTTCATTTTTTTATCTCCTCTCTTTTTTATTTTTTATAAACTTTTATAATTTTATCCGTAAAATCTATGACTAATTTATATTTAATTTTTCACCATAGATTTTACGGCTTCTAATTTCAACTTAAACTCTATCTTCTTCCTCTACCTTGTCTTTGACCTCTATTTCCTTTATTTCTATTGTTTCTTCTCATATTTTTTCTACCACTGTTTCCTTTCCCATAAGCTGGTCTATTGTCATTAATACCATCTCCATTTGCATCTACGAAATTATCATTTATTCCATCTCCATTCTTGTCCACAAAATTTCTACCTTGCCCATTTGGATTTGCTCTTCCTGTCCCTCTTTGCCATACTGTTACTGCTGAATTTGTTGTATTAACTCTGTTTCTGCCATACCCTCTTCCATAAGCAGGTCTATTATCATTTATTCCATCTCCATTTGCATCTACGAAATTATCATTTATTCCGTCTCCATTCTTGTCTACAAAATTTCTACCTTGTCCATTTGGATTTTGTTTTCCTGTTCCTCTTTGCCATACTGTTGTTGCTTTTGCTGTTGTTGTAGTTGTTCCCTCATCTGCCATTACCAAACTTCCTATAATCATCATTGCTCCCAAACCTAATACCAATCCTTTTTTCATTTTAAACATCTCCTTTAATTTTTTATTTATTGACCTATTAGGTCTTAACACTCTATATATAGCAACTCTATTTCAAAAATATTATTTTTATCTATTTTTTTATAAAAAAATTATAATTTTTATTTTATATTGCTCTCGGCTTAAATAAAATCAACATTTAAAGCACAAAAATATTTATTAAAAAAATTTATTTTCAACAGTTCAACTTGTATCTCTTGAAAATCAATTAGATATTCTATCCTATTAAACAAAAATGCCTATGCAAAAAATTCATAGTATGAAAATTTTGCATAGGCATTTTTTGTAATTTATTTATATTTTCTGAATAAAATTATACTTTCCTAACAAATAAAAAAAACTATACAATTCAACTTTTTTGTTGTTGTATAGTTTTTTTCTATTATTTTTATCCTACCCTATTCTCTTCAAAATTCTTCCCCAATTTGAATACAGTTTTATCTCTCGATTATTATATAAATCAACCTCATTATTATCATTCAAAACATCTATATATCGCCCAGCAGGTATATTATGCTCTTTCAAATTCACTTCATTTTCAGATGAATTAAATATTGCTATTACCATTTCGCCATTATATTCTCGCTTAAATCCAAATTGCTCTTGTTTAACAAATATCTCTTCATAATTTCCATATTTTATAGCTTGCGAACTCTTTCTAATTTGTGATAATTTAGAAATATGATTTACCATGTTAGCTGATTTATTAGAGTTCATATAATTAATATCCAGATCAGGTCTTAATTCTCTATCACTACCATTCCATTTTTTTCCTTCTATCTCCCATTCACTACCATAATATATAGATGGAATTCCAGGCATTATATATAGCATTGTATATAATGTATATAAATCTTCTTTTTTCTTAATAGTTGTAGCAACTCTCTCTACATCATGATTATCTGCAAAATTATACATTGCAATATCTTGATAAATTCCACCTTTTGAAAATTGTCTTTTTAAAGAATGAGCTATCTCAAAATAATTTTTATCATTATGAGAAGAGTATAATCCTTTATAACATTCATAATTTGTAGTAGAATCAAGTTTTCCTTCTTTTATCCATCTACTATAATCTCCATGAACTACTTCTCCCATTAGCCAAAAATTTTGTTTTCTGTTTTTAACTGTTTCTGATAATTTTCTCATAAAATCAAAATCAAGAGTATCTGCCGCATCAAGTCTTATCCCATCAATATCAAATTCATCAATCCAATATTTTGCAGCATTTAATAAATATTCTACTACTTCAGGATTTTTAAGATTTAATTTAACAAGATTATAATTTCCATCCCACGTATTATATGTGAAATTATCATTATATGGACTTCTTCTGCTAAAATCTACACCGCTGAACCAATCTTTATATTTTGAATTTTGCCCATTCCATTGTAAATCTTTAAAAGTAAAATGTTCTCTCCCTACGTGATTAAATACTCCATCCAATACAACTTCTATTCCGTTGTCATGCAAAGCTCTTACTACTCCTTTAAACATTTCATTATTTCCTAAACGTCTATCAACTTTATAATAATCAACTGTATCATACCCATGTTCAAAAGATTCAAAAATAGGTCCTAAATAAAGAGCATTTACTCCTAAAAATTTCATATGTGGTATCCAATCAATAATTTTATATAACCTCTCTGTTGGATTCGATTGAAAATCATTTCTTTCTGGTGCTCCACAAAATCCTAAAGGATAAATGTGATAAAACATTTTTTCGTTTGCTAAATTCATTTTTTTCTCCTCCTCTTTCTTTTTATACTTACCGTTTGGTATAGTGTTCCTTTAAAATAAAAGGGTAACTTGTACCCTCAATATCAACTAAAAATTCCATACATAAATTGTCTACACAGTTGTCTTGCACTTTCTTCACTTATATCTTTTTCATCTTTAGTATAAAAATAATATGATATCCCAGAATTTATCATTCCCATAAATGAAAATGTATACATCCTACTTCTTCCTCTCATATTCCCATGTTGCTTTTCAGCTTCTAAAAACATTTTTTCTATTAACATGTGCTGTTTTGTATGATATTCCATTGTAGATTTATATGTCTGACTTTTTTCAGGTGAATACGCATGATTTAATATTAATCTGTAAAAATCAGAATTTTCTTTTGCAAATTTAAAATAACAAAACATTATTTTTTCTAATGTCAAAACTATATCGCCTTTATAATCACTTATTTTAGCAAGTTCATCTAAAAAAGGTAAAAACTTTTCTGTTAATATAGCATTTATAAGACCTTCTTTGCTTCTAAAATAGTGATATAATGTAGGCTTTTTTACTCCTGCTGAATCAACTATTTTTTGAACTCCTACGTTATCATATCCCTCTTTAGCAAATAATTCAAGGGCGAATTTCATTAATTCTTCTTTTTTTGACATCGGTTTTCTCCTTATCGGTTTTGTTTAGTATACCATTCGGTACAGTAAATGTCAAGATATTTTTATACAATTTACTTTAACATTTCATAATTTTATAAATTTGAGTATATTTTTTAGAATATTTAGATATATTAAAAAATAAATTTGTCAAAATTATTTTTTACTTTTTTTAATTTTTACTATGCCATACTTATCTTTATAACAATATAAAGACTGTATATAAAGCTACTTTTATTTTTCACTCTACAACAATTTTTTCAATTCATAGCATTTTCATTTTCTAATTCACTTATTTTTCTATTTTCTATTTTTTCCCATTTTATCATAAATATAACAACAGAGACAATCAGTACCATCCCACTAATTAAAGGTAAAAAATTTATTGCATATTTTTCTATAATAGAACTTGATAAATATACCGCTAAAGGAGATAATATACTTCCTCCCATAGTAATAACTCCTAATATTTTTCCTTTTTTATTATCTGGGATTATGTCCTGAAACAAAATCATCAATTTTATATTTGATATTATCATAAATAACCCAAAGAAAAACATATCTATTAAAAATAAAGAAAAAACTAAAATTTTAGCTTTAATATTAACTATAGTAATAACTCCTATAACTAAAAGAAAAAATGCCATTAAAATAGTTGATTTATATGGATATTCTACTTTTAATTTTTTCTTATTAACTATAATAGACCCAAATAATGCTCCTATTGAAAAAAATGTCCTCAAAATTCCAAATTCAACAGAAGAATACCCTTTTAAATTAATAATGATATATGGAACTGGTATTAAATAACCAAAATTAAAGAAAAAGTTAAAAAGAACAAATGATAAAAATAGAGTTAAAATTTTTTTATCATTTTTAATATCAGCAAATCCTAATATTAATTCACTAAAAAATTTATCTTTTTTCTTTTCAAGATTAGAGACAATTTTATTATATCTTAAAAATAATTCACTTATTCCAGATAACAAAAAAGATATCCCATTTATAAAAATAAAAATTTTAATATCAACTATATAATAAATTACTCCACCAATAAGTGGACTTAATATATAAGTTAATGAATTAATAGTCTCATTTAACGAATATAGCTCTTTTATTTCATTATTTGATATTAACTCCTTTAAAGAACTATCAAATAATATATTAAAAAAAATACTTGTTGTTGATAATAAAAACATTGTAATATAAATAAATTCTATCTTTACCCCAAATAAGTTTACTGTAAAATAAAAAAAAGATAATATAAAAAAACTTAAAAAATCACTAATAGCTAACATCCATCTTTTATTTATTCTATCTACCAAAGTTCCTATTATTGAAGAAAAAAATATTCTTGGTAAATAGGTTACTATTAAAGATAATCCAAATGACAAAGGAGAACCTGTTATTTTTAAAATATAGTAACTTAAAGCAAAATTAAATATATTAGTCCCAAATAATGAGATTATTTTACCTAATAATAATAATATCTTATTTTTATTTCCCGATAAATTTATAAACTGCACTAGCATCTCCTCCTACCAGTTTTTTCCAATGTAATAGTTGCAAATACTTGCGAATATATTTTTTCATTAGATTTTAATTTTATATGAATCTTTTTCAAAATAGAATATTTAAATATGTTGAATTATATTAATAAGCAAGTTTGTTTCAAACGTAGCATTGAACAGCCCTGTGTATAATATAATCCATTTTTCTAGTTGTAGTTCTTAATTCACTTTACCTACTCTAAATGCGAAAGAACCAAAAAACTTGACACACCCCACCTTTTAACAATTTAATATTCCTTAAAATGGATTTTATCAACATTGTTAGCGATAGTAAAAAGAGAGTTAAATCTTTCTTTTATTTCGTTGAACACTTCATTTTTAGAGTTGTTTGCATTAATTCTTTGAATATTTTCTTTATTAGTTATTATTTTTTCAAACATATTTCTAACTTTAGTTAAAATATCTATATTTTCATCAATTCTATGCTCCTTTTCTTTTCTTGTCAAAATTCTTTCTTGAGATAAGCTTAATTCGGTGTCAAAATAAAAAATTAGATTAGGTTCTTCGACTAATGAAAGAATCTTCTCCACCCATTCCATCTCCTCTTTCGTGCATCCATATCCCATTCCATAGGCAATAAAGTCTATTTTATGTCTGTCACATAGTAAGAAGTCATATTCCGACACTTCTTTCATTATCTTTAAGTAGTGATGTGTCACGTCATAAGCCAAACCAATTCGAACAATAAACGGTGGCAGTTCATGATATGCACATGGATCCCCAAAGTATCTATCACAATACTCATAAATTACTTCTAAAGCAGAAAATTGTACTTTTGTAGTCTTTACTTTAAATCCTTTATTTGAGAGATATTCATAAAGGTTATTCATCTGAGTTGTTTTTCCTGAACCATCAATTCCAGAAAAACTTATTACATATGGTTTTTTCATTTTTTTACCTCCCTTATTCTCTGGGTAGTGTCAAATATAAACATTTATACTTTAATATATATCATTATACCCTTTTAAAAATTTCTTTTCTATTTATACCTAGTTTTTCAAGCTTTTCATTAATTCCATTTTTTCATTATATTTCAGATTATTTTTTAATAAAAAATCATTATAATCATCTATATTATAATTTTTAGAAATCATTTTCATATATTCCCAAATTAATTCTATTATTAAAATTCTCATTGGTTGTTACCTTGATTTGATAAATTGTATATTTTTTCACATTCCATAATAAAATCCTCTTCTTATTATATATTTTTATTTTTAAAATTATAACTCATATAATTTTTAATACTATTTTGAAAAACTAAGAAATTACAAAATTCTAAATACGATTTTTAGATTTTGAAAAATTCGAACAATTCAATCTCTTTACAGTCCCATTGGACTAAAACATTATACTACATACAAATATTTTTTTCAAGTTCTTTAGCTTAAGATAATGTAAAATAATTATAGAATTTTAGCCACCAATTTACACTAATATACACCAATAATTAAATACAAATGAATGATATTTTATATTCATCAGTGTTAACCTCTGTTCATATCGTGATTTTAAATGTTTTTTTTTATATTTTTGTATTAAGATTCTTTTTCTATAAAAATTTGCCACTATCATCATTCTTTAAATTTCATCTCTAATATTCATATCCAAACCTTAAACTATTCAAATTATATAATAATTGATTTTTCCATTAAACAATAGTATAATTAATAAACAAACTTTTACAAAAATCTAAGGAGGTAAATTTTATGAGCGTTAATAAAGTAGTAGCTATAATCGGTGGCGGTGCAGGTGGAATGACAACTGCTGCTCAATTAAAAAAATATGATTCATCTATTGATGTAGTTGTATTTGAAAAATCTTCATATGTTGCTTGGGCTGGATGTCCAACTCCATATTTCATTGCAAACGAATTACCATTTGGAAGTGTGGCACATTATACTCCTGAACATTTTAGAAATATCAAAGGAATTCAAATTTATGATAATCACGAAGTGGAAAAAATTAATTTTGACTCAAATTCATTAATTGTAAAAGGTGAACAATTTAATGGTGAATTCAAATATGATGAATTAGTCATTAGCACAGGCGGAACTCCATTTACTCCACCTATAAAAGGTTATTCTAAAGATATAAAAGGAATTTTTAGATTATCTCATGCTGTTGATGCTATAAATATCAAAAAATATATAGAAAATGATAAACCTAAAAAAGGTGTTATTATAGGTTCTGGATTTATAGGTATAGAAATGGCAGAAAGTCTTTCTCTAAACAGTATAGAAACTGTTGTCGTTGAGAAAATAGACCGAATTTTCCCAATGTTTAGCAAAAAACTTCTTGCTCCAGTATACAAAAAATTTGAAGAAAAAAATATAAAATTAATTTTAAACAATTCAGTAGATGAAATTTTTTCTGAAAACGGAAAAGTTACAGGTGTAAAATTAAATGATGGTTCTACAATTGATGCTGATATTATCATGATGACAATTGGAACTAGACCAAATACAGAATTAATTGAAAAATCAGGATTTCAACTTAATGAAAATAGCAGAGTTTACGTGGACGAACATTTAAAAACATACATACCAAATGTATATGCATTAGGTGATATGATTTTTACAGATAATATTATTACAGGCAAAAAAGTTTATGCTCCTTTTGGAGACGTTGCAGATAAACAAGGTATCGTAGTAGCAAGCAATATAACTGGAACGCCTATGAAATGGAAAGGTGTAATGGGGACTTTTGCCACTTCATTTTTTGATGTTAGATTGTCTAAAACAGGTCTTACATTAGAAGAAGCAAAAGAAAATGGATTTAATGCTGGTTCTGTTTCTTTAAAAGCTTTTACTAAAGTTCCAGGATTTGCTGACTCAAGAGCAAATTCCATTGAGGTAGTTTATGATAAAGATTCAGAAACTATTTTAGGTGCATTTATGGTAGGATATGAAGCAGTTGCTCAATTTATAGACCAATTTGCAATAGCCATTAAATTTAAATTAAATTTAGAAGACTTATTTGACGTAGATTACGCTTATTCACCAACTAATTCTACTGTATGGAATCCATTCCTAGCAGCATTTAGAAAAATATTAAGATAAGAAATAGCATAGCTTATATACTTAGGAACGTTTAAAAAATAAGTTTCTTATATTTTGTTATAAAAACGCTTAAATTATTGCGTATTTTAAAACAAAATGGGAATGTTATTTTTAAGCCATTCCTTAGTAAATTTAGACTTTCCTAATATATATAAGAAAAGAAGCCTTTTTTAAAAACCGGCTTCTTTTCTTTTTCTCTTCTTCTAAATTGTACATTGTCCACTATCAATTATTCTTATAATATTCAACTATATCAGGATATTTCCCCATCTCTTCTTTCCCTTTATCATTTAATTTATATACTCCTCGTTCAACCCTATCAAACCATCCATAAAAGTTTTTAATCAAAATACTGCTTGTTTTTTCCCCTGTTCCAATTTTTTTTAATTCTTTAGCAGATAAAGGTCCATTTTTTTCCAAACAACATGCAATAAATATATTCTGCTCTTTATAAGCTGTCATTATTGCTGTTCTTCTACTTCCTCCTATATTTCTATTCCCAGTTCTCCCCTTTATCTCTTCTATTATTGCAAATCTCTGTTTTTTACTTTTTCTCTCTACATATTCATTTGGATGAAATATTATATCTACTCTTGTATCTTTTTTTAGAAAAACAACAAATATCAACCCTAACTCTAATTTTTTTAATAACCTAACTATATCTTTCCAATTTTTAGGCAAATTTTCAGGCCTTGGCACTGCAATATAAACAGAATCTGCTCTCCTCTGTCTTTCAACTGCTTGAACTAATAAAGTCAAATTTATACTTTTTTTCAGCTCTATAATAATAAGATTATCATCTTTTATTGCAACTACATCACAATCTTTAACTTCACTTTTTACATTATAGCCATTTTTTGCCATATAATCATAAATTGGTTTATATAAGTCTGTTTCTTTAATTTTTTTCATAATTCCTCCAAAGCCAAAAAATCAATCCAAATCAATATCTTTCCCACAATATGGACATTTCATCTTTTTTTCTTTTTCAATTGCTATCTCTTCTGTAAAAGCTGATGCCAATATACCAGTTGGCAACGCAAATAATCCAATCCCTAAAATAGATATAATTGCACCTAAAAACTTCCCTAAAGCCGTTATTGGATAAATATCACCGTATCCTACAGTAGTCAAGGTTGCAATCCCCCACCACATCGCTGCTGGAATACTCGAAAAAGCTTCTGGTTGTGCTCCATTTTCTATATAATACATTAGACTAGAAGTAATTATAAGTAGTACAATTACTATAAACAGGGATATTAAAAGCTCTTCTCTTTTTTTCTTTATAATTTTATAAAATGTCGTAACCGCTTTTGAATACCTTCCAACTTTTAAAAGTCTAATCAATCTAAATAATCTTACAGCTCTCATAATTCTCAAATCAAATGGAATTAAAACAGGCAGATAAAATGGTAATATTGCTAATAAATCTATGATTGATAATGGGGATAATATAAATTTAATTCTTGCTTTAAATTTATTTTTTTCTTTTTTATATTTATCATCTTCCACACAAACCCATATTCTCAAAATATATTCCACACTAAAAATTATAACTGATATAAATTCAAAATATAAAAAAACTTTTCCATATTTTGTAACTAAACTATTTACAGTTTCTAGTATTACAGCCAATACATTTAGAGATATTAAAATCATCATAAAAATATCAAATATTTTACTCTCTTTATCTCCCTCTTTTGCTTTTTCCAATATTTCATATAATCTTTTTCTTTCTATTTTTTTAAATTTAGCCAATCTTTTAAAATTATACATAAAAAATCCCCCTTTTGCAAATAATTAAATCGTATGGATATTATAGTTTAAATATATTAATCAAAATCAAAGATTATACTTTTTTCTTGATAAAAAAGTACCAAAAAATCAAGTGCTAATGCTCCAAGTAATAATTTTCTAAGGCTCATTCCCTACAGTTGCCAAACTCGCTACGCTCAAACAATGTCAACTGCTTAACGGGAATTTCACCAAGAAAATTTATTACTTTCCGCAAATGCACGGGGAAAAATTAAAACATTAAAATATTAAAACATTAAAACATTAGATTCTTTAATCAACTACTCAACTACATTAAAATTCAACATATGATTACCCTATTTTATTATCGGATTCTTTTATTAATTCATTATAAAAAAACAGCGTAGCTTATTTTCATGAATAAATTTATACTTTCCTAACAAATAAAAAATGAGTCCAAACCCTAAAATAAGCTTGGACTCATATATTTATATTTTTAAAGAACTTTTTCTAACTTCTTAACTTACCATTAAATCTTTTTTCTATATTTCCCAAAATCTTTTTCAAAACTTTATCTACTTCTTCATCTTTTAGTGTATCAGTTTCACTTCTAAAAGTTACACTTATTGCAATACTTTTAAATCCTTTTTCTACTTGTTCTCCTTTATATACATCAAATAGCTCAACTTTTTCTACTATTTTTCCACCTTTTTCTATAACTTTTAATAAATCTCCAACTAAAACATCTTCTGGTGCAACAATTGCTAAATCTCTTTGAATAGCTGGATATTTAACTATTTTTTTATATCCCGTTTTTTTCTTAGAATATTTTTCTATCTTTTCAATATCAAATTCTGCTATATATACTCTTTCTTTTATTCCCATATTCTCAAGCACATTAATATGAATTTCTCCATAACTTCCAATTAAATCTCTTCCTACATATAAATCTACACTTCTACCTGGATGAAACATTTTAGATTCACTTCTTTTTAATGTATAATTTTTAAAATTTAGTATCTCAAAGAATGATTCTACATATCCTTTTAAATCATAAAAATCATAATTATTAGGCTTTGCATCCCATAAATTTTTATTATTTTTTCCAGATAATGCTACTCCAAATTTTAATGTTTCTATAGGTAATTTTTCTTCAGATTTAAAAAATAGTTTGCTTACTTCAAATATTTTTAAATCCGAAATATTTCTATTTAAATTATCTTTTATATTTGTTAAAAAACTATATGCAAGTGTTGGTCTAAGTATTGCCATATCTTCATTAATAGGATTTTTAATTTTTACAGTTTCAGCTTCATTGTATATTTTATTTAATCCAGCTTCAGGGATAAAGCTATAATTTATAACTTCTTGAAGCCCTATTTCACTTAAATATTTTTTATATTTCATAGCTAAAGCTATATTTGAATCTATTTTTCCTGGCTTAATATTTTCTGTTGGCATAATAGATTGTATATTCTCAAATCCATAAATTCTCAATACTTCTTCATATAAATCTGCAGCTCTTTCCAGATCTCCTCTAAATGATGTTGGAATTACTTTTAAATCATCTCCTAAATCTTCAACTTCTAATTCTAAATTTTTAAGTATTTCTACAATTCTGCTTTTTTCTATATCTTTTCCTAAAAATTTAGATAATTTATTTATATTTAACATAATTTCTTTTGTTTCAGGTTTTTCTATATATTTATCAACTATTCCTTGTACAATCTCTCCACCTGCTACACTTTGGATTAATTGTGCTGCCCTTTTAGCTACAGTTTCTGTATCTTCTATATCAATTCCTCTTTCATATCTATATGAAGCATCACTTGCTAATCCCAATTTTTTAGATGTTTTTCTTATATTTTCTGGTTTGAAATAAGCAATTTCTATAAGCAAATCTTTTGTTTCATTTGTAATTTCTGAATTTAATCCACCCATAACACCTGCTATTGCAACAGCTTTTTTAGTATCTGCAATAACTAACATAGACGAATCTAATTCTCTTTCTACATTATCAAGTGTAACTATTTTTTCATTTTCATTAGCAGCTCTAACTACTATTTTTTTCCCTTCTATTTTATCATAATCGAAAGCATGTATAGGATGCCCATATTCCATTAAAATATAATTACTAACATCTACTACATTATTTATACTTCTAATTCCAATTGCATTTAATCTTTTTTTCAACCAGTTTGGCGATTCACCTATTTTTACATCTTTTATAACACAAGCTGCATATCTTTTACATTTTTCACTGTCTACAATATCTACATCAATATAATCAGATGCTTTTTCAGAATTTTCTTCTATTTTTATTTCAGGATATTTTACTTTTCTTCCATAATATGCACCTAATTCTCTTGCTATTCCAATATGTGATAGACAATCTGGTCTATTTGGTGTTATTTCAAGCTCAAAAACTATATCATTTTCTTTTAAATGCTCTTTCAAATTTTCTCCAACTTTTGCATTTTCTTCTAATATCATTATTCCTTCATGAGATTCAGATAATCCAAGCTCTTTTTCAGAACATAACATCCCCTCTGATTCCACTCCTCTTATTTTAGCTTTTTTTATCTTAAACTCTCCAGGTAAAATAGCTCCAACTTTTGCAACTGCAACTTTATCCCCATTTTTATGATTTTTAGCTCCACATATAATTGGCAAAATCTTATCTCCTACATCAACTTTACAATAAGTTAATTTTTCAGAATCAGGATGTTTTGTAAGCTCAACTATTTTTCCTACAACGACATTATCTAAAAATTTTCCTTGCTCTTCAATAGCTTCAACCTCTTGTCCTATCATAGTTAAAGCATTTTCAAGCTCCATTATATTTTCATTTATATCTATATACTGACTTAACCATTCTAACGATATTAACATTGTGTTCCTCCCTATTATAATTAAATATTCCTGTGCTATTTCTTTCTCTCTGTTTAATACACGTATATTTTTTATTTTTACCCCCTCATGAATTGTCCTTACAGACATCTCACAAAAGATAACATTAACCCGTTCGCTCCTACATGTTCTCTCTCTATTTAAATTGTCTCAAAAATCTCATATCATTTTCGAAAAATGCTCTCAAATCATCTATTCCTTTTCTAAGCATTGCCACTCTTTCTATTCCTACTCCAAAAGCAAATCCACTATATTTTGTCGAATCATATCCTACTTCTTCTAATACTTTCGGGTCTACCATTCCACACCCCATTATTTCTAACCATCCACTTCCTTTACATACTCTGCAACCTTTTCCGCCACAAACTACACATTCTACATCCATCTCTGCTGATGGTTCTGTAAATGGGAAAAAATGTGGTCTAAATCTTGTTTTTCTTTCTCCAAATGCTCTAATTACAAACTCTTCTAATATAGCTTTTAAATTTGCAAACGAGATATTTTCTCCAACCATTAATCCTTCCATTTGATGAAACATTGGTGTATGTGAAATATCATAATCAGAACGATAAACTTTACCTGGACATATCATTCTAAGCGGTGGTTTATGTTCTTTCATATATCTTATTTGTACAGGTGATGTTTGAGTCCTAAGTACCACATCATCCTCTATATAAAATGTGTCTTGCAAATCTCTTGACGGATGAGTTTCTGGAATATTTAATGCTGTAAAATTATAATAATCTAATTCTACTTCTGGTCCATCAGAAATATCAAATCCCATTTCTATAAATATTTCTTTTAAAAATTCTGTAGTTTCAGTTATAGGATGTAATCTACCAGCTGCAACTTTTTTCCCAGGTAATGTTATGTCTATAACCTCTTTTTTTAACTTTTCTTCTTTTTCTTTTTCTTTTAATATGTTAAATTTTTCTTCTAATTTTCCATTCAAAAAATTTCTTGTTTCATTTACTATTTGACCTATAATTGGCCTATCTTCTTTTGATACTTCTTTCATCCCTTTTAATATTTGAGTAAATTCACCTTTTTTCCCCATTAGTTTAATTTTAATATCTTCAAATTCTTTTAAATTAGCTATTTTTTCAATATTATCTTTTGCTTTTTCTTTTAACTCGATTATTTTCTCTTTCATCTTTCCTCCTGTTTTTTATAATTCAATGTTTTTGATTATTTTTCTATATTCTTGATTAACTTTTCTATATTTTCCAATTTATCCTCTTTTCTTATTGCATTTTTTACTTTTTCTAATTTTTCTATATTTTCTATTTGAGTTATATTTTTCATTAATTTTAATCCAGATTTTCCAAATTTTATATCTAATGCTAATTCTATTCCTTCTATCATTCCTTCTTTTTTCCCTTCTGTTCTTCCTTCTTTTTTCCCTTCTTCTCTTCCTTTATATAACCATATGTTTTTTGACTTCTCTATTCTTTTTTCTACTAATCTTTCTGCTGTCGTCATGGCAATCTTACCTCCCTCTTCTGACACATTTTCTTTAATTAATTCTATTAATTTCTTATCATCTATTTCCGTAGTATTTAATAAATATATTGTTATACTCTTTATTGCATCTATATTTGAATTCGACAATAATTTCAATATAGTTGGTAACTCAATTAATAAATCACTACTATAAATATACTTCAATAATTTCATCATAGCTTTTAATTCTGAAACCCCAACTATCTCACTGTCTTTATATTTACTTAAATCATATAGCATATATTGAAAATCAGGTATATATTTTTTTAATTTATCATCTTTTAACTTTAACATATCAGAAAATTTTTCTTCTATATTCCAAACTTTTTTCCCATGATATATTACCAACGGTAATATTATTGGTAATTTCTCTTTCTGTTTCATTTTACTTTTCCAAATTTTCAACATATATTCTAATAATTGTAACATTATAAGTTTATCGGGATAACTTTTATGCTCAAATAAAAAGTAAATATAACTTTCTTCTCCTGATATTTTTACTTTATATAATAAATCTGTAAAATATTCTTGAAGTTCTTCTGTTACATAACTATCCTTCTCTATTTCCAATTCCTCCAAATTTATAAGCTCATATATGTCCTTCCCTAAATAATTTTCTAAAAAACTCTTAGCATTATCTTTTTTTGTCAATATCTCTTTTACATACTTATCATGTGGATTTACTAATTTCCCCATTTTTCACCTGCTTTATAATAATTTTTTTACTTTTTCATCTTATCCAATTCAAAAGTAACATGCACAGTTACTTTTATCTCCTGTTTTCTGCTAGATGTATTATATAATCCATAACTTGCTATTGCTGTGGAATAAGGTTCTGTTATTTGAAATACTCCTGTTCTTGCATTTATTATATCTCCAACTTTATAATCAGTATTTGATATAATTTCATCTCCTCTTTCTCTTGCATTTATTGTTGCTTTTGCCAAAATTTCTTTTTTCATATCATCTATTTTAGAATAATAATATCCTAAATTTGAATTTTTAATTAATATTCCAGTTTCTGTAAGTTTGTCAGGAAACAGTGCTAAACTCTCAACTTTATCAATATCTTTTGAGATAATATAAAATTTTTGACTTGCAACATACCCTGATATTACTCCATCTCTATTATAATTAGGATACATATTCATTGGAGTTACTGTAATTTTTTCATTTAACCCATTGCTTTTTAAAGCTTTTTCCAATTTTTTATATCCAGCATTTAATTTTGAATACAGTTTTTTCACACCATTTATATCGCTTCTCTCTTCTAGTGTTATACTCCATTTTATAGTATCTGCCTCATATTGTGTAGATGCGATTCCTACTGCTCTTAATGTTCTTAATGGTTGCCTGCTCTCATAAAGAAACTTTCCAAATATATAAGACGACACTATTAAAGCCAAACTTAAAACAGTTGCTGATATTATCAAATAAATTTTATTCATTTATCCACCTCTCCATTCTTTTTAGACTTTCTTCTTTTCCTAAGTAATACATTGATTCAAATAATCCTGGTGAAACAGTTTTTCCTGTTATTAAAACTCTAACAGGCTGTACTACTTTATTTAAGCTCATTCCATTTTCTTTTGCAAAATTTCTAAATACTAATAATAGATTTTCTATATCCCAATTTTCATTTTCCAAAATTTTATAAAGATTTTTTAGATTTTCTTTAATTCCCTCTTTTTCAAGAAACTTAGTTTTTCCTTTTTCATCATAACTTTCTATCTCTTCAAAAAAGAATTTGTTAAGTTCATAAAGTTCTTTTAATGAAGATACTTTATCTTTTGAAATTCCAACTATATTTTTGAAATTTTCTCCCATTTTTTCTATCTCATCTATATTTAGATATCCATATTTTATCAAATAATCTTTAAATAATTTTTCCATTTCTTCTAAATTTTTTGAGCTAATATAATATTTATTAAACCAATATAGTTTTTTATAATCAAATACAGTTGCCTTTTTAGTCATTTTACTTAAATCAAAATCATCAATCCCATCTTCAAAAGAAAAAATTTCTACATCTGTTGAATATCCTAATACCATTAAATAATTTATTATTGATTCTTTTAATATTCCATCTTTTTGAAAACTATCAATTGACACATCTCCGTGTCTTTTGCTAAGTCTTGTTTTATCTTCACCTAACATTAATGGCAAATGCCCATATTCCGGTATTTCTAATTCTAAAGCTTCATAAATCATAACTTGTTTTGGAGTATTTGACAAATGGTCTTCTCCTCTGATTACAAAACTTACCCCTTCTTCATAATCATCTATAACTACTGCAAAATGGTATATTGGAACTCCATCTGATTTTCTTATAATAAAATCTTTGAAATTTTCTTTTTTAAAATAAACTTTTCCTTTTATTTTGTCATCTATCACAAAATTTTTATCTGGAATTTTTAATTTTATAGTAAATTTTTCGCTATTTTCAATTTTCTTTTTAACCTCTTGCTCTGATAAATTAAAACAGTTACACTTATCTTCTTTATCATTACAAAAACATCTATATGCTTTATTTTCTTCTATTAATTTATCAAAATATTTATTATATTTACTAAAATCATCAGATTGCCTATAAAATTTATCCCATTTTATTCCAACCCATTCCAAAGCATCTGTTATTGCTTTCTCATACTCTTTTTTACTTCTTTCTCTATCTGTATCTTCTATTCTTAATATAAAATTTCCATGATTTTTTTCAGCATAAATAAAATTAATTAATGCCGTTCTAAGCCCGCCTATATGTAAATATCCCGTTGGACTTGGTGCAAACCTAACTGTTTTTTCCATAATTTCTCCTCATCTATATTTCACTTAAAATTTTCAATTTTTCTCTTAATTTTTCCAATTTTCCTCTTAATAAATTAATATTATTATCCTCAGCTAAAAATTCTATCTCTTCTAATAATTTTTCTGTTTTAGACGTTACATCTTCAGAAATTTTTTCTTTTTTTCTTCTTAATAATCTTTTTACTTTTGAAGCTATTGAATCCATCTCATTTTTCAAATCTATTAATTCTCTTTTTTTATTATCTTCCTCTTCAAATTCTTTTGCTTCATTAATCATCTTTTCTATTTCCATATCACTTAAAGAATATGTATTGCTAATAACTATTTTTTGCTCATTTCCATTATCCACATCAACTGCTGATACATTTAATATTCCATTTACATCTATATCAAAAGTTACTTCAATTCTAGGCTCACCTTTTGGAGCTTTTCTTATATTTGCTAATTCAAATTTTCCAAGACTAATACTGTCTTTCGCAAATTTTCTTTCTCCTTGTACTACATTAATCTCTACACTTTTTTGATTGTCAGAAACTGTTGTAAATATTTTCGTTTCAGTTGTTGGAATTACTGTGTTTCTAGGAATTATAGCTGTTATTAACCCACCTTCTGTTTCCAAGCCAAAAGTAAGTGGCGTTACATCAACTAATACAATCCCTTTTATATCTTCTGATAAGACCCCGCCTTGTATTGCTGCTCCTCTTGCAACTACTTCATCGGGATTCACACCTTTATAAATTTCTACAGAAAAAATATCTTTCAACATCTCTTGAACCATTGGTATCCTTGTTGAACCACCGACTAATATTATTTTATCAATCTCTTTTTCTGTAATTTCTGCATCAGTCAGAGCATTTTTTATAGGGTCAATTGTCTCTTCCACTAATTCCTCTATTAAACTCTCAAATTTAGCTCTTGTTATTTCTAAATCTAAATGTAAAGGCCCTTTTTCATTTGCTGATATAAATGGCAAACTTATTTTTGCAGATTTTAATTCTGACAGTTGTATTTTACATTTTTCTGCTGCATCTTTTATAGATTGCAAAGCCATATTATCTTTTGATAAATCTATTTTAGTCTCTTTTTTAAATTCTTCTATAATATAGTCTATTAATTTCTGGTCAAAATCATCTCCACCTAGCTTATTTATTCCGTTAGTTGATTTTACCTCTATTGTCTTTTCTCCATCAATACTACTTATTTCCAAAATAGAAACATCAAAAGTTCCTCCACCTAAATCATATACAAGAACTGTTTGCTCTTCTTCTTTATCTAATCCATAAGCAAGTGCTGCTGCTGTTGGCTCATTAATAATTCTTCTAACTTTTAATCCTGCTATCTTTCCAGCATCCTTTGTAGCTTGTCTTTGGGCATCACTAAAATACGCTGGAACAGTAACCACAACTTCTTCTATTATCTCTCCAAAATGCTCTTCTGCATCTCTTTTTAATTTTTGTAATATCATTGCAGATATTTGTTGCGGTGTATAATCTTTATTATTAACGTTTATCTTTTCATCCGTCCCAATATACCTTTTAATAGACCTTACTGTCCTATCAAAATTTAAAACTGCTTGATTTTTTGCTACTTCTCCAACTAAAAGTTCTCCGTTTTCATTAAATGAAACTATTGATGGAGTAGTTCTATTCCCTTGTGAATTTGGAATTATTTCTACTTCTCCGCCCTCTCTTAAATAGGCCATACACGAATTTGTAGTACCTAGGTCTATCCCCAAAATTTTACTCATAAATTACACCCCTTATATTAATCTTTTTATAAGTCAAACATTTTATTTTAAATCTATAAATATATTAAATAACAAAATAAGATACGCTTTATATGGTAAAGCATAAATATTTTTCTAAATTTTTGGCTTCTGAAAAATTTTGCCTTAAAAAATCACATATTTCAAAAAAACAGCGTAACTTATTTTCTGAATAATTATATACTTTTCTAGTAAATTAAAAGTTTATCTTAGATATTATTTCTTCTATTTCTCCCCTTGTTAAATCCGTTAATTTCATTATCATTTCCATATCCAATCCTAGTTTTATAGATTTTTTTATAACAGCTTCTAATGATTCTTTTTTCCCTTCCTCTAATCCTTTTTCTATTCCTTCTTCGATTCCTTGTTCGATTCCTTGTTCGATTCCTTGAGTTATATATTTTTCTCTTTCAGCTTGTACATCATAATGCACTGCCATCTCAAACATATTTTCCAACCTCCCCTCATAAATTTGCTCGATAACTTCTTCCCTTTCTTCTTTAGGAACATTTATCCTTATTAATAGCAAATTCATTGCTTCTACTACTTTTTCTAATTCTCTTTTACTTCCTATGTCTTTTTTCACATTTTTCCAATAACTTTTTTCTATATTACTCAGTTTTGATAACTCTTCTGGTTTTTTTATTTTATCTATTAATAATAGTGTTGATAACAAATCCTCATAAGTTTCTAATTTTTCAAAACTTATTTTGTTTAACTCTATTAATTCATATTCAAAATTCGGTACAAATCTTTTAAATTTTTCTTCATTTTTCACTTTTTCTTTAAATGCTTTTACTGATGTCCAATTTTTTATCCCATCATAAAAAATTATTGGATATATTGGTGGCAATAAAAAGCATTTATTTCTTGATACTTTTTTATTATCATCTATATATTTTCTCCAAAGTTTCACCATATATTCTAATATTCTAAAACTCATTAAATAATTTATATTTGATTGCTGTTCTAACAAAACAAATACAAATATCTCTTCTCCATTGCACTTAACTTTATAAATTATATCACTTTCTCTGTTAGTTTCTAATCCATCTGTAAATAATGATGGAATTAATTCAAGTTTACTTTCATCTATTTCTGATACCCAAGATTCTTTTATAAAATCTTTTAATAGCATCAAAAATAATTTTTTATCTGAAAATATCTTTTTAAACATATCGTCTCGTTTTACTTTATTTCTCATAATTTTCCCCTTATCACCTGATACCTCTAAAGTCCCTTATGCATAAATTTAATTTTATCCCCTTCTATCTCTATAATTCCATAATTCCCGTCTTGTGCCGCTCCAGGATTAAAAATCTCTATATTTTTATATTTTTCATAATATTTATTGTGAGTATGCCCAAAAATCACCACATCTACTTTTTTCTTTTCTGCAACTAATTTCAAATTATCATACCCTCTTTTTACTCCATATAAATGGCCATGAGTTAATAAAAACTTAAATCCATCTATTTGAATTTCTAATTCTTCTTTACTATCTCTATCCATATAATCTGTATTTCCTTTTACTATATAAAATTTAATTTTATCATTATATAAATAAGATAATTCTATCCCATCTTTTGAATGATCACCTGTAAAAATTATATAATCAGGTTTTTCTTTTTCTACCATTTTATGAATTTTATCAAATTTTCCATGACTATCTGATATAACTAATATTTTAGCCATTTTCTAACCTATAAATACAGGTATTTTAGAATTTTCTAACAATTTAGCTCCTAAATCTCCAACTATTTTTTCAAATGAAAAAAAATGTTTTAAATTCCCCATTATAAGCATATCTTTTTCATTAATAAACTCAATACTATCTTTTACTCCTAATCTAACTTCTTTATATCCTTTTTTTGAAATATTAAAATACTCTTTTAATTCCAAATCATCATCTTCTTCTTTAATATATAAAATATCTAACCTTACTACATCACTAAAAATATTCAAAAATGAAAAAATACTTTTATTAGATTTTTCTTCTAAGTCATCAGCAAAAACAACATTATCTAATCCAAAATCTCCTTTTTCAGGAATTAAAATAATCGGTTTTTCATGTACTCTAAGTAAAGCTTTTATCTCAGAATCTATAATTTCTTTCTTTGTTGTAATTAATATATCTGCACTATTTAATTTTTTTATAGCTGATTCTACAGTTAATCCCTCTACAATAGAAAATTTTGCAGGTCCAAACTCTTTTAAAAACTTTTCTTTTATAGCTTGTGATGTTTTGACTTCTATCTCTTCCCATTCTTTAATTATATAATTCGATGATGTATCCATTATCATTCCTTCTACTCCTGCAGGAATAATATCATATTTATTTACATCTTTAACATATAACCCTTCTACCCTCAATTTATATTTTTCTTGTAATTTTTTCCCATAATTTATTAAAGATTCGCTTCCTTCTTCATTCCTAAAAAAAAGTACTATTTTATTAAACATAAAAATCGCCTCCTAAGTTATTTTTATCTTTTATCATTTTTATATAAATTACTATATTCTATTTATATTTTAGCACAATTTCTTCTTATTTTAAAGTATATTTTTTCAGGTTGATAGTGTAAAGTTTTTGTAGAAAAAATAATTTCAGCACAAAGACACAAAGCACTCAAAGTTACACAAAGAAAAAATTTTTTAAAACCACAGGATAAACATAGATTAAAACTGATAAATAAAAATTGGTAAATAATTATCTGCGTTTATCTACGGATAAAATACTACAATTATTTTACACTACCCTTTCAGGATTATTAATAATATAATTAACTCACAAAAAGGTATTTAGTTTTCTTCATACTACTATATCTAGTATTTGAAGGATTTTAAAAAACTACATTTTTGAGTTCTAATCATAATCTATATAAGCAAAAAGAGGCATTCTAAAATGCCTCTCCTTGTGTCATTCTTATTTGAGTCCCTTCATCTGAATTTGATATATCACTTCTTATTACAATCTTTTCTCCAAAATAATATCTAAATCCTAATCCAAAATCATAATGAAAATCTTTTGTAAATAAATCTAAATTAAATTTATCATTTACCCTTCCCATTTCTACGAGTAATGCTATTTTTAAATTTTTAATATATTTTTCAATAGGTATTTTTAATTCTCCTTGAAATAAAACAGCATTATTATCAAAAAATCTATAATAATAGTATCCTTTTAATGTATCTAAATCTCCTAATAAAGCCATATCCATAAAAGGTGCATATATGTATATTTTTTCATCTTGTCCACTTAGCTTTTTCAGAGCAGTTCTCTCTTTATCTAATATTTTTTTCCCCCCCATATTTATTGCTAAAAATCTAAATCCTAAATCCCAATTATTATATATTTTAAAATATTTTCTCGCATCAAAGCTAAGTTTATAATAATCCCAATCATTTTCACTATTATGACCTAATAGATTCAAACTTTTTTTAACTCCTACAATCATCTTATAATCTTTATTTTTATAATGTTCAAAATATAGATTTAGTGTATCAGTCTTTAGATCCCTAACTTGTGTATCCAATGATTGGTAAGAATATCCTATTTTAAAATTATTTTTCTCATTAATTTTATATTTAAACTCTAAATTATTTCCAAGTAAGTTACCTTTATAAAGTCTGTATCCATTAAACTTCCACTTCTCATCTTCTGGAATCAACCCTAATTTTTGTAATACTAATTTACCATTATTTGAAAGTTTCGTATATTCTTTATTTCCCATATAATATTTGTCTTCTTGCGACAAGTTTTGATAACCATCTAATATTCCTAAAAAATCTTCAGGTATTTTTTGATTCAAACTATCGTTTCCTATATCACCACTTTTTATATCATTAAATTTTATGAATTGAGTATCTAATGTTACACTCCATTTTTTATTTAACTTAAAATCATTAAATTTATTCCAAAATGTAAAAATGTTTGTTTGTGGAGAATATAAAACTACATTTGTCCAAATCCCATCTCTTTTTAAAAAATTTTTATTATAATATAAATCGCCTACCATAACTCCAGCTTCATTTATATAATATACAAAAGGGATAAAGTTATCTTTAGCTCCATCAGAAAAATTATATATTCCACTATACGAATTAACAAAATTTAATATTAAATATATTAATACAATTAATTTTTTCATTTATATCTATTTCTCCTCTCTATTTTCATCACTATCTTATTTGACCATTTCCTTCTACAATATATTTGTATGTGGTAAGTTCTGCTAATGCCACAGGTCCTCTTGCATGTAATTTATTTGTACTAATTCCTATCTCAGCTCCAAATCCAAACATAGCTCCATCTGTAAATCTTGTTGAAGCATTCACATATACAGTAGAAGCATCAATTCCATTTAAAAATTTATTTGCACTTTCATAATCTTTTGTAACTATAGCTTCTGAATGTTTTGAGCCATGTTTATTTATATGAGTAATTGCTTCATCTACACTATCTACCATCTTTATAGATAATATTAAATCCAAATATTCTGTATCCCAATCCTTTTCTTCTGCTAATTTTATATCTTTTAAAATTTGTTTTGTTTGTTTACATCCTCTTAATTCCACACCTGCTTTTTTAAATTCTTCTGCCATTTGTGGTAAAAACTCTTCTGCTATATTTTTATTTACTAACATAGTTTCCATTGCATTACATACACCTGGTCTTTGCACTTTTGCGTTAAAACATATTTTTTTTGCCATTTCTATATCTGCCATTTCATCTACATAAGTATGACAAAGCCCTTTATCATGATAAATAACAGGAACTTTTGCGTTTTCAGTAACTGCTTTTATTAATCCAGAACCTCCTCTTGGAATTATTACATCTATATAATCTACCATTTGAGTAAGAATTTTTACAGCTTCTCTATCTATTGTTTGTACTAAATTTATGCTGTCGCTTGGCAATCCAACTTCATCTAATGATTCTTTTATTATTTTTGCTATTATTTTATTTGAGTTTATAGCCTCTTTTCCACCTCTTAAAATTATTGCATTTCCTGATTTTAAAGCTAATGCAGATGCATCTGCTGTTACATTTGGTCTTGATTCATAAATCATAGCTATCACACCTATTGGAACTCTAACTTTTCTTATTTTTATCCCATCTTCTGTTGTCCAACCAGTTAAAATTTCTCCTACTGGGTCAGTTAAAGTTGCTATTTTTTCTACTCCAGATGCCATACTTTCAATTCTGTCACTAGTTAGCAGTAATCTATCTAACATTGCTTTTGATAATCCTCTCTCTTTCCCTGCTACAATATCTTTTTCATTCTCTTTTTCAATATCTTTTATATTCTTTCTTAAATTTTCAGCTATTTTTCTTAACGCCAAATTTTTTTCTTTTGTTGATGCTACTGTCAATTTTAATGATGCTTCTTTTGCTTTTTTCCCATACTCATATAACTCTTCCCTTAATTCCATAATATCTACCTCCGATATAATTTCTTATCCAGTTTTATTTTACTTTTTTATTCTATTTTAACATAGAAAAATAAGAATGTAAATAAAAAAAGGAGCTATAATAGCTCCCTTTTATATTTTTTCTACCTTATCTAACAAATCCATCTCTTCCTGCATAAATTGCATCTTTTCCTAATTTCTTTTCTATTCTCATTAATTGATTGTATTTTGCTAATCTCTCTCCTCTACAAGGAGCTCCTGTCTTCAAATGTCCTGTATTCATTCCAACTGTAAAATCAGCTATAAAACTATCTGTTGTTTCTCCACTTCTATGAGACACCATTGCACCCCAACCAGCTTTTTTAGCCATTTTTATAGTTGCTATTGTTTCTGTCAATGTTCCTATTTGATTAAGTTTTATTAATACCCCATTAGCAACATCTTTTTCTATTCCTTTTTTTAGCCTTTCAACATTAGTTACAAATAGGTCATCTCCTACTAATTCTATTTTATCTCCTAGCTTCTCATTAAGTAGTTTCCACCCATCCCAATCATCTTCTGCTAAACCATCTTCTATAAGAATTAAAGGATATTTCTCCACCCATTCAGCATACATCTCTACCATCTCTTCTGCTGTTAATTTCCTACCTTCTGTTCTTAAATTATATAACTTTTCTTCTGCATTATAAAATTCACTTGAAGCTGGATCTATTGCAATTGATATATCCTCACCAGGTTTATATCCAGCTTTTTTTATAGCTTCCACAATGGAATCCATTGCTTCTGAATTGGTTTTTAATGTTGGTGCAAATCCGCCTTCATCTCCTACTCCAACTGAATGCCCTCTCTCTTTTAATACTGTTCTTAAATTATGATATGTTTCACTTGCCCATCTTAAAGCTTCTCTAAAATTTGGAGCTCCAACAGGACAAATCATAAACTCTTGTAAATCTGGCCCTTGCCAATTAGCATGAACTCCTCCATTTAACACGTTAAACATTGGACAAGGCAAACTGTTTGCTGTAAATCCACCAATATACTCAAATAGTGGAACTTTCAATGAATTAGATGCTGCCCTTGCTACTGCTAAACTTACTCCTAAAATTGCATTTGCCCCTAATTTTCCTTTGTTTGAAGTTCCATCAAGTTTTATCATTGCATTATCTATTTCAGATTGATTTAATGCCTCCATTCCTATTACTAATTTTGCAATATTTTCATTAACATTTTTAACTGCTTTTAGCACTCCTTTTCCTTGATACCTTTTTTTATCTCCATCTCTTAATTCTACTGCTTCATGAACTCCTGTTGATGCTCCAGAAGGAACTCCAGCCAATCCAACAGTTCCATCCTCTAATACTACTTCTACCTCTACAGTTGGATTTCCCCTTGAATCTAAAATTTCCATTGCTGATACTTCTTTAATTAATGTAGACATTCCCATCCTCTCCTTTTAGAATTTTGTAATATCTGTGTCTCTTTTTTTTAAATAAAATAATTCAAACAAAAATAGCTTCTACAACAAAATATTAAAATTTTATTGTAGAAGCCATTAGCTATTATAAGCAGTTTGGATTTTTCCTGGAGAGCTTCATCTCCAATATTTTATTTTCTATATTTTTAGTATACTACCCTTTTTTATCAATGTCAAATTAATTTTTTTTAATCTCTTATTATTTTTTCCATTATTACATAATTAATTCCAGCTTTTTTAAATGTTTCATCTGTATTTTTCATTCCAAATTTCGTATAAAATTTGCTTTTATCCTTACGAGCATTACACCATATTCTTTTTATATTATTCTCTAATGCAATTTCAAATATATATTTAAGTAATTTTGTCCCTATCCCTTGACCTTGATATTCATTTAAAGTAGCAAATTTCCTAAATTGAAGTTCTTCATTTTTTATAAAAATAGAAATTACAGAAACAATCTTATTTCCAATATAAACTCCATAATGTTTTCCATTAGAATCACAAGGTATCTTAACAAATTCAATACTTTTCTTTGGCCACATTACTATATGTCTAACTTTTATAACCTCTTCTATATTAGCTTCTTTTATTATAAAATTCATTTTATCCTCCTAAAAATATAGCTTTTCATCTCCTAGTAATAATTTTTAAGATAACATTTATGTTTCCCTTTATTAATTACTTTTAATTCTCCGCTTTTCTCTAATTGCCTTAATGCTTTTAATATTTTTTCAGGTTCATATTTTCTAAATTTTCCTGCTATTTTTTCTTTAGTTTTTGCTGCATTACAAAATTCTAAAATTTCTATTTTTATATAATCAATTTTTAGCGGAACTCTTTTTTTTGCATTAACTATTGTATAGCCTCTGTTGCCATCAATTTTTTCCCCTATTGTATACTCTAAATATTTTAAATTTTCATCTAAAAATTGTCTTAATTTTTTCTTGATTTTCCCACCTTTTCCAGAAGAACCATATCCATGAATAATCTTTATACTTTTCCCAATATTTTCATTATAAACTTGTATAAATTTATCAATTGCATTCTCAACCGTTAATTCATGCATATCAATTATTCTCATTTTTCACACCTCTATTTTCAAACATTCTTTAAATATTATTCAAATACATAGTTTCTATATAACTATTACCTATTTTTGTCTTAAAATATTTCTCTTTTATTGATACAATACTATCTTTTAATAATTTATCCTCGTAAATATTTATTATAAAATCTGCTTCTATTAATATTTGAAAATCTATATTATCAATTTTTGAATAGCTATGATGGTTTCCAATTAAAAAAAGAACTCTTTCTAATATTTTGTGTTTCAAATTATACTTTTTCAATATCTCTTTTGCTACACCAGGTCCTTCAATCTCTTGATATTTCCCGCTACTGCTATTATATTTTTCTTCACTTATTTTTATTCCAATATCATGTAAAATAGCTGCTATTTCTATTATAAATAAATTCTCATCTGATACTTTTTCATTTTCACCTATATTTTTAGCAATAGTATATACTTTTATTGCATGATTTATTCTTCTGACATCATTTTCAAAATATTCAATCATATCTTTTAATATTTCCGCAATCAATTTATTCACCTCATATTTTAATCTTTTCTCATATAAATTCTATCTATTCCAATTCCATATTCATCTTTTAACATTTTAATTTCTTTAAATCCAAATTTCTTATATAAATTTATTGCTATTATATTTTTTTCTGAAACTGTTAAAGATAATTTATTAATTTTATATTTTTTTAATTCTTCTATTGTATTTTTTAATAAATAGTTTCCATATCCTTTGCCTTTAAATTCATCTAAAATTGCTAAACTAAATATATACGCTTCATTATTGCCCCATTTTTGCATTAACTCTAATACCCCTATTACTTTTCCACAACTTTCTAACCCAAAAATCTTGCCATATCGTACTATTGGCATTAATACCCATTCATCTATTGCACCTTTTCCAAAAGATTTTTCCTCTATTTCTTTTATTTGGACAATTTTTTCTCTCTGCTCCGGAAAAATCTCAACAAATTTAATCTCTTTTTCAACTTTTCCACACTTCTTTTCCACATTTCCACACCCTTTTCCCCAAAATATGTTGAAAATTCAATTTTTACTTACTAAAAATAGCTGTTTTTACCAATTGTCCTATTTCATTATCTTTTTCATTTCATCATTACCTAAGAATATTGAAAGAATAAAAGACAAAATATTTTTTAATTATAATTTTTTTATCTGTATTCATCCCTTGGTTTTAAATGTTTTTCCTTTGTACTGAAATCATTTCCCCTAATATCTAACATCATACAAATAAAGCCCATTTGGAGGAGCAATATACTTTTTCTTCTCTCCATTAGGATTTTCCAAACTTTCCACAATATAATCTTTATCTAATTTCTCGAAATATATATTTAAAGCAACCCCCATAATTATCCTAACCATACTTTTCAAAAAACTATTTGCTTCTATATAAACTTCTACAACATTCCCATTTTTATTTACTTTTATCTCAAATATCTCTCTTATTGGCGAGTTTGCTCCACAATCAGATTTACGAAATCTGTTAAAATTATATCTTCCAACTAAAGGATTTAAGATATTTTGTAATTTTTCTATATCTATATCTTTATCTCCAATAAATGTTATATGATTATGTTCAAAAACAGTAAATTCAGATCTCTTTTTTATTTTATATATATAACTTCTTTTTTTAGCAGAAAACCTAGAATGAAAATCAGCAGGCATAAGTTTAGCCTGCTTAATTAATATATTTCCACTTAATTTTCCATTAATAATTTTTGCCAATCTTTCTATTGGTATTTTAGTTTCTGTAAAAAAATTTGCTACTTGTTTTATTGCATGAACTCCTCTATCTGTTCTCCCTGAAAAAACCATATTTACTTTTTCACCTAATATTTTATATAATGCTTTTTCTATTTCTCCTTGAACAGTAACTGCATCTGGCTGTCTTTGAGAACCAAAATAAACGCTCCCATCATATTCTAACTCAACCATTATATTTTTCATTTTTTACATATTTCCTTTATTACATCTTCTAAAATATTTTTAATATCTATTTTATCCTCTTTTCCTTCAAGAATATTATAAAAATTATCAAAAGTAAACTCATTTATTCTATATAAAACTTCTCCTACTACATTTTCCAACTCTTTTTCTTCTCCAACTGCCTCTATTCCCATTTCAATTAATTTTTTATTTAATGCAGGAATTAATTTTTTATATTCAATGTGTCCCTCTCTAATATCGTAAGAGAAAACTAATTTCCCTTGAGTTTGCCCACTTATTTTCATTCTTGACATATCTTTTTTACCTCCTAAAGTATTTTACTCAAAAAATCTTGTGTCCTTTTTTCCCTTGGATTATCAAAAATTTTATTTGGCGATCCCTCTTCCACTATCTTTCCATCTGCCATAAATATAACTCTATCTCCAACTTCTCTAGCAAACCCCATTTCATGAGTTACTACAACCATTGTCATTCCCTCTTTTGCCAAATTTTTCATTACTTGCAAAACCTCTCCTACCATTTCTGGATCAAGAGCTGACGTTGGTTCATCAAATAACATTACTCTTGGATTCATAGCTAAAGCTCTTGCTATAGCCACACGTTGTTTTTGTCCACCAGATAATTTATTTGGATAAACATCAGCTTTTTCTGCCAATCCAACTTTTTCCAATAAACTTTCTCCTAATTTAACAGCATCTATTTTTTTCATCTTTTTTAATTTTATAGGCCCTAATGTTATATTCTCCAAAACTGTTAAATGAGGAAATAGATTAAAACTTTGAAAAACCATTCCAACTTCTTCTCTTATTTGATTTATATTAGTCTTTGGTGAATTTATATCTACACCATCTATTATTATATTCCCTTCTTGAATCTCTTCTAATCTGTTTATACTTCTAAGTAATGTACTTTTTCCTGAGCCAGAAGGTCCTATTACAACTACAACTTCTTGTTCTTCTATTAAATTATCTATATCTTTTAATACATGTAATTCTCCAAACCACTTATTTACATTTTCTATCTTTATCATTTCATATCACCTCTTCTTTCAAAATGCTTAGATACTAAAGACACTGCTAATGTCATTATAAGGTATATCACAGCAACTGCAATCCAAACTTCAAATGATCTAAACGTTCTTGTAATAACTTGTTGCCCTGTAAAAGTTAAATCACTTATTGCAATTATTGATACAAGTGAAGTGTCTTTTATTAATGCTGCAAATTGACTTGTTAAAGGCGGAATTATCATTTTTATTGCTTGCGGTAAAATTATATATAATAAAGTCTCAAAATAATTAAATCCTAAAGATCTAGAAGCCTCAACTTGTCCACCATCTACAGATTCTATCCCTGAACGAACTATTTCAGCTATATACGCACCACTATTTAATGTCAACGCTATTAAGCCAGCAGGCCAAGCATTTATCTCTATTCCTAGACTAGGAAGCCCAAAATAAACCATAAAAATTTGGACTAGTAAAGGAGTTCCTCTTATTATTTCTACATATATTGTAGCAATATAGTATACTAAAAACTTAACCCCAAAGATTAGCCTACCTCTAATATTTTTATTTTCTATTTTACTTTTTCCGAATGTTCTAAATACCCCAACTATAATTCCTAATATAATTGATGTTACAATTGTAATTGCTGATAATAATAGTGTATTTTCTGCACCCTTTAGTAAAAAAGGCAAATTTTTTGCAACTACTTCAAAATGAAAATTATATACCATGTTTTCCTCCTATTTTTTATTAGTTAAGTATATCATAATACTTTTTTTTTTTCAATAAATGATTAAAGCTGAACGATACATCTAAAACTCTAATAGAAAAAAGCCGCTATAAAGCGGCTAGTTTACTTTTTGTATTCTTTTTCAACAAACCATTTATTGTATAATTCTTCGTAAGTTCCGTTTGCTTTTATTTCAGCTATAAATAAATTTAACCAATTTAAGAAATCTGGATCTCCTTTTTTAATTGCAAATCCAAAAAATTCTTTACTGAATAATTCAGGCATCATTTTTACATCATTAAATTTTTCTACATAATCTGATATAAATGGTTTATCATAAACCATTGCATCCACTTTTTTCGTTCTTAAAGCCATTGCTGCATCTGCTTCTGTTTTAAATGGAATTCTTTTTGCTTTTTTCAACATTTTTCCACTTACAATATCAGATGTAGTTCCCAATTTTACAGCTACTTTTATTGCTGGATTATTTAAATCTTTATAAGAGTTAAATCTAGTTTCACCTTTTCTAACCATTATAACTTGACCAGTTTCATAATATGGCTCTGTAAAATTCACACTTAATGCTCTTTGTAAAGTTCTTGTCATACCAGATGTTATTATATCATATTTCCCTAATTGTAAACTTGGTATTATACCATCCCAAGCAGTATTTACAAATTCAACTTTTACTCCAAGTTCTTTTCCCATCTCTTTTGCTAAATCTACATCAAATCCTATTAATTTCCCATCTTTTGACATAAATTCAAATGGTAAATAACCAGCTTCTAATCCCACTTTTAACGTCCCTGATTTTAAAACTTTTTCTAATACTGAATCTTTTGCTAATTTAGCTCTTGAATCAAAATTGTTTGCTTCTTTGCTTTCTCCACATCCTGCAAACGATAAAACTAAAACTAAACTGAATAAACTTAATAGCACTTTTTTCATTTTTCCATCTCCCTATCCCATTTTATTAATACTATATCGCCTATTATACTATTTCTTCATTTTTTTGTCAATATAATTATCTTCTTTGTCCATTTTTTTATACATAAATTCTTTATATATATGTATGTGCCGTTTTGTTATTTATTTTATATATTTTTAAAAAATTCCTCTAGTTCTTCCCACTCTTCCATATTTTCTAATATATTTTCATCTAATTCTTCAATTTGAGTTTGTAATTCTATTAATTTATCATAACTATTTTCTCTACCTGCTTTTTCATATTCTTTCTCTAATTCATCTTTTTTTCCTTCTAATTCTTCTATTAATCTTTCAACTTTTTTCAATCTATTTTCTTTAATTTTTATTTCACTTTTAATTTTTTTCTGTTCAGCATAGCTATTATCTTTCTTTTCAACTTTTTTCTTAATTTTTCCTCTATTTTTGTATGCTTCATAATTCCCACTAAATTTTTCTAATCCATTTTTATCTAACAAATATATAACTTCTATTAAGCTTTCTAAAAAATATCTATCATGTGATACTACTATTAATGTCCCTTCATAATTTTTCAAACTTTCAATTAAAACCTCTTTAGAATATATATCTAAATGGTTTGTTGGTTCATCTAAAATAAGAAAATTTGGCTTTTCTCTCATTATTTTTATAAATGAAACCCTTGCTTTTTCTCCACCGCTCAAATCTTTTATTTTTTTATTTATATCTTCATCTTCAAATAAAAATTGTGATGCTATCATTCTTGCTTTTTCTTCTGTAATTGTTAAATCACTCATAATTTCTTCTAATATTGTATCATTTAAATTTAAATTTTTGTGTTGTTGGTCATAAAACCCAATTTTAACATTAACTCCAATTTTAAATTCTCCATTTTCATCTTCTAATTCTGTTATCATTTTAAGCAACGTCGATTTTCCAACACCATTTTTTCCTATTATTCCTATTTTTTCTCCTCTATATATTGTAAAATTTAAATTTTCAAACAGTTTTTTATTCCCATATTTTTTAGAAATATTAAAAGCTTCCAACACTTTCTCTCCAGAATTTCTTTCAATTTCAAATCTCAATTTCATTTTATCTATTTCTGTTATTGGTCTCTTAGCCCTTTTTAATCTATTTAATATTTTTTCTCTTCCTCTTGCTTGTTTTGCTTTTATTCCTGCTTTATATCTTATTATAAATTCCTCAGTTTTCTTTATCTTTTCTTGCTGTTTTTCATATTCTCGTAGTTCCCCTTTTATCCTCATATCTTTTTGAATAATAAAATCTGTAAAATTTCCTTTGTATGTATGCAAAGTTTTATCTTCTATTTCAAATATAGAAGTTGTTACGTTGTCTAAAAAATATCTATCATGCGAAATCAATAAAAATGCGTTTTTATACCCTTTTAAAAATTTTTCAAGCCATTCTATTGCATTTAAATCTAAATGGTTGGTAGGTTCATCTAATATTAATAGTTCTGGCTCTTTTAATAAAATTTTAGCTAATGCCACTCTACTTTTTTGACCTCCACTTAATTTAGATATTTCTAGATTCCACAGCTCCTCTGGCATATCTATTCCATTTAAAATCTCTTTTATTCTATATTCTATACTATATCCTTCCGCCTGCTCATATTCAAAAGATAATTTTGCCAACATATCCATTTTTTCTTTCTGTTTTTCTCCAGTATATATAGCTATTTCACTATTTAAAGTCTCAATCTCTTTATATTTATCATGAATATCCTCATATACATTCACAATCTCTTCAAAAACAGTATTTCTCTCATCCAAATCAAAATTTTGCGAAAGATATCCTATTTCTATATTACTTTTATAAACCATATTTCCTTTAGATTTTGTTTCAGGCGAAATTTCATCTCCTTCTAATCCTAATATCATCTTTACAAGAGTTGTTTTTCCACATCCATTAACTCCCACAACTCCTATTCTATCTTTATTATCTATAGTAAAATTTATGTCTTCCAAAACATATTCCCCACTATATGCTTTATAAATATCTTTAAATTGTATTAAAGCCATATAATCTCTCCTTACTCTTCCAATCTTTTTATTTTTTCTTTTGCTTTCCCATCGTCAATTATTTTCCCAACTATCTTTCCAGCAATACTACTGAATAACTTTTTACCCCTTCTCCATTTCCAGTAAATCCTAATTTTTCTTCTGTTGTGGCTTTTATTCCTATTTTATCTATATCTGTTTTTAATATTTCTGCTATATTTTTTCTCATATCTTCAATATAATCTTTTATTTTAGGCTTTTGCAACACTATTATTGAATCTATATTAGCTATTTTATAACCTTTATCTAATATTAAATCATATACTTTTTCTAATAATTTCAAACTAGATATTCCTTTATATTTTTCATCTGTATCAGGAAAATATTTTCCAATATCTCCTAAAGCCAACGCTCCTAAAAGTCCATCCATTATTGCATGAATTAATACATCTGCATCAGAATGTCCAAGTAATCCTTTTGGATAATCTATTTTTACCCCGCCTAATATAAAATCTCTATCTTCTACTAATCTATGAACATCATATCCATTTCCAATTCTATACATATTTTTTATTTCTCCTTTGATTTTTTTGTCTAAAACATAAATTTAAAATAAAAATATGGCGTTTTATTATCAAAATTCACATTATCCAAATCATTAATATAATAATAAACTCCACCACCAATCCTACTTTCCGCATAGTATGTCATATAAAAATCTATACCAGTTTCACATTTTAATATATCTGATTGAGTTCCCCATAAATATTCTTTCAAATACATATTTTCTACTCTTAAATATATCTTATCTAAAGATATCCCACCAGTTAAATCACCTTTTTCAATTAATATATCTTTTTGAAAATTCAAATTAAATTTAAGCAATTTATTACTATTTATTTTCACTTCTGGCTGAACACTGTCTTCTTCGTTAATTCTATAAATATTATTATTAAATATTGGTTCATCAATCTCTTGAATAAATTTACTCCAATAATATGACAACTCCAAATGTTCATCTTTGTATGTCAAATTATTTAATGGTATTCCCTCTGAAATTGTTTGATTTAGATTAAATCTCCCAAATCCCAAACCATATGCCATATCTTCACTTGAATATCTAAAATTCAGATAACTATCTTGTTTTAATCTTCTCAAATATAATGGTAAACTTATTCTCACACCATAATAATTAAAATCTCCTACTTGTAAATCCAATCCAAAAACTGGAAAACCTGCTAATTTATAATTATAGTTTAATGCTACTCCTGTTTTTACTTCCTCATTCTCATTTTTAAAATAATAAGCAGATATATTATAATATTCTCTATCTAATTTATCTACGAAGCTTAAATTTATCATACCAGGTAAAATTATTCCATTTGCCAAACTTAAACCATTCTTAAAATTTTTATCTTTTAGTTCCAATTTTTCTTTTAACTTTAGCTTTCCTTTTAATTTAATATCTTCTTTTTTCACTAAATTAGCTACAGTTTTTAATTCTTTTTCTGATAAATTTTTATTAACAAAATCTTTTTTATTTAATTTATAAATATAATAACCTTTTGAATAAAAATTAAGATAATATAAATTTTCATTATAAATAACAGGTTCAAATGCTCCATAATTCACATTAGTTATCTGTTTTTCATCTCCTGTTTTTATATCCAAACTTACTATTTCATAAATTCCATTAATATCTTTTGCGAAATATAGTTTTTTATTTTTATTATCATAAAAAGGAGCAATTCCCTCTGTAATTTTTTCTAATTTCATATTTTTCATATCTAAACTATAAATAAAATTTCCTTTTTCTCCTTTTTTGGAAGCATCAAAATATATTTTTCCATTAGAATAAAATAGTTTTCCAAATTGAAATCTTTTATTCTCTGATATTAATTTTTCTCCACCTAAAACTTTTAAACTTTCATAACCTTTTTCCCTTTGTACATAAACTAAATCATTTGGCAATTTCAAAAAATTTATTCCTCTATCCAAAAGAAGGTATCTATGTTTCCAACCTTTCTCTTCATATGAAACATTTTCTATCTTATCTTCCAATACATTTGTTTTTAATTTAGAATAATATATCTCTCCATCCTTAACACCAAAACTTCCACTAATTCCATCTTTTATCTCTTGTTTTAATTTTTTCGTTTTTACATTAAGTGAAAATACTCCACCAACATATTTTTCATTTAATATTGTATCTTTATAATATCCTTGGAAATAAAGTTTCCCATTATCAACTTTTAAATTTGATTTATTATCTGCAATTTTTAAAATTTTATTACCTTCCACTAAATCTTTTTTCAAACTATATTTTTTCTTTAAATATAATTTCCACTCTTTATTTAATTCCTTTCCAGAGACTCCTGCAATTTTAGCAAACAGTAAATACGCTGGTTTTAATTGGTGATGTGTAAAATAATCAACTGCTGCTGTTAATTTTTTCTCTCCATACGTTTCTGCAAAAAAACTTATAAAACTATATCCATAAACATATGAATTTTCTCCCTTATAATTATAATTTCCTGCAAGAGATAATCCTTTAAATTTTTCATCGTTATATTTAGATTTTATAACCATATTAAATCTATCAGAAATACCTCTTCCTCCATCTGTAAATTTTGTTTCTGAATAAACAGCTAACCCCTCTTGCATCCACGTTGGAATAAGTAAATTTTGCAATACATTTCCAAAGCCCCAAACATACTTAAATAATCCATTTACTTTATTATTTAATATCAAATGAGTTAATTCATGTGTAAATACATATTCCAACCAATTTGAATAATTTTTTTCAATCTCATTGCTTCTTGGAACATTCAAATATAGGACTATACTACTAAGCCCAGTAAAACTATTTTCATAATCTACATTGTCCAATATTCTTATAATATATTTTTTTGTTGGTTCAAATCCATAAAATTTAAACTCTTTATCTGCAATATTATCAGATTTTTTTATTAAATCTATAACTTGCTCTTTTATATTCTCTTGATAAATAAAATCGAAATATTTTGTTTTAAATTCTTTGTATTCTGCAAAACTAGCAGTTGATAATAAAAGCAGCAGTAGTAATATAGTTTTTTTCATTATAATCTTCTGCCTCCAAATATATTTTTTATTTTATCCATAAATTTAGGCTTTTCTTCTCTGTTTTTTACTAATTCTACATCAGTTATATATTTTCCTATAGATAATTCAACTACTTCATCCTCATCTATCTCTATACATAAAAAGTTTTCTCCACTATTATCTTCTAAATCAGAAATTAAAACAGGATATTTTACTGGATTTTTAGTACGTCCCTTTACAAAGCTTTCTACAGAAGCTTCATATAGTTTATCTCCTTCATAAGATATCTTATATTCTATTCCATTATACTCTATTTTATTACTATGTCCATTTGAGCCTATTTTACTAAGCTTTTCATCACTTCTAACCTCTTTTTTAGGCACAATTTCCCATACAGCATATTCCCACATATCTTCTTCATTCTTATCTACACCAATATATATCTTTTCTCCAGTTTCAGATTCTCCTGTAAAATCAAACCAATAATCATCTTCATCTTCCGGCTCCATATACTTATAAATAGCCACTATACTATACCACACATCATCTGCAACTATAAAATCATTTAATCTAACTTGCTCTGGTACTATTGAAACTTTTTGTATTCTCCCTGTTGAAGTCTCTGTATAATTTTCCATAATTAATCAACTCCCCTTTTAATATTTCTAAATATTTTTTGATTTTAATTTCCAACTTTCCATTTTCAATTATTTTTCAAAGCTATCATAAAATTCTACTATCTCTTCCCTTGTTACTGTTGAAGTTCCAATCCTTCCAACCACTACTCCTGCTGCTGTATTTGCTATTTTTGCAGCTTCATAAAATGAAGCACCTGCTGATGCTGACAATGTAAACACTGCTATTACAGTATCTCCTGCTCCAGTTACATCATATACTTCTTTTGCCATTGTTGGGATATCTTCTACTATATTATCTTCAAAAATTGACATCCCTTTTTCGCTTCTTGTTATTAATAAATTTTTTAAATTTAATTCATCTTTTAATTTATATCCTAACATTTTAAAATCATCTTCTGTTCTTATTTTCATATTGTCCAAACAGTTTAATGCCTCTTTTGTATTTGGAGTCATTGAAGTAGCTCCAATATAATTAAGTTTATTTTTAGGTTTTGGATCTACTATTACAATTTTATTATTTTTATTTGCGATTTCTATTATTGTTTTTACAACTTTTGGAGTTAATACCCCTTTATCATAATCAGATAATATTATTGCATCTATATTACTAATCTTACTTTTAAAACTATTTAAAAGTTCATCTTCTAAATAAAATATAATCTCATTTTTATCTTCCCAATCCAATCTTAATAGTTGTTGATTATGAGCTATTATTCTTTTTTTTACTATTGTTGGTCTATCTTTATCTCTGAATATTCCACTTGTATCTACGCCTCTTTTTTCCAACTCCATTTCCATTTTTTCACCATTTTTATCTTCACCAATTACACCAAATGCCACAACTTTTGCTCCCAAGCTACATAAATTATTTACAACATTTGCTGCTCCTCCAAGTACAAACGTTTCATTTGTAACATTTACAACTGGAACAGGAGCTTCTGGAGATATTCTATCTACATTTCCAAATATATATTCGTCCAACATAAAATCTCCAACTACTGCAATCTTTTTATTTTCAAAATTTTCCAATGTTTTTAATAATTTTTTCTTATCTACCATAATTACCTCCCTAAATTTAAATAATTTTATGAATAAATATAAAAATATCTTTTATTGTACTGGTTATTATATCACATTATAAACAAAAAAATAAGCTACGTTTCATATGGGATAGTGTCAATTTTTTGTAGGAAAAATAATTTCAGCACAAAGAAAGAAGAACTCAAAGTTACACAAAGAAAAAATTTTTTAAAACCATGTAACAAACATAGATTAAAACTGATAAAAATTGGTGAATAACTATCTGCGTTTATCTGGAGATAAAATCCTGCAATTATTTTACACTATCTCCTCTGGTAAAGTATAAATATTTTTCTAAATTTTTTGTTTCTGAAAAATTTTGCCTTGAAAAATCGCATATTTAGAAAAACAGCGTAGATTATTTTCTAAATAAATTTATACTTTACTAATGAATTAAAAAAAGATAATTGAAAATATATAATTGATAATTATTTTTTTCTTCGTGCACTTTGTATCTTTGTGCTAAAATTATTTTCCCTATAAAAACCAATCTCATTCTAAAAAGAGAGGATATCTATAAAATATAGAATTCCTCTCTCAATCTATTTCTATGCAAATCCATTTTCCATTAGAAATTTTATCCCTATTTTACTTTTATCTACTACCTCTTTTTCTCCAATATATCCATTTAATAATTTTTCCACATATTTACCAATTAAATCTGTTTCTATATTCACTTCATCTCCACCTTTTTTACTACCCAATATTATATTTCCTTGAGTGTGAGGTATTAATGACACTACAAAACTATTTTCATCACATTCTACAACAGTAAGACTTGCTCCATCAATAGATACTCTTCCTTTTTCTACAATATATTTCATATATTTACTGCTCATTTTTATTTTATATAAAATCGCTATATCATTTTTTTCTACACTTATAATTTCTCCCACACAATCTACATCTCCTGTTACAAGATGTCCACCAAGTGGTGTACTAAGAGTTATCGATTTTTCTAAATTTACACTATCTCCTCTTTTTAGAGATTTCAAATTAGTTCTATTTACTGTTTCAGGCATTGCATCTGCTACAAAATACCCATTTCCTACTTCAACTGCAGTTAAACAAACTCCATTTGTTGCAATACTATCTCCAATTTTAGCATTTGATGTCACTTTTTTACATGCTATTTTTATTTTTAATGATTCTCTTCCTTTTTTTATATCCATTACTTTTCCTATTTCTTCTACTAATCCTGTAAACATCTACTCTACTCCTTCGAACCATACTCCAATATTGTCATCATAGGTTCTAAATTTTATATCTTTCAATTTTAATGAATCACTCATATTCGTTATATCAAATCCATTTACAAAACTTAATGCTTTTTCATCTCCAACAATTTTAGGTGCTATAAATATAACCCCTTTATCCATTGCTTTTTCTTTAAAACAAGCTGATATAACTTTACTTCCACCTTCTACTAATACAGAATCTATCCCTATTTTTGCTAATTCTATTAATATATCTTTTATTATAAATTTTTCCCCTTCTATCTCAACAATTCTCACTAAATCATAATAATCTTCTATTTTTTCATTGTCTTTTGAAGTTATAATTATTGTTTTATTATCTTTATTATTTTTTATAATATTGCTATCTAAAGGAGTCCTTAAATTTGGATCTATTATTACTCTATAGGGATTTCTCCCATTTTCTATTCTTGAAGTTAATCTAGGATTATCTTGTATAACTGTATTAACTCCAACCATTACAGCCATATATCTATTTCTCAATTTATGTACTTCATTCCTTGCTATTTCATTTGTTATCCATTTAGAATCAAATGTTTTTGTAGCAATTTTTCCATCAAGAGTAATTGCTGATTTCAAAAATAAAAATGCTTCTCTTTTTGTTATATATTTCATAAATACTTCATTTACTTTTAAGCTTTCTTTTTCTAACACCCCTACTTTTACTTCAATTCCTGCTTGTTCCATCTTAGATATTCCTCTTCCTGCAACAAGTGGATTTGGATCACTTACAGCTATAACACATCTTTTTATCCCTGCTTTTACTATCCTATCTGCACAAGGTGGTGTTTTCCCATAATGAGAACATGGCTCTAAAGTTACATATATTGTAGCATCTTTTGCATTTTCTCCAGCTTCTTCTAATGCATAAACTTCTGCATGAGGCCCTCCAAAATATTGATGATATCCTCTTCCTATAATTTCTCCGTTTTTTACTACTACTGCACCTACAAGCGGATTGGGATTTACTCCTCCTTCACCTTTTTTTGCTAATTCTATTGCTATACTCATATATTTTTCATCATTCATAAAAATCACCTTTTTTTAATTTTATTTTAGAGTTACAAAATAGTATTTAAGAACAGCTTAAAAATAAATTTCTTATATTTTAAACATTCCTTAATTTTATTAATATACTATACTTTACAAATCTAATCATCTTATTATACCACCTTTTATTATATAAGACAAATTTTTTAAAAAATATAGCATCAAACAATTATAGGATTTTAGCCGTAGATAAACGCGGATAATTAACTACTAATTTTTATTTGCAAATATTTATCCCCCTTTATCACTTGCTTCTAAATCTTTTCTTTGTGTAACTTTGTGTCCTTTGCGTCTTTGTACTGAAATTGTTTTTAATATATTTTTAATATATTCACTCCTTAATCAATACCCTTTTTTATTTTATATTAGTTAATACTTTCATAACTCCTAAATCACTTTCAACATTTAATTTACTATATATTCTTTCATCTATTTTATCCACAAACTTTGGAGGAGTTATATCTACTCCTGATACTAATTCTGATAAATTTGTAATTGTATTTCCACTTACAATATTAGCTATTTCACTTAGTGCTGATTTTACAAACTCATCTACCTCATCTACTTTTAAACCTGTTAAAGTTTGAGTTAATTTTTTAGCATTTTCATCTTCAAAAATATATATTATATCTCCTTTTAAATTCCCTATTACTCCTACTTTTATTATTAAATCATTACTTACATCTATATTTTTATCTTTTGCAAATTCAATATCTACCTGAAACATCATATTAAATATATTTTTCAAATTATTTCCTATTATCTCTTTATATGTTTTTGTTACATCTAATTTTTCTATCTCTTTTTTATCTATATAATTTTTTATTTTTTGATCTTCTCCTGCGATATGATTTATAAGCCACGCAGCTACTCTGCCTGAAAAAGTTTTTATTAAATTTTCATCTTCTTTATTTTTCTCAAACTTTTCTTTAAATTTAATAACGTCATTTGTGAAATTTTCATGTATTTTTTTATGTTCTTCATAATTTATATAATTTATTTTCTTTTGAAAAGCTTCTTCACTATTAAAATGGAACACTACATATTCTCCTAAAAAATTCAGTGTATCTTCAAGTTTTTTTATCCTCTCTTTTTGGGGAACTCTTTTATCAAATACTATGTCTAAAAAAGAGTTAAACCTCTCAACCAATTCTTTATGCTGATTATCAATCTCTTCTATTCCCAAATTCAAACTATCTCTCCAATCCATATTATATCCCTCCCATTATGAAAACAGATCTTCAATTTAATACTACCTTATTTTTAAGCGAAAATCAAATTAATTTTCCCTCCTAAAATCTAGCTCCTATTCCAAAACTATATCCATTAATCCCTTTATTAAAATCTCTATATCCACCAATTTCTCCAAAGAACGTTTTAGTTATATCAAATTTAACCTTTATTTCTTCATAGCTTAATTCTTTTAAATCATAATAATATCTGTAATAACACAGCTCTTTATATTTTAATTCTGCCATAAATGAATTCGCAATTTTTTTATCTATATAATTTGATGATATTTTATTTGATATAATAAAGCCATTTTTAAAATAATAATCAATTTGCCCTAAACCTGTAATTCTATATCCAGCTTTCAAATAATCTGTATAATGTAAACCTAGTGTAACCCAACCAAATGTAACATCATCTCCAAGGTAATAACTTTCAAAATCGTATCCATTAACTTTTTCATCACCATTATATATTGGAGTTACCGTTGTTCCAAGTACAATATGATGATTGTTAAAATATATCTCACTTTCTGTTCTATGTTTTTTAATCTTTGATTTTTTTGTTTCATATGTAGCGTCGTCTCTATACTCATAAACATTTTTTTCTTTCATCTCAAATGTATGAGACAGTACAAACACTAAATTTTTATTCCTTTTATAAGTGAAATATAATGCTGGTTTTTCCTCTTTAAATTCTATATTCAAATCATTTGAATATACATATTTTATTTCATATGATTTTTCTTTTATTCCTACTTTTTTATATTCCTTTAAAAATAGTTCTCCTTTTTTTCCAATATTCTCTCCATTATTTTTTAATTTTATATATAGTTCATAAGCCTTTTGTTTATCCCCTTTCCAAACATAAAATTTAGCAATTTCTAATCTCATATTAGTCGTTGTTTTAGGATATTTTTTTAATAATTCAATAGCTTTATCATACTTTTTTTGCCAAGCCAACAGATTTGCATATGCAATATATAACTCTTCTGTTGTATAATTTTTCATTAATTTTTTAAAAATTACCTCTGATTGTTTATAATTTTTTTCCCAACTTAATTCTTGTGCTTTTTTTAAATTTTCATCATAATTCATTGAAAATATAGTTGCTGTATTAATTATTAAAATCATTATAACTATAATTTTTTTCATAATTTCTCTCCTTTTCCTAAATTTAATCTTAATTTGAATTTAATTCCTAAATACTTGCTACAAGACAGTTAATTTGTTTTCTATTTCATATTTATTATACTATACTATTCCCACTTTTGCAAAATTTTCGAAAAAATGATATGATGATTTATAAGAAAAAATAGAGGAGATTTTTATGAAATTCATAATTGAAAAAGAGTTTGAAAATACAAGATTAGATAAATTTATAAGAAAAAAATATGAAGGTGTTTCTTTAAATGAAATTTTCAAATTAATCACAAAAGGAAAAATAAAAGTAAATGAAAAAAAACAAAAACAAAATTACCGCCTTCAAAATGGAGATATAATAAATATAATTTCTAATCAAGATATTTTAATAAAAGAAAAATCTTTTATCTCTTTAAATGAAACAGATATATCAATGATAAAATCAGATATAATATATGAAGATAACAATATTTTAATTTTTAATAAACAACCTGGATTAGTTATGCATAAAGGAAGTGGCTACAAATATGGACTTTCAGAAATGTTAAAATCATATCTACAAAATATGAATTTTACATTTGTAAATAGAATAGACAAATCTACTTCTGGATTAATAATTGGTGCAAAAAATTTATCAACTGTTAGAGATATTTCTGCATTAATAAAAGATAGGAAAATTGAAAAATATTATTATATTCTTGTAAATGGTATTCCAAAAGAAAAAGAGTTTGCTGTTAAATCTTTTTTGAAAAAAACAAAAACGAAAGTTATTGAATTAGATAAATATGAAGATGGTGCAAAAGAGAGTATTAGTTATTTTAAAATAGTAAAAACTTTTGATAAAAAAACTATTCTCGAAGCTAAACTTGGAACTGGTCGCACTCATCAGCTTAGAGTTCAGCTATCTGAAATGGGGCTTCCAATTGTTGGAGATTCTAAATATGGACAAGATGATAATTCTATTATGTGTCTGTTTTCTCACAGAGTAATTATAAGTAAATATATTATTGATGTTAATTTAAATATTCCTGACTTTTTTCATTAATTTAAATGGTTACTAGATATTCGTAAGAACGTTATTAATAACGCTCTTACGATCATAATGTTACCCAATATCTTCTAACTATTTCCTCATTATTTTGAATTTTATTCTCCATAATTCCGCCATTCTTTTCTATCGTTTTAGCAGATGCAATATTTTCATCATTACAAGTAATTAATATTTTATTATATTTTTTATCTTTTAAAATATCCAATATTAATTTTAACATTAGAGTAGCATACCCTTTTTTTCGTTCAGATAATCTGATTCCATATCCTATATGACCGCCTGATTTTTTCAAATTCTCGTTTAATTTATGCCTTACATCAATTGCACCAATAATTCGTTCATTCTCATCAATCATAAAATATAAAGTAGATGGGACAAGTCCTTTTGCATACATTGAATCTTCTTCATATTTACTCCATCTAGTTTGTAATTCTTCAAAATTTAAATCATCACATCTTGAGGCCCAAGGGATAATTTTTTCTTCTGATTTTTCCCATTCTCTGATATACTCAAAATATTGTTTTTTATTAATATTTGTGTATTTTTCGATTTTTATAATATCTTTTTTTAGATTATTCATAGTTTGCAAACCTCCTATATTAATTGGTTTTTTTATAATTATGGAATGGCTTAAAAATAACATTCCCATTTTGCTTTAAAATATGCAATGTTTTAAGCGTTTTTATAATAAAATATGAGAACATTATTTTTTAAACGTTCCTATAATATAGTAGATAAAACTTTAGAAAACTACTTTTCTTGGTCTAATTATCTATTGCGTTATTTTTAAATTCATTTCCTAAGAATATTTTTCTTAAAAATCCCATTGAAATTTTACTCAAAATAAAGTATAATAGATATATCAAAATTATATAGCTGTTACGTCATTCTGTACTTATGGTAGATGATATTAACTCTCTGCTATTATGCAAGGTATGACTTACAGTAAAAATGTGTTGGTTCTTCTAATTCAGGTGAGTGATATAACTCCTTACTTGTTTTCTTGGTACTAAACACATTTTTTATTTTTTGCTATATTTTAACCAGTCATAAATTTTAATCAGCCTTTTAATATTTGTCTTCGTATTCATTTTAGAATCAAATAAAATATCAGGATATTTTTCAAACAATTCTTTTAAAAATCCATCTAATTCAATTTCATTAAGATATTTTTCACCTAAATATAACACTTGAATCATAGAACTTAAATCATCATGATCTTCTTTGATTTCATTTATCGATTTATATCTATTAATATTTTTTAATTTTTTGTCTTTGAATGTTCGAGAAAGAAAGCTATCTAAATCTTTCCTTTTCTCTAATTCCTCTTTGACTCTTTCTGGTAATTCTCCCTGATATCCCTGTAAATATTTGAATATAGGAACACTCCCTGAATTATGTTTCAATAACTCAGGTAAAGTTTTTGTAACTATTTCAAAATTATCAAATTTTTCTTTATTAAACACAATATCTTCATATAGTTCCACCGCAGTAATTCTTTCATAGCCTCTTCGGCTAAAATCATTAATTATACCAACACCCATTACAACTTCAATATTTTCAATCTTTGTTTCATCATCAAATCCAACAACTCTCATTTTTTCCTTTGGATCATTTGTCAAAACAAGCTCATAAATTTCTTCTTTTAATTTTCTTAAAATTCTTGGATTATATTTTGACTTAATCATTGATAACACCTTATAAATTTTATTAAAATCTTTAACAAAAACTCTGGTCATTTCAATTCTTTTTCCATTTGAAAATACTTTGCTAAATGTTGAAATTTCATCTTCTTTGCCTGTATTATTCCATTCAATAAAAATCAATCTGTCTCGCAACTTTTCCAAGTTTTCTTCTGATAGACAATTGGTTATGGATTTTAATATATCTTCAACATTCTTATCATTAATTGAATACCCTAAAAATACTATTGGGTGCTCTAGAAATATAGTCAATAATTTTGCTGATAGGTAAGCATTTTTATCATTGAATCCTTTGTAATCATTTTCTGTAATAACAATACTTTCTGGTTTTGAGCAGCAACCATGAATTTTATAAATTTCTGCTGTTCCTTGCAACGTTGAAAAAATCAGTTCTTCTTGACCTATATATATTTTATATCCTGTAAAAACTTCATCAATTAATGTGTCATAATTTGTTGTAATAACTCCTGAAATACTTTTTTTGCTAATTTCTTTTAGCCATTCAATCTCTTTTTTTTCTATTTCACTGCCATTTCCAAGATTTTCAGTTACATTTTTGAAATATTTTGCTATTTCTATTTTTAGCGGCGAAATACCTTTCGTAATATCTTCGGCATACTCTTTTCTGCTTTTTTTAAATTCAGGACTTTTAAACCACTTCAAATTAAAATCTCTTTCTATCAACTCTGCTATTTTGGGGTTAATGCCATTTTTATTTTCAAAATTCTTTGCTTTCTCTTTATAAATTTCATATGCAAAAGCATTCTCTATAGATAGCTTTGCAAATTTTCTCAAAAGATTTTCCCAATCTTCTATTTTTAAATATCTTCTTGAAAGTCCCGATCCAACAAATAAAAAAGGAAGCGAATCAAATTTTTTTAATTGTTCATATAATTTCTTTTCTAATTCATTCAAAACATCCACCTCCTTATTTTCCCTGTCAATAATTTCTGCATTAATCCTTAAAAACACCCTCTTTTCTAATTTTATTTCAATATAGGGATTTAAAGTGCTTTGTTTATTTCTGCATACTTGGGGACATTAAAAAAATAAATTTGTCAAACAAATGACCCCTTAATTTTTCTAAAGTTTCTTAATCAATTTTTTCATTCTACCCTTTTCCCTTACTTTTAGCATTTCTATATCTATAATATTAGTTACTCACATATTTTAGCATTTTCAATCAACTTTTTCAATCATAACCTATATTCAGAAAAAATAATGGGTCAAAAATTTTTCCTACAAAAATTTGACACTATCCTAAATAGTACAAAAATTGACAAAAAACTCTTTTTTTGATATAATTAATATAAATAGAATAATTGAAGTAATTTTAAGTAGTACTTTTTTTGTGAGATTAATAATGTGTAATTATAGTATTAACTCAAGCAAAAAACTTATTAATGGGAAATTTAAAATGAAAAATCATAATAGAACTGCGGTCTGTTTAGGGTCTTTAGAGGCAATAAACTATAGTATTTCAATGCTATAATGCGAGTCATTTGACGAAGCTTAGATACCCTAACTCTATTGATATTGAGTATCTTTCAATATCTTTAGAGTTGGGGTATTTAAGCTTTTTTATTTCTATAAAAATATGAAAGGAGAAGGGCATAATGATAGAATTTAAAAAAATATCAAAAAATTTTGATGGAAGAACAAATGTAATTGATAATTTAAATCTAAAAATCAACAAAGGTGAGTTAGTCGTATTAATTGGCGAAAGCGGATGTGGAAAAACAACCACAATGAAGATGATAAATCTATTAACAAAACCAAGTGAAGGTAAAATTTTAATTGATGGAAAAAACATATTAGAAATGGATAAAATAGAGCTTAGACGTAATATTGGATATGTAATACAAAAAGTAGGATTACTACCTCATATGACTGTAGGAGAAAATATCGAAATTATCCCCAAGTTAAAAAAATGGGATAAAGAAAAAAGAGAACAAAGAACAAAAGAACTTTTAGAACTTGTGGATCTTGATTATGAGCTTTATTATAATCGTTATCCAAATGAATTAAGTGGAGGACAACAACAAAGAATAGGAATAGCAAGGGCTTTAGCAGTAAATCCTGATATTATATTAATGGATGAGCCATTTAGTGCTTTAGATCCTATTACAAGAAAAAAATTACAAGATGAGATAATAAAAATACAAGATGAACTTCATAAAACAATAATATTCGTTACACATGATATGGATGAAGCCATTGCAATTGCAGATAAAATAGCAGTTATGGACAAAGGAAAAATAATTCAATATGATATACCAGAAGAGATATTAAAACATCCTAAAAATGATTTTGTTGAGTATTTCATAGGAAAAGAAAGATTATGGAAACAACCAGAGATGTTTTTAGCAAAAGATCTTATGAAAAAAGATGTTCATAAAATTAGTTTAGAAGGAAACATCGCAAAAGCAGTAGATAAATTAAAAGATAGCAATGCTTCTGTACTTATTGTTGTCGATAAAATAAGAGATAAAGCCCAAAAAGCTTTAGGAGTAATAACTCCAAATAGATTAAAAGCAAGCGAACTTAAGAAAAAAGGTATAAATAAAGATACTAAAAAAATAAAAGATTATATGAGAACAGAATTTGTTGCTGTTGATGAGAATACAAATATGCTTAATGTTCTTGATATTATGTCAAAGAGAGATTTTAAAAGCGTACCAGTTACAAACTCTGAAAATGAAGTTGTAGGAATTATAACTTCTACAAGTTTATTAAATCTAATAACAGAAATATCACCGGAAGCAGAAGAAAAGGAGGAGAAATAATGAATTTTTTTCAGTTTTTTTATTACAGAATGGATGAAGTATTCGAAGCTTTATTAAGACATATACAAATCACAGGATTGGCCGTTGGATTAGCAATTGTAATAGGAGTCCCAATTGGAATAATGATCACAAGAAAAAGGAAGTTAGCAGGAACAGTTATTAATATTGCAAATGTATTTCAAACATTGCCAAGTTTAGCATTATTTGGGTTAATCATTCCATTTTTAGGCATAGGATTAGTTCCGTCAGTATTTGTACTTTTTTTATATGCATTACTTCCAATAATAAAAAATACATATATTGGAATTACTAATGTGGAACCAGCATCAGTAGAAGCAGGTGTTGGAATGGGAATGACCAATTTTCAGATATTAACAATAATAGAAATACCTCTTGCTTTATCTGTAATTATGGGTGGAATAAGAGTTGCAACAGTTATTAATATAGGAACGGCTACAATTGCAGCATTGATTGGAGCTGGAGGACTAGGAACTTTTATCTTTAAAGGAATATCAATGAATAGTGATAATATGATTTTATTAGGAGCTATTCCAGCAGCATTACTTGCAGTAGTCGTTGATTTTTTATTTGGAAAAATAGAAAAACAATTAACACCAAAAGGTATAACATACTAAAAAAAATAGGAGGAGTTTATGAAAAGAGTATTAGGAATATTTATTTTAACAGCAATAATATCAACAAGTGCATTTGCTGGATTTTTTACTGGGTTTTTCAATAAAAAAGAGGTAATAAGAATAGGTCATAAAAATTTTACAGAACAAAGATTACTTGGAAGAATGTTATCAGTGTTAATAGAAAAAAATACAAAGTACAAAACAAAAGTATCTGAATTTGGTGGAACAATGCTTATAAATCAGGCATTAAAGAGTTCTCAAATAGATATTTCAGCAGAATATACAGGAACCGGTTATATGTTTCTTTTAAAAGCACATGGATTAAAAGATCCAAAAAAGATTTATCAATATGTAAGAGATGAATCTGCAAAACAAGGAATAACTTGGTTATTACCATTAGGATTTAATAATACTTATGCATTTGGATTAACACAAGAATTAGCTAAAAAATATAATTTGGAAAAACTTTCTGATCTAAATGGAGTTGCAGAAAAACTTAAAATAGGAGCATTAGGAGATTTTTTTAGCAGAGAAGATGGAATGCCTGGAATTACAAAAACTTATGGATTTTCTTTTAAAAAAGAAGTTGTTTTAGATACAGGATTAAAATATATTGCAGTAAAAAATGGACAAATAGATGTTGCAGTAGTATATTCTACAGATGGAATGCTTAAAAAATATGATCTTAAAGTTTTAAAAGATGATAAAAACTTTTTTCCGCCATATGATGCAGTCCCTAGAATGAAAACTGAATTTGCTAATTCTCATCCAAAAATTGTGGAAGAATTAAAAAAATTAGGTGGAGCATTCACTGATGAAGATTTTCAAAAATATAATTACCAAATAGATGTATTAGAATTACCAGAAAAAAAAGTAGCAGAAGATGCTTTAAGGGAAAAAGGATTGATAAAATAGACTATTAAAGAGCTCAAAATATTGAGCTCTTTTTTAATTTAGTTCTAATTTAACTTTTGCTTATTCTCCTCTATAATGAATAGTCAACCCTTTAAGGAAATTACGAAGATAACTATCAAGGCACTCTTTGTAATTTTTATGTCCAGGTTTTCTAAATAGACTTCTTAATTCAGATACTGATACATTTACACCTGCTAGATTAAAAATATCAATTATATCATCGCTTCTAAGATTTAATGCTATTTTTAATTTTTTCATAATTAAATTATTAAAATTATTACCTGTTAATTCTATACGTGGTTTAGGCTCTTCCCCAGGTTTTGGTTCTTGTCTTCCTCTTTTATAAATAATATATCCATCTAAAACCATCCCTAATTGTTTGTTACTACATTTTACATACCCTTCCTCATTCTCTTTTTTTAATAAATTACGAACATCAGCTACTTCCATATGTTCTCCAAATTCTTTAAAACACCCTATTAAAACTTTATCAGGTATATCTAATGCATACCTAACTCTTCTTAAAATATCATTGTTTGTCATTTTTTACCTCCGATTTTATTTTATAAAATTTTCTTATTGATTTTTTGATTCTTTTATAGTAAAATAGATATAGGTGAGGGGCATTTCAGCCCCAGTAGAACTTTAATGAGTACTAATGTGTGCTAAGAAAAAGATTGCTACTGTGAATAGCAGTCTTTTTCTATTTTTTGCACAATTAATTAGTTTTCTCATAGTCCCACCCCCTTTCTTTTTTAGGGAGTACCTACATCTACAACCTTCGTTGCACCTGTATCATAACACATTCAATCAATTTATTCAATCTGTTTACAAATAAGCCTTAAGAAATATTTAAAAAACATATTTTTCTTATTTTATTATTTTTAAGCCGTTCCTAAGTAAATTTACTTTTTAATCCATATAAAATCCATATTCTTTTAATTTCTTTTTTACTCTATTTATATCTTTATTTTTCACCAATATTTTATAATCTTCTGCTTTTAATATATATTTTTTCAAATAACTATCTTTTGTTAGTAATTTTATTAACTCTTTATTTTTATCTATTTCAAAAACTTTATACTCAGTTGTTTCTACAATAGGATTTAATCTTTTTTCTAAATTTTCAAAAAAAATCTTCCAGTTTTCAGGCAAATCTTTTTCAATATAATTTTTAAAATTCTGAATATTATTTTTCATATCTTCTGCATTTAAAACATTTCTAAATATACTGTCAAAATCTACTTTATACATATTTTCACCGATTTTATCTGCTATTGACTCAATAAAAACTTTTTTTAAATTATCCTCACCTTTAAAATTTATTACTAATCTTTTGGTATCTAATTCTATTTTTACATCTTCTTTAGTTTGTATTTCATAATCATCTCTTAATCCAAAAACATATTCTCCCAATTTTGTTAATTTTACATATTTAATGTTATCAAACTCTGTATTCCCTAAAAAATCTCTAGATTCATCTTCAAACCCTTTTTTATTTTCAAATTCATCATATGCAATTTCAAAAACACCAAATGATGCTAATAAAACTAAAACCCCTTTTATAAAAGGAATAGTTATATAGTTCATATATAATATCCCATTTTCTATATAATGCTTATCTTTATATCTAGCGTAAGGCTGTCCCTCCTCTACCATCATATATAGATTTGCACTTAACCTAACATCTATTAAATCTACATTTTCATTTTTATAAATTAAAGTATCATATATATTTGTTACATCAATCCAAAACTCTTTTTTAAACTTCCTTAATATTTTAAATAGTTTTTCCATAAATTGTTTATACAAATTATTTTCATCAAAATAATATCGCATACCTTTTATATGAGTAAGAATAAAATCAAGTAAATTTATTTTTTTACTTAAACCATTGTAATTCAGCTTATCTTCAAATATGTCAGTTACAAGTTTTTTTATACCTTCTTTTGCATCTAATCCATATTCCTCTTTATTAAAATTTGCAAAATCAATAAACTCTAATATTAATTTTGACTTATAATACTCTAATTTTTTATTTCCTTCATATAGCTCTTCCATATTAGTTCTATTTTTAAAATCAACTATTGATTTCTTTAATATTTTCCCTGATACTGACTTTTTTATTAATCCACTTTTTTGTATATTTACATATAATAGATAATTTTTTAATAGTTCAATTTCAAAATTCTTAATATATTTAGATTCTACTTTCTCCAAAGGAACTAAATCATAATGAAGAGGTTTTTCTTCTAAATTCTCCGTTATAGCTATTCTTATTACTTGTGGAAGAGTTAACATTCCACTTATTTCACCATAATAAAATTTTCTATATAAGACAATCTTAAAAAATTCAACCCCTTTTTTCAAAAGAGTTTTAGGGTCCGATAAATAACTATATCGCTCTTTCTTTTTTTTATCAATTACATCTATTTTATATGTCTCTTTCAATACACTTATATCTACAGCTATATTAAAACATATTAACTTAAATATCATTCTCACTTGTTTTGGCATATCTTTTAGGCAATTATTAAACACATCTTTCTTAGTGTAAAATTGAAACATAATATCTACTAACTTTTCTCTATCTCTCATATAAATCATTTTGTCTTTCAAATCACTTTTTATATAACCTTTGTTAATACACTTTTTAAAATATAACTCATATAATGTTTTTAATTCTTTAAACTCATAGTTTTTCATAATTTCTAATTTCAACAACTCTTCTTTTCTACTTTCCATTTTTATTCTCCCAATATATATTCTAAATCAGATTCTGATATGCTTTTACTCATCATTGTATCCTCTTCTATAATATTTTCAATTAACTCTCTTTTTTTCTTTTGCAATAATTCTATTTTTTCTTCTATACTATCTTTTGTAATTATTTTATAACTAAATACAGTTTTATCTTGTCCTATTCTATGTGCTCTGTCTATTGCTTGTTGCTCTGCTGATACATTCCACCAAGGGTCAAATATAAATACACTATCTGCCGCAGTTAGATTTAATCCAACTCCACCTGTTTTTAAAGTCATAATCAAAACTTTATATTCCTCTTCATTTTGAAACAAATTTACTATCTCCTGTCTCTTTTTTGTTGCTCCTGTTATTACTAAATATTTTATTCCCTCTTTTGTCAAATCCTCTTCTATTTTTTCTATTACATTTAGAAAATTGGTGAAAACAAGCGCTTTCCTTCCATTTGATACAATATCTTGTAAATTTTCCATTAATAAATCTCTTTTTGATGAGGTTATTCTATTTTCACTAAATGATTCAGGATTTGAAGTTATCCTTCTAAGTTCATTTAAAGCTTGAAATATAAAAAATTGGCTTTTTTTCACCCCTTCTCTTTCTATCTGTTTATCTAATACTTCTTTAAAAAATATTCTTCTTTCATTATATAATTTTTTTTGTTTTGTATTCATATCAACATATAAAGTTTGTTCCACTTTTTCAGGCAGTTCCTTTAATACATCTCGTTTTTTCCTCCTTAAAATAAAAGGATATATCTTTTTCTTTAACTCTTTTGATACATCTTCATTCCCCTCTTTTTGAATTGGAACAATATATTTTTTATTAAAATTATTTACAGTTCCAAACATTTTCGGGTTTAAAAATCTAAACAGAGAAAAAAGCTCTCCTAAATGATTTTCAATAGGTGTACCACTTAATGCAAATCTATTTTCTGCTTTTATTAATAATACAGCTTTTGATATTTGTGAATTAATATTTTTAATATTTTGCGACTCATCCAAAATAGCTGTATCAAACTCTATATCTTTTATTCTACCTATATCATTTCTCAACACTCCATAAGTAGTAATAAATATTTTGTTTTCTTCAAAAACTTTAAAGTCCCTATTATTTCCATAATATATAGCATATTCTAAATCTGGTGTAAATTTTTTAAGCTCATTTTCCCAATTATAAATAAGGCTTGTTGGCACTACAATCACTATTTTTTTCTTATCTGTATATATATTTTTTATTAATGCTATGGCTTGTAATGTTTTACCAAGTCCCATATCGTCTGCTAAACATCCCCCTAATCTATTTTCATACAGATATTTCAACCATTTAGTTCCATATTCCTGATAATTTCTAAGCTCTGCATCTACCTCTTTTAAATTCAAATCCACCTTTTCTATTTCATTAAATCCCTCATATACCTCTATCTCTTTTGAAAACACTGTTTTTAATTGTTGAGTTTCTATCATCTCTTCTATCACTGGCAAATCATAAAAAGAAACATTAAATTCTCCTTTTTTTTCATCAAAAATTCTATTTAATTTATCCACAAATTTTTTCTCTATAATAACATTTGAATTATCTGTAAGTTTTATATATTTATCTTTATTATACATTTTTAAAAAATTTACAACTGAAAATGTCTCATCTTCTATATTAATTTCCATATCTCCTTCAAAATAATCTATTGAGCTAGACAATCCAAATGTTAATTTTGGCTTCGATATTTTTATTTTATATTCGTTTAATTTTTCTGAACCGTAAAGCTCAAAATGGTTAATTAAATAGTGTAATTTTTTTTGTAAAAATTCTTTTGCAAAATTATTTGACATAATTATATAATCGTTATCTATAAAAAACTCACTTTTATCTTTACTCTTTTTTAACATTTTAAATAGATCATCAAATGCTTGTACAGATTTATTATAATCCACTTCACGAATATATATATCCTTACTTTTTTCATTTATATCTACTACTTTTTTTATATTAAATTCTTTGAAAAATTCAAAATCATAATTATCTAAATTCAACCCTATTTTCAAATGAAGATATTTATCTACATCTATTTTTTCAAATACTATTACAGGCTTTAAGCTAATACTATTAATTTTTTTTATACTAAAACCCTCTACTTGACATTTTATATTTGTAAAATATGAATAAAAAATAGATAAAAATTTATTTAAATAACCATCCTTTATCTCTACTTCAAATTCTTTTAACTGCTGATAGTTATCTCCTATATTTTTGATTAGATATATTTTCCCATTTGAATATAAATGTGTTTGCGATATTATTTTATAATCTAAGTTGTTATTAAAATTTATTTTAGCTTTAAATTTCTCTTCTACCTTTTCTATTATTAATTCTAAATTTATCTCTTCTTCTGCTAATTCTATTTTCATTTTATTTTCATTTATAAAACTCTCACTTTTTAATAGATAATCCACTAAAAAACTATTGTTATCCAAATATAATCTTTCACTTTTATTTTCTATCTCATCATCCCAATTTATATTAAATTCATCTTTTTCTTTTATCTCATTTATTTTTTGTAATATAGAGTTATCATATTCATTTGTTGCTATTACTGCATCTGTATCTACTTTTTTTCCTTTTGAATCTCTTAGTTCAATATAGCTTCTCTCATTTTCAAATTTTAAGATGAAATATATTTTATCTTTTACTCTGTAATCATCAAATGAAAAATGTTTTCTTTTTAAACTTTCAAACATTTATAATCGCATCCTTTTTTATTTTTTTGAAATTATCACTCTATATTATAACAGTTATGGTTATTTGTGTAAATATTTTTTTATTAGCAAAATATAAATTTATTCAGAAAATAACAAAAAAAGCTTACAAATATTTAATTTGTAAACTCTTTTTTCTTTTATCCTCTTTTACTTCCTTTGTGATTTAAAGTAGCTGGATTAATTTGATTTGATCTACTATTTTTGTTAGGAATAAATGAGTTAGTATTGTGATTTGTAGTATTATTATCACTCTCAAATTTATCTTTTTTCTTTACCTTTGGTTTTGATGATTTTAATTTTCTCATCTCCTCACCTCCTTCAATATATATTATAGCATATATTTTATTATTTTGAAGATAAATTTATAAAAATTGTTTAAAAAATCTTTCATAAAAACCAACAAAAATGTTATAATCTCCATACAGAAAAAATACATTTTAAACTGTTTTAGAACCGAATTCAATTTTGACTTTTGTATCTAAATACCAAAAAAACTCAAAATCATAAAGTTTGTCCAAAATAAAACTAAAAAAGATTTTATGAGAAAAAAGCGAAAAAGAAAATAGTAGAAATTAATAATATAATCAATATAACTTTAAAGATAAATCTATTAAAAGATTTATAGCTTTTTTATCATAAAATCTCCTGAAGCTAAAACTGTCTGAGAGAGCGCCCTCCTCTAAAGCGAACGAGTTTTTTAGCTTCTTGATTTTTCTTTGCTTCGTTTCTTTGTATCAAGACAAAGAAATGAAGAGGTAAACACAGGGATAAAATAACCTTTAGAATGTTTAAAATAAGCTAGCTTCCTCTGGTAACGCATAAATGTTTTTCTAAATTTTTAATCTCTAAAAAATTTAACAAAATTGCATAGCTTATTTTCTGAATAAATTTATATTCCCCTAATAAAAAATAAAAAAGGAGTGAAAAAATGGAAAAAGAATTAAAAGAAAAATTGCCAAGAATTATTATTTTTATAATATTGATATTATTAATACCAGTATTGAAACCAATGATCTTTGGGCATGGTGTAAAAGAGATAAGAACAAAGATGGAACAAGAACTAAAAAAAGATTACGGAGAAGATTTTATTGTAGAAAACATAGGAACAAGAAGTGCAAATGGAGAAAAATTTTATCAGGCAGAAATATATCCTAAGTCAATAATTGGAACAAATAAAGAATATGATAGTTATTATCATGCAAGAGCAAGTGTAGATATATTACCCTTCGGTAGATTAGGAGGAGTTGGTGATAATTATGGAGTAATAAAAATGAATGATGAAGCAGAAAATTATTTGCTTTTAAAATCCAAAAAAATATTTGGAAACAAAATAAGAATAAAGTCACGTGTAAAATATTCAGAAAAAAAAGGAGATGGATATTTACAATATTTAGAATGTGGATTTCAAGAAAAAATGAAAGCAGTAAAAGAAGATCCAAAAAATAAAAGATTAGAACTAACTTTATATATTTATATATTTGATAGAATAGATACTGAAAAAGAAAAAGAAGAAAGGAGGAAAGAGATATATAAGTATATCCAATATTTAAAAAAGGAAGGGTTGTTCAAATATTTAGAGATGGGAGTAATATTTATAGATGAGCGAGTATTAGCACCAGATTATTATGATTACACCTATGAAATAAAACACGGAAAAAAAGTAGCACTCACAGTAGATGGAGAAAAAGTGTATATGCCACCAATGAAATTAAGAAAGGAGATGAGTGTAAAATTAGAAGATGAAGTTAAGAAAATGAGTGATGATGAATTGATTAAGAGAATGAATAGGATAAGTAAAAGTGAGTTGAGTTATAAGGGAATAAGAAAATATAACAGTCAATATCAAGCTTGGATATATTCTGTAGATATGTTAAAAGCTAACTATGGAACAAGTTATGAAAAATATAAAATAAAAAAAACTTTAAAACGTTTTTATTTTAATTTGTTATCCAATGTAAAATTATCAAGATCATTAAGATATGTATATATAAATAATATAAAAGGAGATGATAGCAATGAGTAAAATAACAGATAAAGAATTATTGGTATTTAGTAATTTAGCAAATTTAGATTGGCAGTTTGTAAATATAAATAAAAAACAAAAAGAAAATGAGGAAGATAATAATAAACAATCAAAACTACTAAAAGACCTACTAATCCCAGAATCATTTGTAAGAGAATATGATGATAAAAAAACTGGTAAAAAAATAGGAAAATACATCTACGGATATCAAAACGGAAAACTAGACAAAACCCAAGCCCTAATCGAAATGCGAAAATCAGCAGGAATAGGAATGGAATACCTATCAAAATTAGATTCTGTTGGAAAATTCTTAGGAGAATGGGAAGTAATCTACGGAGGAGACAAATACAAAATAGTATCAGAATATTTAACAAAAAATATGTCAGATTATGTAGATATATATGCAACGTCATTAAATGAAATATTAGAAAAAAGCAAATCAGATAAAGATAATTTAGATAACTTAGAAAAATTAAAAACAAAAATTAAAAATCAATCAGATGCTAATTTTAATAAGTTATTAAAAGCTTTGGAAGAAAATAATGTAGAAGATGAAAAAAACATAAAAAAACAATTAGTAAAAGATTTATTAAATTTACCAAGTAGAGAAAAAGTGGAACAATTGAAAAAAAGTATCCAAATATTAGAAATGACAATGTTTATTGTATCAAATGTGCCAGGCAATATAATGCCAGCCTTTTTCTTTTCAAAAGTAGGAGGAACAGAAGCAAAATTTTTCGGCTCTGGAATAAAAACCTTACTAAAAGAATCATTAGAAGGAGCAAGCGATTTTAGTAAATATTTTAAGAAATTCACAGGAGAATTAAGCGAATTAATGAGAGTACGATTTAACAATAGTAATAAATTAGAAAAACTAATGATATTATCAGATATACTTTTTGATAAAGGAAGCTATTTTACATTTAAAGGAATAGATGCTGGACTTAACGCATTAGGAGATTACGAAAAAAATAATGGAAAAGTATCAGATGAAAAAAATTTAGGAGAAATAACACTAACAGAAGAGCTGGATATGTTTGATGATGGATTTAGAGTATTTGTTTTGAAAAAAGGTGAAGATATATTAATAATAAGCAAAAATATTGAGGATAATAAAAGTGTCCAAAGTAAAAAAGCGCTTCCAAAAAATTTAGATTATTTAAGAATAGTATATAATAAAATAAAAGATGATAATCCTAGCAGCAATATATTATTAAGCGGTTTGGATAATGGAGCAGATATATCATTCGTTACAGGTATACTAACTGAAAGACAATCAAAACTTTATTATAGTAATCCTCCTAAAAATCTTATTGACTTTATAAATTTTACTACAGAAGATATAAAAAGAGATTATAGCAGTACCAATAAAATAGTGATAACAGGATTAGAAAGTTATATAGCATCAGAATTATATGCTACTTTATGCTATAGTGTTTTAGAGGGGGGTACTCCGTATCTAATAGTACTGGGATTAGATTTTGTATTGTCTGTAATATCAGGAGCAATAGAAATATTCGAGGATATAAAAATAAGAAAACTTTATAGCGAATTGTTGTCTAAAGAAATAATAGATGATGAAAACAGTGGAATCAAAGGTTATATAACAAATAGATTAGAAAAAAGCATAAGTGATGGGACATATAACTTTGCTCCAATTGATTATTTAGAATTATATAGCAAAACTGCCTTTGATAAGTTAGAAGAAAAAAAAGGTAACACTCTTGAATATAAAGATAATAAAAATTTAAGAGGACACAATTCAAATGAATTATTAAAGTTCGAAATGAAACATTTAATCGTAGATAGATATTATCTATATAAGTATATAAAGGATAACAAAGGAGAATATAAATTAAAAGAATGCAAATATATATATGAAGGATTAATTAAAGGAGAACGTGATTTAAAAAATAAAAAATACTTAAAAATAGAAATTCCACTAAAAGAGGCAAATAGCGAAGGTTATAAACTATATTCCCTATTAAAATTAATAAAAGATTTACAAAGAAGATTTCTACATGAGAATAATTTAGGAGAAGTAGTATATATAGAAAATGAAAAATCAAAAATAGGTAAATTAAAAGAGATTATGTTTGTTGAAAAAAACGAAGAGCAAATAGGAAAGATAAAAGGAAATGAATATCTATTTTTACCATGGCTGGACAAACAAGGAAACATAGGACAAGAGTTACAAAAGGGATATATGGCATCAATACTAAAAAGTGTGTTATTACTACAAATTGTGAGAACTGATCCTGCTTATAGAGGATATGGAGAAGTAGCCTTAATCGAAAGATATGGAGAAAAAGATTATAAAATAGAATTAAACTTTAAAAAATTAACTGTAGAAGAATATTTGAAAAAGATGTTTTTTCGATATATTATCAAAGCTACTTCAAATATAAGGACTGTAATAAGAGATATGAGAGAAATATATAAATATAATTATGCTAGTAAAATAAAAGACATATTATCTAAAGAAGGTTTGTCCTTTTTAGATAATTATTGCACTATAGAACATATTAATGCCAAAAAATCTGTAATTAAATTTGAAGAAAAAAAATATGAATTAAATTATGCTTATAATCCATTGGATAAAATCATTGGTGGAACATTAGAAATAGATGCTACAGATTTAGAAATAAATAAAGAATATTTACAATCATATTTAAAAGGATTATTGAAATATCTAGGGATAAATTCCAATAAAGATATTTCAGAATTAACCTTTTTTAATATATACAGCGGAAAGTATTGCACAACATTTATCTCCTCATTATCAGAGGTAGATACAGAAAATAAAATAGAAGAATTTATAAGTAAAGATAATTTTTTTAGTTCACTAAAAGAATTAAAATCAAATTTAAAAAAATATCCATTAAAAGAATTAATAGGTCTAAAAGTTAAAAAAGGAGAAGCAACTATAATCTTAGGAAATGAAAAAGATGAAAAAAAAGTAAAAGTATATAACAAAGAATTAGGAATAGATAACAAAGAAAAAGAGATAACATTAAAAATAACAACACCATCAAAGTATCTTTTGAATATAGAAAGAGGAAAACCAAATAATGATTATGAGCTGTATTCAAGTTTAGGATATAAAGATAAATATTATGACATTCGTAATATGGGAAAAAATTCTAAAGTAACAGCAGATGGAAAAGATATAAGCGGAACATATAAAGGAAAAGATAAAGAAGAAAGTCTAGTAAAAGATAAAATAAATAGAGATACAGGCTGCAAATATTATGGGGATAATCTTATCTTAATAGACCGTAATTTGCGTTATTATTACGGAAATAATTTAGATGATTATTTAACAATAAGTAACTATATGGAAGGATACTTAGGGATAGATTTAATAGAAAAACCAAAAGAGAAAAAAGAAGATTTAGGCAAAGGATTTATGGATTATCAAGTAAAAATAAAAGGTATAAAATATGTTAATTTATTAAATTTAGAAATAATAAAAGAAGTAAATGAACATACAGTAGCAGAAATAGAAGGAATAATAGCAGGAGAAGATACAGATGAAGTAACTAGATTTCTAAATGTAGAAACACAAGGAATAGAAATATTATATGGAGATGATAATAAACCTATATTTAGAGGATTAATTTATGAACATTCTATGGAAATAGAGCAAAATAGTTGTAAAGTAAAAATAAAAAGCTATTCATTAAGCAAAGAATTAGAAAAAGAAAAAAGAAACAGAGTATATCATAATCTTGGCACAAAATATAAAGATGTAATAAGTAAATTAAATGAAACTTATCAAAATAAATACTCATTTGGATTTAATAGTCATATAGACAAACAAGAGTTAATAACAGAATTAAACCCAGTAGAAGTGCAATATAAAGAAAGTGATTGGGATTTTTTAAAGAGAATAGTAAGAAGAGAGAATGATTTAATAATAGTAGATGATAGCAAAGGTAAAAATCCCAAAACAGTAGCAGGAATAGCAATAGGAGAGTTTGGAAGTAGTCAAAAAACAATAGATAATAAGAATTTATTACTAAGTCGAAAGCTGAAAAAAGGAGCAACAGAAAACAGCTATAAATTAAAAGGATATCCTCAAATTAAAGGAGAAGAACTGTTTTCAATAGGTAATCCATATAATATAAATATTGATGTAAATACAGGGAAACAAGATTCGCTATTATTAATAAAAAACAGGATATACAAAGAAAGCGGAGTATTAAAATCAGATTTAGTATTTGTAAGACGAGATGAATTTAATATAGGAGTAGTAAAAAGAGAAGAAAGTATAACAGGACTAACATTAAAAGGGACAATAAAAAAAGTCTCAAAACAACATAAAGCACAAATAGAATATACAGAAATGGAAAATGAATATGACGAAAGTAAGAGTTACTATTACCCAATAGAAAGAATGTATACAGGTACATATTTCACGCCAGAAGAAGATACATTAGTAGAAGTCCATTTTGGAGCTGAAGCAGGAGAAGTAAGTATAAGAAATGTAAGTAGTAAAACGGAAGATATAGATAACGACCCAGATGTAAAAGTAATCAGAACAAGTTTTGGAAAAGAGGTCAGATTTGATTCTAAATCAATAAAAATAACAGGAAAAGATGATGAAAGTTATGTAGAGATAACAGAAGAAAGTGTGGGATTAACAAAAGGAGAAAAAGAGATAATTTTAAAAGATGGTAAAATAGGAATAAATAATAAAGATAGCACAATAACTATGGATGATAAAAAAGTAAATATCACAACTGGTGGAAGTGCAATAACAATGAAAGATGATAAACTAACTTTAGATAATGGTGGAGTAGGAATAGAAATAGGAAATGGAAAGATAAATTTAGGATAAGAAAAAAAGCTATATAGGAACGGTTTAAAAATAACCTTCTGATTTTGTTATAAAATGCGCAATGATTTAGGAACACTTTAAAAGCAACCTTATCTTTTTGTTTTAAAATACGCAATGATTCAAGCGTTTTTATAACAAAATACCAAAAAAATACTTTTTAAATGTTCTTTAAGCGCTTTTATAACAAAATATAAAAAGTTTATTTTTTAAACGTTCCATAACTATTATAAGTTATATAGCTTTTTTATGTCTATCCCCTATCTACTGTAACTTTTTCTACCCTAACTATTTTGTAGCATTAACAATTTTTAAATTTTTTATTTCATATGTTGTTGTTTGATTATTATTTCCACTTCCAATATATTTAAAAGCAACAACTATATTTTTATCTTTATAATCTGCTAACGATACATCTCCTGAAGACTTAAAATCACCATAACCACTAGCCGATTCATCAGCTAAAACAAAAGTTAATTCAGTCCAAGTAGCTGTTGCTGTATCTCCTGAATAATCTTCAGATACTAATACTTTTAATTCTGTTCCATCTTTTGAATACCCTTGAGCCGACTCAAATGTCATTACACTAGAATCCCCTATTGATAATTTAGGACTTACCATCCATGATATATTTGAGTCTTCTCCTGATTTATAAGCACCCATTTTGGCAACTCCACTACTATAATACCATTTTTTAGTCCCTGCTTCTGCAGTTATAGCCCAACCTCTATCCTCAAATTTATCTACTGCAAAAGATTCTTCATAAGTTGGAGTTGCATTAGTATCTATAACATAAACAGCTGTTACTACAGAACTACTTACCAATCCATCTTTTATTCCTATTGCTTTTACTGTTGTTGTTGTTGATATATTAAGTGCAGCTGTATATTTTGTTGATATTGCACTTGGTGTTGTTCCATCTATTGTATAATATATTGATGCTCCTGTTGTTGCTGTAGTTATTGTTATTGCTTGTGTTGTTGTATATGTTCCACTTGCTAAACTAAATTCTGGATTGATTACTGGTAAAACTACTGTTCGACCTGTAAAAGCTCCTATGTGATCAAATGTATTTGTTGGCAAAACATTCCATTCATCCAAATTAAATGTTGTATTTCCTGTAGTTACAGTTGCTTTTCTTTCTAATGTAGTATCTTTTCCCCAATCTGTTCCGTCCATTTTTCCTATTACATCTATCACTTTATCTGTATCAGCTTCATATGTTCCGTTATGATTTACATCTTTTACTAATGCTAAATCATCATTTCCATTATAATATGTAATTGTACTTGCCAAATCTCCTGTACTTGTTATATTCAAATCATCCGCTCCTGCATTATATACGACAAATACCTCTCCTGATTTTATGCTATTCCCATCTGCAAATAGAAAAGGCTTTGCATTACTAGATGCCCATGTATCCCCAGCTGTTGTATTTCCTAATTTCATCATAAAATAATTATTTGTATCCCCTGTTCTTAAAACTATATCACTATCTGTTGGATTATAAACCTCTAAAGCTTTATTATTTCCTCCAGCACATTCTACATATTCTGAAAAGAATAGATCTGCTGTTTTAGCTACTTCAGCTGTTATTATATAATCTGCAGTTACTACATCACTATTGTCCATTCCATCTTTTATTGCTATTGCTTTTACTGTTGTTGTTTTTGTTATATTAAATGCAGCTGTATATTTTGTTGATGCTACACTTGGTGTTGTTCCATCTGTTGTATAATATATTGAAGCTCCTGTTGTTGCTGTAGTTATTGTTATTGCTTGTGTTGTTGTATATGTTCCTGCTGCTGGAGTAATCACTGGTGCTGCAACTTTTTCTACACTATTTTGAATTACATATTTTGCTGTTATTACATCACTGTCATCCATTCCATCTTTTTTAGCTACAGCCATTAATGTTGTTGTTGTTGATATACTTATTGGTGCTGTATATTTTATAGTTCCTGGTTTAGTTCCGTCTAATGTATAATATATTGTTGCTCCGTCTGTATCTGTTAATAATGTTACTGTTTGAGTTGATGTATATGTTCCTGCACTTGGACTAACTTTAGGATTAGAAACTTTATCCTTAGTTGCATTCTCATTAATACATCCACCAAATACTAAAAGACTTAACATTAAAGCATATACCCATTTTTTCATAATTTTTCTCCTCCTAAATTATTAATTTTAAAAAATTCTTAAACTTCACCATTTTTCGTCATTGCCAACTTTTCATACATTTCTTCTATTCTAATTTTTACTTAGGAACGGCTTAAAAATAACCTTCCGATTTTGTTTTAAAATACGCAATGGTTTAGGAACGATTTAAAAACAACCTTATTATTTTATCATAAAGTACGCAACTATTCAAGCGTTTTTATAATAAAATATATAAAATTACTTTTTAAATGTTCTTTAAGCGTTTTTATAACAAAAATGAGAAACTTATTTTTTAAACTTTCCTTAATTCCCCCAAATACGTTCTGCATATTCTGGATGGTCTATAAAAGGATTTCTATTATGTTGATAATCCTTATCTATAATATTATTTCTCCTTATTTCTGTTTCACTTACTGGATCTTCTCTATTCCATTCTAACAATACAGATAATTTTCCAATAGTTGGAGCTTTAGAATAATCATTTATATCTTCTGACATTTTCAAATCAGGTTCTCCATGCTCACCTTCATATCTAACTGCCATATAAAATAACATTCTAGCTATATCCCCTTTCACTTCATCTCTTGGTTCCCAAGAATCAGAATCACTATTACATTCTGTTGCTTCAGAATTTGGAGTTCCTCCATTGTCAAACTCTTTACTGCCTCTGTCAGAATTAACTGAAACATCAGCCACTCTTATATGATGAAGATCTGTTCCTGGTCCCATTTTAGTTCCAAAATCTCCATGTGTTTTTGCCCATACATGTTCCCTATTCCAACCCTTTCCACCATCATACTTTTTAGGTCCATTAACTGATCTTCCAGTATAAATTTCTATTACATTATTTGAATTATTCGGATCCCTATCTGTCACAATTAACGCATTATATGCTTGCGAATATGATAACTCTGTTTGATTGTCTATTAGATCATTTAATTTTGATTTTAAAGCAGAACCAGTTTCTGTTCCAATACTATCATAATAATTTCCGCATCCGGTATCTGTCGGAATAACTACATTTCCTGATCCATTATCTGGAGAAATAACTTCACTTCCTGCAAATAACCCTATATGATCAAATGTGTTTGTTGGTAAACTATTCCATTCGTTCAAATCAAATGTTACATTTCCTGAAGTAACTGTTGCTTTTCTTTCTAGCGTTATATCTTTACCCCAATTTGTTCCATCCATTTTTCCTATTACATCTAATATTATATCTATTCCTGCTTCGTATGTTCCATTATTATTTTCATCTTTCACTAATGCTAGATCATCATTCCCATTGAAACCTGTAATTGGGCTTACCATATCCCCTGCCCCTAGTATATTTGCGTCATCTGCTCCTGCATTATATACTACAAATACATCTTTTGGACTAATAACTTTTCCTACTTCAAATTTATAAACAGTTGCATTGCTAGATGTCCAAGTATCTCCAATTGTTGGATTGGATAATTTCATCATAAAGTAATTATTTACAAGAGATATATCACTTCCTGTTGGATTATATATTCCTAAAGCTTTATTATTTCCTCCAGCACACTCTACATATCCTGAAAAAAACAGGTCCGAAGCTGAATTCACTTCACTTCCTGCAAATAACCCTATATGGTCAAATGTGTTTGTTGGCAAACTATTCCATTCGTTCAAATCAAATATTGCATTCCCTGAAGTAACTGTTGCTTTCCTTTCTAATGTTATATCTTTTCCCCAATTTGTTCCATCCATTTTTCCTATTACATCTAATATTGTGTCTATCCCTACTTCATATACTCCATCATTATTTTCATCTTTTACTAATGCTAAATCATCATTTCCATTATAACTTGTAATTGCGCTTGTCATATCCCCTGTTCCTAGTATATTTGCATCATCTGCTCCTGCATTATATACTACAAATACATCTTTTGGACTAATAACTTTTCCTACTTCAAATTTATAAACAGTTGCATTGTTAGATGTCCAAGTATCTCCAATTGTTGGATTGGATAATTTCATCATAAAGTAATTATTTACAAGAGAAATCTTATTCCCTGTTGGATTATATATTCCTAAAGCTTTATTATTTCCTCCAGCACACTCTACATATCCTGAAAAAAACAGGTCTGAATTAGACGAACTTGCTCTTTGAGTTTCATTCGATATTTTCGCTGCTGAATTGAGTTCATTCCCCGTAAATTTTTTATCTTCATTATTAATACATCCACCAAAAATTAAAACACTTAAAAGTAAAGCATACATCCATCTTTTCATTGTTTTTCCCCCTTTGAAGTTATGTTATTATGGTTTAATAAAAATAGCTGTCAATGTAGAAAATGTGTTTCAATTATAATCATTCTATCTCTCTATACCTGTAAGGGCAATTCACGAATTGCCCCACATAAGCTCTGTATTATAGTTCTCTCTTCATTTCCCAACATTAAATTCTCTTTACATTATGATTATGCTATATCTCAACAATACAATATAACATTACATTGGTACTTTTTAGATATTTACATTACAGGTACTCTTTAATCATCCAATTCTCCACAGGCAACAAAGAATCCTAATTACGATTAAAGAACCACCTGCAACAAATTAAGAGTTGATATTTTTTACCATAACTAGCTATGGCTCGCAACTCATATCATAATTAAAACTTATATCTTGATACTACTGGATTGTGATCTGATATTTTTCCCATATAATCTGTATTTACATATATTATGTCTACTTCTGGAGACTCTTTTTGCAATTCTTTTGATATAAATACATGATCTATAGCTTGAGAATTCCCAGAATAATTATAGGTATAACGTTTATTATAAGGAATTTTTGTATCTATTAAATTAATAAACTCTTTCCCTTCTAATACTCTCATTGGTGCACTTGCATAAAATTCATTAAAATCTCCAATTAAAAGTAGATTTGCATTTGGATTTTTCCCCAATATCTCTTTTGAAAATCCGTTTACTATTTTAGCAAGTTTTACTCTTTTTATCTCAGTATAAAATTTCACTGGTTGAGTTCCACCCCACATGGAAGTGTCTCCACCTTTTGAATTAAGATGATTCCCTATTACAATTATTTTTTTACCTTTAAATTTAAATTCCATAGCAACTGATTTTCTAGTTCCTTCAAATATTGGAGTATTTGGATATACTCTACCAGGATTATATTTTAAATCTCCATTTTCATCTAATCCTACATGATCTTTTGCTCCTGCATTTCCTCTTCTATCAAATTCAACTCTTGTACTTCTATAAATTGTTGCAGGTCTTATATTTCCACCAGGTTCTCCACCATCAGCATAAGCTATTGGATTTATATTTATAATCTTATAATCAGTTGGTCCTCCTGCTTTTTCTATTCCAGATATTATTTTTTCTAACGTTACTGTTGCATCTGTAACTGATGAATTTTGATTTCCATCATTATCTTGTACTTCATTAATTACAAGTATATCTGGTGCTTTCATATTTTTAGCTATAACTTCTCCAATATCATCCCATTTACTAGAATATCCAGCTTTTCCACTTCTTACTTCTCCACCTAGATTTTCTACATTATAAGTACCTACAGTAATATGATCTGCATCTCCCACCAAAGATGTAGTATATCTGTCTGAAATAGGTGTTATATCGCTTCTATTGCTTTCTAAATTATCCACTTTTGACATTGGATAAAATACATATTCTCCACTTCCAAAATCATTTAATGCAAAACTTGCTATTCCTTCTAAATCTGCTAATCTATCTCCTACATTAAATATTTTTTCTCCACCTTTAAATCCATTTTTCGAATCATATTTTCCATAAAATGTTCCATCTGGACTTTTAAACTCATTATCCACAATTCTAATTATTTCTGGATTATAATCATTTTTATCCACATCTATGATCAACCCGCCTACAGGTGTTACTTGTTCAGTTCCTGATACTCCTTTTGGTCTTACAAATAAATTTATATAACTTTTATGTACATATTTATCTTCAAAACCTCCTGAACTTCCTGTAACAATTGGAGAAAGGACTTTAACTTTCATCCCTTCTAAACTTTCCCAAAATCCTAATCCTTCTTCAAGATTAATTTTTACATTATTATTTATATCACCTTTTATTGTAGTTATTTGATTATTTGGTATTTTTCTATTTCCAGTTCCACCAAGCAGAACTGATTTTGGCATTACTCCTTTTCCAAGAGATTTTACATTTTCTATTTTTATATCTCTTAAAGTTGTTCTAGATATATTATTATTAGAAAACTCTTCATACACTGTTCCTTCTATCTCTATTTTTTCTCCTACTGCAATTTTTGGTGATGACATTATTTCTGCCGTTGTATTTACATAAATTGCATCTGAGGTATAATCATTTCCATCTCCAGTTTCATCTTGTAAATAAAATCCATGCATTCTATTATAATCATCATTTACTGTTGCTGTTATTACCCCTCTTGTTTTTACTACTTTTCCTGTATAATCTGATACAAATTTATCCCCTTGTATTGTATATATTGGAATAATATAGTCTAATTCAGGCTTAGATAAATTTTTTACACTATCTCTAACTACTGAAAAATCTTTATATCCTTTTAAATCTGTAATATATTTAATCAAAAGATCTGTTGCTTTATAATCTGTAGATATTACATCTTTATAATTAAAGCTGTTTTTATAATAATATCCAGGGAAATTTATCATAAGACCTGAATCTGGATTATTACCATACGCATATAGCATAAATGCTATTTTATACTCTTTGCTGTCTTCAACTTCTTTTCCATTTATGCTCATTGTAGCTTCTTCTACTCTTCCACCTTTAAAAATTATGTTATAATCTAATCCTGCTGTCTGTACATCAATTCCATAATTCTCCGTTGCTCTTTGTAATATAAACTTTTTCAAATCAGAGCCTTTTATATACATTAATAAAATATTATCCTTATTTGCATCTGTAGAATACACACTTTTTAATTGATCTACAGTCATGTTTATTTTATCTGTTATATCTGTTTTTAAAAGGTTAATTTTCAAATTTTTATCACTAAGATTTAAGTTTTCAGTAGGATAAAGCACTACATCTACATCTAATTCTTCTTTTACTGCTGTAGTAATTAGATTTGCTGCTTCTGTTGATCTTTCTAATTTTTTTTGATTATCTAAACTAACATTTATTGTATTATATGATTCATCTATTTTTCTGTTTGTTATATCTTTTTCACAGGCAGTAAATAAAAATATAGCTATCAATGCAGTTAAAATATATTTCTTCTTAATTGTTTTTTTTCTGCTTATTTTTTTATTCATTATTTTTTTGTTCTCCTTTCTCCTCTGCTTTTTTCTCTAAAAACTTTCTAAAAATTATATTCTTATTTTTTCCGTTCTTTAATTATTGCAAAGGAACTATTCTTTTAATTTCCCCAAATACGATTTGCATATTCTGGGTGATCTATAAAAGGATTTCTATTGTGTTGATAATCTTTATCTATAATATTATTTCTTCTTATCTCTGTTTCACTTACTGGATCATTTTTATTCCATTCTAACAAAACAGATAATTTCCCATGAGTTGGAGCTTTAGGATCATCATTTATATCCTCTGACAATTTCAAATCAGGTTCTCCATGCTCTCCTTCATATCTAACTGCCATATAAAATAACATTCTAGCTATATCCCCTTTTACCTCATCTCTTGGTTCCCAAGAATCAGAATCGCTTTTACATTCTGTTGCTTCAGAATTTGGTGTTCCTCCAATGTCAAATTCCTTATTTCCTCTAGCAGAATTAACTGAAACATCAGCAACCCTTATATGATGAAGATCTGTTCCTGGTCCCTTCGTAGTTCCAAAATCTCCATGTGATTTTGCCCATACATGTTCCCTATTCCAGCCCTTTCCACCATCATATTCTTTAGGTCCATCAATAGATTTTCCTGTATAAATTTCTATTACATTATTTGCATTATTAGGATCTCTATCTGTTACAACTAAAGCATCATATACCTCACTATATGTTAATTCTGTTTGATTATCTATAATATCGTTAAGTTCTGCTTTTAGAGCAGAACCTGTTATGTCTGCTCCTATGCTCGCGTAATAATCACTACTTCCACTATCTGTTTTTATTATATAATTTGCTGTTATTACTGCACTTTCTACGCTATCTTTTATTGCAATTGATTTTACTGTTGTTGTTACTGTTATATTAAAAGCTCCAGTGTATTTCGTAGATGCCGAACTAGGTGTAGTTCCATCTAATGTATAATATATTGTAGCTCCATCTGTATCTGATGATAATGTTATTGCTTGCTTTGTTGTATATGTACCTGCAGCAGGAGTAAATATTGGATCACTTACTTTTTTTGAAACAGTACCTGAAACTACAGAGCTATTTTTTATTTTCAAATTCTTTATTTCAAATGCTGTAGAAAGAGTATTACTTCCAATATATTTAAATCCTATATGTACTTTTTTACCTTCATATGCCGAAAGAGATACATCTTCAGAATCCACATAACTCCACTTTCCATCTGCTTTTGTAGCTAAATGAGGTATTGTTAGTTCTGTCCATGTTGCAGTTCCAACATTTCCAGAATAATTTTCTGAAATTAAAACTTTTAATTCTGTTCCTTCTTTAGGGTAAGCTTGTGCTGATTCAAAATTCATAACACTTAATTCCCCTATTACTAACTCAGGACTTATCATCCAAGCAATATTTGAACTTTCTCCTGATTTATAGGCACTCATTTTAGCTCCATGACTATCATATTGCCAATTAACAGTTCCTGCTTCTGCTACAAGATTCCATCCTCTATCTGTATACCCATCCTCTACAAAAGATTCTGAATAATCCCAAGAACCCCATACTTCTCCAGTTACTTTTTCATAACAAGTAATTGATTCTTTTGCCATCTCTTTTACAAATAACTGCTCTTTGGTATCTCTAGGAATTTCCAAAGCCTCTTCATTTAATATTGCATTAATCTCTTTTATTTTTTCGCCATCTAATATTCCACTTATTATCATTTTTTTATATTCTGTTGAAATATTTTGTAAACTGCCTCTTAATTTTTCTCTGTCATTTAATGTTAAATGTTTTCCAAGTGCTCCACTATCTAATTCAACTAAATATTCTTCAATATTCTGTTGTGCCTTTTCCAATACTATGATTGCTTCTTTATTATTACTTCTATTTGATATATCTAAAGTAGATGTCTTAGCACAAGAAACAGATAAAAACATTATTATTATAAAAGTTATAGATAATAATAAATTATATCTTTTTTTTAAATTTTTCATTATATCCTCCTAAAAATTAAAAATATTTCTATCAAATTCTCTTGTTCCATTCCATTCATTTAATGTTTCTATTTTTACATTAGCTTTTTTATTGTTATCTAAATTATCATATCCTTTTGAAAGAGATGTCTCAAAATCTCCATATAAAACATTTGGTATTATTACCCATTTTTTTCCAAAATCATTTTTTTGATTATCTGCAAAAGCTTTTCTTTCTCTATAATTTTTTCCATCTATCTTACTGCTAAAATCATTTAAATCATTTGTAACAATAGCTGTATATTTTCCACCATTTTTTACATATGAATCAAAATCAGATTCTGATATTAAATTATTAAGAGTAAGAGCTTTAAATCCAGCTTTATTCATATTTCTAATAGTAACATCATAAACATTTCTATCTCTACTTGTTATCAATTTTACTTCTACATTATTTTTATTTAAATAATTTATAAATTCTACTGCTCCATCTACTGCTTCAGCATCTAAAGAGCTATACCATCTATTTCTATTTTCAATAGTATCCTTTTCATTGCTTTTCAAAAGCCAAGCAAAATAAGGAGTATTATCTAATAAAACTTCATCTACCCTTACAAACACTTTTTTTATCATTTTGTCTTCTCTAACTCTTTTTTCAGCTATGTTAAATGCTTGATGAACCAAACTTTTGTATTCCGCTCCATCTTGCATCCAAAGTAATGCAAGTGATGATTGCTGCCCTATATTAGCTTTGTTAGGAGCAGCCTCTATTTCAGCTACATTCATAATAAAACCTATTCCTAAAATTGCCATTAAAAGTGATATTTTCTTCATAATTCCCTCCTTATTCTCCATCCCATATTTTTAATCTTGATAATCTCATTTCAGATTTCTCTTTTTCTGAAGTTGCTGTTCCTATCATTTTTGTATAATATTCAAAACTTATTCCTTTTCCTTCAAAATCTCCATATGTAGGATTTGGAATAGATATCCAATTTTTTCCAAATTTATATTCATTTTTATCTACAAAACTGTTTCTATAATCATTTGATCTGCCATATATTTCATTACTAAAATCTGTTAATTGATCTCCTACATACATTACTATATCATATCCATTGTCAATTACTTCTGTTCTTCTTTTTGTCTTATCAGAACTTTTTTCTTTTAATAATATATGATCTTTATTTACTTTTGAAAAATGTAATTTTTTTAAATTTTTCATAGTGTCTTTTAATTCATTTTCTGATCTATTAGAGATATAAAACATTTCTCCACCGTGAGAATTAACAAATTTTGAAAATTCTACAGCTCCTGAAGTTGCTTTAGCATCTTTTGAATTCACCCATTCGTCCCAAGTGCTCGAACTAAAACCTTTTCCTTTTAAAATTCTCCAAGCTGCATAAGCAGAATTATCAATCATAGTTTCATCTAAATCCACAACTACTGCTAATTTTTTTCCACCTTTATAACTCTTTTTTATTTCTAAAAAAGATTCTTTTGCTACATTAAACGCTTGATATGCAAGTGCTTTATATTCTCCTGATGTTTGAACCCAATTTACAGCCACTACAGATTCATTTTCAAAATTTTTCTCAGTAAAATCTTCAGCATTTATAAATACAGTAAATGCTATAAATAATATACTTATTAATTTCTTATTCATAATTATTATAACCCCCTAAAATTTATATTTAATATTAAGTCCAAATGTACTACATGTTTTTTTCAAATCTTGAACTCTTCTATCTTTTTTTGCTGTCAAATCATTTTCAGGTGAAAATACTGCATTTTTAGCCATTTTATATTCATAGAATGGTGTAATTGTAGCATTCAAATAATTATATTTTACACCTGCTTTAACAACAGTAAGTCCTCCATGTGACTTTGAATCATTAAATCCTGCATCAAACTCTTCTACTGTTCTTAATCTATTTGCAGCTCTTAATCTATTTGCAGAATTTTCTCCGTCATAGATAAAATTTTCTCCTAAATATTGTCCAGAAACATAAGGTACAAGACCTCTAGTTACTTCATATCCCACTTTTAACATTGCTGCAAAATCCCCTTTATCTACCCAGTTTTGTTTGTAATATGGTTCATATCCATATTCAGAAGATATTTTATTCTTTTGTGCATAATAAGGTTTTTCTCCTGCTTGTGTATAAACCAGTTCAGAATTTATAATTAAATTTCCTGGTTCTAAACTTAAATTTGCTGCTGCTGCATATTTTAATAGTGCACCATCTTTTTCACTATCATCTTGGCCAACAACATCAACACTTAAAACTGATACTTCATTGTCATATTTGAATCCAGCTTTATATGCAACTGCTACTCTTTTTCCCCAAGAATATGCTTTTGTAGCTTCTGTCAAATCAAACCCTTCATCTCCAGGTGTATCATATTCTACAGCTCCTGCTCCAATATATAGATTCATCATTTTATTCATTCTATAATTTAAAACAACCCCTGGTATAGTTTTGCTTCCTAATTCTATTCCATTAGCATTTCCATTTATGTAAGTAGGTCTTCCAGAAATATAATACACTTTTGTAATATCTTCTGTTTTAAATTCACTTCCTACTGTTGAACCAAAATTAAATGGATAAATTGCTAATAACATACTTTTATTCATCCCAAATTCCAAATAAGTTTTTTCAGAATCATCATCTAATTTAAATTCAAATCCATTTGCAGTATCAAGTGTTGCATCAACTCCAAATTTAACTCTATTATTTAAAGCTTTTTCATATATAACTTCCATTGTTGTATCTGTTTTGCTTGAATTATTCAAAATATCAGCAGAATATTTTAATGATAAATTGTCAAAATTTAACTTTAAAACACCCTCTCCATCTTTTTCTGAATAATTATCATTACTAGAAACCTTTGCACTGTAATCTAATGAACTTCCAGAAATATCAAATGCAAATACTGCACCAAAACTTAACATAAACATTAATACCAAATAATATTTTTTCATAGTTTTTTTCTGCCATATATTAATTGTTAATATGGCATTACCTCCTTTTTGTTTTTTTTAATTGTAACACAACCACTTTAATTTAATATAAAATTAAAGTAAAACTTTTGTAAATTTTAGAAAACAGATTAAAAAACTATTCTATTTTCTAATAAAACACAGTGAAATTAATAATTTTGATCGTTTGATTTTCTTTTTCGAAACAATTCTAATTTTTATACCCTAATTCAGTGAAAAGGTTTTCTTAGAATTTTAAAAAAATTTTTCTGCTCCTCCTTTCTCATCAAAACAAGAAAATAAACGTTAAAGAACATTTAAAAAATAAGTCTTTCATATTTTGTTAAAAAAACGCTTAAATCATTGCATATTTTAAAACAAAATAGATATATTACTTTTAAGCTGTTCCTATGTAAAATTAATTTTCACTTCCAGTTAATCTTAGTACTAAATATAGTACCACCTTTCGAGCAAAAAATCAACCCATTTTGAGCACTTTTTTACCCATAGTACACTCTGAACTATAAAAAGCTTTCTAACATATACTACTCCCTAAAATAAAAATACCGCACTAGGACAATAACACTGCTTTTTTAGGAATTTTTTTTTACTTGAAAGTGTCTTTAATCACACATTATATACATTTTTTGACGAAAATATATATAGGAGGTGGTTAATATGTTTAAAACAGTTTTTTTATTATTATTCTTTTTATCTTTCAGCTATATATCAAATGCAGAAAATTTTACCAAAGGAGATATAATTGAAATCTCTATAAATAACAATAATATAAATATAGTAAAAAACTTAATAAAAAATAGTTCTGATGCAAATTTAACAAATAAAAGCGGGCAAAATATGACAACTATTGCATTTTTAAGCAGAAGAACCGAAATATTTAAGTATTTAATAGAGAAAGGCGGTAAGTTAAATTATAGAGACAAACAAGGAAGGGATATTTTAGAGTTAGCTCTATATTCAGATTATGAAGAAATTTTAAATTATCTTTTATTATTTCAAAAAGATATTGATTCTCCAGATAAAAATGGAGAAACTCCTCTTATTATTGCAGCTAAAAAAGGATATTTTAAAGTTGTTCAAACTCTCATAAAAAGAGGAGCCTCTATTAAAAAAATTGATAATAAAGGAAATAGCGCAATTTATTATGCAGTTTATAATTCAAACATTAAAATATCTAAATTTTTATTAAGCAAAATTAACTTCGTAGATGATAAAGAGATGAAAAAAATAATTAAAGCAGCTATTTTTAATGGAGATAATGATTTTGCAGAAGAACTTACACGAATTAATAACAGAAACTCAAAATATGCTTTCATGAAGTAAATAGAAAATTAAAATCTAATACGAAAGGAGGTGGGAAAAACGGAACATAAAACAACAGAAGAGGAAAGCTTATTGTATTTATTAGAACTATTAGAAGAAGTTCTTTAGGAACAGATTAAAAACGACCTTATTATTTTGTTTTAAAATACGCAACGATTTAAGCTTTTTTAGATCAAAATATAACAAAATATTTTTAAATGTTCTTTAAGCTTTTTTAGATCAAAATATGAAAAATTTATTTTTTAAACGTTTTTTAGGGCATTTTGAGGCGAGGATATAAGTGAAATATATGAAGGGAATTTGACAAAACAGTATTTTTAAGGTACAATATATTGTACCTTAAAGGAGGCGATTATAATGGAAGCTATAAACTATTCAGATTTTAGAGCCAATATGAAAAGCTATATGGACAACGCTTATGAAAATCACGAAACTATGATAATAACTAGAAAAAAAATGAAAAATATTGTAATTATGTCTATTGAAGATTACAACTCTTTAATGACTACAAACTATTTACTTGCCAATCCTAACAATTCCAAGCATTTGTTAGAATCTATCGAACAAGCTAAAGAAGGAAGAACTGTTTCAAAAACAGTTGAAGAGCTAGAACTATGCGAATAAGTTTTACAGAAAACGCTTGGAAGGATTATACTCTGTGGCAAAAAGAAGATAAAAAAACTTTAAAAAGAATTAATGATTTAATAAAAGATACCATTCGTAATCCATTTTCAGGAATAGGAAAACCAGAGCCTTTAAAAAGCAACTTATCTGGTTACTGGTCTAGAAGAATTGATAAAAAAAATAGATTAGTATATGAAATGTTGGAATATGAGATAATAATTATATCTTGTAAATATCATTATTAAAAAAAATAAGCTACGCTTCACCTTGTAAAGCATAATTTTTTTCTAAATTTTTGGCTTTTGAAAAATTTTACTTTGAAAAATCACATATTTCAAAAAAAACGGCGTAGCTTATTTTATGAATAAATTTATATTTTCCTAGTAATTAAAAAAATATAGGTAGCGTAATTGGAAGATAAGATACAGTTCTAAAACTCTATTCAATTATACCTTAATTTTAGATCTAACTAAATTATGAACTTTTAAATCAACCACAACCACAAAAAGACGATCCATAAGATCGCCTCTCCAAAATATATACCCTAAACTTCTAAATCAAACTCTTTCCATGCTCCTTGTCGCAACTATATTTACTCCAGTTCCCAGCACATCTGCATAAACTACATCTCCCACTTTTACAGGAGCTTCTAATTCTATTTCATTTATTATATCCATACATTTATAATTGAAATCTTTAGGGATCCCGCCATCTGTTTTCACAGGTATTCTTTCTAATATTCCTCCTTTTATTTTAACAGTTGAGGTGATAACTCTTGTAGGATTTGTAACTTCTTTTATTGCATAATCCTCTCCTCTTTTACAACTATTTCCTGTTACTTTATATCCTTTTTCTGCAGTTTTATCACTTTCTATTGTTAATCTACACCCCATTGGACAAGTAATACATATCAATTCCCTTTTCATTTTATACCTCCTAACATTTTCTAATATTTATCTTTATTCGACTTTGTCTGTTTCAATATTGAGCCAACACATAGGTTAGCCCCACATTAGCGACAAATTCTATTCTACAGACACACTTAATTCTCTAAATTTTTCTTTTGTAAGGTACCCAATTGGCAAGCTTATTTTCTCCATTTCACCAGGAGCTAAATGTCTTTTTTTTATTCTTTTTATCTCTTCATTTCCATATCTAATTACCAACTCTTTATCTTTATATACTTTTCTAACTCTCATAAATAGTTCTAATTTATCCTCTACATTTTCCACTCTAATTTTATGCGGCACTATATAGCCTATCCCTTCTCCAGATTTTGTTTTTATTTGATTTACATCTTTTTTTAATCTATTTTGAATATATTTAGCTGCATTTTTTCCAGCTCTCCTACTTTCTTCCGTTACAAAATCCACCAAATCATGCACATGCACTACATTCCCACAAGCAAAAACTCCTTCAAGTGAAGTTTCCATAGATTCATTCACTACTGGTCCTGATGTTTTTATATCTATCTCTAATCCTGCATTTCTAGAAAGTTCATTTTCTGGAATTAATCCTACAGAAAGAAGCAAAGTATCACATTCATAAAGTTTTTCTGTTCCTTTTATAGGTTTCATATTTTCATCTACTTTAGCTACCACTACCCCTTCAACTCTATCTTTTCCTTTTATCTCCAATATTGTATGACTTAACATTAATGGTATATCATAATCATCTAAGCATTGTACTATATTTCTTGTAAGTCCTCCTGAAAATGGCATTAATTCTGCCACTAGCTCCACTTTTGCCCCTTCCAAACTCATTCGCCTAGCCATTATAAGCCCTATATCTCCTGAGCCTAAAATCACAACTTTTTTCCCTACCATATACCCTTCCATATTTATAAACCTTTGAGCTGCTCCAGCTGTAAAAACTCCCGCTGGTCTAAATCCAGGTATTGCAATTGCCCCTCTTGTTCTTTCTCTGCATCCCATTGCTAAAATTATAGCTTTACTTTTTGCTCTACTGAATCCATCTTCACTATTTATGAAACTCACAATTTTATCTTGTGAAATATCCAGAACCATACTATCTAATTTATATTCTATCTTCATACTTTTTAATTCTTCTGTAAATCTCTCTGCATATTCAGGCCCTGTTAATTCAGTTTTAAAAATATGTAATCCAAAACCATTATGAATACATTGTTGTAATATTCCACCAAGTTCTTTATCTCTTTCTATTACCAATATATTTTCAGCACCATTTTTCTTTGCTTCAATTGCAGCTGCTAATCCTGCTGGTCCGCCCCCCACTACTACTATATCATATTCTTTCATTTATTCTGCCTCCTTCCCTTTTGTTCTCCCTATCAAAACATACGATTTAGGATTATCTTTCACTATATCTTTCATATCTTTTTTCTTTTCTCTTGCTAAAATTTCCTGAACTCTAGGTCCACAAAATCCTCCTTGACACCTTCCCATTCCTGGCCTACATCTCTTCTTCACTCCATCAACTGTATCTGCCCCAGCTTTTATCGCTGCAACTATTTCTCCTTCAGTTATATTTTCACATCTACATATTATTTTCCCATATTTATTATCTTTTTTTATCAGAACTGCCTTTTCTTCGTCACTCAAATCCATAAATATAATCTGTTTTCTATTTGCTATAAAATTTTTATTCTCTTCTAATCCACCATTTATATCTTTTAATAATTCAACCACATATTCTGCTATTGCAGGTGCAGAAGACAATCCAGGAGATTTTATTCCAGCCACATTTATAAATCCTTTTGCATCTTTAGATTCTTCAATTACAAAATCCTTCGTACTTGACTCTGCACGTAATCCTGAGAAATTTGTTATCACTTCTCTAAATGGTAATTCAGGAATAGTTTTTTTAGCTGTTTCCCAAACGTAATTTAATCCATCTCTTGTTGTTTCTACATCATCTCTTTCCATATAATCTTCTGCATTTGGCCCCACTATAACATTTCCATGAACCGTTGGAGCTACCAATACACCTTTCCCCATATTATTAGGGCATTGAAATAAAACTTTATTAACTTTATTCCCAAAATTTTTATCCATAATGAAATATTGCCCTCTTCTTGGATTTATACTAAAAGCTGGAGAAGCCACCATATTATTAATTTTATCTGCATATACTCCACTTGCATTTATTATATATTTTGTTTTATATCTGCCTTTATCAGTAGTAATTTCATACCCATTTTCTATTTTTATTATACTTTTCACTTCGTTATTTAGCTTTAATTCTACTCCATTTTTTATTGCATTTTCAGAAAGAGCAATTGCCAGTTCCCACGGACCAACTATTCCTGCAGTTTCTGCATATAGTCCCCCAACTACATCCTTGCTGATATTTGGTTCCATTTTTCTTATCTCTTTTCCTGTTAATATTTGCATTTTAGGAATATTATTTTTTATTCCTCTTTCATATAGTTCTCCTATTGCAGGCATCTCATCTTTTGAAAAAGCCAATACAAAAGAGCCTACTCTTTTAAATGGTACATCTAATTCTTCACATAATTTATCAAACATAGGATTCCCCAAAGTGTTAAATTTAGCCATCAAACTATTAGGTCTTGCATCATATCCTGCATGAATTATTGCACTATTTGCTTTAGTTGTGCCATTTGCAACGTCTGATTCCTTTTCAATAATCAGTGTTTTTAATTTGTATTTCGAAAGCTCCCTCCCTATTGAAGTTCCTATTATTCCTGCTCCTATTATCACTACATCATACATTTTTAACTCCTCCTATCTAGGAACTTTAAAAAAATTAACAAGTCATCTGTTTAAAAAACATAACTGTATATACAAATTTTTTCAAACAATTTTGACAAATTTATTTTTTTAATGTATCCTGTAATTTATTTTTTATATACTCATATGATTTTCTGAATAAATTTACGCTTTCCTAGTAAATAAAATGTTTTTATTTTAATTCATTCACTGTAGGAGCGAACCTATGTGTTCACCCTTATTTTAAATTCCCAATATCAGAACTTACACAGAAGTCAGCCTACATCTTAAGAAAATCATATTATTACACAAAAAGAGTCCATCAAAGAATCTTTGATATGCAATGTAAGTTTTCAAAAAAATTGCATTACAAAACAAATCATTCTTTGACGACTCTCTAATCTCTCTTGTCGTTAATTATTTAATCTTCTTCACTATTCTAATCTAATCTATTCATTAACTATCATTATTTTTAACAATTTCATCTTTTTGTACAAGGGCGAACACATAGGTTCGCCCCTACATGCCATAAATTATACTAAGATATAATTTATATCGTAAGGGCAATTCACGAATTGCCCCTCTCTTTTTTAAACATTCTCTATCCAGCTCTTATGCTTCCCATCCCTCTGATCTCTTAACAGCTTTTTTCCAAGTTTCATACAGTTCTTCTTTTCTCTCTTCTGTGATTTCATTTACAAACTTTTTATCCATTTTCCATTTTTTAGCTATCTCCTCTTTACTTGTCCAAAATCCTACAGCAAGTCCTGCTAAATATGCAGCTCCTAATGCTGTTGTTTCTGTTATTTCAGGTTTTTCTATTGATGTTCCTAATATATCAGATTGAAATTGCATTAACAAATTATTAGCAACTGCTCCTCCATCAACTCTCATTCCTTTTAATTCTATTCCAGAATCTTCTTCCATAGCTTCTATTACATCTCTTGATTGATATGCAATTGACTCTAATGCAGCTCTTATTATATGGTTTTTATTTGCTCCTCTTGTTAATCCAACTATTGTTCCTCTAGCATACATATCCCAATATGGTGCTCCTAATCCTACAAATGCAGGTACTAAATATACACCATTTGAATCTTTTACTTTTTTTGCAAAATATTCACTATCTGCAGCATCATTTATCATTTGCATTTCATCTCTTAACCATTGTATTGTTGCTCCACCCATAAATACACTACCTTCTAATGCATATTCAACTTTTCCATCTACTCCCCAAGCAATTGTTGTAAGTAATCCATTTTTAGAATTAATCATCTTTTCCCCAGTATTCATTAATACAAAACATCCTGTTCCATATGTATTTTTTACCATTCCTTTTTCATAACAAGCTTGTCCGAAAAGTGCTGCTTGTTGATCTCCTGCTATTCCAGCTATTGGAATTCTTACTCCTCCGCTTCCACCTAAATTTGCATATCCATAAATTTCACTTGATTGTTTTACTTCAGGAAGCATTGATTTAGGAATATTCAATTCTTTTAACATTTTTTCATCCCATTTTAATTCTTTTATGTTATATATTAATGTCCTTGAAGCATTTGAATAATCAGTTACATGCACTTTTCCATTTGTCAAATTCCAAATAAGCCATGTATCAATTGTACCAAATAATAGCTCTCCATTTTCAGCTTTTGCTCTTGCCCCTTCTACATTATCTAATATCCATTTTATCTTTGTTCCAGAAAAATATGCATCTAAAACAAGCCCTGTGTTTTCTCTTATATATTCTTCTACTCCATCTCTCTCTTTTAATTCTTCTACAATACTTGCAGTTCTTCTACATTGCCAAACTATTGCATTATATATTGGTTTCCCTGTATTTTTATCCCAAACAACTGTTGTTTCTCTTTGATTTGTTATTCCAATAGATGCTATCTCTTCTGCAGAAATTCCAGCTTTTTCTATTGCTTCTACCATTACACTTTTTTGAGTTGCCCATATTTCCATAGGATTATGTTCTACCCAACCTGCATTTGGATATATTTGTTCAAATTCTCTTTGTGCCACACTAACTATTTCCCCAGCTTTATTAAAAACAATTGCTCTCGAACTTGTTGTCCCTGCATCTAAAGATACCACATATTTTTTTCCCATTACTAAAATCCTCCCTTTTTTATGTTCAATTTTTTTCTTTGCGCAACTTTATGTTCGTTTCATCTTTGTTCTGAAATTATTTTTTCTACAAAAATTTTAAAATTATTTTAATTTTTACAGTTCCATCCAATAAATTTATACAAAAAAATACCACATAAAAAACACCTATTAATTAGGTTTTTTATGTGGCTCTCTTCATCTCTCGCCATTATTTAATTTTCACATATACCAAAGTTCTTTATTTGTTGTAGAAACTCCATCTGCTCCACTTTTTAAATTTTCTACTATATCTTCTTTTGTATTAACAAGTCCACCTGTAATAAGTGGTGTATTTGTATTTTTTGCAACCTGCTTTACTACACTAGGTATTATCCCTGGAAGCATCTCAATTGCATTCGGTTTTACATTTTTTATTATTTCATAACTTTTTTTTAATGATAATGAATCAACTATAAAAAAACGTTGAATTGTAAAAAAGCCTAAATCTTTTGCAGCTTTTATCAAACTACTTTTTGTTGTAATTATTCCATCTGGATTTATCTCATCTTTTATATATTTTAAAGCTGCTACACTTTTTGATAAACCATCAATTAAATCAATATGGACATATACAAGTTTTTTTGCATCTTTTATTTTTTTTACAGTTTCTTTAAGAGTGAACAATTCTCCATTTAATAAAAATATAATTTCTACAGGAGATTTCAAAACGTCTTCTAACATATTTTGATTTTTTATTGCTGCAATAATTGGATTGTCCTGAATTACCTCGTAGAATTTATTGCTCATATGTAGTTCCTTTCTTAGAAATAGTTTTAAAATAAATTATTTTCAAACTGTTTCTTAGCGTTGATATTTAAGTTATACCACACACTTTTACGTTTGTCAACTTAATTTCGATTATTTTTTTGTCTGCCGCGGTTTATTTTTGAACTTTTTCTCTTAAAATTTTGTGGATAATGTAATTTATGTTAATCTAACACCTGAAAAATAAAATGACTTTAGTTTCGCAATAGATTCAATTCGGACATATTTCTCATATTAAAAAATTATGTAATTTTTTATTTTTTCAAGTATAAAATATGGATAGTGTTAAGTTTTTGTAGAAAAAATAATTTCAGCACAAAGAAAGAAGAACACAAAGGAAAGCCCTTTTTGAAACCACGGGATAAAAACAGATTAACACCATTATTATATTTGAAGGTGTCCGCTAAGTTTATCCCATTCATACACAAGTAAAAATGATTTTGACATGGTCTCAGAATTTTCAATACCTCTTTATTGGGTTCACTTGTGCCCCTTTCGCGTTCTCTTTTCTTCGTGCTGAATCTTTTTCTTTATTATTTATCTTTAATCTAAATATCTTCTATCCTCTTACACTCCCATCCTACAAATACAACTATCCACTTCTTAACTTTCCCCAATTCCTCTAATTGTTTTACCTCTTCACTTTCTTCATATTTTTTTAATTGCTCTTTTCCTTCTCCTAACTTCTCTTCTATTAATTTATCTCCATATTTTTCATAATCACTTTTCTTTATATATTTTAATTCTATTATCCCATAATATCTCGGTTTTCCCATTACACCTTTTTTCAATATTATATCTATATATCCCTTTTCTACCTCTTCTTCTGTCTTTACATAATATATATTACTTCTATATAAAAACATTAGCATTATTATCTTTATATACTTCTCATCAAATTTTATAAAATCTCTATTGGATAATTTAAGTAATACTTCTTCTGTTAATTTTGTTAATTTATCTATCTTTCCATCTAATCCTATTTCTACTATTGCATCCTCTATATCATTATATTCTATCTCATATCCTAAGCTCTCATTTATTAGCTCTTGAAAATATTCAAAATATAGTTCTTTTATAACATAATTTGGTACTTTTACATATATCCTGCCTAATATATCAACTTTGCTTATTGATAAAAATCCCATATAAAATAATAATGATTTAAAATCTTCTATATTAAATTTACCACTTAAATTATATACTCTTGTTAAATTTAAAGATTGCTCCTCACCATTTATAAGTTTTTCTAGCACTTTTCTTCTATCTTCTGTTAGCTCTCCTCCAATTCTAAATAAATTCGCCATCTTTTTATAATCGCTCACTACATTGGAATCTACTAACTCTTCTTCTTCTCCTTTTCTTTGATAATTACTCACATAATACATTATCATTGTACTGTTGTATATATATTCTTTAGCTTTTCTATTAAATTTATATCCATCATAATAATTTTTTAATTTCTCCATATTTTGCTCTATATCATATTCTGGTAAAATATCTTCAAATAATTTCTTTACCTCACTTTTTGTGAAACCTAACATATTATTAAATTCTGATTCTACTGTTATATTTGTCGCTATATTAAAGCCACTTGTTAAACTATCTAATGTTATTGGCGTTACTCCTGTTATAAATATTCTATCCACTATTCCTGAGGCTGTTCTATCTTTTATCTCTTCATAAAATTTCCTTACAAATCCATTTTTACTTACTGCTTCTGAAAAAAAGTTATAATTAAATCCTAATATTTCGTTTGCAAAATGATCATATTCATCTATCAACAAATATATTTTTTTATCTAATATATCCTCCATATCTGTTAAAAATCTTTTTAATATTTCTGCTGATTTTCCTCCTTCTATTTTATGTTTTACTTTATATTTATTACAAAATTTTATTATACCATCTTTTACATTTTCTACAAATCCTATCTCCGTACTCTTTTCATCTCGTGTATCTATTCCTGAAAAACTAAATTTTAATATATAATAGCTATTCTTTAATCTTGTTGGATTTTCCCCTATATATAAATCTCTAAACAAATCCTCTTTATCCTTATTATTTATATCATAATAATTCTCTAATATTGATATTAATAGACTCTTCCCAAATCTTCTTGGCCTTAAAAATATCAAATAAGGTTCATTCATATTTTCTAATAGCTCTATATATTTTGTTTTGTCCACAAAATAATAATCTTCTTTTACTAATTTTTCAAAATTACTTATACCATATGGTATTCTCTTCCTCATCTCTTTTCGCCACCCTTTTAAAAAAATTGATAATTTAAAAAATATATATTGATAATTTTTTATCTTTTTAATTCAATATTCTTTAATTTTTCCCCACTAAGACTCTAAGCTCTCTAAGATACACTAAGAAATATTTTTTTTATCTTTATCTTTTCTTTGTGACCCCTTTGTGTTCTTCTTTCTTCGTGCTGAATCTTTTCCTTTTTATCTTATATTCATATTTTCTAATCTCTAAAATACAAATCTCGAGTATAAACTTTCCCTTCTACATCCTTTAATTCTTCATTCATTCTATTTACAACTATCACATCTGATATTTTTTTAAATTCTTCTAATTCTTTTATTACTTTTGAATAAAAAAATTCATTTTTCTTTAATGCTGGCTCATAAACAACAACTTCTATTCCTTTAGCCTTTATTCTCTTCATTATCCCTTGTATTGCCGAAGCTCTAAAATTATCTGAATTACTTTTCATGGTAAGTCTATATATCCTGTTCCTGCTATTCTTCTTTTCATTTTTTATTTGTGTGAATCAATACTATTTTTTTATCTATTTTTTATATTTATACAAGGCAATTCCAACTCTATCAATATGTTCTAATAAATCTATATTTTTTATTTTATCATAAATTATAATATCTATTTCGTAAGGTAGATCTAATTCATCTATTTTTAATAATAGTTTATTTAAATCAACTAAATTTAAATTTTTTCCTTTTATTGCTAAATCAATATCTGATCCATTTTTAAAATTTCCTTTTGCTCTTGATCCAAAAAGTATGACTTCTTTTATTTTATCATTTTCTTGAAATATTTCAAATAACTCTTCTATAATTTTTTCTCTTAATCCATACTTCATAATTGCTCCTATTCTTCTCTTTCTAATTCTGTCATTTTATTTAAAAACAAATTGAATTCATTAAAATAACTAGATTTTATTACTTCAACAATATCATCTGCTCTAGTTTCATCATAAGTGTGACTGCTTAAATTTCTACTTTTTATCATCTGCATCCAAACTTCTCCATTTTCTATTAAGGAATGGCTTAAAAATAACATTCCCATTTTGTTATAAAATACGCAATATTTTAAGCATTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCCTAAATTAAATTTAAAAGCTTCTTTTACAGCATCCCTTGAACCATAAATATTTTGATTTCCTTTTGATTCTAAAAAATCTTTAAGAACTTTCCAAGATAATTCGTGTGTATATTCAAAAGCTTGAATTAAACCTTGTTTTTCTAAATTTGATAATTCTCTTTTTTTTGTTAACTCTACTGCATCTTTTAATTGTTCAAAAGCTCTTTTGAAATTAGAAAATCTTTGAATCCATCTTATATCTTTATTTTCCATAAATTACACCCCATCTGTTTATACTTTTTAATATAATTGCCAACTTATAAGCTAGTTTAATTTTACTATTATTTTATATTTTTTTATATTTCTTTCCTTTATTCGTGTCCTATTTATAAATATTCGTGGCTAAAATTCTACTCCACTTTCAACAAACTCTCTAAATGTTTGTAATTTCATATCTTTTTCTGACAAACTTAGTTCTTCTTCTTTTATTCCATACTTCTCTAATTCCCAATCTATTCCTACCTCTTTATCATTCCATACTATTCCACTATCATATTCCGGTGCATAATAATCTGTACATTTATATTGAAATTCTGTATTATCTTCTAATGTTATAAATCCATGAGCGAATCCCTCTGGTACATAAAACATCCTTTTATTTCCTGCTGTTAATAATACACTATCCCATTTCCCAAATGTTTCACTATCTCTTCTTAAGTCTACTGCTACATCTAATACACTTCCTGCTATTACTCTTACTAATTTCCCTTGTGTATGTTTTGTCTGAAAATGTAATCCTCTCAATACTCCTTTTTTAGATTTAGAATGATTATCCTGTACAAATTCCATTGTTAAACCTATTTCTTCAAAATCTCTTTTACTATAACTTTCCATAAAAAAACCTCTACTATCTCCAAATATTGTAGATTCAATTATTACTAATCCATCTATCCCTGTTTCTATTTTTTTAAATTTATTCATAAAAACCTCCACTTGTAATTAAAAATAAAATCTTTTAAAACTTTCAACGCAGAGCCAGTAGAGTAAAAGCTGGTAACTGATAACAATTACCAGACAGTCCTCATCAAACCGTACGTGAGGTTTTCCCTCATACGGCTTTCCTATAGATTTCATCTCAAGCATTCACAAGTTGTCATTAATAAGCTGTTGGTTCTATTAGTCCATATTTATTCACTAATATTTTATATGCTCCTTTGCTATAGAGCTTGCTTGCCCTCTGACTTTTCCTTTTATAGTATCTACTTAACTTTTGAAATAAGTACCACCTTAGATTTCTCTTTGCTTTATTGGGGTAACTTATCCCTTCTATTGTATGATAATTTATCCAGCCTCTTACCTTCATATTTATATCTATCGATACTATTTCTGGCGGTAAATGGCCATTGTTTTTCAAATACTCATCTATTTTTTCTCTGATTTTCTTTTCTGATTTTTTACTCGGCACTATATTTAAATATTTTTCTTGTGAATTGTATAAACTTTTATCTCTTCTAAATGTAAATCCTAAAAAATCAAAACTTTCATCTCTTATATTCACTTTGTGCGTTTTATCTGTATTTAATTTTAACTCCATCTTCTCCAGTATTTCTTTTAATTCCTTTGTTACATCCTCTGGTATTTTCTTCCCCATTAATACAAAGTCATCTGCATATCTTACTATTTTTATTCCATAATTCTTAAACTGTTCCAACACTTTTACCATTTTATCTAACATATCTAAATATATATTTGCTAATAATGGCGATATTACTCCTCCTTGTGGGGTTCCTACTTTGTTTTTCTTACCTCCACTTAAATTATTATCTTCATCTTTTACAGGAGCTTTTAAAAATTTCTTTATTAGTCTTAAAACGTGTTTATCACTTATTCGTCTTCCTACTAATTTCATCAATTTTGTGTGTGGTATTGTATCAAAATATGAACTTAGGTCTGCATCCAATATCTCCTGCTTTCCTTCTTTTATATTCTTTCTTATCTCTTTTATTGCTCCAGAAGCTCCTCTCTTTGGTCTAACTCCATATGAACTCCCTTCAAAATCTGCTTCAAATATTGGCTCTATTACTATTTTACAAGACATTTGTACTACTCTATCTCTTATCGTTGGTATTCCCAGTGGTCTAGTCTTTCCATTCCATTTAGGTATATTTACTCTTAATACTGGTGATGGTATATAGCTCTTTCTTTTTAGGTCATTATGCAGTTCGTCTATAAATTCATTTATTCCTTTAGACTCTATTATTTCAAATGTTTCTCCATCTATTCCAGGACTTCCTTTTTTCTGTTTCACTCTTATATAGGCTTCATATAGAAATCTCTTTGACATTATTTTATCATACAATATGTAGAATCTATATTCCTTCTCTTGTTTGGCTTTTTGATATATCTTCTTCTGAAAGTCTCGTATTCTTTTCTCATCTCGCTGTAGCACGCTACTTGAAATAGGTTGCTTTTCTAGGTTATTTTCCAATTTGCAAATACTCCTTCCTTCTAAAGTTTTTTCTATAGCAATGTTCCTTCGCTTCTCCTGAGTTATGTTGTCTCAGGTATCATCACTACTATGAACATCTCCGACTTCTTGTTATTCCAATATATCTTTCCAAATTATTCGTTATAATATATTGTTTAGGTAGCTATCCTTAATTAACAAGACCTCTCAAGTTCCCATATTATCCTTTTATATCCACGCCATTCCTTTTAACCCCGACAGTTCCGCTTTGTTTTGCCATTTATTTTCCAAAGCTGGTGGCAGGTTTCACCCACTCCGAGAGGCTGACCAACTGTTACCTTACGGCTTAGATACCTGCTTCTATAGGCTTCATAAATAATGTCGCCATTATTTATGCTATATCTGCTTCTACCTGAAATGGCATAAATTAGGTAGGTTGGACTTTCACCAACTAGATAATACAGATTTAGCTTGACGCTCCAGAGGAATCAGAGAAAACCTTTTTCATTAACTCTACTCTTATATCCTTTATTTTTTCCCTTCCTCTGCGTTCCTCTGATATCTCCGCGACTCTGCGTTGAATCTTTTATATTTTATCTTTACTTTTATGTCAAGTAGGTAAGAGGAATTTCACCTCGAACCTCTCACGGAACCGTACTTGATACTCTCGCATCATACGGATCTTCATATCCTTAAATTCTCACGAATTTTAATATCGTCCTTTCGTTCCTCTCTTGCGATTGACTCCATTATTATATTTGAATATGTTAGCCCCTTCGCTCCATTATCATTACAATAACTTCTTCACTACTACGAACTAATCCGCCCCAGATAGAATCATCGCTACTTTCGACCTCGTGGGGTCTCCACTTGTATCTTTTCACTTAGCATTTCCTATCTGGTTCACAAGTTCCATTGAAAAGCCTAAATTAAAGTCTTGCCCCCTATATACCGTATGCCACTTAGCCAATAAACAGGTGTTCGCTAAGTTTATCCCATTCATACAAAGGTGAGAATGGTTTTGACATAATCTCAAAAGTTTCGATACCTCATCGGTGGGTTCACTTCCGTTCAACTCTTTAATTCTTACCTGACATACTTTTGTATGCCTTTTCCCTAACCGTTCAACACCATATCCCTTAGAATACAGCACCGTAGGGCGGTTTGAAACCTCCTCCTGTAAAGCGATTTCGGTAGACCTACTACCATCTTTTCAACAGCATTTACTCAAAGTTTTCCCTCTTTCTTGTTATCAATTTTAGGTTCAAAGTTCGCTCATCGCTCCTTTGAATAGTATTTTACTATCTTTTCCAATATCAAACTTCTTGGTAACTTCATTTTATACTCAAGATTTTAGAAAGAAGTTTCACTTCTTTCATTCTTGTCACACCTTTGACTCTTCTTTTCTTTCTTTTTCCTTTGCCATAATTATATATATATCTTGTTTTCCTCTTTAAATGGTTTTCAAAATCTTTTTCTTGCCTTCCTCTGCGTTCCTCCGATATCTCTGCGACTCTGCGTTGAATCTTTTATATTTCATTTCCCTATTTTTAAAATTTAACGCATCTACTTTACCAACTCCATTAAATACTTCCCATAATGCGTCTTCATTAGCGATTCAGCTAATTCCTCTACTTTTTCTTTACTTATCCATCCATTATTATATGCTATCTCTTCTGGACAAGCTACCATTACTCCTTGCCTTTTCTGTACTGTACTTACAAAGTTTGCTGCATCTAATAATCCGTCATGTGTTCCCGTATCTAGCCATGCCATTCCACGTCCAAAGCTTATTACATTTAATGTTTCTTCTTTTAAATACATTTCATTAAGAGTTGTTATTTCTAATTCTCCTCTTACACTTGGTTTTACTTGTTTTGCTTTTTCTACTACTGTATTATCATAAAAATATAATCCTGGTATTGCAAAATTTGATTTTGGATTTTCTGGTTTTTCTTCTAATGAAATAGCTTTTCCGTTTTCATCAAATTCTACTACTCCAAAAGATTTTGGATTTTTTACAGGATATCCAAATATAGTAGCACCTTTTTCTCTTTTAGCTGCTTCTCTTACCATTCCTGTAAGCCCATGTCCATAAAATATATTATCTCCAAGTACTAATGCACAAGCATCATTACCAATGAACTTTTCTCCAATTAAAAATGCTTCTGCAAGACCATTCGGATGTTCTTGTACTTTATATTCAAAATGTACTCCAAAATCTTCTCCACTACCTAATAATTCCTCAAATACAGGTAAATCTCTAGGAGTAGATATAATTAAAATATCCTTTATCCCTGCAAGCATTAGCACAGATAAAGGATAATATATCATTGGTTTATCGTAAATAGGTGTTATTTGTTTTGATATTGCTTTAGTAACTGGATATAGGCGAGTACCGCTGCCTCCAGCTAAAATAATTCCCTTCATTTTTCAATAGTCTCCTTTATATTCTATTATTTTATCATTTAATTATAGCACTTTTATTTTAAAATTTCATTAAAAAAGACAGAACACCTATCTTTTATTTATCAAATATTTCTAATAAGTTATTAATTAATATATATTTTTTTTTTAACCTTTCATTAATACTATGCCCTGTTGTTATTAAATAATTATTTAATATTCCAGCTCTTTCTCCAGCTATTATATCACTCTCTTTATCTCCAACTAATATCGAATTTTTTATATCTATATCAAATTCTTCTATCGCTTCTAAAATCATTCCCGGATTCGGCTTTCTTCTAATGCTATCACTTTTATATTTTCCAATTCCTTTATCAGGATGAGAAAACTCATAATATACTTTTGTTATTTCTATCTCATCTTTTTCTAATTCTTTCAACATCCAATCATTTAATAAAAAAAATTCTTCCGCTGTATAATAACCTCTTCCTACTCCTGCTTGATTTGTTATTATTATAATTATATAGCCTTTATCTCTAAATTTTTTTATTCCTTCTTTTATTCCTTCTATAAATTTAAATTCTTCTATTTTATATAAATAATTAACTTCATTATTTATAACTCCATCTCTATCTAAAAACAAAGCTTTTTTCATATTTTCTGCTCCAATTCTTTTTGAGCTTTATTATAATCTTCAGGAATACCAATATCTATAAAATATGTATCACTTTTATATGCTATAAAATTATCTTTATTAACGTTTTTTTCCATTATATCTTTTTCAAAAGAAAACACTTTTGGCAAATCTAAACTATTTATATATTCTTTATTAAGGATATATATTCCACCATTAATATTCCCTTTTTTACTTTTTTCTTTTTCAGTAAACTTCTCAATTTTATTATTATTATCTATTACTTTACCATAACGTTCGAAATTTTTCATTGGTTTTACTGCTATAGTTAAATCTGCATTATTTTTTATATGAAACTGATACATCTCATTTAAATCTACATAAAAAAATGTATCTCCATTTATTATAAAGGATTCTTTTTCATCAATAAATTTAAATGCTTGATTTATCGCCCCACCTGTACCTAATTGTTCTTCTTCAATTGAATACTCGATATCTATTCCTAAATATTTATTTCCATATCTATGTTTTATTATTTCATTTTTATAACCTACTGCCAATATTACTTTTTTTATATTATTTTTTTTTAAATAAAAAAATATATAATCTAGAAATGGCTTATTTCCAATAGGTGCCATTGGTTTTGGTACATTATTTACTACACTTCTCAATCTTGTTCCTAATCCTCCAGCTAACACTATTGCTTCCATTACCCTTTCTCCTTTTTAAATATTTCTTTTTCAACTATAGCACATATAATATGTTCTATCATTAAATGACTTTCTTGTATTCTTGGTGTTTCTATAGAAGGAATTTTTATCATATACTCACATAAATCATCCATTTTACACTCTTTACTTCCTGTTAATCCTATTGAAATAATTCCTTTTTCTTTACATACTTTTAAAGCTTCTATTATATTTTTTGAATTTCCTGATGTTGAAATTGCAAAAAATATATCTCCTTTATTTCCATTCGCTTCTAATTGTCTTGCAAATACCCTCTCATATCCATAATCATTTCCTATTGCTGTTAATATAGATGTGTCTGTTGTTAATGCTAAAGACGCTAAACCTGGTCTATCAAAATAAAACCTACTTACAAATTCTCCAGCCATATGTTGAGCATCTGCTGCACTTCCTCCATTTCCAGCAATAATTGTTTTTTTCCCCTTTCGATATGCTTCTACTGTTAAATTTGAAACTTCTATTATTTTATTTAATATCTCTTTATTTTCTAATATATATTTTTTTACTTCTATTGAATTATAAATTTGTTTTTCTATATAATTATACATCATTTTTCCTCCTATTTTATAGTCCATGCCATGGTTCCTTCTTCTACAAAATTTGGATCAAATACTTTTCCTTCTTTTTTTTCAAAAGCCTCTATTAGCTGAAGTTTATCTTCGGGATTTACTATAAACATAAAAAATCCTCCTCCTCCTGCTCCTGATATTTTCCCAGAAATTGCACCATTTTGCATAGCATATTCATATATTTCATCTAAATTATTATTAGAAATTACCTTTGCCATTTTTTTCTTCTCTAACCACGAATCTCTTAATATTTGTGCAAACCAAGATATATCTCCTTTTAAAATTGATTCTTTCATTTCAAGTGCTTTTTCTTTTAATTTAAACATAGCATCCAAGCTTATACTCTTTTTTTTATTTGTATTTTTTATTTGTTCATCTATAATATTTGCAGAATCTCTTGATTGCCCTGTATAATACAATACCATTGAAGCTTGTAATTCATTTTTTATCCATCTTTTTATTCTTAATGGATTAACTATTACTTTTTCTTTATAAAATTCCATAAAATTAAATCCACCAAATGTAGCTGCATACTGATCTTGTTTTCCTCCACTTAACCCAATATCTTCTCTTTCTATCTCATAAGCAAGATGAGCAATATCATATTCTCCTAATGGTAAATTTAACCATTCTACAAATGCTTTTATTATTGCAACTACCATTGTTGAAGAAGATCCTAATCCAGAACCAGCTGGAGCATCTGAAAATGTAATTAATCTACAACTTAGAGATTTCCCATTATTAAAATCTTTAATTATTCTATTATATACACCTTTATGTAAATCTAATGTTCCATTTAATGCTATTATATTTACTTCATTAATAGTAAAAATTTCATTTCTATCCTTTGCTATAAATTCAATTTTCCCATTTTGAAGTGGTTCTAAAATACAATAAGCATACATATCGATAGTAGCATTTAATACATAACCTCCATAAGTATCGCTAAAAGGAGATACATCCGTTCCTCCTCCTGCTAATCCTAATCTTAATGGTGCCTTTGATCTAATTTTCATACTCTCCCCCCCTTTTAAAAAATAGCTTCTATTTCTTTTTCTAATAATTTTAAATCAAATAAATTTGATAATTCATATGATTTTTTTGCATAACTATTCGCTAATTCAAAATTTGAAATAATTTTATTTAATATTTTTATAAATTCAGAAGAATTTTTATATGTTATTATTTCATTAATCATCTCTTTATTATATTTTTCTTTTATAAATACTTTATATGGATATGCAGAAAATTCAGAAGAAATTGCTGGTCTTCCATTTACAAAAGCATCTAAAATTTTATTTTGCATACCTGCTCCAACATTAACTGGACAAAGCACTCCATAAGAGTCTATCATTTCCTTATTACAATTATCTACAAATCCTAAATAATTTATATTTTTTAATTTTTCTATCTCATCAATATATTTTTTATCTAAACTTCCACCTATTATATCTATAGAAAAGTTACTCTCTTCTATTCCTTTTTTATTTTCAAGAATATACTCTATTGCTCTTACATTAGGAAAATAACTATACTTTCCAATTAATATAAATCTTTTTTTTGTATTTTCATCTATTGAAATAAATTTTTCTAATTTAGGTTTTAAAATTGGTATTGTTATACAATTATTAATACTTAAATATTCAACATCTATTGTGTTATGAAAAATACCTTTATAAATATTTTTTGATAATTCTTTTTCATATTTTTTTATTAATGGAAATTCTATTGTAAACAATATTTTTTTTAAATTTCCTACATAATCTTTTGATTTTTCATAATTTCTTGCTATTGAATCAGCATATAAAACAATAGATTTTTTCAAATACTCTTTTGGTAATAATCCTGTTAATCTTATTGTATGTACAAATATTTTATCGTAATTTTCAAATCTTATACTTTTATTTAAAGTCCTTTTGATAAAGATATTTGAAAAATATCCTAATTGCATTGGTTTTAACTGCAATAATGTAATTAATGAACCAATTATTCTATGAATTTTATCTACTTTTATTATTTCTATATTTTTTATATTCATAAATTGTTTTTTTATATCTTTTATTTTCTCTTTATAATTCCCTAACAATTCATCATCAAAGCATATTAGATCTATTTCATATCCTAATTTATTCATTGTTTTTAAATAATTATACATTGTTATTTTTTCTCCTCCATTTGCTGGAAATGGTATTCTCATTGATAAAACAAGTATTCTCATAAAAAATGTCTCCTATCTTTTTATTTTTAATATTAATTTTTTTATATAATTTTTATAATAAACTGAAAATATCAATATATTTTCTAGCATTTTACTTATCTTAAATAAATTACAAATTTCTTTTAAACTTTCTATATAATATTTATCATACGTCTTACTCTCTTTTCTAGGAGGATGGTAATGTAATACATTTATACTATTATCAAAATAAATATCCCACTTATTTTTTTCCGCTATTAAGCCAAATATTAATTCTTCTCCATATAAAAATATATTATTAAAATAATTTTCTAAAGATATATATTTTTTTGCATCTACCATATAAGCAGAACCTTCTACTGTAAATACTTTTCCACTTTTTTTAGCTAATTTAGTTTGTTTCTTTCTTAAAAAAATATAGCTAATTGGAAATAAAAAATTATATATTATTTCTTTATAAAAACTAAATTTAGGTTTTGGACTAGATACATCCTTATAACCTGGAATTTTTATTTTAGGTCCGACTATAAAATCTTTTTCTGTTTTAAAATAACATAATAATTTTTCTATTATTTTATTCCAAGCATTAGAACCTACATCTGGATTTAAAATCAAAATGTTATTTATATTATGATTGTTAAATAAATATTTTACTCCAACTAAATTCCCTTTGTAATAACCTAGGTTCATATTATTAAAAATATATTTTATTTTATCTCTATTTTTTTCTTCTAATTTTAATAAATTACCATCCATTTTCTCAGAATTATCTAAAATAACTATAAAAATTTCTTCTATATTATACAATTCTTCAACCAATTTTAAAATATCTTCACTACTATTATAATTAAGTAATACAACACCTATTTTCAATTTTTCATCCCCTTTTAAACTGTAAGTAATTTACAACTAAAAACATACTTAAATTAATCATAATTAGAAATAACACATTAATTCTTCTAATTTTTTTCTCCTCTATCTTTCTCCCTAATGCAATTATGGTTCCCGTTATATACATTGGATATCTTAATCTTGGCTCTGCATTTCCTAAATATATTATTACATAGACTAAAACAAATGAAAATGAAAACAGAATTAATAAATATATTTCTTGATATCGTTTTCTATTAAAAGACATCACTATATTGTAAAAAATATTATACATAATTAACCACCAGATACAACTTCCTGATATAGCTAATATCTTATATACAATTGCATCTTTAGAAAACAAAATTCCTATTGGAATCGGTAATAATATAAATCTAATAATTCCTACAATTATCTTTTTATATAATGGAGCATTTATATATTGTAATACAATTGTACTCCCAAATTTTTCTGCATCATTTAATGCAGTCAAATTTGCTACTCTAATTGTAGTATCTACTTGTTCTTTAAAAATAAAATAAAATACTCCTATAAATATAATACCTAAAATTATAAAATATTTTTCTTTTTTTATAATTTTGTTTGGATCAATTTTTTTTATTTGATTTTGTAATAATAACAAAAAAAACATTAAGTAAGTTGAATAAGGTCTAATATAATTCATAAATATTAATAATAGAAAAATAACTAAAAAATTTCCCCTTTTCTTATTTAGAAATTGATAATAAATTTCTAAAACTAGATAGAATAGAAGTACATCTTTTAAAATTCTAATGTTAGTATATATTAAAAATCCATTTATGCTAAGCATAAACATAATTAAATTAATTCTACTATTTTTAAATTTAAATTCTTTCAATAGCCAATAAATAATATATAAAATATTTAAATATATTGAAATATTTACAATTGAAATAATTAATGGTATTTTTATAAAACTTGTATACAAAATTAAAAAACAAAATACAATATAACCTCCTGCAAAACTATTTAATTGATGAAAGAAATCTTGTGGATTTTTTACTAAGTCTATTGCATTTTCAAAATAAAATAAATCATCACTTCCTAAAACACCATATACATTACCTGCTTTGCTATTAATAGTAAAAAATATTAAAAAAATACAGTTAATAATAAAACTAAAAATTAATGTATATATTATAGTTCTTTTTTTATCTTTCGACACTCTATAAAGTAATAATAATAAAAACCCAATAAATACAATCATTTTCTACCCTTTCAAATATATTTTTTTATTTTTTCTAATTCTTTTTCACCATTAATACAACAAATTACATGTTTTTTTCTTCTATCATATTTTTTCCAATCTTCAAATGAATTTAAAATTATTATTTCTCCATTTTCAAAATCATTTTTTCTTAAATCATTTTTTTTTATAGCCTTTTTCAAATCATAATAATGTAAGTGATAAATTTTTATATCATCAACTATTTTATAATTAAATCTTATTAAAAAATTAAAAATTTTAGAACTTATTCTTTTAAGATTGTTTCCATTGAATCCTCCTAAAACTTTAAATCCTTTATAAGATAAATAATTGTGAAGTCCATTTATATCAGAACTTTTAAATCTTATTTTTTTTATATTTTTTATTATCCTAAATTGTAATTCAGGAGTCCAAACTCTATCATCAAAAGTATTTACTCTAATATTATTACCCCAAAAATGAATTCTACTAGTAACTATTGCTTTTAATTTTTTCTTTAAAATCAATACTAATTCTTTCATCTGCATCAATATAAAGAATACAATCTGAAGTACTCAAATCCATCATCAAATTTCTTCTATCTCTTTCTCGAAATCCTAGCTTATACTCTGAATTTCTAGGTTGTTTCCATCTAATTGCTCTAATATGTTCATATTCTTCTTCATATTCTTGCAATTTTTCATAAGTTCCATCTGTTGAACCGCCATCAAGAAATATTATTTCATCTACTTTCGCATCTAATAAATTTTTTATTAATCCATCTATGTGTTTAATTTCATTTAAAACTAAAGTATTTGAAGAAATTGTAACTGACATGTAATACCCCCTATAATTTTTTTATTATTTTTAAATAATCTCTATTTTGAAATTCTCTAGAAAAAAGCTCTATTTCATTAATATTATTTTCTTTATTTTTAAAATCCAATATTTTTTTAAAGGCATTATAAATATCTATTTCATCATTAGGTACAGCTATTCCAAGATTTTTTTCTCTAATTAATTTTGAAACTATTGATTTATCCGAAGAAATAGAAAATATCTTTTTCCCACTTCTCAAATAATCAAAAAATTTCCCTGCAATTAATAATTCTGATGATTTATCTTCTAATGTATGTATATTTAATAATATATCACTTTTTTTCATTTCCAACATAGCATCTCTTGGGGGAATTTTTCCTATGAAATCTATCTCAGAATATTTTTTTATCAATTCTAATACCAGTGACGTTTTATTTACACCTATAAATCTAATTTTATACTTTTCCTTTTCTTTCTCTAACTTCTCATATGCTTTAAAAAAATTAGTAGTATCCCGAAATCCTCCTTGTTTAAAATCTATATTTCCTAAATAAGAAATAACTATTTTATCTGTTTTAATTTTATTTTCTTCAAATGAATTTATTTTTTCCCAATCTTCTTCACTGTATCCATTATAAATAGCATCAATTTTATCTATTCCTATTCCAAACTTCTTAATTTTTTCTTTCTTTGCATTATCTGTAGCAACTACAATTTTATCTACCTTTTTCAAGTGTTTTTTTTCTATATAGAGTGCTATTCCTTTATTTTCATTCCACGTATTCCAAGGATCTCTAAAATCTAAAATAATCTTAATATTACTATTTATTTTCTTTATATCATTAACTAAATAATATAAAGAAAAAGGGGGACCACTTATTATTATCTTATTGATTTTTTCTTTTTTTATATATTGAATAATATTTTTTTTATTTTTTATATACCATAAAAAACCTAATAATCCCATTCCAGGAAATGGATCATTAAAATAAATTTTGTCAAATTTTTTAAAAATATTTTTTATTAAATCTCTTGCTGTAATACTTTTTTTTGATTTTTTATTTTTCTCATTATTTTCACTAGGAAAATACTCAATCTTAAAATTTATTTCCTTATTAAAATTATCTATATAATTTTTTTTTGAAGCTATCATATGAACTTCCATATCACTTTTTTTATTTAAATACTCTCCTAAATAGTACATTCTCTGACAGTTTCCCCAAGCATTTGAATATGGTATCATATCATATGTTATTATTAATAATTTATCCATTTATTACTCCTATTTTTTTATTAAAATTTCTTTGTCAACCCTATACAATCAAAAATATAGCTTTTTCTTTTTATCTTATCTATATTCTCAATAAATTCCTTATGAGCTAAAGTAATAACTATATAATCAACTTTATTCAAAAGATTTTCAAGTGACAAATTTTTTATTCCATTTATTTCATTTGAAATTATATTTGGTTCGCATGCATAAATATCATAATCTTTTTCTTTTAATGTTAATGCAATCTCCATTGAGGGACTTTCTCTTAAATCATCAATATCAGGTTTATATGCTAATCCCAATATACCTATTTTTTTATTCTTATTAAAATCTAATTCTTTTTCAACTTTATCAACTATCCATTGTGGTTTATAATCATTAATTAATCTCGCTTCTCTTATTACATTTGCTTCTTGTTGAAATTGTTCTACTATAAACCAAGGATCTACAGCTAAACAATGTCCGCCAACACCTGCTCCAGGCGTAAGTATATTCACCCTAGGGTGTTTATTAGATAATTTAATAAGTTCAAATACATTTATTCCCAACTTATCACAAATCACTGATAATTCATTTGCAAAAGCAATATTAACATCCCTATATGTATTTTCTACAAGCTTAGCCATTTCTGCCGTTATATCATCAGTTATATATATTTCTCCTTTTTTCACAATTTCTTTATATATTTCTTTTGCTAAATTTCCTGCTTCTTTTTTTTCAGCTCCTATAATTCTATCATTATGTTCTAATTCATATAATATTTTACCTGGTAAAACTCTTTCTGGACAATGACATGTTAAAAATTTATCTCTAGATAATCCACTATTTTCCTCTAATATATCTGTCATAATTTTAGTCGTTTTTGGTGGAACTGTTGATTCTAATATCACTAAATTTCCTGGTTCTAAAACTTCAGCTACCATTTTAGAAGCTGATTCTACATATGATAAATCAGCTATTTTTTTATTTTCATTTTTCTTAAAAGGTGTTGGAACAGCAATTATATATACATCTGATTTTTCTAGTTTAGCCGTAACTTTTAAATTCCCACTCTGTAATGCTTCTTCATAAGCTTCTTGTAAGTCTGGTTCTACAATATGAATTTTTCCTAATTTTAAAGTTTCTATTACATTTTTATTAATATCAAATCCAACGACTTTAAATCCAGCTCTTGCAAAAGTAATCCCAGTAGGTAGTCCAATATATCCCATGCCAATAATTGTAATTTTTAAACCTTTTATATTTTTCATATTTCAATCACTCTCCATTATTTTTTATATAAATTCAATTATTCTCTTACACGCATTTCCATCTCCATATGGATTATGTGCTTTTGACATTTTATCATATTCTTCTTTATTAGTTAATAATTCTTCTACTTCTTCTATAATTTTATTAAAATTTGTTCCTACTAATTTTACTGTTCCTACTTCTATAGCCTCTGGTCTTTCAGTTGTATTTCTCATTACAAGTACTGGCTTTCCAAGACTTGGAGCTTCTTCTTGTATTCCACCACTATCAGTTAAAATTAAATATGATTTATTCATTAAATAAATAAATGACTCATATTCTAATGGTTCTATTAAGTAAACATTATCTATTTCTTTTAAAATTTCATTTACAGGTTTTCTAACATTTGGATTTAAATGCACCGGATAAACGATGTCAATATCTTTATTTTTATCTGCTATTTCTTTTAACGCTTTACAAATATTTAAAAATCCCTCTCCAAAATTTTCTCTTCTATGTCCTGTTACTAATATCATTTTTCTATTTGATATTATATAACCACTATTTTTTATAATGTTATTTAATTTTTCTTTTAACTCTCTATTTTTTTCAATTTTATCTAATACTAAATATAAAGCATCAATTACTGTATTTCCTGTAACAAATATACTTTTTTCATTAATTCCTTCTTTTTTTAAATTATTTGCACTAGTTTCTGTTGGTGAAAAATGATATTCTGCAATACTTCCTATAAGTTTTCTATTCATTTCTTCAGGAAAAGGAGAGTAAATATTTCCTGTTCTAAGCCCAGCTTCTACATGTCCGACTGGTATTTGCTTATAATATGCTGCTAAAGCACTTGCAAAACCTGTTGTAGTATCACCATGTACTAAAACTAAATCTGGTTTAAATTCATCTAATACAGGCTTTATCTCTAACAAAACTCTTGATGTAATATCATATAAATCTTGTCCTTGTTTCATAATATCTAAATCATAATCTGGCTTTATATCAAATATATTCAATACTTGATCTAACATTTCTCTATGTTGAGCTGTTACACATACTTTCATATCAAATTTATCTTTATTTTTTTGAAATCCTTTGACTAATGGAGCCATTTTTATCGCTTCTGGTCTAGTCCCAAATATAATTAAAACTTTCAATTTTTTTACCTCCCTAATTTCAATTCATTAAATAACTTCTCTCTTTGTTTCAATGGAGTATAAGTATACGAAATTTTTTTAGCTTTTTCAGTATACTTTTGGATTAGAGCCTTATCATCAAATAATTTAGTAACTATTCGAATTAAATCTTCAAAATTTTCATATACTAAAGCTATTTTTTCTATTTCCTTCATAACTTTAATCTCTTTAGGCAATATTACAGGTAATGAATATCTTATAGCTGCAAATGAAACTCCTGTTTCTTTAGTTATACCATATTCCTCTAAAACTCCATCCATTTCTATTTGTTTTATAATAGGGGCTAATAAAATATCAGCTTTTCTCATATATTCATCAAAAACTTCTTCAGAAACATATTCTTCAAACAAAATAACTTCTTTAAACTTCTTAAATTTTTCTAATAATATTTCTTCCTCAAAATCTTTTTTTACTCTTCCTAATAAAATTAATTCAAATTTAAAATTTTTGATATTTTTTAACAAATTATAAATGTCATAATAATTTCTTCTTTTCAAATCAAAAGTTCCTGGAATAATAATCTTAATTTTGTTATTCATATCATTCAAACATTTAATATTTTCATATATCGAAAATGGAATTCCTGTAATAGGTTTATTAATATTTTTTTTCATCAAATATTTTTCTAAATATATTTTTAAATTTTCACCATATACATTATATGAGTTAGCTCTATAAAATGCTATTCTCCTTATAATTGTTCTTAACAATCTCTTAATTTTTAATTTTCTACTGCATTTTATAAAAATATTAATATTATGAAGTGTTAAATTTATTTTTATATTTTTATTAACAGTAATAAAAAAATAAAAATTTAGTAACCAATTTTCTTGAAGAGTATTAAAAAAAACATAATCATATTTCTTATTATTTAAAGTTTTTATTACTTTTTTATAGTATTTATATTTATTATCAAAATCATTTAATACTATCCAATTAAAATTACTATTATTTAATACTCCTTCTTTTTCCATACTTTTTTTTAAAAATTTACTTACATAAAAATCAACTCTATCATTTTCAAAAATTTTACATTGCGAATATAAATATGTATAGTGATAATTACTTATATCAAAAATTGCTATTTTCATTCTATTCACCTAACCAATCCTTTATATAATTTTAAAAAATACATAATCTCTTTAATTTTGTATTTTAAATAACTTCTAATAGGAAGCTCTTTTTTATTTAAATAAATAGCCTCTTTATATTTTTCACTAAAACAATTAACTCTAAATTTTCTTCCGTTTTCTAAAATGTATAATTTTTCATATTCAATTTTTTTCATTCTATTCGCTGAATATCCACTTGGATATTTCCCAAATTGACTTGGATCTTTAAATGATTTTAAATTATTTTTTTTATATAATAAACTAAAAATAGATTGATCATGTCTATGTTCAATAAAGTCTTCTCTTTGTTCAATCCTTTTATCAAATTTATCAGTCAAATTTATTTCATTACAACTATATTCTAAAAATTTCTCAAAGAACTTTACACTAAAATCTGTTTTTTTTATTAACATAAAAGAAGCTAAAATTTGGTTACTATTATAATATTTATCATTATCACAATCCATATTTATAAACAATTCTTTTTTTGTCCATTGGGATTCTATTAAAGGTAATTCAAACCCCATAATATCTTGATTTGAATTTTTAAGTTCTTCAATTAAAATATCAACCTTTTTTAAAAAAAATGCTCCCGCATCAGAATAAAATAAATAATCTCCATTATTTATTTTATTTAATGTTTTTAATATAAAATATGGCTTCCAAAGCCAATATCCACCACCTCTTTTTTGAGATAAAATATTTTTATTTTTATTGTAAAATTCATAATCTATATCATTTGGGGTATAACCCATTATTTTATCAAAATTACCATTCATTTTTGCCATTATTAGTGCAAATTTTTTTTGTTTTAAAAATTTTTCATCTCCATAGGTTGTAAAAAATTTCATAACTTTACCCACCCTTCAGAAACAATATCTATTTTTTTATAATCATTAAACCATTTATTAGGAGCTATAACTATTTTGTCTGGATTTTTATTTAGCCATGCTACCCACCAACTAAATGTACTATTAGCAATAATGTTGTTTTTACATTGACTCATTAAATACATATCTTTATAACTTTCAAAACCTTTATTCCATTCAATAAAATAAATCTCTTTATTATTAAAATTTATATTCTCTTTTACCCAATTTATTTCATCAGAAAAAATAAAAAAAATGGGGTTTTCTATTTTTTTTGATATTATTTTAATTGCATTTTCATAATAATTTTTATCACAAATATTCCCAAGAATTCTTTTATATTTTGGATTACTATAATAATCTCCTCTTCTAATATGAATACTCACAGAATTAGAATTTTTTATTTTTATTAATACTTCATTATTTTTTATATCTCTACCATCTATTTTAGGAAATTCAAATTTGTTTCTAACAATATCCTCAATCCCCTCAAAATACTTTGAACTTTGCCATAATCCACTATAAAATAAAATTTCTTCTTTTTTCTCAGCTCTATATACATTTTCTTTATATAAAAAATCTTCTCCTTCATTAATATAACTTTTTTTCACTCCAAAAATTTTTCTTCTTATTTTTGAAAATATATTTTGTTCTCTGTCAATATATTTTTTTACTTTTTCATTAGAAATCATAGATTCTTTTATTTTAAAGATTCTTTCTAATTCATATCCGTTATTATCTTTAACTTCTTTAAATCTGTCAAGATATAAAGCTACATTTTCACTTCCATATTTTTCTCTTAATGATAAATAAAAAGCATATTGAAACATTTGATTTCCTAGTCCACCTATTATTTCTACTACTTTCATGTATTTTTCCCACTCCTTATTTTTCTAATTTTAGTCAGTTATAAAATTCTGCAAACCTTAATTTTATTATCTTCAAACTTTATAAATAATTCTATTATCCCTACATCCCTTCAATGTGGCGGGAGTGTGTATTTTTTGACATTGCCATAAAACATACTTAACACTCCTCTTTTTGTTTGGTTTTTCAAGGGTATTTTGCAACTATCTATTTCTAATTTAAACCAATGTATAAAATAAATTGTATCTCATATATTATAATTTAATAACTTTTTTTAATTATTCTTTTATTTTTTTAAAGCTAATTTTATAAAATTAAAAAAAGTAATCCTAAAATCTAAAAAAAACATAAAAGGCCACTTCCAATTATTGTAAACTAATTGTCCTATAAACTGACTTAATATTAACCCTAATATTCCAATTGAAAAATATTTTAAAAATATAAAACTTAAAAAAATAATAAATATCCCTGTTAAAATACTTGATTTTACAATTGGAACTGTATTATTTGTCATAATTAAACCTGCAAAAATAGAATGTTGTACTTCTAAAAAATACATTATAAAAATAATAATTAAATAACTTTCTTTTAATAATTCTTTATTTGAAATAAACATTATAATTTTGTTTCCAAATAAAATTATAAAAATCCCTTCAATACTATATAAAACCATAGAAATTATAAATAATTTTGAAGATATTATTAAAAAATTTTGCATTGTTTTTTTTAACCTTAAATTATTTAATTTAGGAACATATACATTAAATAAAGTCATTGCTGTTGTCACTGCAATATTAAAAATTTGCATTGTTAGTGCAAACTCTCCAAACTCTTTTAATGATAAATACTTAGCTCCTATTAAATAATTAGCTTTTAAAGTCAAAAAAGCACCTAAAGAGGCTAATCCCATTTTTTTAGAATTATAAAATATAATAAGAAATAAATCTATTAATTCTTTTTTACTTATAAATTTATTTTTTCTTAGCTTTATTTTAGTTTCATTATCAAAAAAGTATTTATTAGATAGAATCCTATTAAATAATGCTCCTATTAAATTAGATATTGCTATTCCAAATAAACCATATCCTAAATTTAATAATAAAAATGAAAAAAATATATAAATTAATTTTGAATAAACTAAAGACTTATTTGATTCTTTTATTAATCCTCGCCCTAATAAAAGTGGAGTATAATAATAATAATAAAAGTTAATAGTAGCAGAAAATATATAAATATTCCAAACATAAATATAATAATTCGCCTTATCCAATCCTTTTACTATAGAATAAATATATACATTCCCTAAAGTTATGAGTAAAAAAAATGCTATTATAGAAATAAAGAAATAAATTTTTTTTGACACAAAAATTAATTTCTTTAATAAATAATAATCAATTTCTTCAGAAAACAAAATATTTATTCCGTTTTTTTTCAATTCCTTTGCTCCACTATATACGTAAGAAACATTTCTTAAAATGCTAGTTTGAAATCCAAAATCTAATAAATTTACCAATGCTGTTACTGTTAAAAATATATACCAAATTCCTATTTCCTCATTAGTTAATTTTTTTAAAATTACTGGCAATAAAAATAATCCCGTTCCAATTTGTGTTATTCTCGCTAAATATCCCCAAATTATATCTTTTTTAGAGATTTTTATATCCATAATTAATTTCTCCTTTTTATACACAACTCATATCAATAATTTCTATATTAAGTTATTTAACCTTTAATAATCCTAACTTATTATAAATCTTTAGCAAAAATACTTTAAAATCTTTTCTATATATTTCTCCTGTACTTCCCGATTCTCCTTTAAATATTGGATATTGCTTAAAATAAGTTGTTTTTTTATTTTTTAATTGTGCATAAAAACAATGTTCTAAAAAATAAAAAGTTCTGTCATCTACATTTTCATATATATCAATTAATTCTGCTTTATAAAATTTTATAGATACTTTAAAAAAACGTGTATCTACACTTTTAGTCCTTGGATATTGTTTAAAAAAAGTATTTTTAGATTTTACTTTTAATAAAAAATTTAAATTTTCTATATATAATCTTCCCGTTAATTTAAAAAAACTATCATCTTCTTCATTCTCAATTTTTTTTAATATTTCGCTATTTAATATAGCATATTTTAAAATTTCACCTTCCCCATACCCCTTTCCTTTTTTTATAATCATATCTTCATTTCCTAAAAATGAAATTAATTCTATAAGTTTATTATTCTCTTTAGCTATCAGACGCAATCTTTTAAAACCTTCATCTAATTCAAAATTATAATTTGTATTTTCACAAAAAATAATATTTTTTACTTCTTTTAACTTTAATATTTTCTCTAAATTTTCAATATATTGTTTTCGTCTTTTATCAGAATCAACCAAATTTAAATAAGGAGTATTTAAATTTGGTCTAATAGTTCCTGTTAATAATAAAGTAGCTAACATTTTTCTCTCCTAAACAATTTTATATTTTAATCTCTCTCCAAATACCACTCATAAACTTTTCTTATTCCATCCTCCAATTTCACTTTATGTTTCCACCCTGTTTTATGCAATCTATCAACATTTAATAACTTTCTTGGTGTCCCATCAGGTTTACTTATATCATTTACTATTTTCCCTTTGTATCCAACTACTTTTTTGATAATTTCAGCTAATTCTCTTATTTCTATATCTTCTCCAGTTCCCATATTTACATGTATTTCATCACTATAATTATTCATAAGATGTATTAATGCATCTGCCAAATCATCTACATACATAAATTCTCTTCTTGGTTTACCTGTCCCCCACATAACAACTTCTTTATCTCCATTTACTTTTGCATCATGAAATTTTCTAATAAGTGCGGGCATTACATGGCTTGTTTCAAGGTCAAAATTATCATTTATACCATATAAATTTGTAGGCATAGCTGATATAAAATCTACTCCATATTGTCGCCTATAAAATTTACATAATTCTATACCACTTATCTTAGCTATTGCATATGCTTCATTTGTAGGTTCTAAATATCCACTTAATAACTCTTCCTCTACCATTGGTTGTTTCGCAAATTTTGGATATATACAAGAACTACCTAAAAATAGTAATTTTTTTACACCATATGTATAAGCACTATGAATTATATTTGTTTCTATCATTAAATTATCATATATAAATTCTGCTGGATATGTATTATTAGCATGTATTCCTCCAACTTTTGCTGCTGCTAAAAATACATAATCTGGTTTTTCCTCTCCAAAAAACTTTTCTACGTCTAATTGTCTTCTTAGATCAAGCTCTTTTGAAGTCCTATGTATTATATTGCTATAACCTAATTCATTAAGTCTCCTAATAATAGCAGAACCAACCATACCTCTATGTCCTGCTATATATATTTTAGCATTTTTATCCATTTTATCCCTCCTAAAAAGAAACCACGAATATTCTCGAATGAAAACGAATATTCTTGTTATAAATATTTATAATATATAAATTTTATTTAAACACTATTCTTTGATATTCTAATCTTTCATTTTTAAAGTTTATAATCATACCTAATTTTTTATTAGTTGCTTTCAAATAATAAAAAAATAATCTACACTTTAATCTGTACCCTTTGTCAAGTACATTTTAAAAAAAAGTAGTTAAGCTGATTTATTTTCTAAAAGATGATTTCTATATTTTATAGGAGTCATCTTTTTTAATCCCCACTGACATCTATAATTATTATAATAATCCATATAATCATCAATCTCATTAATTAATTCTTCAAATGTATTACATTCTTTAATATTTGCTTCATCTTTAAAGTGGCCAAAAAATGATTCTTGAGGAGCATTGTCCCAGCAATTACCTCTTCTTGACATTGACTGATCTAAGCCACTATTTTTAACTAATTTTTGAAATGTTGGGCTTGTATAATGGACTCCTTGATCAGAATGTATTAATGCATCCTTATGAATTTTAAAGCTTTTGTTTTCCATAAGAGTTCTTATTGTTTCTGTTGCAATTTCTAACTTAATATTTTTAGATAATACATATGCAGGTATTTCTCCTGTTGAACTATCCTTAATAGTTGATAAATACGCACGTTGACCATTACCATATGATAGGTATGTTATATCTGTTAATAATATTTTCCCTGGTATTTCTTGTTTAAATTCCCTATTCAATTTATTTGGAATAGTTGTATGCTCTTTTGTAGCCTTTGCTATTCTCTTATAAGGATTTGCCTTTCTAATCGTACATACAATACTATATTTTTTCATAATTCTTCTGATTTTTTTCAGATTAAAAATTGTAGCAAATTCATTTTCTAAAGTCATTTTTATCTGTCTAGCTCCCTTTTGCCTACCTTTGAATTCATATGCTTTTATGATTAAATCTCTTGCTTTTTCATCTTCTAATTCTTGATTGCTTTTATTTGTTTTGGAAGTTTCAGACAAATAGTTATAATAACTTGTTCTAGAAATTTCTGCAACTTCACATAAATATTTTATAATATTTTTTACACCACTTGTTTCTATTACATCTTTGATTATAACAAACTTTTCTGATGGCGATAATTCAATTAATTTACCGTTCACCTCTCTTTCTCGCACGTCTAGCTTTTTTAGCAAATCAATCTCCGCTTGAAGATAATCATTTTTTACTTGAAGCCTTTCATATTTCTCTTCTAAAGATAGCTCTCTTTCTAAAGGTCGTCCAGAGTTCTCTTTTCTTCTATCATCTAACCCTAATACTCCTTGCTCTTTATAGGCACGTCTCCATCTTGCTGCTGCTGATCGAATCCTTTTCATCCCTAATACTTGTACGTCAAATCCATATTTTTCAAATATTGCTCTAGGTAAAATTTTATCTTGACTTTCTGCAATAAAAATTCTTCTGAATTCTGATGTATATGTGATTGCCTTAGAACTTATAGTTTTGACATATTTATTTTTTGATAAAATTTCAATCTCTTTTTTTGTGAATATTTTGTTGCTCATGAAATCCTCCAATCTATTAAATTAACATTATAGATATTATATAAAAATACCATATCTGATGCAACTTTTTTTTAAATGTCCATCTTATAGGGTACAGTATACTTCATCTGGTAAGATATAAATGTTTTTCTAAATTTTTGGCTTCTGAAAAATTTTGTTTTGAAAAATCGCATATTTCAAAAAAACGGCGTAGCTTATTTTCTAAACAAATTTATACTTTCCTAACAAATTAAAAAGTTGTGCTCTATGTATATCTTTAATTTTTTCAACTGTTTTTAATTCTAAAATTATTTTATTACCAACTAGAATATCTGCTATATAACTTCCTATCTCTTTTCCGTGAAAAATTACTTTTATATTCTTTTGTTGTTCTGCATATATCCTTTTTTCATGAAAAAGAACCATCATTGCATTTTCATATACTTTTTCTAAAAAACCGTTCCCAAGCTCATTATGAACTTCCATTGCTATTCCTATTATTTTATAAGATGAATCTTTATATACAATCCCCTCCACATCTAATCCCCTTTTATAACCCTATCATTCATTACTAATTCCCATAAATATATTTATTCGTTACCATTCGTTTTATTCGTGGTTAATATTTTTTAATCAAAAGATTTTCTAATTCGTTCCTCTTTCGCTACCATTTTCATATCTGATTTAACCATTATCTTAACTAATTCTTTAAATGAAGTATTTGTTGGATTCCATCCTAATTTTTCTTTTGCCTTAGTTGGGTCTCCTAATAATTGTTCAACTTCTGTAGGTCTAAAGTATTTTGGATCTACTTCCACTAATACTTTTCCTGTAGATTTATCTACTCCTTTTTCATCTATTCCTGTTCCTTGCCATTCAAGTTCTATTCCTGCTTCTTTAAATGCTAAAGTTGTAAATTCTCTTACTGTGTGCATTTCTCCTGTAGCTATTACAAAATCTTCTGGTTTATCATATTGCAATATAAGCCACATACACTCTACATAATCTTTTGCATATCCCCAATCTCTTTTTGCATCCATATTTCCTAAATATAATTTTTTTTGTTTCCCTGATTTTATTCTTGCTACTGCAAGAGTTATTTTTCTTGTTACAAATGTTTCTCCTCTTCGTTCTGACTCATGATTAAACAGTATTCCATTTACAGCAAACATATCATATGCTTCTCTATAATTTTTAGTTATCCAAAATCCATACATTTTTGCTACTGCATAAGGACTTCTTGGATAAAATGGTGTCGTTTCGCTTTGTGGTACTTCTTGCACTTTTCCATATAATTCAGAAGTTGAAGCTTGATATATTTTTGTTTTTTTCTCAAATCCTAAAAATCTAACCGCTTCTAATAATCTTAAAGTTCCTATCCCATCAGTATCTGCTGTGTACTCTGGCACTTCAAAAGATACCTGTACATGTGATTGAGCAGCTAAATTATAAATTTCAGTTGGCTCTATTTCTCTTATTAATCTAATTAAATTTGTAGAATCTGTCATATCTCCATAATGCAATTTAACTTTTCTTTCTTTGTGCATATCTTGTATTAATTCATCTATATATAAATGTTCTATTCTTCCTGTATTAAAACTAGAACTTCTTCTTATAATTCCATGTACTTCATACCCTTTTTCTAATAATAATTCAGCAAGATAAGACCCATCTTGTCCTGTTATTCCTGTTATTAATGCTACTTTTGACATTATATTGCCCCTCTCTATATTTATTTTTCAATCTCAAATTAACTCAAATAATTAAATTAGCTCCAATTATTTATAAGTTAAATCTTTATATAATTTTTCTTCCGTAATTCCCTTTTCAAATCTATACCTTCTTTTTATCCTTCATCCGCTTTTATCCCGTGCATATCTCGTGGTTTCAAATTTTATTTTTTTTATCTTTTTTATTCATAATTTCATAATTCTACATATAAAATTAATTGTTTTTTATTTGAACAACACTATAATACCATTTCAGCTTACTTTTGTCAATAAGCAATCCACTTATTTTTAGACCAAATTTTACATTCCAATTACCTTTTGATTTTTTTTAAATATGCTTCAAATATTAATATCCTTCGTGGTATTTTTAATCTTTTATTATTTAGATATCAAATTAACAAATTCATTTTCTAATTCATTTTCCAATTCGATATCCCAAAGCAATACCAGTACATCTCCTTTTTTGATATCCTCTTTATTCAAAATATGCTCGTAAACCACTTTTTTGGAATCCAATGTCATCTTTGCTATTTCAAATATTTCATCCTTTTCACCTAATAAATATATATTTTTATCTAATGAGTTCTCTATAATTATATTAATTTTATTTGATAGCTTTATTATTTCATTATATGATTTTTTTATATATCTTAATGTCTTTTTTGTTTTTTCCTTTATCCCTTGTGGTGTCAAAATATATTTCATAGTTTTAGGAGTCATCTGTTCTGTTTTTAATAACCCTGTTTTGACACATTTTTTTATTAATGAATTTACCATTCCTAATGAAAATGATGTCCTCTTTGCTATTTCTCTTTGAGTCATTGTAGGATTATCTTCCAATACTTCCAAAATCTCTATTTCTTTTGTTATTTTTCTCACCGCCTTGTTTTTTTATTGAACAATATTATTGTATCATTATATCCCTATTGTGTCAATTGACTTTTTTTATCATTTATAAAATAATTGTAAAATTTTAGCCACATATAACCGAATATAATTATTAATCAGTATTTATCTAAATTTACCTTATATCTTCAATTTTTTCTTCGTGTACCTTTGCGATCTTCGCATCTTTGCGCTGAAATTATTCTCTCTACAAAAACTCTCCCACTCCTCATACCCATCATCCCGCTACTCTTTTTTTCTCAACAAAATGCATATATATCAATATAAAAATCCCTATTAAAACAGATATACCCATTAATAAATAACTTTTTCCTATTCCATATTTTTCATAAATAAACCCTGCTATAAATTGAAAAAACATCGCACTAAATCCACCTGTAGAAACTGAATATAATGCTAAAGCCATTGTCCTTCTTTCTTTAGCTGTATTTTCTTTTATATAATTAATTGCAACCACTATATAAAGCCCTATTGAAAGACCTTGTAAAAAAAATGTAGCAATTATAATAATAGGAGATGGCATCAAACTATAAACGATCCACCTTATAAAAAATGATGATGCAGCCAAAACTAAAGCTCCTTCACTCCCAATTCTTTTAATAATTTCATTACTCTTACTCATAAATGGAACTTCACTTAATGCAAATAATAAAAAAGCAAATCCAGTTCCAGCCACTTCTCCTCCAATTTTTTCATAAAATATTGAAAAATAAGTATTATTCGCATACATTGTCCCCATTATAAAAAAACTGCTTAATAAAAACAGTATATATTTTTTATTTTTCAATAACAATAATATATCATGATAATCTATGTTATCTTGAGGCTTTGCTCCTTTTACATCTATTTTTCTCAAAATATAAAATGAAATAACATAAAACATCGGAAAAACAACAAATATAGCATAAATATTAGTTAAATCTATCATAATTCCTGTAAAAAAAACACCTACTGCAAATCCAACTGAACCCCATAATCTCATTTTTCCATAATCATATTTTGCTGTTGATAATACAGTATCAAAAATCGGTCCCATTCCACAATTAAACAAATAAAAAATAAAAAACATTAACATAGCCATTTTAAAATCTTTAAATACCGATAATGATATTTCTAAAAATGACAACATAACAATTAAAAACATAAGTATTTTTTTATATTCTCCAGTTTTATCAGACATATAGCCCCAGATAGGCTGTACAAATATAGATATCAAAGCTCCAAGAGATATAATAATCCCTATTTCTGTACCTGTAAAATGTATACTATCTAAATATTTCCCTACATATGCAAAAAACGCTCCTCCACCAAAAAAAATTGAAAAATTAAGGATTCTATAATTCAAGTATTCTTTTTTGTCCATTTGTACTCTCCTAAAATTTTGTCTATGAATGACTTAAAAATCACTTATTCATTTGGCAATAAAAAAATTGTTTTTTAAATATTCCATTGTGTCCTATTATAGTTTTTATAACGTTTTTTGTCAATAGTATTTAAATCGAAAAGATTACATATTATTGCAGTTCAGATGTATATAAAAATTGAAATAATTAACCGTAGAGACGTAGCATGCTACGTCTCTACAACCACAAAAATAATATGTAGAAACACGATTTATCGTGTTTTTTTAATAAGATAATTTACCCACAAAAATGTATTTTTTAATTTTTTCAAAAATCAGCCTAATAGAAACAATGGTTTAAGCAATAGTAATTTTAGGAAATTCATCATAAACATAGTTTTTGTGGTTGAACCATAAAATAAATTAAAAGATGATAAATAAAGACGTGCAAACATAGATATGAAAACAGGAGGCACGATAAATCGTGCCTCTACAATGGATGAAAAATTACAACATGGAAAATATATATTGAAAAAAGAATATATTCCAATGTTATCAAATTTTTTTCTTCGTGTAACTTTGCGTTCTTCGCGTATTTGTGCTGAATTTATTTCATCTTATATCATTTTATCTCTAACACAGGTATATCATCCATTATTTTCGGCGAATTTTCATCTCCGCCACCAAATATATAAGCTTTCCCCTCTGGTGTTATCCCTCTATAACTATTTTCCAATCCATCATAATCCCAAGTTGCAATATATACTTTTATCCCTTTTAATGTTTTTGGATTCCCTATTGAAGATCCTGAAATTGTAAAATTCATCTCCTTCTTTTCTGGAATAACATTTATTACAGGCGACGGACTCACTGGACTTCCCCAGCTTTTAGCCGAAGCATTTCTGCTTGAATATATAAAGTTTGTCCAGCCGCCTTCTAGTGTCATATAATTCCATTTTAATCCATTTGGCATCTTAGCATTTTGGAATGGCAAATCTTCTATCCCTTCTTGTCCTGGCACTGATATAAATATATTTATTGATACATGGTCAAATTTATATTTAGGATTCCACATTGTTGATATATCTCCCGCCATTTCTAATGAAACTTTCAAATTTTTTCCTGCTGTATAAATTGTTGCTTTTTTTATATCCATTTGATTTGTAAATGTTTCTGCAGTTGGATATTTGTAATTTCCAGTAGGTCCATGGTCATCTCCAACTTTATCATTATATTCTGCTGCTTTTACAAATGGAATATCTACTATAAATTTATATGTTTCAGATAATATATATTTTTTTCTATCTGCTGTTTTAGCATATGCCACTACTGTATGTTTTCCATTTGACATACTCTCCACAGGCATCTCTCCTGTATAACTTCCATCTTCATTGGCTGTTATTTTCACTCCATTTTTTACAGCTCCATCAAATACAAGCAACAATTTTTTTGCTCCATTTACTTTTCCTGATATTGCATAGTTATTACTTAATTTCATTCCATTTTTTACTCCAATTAAACTTACGCTTTCACTATTATCCCCTATTTCCACTTTTTCATCTGTAGCCATATATAATAATCCAGCTCTTGGTGCTAATATTTTTGAGATTTTACCATCTTTCCCAACTACAATATCTTTATCCGCTCTTGATAATCCCTTTAATAATTTTAATTTTGTTCCTTCTGCTAATCCTGTTTTTAGATTATCCAATAACATTGGGTTTTCAGAGGTATTAAATATTACCAAACCTGTTTTTCCTTTATATTCCATTTTATAAGAAAAAATTCCTGCTCCTGTATTTGTATCTTTTATTACTGATAATTTTCCTCTTCTAAACACAGCATTTTCTTTTCTTATTTTTATAATGCTTTGTAAAAATTTATAAGCATCATTATTTTCATCAAAATGGTCTTTTCCTCCTGAACCAAATCCTTCTGCAAACATTGAACCTCTTGTTTCTGTAAATTGTTGTTCAGTTCCATAATATACAACAGGAATTCCTGGAGTTGTCATTATAAACATTAGACTTTGTTTTACCGCAATATAAGGAGCTGATGTTAATAATCTATTCATATCATGATTATCTATAAAATTTAATAATCTATATGGCCTTTTATAATATTTATCTGAATTCCCTAATCTATAAGTTAATGTATCAGTTGCTTTCCCTTCACCAAAAACTTTTTGCAAAGTAATATGTAATGGAAAATCTAATACTGAACTAATTTCTGGTTTTTTATCTGTCCCTTGATAACTTGAAGCCGCTTCATCTCCAGAAGGGCTATAAGGATCTACATTTACCCAAGTTTCTCCAAATGTAAAAAAATCATCTTTTTTAAATTTCTTAGCAAATTCTTGAACTCCTAAATGTTCAGGTGATTTAGAATGTATAAAATCATTCCAAAAATCATGTTCCACATAAACAACTGTATCTATTCTAAATGCATCTACTCCTACATTTTCTATCCAATAATTATACGAATCTTTTAGCGCATCTCTAACTACAGGATTTTCAGTGTTCAAATCATCTAATCCACTCATTTGATAACTTTTTATCTGTTTTTGATCCTTAAAATTTGTTATATCTGGCGTAAAATGATATATTCCAGCTTTTCTATCTTCCTCTTTTCTTGGGTCATTTAAATTAAATGGAAATTGTGTCGGCTTTACTGTTGGCTTTGACTCTAAATTTGCTTCGTAATTTTCACTTAGATCATTTGGATTATATTTTCCTTTATATCTAAAGAAATTCCCAGTATGATTAGGCACAATATCTTGTATTAGATACATTCCATTTTTATGTAATGTAGCTGACAACTCTTTATAGTCATCTAATGTTCCCAAATGTTTATCTACTTCTTTAAAATTTTCTCCCCAATATCCATGATATCCAGAATAATTTACCCACGGATCCCACCATTGATTTGCTACTGGTGGTGTTATCCATACAGCAGTAACTCCCAAATCTTTAATATAATCTAATTTATCCGTTACTCCTTTTATATCTCCACCGCTATAATGAGAATTTTTAGTTGGATCATATTCTCCAGCTCCTTGATCATTATTAGTTGGATCTCCATCATTAAATCTATCAGTCATAACAAAATAAATTATCTGATCTTTCCAACTAGGTGATGAAACTTGCAAATATTTTGAAACCTCATCTTTTTTAACTGTTTTGATTGCTTTTTTTGTTGAACTTTTTTTTGCAGTAGCTGTTTTTGTTACAACTACTTTATCTTTCTTTTCGCAACCATAAATTGCCAATACTAATACTACTAACGCTAACAATACTCTCTTCATTTAGATACCTCCAAAATTTAATTTTTTAATGTATGGGCGAACCTGTGTGTTCGCCCTTTGTTATATATTCAAATATTTAGGCAGACACATAGGTCTGCCCCTACACTGTTATATATTCTAAAATACCTTTTTATAGTCGAATTATTTTATGATTAACCTACCAAAAGATGGTTTCCTAAAATCATATCCCTAGTGCAATGCAAATCCTTTTAGAATCTACATTGCAACAAGAATATTTCTTTAGTCCTCTTGGAAAATACTGTTTTAGGTACATTAAAAAAATAGCTTAAACAATACGGACTTAAAATAATTAGCAAATTCATTTCAGTTATTTTGTTATTTTATCCCTATCTTTTCACTTTTTTTATACAGCATATGTGTAATTTATTTCTCTAGTGTATGTATTTTTATACACTCTTTTTGAATTAACCTTATACTTGTCTATCTATATCAAAAATTGAAATATAGTTCCACCTATACTTTACCTTATAAATTTATATTTTTCAATTTTTTTAATATATTTATAAAAAAAACTACCTTTAAGTCAAAACAGTTTCTATTCAGGCTATATTTATGCTATTTCAAGACATATTTCTCTCATTTCAGGACAAAAACCCTACTTGACATTTACATCTTTATATTATAAAATGTCTCAAATGTTTTAAAAACAGTTTTTTTGTGTTTATATAGAATGCTTCAAATTTTATATTCTACAAAAGATAATACACTTTTTATTATCATTAATAGACATTAATATTCATTCAGATTTCAAAAGTTGAATGAATTTGAATGAATAAAAAATATAAAATAGGGAGGAAGTTTAATGAAAAAGGTAAGTTTGTTAGTAGTTATGATGTTTTTAGTGTTGTTTACAGGGTGTTCTCTTACTCCACCTAAAACTCCACAAAATTTAGTTGCAAAGCCTATTGAAAAAGGTATCGAGCTTTATTGGGACGGAGTTAATGGCGCAAAGGAATATAAAGTATATTCTTCCAAATCAGAATCTGGAGAATACACAGAAATTGGGAATACAAATTCAAACAATTATAAAATCACTGATTTAGATGCAGAAACAATTTATTTTTTTAAAGTTAATGCAAAAAACAATTTAGGAAGTAGTGATGATAGTGAAGTAGTTAGTGCATCTCCGAAGTTAGAAAAACCTAAAAATTTAAAATATGAATTCAAAGGATATTCTTTAAAACTAACATGGGATTCTGTAGAAAATGTCACTACATATCAAATTTTAAAATCTGAAGGAGATAATAAAAATTATTCTCTATTAAACACTACCGAAAAAAATTATTTTACCATCACAAATATTGTCAATGGAAAAAATTATTCTTTTGTTGTAAAATCTAAAAATACTCTAGGGGTAAGCGACGCATCTAATAAAATTTTCATCACAGTAAAATTGCCTCCTACACCACCACAAAATTTTACTGTATCTAGCGGAAATTCAACAGCTCTTTTAACTTGGGATAATGTAGAAAAAGCTGATTTTTATAACATCTATCAAAAAGACGCTGAAGGAGCCGAAACCTTAGTTGCTGGTAATATCGAAAAAAATGAATATACTGTAGAAGGTTTACAAAATAAAACAAAATATTATTTTGCTGTAAGCTCCTCAAATAGCAATGGCGAAGGAGATAAAACAGAATATAAATTAATAACACCTTATAACCCAGATGAAAAACCAGATGCCACAACAATATCAGTTTCCAAATCTAATGATAGCATAAAAATATCATGGAATAAAGTAATTGGAGCTACAAGCTATAAAATTTATTACAGCACAACACAAGGTGGAACATACCACAAATTAAAAGAAACAACAAATCTTTATTACTACGACTCATACTTCGATTATGACACAACATATTATTATGTAGTTAAAAGTATAAATAAAGCAGGTGAAAGTGAATATTCCAATGAAGATTACATCACTATTCATAAATTACAGCCACCTCTTGTCCCTACTAATTTTACGGCATATATTGACCACCCCTCAGGAGATGTAATTTTAACTTGGGATGCTTCATATACTGCAAAATATTATAAATTATATAAAATAAAATATTACGATACCCCTTATCAAGAAATTACAGTAGTTAACTCATCAATATATACAACCTCATATAATTTAGGGTATTTAGATTCTGGAGAATATATATATGCATTATCGGCTGTTAACGATGCTGGTACAAGTGAACAGTACAGTATTTATGGATTTACAGTTACTAGAAGATAAAATCTTTTTTTAATAATTTAGGAACGGCTTAAAAATAAACTTATAATTTCGTTTTAAAATCGCATATTTTAAAAAATAGCGTAGCTTATTTTCTGAACAAATTTATACTTTCCTAACAAATAAAATATGAAAAACTTATTTTTTTAACGTTCCTTAGGAGAAAACTATATTACAAATATTAGTTTTCTCCTAAATTTATATCTTTCAATTTTTTATCTATTCCCAATCTCGCAATCACTCATCTCTAAAGTCAAAGCATCCACAGATATTCCAATCTCTTTAACTGAAAGAGCTAAAGAACCAAGCATTAATAATAAGCTTATTCCAAATATTACATCTCCTAAAAACTCTTGTGATATAAATAAAAATGTCATACTTAAAACACAAAAAAATAGACTTAATACCCCTAAAAACTGCATATCTCTTATTAACCTTATTCTTATTCTTAAATTCTCTATCTGTTTTACAATAATCCTATTTACACACGACTCTGGATGATCATGCAACCCCCTAACAAGTTGTGCTAATGTTAAAAATCTATTTGTATATCCCAATAATAAAAGGGATAATGCTGGAAATAGTAAAGCTGGTGTTGTTAATGTCATAATTTTCTCCTCCTATTTTATTCCTAAAATTAATCTAATAACAAATTATACCATTCTTTATAGGAATAGTCAATAACCATAAAGGCTCTTCTTTAATAAAATTTCTTATCAAAATAATACAACCATAAATTTACACTTTATTAGTGGCTTTAAAAAAACTCATATCCTATTCCAATATTATACGTTAATCCAAACCCAAAATTTATAACATCATTTTTAAATCCCTCACTTGTATAATCTTTAAAAAAAATAATTCCAGGAGATACACCAACCATTGTTTTTAATCCCGAATGGCTTAAATATTCCATTTCAACCCCTGTTTTTATTTCCGTCATCCCTATTCCATCTCCTGTTATTATTTCCCCTTCGTCATCCCATAACTCATTTTTATAAAACCAGCCTACTTCTCCTCTATTTAATCCAACCTTAAATTTCAAAAACATATTTTTATTTATTTTTGCAATTACAGCTTTTATATTTCCACCAAAAGTTAATGATATTGGTGTTTTTATCTCATTTACATAACTAAAGTCATTTCTAAATTCAACTTTTCCCATACCAAGATACAATTCTAATTCAATTTGGGATTTTATTCCATCTTTTTTTAAAGCTTTATACGTATAAAAAATTTTATAATAATCAATATCTTTTATCTCATTACTATAAAATACTGTAGAATAATCAAATTTAAATCCTGAAATTTCTTTAAATCCTTTATTGCTCACATAATAATTTGTTTTACTTACATATACTCTATTATCAATAGTCTCTCTTTCAGGTTCAGTTATATAAAATTCATCTTTTGTTTTATAAACAGCTTTTTTTACTTTTCTATCTTCTTTTTTTACTTTTTCAGTTTTTTTAAGAGCACTACTTAATGTTTCTTGCCTAATTTTTTTAGAAGTAGATGAACATCCTAACATAAAAAATAATGACATTGTAATAATTGCTATTTGGTAATTTTTCTTCATATTTTTTCCTCCAAAATTTTATTTTTATTTTTAGAATTTTTTTAATCTTCATTTAGAATATTTTAACAGATTTATATTTTTCTATAAACTTAAAGTTTTTTTATTATTATAGATAGTTTATAATAGTTGCAGGAAAAAGATAATAAAAAAATAAGATATGCGTCATCTGGTAGAGTATAAATATTTTTCTAAATTTTTGGATTCTGAAAAATTTTGCTTTGAAAAATCGCATATTTCAAAAAAATGGCGTAGCTTATTTTCTGAATAAATTTATACTTTCCTAACCAATAAAAAAGAGGGCAAACACAGTAGGTTGCCCCCAATGTCGTCAAGTTAACGATAATTTATAATTTTATATTGGGTTTACCAAAGGCAAAACCCCTACATTATAAAATAATACTGTAGGGGCTTGCCATTGGAAAGCCCAGTTCTTAGCTTGATGACATTGGGGGGTAAATACCAGTATCCGATTTAATACAACATTTGAAAACATTAACAAGTAAAATGTATAAAAATATAACAGATTTCGATTCTATATCTCTCCTATTTTTTAATTTAAAATATTATTCATTAGGCGGAAATGGATTCTATCACTACACATTCAATTATTTTTAGGGCTAAGAATTTAAAATTTGGAGTGGTAGACCTATGTGTCTACCCGAATGTAAACAATAATCAAAAGAGACCCCATCACCTCCAAGCATTAGCGTAGGTGGTAAAAGTCTTCCACTTTTCCTAAACAATTATCTCAAATATTTCTTTTCCTTCAACCATAATACTATCCTTCACATATTCTTTTCCCTTATTAAAATTATAAAATACCATATAACCTTTATCTAAATTTTGTGCCTCCAAATATTTACATAACTGTTCTCTTCCTTCTTGCTCATATTGTCCTCCACGCCATATTTTTAATTCTATTACAAATTTTTTCATATTATAGGTAACAACTATATCCATTCTATTTGATTCTCTTGTTTCCGATTCTACAAAATAAAATCCTGTTCCATTAATTATTGGCTTCAAAAAAGCTAAAAATAGTAGTCGTCCTTCTCGCTCTACAAATTTTTCATCTATTTTTCTATATTCAGCTTTCATCAATTCTTGAAACTTAGTCAATACCAATTCCATATCCAAATTCCCATCATCCTCTATAAATTTCGTTCTAAATTCATAAGTTAAGACTACACCTTTTTTTATTTCTCTATTTGCTATCATATGATTATAAATCAATATTTCAAATATTTTATTATCTATTTCTACTTTTTTATTCTTTTCTTTTATTATTCCATACATTTTCCCTATTGATACCATTTTATTTGTATGTACATAATCGACTTTATCATTTCCTAATATAACTTTTTCTATAAAATCATAAAACTCTCTATTATTCTCTATATTTTTTATTATATCATCAAACAATGTATTGGGATTTTCTAACGTAATTTTTATAGCTTCCTCTATCCCTTTTTTGGTAAAGTCTCTATTTAATTTTTCATCTATTACTTTACACAATTTACTTACTAAAAATGGATAACCGTTTGTATACATATATATTTTTTCTGACATCTCTTTTATATTCATTCCTGTTTTAGCATCGGCTTCATAATCTATCAACATCGTTGCTATCTCACGTGGATTAAAACTCATATCTATATCAAAGTCTACTGCTATATTCCACGGACTATTTAATGTTCTATTCTCATCTGGTCGCAGTTTCAACTTTAAATTCTTGACATCATGCACTCCTGCTAATATTACTGTATGAAATGTATTATCCAATCCTTCATTTCTACTTAAATATTTATCTCTAAGCATTCCTATAAAAGTTAAAAACAGTTGATTATTGCTACTTTTGTCTACCTCATCTATTATTAAAACTACTTTTTTATCTATTTTTTTAATTAATTTCGTTATTAATTTTGATAAATCTTTAAGTTTACCTATATTTTTTAACTCTAAATATAAATATTGACATATTTCTTTATTTTTATTTTCTATTTTATCCGCCATCATTTCTATAAAAGTTTTTGAAAAAATCTCTTCATTTTCAAAAGATTCATTTCCCATTCCTTCAAAACTCATCCTTATTAAAAAATAGTCTTTATTATTTTTCAATTTTTTCTCCAATAAATACATCATTGTTGTTTTTCCATATTGTCTTGGTCTATTTATTGTAAAATACTTTCTTTTTTCTACAAATTTCATCATTTCATTTAATTTTAAAGACGTATCTACCATATAATGCTCTTCTGGAATACAAGTTCCCGTTATATTAAATTCTTTCATTTTTACCTCCGCTAGTGTGGTCAAGTAGTGTTAAAAAAAGTTGCCTCACTATACTTTATATTTATACGTTATCTTTAACTTATTCATCAAAATTTACATTGTAACTTTTATAAACTTTCGACACTACCTTAATATCGAAAGCCGTTACTGAGATTTCCTCAAATAACGGCATTTTCTATTACTCCACTATATAAACTTTAGCACTAAACGCATCTAAATTCACCTTAAGCTTATTCCCATTTAAAACTAAATTCTCTCCACCATTCAATACCTCTTTATACTCCTCATTATAATTTTTATCAAATTTCAAACTATATTCTCCTGCTTTTCCAAAATTTAAAACTACAAAAGCTTTTTTACCACCATTTTCTACAAAATAAGATAACACTCTTCTTGCTTTTTTCTCTTTTCCATTTTTCATTTCATAAGCTGTAATAAATTCTGCTTTCCCTGTTCCAAATATATCTATATATTTTTCCCTTACTTTTATTAATTTTTTATATTCATTTAATAAACTTCCTTTTACTCCATTTTCCTCTTCTACTGATATTCCATCTACATTTTTATTATATACGCTTGTCCAAGATGTCATTCCAGCCCCTTTATTATTTTTATACCATTCCATTGGAGCTCTTCTGCCTTCATCTCCATCTGAACCTTCTCCCTTTTGCCCAATCTCATCTCCATAATATAAAGTTGGCATACCGTTTAAAGTCATTAATAAAGCTGCATAAACTTTTAATTGATTTTTAGGTATATATGTTGGGAATCTATCTAAATCATGATTTGATAAAAATCTAGCCATTACTGCATTTTTGGGCAATACTTTTTCTTCACTTTTTAATGTATCATCTACATCTTTAAATACTCCAGAAGTCATTGCTCCTTGCAATGAAAAATCAAATGCTGCATCAAATTCATTATCAAAATAAGGTGGTAATTTGTCCAAATCAGTCCAAATTTCTCCTAATAAAAGTGTTTTGCTATTTATTGCTTTTACTTTTTGTCTAAATAATTTCCAATAATTATGTGAAGGTCCTTTTGCATAATCCAATCTATATCCATCTGCACCATCATTCATATTTCCATCTTTATTTGGATCCATCCAAAATTTAGCAATTGACACTTGAAAATTTACAACATCTATATTATTTGTATTCCATGCTGGCATATGAGAATTTATAGTATCTCTTCTGTTATCGTCATCTCTAAAAAACCAATCATGATAAATTGTATTTTGTATATTCGAAAAATAGAACCATTTATCATATTTAGAATTAGGATTATTATGTGCATCTCTAAAATGTGGTTCTTGATTAGAACAATGATTTAATACAAGGTCTAACACTAATTTCATTCCTCTTTTATGCATCTCTTCTGCTAATTCTCTAAAATCTTCCACTGTTCCATAATCTTTATTTATTTTAAAATAATTTTTTATGTCATATCCATGATAACTCGGCGAATCAAATATAGGTGTTAGCCATATTATATCCGCACCTAAACTTTTTATATAATCCAATTTTTTTATTAACCCTTGTATATCGCCTATTCCATCTCCATTACTATCATAATAACTTCTCAAGAATATTTCATATATTACTTTACCTTCTGCCCATTTAGGAAATGGATATTTTTTTATATCTCCAACTTTTAATTTTACATTTTCTCCTGTATCCAAAGCAGATGGATCGACTTCTAAAAAATCTAATTTCCAATCTTGATTAAATCTTCCGTATCCTTTTTCTTTAGAATATACAGGTATCATCTGTTTTATACCTTCAAACGCAATTAAATCATATTTTTTAAAATCATACTCTTTTAATGCAGTTCCACTATTTCCCATTACTAATATCATACTATTGTTTAAATTATATAAATTAGGATAATAATAAGTTACTCCATAATTTTTTCCAACATACTCTTTTTTCCCAATTATAACTTTATCTCCATTTGCTTTTATAGTTAAATATTTATCCATTTGTTGTAATACTCTATTTGTTTTTGTATTCCCTATTAATATCAAATTATGAGAAGCTAACATCTCTTTTGTAACCTCTGTATCTTTTACCATTTTAATTCTTTTTTTCATTTTATTTTTTCTTGAAATATCTGCTTGTATTCCTCTTCCTATAATATACCCACCTCTATTTTTATCAGGATACACTATTAATAAATTCTTCCAAATATTTCCTTTATTTATATTACTGTACTCTGGTAATTTTGATGGAACATTAGAAAGGGTAATATCTGCTATTACTTTTTTCTCAACTTTTTTTACTACGTTTTTTGTTTCTTTTTTTACTTGTGGTGCTCCACACCCTCCTAACATTATTAATCCTACTGTGAAAATTGCCATTATTTTTTTCATTCTACATTCCCCTCTTCTGATTTTATTTTGTTATATAGTCCAATTATTTTAGTATAACTTTTATATTTTTTATAAATATGGTTTATATTTTTAAATGCTCTTTTTGTATCTCCAATATAATCATAATATTCTGCTAAATAAAAATATTCTGCATCTGTTTTATTTTCTTTGTTTTCTATTTTTTCTATATCATCTATATTGTAGTTTATAAAATTATCATTAAAATAGATATATTTAAAATTATTTATATCTGAAAATTTTAATTCAAACGGATATTTCTTTGCTGCACTTTCTTTAAATTCTTCTTTCCCTAAATTTATAAGTTTATAATACTCTTCATAAGTTAAATTACCTTTATATTTTAATAACTTTCCATATTCTTTTTTATCCATAAAATATTTTATAGCATCATCACTATATTCTTTTGCTGTTTCTATGTTTTTTTCCTCACAATATTCTATTATATATTTTTTATTATCTAATTTATCCAAAAAATCATATACCTCTTTATTATCATTGGATATTTTTTCATATTCATATATGAATTCTTCCTCTTCACTTTTATTAATTATAAAATTTTCCAACTCTTGTTTTGCTTTTTCTACATCTAATTTTTTTAATATATCTATCTTCTTTTCAAATAAATTTCTAGTGAACTCTTTTTCCAAAATTTTGTTTATTAATTCTAATCTTTTTTTATTTGTATCTGCTTTCATTAATTTCATTTTTAAAATATTTGTCATAAATTTTGAATCTGGATATTTTTCTTCGAATTCTTTTGTTAATTTATCAAAATCATCACTATTTATATTCTCAAATATTAATTTATAAAAATAGAAATCATTTTCAAGTGCTAAATTATATATAATTTTAAATTGTTTTGTTATAGTATATAGCTCATACATACCTTCATAATTTTTAGTTTTTATATAATAATTTAATGTTTTATCTATCTCTTTTTGATATTCATCTGTTTTTCCTGTATATTTTAAATAATATATTTTTTCAATTATATTATGAAAACTTATTTCTATTCCTAACTCTTTTGCTTTCGAAAAATATTGGAAAAATCCTTCCTTATCGCTTACTGCTTCTATATTATTATAATAAAAGCTTAATTTTTCAAACTTATTAGATAATTCAAAAAATATCTCTTGTAATTGTTTTTTTCCTTTCATATCTACTATTTTTAATCTATTTTTTATAATTATTTTTTCGTTATCACTCCATCTGTTTTCTTTATAATAATCATAAAAATCTTTTTCATAATCTAATAATGAAAATAGATAATCTATATTTGACACTTTATAACTGGTTTTATCTATATCCAACCCTTCATTTTCTATTAAATTATATATATAACTTTTTAATTTTAATTGTTTCCATAATGGCATATCTTTCATTAAATTATTTAATATCTCTATTTCATCTTTATATTCTCCTGCTTGAAATAATTTTTCTGCTAATTCTAATGTAGGTTTTCCTTTTTTTGTATATTCTTTTAAAAATTTTAAACTTAACTCTTTATACCCCAATTTGTTATAAACTTCAAATAGTTTTAAATAGCTATCTACAGAATCACTATTTAACATTGTTTCAATATATGTTGCAGTTTTTTGAGGAAATATTACTTCTTTCCCATTTATTTTAGTTACAACATACATATCTTTATCATAATTAGCATATATCATTGCTGATATTATACACATTAATAATATTATTGTCTTTTTCACTTTTCATCCCTCACTTCGCTTTTTTTTATTTCAATCTTTTTTATAAGTTTATCTTTAACTTTTTTCCTGTTTTCTGCATTAACTTCATTTAAATTAATATTATTCATAAAATTTCTAGTTTTTATTATTTTAGGTGTTATAAAAATTATAAGATTCGTTTTATTATTATTTTTTATTTTACTTTTGAATAATTCTCCTAATATTGGAATATCTCCTAATATTGGAATTGAAGTAATTGTGGTAGTAACTCTATTTTTTATTAATCCGCCTATTACTAATGTTTGTCCATTATTAATTATAACATTAGTATCTGCACTTCTAGTCGAAATCATTGGTACATTGTCAGGCGTATAACTACTTACACTACTAACTTCTGGAGTTATTGACATATTTATTTTCCCATCTTCTGTTATTACTGGCGTTACATTTAGTTTTATTCCTACATCTTCAAATTTATATGATGATACAGCTGTATCTCCAGTTCCACTTGTCTCCTTATATGGTACTTTGTCTCCTATATTTAAAGTTGCTTTTTTCCCACTTATTGTAGTTATATTTGGGCTTGACAACAAATTTGTATTTGTATTTGTTAATAAATTTTTATATAACATTTGAAAATTATCTATATCTAACATTCCAATTTTCAAAGCCAATCCATCACTTGCCCTATTAGCTGTAGTTGTATCTCCAACTCCTAATTCAAAGTTATTTCCACTAACTTTATCTTTTGGTAACACATATGTCCAATTTAATCCTGCTGTTCCATCTTTTCCTTCTGCTACTTCTACAATTTTTGCTTCTATTGTAACTTGTAATGGAGGCACATCAAATTTTTCAAACACATTTTTAATATCTTTTACATCTTGTTTTGTTCCTTTTATAATTACACTATTTAATGTTTTATTCATTGTTATTTTTCCATTTATCTTTATATCCAAATCTCTAATTATTCCTATTAAATCTTCTGCTTTTAAATATTTCGCATTAAATATTTCTGTTATTTTATCCTCTTTTACTTTCTCTTTTCCTACATCTAATTCATTTATTACCATTTCTAAAGTTTTTATTTCATCTTCATCTACCCAAGCTAAAATTTTTGATTCATTCTCTTCTCCAATTATTTTATCATCTTTTTCTAAAATTTCTTTTAATTTAGAGATAATATCATTAATATTCCCTTTATAAATTTTATAAACTTGATATATTTTAGTTTTTTTGACTATTTTAGCCTTTTCCACTTTTTTAGGATATAATTTTTCTGCTTCCTGATAAGATATTACTCTTATTATATCTCCTACTTTTACATAGGTATAACCGTTTATTTTTAATATTTCTTCAAATGCATCATCCACTGGCACATTATTAAAACTAACTGTTACTTTTCCAGTTACATCATTGCCTGCTATTAAATTTAAGTTAAATTTTCTAGATATTATTCTAATTACATCTAACAAATCTACATCTTTAAAATCTATTGTTATTTTCCTATCTTTAGCTATTAATTCCCCTCTATAAGTAGCTCCAAAACTTAAATATGTCAATAATAAAAGCATTATTATTAATATAGGGTATCTTTTTTTATCCATTATTCACCCTCCCAGACATTTAATTTTATTATTTTTCCCAAACTATTTTTTACTATTACTTCTGCTTTGTTTATTCTCACTATTTTAAAATTCCCCACTTTATCTCCCTCTTTTAAAATCATTCCATTATTTAATATTATAGATTTATTTCCTCTATCTGAAATTGCTATTCCCATCACTTTAAAGTTTAGTTCTTCTTTTATTTTTTCTTTTTGATTATTAACCTTTTCTTTTGTATATAAATATTTTGAATTAAATATATCTCTTACTATTATTCTTGTTTTTATTAACTCTTTTTTATTAATCGCATCTTTTTTTGTTGCCTTATTTTTCAAATCAACTTGTTTTTCTTCTTTGATATTCATAGCTTTATTATCTTTTTTATTTAATATTTTTTTTGTTATATTTTTATTTTGAACTGATTTATTCTTTTTAGTAGGGAAAAAATATATTATTCCTGCTAATAATAAACTTACTAAAATCAATATAATATAAAAATTTTTTTTGTTATTAATTTTATTCCCCATTTTTATCACCCTTTTGCATTATAATAGTATGTATTGTTATTGTAGAATTTACTAATTTACTATTTTTCTTTACTATTATATTATCAATTATTAGTTTTTTACTTAAATTGTTTAAACTATTCAAATAATTTAGCAAATTAGAATAACTAGAACTAATATTTAATTTTATTACAAATTTTTTATAAAATTTTCCATTTTCTTCCATAAAATCTACTGTTTTAAATTGAATTTTCCAATCTTTTCCTTTTTGAATAATTTCATTTCTTAAAAATTGTTTTTCTGAAGAATTAATATATACCTTCTTTAAATTATTATACTCTTTCGTTTTATTTTCTATTTCTGCTTTTTTATCTTTTAATTTTGACATTTTCCCTACTGATTTTGCATATTCAAATTTATAATTTAACAACTTTTTTTTATTAATTGCAATATTTTCTATGTCATTTTTAAATATAAAATTATAAGAAAACGATATTAAAATCATATATCCAACTATAATTAAAGCTCCTTTTTCTTTGTCATCTTTTGAAAGTTTTGAAAATTTATTTTTTATTTTTTTTAACATTTTCAACCTCCAAGTCTAACTTTATTGAAAATTCAGCTCCATTTTTTTTCTCAATTGTTGCTTTTTTCATCCAATTTAAAACTACATTTTTATATTCTTCTTCTAGTCTCCTAAAAAAATCATTTATATAAATTTCAGGAAATCCATCTTCTGATATACATTTTCCATTTAATACCACTGTCCCTTTATTATATTTTATTGAAGTAAAATATATTCTTTCCACAGCTATCTCATTTAATCTATAAAAAAAATCTATTATACTATTATCCTTATTTAAATTTTTTATATTTTTTATATCTTCATCTAATTTTAAAGTTTTTCCATCTAATTTATCATACTCTTTTACTAGTGGCTGTAATTCTTTTGTCATCTTTTGAAATTTTACCAACTCTTTTTTTGATACAATATTTTCCCACATTATAGTTAAATATATTACCAAAACTGGCAAAATAAAAATTATAGCAAAAAAACTAATTTTTTTATATTTTTTTATATTTTCTATCTTTTTTTTATCTTCTTCCCTAACAAATTCCATTGGTGGTTTTGTCATTAAAATTGTTCCTAGCATATCTGAAAAAATCATACTTTTAGCTAAAAAATCTTCTGAATCTTCTATGTCTAATTCTGCAACCCCACTATAAGCTTCATGATTATACATTGAAAAATCTCTCATAAAAAAATCTTCCATTCTACTAACCTCAAAGATTTCTCCTGTTAAATATATTGTATTAATATCATGCCCTCTATTATTATTTTTGAAATATATTATTGAATTCTCTATCTTTCTCAACAAATTATTTCCTAAAGTTTCATATATAAAATTTATTTGTCTTATCTCATCTTCATTACTATTTTCATTTTTGTTTATTAATTCTTCTGCAATATCTTTATCTATGTAACCATATATTTTCATTTTTTTTAATGCTTCTTCTCTAGAAATTTGAAAATTATTCATTATACTTTTTACTATGCTATCCCATCCAATTGGAATTTCCCTATAGACTTCCAATATTTTTTCTTTATATATCATAATAATTGTATTAGATTTTGAAACATCTATTAAAACACTGTTTTCTTCTTCTTTAGTTCTTTTTTTAAAAATTCTGTCTAAAGAAAAAACTTCAAAATCTATTCCTGATAATTTCACATTTAATCTCTTAAAAAAATCTATATCATCCTTTGATAATAATATATAAAATATACTATAAAATCTTTTACCTTCTACTTCAATTTCTCCCAAATTTTGATATACCAAATTTGATAAATCTCTATCAGGAAAAATTTTCCCGACTTCTCTTTTTACCACTTGTTTTAATTCATCTTCTGGCATAATTGGTATTTTAAGACCTCTACAAGGAATATTTGGAAAATTATATTCTAAATATATACTGTTTTTTCCCAATTTTTTATCTTTAATTTTATTTTTTATAATATTTATTATATATGATTTCTTATCTTCTACATTATCATCTATTTCTATAATTTCATTATATAAAATTTTCATTCTTTTAGATTTATCTATTAATATAAATTTTATTCTATTTATTTCAATACTAATAATTAAACTTTTTTTCTTCATTTCCCCACCTCTATTCATAAAAAATTCTAATAATTACTTTATACACTTTATCTCTATTTGTTAGTTCCCCATTAAATCCTGATTTTAATTTGATTTTATATTCTTTATTTAATTCCCCATTTTCTTGTGAAATATATGATTTTGTTAAAGTTTCCCCTGCTTTTGTATCATCTATTACTGTTAAACTTGATTCCTCCTTTTTTATATAGTCCAATTCCCAATTTGCATTTATATTTCTTTCTATAACTGTAATATATATTTTACTTATGTTCGTTATAGTCTCGCCAGGAATCTCTTTCATTTTAAAAGTAAACTCTTTTATTTTATTATTTACAAATATATATGTTTTTACTTTTGACATTTTATGTCCTGGATTATCTGTTAAATCTTGTGACCAATTATCATCTCCTGTGCTAATTTGTTCCTCCATTACAACATTTGAAATTCCATCTGCATTAGCATCATCTATATTTATTTGTTCTGTTGAAATTCCACTTTCTAATCCTTTATCAGCTATAGAGCTTATTCCAATACCTATTATTATTAATACTATCATAAAAAATATAACAATTATTACACTTGAACCACTATTTTTCATGAAAATTCACCCACTTTTTATTTGAATTTAAAACCAGTAGAAAATTTTAATTCAGGTGCTATTTTATTATCAGATATTGCTCCCTGCTCTTTTATAATTATTTTCATATAATCAGCATTAACTAAATCTCCTGTATTTGGATTTTCAATTACTGTAGTTACATCGCTATTGTTTGTTTTATAAAATACAAATTTTACACTTGTTAATTTTACACTACTTTCTGCCCAATCTGTTCCTTTACTCCTAAATATTGGAATATTATCTCTATAAAAATTTTTGCCTTTTCCTAAATCACTGTTATCTTCTGTTGTATCTCTTGTGCCATTCCCATTTTCATCCCACCAGTACCAATAATAATTATTCTCTTTATCCTTTATTCTTACCCCTACTACATTTCCACTGTTGTCTTTTACTATATCATTTAGTTCTGGTGTTACTGTCAAATTACTTTCTATTAATTTATTCTCTATTCTCTTTAAAACTGGCTTTATCTTTGTTATTGAATCTGTTATTTCTACATTCATTGTATATGCTTTAGTTGCGAAAATAATTATTTTGCCAATTCCTGCCATTATAAATCCCATAACAGCTATTGAAATCATTAATTCAATTAGTGTAAATCCTCTATTTTTCATATTACACCTCTATTTTTTTCTTGGTAGTGTCAAATAAAGTTAATCCAATTTTTTTGAACCACTAAGGAACAATTAAATACATCAACGCAGAGCCGCAGAGAAATCAGAGTTTACACAGAGAATAAGAAAATATCATAGCTTATTTTCTGAATAAAATTTATACTTTCCTAGTAAATTAAAAAAATTAAAAAGTTTATTTTCTGTGTACGTTTTTCTCTGCGAGTTCTTTGCGAACTCTGCTCCTCTGCGTTATACTATTTTTTCTTTAAATACCAAATCAAAACTACTCTATTTTTTGTATTATAATTATTATTGATATTATAAGAATCTTTGTAATAACATTCAACTTTCACTTTTTTAGTGTCTGTAGTAGTATCTATAGGTGCTGGTGTCAAGTCAGAATCATTTACATATATTACAGATACTTTTCTATAATAATTTTTATCTTCAGGCTCTTTATTTGAATCTAATCCATTAAAATCTAAAATCCCAATTCCAGATTCATTATATCCATTATAATCATCTATATCATCCCAATCATTCTCTGCTCTGTTTATAGAACTTTTGTCCTCATCATCTTCTCTTACTATAATTGCTGTTCCCGTCTCTACTCTACTCCACTGCCCTGCATTTGGAGTATCTCTTTTTTTCTTTTTCTCATCAAATCTCTTTAATTTTATCTCTTCTAATAATTCTTTTGCATAATGAGAAGCTACAAATTTTCTTTTCCCTTCAATTGTAACATTTGTATTATTTGCTATTACCTGCAGAAAAGGAAATACTGCCAATGTTAATATTACTATAGCAATTAAAATTTCCACTAATGTAAATCCATTATCTTTTCTATTCCCTAATTTATCTTCTAGTTTCTTTCCCAATTTTCTTTTCATTTTGCAAATATTCACCTAGCCTTTTTATTCCCTCTTCTAAATTCTCAATAGAAACAGCATATGATATTCTAATAAATCCCTCTAAATTAGTTCCAAAATCAATCCCTGGAGTTACTGCCACTCTAGCTTTTTCTAATGTTTTATATGCAAATATTAAAGAGTTATTTGTATATTCTCTAACATCTATAATTATATAATAAGCTCCCAAAGGATTTGCTGCTACTTTTAATCCCCATTTTTTTATTTCAGCAAGAGCAAATAGCCTCCTTTTATTATACTCTTTTACCATATTATTAATTTGTTTATCTACATTTTCATTTGTCAATGCTTCTATTGCAGCATATTGAGATATTGTATTTGCTGAAATAAAGAGATTCTGCTCCAATTTTTGAGTTAACATAATATATCTATCTGGAATAATTAAATATCCCAATCTCCAACCAGTCATTGCAAACAGTTTAGAAAATCCATTTAATGCAATTGCATTCACTGTATAATTTAATATTGTATCATATTGTTTCCCCTCATATACCAGCCCTTGATAAATTTCATCAGATATTATTGTTATTCCTAATTCTGCAAGCTCCATATAATCTTTTTTCTTTAATACTACACCAGTTGGATTCCCTGGACTGTTTATCAATATTGCTGCTGTTCTATCTGTTATTTTTTCTTTTATCTTTTCTATATTTATACTAAATCCATCTTCAGAAGACAATTCATAATAAGATACTTTTCCATTTAAAAATTTTATGAAATTAGGATAACAAGCATATCCTGGATTTGAAACTAAAATTTCATTTTTTCCACTAAATTCCATTGCAGTATATACTGCCAGTAAAAGCGCAGGACTTGTTCCTGCTGACACAACCACATTTTTATATTTTAAATTAGTTCCATACTTTTTATTATAATACATTGCAATAGCTTCTCGCAACTCTTTTTTCCCCATACTATGCGTATATCCTATTTTTTCTTCTTTAATTGCTCTTATTCCTTCATTTTTTATCTCTATTGGCGTATCAAAATCTGGTTCCCCTATCTCTAGGTGGATAATATCTTCCATTTCGTTGGCTTTTTCTAATATATCCATAACTTTAAATGATTTTATTTCTGCCATATTTATCACCCCTATATTTTTGAAATAGAGTATATTAAAAAATCTAATTCAAAATTTTCGCCGAAAAATCGTTAAAACATTCGATATTTTCAGCTCGATTTTGAAAATATTTTCTACATATACTATAGTTAAAAGTAATTTGTTTGCCAATACAAATTCTCTAATCTAATTCTCTATTAGCAATTCCATTTAAATTTAATTTAGCCATCTCTATCCCTCTATATTTCACTTCATAATACGCTGCTGCTGCTATCATCGCCCCATTATCTGTACATAGTTTTAACGAGGGATAATATACTTCCATTCCATTTTTTTCTCCTGCTTCTTTCATCTCTTTTCTAAGCAATGAGTTCGCAGCTACTCCTCCTGCTAATAATATATTTTTCACATTTTTTTCTTTTGCCGCTTTTATTGTTTTTTCTACTAAAATATCTACAACTGTCTCTTGAAAACTTGCAGCTATATCTTCTATTATAACCTCTTTTTTTTGCATTTTCATTTTATTCAAATAATTTATTACAAATGTTTTTACTCCACTAAAACTAAAATCATATTCACCTGGAACTTTTGGTTTTGTTATTTTTAAAAATTTTGAATTCCCTTCATAATATAATTTATCTATTTTTGGTCCACCAGGATATTGCAACCCTAATACTCTTGCTACTTTATCATAAGCTTCTCCCACTGCATCATCTATTGTTCCACCTAAAGATTCAAATTTATACTCTTCATCCATATAAACTATATTTGTATGTCCACCTGAAACTACTAACACTATTGCTGGCAGCTCAATATCTTGCTCTATAAAATTTGAATAAATATGCCCTTTTATGTGATGTACTGGTATTAATGGTATCCCACTCCCATAACTTAACCCTTTTGCCACAGAAACTCCTACTAAAAGAGCCCCTATAAGTCCAGGTGCATAAGTTACTGCCAAATAATCCATATCCTTTAATTCAAAATTTGATTCATCCAACGCTTCTTTTAGTACCGCCATAATATTTTTTATGTGATGCCTAGAAGCTATTTCTGGCACAACTCCGCCATATTCTTTATGTATATCTATTTGAGAAGATATTATATTTGAAAAAATCTTTTTCCCATCTTCTACTACTGCAATTGATGTCTCATCACAAGACGTTTCTATACCTAGTATTCTCATTTTGATTCTCCTTTATTTATGTTCTTTTTAAATAAAAATTTTCTTTCTGGAATTAAAATTATACTCATTCCAATTATTATTAATATTATTCCTGTAAAAAAACTAACTTTAAAATTTTCTTTTAATATATAATACGCAAATATAGATGCCAAAACCGGCTTCAAATAAAACATTGAAGACCCTGCAGATACTGGAATTTTTCTTAAGCCATAAAAATAAAAAACATATGCAACTCCAGTTCCTAAAATTATAAGATATGCTATATAACCTATATTTTTTGAAAAATTTAAGATATTATAACTTTTTATAAATGGCAAATACCATAATGAACCTGTGAAAAATACAAAACCTGTTGTAAAAAACGGTCCATATAATTTTATATATTTTTTAGCTAAAACTATATATGCTCCAAAAGATGTAGCAGAAATTAGCATTAAAAGAGGCCCTGTTAAACTCTTAAAATTAATTAAATCAAATCCAAAACAAACTATATACGCTCCTATAAATCCAATAAAAATTCCTATTCCTATTTTTGTATTCATTTTTTCTTTTAATATTAGCCATGCAAATATTGTAGAAAAAATTGGATTTAAGCTAAATATAACAGCTCCTCTAGCTGCATCTATATATTTTAGACTCAAATGAAAAGCTCCAAGAGATATGGTTACACCTAAAATCCCAAGTAATGTCAATTTTATAAAATCATTCTTTTTTATTTTCTTTATTTTTTTGAAATCAAATGAAATTAATACAATTCCACTTAAAAAAAATCTCAAAAAAGCTAAATATATAGGGTCTATGTCATTACCTATTATTTTCGACACAACTTCTATTGTACTGAAAAATAAAATTGTAAAAAATATTGCTAAATATCCCATTTATATCCTCCTCTTTCTCAGAAAAAACATATTTTGTTTTATAAAATCTATTTTTTCTTAAAATTTTTAATTTTATCTATTATTTCTCTTATATAGTATAACATATTTATTAGTTTTTTTTTAGTTTTTAACAATCTTTTATTTGCTTTTTCTTTATTATTATTGTAAACTTATAATATAAATATATAAGTCACTTATTTTTTAAATATTATTGGCTTAAAGGAGATGAAACTATGAATAAAACTATCTTTGTAACTGGCTCTTCTTCTGGTATAGGAAAAGAAACAGTTAAATATTTTCAAAAAAAAGGGTGGAATGTAGCTGCCACAATGAGAAGCCCTGAAAAAGAAAAAGAATTAAACAAATTAGAAAATGTAAAACTTTACAAACTTGATGTTACAGATAATGATTCTATTCTTAGTTCTATAACTTCTGCAATTAATGATTTTGGTAAAATTGATGTGTTACTAAATAACGCAGGATTTGGAACTAATGGAATATTTGAAGCAGCTACAGATGAACAAATATATAGACAATTTAATGTAAATGTATTTGGTGTAATGAGAGTTATAAAAGGAATTTTGCCACATTTTAAAAATAACAAAAGCGGAACTATTGTAAATATTTCATCAATGGGAGGATTGGTTACAATACCTTTATATTCGCTTTATCATTCTACAAAATTTGCAATTGAGGGATTTATAGAATCTCTACAATTTGAATTAGCTACTTTTAATATTAAATTAAAATTAATAGAGCCAGGTGCAATAAAAACAGATTTTTATTCTCGTTCTAAAGAGGTTTTAATGAATGATAATCTTAGCGAATATAAAAATTATTTTGATAAAGTTACTAAAAATATAGATAATGCGGGTAATAATGGATTGCCTCCAATTGCTGTAGCTAAAAAAATATATAAAGCTGTTACTGATAATAGTAATAGATTAAGATATTCAATTGGAAAAGAAGCTCCATATTTGATTGCACTTAAAAGGTTTATTCCTAACTGGATAGTTTTTAAATTGACGAAATTTGTTATGGAGAAGTGAAATTGAATTGTTTAAGATAAAAATTATTAGCCTTTTACATATTTTCAACATCAGGGCGAACAGATAGGTTCGCCCTGATATAAAATTTTTCCCTCTTCTATCCTAATTCAGAATATTCTTTTGCTATTTTTGCTGCAACTTTTGCATTATTATAAACTAATTTTATATTTGAAGCCAAACTATCTCCACCTGTTAAATCTTTTATTTTAGATAATAAAAATGGAGTGCTTTCTTTTCCTTTTATCCCTTTTTCTTTTGCTTCTTTTACTGCTTTGTCTATTGCTTCATTTATTGTGTAATACTCCATTTGATACTCTTCTGGAATTGGGTTTGCTATTATAAATCCACCTTTTAATCCTAAATCCCATTTAGCTTTCATTGCTAATGCTACTTCTTTTTCCTCTTCTATTTTATAATCTACATTAAATCCGCTTTTTCTTGTATAAAATGCAGGTAATTCATCTGTTCTTACTCCTACAACTGGCACCCCTTTAGTTTCTAAATATTCCAAAGTTAATCCAATATCCAATATTGATTTTACCCCTGCACAAATTACTGCAACATCTGTATTAGCTAATTCTTCCAAATCTGCTGATATATCCATAGTTGTTTCTGCTCCTCTATGCACACCGCCTACTCCTCCTGTTGCAAAAACTTTTATTCCGGCAAGTGCGGATATTATCATTGTAGATGCTACTGTAGTTGCTCCATCCATTTTTTTTGCTATTATAAATGGTATATCTCTTCTACTTGCTTTCGTTACATTTTCCCCTGCTTTTCCTAAATATTCAATTTCATCTTTTGTTAATCCTGCTTTTAATCTTCCATTTAAAATTGCAATTGTTGCTGGAATTGCTCCATTTGCTCTTACTACTGCTTCCACTTTTAATGCTGTTTCCACATTTTGAGGATATGGCATTCCGTGTGATATAATAGTTGATTCTAACGCTACTACTGGTTTCCCCTCTTCTATAGCTTTTTTTACCTCTTCATTTACATCTAAATACTTTTTAATATTTAACATTACTTCATCTCCCTTTTTATATATTATATTTGTATTTTATCCAGTTATAAATCACGCTCTCATTAAATTAAGAATAATTTCCAAAACTAAAAGATTCAGCACAAAGAAAGAAGATCACAAAGAAGCACAAAGAGAAGCTTATAAAATTAATTTATATATTTCTATCTCTATAATAAAAAAATTATTAACTAAAAAATAAGCTACGCTTCAGCTCGTAAAGTGTAAATATTTCCCTAAAATTTTGGTTTCTGAAAAATTTTGCCTTAGAAAATCGCATATTTCAAAAAAACTGCATAGCTTATTTTCTAAATAAATTTATACTTTCCTAATAACTAAAAAAATGTTTTCTTCGTGTATCTTAGCGTTCTCCTTTCTTTGTGCTGAACGAATTACCGCCTTTATGTATTGTCAATTTCTCTTAATCTAACGCTCTAGTTCTCTTTCAATTTTATGTATCTCCTCTACTGATAGCTTAGGATTTATTGTTTCTTCACTTGAAATTGCTACAATACTTGCCATTGCGCTAAATTTTACGCTTTCATATATATCCAATGAATTTATATGCGAATACGCCAGTCCTGCTGCAAAAGCATCTCCTGCTCCACTTGCATTTACCATTTTTACTTTTTTAGTTTTGAATATACCACTTTTTTCTTCATTTTGATAATAAACCCCATCTTCTCCTAATGTTATTATTACTGTTTTTACTCCTTTATTTATAAAAATATCCCCTGCTTTTTTCAAATCTGAATCTGTTTTTATTTTTATCCCTGTAAGTATTTCTGCTTCTATTTTATTTGGCTTTATTATTTGAAAATATCCAATTATATCTTTTATTTTCATAGCTTTTGAAGTAGATACTGTGTCTAATAAAAATTCTGTATCTCCGCTAAATTCTTTTACTATATATTCGATTGTTTCTTTTGGTATGTTTGTGTCTATAACGCATAAATTAGAATTTTTAATTATTTTATCTTTTGTTTTTATAAACTCTACATTCATATTTTCAAAAATATCCATTGCAGCAATTGCAACATCCATATTTCCATTTTCATCTAAAATAGACAAATATGTAGAACTATTACTATTCTTCATTATCAAAGAATTCTCTATTTTTATCCCAACTTCCCTAGAATGTTCCGTTATATTGTCAGCGTATATATCGTCCCCTAAAACTGTTATTAAATTTGTATCAATCCCTAATTTAACTAAATTTTCTGATATATTTCTTCCAACACCTCCCAATGCCAATTTTATTGCGCCAGGATTAGAATCATTTTTTATTAATTTCTTAAAAGGAAACCCATAAATATCAATATTTGCTCCGCCAACTACACAAACATATGGATTTTCTCTTACAATATATCCTTTTCCTGTAATATAACCCTTTTTTATCAAATTACTAATATGAACTGCAGCTCCTGACCTTGTTATCCCTAATTTTTCAGCTAATTCTTTTTGAGAAATAAGAGGATTTTTTCTTATTTCTTCTAATATTTGATTCTCTCTATTTGTCATCATACCTCCTTTTTCCAAAATTAACAAAAGTTTAGCTTGTTAAACTTTTGTTAATTTTGATTATACAACATTTTTGTTATATTTTCAACTCTTTTTTATAAAAAGTTGTAGAGGAAATGTTGCACGTGCCAAAATATCAATAAAATCAAAAAAAGCAAAAGAATTAAATCTTTTGCTTTTTCCCAAAATTAATATTTTTTATATTTTCAATTTTTATTATTCCTAATTATCACTAACCATCTTTATAATCTCAGCTTTTGTTTTATCATCTAATTTTTCTCCAATATCATCATGTCCTGCACCTTCGACTATCATAAGCTTTTTAGTCCCTCTAGCTTTATTAAATAGATCTTTTGAATTACTCGGTGATACCATTTTATCATTAGAGCCATGAATGAATAGTACATTGCTGTTTATTTTGTCAATTTTATTAATATTGTCATATTTGGCATCAGATATCCATGATCCTGGTATATCAAAACTTGTGAATCCTTTTAATTCATTTGTAAAATCTGTAAATGCAGACATAGTAATAAGAGATTTTTCATTCTCTTTAGTTGCTAAATCTATAGCCACTGCACTTCCAAGCGAATGACCCATAATTATTATATTCCCATCTTTAAATTTACCACTATCTATTGTTAATAAATAATTATAAGCATACTGGGCATCTTCATATGTACTTGCTTCTGTTGTTGTAAATCCTGATGACTGTCCATATCCTCTATATTCCATTGCAAAGAAATTAATTCCATTTTCATAAAAGAAATTTGCCATCTCTATTTGAGTTCCTTTATCTATTCTCCCACCATTTCCATGAAAAAACAGAACAATTTTATCTTTGTAAACATCATTTTTTCCTTTTACATATAATCCATAATTATCACAATTTCCATAATTCATTTTTACAAGTTCCCAACTATCTTTTGGAATTTTTAATTCAGAAAAGTTATAATCACTATTTTTGCTATTCCCAGCAAATAAAACGCTTCTTTCCATATCTACACATGAAACTGTATTTATTATTAATACAAAGCCTATAAAAATATTTTTCATAATTTTTTTCATAATTTATCTCCTTCATTGTTTTATTGTAGTCCCAAACATAATAACTGGATATCCGAAATCTGCCATCATATTTTTATACCCTATATTATTTACACCAATTTCTAAATCTAATGCCCATTTTTCTCTAATTTTATATTCAACTCCAAGTTTAATATTTGTTTTTAAACTAACTTTTTTTTCATCACTTCTAAACTCAGTTAATTCTTCAAAGACCATATATCCACCCCATTTTTCACCTTCATATTTTGGAACAAATCCAATAACAGGATAAATTTTTATATCTGATGTTTTCAACGAATAAAGTGTTGGAAATGATAGATATCCATTTAAAGTTGGTCTTTTTCCATTTTGTTTTATTATATTTTTTACCAATGCAGGTTCAAACATAATAATATTTTTTGAAGCAAATACAGGTGAAGTTATATTCATATCTAAATTTAATTTATCATTAACTCCATATTTTACTCCGCCACTTATATTTGGAGATGAATTCATTCCTACTGCTATTTCATAAACAACATCATCTTTTTTTACCATATTTTTACCAACTGATAAACCTGTACATCCTGTTATTAGCAAACATAAACTCGCTACAACTATTATTATTTTCACTTTGCCCTCCTCTTTCTGTTTTAGAATATTATGTTTTATAATACCACTTATAATATTTTTTGTCAAAACGTTTATAATAGCAAAAACAGCGTAGCTTATTTTTTGAATAAATTTATACTTCACTAATAAATAAAAAAAAGAGCTGTATAATTACAGCCCTTTTATTTATTTATCTTTTTTAAAGAATTTAACCAAAGCATATAAAAGTGTCATAGGATGTGGTGGACATCCAGGAACAAACAGGTCAACTTTAAATAGATTACTTACACCATTTAATTGCTCTTTATTATCTCTAAATACTCCTCCAGATAATGCACAAGCTCCCGAAGCTATTACAACTTTTGGATTTGGAACTGCCTCATACGCTTTTTTTAACGCATATTCCATATTTTTAGTTACAGGCCCTACAATTAATAATCCATCAGCATGTCTTGGAGATGCTGCAAATTGTATCCCAAATCTTGACAAATCATAAACTGGAGTATTTAATACATTAATATCTGCCTCACAAGAATTACATCCTCCAGCTGAAACAACTCTAAGCTGCAAAGCTCCTCCAAATATTTTTTTAAAATATTCTTTACTCTCTATTTCCATTTTTTTATTTTCTTTATCTATTATCAAATCATTTTCATTTGTAACACCCATCTCAAAATTTTGAGAAAATTTAACAAATTCTCCATTAGCAACTCTTTCACATTCACCACAAAAAGTACATTTTCTCAAATCAATACTTTTATTTTCTACATTAATAGCATCTTGAGGACATATTTTTGCACACTCTTCAACTACTTCTTTAGAACATTCAGGATTAATTACCGGTACTCCTCTATAATTTTTAGGAAGAGAAATTTTCCCTTTTGGATATTTAGATGTTCTATTCCCTTGCTCCGCTCTATTTTTAATTATATCTATAAACATTTTTATTACCTCACTTTTTTATGTTTTTCTTATATTTATTATTACTACTTTAATTCTTTCAGCACAAAGACGCAAAGAACACTAAGATACACAAAGAAAACATTTTTTATTATTTGCGTATAAACGGATTATCCCTATATATAAGCCCCTCTTCGTGACCCTTTGCGCTCTCCTTTCTTCGTGCTGAATCTTTTATTCTTTTCTTATATTTACTATTAATACTTTAATTCTTTCAGCACAAAGACGCAAAAACTCTAAGATACATTAAGGAAACATCTTTTATTATTTGCATATAAACGGATTATCCCTATACATAAGCCCCTCTTCGTGACCCTTTGCGCTCTCCTTTCTTTGTGCTGAATCTTTTATTCCTTTCTTCATCTCCCTACAAATCAAACCCACAATACGACAAATTAAAACTTTTATTACAAACAGGAAAATCAGCTATAGCTTCATTTCTTAATGCAAATGCAAGTCCATCCCAATTATGAAAAGATGGGTCTTTTATCTTATATCTCAATATCTCGCTTTTAGAATCTGTAATCACACAATGAGAAAGCTCTCCTCTCCATCCTTCCTGCATTGTTACAACCAAACTATTTACCCCTAACTCTATCTCTTTTTTCTCCTCATTTTCACTCTCTTTTTCCCCATAAAATTCCAACTCTTTCAAAAAACGTTCTACCAATTCAAATGACTCTTTAACTTCTCTATATCTCATTAATGCTCTAGCTAATACATCTCCTGATTTTTCTCTTATTTTCTCAACTTTTACTTTTTCCCAAATTCCAGTTGGAAAACTATCTCTTACATCATATTTTATTCCACTTGCTCTTGCAGTAAATCCAACCATTCCAAGCTGTTCTGCTGTTTCTTTGTTTACTTTTCCTGTATCTTCAAATCTTCCAACTACTCCTGCTTGTGCAAATATCATATCCCCAACATGTATAGTCTCTTTTTTTAGTTGCTCCAATCTCTTTAAATAATCATTTTTTTGACTTTCACTAATTTCAAATCTTGCTTTTTTAGCTCTTATTAATCCTTTTCCAAATCTATTCCCGCAAATATCAAGCAATATATTTAAAAAATCTCCTCTCATTCTCCCATAATATGCTGCTGGTGGCAAAAATGCTACATCTCCACTAAGAGCTCCTAAATCTCCAACATGATTTGCTATTCTTTCTAATTCCAAAGCTATTCCTCTTATTAAAAGTTGATTTTTATCTAATTTTATATCTGCCAAACTTTCTATTGCTTCTGAAAATGCTATTGAATTCCCAATTGTTGTATCCCCTGCCACACTTTCTATTATTAATGGTAATTTTTTCATAGATGCTTTTAAAAGTTGCTTTTCTACTCCTCTGTGTTGATATCCATGTTGTATTTCTAAATGTAAAACTTTTTCCCCTATACAATTAAATCTAAAATGACCAGGTTCTATAACTCCTGCATGAATTGGTCCCACTGCTACTTGATGAATCTCTTCTCCTTCCACTTCATAAAATGGATAATTTCCAGGAATAACCTCTTTATAATCATTTTTAAAAGCATCCTTTTTCCCAGTATAATTTTTGTGATATCTTAAAGATTTCATCCAGGGATGATTAATTATTTCTATTCCAAATTGTTCTGCTAACTCTCTTTCAAACATATTTAGTTGTGGAATTTTATTTGTTAAACTTTCATATTTATTAGGTGCTTCTGTTATTCCTAACCATAATTTTTCTGTTCTTAATATTGCTACTAATTTTATTTTTTTATTTTCATCTTTAAATCCAAAATATTGAACTATTTTTGCATTTTTTTCAGACAATTCTAACATTTCATTATAAAAATCTTTAAACTCCATTATTGTAATATTCTCTAAATTTATCTTTTCTCCATTTTTTATATTTATAAATTTATTATTCATGAATCATACCTCCAATCACTGCTACTGCACTTGTCATTATATCTGAAATTTGGTTTATTTGCATATAACAAAGCACCAAAGATGTAAATAGCAATATATATTGTGGATAAACTCTCCATCTGTTTTCTTTTACTTTAGGCTCTACTTCTGATTCTCCAAATGACATTTTTACCACATATTTTGAAAGTCCTGCAAATATTAAAATTAAACTTAACACAAATATTCCAGCACTTATATATGCACCTCTTCTTAATGCACCCAAAACTATAAAAAACTCACTAAAAAATAGTCCAAATGGAGGAAATCCAGCTATTCCAATAAACCCAGCAAACATTATAATCGCTGTTTTAGGTAAAAATTTGAATATATTTCCAACTTTATCTATTAATTTAGTTTTATAACTCATTAGCACATTTCCTGCTGATAAAAACAGAGAAGATTTTATCAAAGCATGATGAACTAAATGAAACATAGCACCATATGCAGCTATTCCGCCTATTCCTGTTCCAAATGCAATAATACCCATATTTTCTATACTTGAATAAGCCAACATTCTTTTATAATCATATTGTTTTAATATAAATACCGCTGCTACAACTGTTGATAATAGTCCTAATATTATTAATGATACATCTGCAAATTTCCCTAATTCTGCCAAATGCAATATCCTACTCATTTTAAATATTCCCAAAAATGCTGTATTTAACAAAGCTCCTGAAAGTAATGCTGAAGCTGGACTTGGAGCTTCACTATGTGCATCTGGAAGCCAAGTATGCATTGGAGCAAGTCCCATTTTTGTTCCATACCCAATTAATATAAATAAAAATCCTATTTTTAACCAATCTTTATTTAATAACATTGCATTTTTTTCTAATTCTGTAAAATTCAAATTTATACTTAATCCAGCTTTATCTCTTGCTATTGCTATTAAAAATGTTCCAAGTAGCGCTAATGCAATTCCTACAGAACACACTAACACATATTTCCAAGTTGCTTCTAATGCTGTTTTTGTCTTATGAACATATATAAGTGGAGCACTTGTTAAGCTTGTTGCCTCTACCGATATCCAAAACAGTATTAAACTATTTGAAATTGCAACAGAACTCATTGATGCTAAGAAAAATAGCATAGAACTTGTAAAAAGTTTTTCATTTTCCATCTTCTCTTCTTTTAAATAAGAAACTGTATAAATTGATATCATAAAAAAAAGATATGATGTCACCGCTAAAACTAATATTCCTTCTGGTTTTATTCCTACATATTCATTAAATAATGGAACTGAAATCCCCCTCCAAATTAAAATTGTAAATATAATGTGAATTAAACCAGTAATTGGCAAAAGCCATCTTCCATATTTGTTTTTCACCAATAATGATAATATTCCTGCTATAATTGGTATTAAAATAACTAACTCAGCCATATTATTACTCCTTTAAATTTTTTAGTTTTGAACTATTTATATCGTGAAATGTAATATTTATTTGTTGAAGTACAATTACCATAATCATCACTCCAACTAAAATATCCAATAATACTCCAAATTCAACAATATATCTACTTTTATTTGATAGGGTTATTCCTATTAAATAAATTCCATTTTCCATCATTAAATATCCTATTATTTGAGTTATCGTTTTTCTTCTAGATGTCAGCAAAAACATACCTGATATTATAGTTGCCATTGCTGTAATCCCGAGTAAATTCCCACCAATTGGGAAATGCACTTTATTTCCTAAATATGTTGATAAAACTATTATGAATAAGGCTATAAACATCGAAAAATTATACCCTATAATTGGCTCTATCTCTTTTTTTATTTTAATTTTATTAAATACACTCATTAACAACCAAGGAATTAAAAATCCTTTTACAGTCAAAGTTATTAATATAAATATAGCTGTTATTGTTGAAATTTTTTCTTCTAAAAACATAGGCATTATTGAAACTAATGCTCCTTGCAAAAACATAACCATAATCAAAATTCTTAACCTACTAGAATTAAGTGCAAAAATAAGCGATAGCAATATTACGGAAAGCATTATATGTGATATTGTAATCATTTTAACCTCCCTAAAATAATTATATTTGCAAAAAAGACTAATGCAAAAGATGTTAATATATATTTAGGAACTTTAGTAAATCTAAATCTTGCCATAATAGATTCTACAATTCCAATAAACAGATATATTAAAGCAACAACTATATAAAATACTATTATGTCTACCCAGAAATTTCTAAAAGAAAACGGAACTATTAATCTTGCTATAAACACTGAATAAAACATAAGTTTCATATTAGCTCCAAGATGTATAAGCCCTAATTCTGGTCCACTATGGTCAAGCACCATAACTTCATGAATCATTGTAAGCTCTAAATGTGTTGCATGGTCATCTACTGGTATTCTTGAATTTTCTGTAAGCAAAATCATAAATAGCGATATGATTATTAACATTAACGAAGCTCCATACATCCCCCATAAATTCATACCATTTGCAATTGATAAACTTTTAGAAAAACTTATAGTTCCAGTTATTTTTTGTATAAATATAAATGTCATAAACAGAGTTAATTCTGCTATAATTGAAAAATAAGCTTCTCTACTAGCTCCCATTCCTTCAAAAGCCGATCCTGTATCAAGTGCTGCTAATATTGTGAAAAATCTTCCTAATGCCATAAGATAAATTATAAAAATCATATCTCCTTTAAATGAAAATATTGAATTTACCCCTCCAAATGGAAAAAACATTAAAACTACTGTTATTACTGAAAATGATATTATTACACTCATTCTAAAAATAAACGTTGTAGTCTCACTATAAACAGAGCTTTTATATTTAAAAAGTTTTATTAAAGTATAATAATTAATAAATATTGAAGGTCCCTTTCTACCTGCAAAGAATGCTTTTACTTTCAATATTATTGCTGCAAATAATGGTGAAATTAAAACAGTTAAAACAAATAATATTATAGATTTCATTTTATTACCACCTCTACTATTAATAACAATACTATTCCTCCTACAATATATAATATGTAGGCATGAAGGTCTCCAGATTGTATCCATCTTAATTTATCCATCACTGCTAAAACTGGTCTTACAATGTATTTCATTATAAAATATTCTGCTATGTCTATTGTTTTAGAATGATATTTACTTTTTTTAGGAAATAATCCTTCAACTTCTATTGTTTTTTCTTCTATTTTTATAAATGGTTTAAAAAAATTAACTATCTCCATTGCATATGAACTACCTGTATATTGCATTTTTGATGTTCCATATTTATATCCACAACCCCAAGTAACACTTTTTTTATTCTTTGAATTTATATAAAATATTTTCCATAAAATATATACTACAATTAATACTCCTAAAAATATCATTGCTCCAAATGTTATTTCAGATGGAATTGTTAATGTTGGCATAACTGCATCTTTTGACACAAACCAAAATGTTTTTACAATATTTGACACTACATTAATAGGTAATGCTGGTAAAATTCCAATTGAAATACACACTAATGCCAATATTTCCATTGGAAGTGTCATTTCCCATTTACTTTCAACAGCTTTTGCTGCTTTTTCATTTCTTGCATTTCCTAAAAATACCACTCCAATCACTTTTGTAAAACAAGCTGCTGCTAATCCGCCTATTATAGCAAGTGACAAAATTACAAATGTAGCAAAAGCAAATGAAACTCCACTTCCACTGTTAATTCCACTAAATCCAGCAAAATATATTAAAAATTCACTTACAAATCCGTTAAATGGTGGTACTCCTGATATAGCTAATGCTCCTACTAAAAATGTTATTCCTGTAATCTTCATATTTTTCATCAAACCACCCATTTGTTCTATAACTTCAAGCTTAGTTTGATGTAAAACAGAACCTGCTCCCATAAATAGCAATGATTTAAACAGTGCATGATTTAATATATGTAATATCCCACCAGCAAATCCAAATATAGCCATTGTACTATTTCCAATAGAAACTCCAACCATTCCAATTCCTAATCCAGTGGTAATTATTCCTATATTCTCAATACTGTGATATGCCAATAATTTTTTCAAATTATGTTGTCCTAAAGCATATACAACTCCTAAAACTCCTGATATTGCTCCAATTATTACTACCATATAACTTATGGAAATCATATTTGTATGTAAAATAAGATACATTTTTATAATTCCATAAATCCCAATTTTTATCATAACTCCTGACATAATTGCAGATACTTGACTTGGTGCCACAGGATGTGCATAAGGCAGCCACACGTGAACAGGAAACAATCCTGCTTTTGAACCAAATCCAATAAATGCTAATATAAATGCAATTAATTTTATGTTATCAGGTATATTTCCAATTGTGTCAAATCCAAAACTTTTTGTATACGCATAAATCAATCCAAATGAAGCAAAAATTGCCATTCCTCCAATGTGAGTAAATACAAAATATACATAACCTGCTTTTCTAACTTTTTCTTTATTATAGTCATAAATAACTAAAAAGAATGCTGATAAAGACATAACTTCCCAAGCAAATGCAAATGTAAGTAAATTATTTGCAATTACTACTAAAATCATAGATACCACTAATATAGAATAAAAAAAGTAATTCCCAGCTACCCTTAATGCTTTTTTTCTATTCTCCATATATGAATACCCATATAAAGCTCCTAACATACCAACAAAGCATATAATCGTTATAAAAAATGCTGATAATGGTGTTACTTTAAATTCCATTGGGAAATGCATTAGTCCACTGTATTTCACTATATCAGGATAGTTCCCTGTTAATAACTCTTTAATAGCTGTAATAACTCCCAATATTGAACCTAATCCAATAAAAAAGACTGCTGTTACTCTCATAAAAGTAAAATTTTTATATAAAACTAATGGCAAACTGCCACCTAATAATATAAAAAAAATTACTACCCAAATAGTGCCCATAACCTCTCCTCCATTTAAAATTAATTTATATTTTTTTTCTTCTTTCCATTATTTCATCCCATTCAACTTTTTTTAATCTTATAAACTCAATAATTTTTTCTTTTGATTGAAGCTCCAGCATATCTAGAAACTCCTTATTACGAGATAAAAAAGATATTTTAGCCAATAATTCTATATGTCTCTCTTTTCTAGCACTCAAAATTAAAAATAATGTATGTATTTTTTTACCATCCAAAGCATTATAATCTATTGGCTTTTTTAAAAAACATACAAAAACTCTCTCATCTTCTATCTCCTCAATAACTTTCTCTTGAGGATGAGGCACTGCTATTCCATTTCCTATTCCTGTAGATATCATCTCTTCTCTTTTTATTAATTCTTCAATTAATTTATCTTTTTTCAAATTTACAGGCAATTTAATAATTCCCACCATATTTTCTATTACCTCTTTTACATCATCTCCTTCTACTTCATAAAACCCACCTTTTCCCAATAAATCTGGCAAATTAATCGGTTCTTCATCTTCTATTTCTTTTTTTCTATTTACCATTTTATTTTCTGAAATCCACCTGTTTATCTCTTCTTCACTAAAACGATATTGCCCATTGATTTTATAAGCAGGTATTTTCCCTGATTTTATCCAACGGTAAATAGTTTTTTCCGATACATTTAAAATCTCCGTAATATCAGCAATTTTTAAGTTCATTTATCATCTCCTGTGCTTATTTTTTATGTGTCCAATGCTAGCTTTATATAAATTGTCTCTATTTTACTCTTAATTTCTATTTTTGTCAACAAATGTCTTTAAATGTCTAATTGTTTTTTTATAATTAGATTAAAAATTTAACCTTAACATATCGAAAATCTTCCTTGCAAAATTACTAATAAAATACTATAATAACTAATAAGAATATTATTATTTTTAATGGCTCTCCAGGAGATGATTATATGAATATTATTTTAGAATTAATTAATAAGAACTTTAGCGACTATTTATGTATCTATGAAATCAAAGATTCATTTTTTTTTAATGGATTGGAAATTGAAGATAGTGAAATTGAAAAAATACTTTTTAAATATACTAAAAATAATAATGAAATTTTTGAAATAACCAATTATACTGATTTCCAATTTTCTAATATAACCTTAAATGAACTTTCAGAAGATTTACAAGATTATATTCAAAACAAAAGAAAACAATATAGTATAAATAATAATTTAGATAATCTCTCTAACAATAACTATTTAGATACAGATTTTCATATAAAAAAGAAACAGCTCAAATTAATATGAGCTGTTTCTTTTTTATATACTCAAATATTTATTAAAATATAATGATTTTAAATAAAACTATATTTTAACTTCTTTTTTAATCTTAAATCCATATTCTGATACATACACTCCAAATAATGTCATTATCCCACAAAAAATAAAAAAATGGCTCCCTGAACCGGATTCGAACCAGTGACAAGGTGGTTAACAGCCACCTGCTCTACCAACTGAGCTATCAGGGAAACCAGTATGTATAAATTAAAGCTTGGCAGGGACCTATCCTCCCAGACCGCTACCAGTCAAGTACTTTCGGCGCATAAAGGCTTAACTACCAGGTTCGAAATGTAAACTGGGTGTACCCCTTTAGCTATACCCACCAAGCTAAATAATAATTGGTTTATGAACGTTTAAAAATAAACTTACGTTATTCTTTAAACAGTTCTTTAATATTCTTTTTTTTAAAAGAGATTCAAAATTGTATAGTAATATTACAAGCAGTTTTAATCAAAGAAACTATTTAAAGGTTAAGACCTCGGCTGATTAGTATTAGTCAGCTAAATGTATCACTACACTTACACCCCTAACCTATCGACCTCCTAGTCTCGAAGGTGCCTTACTAGCATACGCTATAGGAATACTTATCTTAAAGGGGGCTTCACGCTTAGATGCTTTCAGCGTTTATCCTGTCCAAACGTAACTACCCAGCTATGCTACTGGCGTAACAACTGGTACATCAGCGGTTTGTCCATCCCGGTCCTCTCGTACTAAGGACAGCTCTCTTCAATATTCCTGCGCCCGCAGCGGATAGGGACCAAACTGTCTCACGACGTTTTGAACCCAGCTCACGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGGACCTTCTCCAGCCCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACTCTGCCGTCGATATGGACTCTCGGGCAGAATTAGCCTGTTATCCCCAGGGTAGCTTTTATCCGTTGAGCGATGGCCTTTCCATTCAGAACCACCGGATCACTAAGCCCGTCTTTCGACCCTGCTCGACATGTCTGTCTCACAGTCAAGCTCCCTTATGCCTTTACACTCTTTGGCTGCTTTCCATACAGCCTGAGGGAACCTTTGGGCGCCTCCGTTACCTTTTAGGAGGCGACCGCCCCAGTCAAACTACCCACCTAGCACTGTCTCCATCGTTACACACGACAGATTAGAATCTCAATATCACATGGTTGGTATTCCAACAACGACTCATATACAACTGACGTCATATAATCAATGTCTCCCAACTATCCTATACATATAATACCAAAACCCAATACCAAGCTATAGTAAAGCTCCATGGGGTCTTTCCGTCCTGCTGCGGGTAACCGGTATCTTCACCGGTAATACAACTTCACCAGGCCCACCGTCAAGACAGCGTCCGGATCATTACACCTTTCGTGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTCACCGGGGCTTCAATTCGGAGCTCTCACTCCTCCTCTTAACCTTCCGGCACTGGGCAGGTGTCAGCCCATATACGTCGCCTTCCAGCTTAGCATAGACCTGTGTTTTTGGTAAACAGTTGCCCGGACCTTTTCACTGCGGCCTATTTCTGCTCCATCCGCTTAGAATTTCACATACTTTAGGCACCCCTTCTCCCGAAGTTACGGGGCCATTTTGCAGAGTTCCTTAACGATGGTTCGCCTGCGCGCCTTGGGTTTCTCACCCCGCTCACCTGTGTCGGTTTGCAGTACGGGCGCTAACAACTAGTTTAGAAGCTTTTCTCGACAGCATGGGATTTAATACTTCGTTCCTAATGGAACTCCTCATCACACCTCAGATCTATCCATACGGATTTTCCTATACAGACATCCTACATGCTTATACTTACTATTCCGTCAGTAAGCTATTATACCCTTCTGTGTCCCTCCATCACTATCAGTTATTAGCGGTACAGGAATATTAACCTGTTTTCCTTTCGCCTACGCTTCTTAGCCTCAACTTAGGACCCGACTTACCCAGGGAGGACGAGCCTTCCCCTGGAAACCTTGAGCTTTCGGCGGGTAGGATTCTCACCTACCTTCTCGCTACTCATTCCTGCATTCTCACTTCTGATACCTCCAGAAAACCTTATCAGTTCTCCTTCGCCGGCCTACAGAACGCTCTCCTACCAACATACTTACGCATGTTCCACAGCTTCGGTGAATATCTTAGCCCCGTTACATTGTCGGCGCATCGACTCTCGACCAGTGAGCTATTACGCACTCTTTAAAGGAATGGCTGCTTCTGAGCCAACCTCCTGGTTGTTTCTGAATCGACACATCCTTTCCCACTTAGATATTACTTTGGGACCTTAGCTGGTGGTCTGGGCTGTTTCCCTCTCGACTATGAATCTTATTACCCATAGTCTCACTCCTAATCTATCATCTACGGCATTCGGAGTTTGAATGTGTTCAGTAAGCTATACGCCCCCTACGACAATCAGTGCTCTACCTCCGCAGATTACTAATTAAGGCTGCACCTAAATGCATTTCGGAGAGAACGAGCTATCTCTTGGTTCGATTGGCTTTTCACCCCTATACCTACCTCATCCCCCGGCTTTTCAACGACGGTGGGTTCGGTCCTCCACTGTGTCTTACCACAGCTTCAACCTGGACAGGCATAGATCACCAAGTTTCGCGTCTACCGCTAGCGACTCGTCGCCCTATTCAGACTCGGTTTCCCTTCGGCTCCGTTTCCTTAACCTCGCCACTAACGGTAACTCGCAGGATCATTCTCCAAAAGGCACGCCGTCACATTCCTAAAAATGCTCCGACCGCTTGTAAGCACACGGTTTCAGGTTCTATTTCACTCCCTTAACAAGGGTCCTTTTCACCTTTCCCTCACGGTACTATTCACTATCGGTTAATAAGAGTATTTAGCCTTACGTGATCTGGTCCACGCTGATTCACACCAAATTTCTCGTGTTCGGTGCTACTTGGGTGCCGATTCTTTACTTATGCATACAGTTCATCTACTGGACTCTCACCATCTTCGGTTAGCTTTCCCAAACTATTCGACTTTATACACATCCATAAATAGATACCTTGCAGTTCTCTCGGATTCGGTCCCGCTACCCCAATACAGCAACGGCTGCATCCTTTAACACTATATTGGTTTAGGCTCTTTCCCGTTCGCTCGCCGCTACTTAGGAAATCGTTTTTACTTTCTTTTCCTCGGGTTACTTAGATGTTTCAGTTCACCCACTTACCTCTTTCGTATACATCCTTCAAATGTATAGGTTTGCCCATTCGGATATATAGGGATCAACGCTCGTTTGCAGCTCCTCCTACCTTTTCGCAGCTTACCACGTCCTTCTTCGGCTCTTATTACCTAGGCATCCACCGTGCGCCCTTAATATCTTAACCTTATTTTTCTTCTTTTCTTCTGCTTATTACTTAAAAACGAATTAAAAATATAAAAATATTCTTCAAACGTTTTTTACTACTATACAATTTCCAATGTCCTTTTTATGGTGGAGCTAAGCGGACTCGAACCGCTGACCCCCGCCTTGCAAGGGCGGTGCTCTCCCAACTGAGCTATAGCCCCATAAATGACAAAATCCAATTAAACTATGGTGGGCCTAACTGGACTTGAACCAGTGACCTCACGCTTATCAGGCGTGCGCTCTAACCAAAACTGAGCTATAGGCCCCTAGGATATAAACCTAATAGAGAGAAGCTATTATACTCCTTAGAAAGGAGGTGATCCAGCCACACCTTCCGGTACGGCTACCTTGTTACGACTTCACCCCAATCGCTCACCACACCTTAGGAACCTCCCTCCCTTACGGGTTAGGCCAGCTACTTCAGGTGCAACAAACTCTCGTGGTGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCGACATTGCTGATTCGCGATTACTAGTGATTCCAACTTCATGCAGTCGAGTTGCAGACTGCAATCCGAACTACGAAATGCTTTCTGAGTTTCGCTTCAGGTCACCCTTTCGCTGCCCTCTGTACATCCCATTGTAGCACGTGTGTAGCCCAGGTCATAAGGGGCATGATGACTTGACGTCATCCCCACCTTCCTCCTACTCGTCGTAGGCTGTCTTGCTAGAGTCCCCAACTTAATGATGGTAACTAACAATAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACAGCCATGCACCACCTGTCTATGAGTTCCTCAAAGAGGCACTTCCATATCTCTACAGAATTCTCACGATGTCAAGACCTGGTAAGGTTCCTCGCGTTGCGTCGAATTAAACCACATGCTCCACCACTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCATTCTTGCGAACGTACTCCCCAGGCGGGATACTTATCGCGTTAGCTTCGGCACAGAGGTTCGACCCCCCACACCCAGTATCCATCGTTTACAGCTAGGACTACCAGGGTATCTAATCCTGTTCGCTCCCCTAGCTTTCGCACTTCAGCGTCAGTATCGGTCCAGAGAGCTACCTTCGTCATCGGCATTCCTACAAATATCTACGCATTCCACCGCTACACTTGTAGTTCCGCCCTCCTCTCCCGTACTCTAGCTTATTAGTTTCAAAGGCAAGGACATGGTTGAGCCATGAATTTTCACCTCTGACTTTATAGGCCGCCTAGATGCCCTTTACGCCCAGTGATTCCGGATAACGCTTGCCACTTACGTCTTACCGCGGCTGCTGGCACGTAATTAGCCGTGGCTTCTTCTGCAGGTACCGTCACTTGCTTCTTCCCTGCTGAAAGAACTTTACAACCCGAAGGCCTTCATCATTCACGCGGAATTGCTGGATCAGGCTCTCGCCCATTGTCCAATATTCCCCACTGCTGCCTCCCGTAGGAGTAAGGACCGTGTCTCAGTTCCCTTGTGGCCGTTCACCCTCTCAGGCCGGCTACCTATCGTCGCCTTGGTAAGCCATTACCTCACCAACTAGCTAATAGGACGCGAACCCCTCCATTAGCGCATATAGCATTTACTTATCAATAGATGCCTATCAATAAGATTATGCGGTTTTAGCTCCCGTTTCCAGAAGTTATCCCCCTCTAATGGGCAGGTTATTCACGCGTTACTCACCCGTCCGCCACCTTACTCAGCTCCGAAGAGCCTTTGTGGTAGACTTGCATGTGTTAAGCATTCCGCCAGCGTTCATCCTGAGCCAGGATCAAACTCTTCAATCTATATTTTTTTACACCTTTTTGTCTTTTTCTTGGTTTGCTTTACTTCTCTCTATTAAGTTTTCAATGTCCTTTGCCCTCTCTCGAGGACGAGATTAATATTATCACACTTATCACATTTTGTCAAACATTTTTTTGCTTTTTTTTAATTTTTTTTTTATAAATCTTATAATCCCTTTAAAACAAAGGCTTACACGAAAATAAATTTATGATTTTATTTTTGTGCAAGCCTATTTTTTTTTAATTACTTTTAAATAAATTTTAACTTTTTTCAATTTTATCAAAAATATAATCCACTTTCCACGCTACTACTCTTATTATATCATCATTTTCTATATCAATATCTGCTTCTTTTAATATATTTATAAAATCATCAATTTGCTTTTTTTCTTTAACTAAAGCGGTTATTAATATTACTTTTTTAGATTTATCTTCTTCCGTTTTAAAAAATCCTTTGAATATTGGCATTTCATCTCTTAGTATACTATCTAAATTATTTCCTTCTACATAAGAAGCTTTATCTATTTCTACACTTTCTAATGCCAAAAATATATCATCTTTATAATCTATATCTATTATTTTTAAAAACATAAAATACATATTATACCTCCCTATTCTTTTATTTCACCAGATTTTTTTAATACCAATTTTGTTAAAAACGGTCCAATCACTTCTGTTATCATTGTTGTAAATAATAATATGTTTATAACTACTAAAGCGATATCTTTACCTTTATCTCCATAAAGGGGTATGCTAAAGTTTTTCTTTATAGACAACGCTAACGCTAATGCTACTCCAACTTGAGGCAATAATGCAAAGCCTATATATTTTTTCACTTTATCTGTTGCTCCTCCAATAACCGCTCCAAGGCTGGCTCCTCCTATCTTTCCTATACTTCTAGCAAAAAAATAAAGCATTCCAATTCCACCTATTTGCTTTACTACTCTTATATCTAAATGCGCTCCTCCTAAAATAAAAAATGCTGCTAAAAAAATAGGAACAAAAAAATCGACTATTTTACCACTTCTTTTTTCTATTATTGGTGATAAATTTGTTATAAAAGCTGAAAAAATCATTATTGTTAAAAGTTCCGATATATGAAACTGTTCTGTAACTCCTAATAACATTAGTATAAATGCTGTTATCATTAACTCTATTGTATCTTCGTTTCTTATGTTCTTCATAATAAAAATATAGACATATGCTGCTACAATTCCAATAACAGCTGATAATCCAATGGATATTAAAGCATTAATTAATATAGTGACGCTACTAATGTGTTCCCCTAGTATCATTCCTTTGGCAAAACTAGATGCAAATACATATATAATTAATGCTACTGCATCGTCTATTCCTACCACTGCTATAATTGTTGATGTAAGGCTTCCTTTTGCCTTATACTGCCTTATTACAGCTACTGTCGCTGCTGGTGCTGTCGCTGCAGCAACAGACCCTAGTAATAGTGCTTTATACATTTCTCCTTTAAATACAAATGCTAAAGTAAAAAAAACTATTATAAAAGCTCCAAAACTTTCAAAAAAAACTATTGCAGTTATTGATTTTCCAAGTTTTTTTATTGTAGACAGTTTCAATTCAGCTCCAATTGTAAATGCTATTATTCCTAAAGCTATAGTTGATAAATATCCTAATTTATCAACTACATCATTTGTTAATATTTTTAATATTGATTCCCCTAACAACACCCCTACAATTACATAGCCTGTAACTTCTGGTATTTTAAATTTTTGAGTAAATTTCTTTGTCAAAAATGCTGCAAAAAACAGCATTCCTAAATAAAATAAAACATTTATTTCTTTCATTACCCCTCCTAAAATTCTTTGAATATATCAACAATATCTTCCGCTTTTTTAGAATTAAATAGTTTTTCTCTTCTACTTTCATTTTTTACAAGTAACATTAATTTAGATATTATTTTTAAATATTTTTTTTGTTTTCCTTCTGGTCCCCCAATTAAAAATACCACTCCAACTGGCTTTCTATCTATTGAATCCCAATCTAATCCTTGTTTTGCTACTCCCACAATTATAAAAAATTCATCTATATCATCTAGTTTAGCATGTGGCATTGCTATTCCTAATCCTATTCCTGTACTAACTATATCTTCTCTTTCAAAAATTGCATTTTTAAATTCTTCTATATCTTTTATATGTCCTTTCTCTTTTGCTTTTGCTATCATTACTTCCAACGTATCCTTGACACCTGTTGTTTCTAAAAATGTTACATCATCCTCGTTTATCAATTCATGTAATTTCACTTTTACCCCTCCTCCAAAATTAACCGATTTTAATTTTTCCATTATATCATCTATGCCATCATTTTGAAAATTAACTTCTGTATTTTCTATCTCTTTTCCTATTTCTATATCCAAAGCTCCGGATTTTTTCATTGCTAATATTTGAGACGGATATACGCTTCTATGCCCAGAAATTAAAAAACTAATTACACATGCAACTGCAGCATATGGAGAAATTTCTACTCCAAACAGTTCTATTGCCATTATACTGGCTGCTATTGGAGCATTCGTTGTTCCCGCTAATACTGCTACAAATCCAATAGCAGAAAACAGTGCTATTGGCTCATTTATTAATTGGGCAAATAAATTCCCTGATGTAGTTCCTATATAAAATATAGGTGTAACAATACCTCCACTTCCTCCAAATCCAAGACTTAATGCTGTAAATATCATTTTAAAAAATGAGGTATACCATGGTAAAATTTCGCCTGTCAAACTTCTTTTTATTGTATCTATTCCTAGTCCTAAATAACTTTCAGAACTAACAAATACTAACCCTATTATTAATATTCCTCCTAAAAAACCTTTTATGCTTTCATCTAGTTTTATTTTTTCTATATTCTTCTCTAAAAATTTTAATATTTCTATAAACAAAAATGATATTACTCCAAAAAATATGCCAGCTAAAATTACTTTCAAATACATAGTTTCACTAAAATTTGTAATACTAGAAAAATCTATTTTAAAATACGAATATTTTATTCCTAGTGACCTTGCCACTTGATACGCCATTACTCCAGATATAAATGATGGTAACAATACATCATATAAAATTGTTCCTATAAATAAGACTTCTACTCCAAAAATTGCACCTGCTATTGGAGTTCCAAAAACTGCGGCAAATCCTCCACTAATTCCACATATAACAAATTTTTTTCTATCATTCTCTGAAAACTTAAATAAATCTGCTATCCAAGAAGCTGTTCCTCCACCTATTTGCGCTCCAGGTCCTTCTTTTCCAACTGAACCACCTGACATAATTGTCAATACTGTAGCCACTAACTTTACCGGTATTACTGAAAAATTTATTTTTCCATTATTTTTATGTACCGCTTCTATTACTTTTTCTGTTCCGTGTCCTTTTGCATCAGGAGCAAAATATTTTACCAATAAAATACTTATTACAATTGCAAAAGGAAGAAAATAATAATATTTAACAGGTAATACTCCTCTATATTCTATACTCTTATCTAAAATCATTAAAAATATTGTAGTTAACCCTCCAACAACAACACCTATAATTGTAGCTAAAAAAGCCCATTTTAAAACACTTAGAAACATTACTGTTCCTTCTACCATTTTTTTCTTCATTATTTATTATCCCTTTCTCCAGTATATCATTCCAAAAGATTGTTTTTCTCAACTATCGCCTTAGTTTCTTAGCAAAACTTAAAATAGAAAAAAGATTCTTTTTTCTATTAGCTCTCAAATAAACAAAGGTTGTACTCTTTTTTAATAAATATGAAAAACTAATTAATCACGTTCCACCAATAATTATAATAGCTCTCAAATTTAGCATAATTCTCCTCCCTATAATTGTATTTTTATATTTTCAACACCTCTGTCTTTTATATCTCCAGAAGCGATTTTTTTCAATTGTTCTATTTGCTTTTCATTTCCCATTACTAAAAGTTCATCCCCATATTCTAAAATTGTCATTGAAAGTGGGTTTAATATCATTTTCTTTTCTTTTTTCATTCCAATTACTATTAAATCAGTTTTTTGTGGTATTCTTGCATCTTTTAATAATATATTATCTAAATCACTATCTTTACTTATTTTTATTAACTCTAATCTTAAATCTTCTCCGCCTATACTTGTTACAACATCTAAAAAATTAACTACTCCCGGCTTTAATGCTGTACTTATAATTCTTTGTGCTGCTATTTCTACTGGCGATATTATAAAATCAGCCCCTGCCTTTTTTAATTTTCTTTCATTATTTTGTTCTACTGCTCTAACAATTACTTTTAATTTTTTATTTAATGATTTTGCTGTTAAACTTAAGAATACATTTTCAGCATCTGTAGAAAGTACAGCTATTAAGGTTTTAGCCTTTTCTATACCTGCTTCTATTAACACTTCATCTTTTGTAGAATCATCTTTTATAAATAACACTTTATCTTTGTATTTTGTTTCTAATTCTAAAATTCCTTCATCTTCATTCTCTATTACAACAAACTCTTTACCTAATTTCAGGAATTCTTCTACAATTTTTCTACCTGTTTTCCCATATCCACAAATTATATAATGATTTTTCAATTTTGATATCTTTTTTTTCATTTTTACCCCTTTTAAATAATTTTTCAATTCTCCTTCTATAAAAAATGAGGTTATTGAACTTAATCCATAAAGAACTAATGTAACTCCACTTAAAATTAGAAACATTGTAAAAATTTTACCTGTATTAGATAATTTATGAACCTCTTCAAATCCAACAGTGCTAATAGTTATTACAGTCATATAAAGAGCATCAAATAAACTATATCCCTCTATCACAACATATCCTAAAACTCCTAAAATAAATATTAATACCAATAATTCTATAAAAATTAATATTTTTTTTAATTCTCTATCCAAATTTTCCCCCTAAATAAAAAATAAGATACGCTTCATCTAATAAATAACATAATAACCATATCTTCTTTTCTAACATACACAATTTCCAAATCATCCCTAAGGATAAAACCGGAATATAAATCCCGGTTTTATATTTTTTTTAATATTTTTCCTGTTTTTTTATCTAAATTCACTATTATATTTCCTTGAGGCCCAGTTGCTAACTTTTCTGAATTAAGCAAATCTATAAATTTTTCATCTTGAAAATCTGTTGGTATTACTATATTTTCTTGGTTTTCAAAACTATTATTCAAAATAATTAGAAAATGATTTTCATCATCAAATCTAGAATATGAAATTATATCTTTTTCATTATCCCAATATATTTCTTTAAATTCCCCATATATTAAAGTCGAATTTTCTTTTCTAATCTTAATTATTTTTTTATACCAAGAAAAAAATTCTTTGTCTGGTTTCACTTTATAATTTTCTTTGCTTTTTACTCCTAAAGTTCCATCTGTTTCATTTTCATAATCAAATTCTTCCCAAAGCATTGGTTTCCTACAATATGGGTCAGTTGCTCCCCACATACCCACTTCATCGCCATAATAGAGCATTGGAGCACCTATATATGTCATTTGAAATATTGAGATTAACTTTAATATATCTTTTGGTTTTATTTCTGATTTTTTCCAATTTATTGTTGTATTTTTATGTGAATTATCTGTTAAATCTGGTCTTTTTGTGTTGTATCCTTTATCTAGTTGTTTTCCTTCTTCTAAGTCTCTGCCTAATTTATCATTTACTATTCTTGATAATAACCTATCAGTATCGTGTGAGCCGTTTAAATTTTGAGATACTTGAAGAGACTGTATTGGATACCAGTATCTTTTTTCTTTTAATTCATTAAAAAACTGTTCTGCTGTTAATTTATATGAAGCATTGAATTCTTTACCTTGATTTATAAAATATCCAATAGTTGATTTTAGCCATTCATAATTCATTACAGTGTCGTATTTTACTCCATCATTTATATCAGAACGAGCATCTCCCCAAAGTTCAGCAGTTATATATGCATCTTTTTTTGTGTCTTTTACTACTTTTCTCCATAATTGCCAAAAATATTGATTTTCTACACAATTTGGAACATCTAGTCTAAAACCATCTATTCCATCATCTTCCATCCAATTTTCAGAATTTTTTCCATCAGGCCCTAACAACCACTTCTTTGTTATATTAAAAATATATTCCATATACTCTTTATTGTATGTATTAAATTCTGGTAAATCATTAAATCCTGCCCAACCTGAATAATGCACACTATTTTTATTGTGTAATAAAGTTTTATATGCTTCTTCTTCTGACATATCATCTTTTATCTCTTTAAATTTTGAAAAATCATGAAATTTATACCATTTTGCATATTTAGAATTAACTCCCTCTGCCATTGCTAATTCAAAACTCCAATGATTTTTCCCAGTATGATTAAACACTCCATCAAATATAACTCTTATTCCATTTTTATGCAATTCTTTTATTAAATCAACTGCTATTAAATCTGATTCTGTCCATACCCAAGTTTCTGGATTTTCTGTTTCAAAATATCCATTTTTACCCTTGTTTTCTCCCTGGATTTTTACTCTTAAAAGTTTTAATTCACTCTCTTTTTCATATCCATTTGTTAATATATCTAAATAAGTTTTATTTCCATATCTGTTTTCTTTTGACACTTTTATATTATAATCTTTTCCTGTCATTTTTATAGTTCCAAAATCTGGTGAAACATGTCTAAAATCAGATGTTCCATATTTATGATTTGAATCTGCAAAAAATATTGGATTTAACCAAATTGCATTTACTCCTAGCTCTTTTAAATATGGTATTTTTTCTTTTATACCTTGTAAATCGCCACCATACATTCTTGAATATTTCACAGAGTATCCAACATCTTTTTCCCTTTTTTCTTCCCATTCTAATTTTGTTTCAAAGTCTGAAGTCCAATTATTTAATTTAAATTCTCCAAATTTATCTGTATATATTCCCCATTTATATTTTTCTATATCATCACTTCTTTTATTTGGAGCAATAAAATTTTCTGGTCCAAATTCATTATACAATGGGTCATTTTCTTTATTTCCGTTATAGAATCTTTCAGGAAAAATATTATACCAAATTGCTTCTTTTGCCCATTTAGGTACGTCAAAAATTGGAAATTCTCCTGTGGCATAATCAACTTCAAAAAAATCTATTGTATCATATACTAATCCTTTTGGAGTATAATAAGCAATTTTATTTCCATCTTTTAATTCAAAATAGTATTTGAATTTTTCAGAATTAATTCTAAATTTAATTATTCTTTTAAAGTAATCAAATTGATACCCTTTACTGTTTATTCTTTCTAATTCATATACCTCTTCTATACCATCTTCTTCTAATAAGTGCAGAAATATTTTTTCTACATCATTTTCTTGTGTTCTTATACTAAATTCTATATCATCCTCTACTTTATTTAAATAATCTAATTTATGCGGAATATGAACTATTGCTTTTATTTTATTATTCTTATCAATTGCATCATACACAAATTTTCCATTTCCTATTTCACCTTTTGGAAATAAACTACCTATTTCTCCAACTATTAATTTTAGATTATTGTCAAATGGAACCCAATCTCCATCTATTACTAATTTGTATTCATAAACTCCTTCATCTAATGCAAGATAAGTTTCAAATATAGAATTAGATATTTTTGTTAAAACAGTTGTATGAATATTCCAGCCATTAAAATTTGATGGCATTTCTACTTTTTTAGGATTCTCATATCCATATCTTTTTGTATCTATTACAAACTTAGTAAACCTCATTTTTTTTAAAGAAACTTTACTGTTTTTTATATCAAATATAATTAATATATCATCGCCTGATTTTATTCCACCAACAGGCTTTTTTTGCTCCAACTTTGAGGTATATGCTTCAAAAATTTTAGAAAATGGTGCTGTGTGCGAAAAAGTAATATTACATTTTTCGTTAGATTCTTTTTTTATAATTTCAAAACTGTATGCTCCATCTGTTTCTACATTATGCCATTTTCCTATATAAATTCCATTATTTATTTTTTCTAAATTTATCTCTTTATATAATTTTTTTTCTGATGTAAAAACCCTCAAAATCCTATTCATTTTATAATTATATCTCCTTTAATAAATTAACTAATTCTATTGCTGTCATAGCTGCATCTACACCTTTATTTCCTGCTTTTGTTCCTGCTCTTTCTATTGCTTGTTCTATAGTATCTGTAGTTAATACTCCAAATATTATAGGAACTCCTGTTTTTAATCCTACACTTGCAACTCCTTTTGATACTTCTGAAGAAACAAAGTCAAAATGTGGTGTAGCACCTCTTATTACAGCTCCCAATGTTATAACAGCATGATATTTTGTAGATTCTGCCATTTTTTGAGCAACTAAAGGTATTTCAAATGCTCCTGGAACCCAAACTATATCTATTGTTTCTTCTGATACTCCATGTCTTTTTAATGTGTCTAATGCTCCTGATAAAAGTTTTGATGTTATAAATTCATTAAATCTAGCTACCACTATTCCTATTTTTATATTTCCACCTGTTTCAAATAAATTTCCTTCAATTATTCTCATTTTTTATTCCTCCTCATTATGTTTTGTGTTTTTGTATAAGCAGTTAATTAATTCTAAAAAACAAATAATAAACTATCCTAAGGCAAATATCCTATTAAATTTAAACCTTCCATCTCATTAAATCCAGCCATAATATTAAAATTTTGTATTGCTTGTCCTGAAGCTCCTTTTGTTATATTATCTATTGCTGAAGTTACTATTATTCTGTTTGTTCTTTTATCCAATTTTACTGCTATATCTATAAAATTGCTTCCTCTTACATTTTTAGTCTGTACTACTTCTACTATTCTTACAAACTTTTCATTTTTATAAAAAGTTTTGTATAGTTCAACTATCTCTTCTTCAGTTTGTTCTGATATTAAATTTGAATATATTGTACTTAACATCCCTCTTGTCATGGGTATTAAATGTGGTGTGAAACTTATTATTATATCTTTTTTTGCTAATTTTGATAACTCTTGCTCAATTTCAGGAGTATGTCTATGTGATGCTATTCCATAAGCTTTAAAATTTTCATTTGTTTCTGAAAAATGCGTTGTAGCTGTACATTTTTTCCCTGCTCCAGAAACTCCTGATTTTGAATCAGATATTATTGTATTTATATCTATTAATTTTTCTGATAACAGTGGAGCTAGTCCCAATATCACTGTTGTTGGATAACAACCTGGATTGGCTACTAATCTTGCTTTTTTTATCTTTTCTCTATTTAATTCTGGTAATCCATATACAGCTTCTTCTAAATATTCTTTTGCCACATGATTTTCTTTATACCACTGCTCATAAACTTCAAAATCATCTATTCTAAAATCTGCGCTTAAATCTATAACCTTTTTTCCCATTTTTAATAGCATTGGAACATATTCCATTGCTGCTTTATGTGGCACAGCTAAAAATATATACTCACTATCTTTTAATTCAACTTCTAAATTTGAAACTCCTATAAACTCTTTTTCAAATATATTTTTTAAATTTTGGAAAAGTTCACTTACTTTTTTTCCTTTATTACTTTCTGAAACTATTTTGTCAATTTCTACTTTTGGATGATTTAATAATATTCTTATTAATTCAATTCCTGTATATCCTGATCCACCAACTATCGAAACTTTCATATTTATTTTTCCTTTCTAATTTTTTAAAACTCTACAATTGTATTTTTCCCTAAAATTTTTGCTTTATACATTCTTTGTTCTAATAATATTTTCATTTCTCTTATTGTTTTTACACTGTCAATTGGGATAGCAATTACTCCTGCACTAAAAGTTAATTTCACTTTATCATTTTTTACATTAAATTCTATATTAGAAAACTCATCTTTTATATTTTCTAATATCTCTTTTGAAATATATTTCCCTCTATTTTCTAATATAATTATAAAGTTATTTCCTCCATACCTTCCTATAAAATCTTTTTTTTCTAACTTACTTTTTATAAACTTAACAGCCTTAACTAATACAATATCTCCATTTAGACTTCCATAAAGTTCATTTATTTTTTTAAAATTATCTAAATCCAATTGAATTATCGTATAAAGAATCTGCTTTTCTTTACTATCTGCTAATACTTTTTTTATTTTTTTATCCACATAATTTTTAGATGGTATATCTAGCAAATCATCATATAGACTTTTATTATAATAATTTAAATTTGAAATCGCTAATCCTAATACAGTTCCATAATTTCCTAAATTTTCTACATCTCGTTTAGTATAATTTTTAATATTATCCTCTATACTTATTATTCCAATAACCTCATCTCCACTTTTTATTGGAACTGATATAAATCTATTTAAAGAATCAATATAATTATTAAATCTTTTATCTCTTGAAGCTATATTACTATAAATATTATTTCCATTTAAAATGTAATTCAAAAGGGAGCTTTCATTTTTTAAATTTTTTTCTAACAATTCCTTATTGATATTATTTTCTGTTGAAATAATCTTTTGTATAACTTTATCTTTTTTGATTAAAATTATACTACAATTTTTAGATTCAAATTTATCTTTTGTATATTTTACAATCTCATCTAAAAATTTATCAAGATTATCTCTTTCATAAGAAATTTCCATTATATTTTTATAAAGTCTAGAAACTAATATCTCTTTTTTTAATTTACTAAATATAAACCCCATAAGTAAAGTATATATAGAGAAAAATATTTGGAAAATTCCTATTAATATAACCTCGTGATTAAAACCATATTTTTTTAAATTTTCTAAAAAAAAGTATGTAATTGTAAAATTTAAAAATAGTGTTGTAAATATGGATAAATCAAATTCAAAATAACTTATTATTGTAATTGGAATTAAAAATAGACTCATCAAATAAACTATTGGAATATTATATATGATTTTGACAAATAACATTATTAAAATCACAACAAAATTTATTATTATTATACTATTTTCCTTTTTCATATCATCACCTATTTTTTCTCTCTTTTTCTTAACTCCTCCTCAACTTCTGAAGGTTTAATATCAAAATATGCTAACAGTACCAATGAATGGTACACAAGGTCCGACATTTCATAAATTACCTCTGCTTTATCTTCATTTTTAGCACCTATTATCACTTCTGCTGATTCTTCGCCTACTTTTTTTAATATTTTATCTAATCCTTGTTCAAACAAATAAGTAGTATATGATCCTTCTACTGGATTTGATTTTCTATTTATTAATAAACTATATAAAGCGTTTACAACACTCTCTTTTTCTACTTTTTCAAATTCTTTTAATTTTCTATAAAAACAGCTTCTATTTCCTGTATGACAAGCTACATTTCCTACTTGTTCAACTTTTATCAAAAGTGTATCTCCATCACAATCATAAAACATCTCTTTTACATTTTGAATATGTCCTGATGTTTCTCCTTTTACCCATAATTTTTGCCTACTTCTACTAAAATAAGTAGCTTTTCCTGTTTCTAATGTTAATTTTAACGATTCTTTATTCATATACGCCATCATAAGTACTTCGTTGTCTTTATAATCCTGCACTATTGTAGGTATAAGACCTTTTTCATCAAATTTTAATTCTTCCCAATTTATCATATTAAAACCTCCTAAAATTATTTATAATTTAATTTATGATTTAACTTATAATCTAACTTCTATCCCTTTTTCTTTTAAATATTGTTTTGCTTCTTTTATTGTATATTCTTTAAAATGAAATATTGATGCTGCAAGTGCTGCATCAGCTTTTCCTAATGTAAATCCTTCATATATATGTTCTAAATTTCCCACTCCACCTGATGCTATTACTGGTATATTTACACTTTCAGATATCATTTTAGTAAGTTCTAAGTCATATCCATCTTTAGTCCCATCTTTATCCATAGATGTAAGTAGTATCTCACCTGCGCCTAATTTTTCTACTGTTTTTGCCCATTCTAATACGTTTATTCCTGTTGGTGTTCTGCCACCATGTAAAAATATTTCCCAAAATTCTCCATTATTTTTAGCATCCATTGCTACAACTATACATTGACTTCCAAAAATTTTTGCTCCTTCTGATATCAAATCAGGAGTATTTACTGCAGCTGTATTTATAGCTATTTTATCTGCTCCAGCACTTATTATTGCTCTTATATCATCTACTGTTTTTATTCCTCCGCCAACTGTAAATGGAATAAAGACTGCTTCTGCTACTTTTTTTACCATCTCTACAACTGTTTTTCTCCTGTCAGATGAAGCTGTTATATCTAAAAATACTAATTCGTCTGCTCCTTCACTATTATATATCTTTGCTATTTCAACTGGATCCCCTGCATCTTTTAATCCTAAAAAATTTATACCTTTTACAACTCTTCCATCTTTCACATCAAGACACGGAATTATTCTTTTGGCTAACATTTTTACCCATCTCCTAACTTTAAAAATATGTTAATAAATATACTGAAAATATTGAACTTCTTATTAAAACATTTATAACTATACTTTTATTATATTTTATATAAATATGTGAAAATGCAATACTCAATCCAAATAGTAGTAAAGAAGCTGGAATTAATCTATATATCATATCTGTCGTTAGCTCTGGAACAAGAAATACTTTAAGTGTAAATAAAATAGATGTTAAAAAATATGCTAATCTATAATTAATTCCATTTTTTATTAAATCTTCTAATAATAATTTTCTAAAAAAAAGTTCTTCGCCTACAGAATAAAAAACAGACATAATTACAATGCCAATAATAACCTTTATATTTCCAGTTATATAAATTTTAAATCCAATTAAATTTTGATAAGCTATATAATTTATAATAAAAAATCCACCTGCCAATATTCCCCTAAATATTTGTTGAGAAAACATCGTTAAGATTTTTAAATTTATATTTTTTAATTTTTCTAAATTAACAATAATTATTGGAATAATATAGAATAATAAAATTAGTAAATTTACATTCCCATAAGAATTAAAATATTGTAACTCTCTATTATATATAAATCCATTAAAAATATTTTCTAATATTAACATCATTAATAAAACAACTAATATACTAAAGCTTATTTGTAATCTTTTTTCTTTTTTGGAATAAAAAGCGTATATTAAATAATACCCACCGAAAACAAAAACATCTATAAAACTATTTTTTAAATATATATTATCTTTAAAAAAAAATCTAATTAATCCTTCAATTCCAACTATAACAAAAGCAAAAAATAATATCATAAAATTTTCTTTATTAAAAAAGCTTTTTAAATAAAGTAATTTATTATTTTTTTTTAATATTAAACTTTCTATATTCATAATAAAAGCTCCTTTTTTTTAACAGCTTAAAAACTCTTCATCTATTTTATAATAAAATTTTAGAACAATATTTTTTAAACATTCTTTAGGAATGGCTTAAAAATAACATTCCTATTTTGTTTTAAAATACGCAGTGATTCAAGCGTTTTTATAACAAAATTTTAAACATTCTTTAATACTTTTTTATAAATACTTTTTAATTTTTCTCCTATTATTTTTAAATCTCTTTCTTCTGCTGTTTTTCTTCCATTTTCAACTATATTTTTTATCTTATCTTCATCTATCTCACTTATTATTTTTATAAATTCATCTATATTTTTACCTTTAAAAGCATTTTTATTATTATTTAACCATTTTTCATATACAGGAATATCTCTTACAATTACAGGTGTTTTCATTGATAATGCTTCTAATACTACGATTCCTTCATTTTCTTCATATGTAGGAAAAAAGAAAGCTTTTGCTTCTGAATAAGCACCTAAAATTATTTCATTTGAAACATATCCTGGAAACTTCACATTTTCAGGTGGATTTTTCATTAATTTCTGTACATCTCTTGGTAAAAGTGATGCCATTTTAGCTCCAAACCATATAAATTGATAATCTGGTAATTTTTTTGCCACTTCACAAAAATCAAATATCCCTTTTCTTCTAAATGGCAACCCTACACATATAATAAGCGGTTTATTTAATGGATATTCTTCTTTAAACTTATCTGCTAATTCTCTATTTTTTATAAATTTGTTTGTATCCACTCCATTTGATACTACATCTATATTTTTATCTATACCATAACTTTTTATTAAATTTTTTGTATATTCACTTGGAGATATTAAAGAATCTGCTTGTGAATATAATTTTATTAATCTTTTTTTTATAAAAGGTGATATCATATTACTTAATACAAAGCTATTTCTAAAATCTTCAAATGTTGTATGGGTATGATATATCACAGGAATTCCACTTTTTTTAGACTTCTTTAATATTTTATCTGAGCCTGGACCTATTGTATTTATATGAACTACATCATATTTTTCATTTTCATCTGTTGTAAATTCAACACCTGCTTGTGTTAATGCTTCTTTTTGATGAGTTAACGCTCTTCCAACGCCTGATTTATTAAATAAACTTTTACCTTCTGAATATAATAATACTTTCACTTTTCCTCCTAAGTTATATATTTGTTCATTTTATTATACTCTTTATAATGGTTTTTTTCAAGATTTAATTCTTGTCTTTGATGATATACAACAAAATAGAACTATAAAAATCAATAATGGTATGATTGATTTTTATAGTTCTATTTTATAATTTTTTTATATAATTCTCTTTATTATATTGAACTTTAAAATAATTAAAAATTTCTATAAATACAACTGGATTATCTAGTATAAAATCTGATTTGAATAGTTAATTTTTGTTAAAATTATTGAAATTAGCATTAGATTATTAAACTCCCAAATGGTAGTTTTCTAAAAACCACTACATATAGTTTCATAAAACCTTTTGAACACTACATGTAGCGGTATGAAGAAAACTAAATACTTTTTTGTGGGTCAATCGTTATATAATATATAATGAATAGACTTATTAATTTGTGATGAATAGGGCTATCTTCTAAATCCATAACTTCCCCCTCAAATTTTGATACTCTAAATTCGAACTGTTACTTTCCTTAATAGCTTATCCTTATTTATCAAAAGCTTTGAATTTTTTTATCATAAAAGGTGTTAAAAAATAATCTGTAAACAAAGCAAAACTTAGACCACATATCACAGTAATTCCCAAATTGACATACATTTTCACAGGTGAAGAAATAAACATACCATATGTAAATATCAAAATCACTGTTGTAAGAGTAATTGCTTTTCCTATATCAAGAAATGTATTTTTTATCGCTATATCATACTCCCCTGTTTTTTCATAGTTAAATTTCATCTGATTAATAAAATGAATCGTATCATCAACTGAAATACCAATAATCATAGGCATAATCGTAACAGTCATAAAATCAAGAGGAAAATCAAAGTAACCCATAACTCCACCGATAACAACCAGTGGCAATACATTTGGAATCATCCCGATTAATCCAACTTTTATGCTGCCAAAAACTATCATTAACAGTACAGCTATAACTCCAATTGCAACAAATAATGATATTAATTGTCCTTTCACTAGGTATTGTGACATTTTTGCAAACTGAGTAGCTCCTCCTGTAAATTCCGGTTTCATATCTGGAAAATATTCTCTTACTTTTTTTGTTATTAAGTCATACTCATTCATAAATTCTTTTGACTTAAAATCTGACATTTCAACTTGAATTCTAAAATATGAAGATTTATCATCACTTTTTTCAAGAGTTTTCACTCCTTTTTCAAAAATATCGAAACCTAAATCATCTACTTCTTCAGCGTAATTTATCCAACTTCTTGCTTCATCTCCACCTGAAGTATCATACAGAAACATTAGCTGAGAAATTGTTTCTTTACTATCTGGTATTTTGTAATATTCTTTGTTACCATCATTTACTACCTGGTTTAACTCCTTTAAAATGTCAATAAAAGATGTAGTTCGTTTTGTCAAAGGCTGCTTGTTTATATACTTAATAATTTTTTCCATATTTTTCATATTTTTAGGATTTTTTAAACTGTCAAAATCTTTAAATGGTAAAGTTATATCATATGAATATATTGTCCCAATCTTTGAGTTTCCTGTTTCATATGCCTCTTTTACATACGGAACTTTTAGCCCCATTGTTTTCATCATATCAACATCTACATTTAGCTTTGTAATACCAAATCCAATTATTCCAAGAAAAATTGTCATAACAAAAAGTATTTTTGTAATATTTTTTTGTCCCCATTCACCAACATTCATAAAAAAAATATCTAATTTACTAAATTCCTTGATATTTTTATTTTTCTTCACTTTTCCAAAACTTAAAAATATCGGCAATAATATAAGTGTATAAATATATACTGTTGAAATTACAGCTCCGCATGTATAGCCGATCCATCTGATTGTCATTACATTTGTAAAAATCATTGAAAGAAATGCAACTATTGTTGTTAGCGCTGTAAATAATAATGGCCAGCCTGTATGTTCTATTGCATAAATTGCAGCTTTTTTTCTATCTCTTGTTATTGCCAATCCTCTTTTAAATGTATTAAATATATGAATAGAGTACCCAACGGAAACACCTATTCCTAAATACAGCGGTAGTGTAACAGACATCATCTGTATTTTTATTCCAAGAAGTCCCATAAATCCAAACGGAATTAAAATACTTAGTATCATTGTAGCTGACGGGATTATAACTCCACGAAATGACCTTAAGGTTATCATCAGAAGAATTATTGAGGCTATAAGTGCAAGTATTATTCTCTGACCCATCTCCTTTCCTAAAAACTCTGTCTCTTCAAGTTCGAGAATAGGCGCTCCTGTTGCTCTGATTTTTATTCCTTTTTTATTAAACTCTGGCATTTTTAGAATATTTTTTATTTCTTTAGCTACCATCGCTGATGGTGGATTCCTTATATCAAAATCATCTGGAAATGGTTTTAATTTTAGTATTAACCATGTTTGTTTTGAATCATCAGATACAATTTTATTAACAAGATTTTTCTTGCTAAGTACTTTTTTCCTAATCATTTCCAATTTCTCACTCTTTTTAGGAATAACGCTTGGCACGATATCAATTATTTCCATCTTGTCATTTGAGCCTTGAATATACTCAAATTCTGTAAGTGATATAACCGGATTCTGCGAAGAAACATAAGGTACTTTTTCTACTAGAACATCCCCTAAATTTCGTATTACTTTTAACGTTTCATAATTAAATACATCTTTTGATTCAATTAAAAAAGCAACATATTCATTATTTCCAAACCTTTCTTCAAACTTTTCCTTTTGCTGTAAAAAAGGGTCTTTTTTATCAAACCAGCTGTCTGGAGAAACATCCATTGACATTTTGCCTAGACCGAAAAAAGCTATCATCGTGAGTAAAGTTATTATTCCCAGAAAAATGAATCTTTTTTTTATTAGTTTTTCTCCAAACTTTTTAAACCCTTTATTTATCTTTGATATATTTATTCCCATTTTTTCCCCCTTAAAAATTATAAGTTGTTTTTAAAGACAACTTTGTATTTTCTTGTTTTATTGAAATCCCTGTTTCAAAGTTAATATTATCATTTATTGAATATTTTACCATCGGTGTTATCTCCCATACTTCAGATGATAGATTAATATAACCTGACATAGACATTGTCAGCAGGTCATTAAATATTGTTTTGGAAAAAGATGATATTAAAAAAGGTTCCTCTTTTTTTCTTGAAATAGAGTCGTTATAATTAAATATTCTATCCCCTCCAAATGCCAAACTACCTCCAAGGCTATTCCCAAAATTAAATTCACATACAAGAGCATAACCTATATAATCTTTTTCAATTGCTCCATTACTACCATTTAAACCTACTTTTTCAAAACTTTTTTCAAAAAAATACCCAGTTTCTCCTCTAAGCACCATACTGCCAATTTTTTTTGAAAAATCCATTCCTAGCATTTTCTCTTTACCAAAAGTTACTTTCTTATTAATTTTATCATAAATAGGGAAATCATTTATCCCTTTAAATGCCATCAAGCTGATTTCAGTTGTACCAAGGTATTTTTTATATTTCACACCTACTTCTATGTTTTTTAAATTCACTGAAGGAGTTATGACATTGTATTTCTGATTATCAATTTCTAAATTACTCACTGGTGAAACAGGAATTATAATAAAATTCAATTCAGAACTATTTTTTAATATATCTACTTTTATTGCATTAACTGGAACTTTTAAATCATTGTATTCGAAACTATATCCAGAAACAAGATTTACAGGATTTATTATATCAACAATCTGTGCACCATCTACAACTCCCCATTCTATTATTTGCCTACCTATTCTTATTGAAAAAACATCATTAACATAATCGTAATACAGTTCTTTAAGATCAAGTGAAGGATTTTTCCTATTATCAAACAAAGTTTCCAATGAGATAAAAAGGTCCTTTTTTTTCAATTCCGAATAAAGCTTTAATTCTGAAAGATTTATTTTTCCAGATTTTTCTATTTCAACAATATTTGTATTTCTTAGCGAACCACTTATTTCCCAATTTGATTTTTCTTCATTATATCCTGACTGCGAACTATTAATATCCAAACCTATAAAATCAAAGTTTTCCTCTCCAAAAGATATTAATGCAAAACTAAAAAACAAAATTGCTACTATTAATTTTTTTTTCAATTTTTCCTCCTTTATTTTCTATAAAAAGTTGAAGGTAAAAAGAGCTTTTTATCCATTTGTTTAGGATAATTTATCTCTAAAAGAAATATATAAGTAGAATGTCCTGTCTGGACATTTTTCATGGCCATATCCTTTATATACCAGTATTTTCCACTTTTATTTATACTGCTTCCACCTTCTTTTGATCTCAAGTTCTTTGTAGTCAACACTTTAAATAGTTTATTATCCCTATCATAATATTCTACTTTTGCTATTACCATATTATCTTTTCTAATCCAAAAAATTCTTTTACTATAAATTTCATATTTATTCAATTGTTTTGGAATAGATTCTATTATGTAACATTCCTTACCATCTATAATACTCTCTTTGGAATTAACAAAATTAAAATTATCCTTCTGTAACTCTAATTCCCCCAGGTCATCCAGTGTAAAATCTGAACCCATAAAGCTAGCATTCTTGTCATTTCTTGAAGAGGATATCTGTCTTGGAGCCCCTTTTTTTATTCCCGGCAAAGATAACCATGTAATATCCTCCTTATTATTAACATCATAATCCCACATTAACATAGAAGTTCCTTTTACTTCAGCAGGAGCTATGAATTTAAAACAGCTTTCACTTTTATTTTCCCCATCTATTTTTTTAGAATAGCCAATAAATTCTCTCACTCTTTTTCTATTTTTCTTATCAACTAAAATCATTTTTTGCCTCGAATATTGGAATTCTGCTGCTTCTTTTCCTTTGGCTTTTTCCATAACTTCATAAGCTGACATTCCAAAAACAGTAGTTCCTAATATTCCCAACAAAGTTAAATAAAATAATACTTTCCTCATCTTTTTCCCTCCTAATTTTTTTATAATCCCTTATTACTAAAAACTATATCTAAGGAACGGCTTAAAAATTATTTACCCTTTTCATAACAACGTATACAATGGTTATAGCATTTTTGATATGAATTTAGAGTAAGTTATTCTTTCAACGTTTCTCAATTAATCTCGACTTATAATTTCTTTATAGGCTTTTGTAGCTATTGACATCCCAAATATTGCAAAAATAAATAAAATTAGTATTTGAATTGTCAAATCTCTAGTAAAAACAAATGATCCTTGCTGAGTAAACATTGTCCGAAGCCCTGCCACTAGATAGGTCATTGGATTTATTTTGACAATTATTCCAAATATTAATGGTAGTTTTTCTGTAGCATACAAAACATTACTAAAAAATAGAAGTGGCATCTGTAGCATAAATATCACCATATAGTATGCACCATTATTTTGGGCTTTTGATGCAAAATAAAGGGCAATTCCAGAAAAACCAAATCCAAACAATATTATTAATACTTAATATATTATTCATTAATACACCTTCCTTAAAATTTGTACTGCTCTTTTTCCTTTCCTTTTATTCTAAATGCATTTACAGGACAACTATTAACACATCTCATACACGCAACGCAATTTTTACCAATATTTACACTGTTGCCATCCACTTTCAAATTGTCTACAGGACAATTTTCTTCACACTTTTTGCAGCCTATACAAACATTAGAATCAACTGACATATTTTTAGTTGCCCATTTTTTTAAATAATTTTCCATCAAATTAACTAATGGTAAAGTTAACCAATATCTTAATTTCCATGGATTTTTTATCATCTTTTCATTATTAAAAAATTTTTCTATTATCTTTTCAACTTTAATTTCTGTTATTTCTTTTGATTCTTTGATTTTCTCTTCTGAAGGAACTTCTCCTGTCCAATTATTTGGCATAGTTATCTCTTGCTGAATTATTATCTCAAAACCTTTTTTCTCAAGTATTTTTGCCATTATTTTTAATGCTGGCGGAGTACCTTTTGATCCTAGAGTTGAGGTCAATATCGCCTTTTTTCCCTTTGAAATATTTACATTTTTTTCAACCCAGTCAACATAAATTTTTGGAAAAAATTCTGCATAAATTGGTGCACTGAAAATATAAAAATCATACTTATCTTCAAAATTTTCACTACTATCAATTGCCTGTAAATCTACACTTACTCCTTTCGCATCAAACTTTTCTTTGAATTTTTCCATAAGAAACTTTGTATTTCCTGTTCCCGAAAAATAAATTCCTAAACCTTTCATTTTTTTAACCCTCCTTTTTTCATAACAATAAACTGCTTTCTTCCCACCTATTTTCTCTTCACTTTTTTATCGCCTCCACCTTATTAATAAAAGTATACACCGTTACGTTACGTAATGTGCAAGAGGCTTTTTTATTTTTTTAATAGGTATATAAAACATTATAATTTAACAAAAATAAAAAAAGCTGACCCAAAAGTATATTATTGCATTACTTTTGAATACAGCCTTTTTAATTATTCGAATATAAATATATATCTATTTATTAGTCTTTTTTCTTAATTTTAAAAATAACGTTTTTATTGGTAAAAATATTGTAAATAAACATGCAAATATTAATACAGGCATCTGAAATATTCCTTTGATTAAGGTAATCCAGAATTGTACTTTAAATATTAGGTCACTTGAATCAATTCCATTTAGTAATAAACTTCTTATAAAAACATCTTCTCCCATATCCAACATAGCAATTAACATAGGTAATCCCAGTCCCAGTAACCATAGTTTTCTTCCTCTCCACTTTAGTATGTTATATCCAAAGTATACCAAAACACATATAAAGAAAATGGAATAGAATAAAACAAATCCAAAATCCAGAGGAATAAGCTTAGAAATATATAGTTTTATCTCTGAAGGGGAATAAGATCCCAGTAATTCTATAATTTTGTCTTTTGGAGCTCCTATCTGATCGTCAATCATTCTTCCCATTAAGGATCCTGGTTGAGTGAAAAAGTAAGCAGAGTATAGACTAAACATAATAAGCGATAGAATTATTCCTTTCCACGTGGTTAATACCTTTTTAATTATACTGTTTTTCATTTTCTCCTCCTTATTTTTTTTCAATAAGCTTTTTACTAATAAACATTTCGAGTTTATCCATGTTTATTCCTTTTATTTCTGGCATATCTTGAGTTTTAATCATCTCATTCAACAAATCAAAATTTTTCTTTATACTCTCTTGATCTACCTTTCCCCATAACACTTTAATAAATTCTTTTAATGCATTCACAATTTCATCTCTATCTTCTTGTTTAACATTGTCAATCTCTGTTAAACTAACAACTTTTAATGCTGAAAATAGTCTATCGTGTATTTCCTTATTTTGATCTTCAAGATGTAATACTTCTTGTAAAATATCTTCTGGAAAATATTTTTTCATAATTTCCTTATGACTTGCCATCTTTAGCTTTTCATATATTCCAAAAATATCAAGTTCTCCACTTTGTACCTCATCTGTGTGTTCAATTGCAAAATCTATTTTTTTTACAACTGATTTAAAGTCTCTTATTTTTTCAAGCAATCCTTCTTTTTGAGCTTTTAAAATATTTACCAAGTTTACATCAGGTTTGATTAAATAACGGCTAATTTCCTTCAAGGAAAAACCAATCATTTTCATTCCCTGAATTATTTGAAGCTGTTTAATATCCTCCAGCATATAAGCTCTATGTCCATTATCCAATATTTTACTTGGTTTTAAAAGTCCTATCTGATCATAGTATCTAAGAGTCCTTACTGTTACACCAGCCATTTTTGCTAATTCCCCCGTTTTAAGCAATTTTTCCATTTTTTATCACCTCCCATATTAAGTATACAGCATAACGTTGCGTAACGTGCAAGAAAAAATTAAAAGCAACATTATTTATTACAATATTCCTAAATTTTGCGGTCAAATATCTAATCAATTTTTAATATATTCATCACATCTTTAATTATAACATTAATAAATTTTTCTTGAAAAGATTTTCCACCAACTTCTTTTAAAATTTCTGATATTTTTTTTAACTCTAAATCTTCAATTTTATTTAATTTTTTCATACTTGTATCTTTTATCTTCTCATCTGATAAATTTTTTATGTAATTTTCTCTGTTATATCCAATTAATTTAATATTTTTATTATAACGTTTTTTTAATTTATCTGCTATAATCAATCCTTCTGGATCTAAATCTCCAGAATATATAAGTTTTATGTCGCTTTTAACTGCTAAATCCATTAAAAATAGTGCTGATGATTTTATATTACCATATCCACAAATCATAGGAATAATAATATTATATTCAACTTTAAAATAGTTAAATATCTCTATAAATACAGCTGGATTCTCAACTATAATCAAATAATTATAGTTAGAAATAATTTTTTTTAATTTTGTAATTCCTGTCATAGGCATAATAAAATATTCGCCATTATTATAAAATTCTCTCCAGCCAGTGTGCCTTCCTTTTGCTATTTCTGCTTCTAATCCTGATATTGCCACGCTATTTGAAATGTCATCTGTAATTATACCTGCTTCAATATACATTTCAATTCTCTCTTCCGCATTTGTTGGATATTTCTTATTTAAATAATATGATATTCCATATAAAAGTAACTTTCCAGCAAAATTTTTATTGTCAAAAAAGTGTGGGTCTTTTGATATATCTGATGCAAATATTGCTAAAAGTTTATACTCTTTTTTGATTATAGGTAAATTATTTAGACCTTTTATTATTCTTTCTATTATAATTTCAAATTCATTAAGATTATTTTCTTTTTCAAATTTATTATATTCTTTTATTAAAATATTATTCCCTTTATTTCCTTCAATTAAAAATTTTAAAAATTCTCCGCCTACTGTTTCTGCATACCATTCATATAAGTCGACAAAAAACTTTTCTCTTTGTTTTTCATAATTTTCCATTTTATCTTTTTTGTATATAATATTTTCATTAAAATAAATTTCTAAAGCCAATTTAAAATTATCATTTGAAAAGTTCATATTATTAAAACTTTTTATTATATTTTCTATTAAAATTGTTTTTTTACCTATCTCGTAATTTTCTCCTGTAATTTCAGAAAGAGCTGATTTCTCAGCTCTTGACAGTTTTTCTTTTTTTATTTTTCCTAAAAATTTTCCAAATGACTCATATTTATTTTTAATAATTATTAAAATTTTTCTTAAATCTTTTTTAGATTTTAAATATTTCACTAATTCCTGCTCTTTAGTCATATTATTCTCCTAATTTTTTCTTCTCAACTCTTTATCCTCTAAAACATCTTCATATTCCCGCTTTTATTATCGTATAATTCTTTCCCCACTACAGCTGTTCTTTTATTTCCATTCCATTTATATCTAAATACTGTTACTACATCAGAATTATTTGGTCTATATAATTCAGCTATTGCAAGATTTGGTATTGTTCCATAATCTCCCCATAAAACCTGAGAATTAACTATAAAATCAAATTTCATATTAACCATAAATTCAAACATTACACTAATATTTCTTTCATCTACTCCTGCAAAAGCTTCATCAAGAGATATTATTTTTGGCGCATCTTTTGAAGCATTGTCATATCTGGCACTTACTGCTGCGAACAGCGGAACATACATTGTCATTGCTTTTTCTCCGCCACTAAATTTATAAAATTCATTTTGAGTTAATTGTTTTTTTAGTCCCTCTCCTCTTTTTACTGATAATTTAAATTCATACCACTCTCTATAATCCAGCAACTCTTTCATAATTGTATGAAATGATTTAATATTATCCTCTTTCTCCATCTCTTTTTTAGCTTCTGCTATTTTTGATTTAAAATGAGATACTATTTTCGTTATATCTTCTGTTCTTCTTGTAAATTCATCTTTTCTTAATAATTTAACAAGCTCACTTGAATTCATCTGTTCCTCATTATCTGGTTTTCTTCCAGCCCAACTTAATCCAAGTCTTATTGTATTAGTATTCATACTCTCCATTAATTTATTCATATTAAAAACCCAAATTTCGCTTTTTTCAATTTTTTCTGTAATTCTTTTACTAATTGTTTTTATTAATATCTCTTCAAAAAGCTCTCTCTCTTTATCTGCTAATAGTTTTTCATCTCTTAATATATTTTCTTCTATATCTGATAATATATGTATAAGATTTGTCTTTTCTCCTCTTATTTTTCCTATTACATCAACTCTTTTTAATTCTCCTAAAACTTCATTAATAACTCCATTTATAGGCTCATTAAATCTATATTCCATATTAAGTCTATAATCTGATAAATAGTTTTTTGATATTAAAAACTTATTATTAAGGTCATTAGAATACTCTATCCCTTTATCTATATCAATATTTCCTGATAATCTTTGTGATAATGCCTTTAATTCACTTTTATTGCTAATATCCAGCTCATTAACTACATACGCTAAATTTACCTCTTCATATAATCCTTTTTTCCAAGACGATTCTAACTCTTTTAAATTTTCGCTTTCTTGCTCTATTTTTATTAAATTTTCTTTTAAATTTTTTATTTCTGATTCTATTGAGCTTATTCTCATTATAGTTTCATTAAAATTTTTCTCATTTTCTTTACGTTTTTCTTTTAATTGTGCCAATTGCTCTACTAAATTTTCTATTCCTTCTTGTTCTGCTCTTTTTTCTAACTCTTCCAATATTTGCTTTTGTGTATCTAACGCTTTTTTAATTTTATTTAAATTTAATTTTATATCTTCAATTTCATCTTCTACATTTTCAATATTTTCTATTAATCTATCTATTCTTTGCCCAAAATCTAAAAATCTTTTATATTTATTTTCTATTTCCAAAATATTATATCTGTATTTTTCAATTAAATCCAAAGCTTCTGTAAATGATTCTAAATCTAAATTAATTTTTGTTCTTACTCTTAACTCGTTTACTTTTTCATTTAAACTATTTTTTCTCTGTCTAGCAATTAATTCTTCTTTCTCCTTTTCCTCTATTTGGTAAAATTTCATCTGTTTTTCTCTTTTTAATATATTTATATTTTCCATTATTTCTTCTATTTGAATAAAATCAGGTATATTTTCAAACTCTTTTTTTAACATCTCTTTTCTATTTTTTAGATTAGATAATTTTTCTTCTATTTTTGCTTTTTCTAAATTTAAACTCTCAATCTTTTCTTCAAGCAATTTTATTAGCTCTTTTTTATAATTTTCTCTTGCACTTATTCCTATAAATTTTGCTTTATTAATTTTTGTTGTTTTTCCTTCAATTGGACCATAACTATATTTTCCCTCTATACCAATAAAAAATTCTCCACTTTTTTGATTAACAGGGATAGATTTTAATATTTTTTCAATATACTCTTTCTCTTCTTCGTTATATTTAGCTTCTACTTTTAAATAATTAAATAAATTTTTATTTTCTCTGTTTTCTTCAGATATATTTTTATCATCTCTATTTTTATTATACGTCTTTAATAATTTTATCCCCTCTTCAATATCCAATTTTGGCATTTCATTATCAAATAAAATTATTGAGCTAATTATATTTGTATCAATTAATATCTCTTCAATTATCCCTTTTGTTTCCTCAGATATATTTTCTCTAAAATCAACTGTTTTCCAAAACATATCATATTTTATTTTTAGACTATCCAACTTTTTACAATATTTTTTTTCTTTTTCTTCAATTTCATATATAGGGTCTTTTTTTGATTTCCACTCATCTATTTCATCACTTTTTTCTTGAATTTTTTCATTTAAATTTTCAATATGAAACCTGTTTTCAATAACCTCTTTTTCTATATTATTACTACATCTATTAAAAATGTTTTTATATTTATATTTAATATCCAAAATATATTTTTTTTCATCACAACTATTTACTGCTATAATTATATCTTCTAAATCTTTTTCTTGGAAATTCAATTCTTTAGTTTCACTTGCATATTTTTCTAATTTCTCTAAATATATCTCTTTAGAATTATCAGATTTCTTTTCTTCATTTACAATCTCTTCCTCAATTTTTCTTAATTCATCTTTTAAATCATCTACTATTTTTACTATTTTATCATATTCTTCACAGCTTTTTTTATAATTTTCTATTATAATTTTTCCATTCCTAAAAAAATCTTTGAAAATATCTGTCTCTTTTTTTAATAATTCAAAATTATAATCTTTATCCAATTTTGAAAAAAACTCTTTTCTAAAATTTATATCTTCTGAAAAATTAATTTCATTAGCCCTCTCTCTGTTTTCATCTATTAAGCTGTTTAATTGACTATATAAAACCTCTTTATCATTTTTAAGAGAATTAATTTCAGAATATTTTATATTTCTATCCTCTTCTCTTCTTTCGAGTCTTCTGTTTTCTGTTTCAAAATCCTCTTTTTTCTCTTTTACATATGATTTTATATCTAAAATTTCTTTTTGTAATTGATAAAATTCGCTTTTTTCATATGTCTCTATTAAATGATTTATACTCTCTTTTTCAGCTTCAAGTTTATCTCTTTTTGTTATTGACTCATTTTTCTGATTATTAATATTTAAAATATATTTTTCCGTTCTTTTTAATTCTGATATATTTTTGTCTAAGTTTTCTTTAGCTTGAATATATTTGTTTAATTTTTTTAATAAAATATATGAATTATATTTATCGTAAGCTCTTTTTATTTTTTCAGATTCTCGTTTTGCATTTTTTAAAGATTTTAAATTATCTTGAAGTTCATCCATATTTTCTACTGCTTCTGTTAAAGGTCTTAATTCATCATCAGATATAGGCTCTAATGAACCTTTTAATATTTCATAAGTTGCACTTGGTTTGAAATTTTTAGATAATTTTGGACTTCTAAGATTTATTAATAGATTAACTAAATCTTCATATTCTTTTACAGTTTCAAATCCAAATATATATCTATTAACCATAGCCACATAATCGCTTTGTTTATCAACAACTGTCCCGCCATTTCCAATTGCATTTTTTAGCTCCATTTTAGACAATGGAACTTTATTTACTTTCTCTTTATATAAATAAAAATCTCGTCCAATTCTTCTTCCATCATCTATACAAAAATACCATGTCCTTGTTGCAGTTCCACGTTTTGCTCTAATTCCCATACCAAATGAAATATACTCACCTGTTTTCTTCTTTAACTCCATATAAAGATAACCTGTATTTTCATCATACTCTGTTCCTTCCGGAAGTATATATGAATCTATTCTTCTTGCTCTTGAACCAAAAGGATCTAATCTTTCAGGTCTTACACTTCCGTCAAGAAGCAACGGTATAAAACTCTGCATAGTTACTGACTTTCCAGAACCATTAGAACCTCTTAATAACAATTTTCCATCTTCTAATGTAAACTCTTCATCATCATAATACCAAAAATTTATCAACCCAAATCTCTTTATTTGCCATCTATTCATTCTCTTTCTCCTTATAAAAATCTTTTGGATAATTCCCTATATATTTAGATATTGCCGGTAATAATTCTATCTCGCCTTTATTCTCATTATTATTGTTCAAAAGATTGAATCCTTTCATATATTTAATTAAATCTTTTGTTATCCCTTCAACACTCATATTTCTATATTCACTACTCCATCCAGAACTATATTTTTCTTTACATAATTTTACTATTTCTAAAAATTTATCATAACTAATAATAATTCTATCTCTTTCATTATACGAAATTTCTCCTACATTTACTTTATTAATTATTTCTCTACTAACCAATAAAACTATATCTGAAATAGCTTTTGCTCCAGGAAAAACATCTTTATAATTATAGCTGTTTTCAATTTCAATCATTGCATAATTTTTTGTCAAATTAAATCCAGCTTCGAGATATTTTTCAAATTCAGATGCAATATTATGAGTTTGTTTTTTCATATAATCAAAATCTGATTCATTCTCATTATCTCTTGTTACAACTGCATTTATCAATAAATTTTTATATACTCTTTGAGCTCTTGCAGTTCCTCTATCTCTACTTTCATCTTGCCAAATCTCATTTTCGAAATCACTTATATCTTTATATTCAGAAATATCTCTATTAAAATTTCTTATAAAATATCTGGATATTCCAGTAGATTCATATAAAACTTGCGCATTCAAATCGTTTTTAAAACTATCTTCTTCTCCAAAATTTATTTTAACTAATTTCATCTCAACTAAAAATTTTAAAACTTTAACAAAACTCTTTCTTAATGAATAACTATTCCAATCAATATAAAATTCTATTGGATAATTTAACTCCACAAATTCTGAAATATCAGAAAGTATAAATTGGTCACCTCTGTCTTTATCTTCTAAAAATGCCAATACCAAAGAGAACATTATATATTGTTCAGTTTGATTAAAATCTGGAATTCCCATCCAATCTTCTGCTCTCTCTGGTATTTTTTCTAATTTAATTAAATGTTTATTTCTTATTACTGACAATCCACATTTTTCTTCTAAAAATGGTTTAAAAGTAGCTATTTTTTCTTTTATTTCAAAATATCTATCTTTATCATCTTCTTTTAATATCCAAAATTTTTCCAATAATATCTCAATCTCTTTCATTAGCTCTCACCTACAATTTTTATAATAATATCTGGCATATAAAATATCCCATCAATACAATTTAATCTGATTTGATTTTTATCATTCATTAAAATTTTATATGAACTGTTATCTTCATTTTTTCTAATTGGAAATACCCTATATTTAATATTTTCAACTATTTCAAACTCTTTATTCCCGGGAGATTCAATTCCCCTTACTATCCATCTAAGCAAAGTTTTTCTAACATTTTCAGATATATTATCCAAATCAGAAATTTTTATCATTTCACTTTTTACAAGCTCTAATATCTCTTGTTTTTCTTTTTCTAATTCTCGCTGTTTTTCTCTAATTATTTCAGCTTTTCTATGTGTTTTATCAATAATAGCTATTGATTGTCTTTTTTCTCTATATTTTCTTGTTCGTGGTTTTATCTCTAATTCTATTGGCTCTGTTTCAAATGCTCCTATATTTTTATCTGTAACTTCTCCTCTAATTTCACCTTTAAAATGTTTGGTATTAAAAGCTCCAAAAATCATTGCTGAAAGTTTATGAGCTTCATTAATAGAATTACAATTTGAAAACAGAGAAGCTATTTTTAAGCACTCCTCTTTTCTACTTGAAATTTGTCTACTACTTTCCGATATATGTAAAGCTATTCTTACTATTTTTCTTATAATTTCATTTGTCCTGTCATATAACATCTCCATCTCACTTTTTCTATTTTCATTCCCCAAAAACCAAAGTAAAACAGCTTCCCATTTTCCAGTTAAATCCTCAAAAATATTTTCTTCTGTTATATCAGGAGTTAAAATCATAATTTTCTTTTTTTCTAATGAAATTTTCCTAAATATCTCTTCTATTTTTTCTTTATCTATATCTTTCAAAATTTTTACTATAGATAATCCATATTTTTGTAATCCTTTGATGAAATTCCTCAAATAATCAATAAGATTATCTTTATATATTATAAATTGAGTTGTATTAAGTAGCTCTTCAAATTTAAAACTATTAAGTTTCATTATATAGCTTTTATAATTATTATTTAATCTTTCAAAATCAGATATAATATTACTCCACAAAGAATTTATATCGGTAACTTTATTAATCTCTTTTTTATCCAATTCCTCAAGACTATCTCTTAATCTCTCCATAAGAGATGGATCTAATTCTGCTTCTTGAAAAACTATTTTTTCTAAATCTTCTGACACAAGTTTTTCTATAGTTATAGCTTTTTCTGTAATTTGATAAATATATTTTTTATTTTTAAATTCTTCTGGAGTGGTTGCTTTAGCTGTATCTTGAATTCCTATTATATTGCCCCATTCCATTAATTTATTTATATCCTGCTCACACATATCAGAACTATAATCTTTAAATTGCTCGCTTTCTCTCATAATTTTTACAATCTCATCTTTATATAAAGTCCGATTTAATTGGTTATATTTTTCATAAAAAATCCTAATTATCGCTCTATATCTCCTTACATTTTCTGCATTCAGATATTTCACTTCAGTTATAGGTTTTAAATGTTTATTAAAAAATTCCATCTTATCCCCTTTTTATTGTTTTTTAATTGTTAATATGTCGTATAAAGGTCAATTATCTTTCCCATCTTATCACACAACTATCTCAAATATCTCTTTCCCTTCCACTATAACTCTATCCTTAATATACTTTTTCCCCTTATTAAAATTATAAAACACCATATACCCCTTATCTAAATTTTGTGCCTCCAAATATCCACACAACTGCTCCCTACCCTCTTGTTCATACTGACCACCACGCCATATCTTTAACTCTATTACATATTTTTTCATATTGTAAGTTACAACTATATCCATTCTATTGGACTCTCTTGTTTCTGATTCCACAAAATAAAATCCCGTTCCATTTATTATTGGCTTTAAAAATGCTAAAAATAGAAGCCGTCCTTCTCGCTCTACAAATTTTTCATCTATTTTTCTATATTCTGCTTTCATTAGTTCTTGAAATTTACTTAATACTAATTCCATATCCAAATCGCCATTATCATTTATAAATTTCCCCATATATTTATAATCAAGAACAGGCCCTTTTTTCATTTCTCTCATTGCTATCATATAGTTATATAAAAGTATCTCAAATATCTTATTATTAATTATTAATTTATGTTTTTCATTTTCTCTAAATATTCCATACATTATTCCTAAATTATGAGCTTGTAAATTATACTGTATTTCCTCTCCATCAAGGACTATTCTCTCTATTAGATTATATAATTCTTTATATCTATTTATATTTTTTATTACATCATCAAATAATGTATTATTACTATTTAATATTATTTTTATAGCTTCTTCTAACCCTTTTTCACTAAAATCTCTATCTAATTTTTCATCTATTACTTTGCATAATTTACTTACTAAAAACGGATACCCATTTGTATACATATATATTTTTTCAGAAATATTTTTTATATCCATTCCTGTCTTTGCATCTACTTCATATTCAATTAACATTGTTGATATCTCTTCTGAATTAAAGCTCATATCTATATCAAAATCTAACGCTATATTCCACGGACTATTTAATGTCCTAGTTTCATCTGGTCTTAATTTCAATTTCAAATTTTTTACATCATGTACTCCTGCTAATATTACTGTATTAAATGTATAATCTTTTCCCATATTTCTTCTTAAATATTTATCTCTAAACATTCCTATAAAATTTAAGAATAATTGATTATTACTGCTTTTATCTACTTCATCTATCATTAATATTACTTTTTTATTTGCTTCTAATATAAAGTCTGTTATAAATTCATCTAACTCTTCGAAATTTGTTACCCTATTATTTTCATCAATAAATTTTATTAATTTTGTTTCTTTTTTTAATTTTAACTCTTTTCTTAATAGTTTTATAAATACTTTTGATAAATTTTTTTCATTTTCAAAAGGAACTTCTCCTATCCCTTCAAAACTTATTGATATTAATAAATATTCCTTATTATCTCTCAATTTTCTTTCTAATAAATACATTGTTGTTGTCTTCCCATATTGTCTTGGACGATTTATTGTAAAATATTTTCTTTTTTCTATTAATTTTATTATTTCATTTAATTTAGATGTTGTATCTACCATATAATGTTCTTCAGGAATACAAGTTCCTGTTATATTAAATTCTTTCATTTTTACCTCCTATTGCTTTATAATCTATCTTTAAATTTATAACTATTTTTCTATTACTTTTCAAATTTGAAATCTATCCATATAAAATTTTATTAAATTTTTATTTTATTTTCTATCTGCCCCTATCCGCCTTTATCTCGTGGTTAAAATTTATTTTTTCTTCTATCTTCTCATTATAAATTTTCAATTATACTTTTTCACACAACTATCTCAAATATCTCTTTTCCTTCTACTATAACTCTATCCTTAATATACTTTTTTCCCTTATTAAAATTATAAAACACCATATACCCCTTATCTAAATTTTGTGCCTCCAAATATCCACACAACTGCTCCCTACCCTCTTGTTCATACTGCCCACCACGCCATATCTTTAACTCTATTACATATTTTTTCATATTATATGTAACAACTATATCCATTCTATTTGACTCTCTTGTTTCTGATTCTACAAAATAAAATCCCGTTCCATTTATTATTGGCTTTAAAAATGCTAAAAATAGAAGCCGTCCTTCTCGCTCTATAAATTTTTCATCTATTTTTCTATATTCTGCTTTCATTAGTTCTTGAAATTTACTTAATACCAATTCCATATCTAAATTACCATTATCATCTATAAATTTTGTCCTAAATTCATAAGTTAAAACTACTCCTTTTTCTCTCTCTCTTTTTGCTATCATATGATTGTAAAGTAATATTTCAAATATTTTATTGTCTATCTCTACTTTTTTATTTTTTCCTCTTATTATTCCATACATTTTGCCTAATGAAGCCATTATATCTGTATGCACATAATCAACTTTCTCATTTCCTAATATAACTTTTTCTATAAATTTATAAAACTCTCTATTATTTTCTATATTTTTTATTATATCATCAAATAGTGTATTTGGGGTTTCCAATATTATTTTTATAGCTTCTTCTAACCCTTTTTCTGTAAAATCTCTATCTAATTTTTCATCTATTACTTTGCATAATTTACTTACTAAAAATGGATACCCATTTGTATACATATATATTTTTTCTGAAATGTTTTTTATATCCATACCTGTTTTCGCATTTTTCTCATAATCTATTAACATTGTTGATATCTCTTCTGGACTAAAGCTCATATCTATATCAAAATCTACCGCTATATTCCACGGACTATTTAAAGTTCTGTTTTCATCTGGTCGCAATTTCAACTTTAAATTTTTTACATCATGTACTCCTGCTAATATTACTGTATTAAATGTATAATCTTTTCCCATATTTCTTCTTAAATATTTATCTCTAAACATTCCTATAAAATTTAAGAATAGTTGATTATTACTGCTTTTATCTACTTCATCTATCATTAATATTACTTTTTTATTTGCTTCTAATATAAATTCTGTTATAAATTCATCTAACTCTTCGAAATTTGTTACCCTATTATTTTCATCAATAAATTTTATTAATTTTGTTTCTTTTTTTAATTTTAACTCTTTTCTTAATAGTTTTATAAATACTTTTGATAAATTTTTTTCATTTTCAAAAGGAACTTCTCCTATCCCTTCAAAACTTATTGATATTAATAAATATTCTTTATTATTTTTCAATTTTTCTTCTAATAGATACATTGTTGTTGTCTTCCCATATTGTCTTGGACGATTTATTGTGAAATATTTTCTTTTTTCTATTAATTTTATTATTTCATTCAATTTAGATGTTGTATCTACCATATAGTGTTCTTCAGGAATACAAGTCCCTGTTATATTAAATTCTTTCATTTTTACAACCTCCGCTTGTTTTATCATTTATCTTTAAATTTATAATTGCTTTTCTATTATTATTATATCTTCTACTCCATTATTTAGCATATTTGGAATCTACTCCTACAAAAAAATTTTTTGAATTATCACTATATCTTCTATGCTTCTATCTTCTCATTGTTAATTTTTCATTATCAATTATCTCTTATCACACAACTATCTCAAATATCTCTTTACCTTCCACTATAACTCTATCCTTAATATACATTTTCCCCTTATTAAAATTATAAAACACCATATACCCCTTATTTAAATTTTGTGCCTCCAAATATCCACACAACTGTTCCCTACCCTCTTGTTCATACTGACCACCACGCCATATTTTTAACTCTATTACATATTTTTTCATATTATATGTAACAACTATATCCATTCTATTGGACTCTCTTGTTTCTGATTCTACAAAATAAAATCCTGTTCCATTTATTATTGGCTTTAAAAATGCTAAAAACAGTAATCGCCCTTCTCGTTCTACAAACTTTTCATCTATTTTTCTATATTCTGCTTTCATCAATTCTTGAAATTTACTTAATACCAATTCCATATCTAAATTGCCATTATCATCTATAAATTTCCCCATATATTTATAATCAAGAACAGAACCTTTTTTCATATCTCTCATTGCTATCATATAATTATATAAACGTATCTCAAATATTTTATTATGAATTATTAATTTATGCTTTTTATTTTCTCTAAATATTCCATATATTATTCCTAAACTATGAGCATCAGAATTATATTGAATCTCCTCTCCATCAAGGACTATTCTCTCTATTAGATTATATAATTCCTTATATCTATTTATATTTTTTATTACATCATCAAATAATGTATTATTACTATTTAATATTATTTTTATTGCTTCTTCTAACCCTTTTTCTGTAAAATCTCTATCTAATTTTTCATCTATTACTTTGCATAATTTACTTACTAAAAATGGATACCCATTTGTATACATATATATTTTTTCTGAAATGTTTTTTATATCCATTCCTGTTTTAGCATCTGCTTCATATTCAATTAGCATTGTTGATATCTCTTCTGAATTAAAGCTCATATCTATATCAAAATCTACCGCTATATTCCACGGACTATTTAAAGTTCTGTTTTCATCTGGTCGCAATTTCAACTTTAAATTTTTTACATCATGTACTCCTGCCAATATTACTGTATTAAATGTATAATCTTTTCCCATATTTCTTCTTAAATATTTATCTCTAAACATTCCTATAAAATTTAAGAATAGTTGATTGTTACTACTTTTATCTACTTCATCTATCATTAATATTACTTTTTTATTTGCTTCTAACATAAGCTCTGTTATAAATTCATCTAACTCTTCAAAATTTGTTGCATTATTATTTTCATCAATAAATTTTATTAATTTTGTTTCTTTTTTTAATTTTAACTCTTTTCTTAATAGTTTTATAAATACTTTTGATAATTTTTTTTCATTTTCAAAAGGAACTTCTCCTATTCCTTCAAAACTTATTGATATTAATAAATATTCCTTATTATCTCTCAATTTTCTTTCCAATAAATACATTGTTGTTGTCTTCCCATATTGTCTTGGACGATTTATTGTAAAATATTTTCTTTTTTCTATTAATTTTATTATTTCATTCAATTTAGATGTTGTATCTACCATATAATGTTCTTCAGGAATACAAGTTCCTGTTATATTAAATTCTTTCATTTTTACAACCTCCATTAGTTTGCCTTGTTTCAATTTCTTTTTTATTATATTATGATTAGACCCCCAAAATGTAGCTTTCTAAAATCATATTATTAAGAGCTCAATTAACTTAATAGTATTATAACATATTTGAATTACAAAATAAATTTTTTTATATTTTCCAACAGTCCCAAGTTTTTGTAGAAAAAAATTTCATTTAGTTTTCATTATTATTTTATCTTACATTACTTTTTATCCGCCTTTATCCCTTGGTTAAAATATATTTTTTCTTTTTTCTTCTATATTCTAATTGTCAACTATTAAAAAAAGGACGGCTTTCGCCATCCTTTTTCCTATCTCTCATAAAAAACTTTATATGTTCTATAAGTCTCAAATAGATCAAATTTTGATGCTACTTCATAAGGTGAATGCATAGCAAGTAAAGCTGGTCCTGCATCAATTGTATGTATTCCAAAGTGTGCAAGATATTTTGCTACTGTTCCTCCTCCACCTTCATCTATTTTTCCTAACATTCCTGTTTGCCATTTTATTCCTGCATCATTTAACATTTTTCTAAGCATTCCTACATATTCTGCATCTGCATCATTAGAAGCACCTTTTCCTCCATGACCTGTATATTTAGTCATTACAATTCCATATCCTAATTTTGAAGCATTTTGTTCTTCATGAACACTTTTAAATATTGGATTAATTCCTCCATTTACATCTGAAGATAATGCATAACTATTCCATAAACATTTTCTTAAGAAATAATCATTATAATTATCTTTTAATTTATACATAATATCACTCATAAAGAATTCAAGATATCTTGATTCTAATCCAGTAGAACCAGTTGACCCTATCTCCTCTTTATCTGCTAAATAACATACTGCTGTATGTTTTGGAGTTTTTTCTATTTCTAAAATAGCTTTTAATGATGTATATCCACAAATTCTATCATCATGTCCATATCCAGCTATCATACTTCTATCAAATCCTAAATCTTTTGCTTTAAATGCTGGTACAACTTCAAATTCTGCTGAAATAAAATCTTCTTCTTTCATTCCATAATCACTATTTAATTTTTCTAAAATAGCTTGTTTTACTTTATCTTTTACCTCTTTATCTTCAATTGATGTAGGTATTGAACCAACTACAAGTTGTAACTCTTCCCCTTTTATAACTTCTCTAGCTTTTCTATCATCTTGTGCATTTTTAGATAGATGTGGCAATATATCTGGTATTGTAAATATAGGATCATTATCATCTTCTCCTATTGCTAAATCTACTTTTTTACCATCTTCTAATATTACTGTTCCATGTAATGCTAAAGGAATAGAAACCCATTGATATTTTTTTACTCCACCATAATAATGTGTTCTTAATAAAGCAAATTCTGTATCTTCAAATAATGGATTTTGTTTTAAATCTAATCTTGGAGAATCAATATGAGAAACTACAAAATTAACACCTTTTTCTACTTCCTCTTCTCCTACAATAACTAAAACAAGATTTTTTTCTCTATTTACATAATAAATTTTATCTCCTGCTTTTAATTTTTCTACATTTTCTGCATTTACAAATCCATTCTCTTCTGCAACTTTTATTCCATTTCTTACAAATTCTCTTTCTGTTTTAGAGTCATTTAAAAATTTCTTATATCCATTTGAAAATTCAAATATCTCTTTTTTCTTTTCTTCTGCCATATTTTTCCATCCATTTTCTTTTTTTAATCTCATTGTATTCTCCTCCTGTATATGTCTATTATTACAATTTTGAACTGTAAATTATAAATTGTCGGGATTATTAATATTCCCGACAATTTTTTATGATTTTTTTATAATCTTTTTTCTAATTTTTCTTTTTCTTCTTCATAACCTGGTTTTCCAAGTAATGCAAACATATTTTTCTTATATGCTTCAACTCCCGGTTGATCAAAAGGATTTACTCCTAATAAATAACCACTTATAGCACAAGCTTTTTCAAAGAAATAAAATAGATATCCTAAATTATATTCATTTATTTCTGGTATATTTATAACTAAATTAGGAACTCCTCCATCCACATGAGCTAACATTGTTCCTTGGAATGCTTTTTTATTAACATAGTCAATTGATTTTCCTGCTAAATAATTTAATCCATCCAAATTATCTTTAGTTTCTTTTATAGTTAATTCTTCTACTGGTTTTCCAATATTTAATACTGTTTCAAATAATATTCTATTTCCATCTTGTATATATTGACCCATAGAATGTAAATCTGTTGTGAAATCCACTGCTGCTGGGAAAATTCCTTTTCCATCTTTTCCTTCACTTTCTCCATTAAGCTGTTTCCACCATTCAGCTATATAATGCAAAGAAGGTTCATAATCTACCATTATTTCTATTAATTTCCCTTTTCTGTGTAAAATATTTCTAAGTGCTGCATATTTATAACAATCATTTTCTTTAAATGGTGCTTTATAATCTTCCATTGCATCAGCTGCACCAGCCATTAATTGTTCTATATCTATCCCTGCTGCTGCTATTGGTAATAATCCAACTGCTGTTAAAACAGAAAATCTTCCACCAACATCATCTGGAACAACAAAAGTTTCATATCCTTCTGCTGTAGCAAGTTCTTTTAAAGCTCCTTTTTTAGCATCTGTTGTAGCAAATATTCTATCTTTTGCATTTTCTTTTCCATACTTTTCTTCTAATAATTCTTTAAAAATTCTAAAAGCTATAGCTGGTTCTGTAGTTGTTCCTGATTTAGAGATAATATTTATAGCAAAATCTTTATTTTTTATTAAATTATAAAGATGTTTTATATATGTAGAGCTTATATTATTTCCTACAAAATATATTTCTGGTGTTTTTCTATCTTCTTTTTTCATATTGTTATAAAAACTATCTGTTAAAGCTTCTATTGCAGCTCTAGCCCCAAGATATGAACCACCAATTCCAATTACTAAAAGTACATCTGAATTAGATTTTATTTTTTCTGCTGCTTTTTTTATTCTATCAAACTCTTCTTTATTATATGTTTTAGGTAAATCTACCCATCCTAAAAAATCACTTCCTGGACCTTTTTTTGAATTTAATAACTCTTCTGCTGCATTTACTTGAGATCCCATAAACTCAATTTCATTTTCACGTACAAATTCTAATGCATTTGAATAATCTAAAGATATTTTTTTCATACAAAATCCTCCCTATATAAATTTATTTTTGAGCCATTTCTAAATATTTTATAACTTCTTTTAAATTTAATCTATTTTCATATATTGCTTTTCCTACAATTACACCTTCAAGTTTTTCATTTTCTAATTTATTTAATTCTATAATATCATTAATAGTTCCAACTCCACCTGATGCTACTAAATTTATTTTTGTTTCTTCTAATATTTTTTTCATTATATCCAAATTTATGCCTTCTAACATTCCATCTTTTGATATATCAGTATATATAACTGTTTTTACACCTAATTTTTCCATATCTTTTATAAATTCTATAGAATCTTTTTTTGTAATTTCTGTCCAACCAGTAATTGCAACTTTTCCATCTTTTGCATCAATTCCAATAACTATTTTTTCTGCACCAAATTTCTCTACTGCTTCTTTTACTATTTCAGGTTTTTTTATTGCAATAGTTCCTAATATAACTCTACTTACTCCTAATTTTAATAACTCTTCAATTCTGAATAAATCTCTAATTCCTCCTCCTAATTCTACAGGAATATTTATATTGTTCACAATATCTCTTATCAGTTCTCTATTTTTTAATTCTCCTTCTAATGCTCCATCCAAATCCACTAAATGAATAAATCCAGCACCTTCTTCTTCAAATCTTTTAGCTACTTCAACTGGATTGTCAAAAAATATTGTTTCTTTCTTATAATCTCCTTGTGTAAGTCTTACACATTTTCCATTTCTAATATCAATTGCTGGAAATATCTTCATTATACTCCTCCACACCATTATTTTCAATTACTTTTTTAAAGTTCTATACCTTTACTTCTTCTATCTCTTTGAACTTTAAATAAATATGAAATTATTCTGTCTCTTAATTTTTCATTTATCTTAACAAATTCTAAACCATAACCATATCTTTTTCCTCTATCATCTTCAAGAATATCTTTTCGTTTTATTGCTCCAAATATTTTTTTACATTCCACTCCATTAGGTAATTTAAATTCTATTTCAAATTTATCATTCATTTTCAGATTATTTAAAACTAAAATATAAATTCCACCACCACTTATATTTTTAGAAACTCCTTTTATTATTTCAAATTTATCTTCCTCATTTTCAGGATTTTCTTTTTTCCTTTTTAAGGTAGCAATTACATTCATTCTTATTCTTACATAATTTCTTCTTTGTAATCTTTCTATCTTCTCAGGATAATGCAACACAAAATTTGAAAAAGGTTTTAAATATCTTCTTACCACTTTTCCTGAAAATCCATAAACTCCATCTTTTTTCACTTCACTTATTCTAACCATTTCTCCCACTCTTAATGGAATAACGTGTCCTTTTTCTATTGGTAATCCTATATGAACATCATTTTTTTCATCTATATCTTCTATTTTAGTTAAATATGGACCTTTTTTAGTTTCAGGAAGTTCTATCTCTATTCTATTTCCTATTTTTATAACATCTTCTATATTCATAAGCTCCCCCTAGAACTCTATTTTCATCCCTATTCTTATCTCTCCGTTTTTATTATTTTTTATAAATTTATCTTCATTATCAAAATTTAAATTATAATCTTTATTGAAAAAATCTTTTTCATTATCTATATAATCTTTATCACTTTTTATATATAATATGTATGTTTTGAAATTTTGATTTAATTCATACAACAATTTTAAGTATAATACATTATAATTTTCTATATTGCTTTTTTTATTTTTATATCCTATATCAAAATTTAAATTTTTTAAAAAATCATATTTTATCTTACCATATATTTCAGTTGATTCTTGATTTTTTTTAAAATCATCTAAAACAAATGTTGTATTACTTTGTATTGTATCTATATTAAAACTTTCTTCATCGATAGATTTTTTATTTACACCTATATAAATATTTGTTCCATAAATTTTATTTTCTATTATTATATAATGATTTATAAAAGTATCTAATATAGTATCATAATAATTCATTCTATAATGTATAAATCCGTTTTTTATAACTTCATATGAAGTTTCAGCAGATATTTTATTATAAAATTGTGCTTTCCCATCTTTTCTTTCATATCCAATTTTAAAATTTGAATATTCTGCAATTATATTATATATTTTCATATTGTTTGTCTCTGTAGTATTCGTTTTTGTATATCCTAATTTTAATTTTAAATTATCATCTAATATTTTTATCAATGATAATTTTCCCAAAAGTTCATACTTTAAATTATTCTCTTTTTCGTTTGGAATATACTCTAAAAATATATCTGCATATTTTGTAGATACTTTATCCATAATTTTTAATACACTATTATTTTTTTCTAAATTAAATATATTTATATCATTTTTTAAAATTAATCCATATGAATTAAATTCGTTATTTGTAATATCATAGTTATCATATTCAATATTTCCTAATGATGAATATAATTTATTTTCATATCCTTTTGTATAAAATTGAAGCTTTAATTTCTCTATAATATCATAATCCATTTTTAATTTTGTTACTAAATTATTATCAATACTGTTTTTTCCCATTACAAATTCATAATTATTTCCATATAATTTTAATTCTGAATCATATTTTGAATTGTAGTTTTTTGCATTAATATCACCGGTTGATATATAATAATCTAATGATAATTTATAATTACTATTAGATAAAAATTGTTTTTCTGTTGAATTCGAACTTACAGAAGTTGTATTTTTTAAGTTATTTGTTTTTATCATAGATTCTATTTTTTTTATTTTTAAATTTAGATTTTCTATCTCTTTACTATTTTTTGTTTCATTTTCTGTTTTTAAATTTAATTTTTTTTCTAAATCTTTTATTTTATTTGTATATTTATTTATGTTAAATCCAAAATCACTTAAATTTTTTGAAAAATCATATACTAAATTTTCTATTATAAGCAGATCATCTTTACTTGCTTTTTCATCATCTAATTTATTTAAAACTTTTGATAAATAATATGCTAATTCATATTTTGTTATTTTTTGTTCTCCATTAAAAAAATCTGAGTCAACTGTTAAAACTCCTTTGTAAACTAAATTTTCTATTGCTTTATACGCCCAATGCTCTTTACTAACATCTTTATATAGTGCATCATCTTTAGCATAGCTAAGCAAATTTATTATTACAAATAAGATCATAAATATCTTTAATTTCATTATGCCACACCTCACATTTTTTTTAATTATAACATAAAGATTAGTTATTATCAATAAACAATTCTACCATGAATGTGTTAATATTCACCTTATAATTCTTTTAATCCAATGAGTATATTTATTAAAACTGTTTCTTAATTTAAAATTACTAAATATTTTTTTTATAACAAAAAAACTTTTTTCTAAATAAATTTATACTTTTACATTAAATAAATAAAAATATATTAAAAAAAGCTGAATATATTATATTCAGCTTTTAAATTACTTTATTTTTTTTAAATGGCTGGGCTGGCTGGATTCGAACCAGCGCATGCGAGAGTCAAAGTCTCGTGCCTTACCGCTTGGCGACAGCCCAACAATTGCTAATTGCGCGAGAATTATTCTACTATTTTTCTTATGTTTTGTCAAGAGTTTTTTTAAAAAACTTTTTTCTAAGCTTCTGCTATTACATCTACATTTACTAAATCTTGATATTTTTTTACAACTATTTCGTTTATTGATGTTCTTACATCTGTTTTTATTGGATGTGCAATATCTTTAAATTCTCCATTTGGCATCCTTCTTGATGGCATTGCTACAAATAATCCATTTTTACCTTCAATAACCTTTAAACCATGAATTACGAATGCATCTTCAAAAGTTACATCAGCATATGCTTTTAATTTCACCTCTTCTTCTGCTCTAGAAATTCTTACTCTTACATCAGTAATGTTCATTTTGTATACTCCTCCTTTTGGGAACGTTTAAAAAAACAACTTGCTCTAATTTTATATCAAAACTACTATAAAATCGCATCTTTATAATATAAAATCAACAAATATTTTTTAAGCCATTCCTCAGTAATTTTTGTAAACCGTTTTTTTTATATTATTTCATTAATATTTATAAAATAAGATGGAAACTCTTTTTTTAATTTTAATTCTATATTTTTACTTTTATCTTTTCTAGCCAAAATATAATAACAGCTTCCACTTCCAGACATATTAAATCTCACATCTAATATATCTTTTAATTTTTTTTCAAAATCTCTTATATCTTTAGATTTTTTATACATATTTTGTTGTAAATTATTTTCTATGTTATCTACTATTAATTTTAAATTATCATTTTTTAACCCTTTTATTATTTTTTTTATATTTGATATTTTCATATTATCTTGCTCTAACACATTTTCATATGCTAATTTTGTACTTACTCCAAAATCAGGTTTTATTAAAATAATATCAAAATTTTTAATTATATTTATAACTTCTATTTTTTCTCCAATTCCTTTTACTAATGCTGGTTTATTTATTATGAAAAAAGGTATATCTGCCCCTATTTTCAATCCTATTTCTAATAATTCTTCCTCTTTTAATATATTTTTATAATAACAATTTAACTCTTTTAAAAAAAATGCACCATCACTACTTCCACCCCCAAGACCTGCTTGTGATGGAATATTTTTTATTAAATTAACTTCTATCTTTTCTTTTTTTATCCCTATTTTCTTATAAAATTCATTGTATATTTTATAAATTATATTTTCTTTTCCAGTAGGAATATCTTTTTTATTAGAACTTATTATAAGTTCACCTAGCTCACCGCTAAATTTAATTTCTAATCTATCATATAAATTTATTGGAACCATTATCATCTCTAATCTGTGATAACCATTCTCCAATTTCTCCAAAACATTTAATCCTATATTTATTTTAGCATTACTTTCAACTGAAACTGTCCCCATTCACAAGTACACCCTTTCATTAATTATAGTATCATAATAAAAAAAAAAAATCAATATATTCTATATAATGATTTTTTTTTATTATCCTTTTCGTGGATCAATTATTATCTCTATTAATTTATCTGCATCTTTTTTTCCTACATTTCTTGTTGGCACTTCTAATATTTTAAATTTTATAATTTTATCATAATAACTAACTTCTATAATATCTCCCACTTTTACCTTTGTAGATGGTTTTTTTACTTTTCCGTTTATCATAATTTTTTCATTTTCAGCTACATTTTTTGCTACAGTTCTTCTTTTTATTATTCTTGAAATTTTTAAAAATTTATCCAATCTCACTTTTTGCTTCCTCCCACAATTTTTCCATAGCTTCTAAATCAGCCTTTTCTATATCTGTATTATCTTCTATATATCTAAACCTTTTTGTGAATTTTTTTATTGTTTTTCTCAAAGCTTCATCAGGATCTATTTTAGCCAATCTTGCTACATTTATTAGACTAAACATTACATCTCCTAACTCATTTTCAAATTTTTCTTTATCCTGATTTTTATGCTCTACTTTTAATTCTTCTATCTCTTCATCCATTTTTTCAAGTGCACCTTCTAAATTTTCCCAATCAAATCCTACTTTTGCTGCTTTATGTTGAATTTTATATGCTTTTAATATTGAAGGTAAATTTTTTGGAATTCCATCAAGTGCAGATTTTCTATTTTTATGAGATTTTTCCTCTTTTTTTATTCTATCCCAATTCACCAAAACTTCTTCTGAATCTTTTACTTTTACATTTCCAAATATATGTGGATGTCTTCTTATTAATTTTTCATTAATAGCCTCTATCACATCATATACATCAAAACTATTAATCTCTTTTTTTATTTGCGATTGAAATACTATTTGTAATAATAGATCCCCAAGCTCATCTTTTAGCTTATGGTCCTCTTCTGACATAGCTTCTAACACTTCATATGTCTCTTCTATAAGATATGGCTTCAAGCTCTCAATAGTTTGTTCCTGGTCCCAGGGACAAACCCCAGGACCTCTTAATATTTCCATTATCTCTATTAAAGTTTCAAAACTTTTATTATTTTTTTGTTTTAGTTTGTGAACTCTTTGCAGTTTTTTCATCTTTTTTAACTCCTAAATATTCTTTTTTCAAATTATCTATCCATTTAGTATATTCTGTTCTTCTCATATCATTAGAAACTTTATCTTCTAAAGATTTTTTCACTTCTTCAAATGGTTTATATCCTTCAGCTTTTTTATCTTCTACTTGAATTATATGATATCCAAATTGTGATTTTACTAATTCAGGATAAACTTTACCTTTTTCTCCTTTAAATGCAGCATCTGCAAATGATTTTACCATTTTTTTCTTTGTAAACCAACCTAATTCTCCACCAGTTTTACCAGATGGTCCTTCAGAATATTTTTTTGCTAATTCTGCAAAATCTGTTTTTCCTGCTAATGCTTCTTTTAATATTTTTTCAGCTTTTGCTTTGGCTTTTGCTAATTCATCTTTTGTCATTTTTGAAGTTGTTTTTATTAATATATGTCTTGCTTTTACTTGTCCTTCTTGTTTATATTTTTCTTTGTTTTTTTCATACTCTTTTTTTAATTCTGCATCTGTAGCTTTTACTTTATCCAAAACATTTCTTTTTACTGCATAACTTGCAAGTAATCTACCTTTTTGTTTTTCTAAATCTGCTACAAATTCTGGATCATTTTCTAATCCTTGTTTTATTGCAACATCTTTTAATATTTTTTCTTCAACTAATCTATCTAATATTTGTTGTCTTCCTTTTTCATTATCATAATAAGCTTTGTATTGGGCTGGAATACTATCCATTTCAGCTTTTAAATCATTTTCTGTTATTACATCATTTCCAATTTTTTTCAAAACTTTTGAATTGTCTTTTTTTACATTAACTGCATTTCCTGCTTTTTTTGATTTTGTGGCGTTTGCCGTAGGATTATTACATCCTCCTACTAATGCTGCTAATATTAACATACTTACTACTACTTTTTTCATCTTTCCACTCTCCTTATTTTATAATTGATGTAAAACCTCTTTTAAATTATTTTCTTTACTTAAAAAAAGTTTTTCTTCTTTTTGTAAATATTTTACTTTGTTATCTAATAATAGCACATCTAATTTGTCTAAATCAATTTTATTTTTATCAACCTCTAAATAAAATCCATTTTTTAATTCTTTTATGCTAATTATGTTTTTTAAAGCACATAAAATTTTTATTTCAAAATAATCAAATAGATTTTCTACTTCTATTGGCATTTTTCCAAATCTATCTATTATCTCATTTTTAAGTTCTTTTAATTCTTTTATACTATTTACTCTTATCATTCTTTTATATACTCTATACTTTTCTTCTTCTTTTATATAATTTTCAGGAATATATCCATTTTCTTTTATTTCTAACGTCACCTTCTCAATTGGTATAATATCTTCGTTTTTAATTCTTTTCATCTCATATTCCAACATTTTAAGATACATATCATATCCTAAAAATTCCATTATTCCATGTTGTTTCTCTCCTATTATCTCTCCAGAACCTCTTATTTTCATATCTTCCATAGACAATTTTAATCCTGAACCAAAATCTTCTAATTCATTTAAACTTAAAATTTTCTTTTCCCCTTTTTTAGTAGATTTCCTATTTTCATCTTTTAACAAATAACAAAATGCTTTTCTACTTCCTCTTCCTACTCTTCCTCTCAATTGATATATTTGAGATAATCCTAGTCTATCATAATTTTCTATTATTATAGTATTTGCATTTTCTATATCTATTCCATTTTCTATAATAGTTGTAGTTACAAGAATATTAAATTCTTCATTCTCAAATTTTTCTATTTTATCTCGTATATCTTTGGGTTCCATTTGTCCATTAATATAATCTATCTTTACATATTTAGGTAATATTTTTTCCAATTCAGTTACTTTTTCTTTCATATCTTTTACTCTATTATACACATAAAAAACCTGTCCATCTCTTGCAATCTCTTTTAATACAGAATCTCTTATTAAATCTCTCTTTTTATCTATAAAAATAGTGTCTATTGGAATTCTATTTTCTGGTGGAGTTTCTATTACTGAAATATCTTTTATTCCCATAAGTGATAAATTTAAAGTTCTTGGAATTGGAGTAGCTGTCAAAGTTAATACATCTATATTCGATTTATATTTTTTTAATTTTTCTTTTACTCTAACCCCAAATTTTTGTTCTTCATCTATTACTAAAACTCCTAAATCTGAAAATTTAACATCATTTTGTATTAATCTATGTGTCCCTATGATTATATCTATTTTTCCATCTTTTAGTTTTTTTAATATCTCTTTTTGTTCTTTAGTTTTTTCTAATCTCGATAACATCTCTATCTCTACTGGAAAATTTTTATATCTTTCTTTAAATCTTTCATAATGCTGATGAACTAAAACAGTAGTTGGAGCCAACATCGCTACTTGCTTTCCATCCATTACACATTTAAAAATAGCTCTCATTGCTACTTCTGTTTTCCCATATCCTACATCACCACAAACAACCCTATCCATACTCTTACTGCTCTCCATATCGGCTTTAATATCCTCTATGGCTTTTAGCTGACCTTCTGTTTCTACATATGGAAATGCTTCTTCAAACTCCTCTTGCCAAATAGTATCTTTCGAAAAACTATAACCTATACTTGCTTCTCTTTTCGCTTGTATTGTTATCAGATCTTTTGCAAATTCTATTATCTCTTTTTTTAATTTTTCTCTTTTTTTATTAAATCCTTTTTTTCCTAATTTATATATTTCAGGTACTTTCCCAGGTTCTGTTATGAATTTTTCTATTCTCTCTATATGCTCTACTGGTACATATAGTTTATCTTCATCAGCATATTTTATTTTTACATAATCTTTATTATTTATGCTTTCTATTCCCAAATATATTCCTACACCATACATAGAATGTATTAAATAATCATCTTTTTTTAATTGATTTATATCTGTAAATCTAACTCCTTCTTTTCTTTTTTCAACTCTTCTTACTTTAATTCCTTTTAATTCTCTATCTGTTAATATAATCTCTTTTTCTAATTCAAATCCTTCAAAATATGGATATTCTATAATTTTTATACTTTTATGTTTTTTAAATATCTCTTTTAATCTTTTGTCTTCTTCTGTTAAAATAGTTACTTTTTTATCTTTAGATATTTCCATTACTTTATCATAATCTTTATATTGATTAATCTCACTATTTTTAAAACTTTTCAAATTAATTTTATCAGAATTATTATAAAGTTCTTCTAATTTCTCTCTAATTTTATCTTCATTTTCTCTTTCTAACAAAATCTTTTCTTCAACTCTATAATTTATTAAATCTGCATTTTCTAAATATAATTTAACATTTTTTTTATCTATTAAATCTAATAAACCATACTCATTTTCTCTATCTAAATCAAAAAATATTTCTATTTTTTTTATATTTTTTATAGACTTTTGAGTGTTAATATCGAAATATCTAATACTCTCTATATTATCTCCAAAAAATTCAATTCTAATGGGATTATCTTCTTTAAATAAAAATATATCTAATATATCTCCTCTTAAACTATATTCTCCATGTTTTTCTATTAGATAATTTTTAACATAACCATTTTCTTCTAATAAATTCAATATTTTTTTCAAACTATACTCTTTTTCAATTTCTAATTTTAATGATCTGTAATTTTTATAAAAAGAGTCTAACGCTTGATTTATATCTAAAAATACAATAAACTTTTTTTTACTATTAATTAATTTTAATAGTTGCTGATTATTTATCTCTTTTTCTTTTTTATTATTATATTTCATATCTAACTTTAAAACTTTACCTTTAAAAATATCTTTTAATACAAAATAAAAATCATCTCTATTTTTTATTGTAGATGATATATATATAGCCCTTTTTTCATTTTTTAAATAAAAAGGAACTGCTCCTCTATATATCTCTTCATCTGTTAGATTTATTTCAAAATTCATTTTTCACTCCTAAATAAAGTTTGATGAAAATAAAAAAAATTTCATTTCTTATTGTATATATTTTTTAAAGACACGATAAATCGCCGTCTATTCAGTACTATATTATTTTTTTCGGAATAACTGCCTATGTTTATATAAAATCAAAATGATAAGAGCGGGGTTTTCTCCAATGCTATCAAGTTAAGGAGAAAACTAAATCATACCTCTCCGTCAGCTCCGCTGCCACCTCTCCTAAAAGGAGAGGCTTTTTGGCTCTCCCTCTGGGAGAGCTGTCACGCTAGTGACTGAGAGGGTGCTTTTTGGCAAATTATAAGAAAACATGGCCTTTTTTCTTAGCTTGATGACATCGACTCTACATAGACATAATAAATATTCAAATTATTTTATATGCGATAAAATTATAGCTATATCTCCAGGCGAAACTCCAGATATTCTACTTGCTTGTCCTACAGAAAAAGGTTTTGTTTTATTTAAAGCATCTACTGCTATATTCGACAAACCATTCACATTACTATAATTAAAATTTTTAGGAATTTTAACATTTTCCAATTTTTTAAATCTTTTTATCTGTTTTTCTTCTCTTTCTATAAAATCTTCATATTTTATCTCTATTTCTACTTGTTCTATAACCTTTTTAGGATATTCTCTTATATCTACAAAATATTTCAGGTCATTATAACTAAATCTATTTCTTTTTAATAATTCTGCTGCTGTAATAGCTTTTTTTATAGGCTTTTCTCCCATACCTTCTAACACTAAATTATTTTCTAATCCAGGATAAACTTTCAGATTTTTCAATCTATTTATTTCTACATTAATTGCTTCCTTTAATTCTTCAAAATGTTCTATTTGTTCTTTTTTTAGTATCCCTATCTCTTTTGATTTTTCTAACATTCTAATAAAACTATTATCCTGCCTTAAAATCAATCTATACTCTGCTCTTGAAGGTAAAACTCTATAAGGTTCTAACAACTCTTTATTTATCAAATCATCAGTTAGTACACCTATATACCCCTCATCTCTTCTTATTATTATTGGTTCTTTATTTTCTATTTTCCTAACAGCATTCACTCCAGCCATAAATCCTTGAGCTGCTGCTTCTTCATATCCAGAAGTTCCATTTATCTGTCCTGCTAAAAATAAATTTTTTACTATTTTATTTTCATAATTTGGATATAATTGAAATGGTGGAATATAATCATATTCTATTCCATATCCATATCTCATTATTTTTACATTTTCCAAACCTGGTAATGTCTTTAACATTTTTTCTTGTGCAAAAGGTGGCATTGATGTAGTCATTCCATTTACATATATCTCATTTGTCTCTACACTCTCTTGTTCTAAAAATACTTGATGATTTTCTTTTTCTGGAAAATTTAAAACTTTACGATCAATAGATGGACAATGTCTAGGTCCTTTTGTATCTATCATTCCTGTTACAATTGGGGAAAATTTTAATAGTTCATTAGTCACTTTTATAGTTTCTTTAGTTGTATAAGTAAGCCAAGTTGGAATATTTAAATTATGCTCTTTTTTTGTAAATATTGAAAAATAAACTGGATTATCTTCACCTTTTAATTCTGTTACTTTTTCAAAATCAATAGTTCTTTTATCAATTCTAGGTGGAGTTGCAGTTTGAAATCTCTCTATTTTTATTCCATTTTTAATTAAGCTATCTGACAATTTTTCAGATGATTGTTCTCCTTGTCTTCCAGAATTATATTTTATATCTCCAATTACAACTCTTCCTTTTAAAAATGTTCCAGTTGCTAAGACTACAGCTTTTGATTTATATTCTATTCCTAATGAACTTTTAACACCTACAATTTTTCCATTTTTTACTAATATTTCATCAATAACTTCTTGTATTACTTCTAAATTTTCTGTGTTTTCTAAAACTTCTTTCATTTTTACTCTATACCAATATTTATCAGCTTGTGCTCTTGTTACTCTTGCTGCCACTCCTTTTGTACTATTTAAATATTTTAATTGAATATTATATTTATCTGTATGTTTTCCTATCTCTCCACCTAAAATATCAACTTCTGATATTAAATGGCTTTTTCCAGGTCCACCTATAGCAGGATTACAAGACATCATAGAAATACTATCTAAATATATTGTAAATATAGCTGTTTTTTTTCCTAATCTAGCTGCTGCTAATGCTGCTTCTACTCCAGCATGACCTGCACCTATTACAATAATATCATAACTATTTATCATTTTTCCTCCATTATATTTTTTGTTTAATTATTATTATTTTTAATAATTTTCCGTAGGGGTAAACTTACATATTCACCCTGCTTTTTATATTTTTATTTGGAAATTATAAAATTAATCTCACAATCGTTTTTATGCTTTTATTTTATTCTGCTTTTAATTTAGAATCTGGGCAAACACATAGGTTCGCCCCTACAGTGTATATTATTTAATAATAGCACCTGTAAGGGCAATTCATGAATTGCCCCTACCAGACATAACATTGTTTCACGTGAAACAATAAAAAGCCTGTTTAAGAATATTTTACAAATTAATCACAATTAAGAACGCTGTTTTTAAGCTATTCCTATTTATAATTAATTTGTAAGCCATTCCTAAATAACAGGCTCTTTATTTTCCTACACAAAAATTTTTAAATACATGATCTAAAAGATCTTCTGATGAAATTTCGCCAGTTATTTCACTTAATGAATCTAATGCTTCTCTTAAATCAATAGCAATTAAATCCATAGGCATTTCCATATTTAATGTATTAAAAATATTATCTATACTATCTTTTACTTTTTCAAGTGATGATTTATGTCTAATATTTGTTAAAATTAGTTTTTCCGAACTATTTTTTATATCATCTTCTAAAATAAATTTATATATGCTTTCTTCCAATTTATCTATATTTAAACCATTTATAGCAGATATTTCTATCCAATTATTTATTTTATCAAGCTTAGATATATCTATTTTTTTAGATTTATCTATTTTATTTATAATTCCTAAACATTTTTTATCATCAATATATTTATATATATCATAATCTTCTTTTGTCAACTCTTCAGAATTATCCAATACAAACAATACCAAGTCTGACTCTTTTATCTTAGTTTTACTTTTTTCTACACCAATATTTTCAACAATATCTTCTGTTTTTCTTATTCCTGCTGTATCTACTAATATTAATGATATTCCATTTATATTTATAATTTCTTCAATAGAATCCCTTGTAGTTCCTGGTATATGTGTAACAATAGCTCTTTCTTCTTTTAATAAAGAGTTCAAAATACTTGATTTTCCTACATTAGGTCTTCCAATAATTGAAGTTTTTATTCCCTCTTTTATCTTTTTTCCTTTGTCATAACTTTTTATTAAAATATCACATTCACTATGAACTTCTTCTAAATTTCCCCAAAGTTCTTTTGGTAATGGCTCATCTATCCCTTCTTCAGGATAATCTATTACCACATTTACATGAGCTGCTACATCCAATAATTTTTTCTTTAGTTCTCCTACTTTTTCTTTTAAGTCTCCCCTTAATTGTTCTACAGAAAGAGTTAAATTTTTTTCAGATTTTGATTTTATTAAGTCAATAACTGCTTCGGCTTGAGTTAGATCAATTCTTCCATTTAAAAATGCTCTTCTAGTAAATTCTCCAGCATCAGCTAATTTTGCTCCATTTTTCAAAACTATTTCTAAGATTTTTTCTGTTATTAAATAACCACCATGACAATTTATCTCAATAACATCTTCTTTTGTATAACTTTTAGGTGCTTTCATTACCATAACTAAAACTTCATCAACTATTTCATTTTCATCATATATATGTCCATAATTCACACTATTGTGTTTTAAATCTTTTACATTTTTTTTTGATTTTGGCTTAAATATTTTTTCCAAAATATCAAAAGATTCATCTCCTGAAATTCTAACTATACCTATTCCACCTTCTCCAATAGGTGTTGAAATTGCAGCAATTGTTTCAAACATTTTAATCATCTGTTTTTTTCAATTTTATAATAACATATCTTTTGGGATCTCTTCCCTCACTATGTGTCTCCAATTCTTCATATTCATTTGCAATTTTATGAATAATTTTTCTTTCTAAAGGTGGCATTGGATTTAATTTTACTGCTTTTTGTGTTGCTATAACTTTTTTAGCAAGTTTATGAGAAAGAGTAATCAACGTTTCTTCTCTTTTTTTCTTAAATTCCTCTACATCAACATATATTCTATTACCAAAAAATAGATTATTTAACAATTTTTCAAAACTATTTAAAGTTTTCCCTTTTTTACCAATAATAATTCCATTATCTTTTCCGCTTAAAAATATATTATATTTCCTAGCATCAACTCTTTCAGTTTTTACTTCTAAATCTAACCCCATTAATTCTAACAGTTTTTTTGTTTTAGCTTCTATTTCATTTTTTAAAACTTTATAAAATATTTTAAATTCTCCTTTTTTAGGAAATAATCCTAAAAAACTTTTTGGAGCTTCTAATTCTTCTATTTTTACAATATCACTATCTTTTTTTTCTTCTTTAAATATTTTAATAGCTTCTTCTTTTGAGTTTGCTTTAATTTTTTCAAATATTTCCAACTTATTTTCACTCCTTTTTCATAATGTAATATTGTTGCAAAAAACTTATTAAACTTGATGTTACCCAATAAATTTGAAGTCCAGAAGGCATACTCATTGATATAAACACCATGAAAATAGGCATTGTATATGTCATCATTTGCATTTGTTTATTACCTGTCCCACCTTGTCCCATTACTTTTTGTTGTAAAAAAGCAACTATACCATTTAGTATTGGTAATATATAAGTTGGGTCATTTGCCGTAAGATTCCATATTAAAAAATGTGTGTTTGCAGGGATAAGAGCATCTGCTCCTGTTTTTCTTAGAACTCCAAATAAACCCCATAAAATAGGTAATTGTAAAACAACAGGTAAACATCCACCTAAAGGATTTACTTTATGTTCTTTATATAATTCCATAACTTTTACATTTAATTCCTGTGGATTATCTTTATATTTTTCTCTAATTTTATCAACTTCAGGTTGAATTTTTTTCATTCCTTTCATTGATTTATCTTGCTTTAGTGTTAATGGAAAAAGTATTATTTTTATTAATAGTGTAACTCCAATAATTGCTAGTCCCCAATTTCCTAAAATTCCATATAAATATTTAATAACAGTTGCTACAATTGATTGTATAAAATTCATTTAACCTCCTCTTTTTTTGGAACCGGATCATATCCTCCTGGATTAAACGGATGACATTTACTAATTCTTTTTACTGACAATAAACTCCCTTTTAAACTTCCATGTATAGTTATTGCTTCTTTTGCATAACTAGAACAAGTAGGATAAAATCTACAAGTTTTAGGTTTTAATGGTGAAATTAATTTTTGATATATAAATATAAAAAATAGTAAAATCTTTTTTATCATTTTATATCCACCCTCTTTAATAGTTTTATAACTTCTTTAGAAAGAATATTATAATTTACAGTTTTAATATCTCTTCCAAAATTTCTTTTGGCAATAAATACAATATCATATCCTTTTGGAAAAATATTTTCATTTAATCTATAAGTTTCTCTAAATAATCTTCTAATTCTATTTCTTTTTACTGCATTTCCAACTTTTTTACTTGTAACAAACCCCAATCTATTTTCATTATAATCATTTCTATAAAAGTATATAAGAAAATTTTTAGAAAAAAATTTAACTCCATCATTATATACTTTAGTAAATTGTTTTATATTAATTAAATGAATCATTTAGTTATATCTCCTTAAAAATAGCTTAAACTATTAAGCCTTTTTTATTTTTTAAAAACCCGGTGATTATAACACCGGGTTTTATGCTGATAATTTATGTCTTCCTTTTGCTCTTCTTCTTTTTAAGACATCTCTACCTGATTTAGTTTTCATTCTTAATCTAAAACCATGGTCTTTTTTTCTTTTTCTTACATTTGGTTGGAATGTTCTTTTCAAAATTTTCACCTCCTAATATATTTCTCTTAATCAGTTATCTATTTTATTAAAAATACTGAAATTTGTCAACATAATAAATAAAAAAATAAAAAATATATATAATTAGCTGTTTTATTTTATACTAGAAAAGTATAAAATTTATTCAGAAAAAGCAAGTATTCTATTTATTCAAGTATGTGATTTTCCAATGCAAAATTTTTTAGAAACTAAAAATTTAGAAAAATATTTATATTTTATCAGAATGAAGCACAACTTTTTTAAAGGATTTAGTTTATATCGTGAAAAAAGTATTTTGTAATGTGAAAAAAGTATTTTAGAACTTATTTTATTTAATTTTATATGTTTTACACGTTTTTCAATTATTTATTAATTAATATAAATATATAGTAGTAGTAGTAGTAGGGGATGTGGAAATGTTAAAATGAGTGTGTTTATTGGTGTTGTTCTATATTTTATTTGTGTAAAGTTTGTATAAAAAAAAGAGTTTTACACAATTTATTTTAGCGGGGTTTTGTTTATCCACATAATATTATCATACTTTCAATCTTTTTTCTACATAAAATTGTTTAAAGTGGAAAACTTTTAATGAATTTAATAAAATCAATAGTTGAAAAGTTAATAAAAAAAATATATGAATTGTGGAAAAAGGTTTAATTTCAGTGTTTTTACAATTTTGTATGTGCAAA
>sequence2
TTGGGGGATAAAGAAACAAAAAAAGAGGTATTTGAATTAAATGATTTTGGTGAATTTAAAAATGATCTATTTGGAGGAGTTCTTACAAAAGAAACAAAGCCTAATAAATTAAAAACAGAAAAAATTCAAATAGAAAATACAGGTAATTTTTTAGAAGTAAAAGATGGTATAGTTAATATTCCGTTAGAGTTAATAGTCTTTCCTTTTTTTACAACTAGAAAAAGTGATAGAGAAGTTAATTTTGAATATCAGTTTAAGGATATGGGACTTACTATGTATTCTAATTTAATTGGGGCAAAAATAGAAGGGAAAAATATACTTCAGCCTGGTAGCTTTGAAAAAAAAGTTTTTGATTTTATATTAACAAAATTTGAAGATGATTTTGCAAATGGAGAATATAAAGATTTTATTCAATTTGATATAAGATATTTTATCGTTGATTTTTTAGGAAATAAAATGAATGATAGATATTATTCTAAAATAGAGGAAGCTTTAAGGAATATGAAATATACAACTTATTCTTTTGGAGTTAAAAATAGGAAAAAAGCAGGGAATTTTTCTTTTGAGAGTAAATCATTTAATTTACTTAATTATGAAAAAGTTAGAAATGGAAAAAAGATATTTTATAAAGTTTATTTAGATAGGAATATTACAAATAAAATAAGTGAAAAAAGATATGTTAAATTTAAAATGGAAGAATTAAGTTTATTAGAAAAAAAGGATGCTGTTGCATTAAGATTGTATCAATATATTAGTATGAAACGATTTAGTGCTAATGAAGGGGAATATAGAATAGAATTGCTTGCTGCAGTTGTGCCGCTAAAGACTTTTATAACTCAAAAAAAAATAAATAAAAAAGGTGAAGAAAAAATATATAGAGTTAGTAAAATAAAACAAGTTTTAAAAAGAATTTCTAAGTCTTTTGATATTTTAGTGAAATTTGGATATTTAGAAAAATATAAAGTTATAGAGATTAAAGAAGAAAAAAGCTATAAAATATTTTTTACTTTTGGTAATTCTGGATTTCATGTTTCTGATTATATACAAAAAAGTTCAAAAACATTAATAAAAGATAGAAATAAATTATATGTTGCTATAGAAAAGGCTAAAAAAAATATATTTTTTAGTAAAAAATATAACAAAAGAGTCGAAAATAAAATGGTTAAAGTAGCAGATATTTATGGTGAAAAGGTAGCAATAGAAGTTTTAAGTAATATATATAAAGGATTGAAATCAGATATTAGAACATCATTATTGAGATATATAGATAAAGTGTTAAAAGAGTTAGTAGAAGATAAAAATTTCTTAAACGAGAATAAAGGTATGAAAACTGTAAGCAATAAAAAAGTTTTCTCAAATGAGAGTATAGATGTAATAAGAGAATCTAATGGTGAATATAATAAAAAAAGAAAAAAAGAAAAGAAAATAGATAAAAAAGATGAAGTTTCAGAAGAAATATATTATATATTTTATAATAAATTACCAGAAGATGAAAAATTAAAAATAGATAAAGCGGCAGAGAAATTATGGTTAGAAGAAGAAGGAATGAACGAAAAAGTATTAGAATTATTTAGAAAAAATAAAATAGTATATACTGATATGATAAAAAAATACACAGTAGCAGCTATAAAAGTTGTATATAGTTTTAATTAATAATATGATTGACTCACAAAAAGGTATTTAGTTTTCTTACACTACTATAAGTTTTTCAGAGTTTTTTGAATGTAATCTGTATTCTCATTTTAGAAATTTATTTTTTAGTGAACTAAATTTAATATATTTGAGATACATGGCTGCATAAAAATGCATTTTTGAGGTCTAATCATAGTATGATAATAATAGTTTTAGAAAAATTATAATAAAAAAAGAAAGGGGAGATATTGTGAAAGTAATCGCTGTTGTAAATCAAAAAGGAGGAGTAGCTAAAACAACTTCTACTCAAAATATTGGGGTAGGATTAGCTAAACTTGGTAAAAAAGTTTTATTAATTGATTTTGATCCACAAGGAAATTTAACATCTGGGTTTGGAATTGATAAAAGAGATTTAAATTATACAGTTTATGATATACTAAAAACAAGAGCATTTCCAGGACCAGAAATATCTGTAGAAAAAGTTTTATTAGAAAAAGATAATATTTCTATTTTACCTACAAATATAAAAATGTCAAAAATAAATATAGAATTAGGTGGAGTGCCAGGAAAAGATAATATATTAAAAGAAATATTAAAAGAGATATATGGATTTGATTATATACTGATTGATTGTCCTCCTAGTCTTGATACATTGACGTTTAATGCCTTAACAGCAGCAGATGCAGTATATATTCCGGTTCAAGCTGAATATTATGCACTAGAGGGAATTTCAGAGCTAATGGATACAATTGATATGGTAAAACAGAGATTAAATGAAAATTTAAAAATAGCTGGAGTTTTTGCTACAATGTTAGACAAAAGAGTTAAATTACATTTGGAGGTTATAAAAGAATTAAAAAAATTCTTTGGAGAAGTTATGTTTAAAACTTTAATTAGAAGGAATGTAAAAGTATCAGAAGCATCTTCATATGGTAAATCAATATTTGATTATGATGAAAAAAGTCACGGAGCACAAGATTATTTGAATTTATGTAAAGAGATAGTAGAAAGAGAGGTAAATTAATGGCTATAGGGAGGCTTGGGAATAATCCTTTAGAAAGGAGAAATAAAACAAGTACAGTCGTTTTAGAAAATAGAGATGTAAATGAAATAAAAAAAGAAGAGATAGTCAAGGAATTTGGGGAGTTAGCACATCTTTCTAAAATGTTAATACAGAACATAGATTTTTTAGATAATAGTTTTATTAATAGATTACATAATGATGAAAAAGAGTTAGAAATAGAAGAGTTGAAAAATAGTATACAAGAGATCGGATTATTAAATATAATATACTTGCAAGAAAAAGAAGATAGAAAATTTAGAATTATATCAGGACTTAGAAGATTAATAGCTTGTAAAGATTTATATAATGACAGTATAGATATAAAAGGTAAAAGTAGAGTTATAATTTTAAGAAAAGATACACCTGAGGAATATTTAGACAGAATATCTATTGATGAAAATACAAAAAGAAAAGATTTGACAATATTAGAGCAGTCATATAAATTTAATAAAGAAGCTGCGAAGAAAAATAAAAAAATAGATGAAATTTTGGAAAGTTATAATATAAGCAGAAAAAAATTTTATAGAATAAAAAATGCTATGAATTATCCTGAAGAATTAAAAATATTTGTAGAAGAAATAGGAGTAGAAAAAGCAGAAATAATAAATAAAATTATAAAATTAAAACCAGGAGCAGATACAAAGAATTTAATAAGCCAGTTAGTGGTGAAAAAAAGAGATGACTTAAGAATGATATTAAAAGAATTATTAAGTGGGAAAAAGAAAAAAAATGTTATTTTTGAAAAAAGCAGAAATGCTATTAAGATAAGAATAAATAAAAAGATTTCTAATGATTTGGAGATGGAATTGAAAAAATTGTTAGAAAAAATAGAAAATTATTAAAAAGTGTCGCCGCGACACTTTTTATTTTTTGGATATATATCTTATTTTCTTTTACATTTATTATCTTTAATGTATTTATGATAATTTTGTGTTTATAAGTTGTATTTTTGATAAACATTAATATTGTCGTAAAATTAGACCAACCTTCCTGAAAAGTAGTTAAAAAAATTAGAATTACCACTCTTTTAGTAATTAACCCTTAATTTCATTACATTCATTCTCTAGAATTTAAATTTATCATATGTAGAAAAATTAGTAACGAAGGCAGATGGGAATATAGAAGCAAGAATGTCGTCAAGTTATACAAAAGCAGATGGGAAAGTAAAAGATATATTTTCGAGGAATACAACAGAGACAAAAAATTTAGATATAACAGAAATAAATTAATGGATAGCGAAAGAGATGAATATAGATGGGATAGGGGATTTAAATTTATTTCATCAAGCAATGAAGATGAAATAGGAGAGATAGAATATTGGTTGAATGATATAACGCAATCCATATAGTATATCAATAAGAGAGATATTTGAAAAAGTATTATTAAGTAGTATAAAAGATTATTTGGTTGCATAAGGCAGACACCACCCACTTACACGTCGCAGTTCAGCAGTTATATCTAATACCAGAAACGTTTTTCCGTTACACTGCAAAAGTTTCTGATATAAGATATACCTACTTCCTTTGCTTGTTACAGCGGGTACCCGGTGATTGTATGGGGGTTTCTTTTTAGTGTGGATATTGGAGGATTATTAATAGTTGTTATTGTTAATATAGTTTAATTTGAAAGTTTTATCCCTGTTATCACTTCTTCATTTTCTTTTCACCGGCAAAAAGAAAACGAAGCAAAAGAAAGTGCCGTTTATAACCATCTGCAAAATGTCTTTTGGGGTAAGGATAGAGATGCAAACACTTGTTAAGCAGTAAAAATATAGGCAAGAGTATTAAGTAGGGATAATATTTTTAAATCATCTCGTGCGTGGCGTGTTTGGGGCACAGTGATTTGCCTTAGTAGGACGACTTGCAGATTAAGCGTGGATATTGGGAGAAGATAAAAGAAAATGGGGTGAGGATAAAAAGTGCAAAAAAAGTAGTTTAAGAGATAAAAATATCGTTTCAAGTTAAAAAAGTATCTGTTGAGGACGAAATAACGTCTGTTCAGGACAAAAGAGCTGTTTGACTAAAGATAATTAAGATGATAAAATAGAAAAAGTTGTCTGAATTTAGGCAATACAAAAGAAGAGATTAAAAAGTAATAAAAATTGTAAGAGAAATAAAAATAGGAGAGTGATATAGTGAGAGCATTTAAAGAGATGTTACAAAGGAATTCCAAGAAGATAATATTGATATTAATAGGAATATTAATATTATTTATATTAGGAATAATAAGTAGTGTAAGACAACCAGTAAAAAAAGCATTAAAAGAATCAAAGGTTAAAAAGAAGATATTATATATTCCCAAACAATTTATATGGCAAAAATATCCAAAAGATTTTAAAAAGGAATATAAATTCAAAGAAACAATAAAAAAGAATATAGCGAGAAAAGAGGTGATAAAGAAAAAAGATTATGAAAAAAAACATATGTTACAGATAAATTATTATGATAAAGAGGATAGGTTAATATATAGAATAGAAGATACACGAGGAATACAGCAATCAAGTTGGAGTTCGGGAAGAGGAGGAGCGTCAGAAAAGGTACGTCCATATCCCAAAGAGGAAGGGTATATATATGATGAAAAAGGCAGAATAATAAAAAAGGTATTAACCTCACCATTTTATTACAAAGGGAGCATAATAAGGAAAGCAAAAGATATAGAATCAGAGGAAAGGGAGACATATTTATTTGATGGAATTAGAACAGGAGATGTTTATTATACAGAATATAGTTATAATGAAAAAGGCGAATTAACAAGAGAATATAAATTAAAACCAATGGATTATTATGAAAAAGAGGTAATAGATTATAATATAGGGAAGAAGAAAAGAGAAAAAAAGATGATAGATTATGAAGTGCTTTCAGAGGAATGGAATAAGATATATGTAGAAATAGATAAAGAATATGATGATAAAGGAAAATTAATAAAGAAATTTGTATTGAGGAAGAATAAATTTAACGCAATAAGAAGTGAGACTAATTTTGATATAAAAAAAGGAGAAATAATAACAAGGTATTATGATGGAGATAAGATGTTTGCTACAGTAACAGAAACAATGGTTGGAAAGGATAAGGCTATTGTGAAAAGGGAGAGGGTTGGAGATGAGAGTAAAATTATTATAGTTGACTATATTGAATATATCAGCAAGGATAAATTTGATTATAAGAAATATAAAAATTATTATTCTCTTTATGATCAAAGATATGTATTAAATACTAATGATGAAATTAAATTTAAAGTGAGTTTTTTAAGAGGAAGTTATGAATATAATGATACAAGAATAGAAGGTGGAGTAGATAAAAATTCATATAAATATGAAAGTTATTTTTCTGGAGATGGAAGTGATACCTATAGTAAAGTAAGTTCAGAAATAAATAATATATTTGAAATAAAAAGATTGAATAATTTAGAAAGTGAGATATATGAATATGAAATTAACAAAGAAAAATATTTAGAAGTATTAAAAAATATTATGGTTGGAAAGTTAGAAGATAATATAAAAAAGTATTTAATTTTGAAAAAACAAACAAAATTAAAAAATGAATCGTTAAAAAATGAATTTAAAAATATAACAGGAGGTATTAAAAAATGAGTTTGAATGTCAATATGAAAAAAGTGAAATTGATAAAAGGTAAAGATAATTGGATTTATATTTCAAGAGATGGTGTGGAAGAAACAATCAAACTATTCTACGACGACGGACACTTTAATAACACTAAAATAGATGAATTACAAGAGAAAATAAGGAAGAGAAATGCATGGAATTTTGCAGATATGTTAGATGACTATATAGGAACAGAAGATTATGCACTAACATTTTTAGGAGCATTAAAAGGGACAGGTAAGATGAGTAGTTCAGAAACATTTGATGAAGTAGGTAAAAGTCTATTTTCAGAAAGTGTGAGATTAACATTGGGGACAAATTTTGAAAAGAATGCAAAAAGTGAAGATGAGTTTAAGTCGATGATAGCCTCTTTATTTGTAGATACGCATGAAATAGTGGATAAACTTGCAGCAGGAAATCCAACAGAATTAAAAAGTAAAATATTTGGAGATATGTTTGCAGTATATGCTCCTGCGTTTACAGCAGTGGTGAAGAAATGTGGAGTACAATTGGCAGATTCTTCAATTTCAGGAGTAATGGATATATTTAAGAATGGAGTAGAATATACTCTATCAGAGTTAGGTGTAAAAAATGAAACGATAATGGGAAAGAATAATGGAAAATTAGGAGAGGAAGGAATTTCTTTAGAAAATTCTGTATTGAGAAGTAGATATGAAGTATTAAAAAAAGGTGAAGTTAATATAGAATTTCCAGAAGAATATAAAAAAGCAATAGAAGATTATAATAATGAAATAAAAAAATATAATGAGAAAGTTAGAAGTTATAATAAACAAAATGGAAATAGTGGCAATAAATTAGAAGAATTAAAATTAATTGGATCTAAAAAATATACAAGTGAAGCAGTAAAAGAGATTTTGTATAAAGAAGTAATTTTAAATAGATTAAGTGCAGATGTAATGAGTGCAATGATGAGTTCAGGAGTAAGTGGTATAAAATCTGGAGAACTTCCTGCACAAATAATAGGAGTAGGAATGTTTGCAGAATCAAAACCATTTTCAGCAGGTTTAAAGATTTATTTATCAGAACATTGGGAAGAAGTAAAAGCAGGGAATTTTGATGTATCAGAACTTATGACAGAAGTCAAAAAAGCGAATATAGATTTTTTTAATGTAGTAGACAATTTTTTTGGAGCATCATCAAATTTTATAGAATGGACATATAAAGGAGAAAAACTGGCAACAGAGTTAGATGTAGATGCACCTGGAATGGTAGATGGAACAGCAAAAGGGTTACTTGAACATTGGAAAGAAGTGAAAGATAAAATAGCAGGAGATACAACGATAAAAGGGGTAAAAAAGATAATAGGAAGTGTAGAAGGAGTAACAAAATTATTAAATGATTTAGGAAAAACAGGAGAATTTCCAGAATATGATATTGTTGGGTATTATGATAATAAAGTAATGGGAAATATAAATGAAAGTCATATATATTTTGACGGAAATACAGATATAATAATGTATGAGAGTGAATCCAAACAAATTAATATAGTAAGGAAAACAGGGAATTACTCAAGAAGTGAAATGGCATCAATGGTTTTAAAAAATATGTCAGAATCGATATTATATGATTCTAAAAACATGGCATTAAAATTTGGAAATGAAGAAAAAAATTATTTTCATTTTTATGATGGAGGAAATGAATATCTAATATATGATGGAGAAAATATAGTAGAAAAAGTATCTTCAGAAGAAAGTGGATGTAATCTTGAGGAAAGAGGGTTTGATTATAAAGAGGTTTTAGATTCAGAAATAAATTTATGGTTAAAAGAAGATAAAAGGATAGGAGATTATTTAGATGGAAATAAAAAATTTATAATTTTAAATCCAAGTGAAATAATACCATTAAAAGAAAATTATACTTCGAAGTTGGATATATTTTCAAAACATTTAAGATTTCCATTAATAGGAAATGAAAAAGATAATATTATTATAGGTTATGGTGATGATGAATTAATAAAAGGGAATAGCGGAAATGACAAAATTTATGGAGGTAAAGGAAAAGATAGTATTTATGGCGGAGCTGATAATGACAAATTATACGGTGGTAGCGGACACCTAATCGAATTAGGAGAATATCAATACACCACATCAGAGGATAAAGATAAATCATCAGATTATCTAAACGGTGGAAAAGGCAACGATATGCTGGTAGGTGGATTAGGAAATGACATCTATGAATTTAAAACAGGAGATGGATCAGACAGTATATTTGAAAGAGGCGAATGGGGATTAAGTTTATTTGACATAGGAGAAAAAAGAGTTTTACAAAGAGGAAGTTATAGAGGGAAAATAGTAATAGATGGTCAAGAGATAAAAGGAAAAGCAAAGAAAGTAAACGATAATAAATATGAATTAGAAGTATCAGGGGAAAAATACGAATTAGATTATACATCAGGAGACTTAATAATAAATTATGGTAATGGAGATAAAATAAAAGTAAAAGCTTATCAAAATTATGATATGGGAATAGAATTAGAAGGTTTACCTGTGTTATTATCATCAGAAATGTATGATAAGATAATTTCAATTTTAGGAATAGAAAATAATACAATAAAGGGAATGGTAGAGAGAACAATAGCTACAAATATGGCAATAGCAAAAGTAAATCCAGTATCAAAAAAATTAGTAGCAGCAGTAAATGAAATAGAAAGAAGTTATGTAGAAGAAGGTTCAAAAATGCCATTATGTGGGTTTTTTAGTGGATTTTATAATATGGGTTGGGGAGTCGGAGCTATGGCAATGAGAGCCGATGCAAATTTATCAAAATATGCAAAATATGTAAATTTAGATCCATTAATATTAGATTTAAATGGAGATGGAGTAAAGACAACAAAATTAGAAGATGGAAGTTATTTTGATTTAGATAATAGTCAATTTGCAGAAAAAACAGGATGGGTAACACCAGAAGATGGGATGTTAGCGTTAGACAAAAATAGTGATAATAAAATAACAAGCGGTGATGAACTGTTTGGAGACCAAACATATTTAAAAAATGGGAAAAAAGCAGATAGTGGATTTGAAGCATTAAGTGAATATGATAGTAATGCAGATGGGAAAATAGATAAAAATGATGAAGTATATAGTGATTTAAGAGTATGGCAAGATATAAATCAAGATGGAGTATCCCAAGCAAATGAATTAAAAACAATGGAAGAATTAGGGATAAAGTCATTAAATTTATCATCAACAAAATTAAGCGAAGAAAAAGACAATGGGAATATATTATCAAGTTTAGGGAGTTATACAAAGACAAATGGAATAAGTTATGAGATGAGTGAGTATTTATTAAAGAGGAATCCAATAGATAGAAGAGAACGAATAACAGAATTAAAAGAAGATATAAAAGGGCTAGTAAATGTAGAAGCAACAGGAAATATGGATTCATTATTGCAAGCTATAACAGAGGATAAAACAGGAGAATTGGAATATTGGACAAAAGTATTTGAAAGAGAAAAAGACCCAATAGTAAGAAGAGATTTAGTAGAAAGTGAATTTATTTATCAATGGGCAGGAGTAAGTAAAGTAGAAGAAGATAGTAGAGGAAAGTATATAGATGCAAGACAATTAATGGTATTGGAGAAATTTTTAGGGGAAGAGTGGACAGATAACAAAGGGAAAAAGAATCCAGATAAATATTCAGCAGAATTATTAAAAGATGCGTATAGAGTATTAAAAGAGCGAATATATTCAGAGATGTTAAGCAAAACCCATTTAGTAAAATATATAGATATGGCAACATTGGAGATAACAGGAGATAAAGTAACAATAAATACAGATGAGTTAAAAAGTGCAATAGATAAAGAATTAAAAGATGATACAACTTATGGAAGAGAATTATTAAAAGATATGTTGAGTTATTTTATCTATAATGGATATGATAAATATATGGATTATAAAGGATTTACAAGCTATTTTGCAAATCAAAATGAAGATTTAGAATGGTTAGTAAATTCAGTAGAGATGAATCCAATAGAGGGAGATAAAGCTTTTGGAAATTTCTTAAAAAATCAAAAGAAAGAAGATGGGAATAGTGTAGGATATTCATCAGAGATAGTAGATTATTTAATAGGAAAAATGAAAAAAGAGGATTTTTTTGATTTGAGTTATAATGAGAGATTAAGATTAATAGAGTTAAATAAAGAGATATATTCAAAGGATGAGTATGAAGTATTATATAGATTGATAAAAAGAGGGATATCGTGTAATGATAATTTATCAGGAACAGCAGTAGCAGATGCTATAAAAGGTGGAAGAGGTAATGATACTATAGCTGGGAATGGTGGAGATGATTATATTTATGGGAATGAAGGTAGTGATAATTTATCAGGTGGAGAAGGGAAAGATTATATAAAAGGTGGAACAGGTAACGATACATTATATGGAAATAATGATGATGACAGGTTATATGGCGGAGCAGGAAATGACCATATAGAAGGTGGACAAGGCAATGATATATTAGAAGGTGGATTAGGAGATGATTATTTAGAAGGTGGAGCAAATAATGATACATATGTTTATAGTAAAAATTCTGGAAACGATACTATAAATGATTATGATAATATAGAAAAATTTATAACAACAGATGAAGCAGGAAATGAGATAACAATAGCAAATGAAAAACATGATATAGTGGAAATGAAAGATATATTATCAACAGAAGTAAAATTGGAATTAGATAAAGAAAATTTACTGATAAAAGTATTAGATGAAGAAGGAAAAGTATCTTCAACATTAAAAATAGAAAAATATTTTAAAGATGGAGAATATAGAAAAATAGAACTACACTTTGCAGATGAAAAGGTGTGGGATTTTGATATGGTCAAAAATATAATGAATATAACAGAGATAACTCAAGCAAGCGATATGGAAAATATAGATAGTAATTCTAATATAATATTAAGTAGATTAGATTCTAATACAGTAGATGTATCAAATTCTAGTGCGGATAAATTAATAGTTGGAGGATTAGGAGATGATACATTGACAGGAGGATCAGGAGATGACTATCTTGATGGAAAAGATGGGAATGATATATTAGATGGAGGAGCAGGAGATGATATATTAGAAGGATTTTATGGAGATGACACATATATATTCGGTAAAAATTATGGGACAGATACAATAATAGAGGATTTTGGAAATGATACAATAAAATTAAAAGATGCTTTGCCAGAAGATGTGGAATTTATAAGAAAAAGTGTATCAGATAAAAATTTATATATAAAAATAAAAAATCATAGTGGAGATTTGATAATAAAAGATTATTTTGATAATTCAAAAATAAAAATAGAAAAAATAGAGTTTAAAGATGAAAGCAGTTGGGATAGATTAGCAATAATGGATAGAGATGTAATATATGAAGGAGAAGTGGGACAAGGAAATAAATTTGTAATTGGAGATTATAATTATGGAGCAATAGATCTTACTTTTGATGGATTGGTAGATACAACAAATGAACATCATAAATATATAATAAATGGTAAAGAAAAGGATGATACTTTATCAGGAGGAGTAAAAGAAGACACTATATATGGAAATAGAGGGGATGATTATATATATGGTGGAGATAAAGATGATAAGATATATGGCGGAGAAGGGAATGATAAACTATATGGAGATACAAGGTCAGAGGTAGAGGAATATAATTATAGAGATAGTGTAGAAAAAGTAGAAAAACCAATATTTGAAGATCTTGAATATTTAATGGAACCAACAAGATCGAGTGGAAGTGACTATATAGAGGGTGGAACAGGAGATGACTATATAGAAGGTGGAAGAAATAATGATATATTAAAAGGTGATGAAGGTAATGACACTATTTGGGGAGATGGATACGTTAATGTAGTAAGAGAGATGTCTGTATTAAAAAGATACCATGAAGGGGATGATACTTTATATGGAGGATCAGGAGATGATTATATAGAAGGGCAAAAAGGAAATGATAAACTATATGGAGGATCAGGAGATGATACATTAATAGCAGATGGAAATGATGAAGAGTATGGAATGATGGGAGATACTACATATATACCACATGGAGGAAGAGATATCTTAGAAGGTGGAACAGGTAATGATAGATTAGAAGGTGGAATATGGGGAGATAGTTATGTATTTTCAAAAGGAGATAATCAAGATGAAATATTTGATTTGCAAGGAAGAGATCAAATAGTATTTAAAGATGTGTTATCAAATGAAATAAAAGTAACAAGAAATTTTGATGATTTATTAATAATATACAATGAAGATAGAGATAAAATAAGAGTAAAAGATTATTTTTTAAGTAAAGAAGAATTAACTAAAAGATATAAAGATTCGAATATAGTAGGATGGGAAAAATTTGAACATAAAATAGAAGAAATAATTTTTGCTAATGGCGAAAAATGGAACGAAGAAGATATATTAAAAAGTTTTGCAATAGTAGGGACAGATGCAGCAGATGAGTTAAATGGAACAGAAAGAGAAGAGGTAATATTTGGAAGAGCAGGAGATGACACAATAGATGGTAAATTAGGGAATGATTTAATCTATGGAGAAGAAGGAGCAGATAAAATATATGGTGGTTCAGGAAATGATCATATCTATGGGGATTCTGGAGATGATTATATAGATGGTGGTTATGGAAATGACATAATAAAAGGAGATATAGGAAACGATAAGTTAAAAGGAAATGAAGGAGATGACACTATATATGGAGGAGATGGAAATGATAAAATATATGGTGGCTATGGAAATGATACATTAGATGGTGGAGAAGGCAATGACTTTATTTATACAGAAAAAGGGAATAATATATTAACTGGAGGATCAGGAGATGATATATTACTTTCTGGAGATGGAAATGATAGTTTAGATGGAGGAGATGGAAATGATAAACTTACATCTAATGAAGGAAATGATGAATTAACCGGAGGATCAGGGGATGATATTCTTGATTCTGGTACAGGAAATGATAAATTAACTGGTGGAACTGGGAATGATACACTTAAAGCAGGTTCAGGAAATGATAAATTATATGGAAATTCAGGAGATGATATATTAGATGGCGGAGCAGGAAATGATATATTAATATCAGATGATAAAAATGATAGTGGAAATGATATATTAATAGGTGGTTCAGGAGATGATGTATTAAAAAGTAATGCTGGGAATGATATATTAGATGGAGGCTCTGGAGAAGATTTATTAGATGGAGATTCAGGAGATGACATTTATAAATTTGGTAAAGATTATGGAAATGATACTATCTATGAATATACAGGTACAGATTTAATAGTAATGGGAGAAGGAGTAACCAAAAAAGATTTATTGATAAAATTTAAAGCATATGATCTGAAAATATATATAAAAAATACAGATGATAGTTTAACAATAAAAGATTATTTTAGAGCAGATAAATATGCAGTGGAAAAGATGATATTTGCTAATGGAGAAGAGCTGAATTTAAAAGAATTAACAGATGCTTGGATAATAAAAGGAACAGAAGGTGATGATACACTATATGGTACAAATGGAGACGATTTAATTTTTGGATTAGGTGGAAATGATACTATATATGGTTTAGCAGGTGATGATACATTAAATGGTGGCACAGGTGATGATTATTTAAACGGTGGATTAGGTAATGATTATTTAGATGGAGAAACAGGAAATGATATATTAGATGGTGGAATAGGTGATGATGAATTACATGGCGGAGCAGGCGATGATACTTATGTTTTTGGGAAAGATTATGAAAAAGATATATTAATAGATAGAACGGATAAATTGAATAGTGAAAGAAAATACGATAAAACAATAATAAAATTACAAGATATAACTCCAGAAGAGATAAAATTTATAAAAGATGGAGGTAATCTTAATATAACTGTAAAAGGCAGTAATTCAAAACTTGAAATAGCTAACTTTTTTGACAAACATAAAAGTGAAATAGATGAGATAAGATTTTCATATGGTTTAGAATTTGAAAATGGATTGGTATGGGATTTAAATGAGATACAAAATCACCCAATTTATGTTTATGGAAGTGATAAAAAAGATAAATTTAATCCTTATTCTATGGATAAGAAATCATTAAGAATAGGAAGAAGTTATAGTGATTACAAATATTATATTGATGGATATGGAGAAAAAGATTATTTATCTGGTGGAATAAAAGGAGATACAATTTTAGGTGGAGAAGATGCAGATAGATTAGAAGGACAAGCAGGAGATGACTATATAGATGGAGGAAGTGGAGATGATCTGTTATCTGGAGGAGCTGGAGACGATACTTTAGTAGGTTATACAGGAGATGATAATCTTTATGGTGGTTCAGGGAATGATTTACTAAAAGGAGATGTTGGTGAAGATTTTTTATTTGGAGGAAATGGAGAAGATGAACTACATGGTGGAGATGAGAATGATACAGTTATAGGTGGAAGGGGTAATGATAAATTATATGGAGATAGTGGTGATGATTTATTAAAAGGTGGATCAGGTAACGATATATTAGAAGGTAGTAAAGGAAATGATATATTAATGGGAAATTTTGGAGATGATATCATAGATGGAGGAGCAGGAGATGATATTATTTATGGAAATGAGGGAGACGATAAGTTTATATTTGGCAGAGGTTATGGTAAAGATACTGTGTATGAAGAAGGTTGGGGTTTTGATAAAATAATATTATCAGACGATATAACAAAAGATGATATAAAATTATCTAAATCAGGGTATGACGTAATACTAAGTATAAAAAATGGTGAGGATGAGATAAAGGATAGTTTAACAATAAAAGATTATTTTAAAAGTAACTATAATAAAATAGAAAAAATAATTTTTGCAACAGGAGAAGAATGGGATACTTATGATATTACAGAACAATTAAAAATAGTTGGGACAGAAAATGCAGATGAAATAACAGGAACAGAAGTTGAAGACTTAATATTAAGTCTTGATGGAGATGATAAAGTAAGTGGAGGAAAAGGAAACGATGCTATAAAAGGTGGTACAGGAAATGATATATTACATGGAGATGAAGGTGATGATCAATTATTAGGAGAATCAGGAAGTGATGAATTATATGGAGATAGTGGAAATGATCAAATTGAAGCAGGTACAGGAAATGATATTTTAAAAGGTGGCACAGGTAATGATAGTCTATCTGGTGGAGCAGGAAATGATAGAATATATGGAGAAGAAGGTAATGATTATATACAAGGTGGACTAGGTAATGATTATATAGAAGGTGGAGCAGGAAATGATACAATAAAAGATACTTTGGGAACAGATAAAATATATGGAAATGCAGGGAATGATACGATATTTGCAGGGGAAGATAATGATGAAGTACATGGTGGTACAGGCAATGATAGTATAAGAGGAGATGGAGGTTCAGATAAAATATATGGCGAATCAGGTTATGACAATATTTCTGGTGGATTAGGGAATGACTATATAGATGGTGGAAGTGAAAATGATACAATAATGGGCGAATCAGGTTCAGATGAATTACATGGAAATACTGGAAATGACTCTATAATTGGTGGCACAGGAAATGATAAGCTATATGGCGAATCAGGCTATGACAATATTTCAGGTGGTGCAGGAGATGATGAAATATATGGTGGCACAGGAAATGATTCTATAAGTGGTGGTTTTGGTTCAGATAAATTATACGGAGATGAAGGTAATGACCGTATATATGGTGGATTGGGAGATGACGAATTACATGGTGGGATTGGTAATGATTATTTAGTAAGTATAGGAATGACAACAACTAAAGATGGTGAACCAATGGAAATTGCAGCAGCGGATAAACTATACGGAGATGAAGGAAATGATACTTTAATAACAAATAAAGGCGATGACAAGTTATATGGAGGTTCTGGAAATGATATATTAAAATCAGGAGAAGGACATGATATATTAGATGGTGGAGCAGGAGACGACTATCTTGAAGGTGGAATAGGTGATGACCAATATATATTTGGCAAAGGTTATGGTAAAGATGTAATAAATAATTATGATAGTAGAGTTGATGGATTAGATAAAATTATTTTTAAAGAAGAAATTTTACCAAGTGATTTAAGAGCAAGAAGAGATGTTTATGATTTAGTAATTAGTATTGTTGACACAGCAGATACCATAACAATAAAAAATTATTTCAAAGATAAATTATATGAAGTAGAAAAATTTGTATTTGCTAATGGAGTAGAATGGGAAAGAAAAGATATAGATGAAAGATTAGGTTTAATTTTAGGAACAGAAAATGATGATACTCTTATCGGGACAGAAAGTGATGAATTTATAACAGGGTATGCTGGTAATGATATGGTAAAAGCAGGAGCAGGAAAAGATATAGTAGAGTCAGGAGCAGGAGATGATACTATTTATGGTGGTTCTGGAGATGATATTTTAAAAGGTGGAGCAGATAATGATACTATTTATGGTGAAGATGGGGTAGATACTATTTATGGTGGTTCTGGAAGTGATATCTTAAAAGGAGATTCAGGGAATGATATTATCTATGGCGAAAATGAAGATGATAAAATATATGGTGGCATAGGAGATGACACTCTAAAAGGTGGAGCAGGAAATGATATTATCTATGGAAATGAAGGAGTAGATATTATTTATGGCGAATCAGGAAATGATATAATAGAAGGGAATGAAGGTAACGATAAACTATATGGAAATGAAGGAAATGATGTTCTAAAAGGTGGCATAGGAGATGACTATTTAGAAGCAGGAAGTGGTAAAGATGAATTGTATGGAAATGAAGGAAATGATGTATTAAGAGGAAATTGGAATAATGATAGATTGTATGGTGGTACAGGAAATGATAATTTATCTGGTGGGTACCAATTATTTGGAGAAGAAGGAGATGATTATTTAGCCTCTGGAAATGTATTAGATGGTGGAATAGGAAATGATACATTGAAAAACGGAAATGAAATGTATGGAAGAGCAGGAAATGATAAACTATATGGAAACTATGGAGCTAATATAATGGAAGGTGGCACAGGAGATGATTATCTTGATGGGAATTATGGTGATGATCTTTTAAATGGTGGTACAGGAAATGATATCTTAAAAGGGAATTATGGTGATGATAGATATGTATTCAGAAGAAATTTTGGAGAAGATACAATATATGAAGTAAGTGGAACTGACAAAATAGTATTTGAAGATGGCATATTATCGGAAGAGATAGAGTTGACAAATGAGGAATTTAATTTAATAATAAAATTAAAAAATAGCGAAAATAAAATTAAAGTAGTAAATTATTTTAAAAATGAAGGAAGCGGAATAGAAAATATAGTATTTGAAGAAGACGGAACAATTTGGAAAAAAGATAAAATAAATTCAAACGTTATATTTACTCCGCTAGAGGGAGATAATGGAATAAATAATCTAAATGGTATTGGAAATATAAAAGGATATGGTGGAGAAGACAATATATACGGAAGTGTAATAGATGATATAATAGATGGCGGAGAAGGGAATGACCATCTTGATGGACAATTAGGAAATGATACATATATTTTTGGTAAAGGATATGGAATTGATGAGATAGCATTAAATGGAAAAGATAAAATAAAATTTTTAGATAATGTATCAGAAGATGAAGTTAAAATAATTAAAAAAGGTAATGATTTTGTTATAAAAATAACATCTTCTCCTGATAGGATAATAATAAAAAATAGTAATTTAAATAGTTTGCTAAATTCATTAAGTTTAGAATTTAGTAATGGAACTGTGTGGGATAGAGAAAAATTAAATTTTATTTTAAACAAACCAGAAATAATGCAAATAGAAGAAGACAAAATAATAGGTACAAATTCAAAAGATAAGTTAGAAAGTACAGTTAATAATGAAAGTTTAATAGGTAAAGATGGTAGCGATACTTATATATTTAAGAAAAACTTCGGAGAAGATATAATTTATGAGAGTAATAATAGTAGAGATATAAATGTTGTACGATTTTTAGATGGGATAGAAAAAGAGGATATAGAAGTAAATATAGATGAAAATGATTTAATAATAAGAGAAAAAAATAGTGATAATTCCATAAGAGTGAAAGATTATTTTAATGGAACAAAAAAAATAAGTAAATTAGTTTTTTCAGATATGAAGGAGAAAAATTTAGAAGATTATATTTCATACATAAGAGGAAACAGTATAGAGAAAAATTTAGTAGGAAGTTCATTAGATGAAGTAATAACAGGTGGAGAAAGAAATGACATTTTAGATGGAAAAGATGGAAATGATTTATTAAAAGGTGGATATGGAAGTGATACCTATGTTTTTGGAAGAGGTTATGGACATGACACTATTTATGATACTCCTTCATATTATTGGAGACCAAATAATAATAACGTAATAAAAATGACAGGAGTAATGTCGGATGATATAAGATTTGCGAAAAATGGGAATGATTTAAGAATAGAAATAATAAGCACAAGAGAAGTTCTAACAGTAAAAAATGTAATAAGCAACAACTATATTAACAGAATAGAATTTGGGGATAGTGTTTTAGAAGGTAATAATATATTAGCAAAATTAAATGAATCATACAATATAATAGGTACAAATAAAAGTGAAACTATATATGGTTCTAATGGGAAAAATATAATAGATGGACAAGGCGGAAATGATAAATTAGTGGGAAATAGCGGAAATGATGTATATATTTTTGGAGAAAATTCTGGACATGACACTATAATTTCCCCTAAAAAAAATGATATAGTTTTACTTAAAGAAACATTAAAACCAGAAAATATGAGCTATACAAGAAAAGGAAATGATTTAAAAATAAATATAAAAGATAATTTAGATGATTCGTTAATTATAAAAAATTATTTTGCAAATGATAATTATCAATCTGCAATTAAATTTGCAGATGATACAATTATAACTTTAAAAGAATTAGAAAAATTAGATTATGCAGTAATTGGTACAGATAAAGATGAAACTTTAATAGGGGTAGGAAATGATACTTTAATAGGTAAAAATGGTGATGATATATTATTAGGACAAATTGGAAATGATGTATTAGAAGGAGACAAAGGAAATGATGTATTGTATGGAGAAGCAGGAGATGATACATATATTTACAGAAAAGGAGATAATTTAGATATAATAAAAGAAAATAATGGAGCAGACATACTAAGACTGGAAGATATAAATTCAGAAGAATTAAATTATAAAAGAGCAAATAATAATTTAGAAATAACAATAAAAAATAGTTTAGATAAGATAATAATAGAAAATTATTTTGCAAATGATAAATACAAAGTAGAAAAAGTAGTTTGTTTAGATAAAGAGTTTAATTTAGAAGAGAGATTAAAAGAAGGAATAGAAGTAATAGGAAGTAACGGAATAGATAATTTATATGGATATTTGGGAGATGACAAATTTGTATTGGACAAAGGAAATGATGTAGCATATGGATACGCAGGAGATGATACATATGTCTATTCAAAAGGAGATGGAGTAGATACAATAATAGATAATGCAGGAGAATTAGATAAAATAGTATTAAAAGATTTAAATAAAGATGAAGTAGAATTAAAAAGAGTAAAAGCTCAGAAACGTATAAATTATTGGAATACAATCTATACAGATGATTTAGAAATAAGAATAAAAGGTAGTAATGAAAAAATAGTGATAAAAGACTATTTTAAAAACAATAACAATAAAATAGAAAATTTAGAATTTAGTGATGTAAGCATAAAAACAGAAGAGTTTTTATTAGAAGGAATAAATATAATAGGAGATGAAGGGAATAATGCTTGGCTTTATGGTTCTATAGGAACAGATAAAATAGAGGGAAAAGCAGGAAATGATAATTTATATGGAGAAACAGGCGATGATGAGTTATTAGGAAATGAAGGTAATGATATATTATCTGGAGGAACAGGCGATGATAAACTATATGGAAATGAAGGAGATGATAGATTATTAGGGCAAATAGGAGATGATGTATTAGAAGGTGGAGCAGGAAATGATGTATTAGATGGAAATGAAGGAAATGATACGTTAGTAGGTGGAATAGGAAATGATAATTTATTAGGAGCAGCAGGTTCTGACATATTAGAAGGAAGTATAGGTGATGATAATCTAGATGGCGGAGCAGGGAATGACACATATGTCTATTCAAAAGGAGATGGAGTAGATACAATAATAGATAATGCAGGAGAATTAGATAAAATAGTATTAAAAGATTTAAATAAAGATGAAGTAGAATTAAAAAGAGTAAAAGCTCAGAAACGTATAAATTATTGGAATACAGTCTATACAGATGATTTAGAAATAAGAATAAAAGGTAGTAATGAAAAAATAGTGATAAAAGACTATTTTAAAAACAATAACAATAAAATAGAAAATTTAGAATTTAGTGATGTAAGCATAAAAACAGAAGAGTTTTTATTAGAAGGAATAAATATAATAGGAGATGAAGGGAATAATGCTTGGCTTTATGGTTCTATAGGAACAGATAAAATAGAGGGAAAAGCAGGAAATGATAATTTATATGGAGAAACAGGCGATGATGAGTTATTAGGAAATGAAGGTAATGATATATTATCTGGAGGAGCAGGCGATGATAAACTATATGGAAATGAAGGAGATGATAGATTATTAGGGCAAATAGGAGATGATGTATTAGAAGGTGGAGCAGGAAATGATTATTTAGAAGGAAATGAAGGGAATGATACGTTAGTAGGTGGAATAGGAAATGATAATTTATTAGGTGGAGCAGGTTCTGACATATTAGAAGGAAGTATAGGTGATGATAATCTAGATGGCGGAGCAGGGAATGACACATATGTCTATTCAAAAGGAGATGGAAATGATACAATCTACGATATAGAAGGAACGGATAAACTAAAATTAACAGATATAAATCCAGAAGAAATAGAATTAAAAAGACCATTAAATAACTCTAATGACCTAAATATAGTAATAAAAGAAACAAAAGAGATAATAACAATAAAAAATTATTTTAATTCTAATAAAATAGAGACTATAGAGTTTAAAAATAATGATATATGGAATGCAGAGACTATAGAAAGTCAAACAACAAAAGTAGATGGGACAGAAGCTGATGATGTAATATATGGAATATCAGGAAATGATCAGATAACAGGAAAAGCAGGAAATGATTATATAAATGGTGAAACAGGAGATGATGTTCTAATTGGTGGTATGGGAGATGATATATTAGTTGGAGATAAAGGAAATGATAATTTATCTGGTGAATTAGGAGATGATAATTTATCTGGTGGTACGGGAGATGATATATTAACTGGTGGAGCAGGAAATGATGAATTGTCAGGTGGAGCGGGTTCTAATAAATATATTTATAATATAGGAGATGGAGCAGATAAAATAAAAGTAAATGGAAGTAATATAGATTTTAATTTGAGTGGATTAGCTAATGAAAATTGGAACTGGAAAGCAACTCAAGATTGGAATGGTCAACGTTGGGGTGATGGAGGACGAGATGCCTTTGATGGATTTGGGAATACATCAATAACTATAAATGGGAAAACTATATCTAATATTAATTTAGGTTCAAAAGATGGTGTTCCTGTTAATCATGAAGTTGGGGGTGTGGAATTCAGCTCAAAAGTTCAATACATAAGTGATAATATATTGGAAATAAAATTAAATTCAATAGGAGATTATACTGGAGAAATAGCAGTAACAACAGGTGGAAATTTAGGTTCAGATGGAAATGAAGAGTATAATACAGGTGTAATAAATCTTGGAGGGACAGAATATACATATGCTCATTCGAAGGATCGAAGCAGAAATGATCCAAATATATTTTTTCTAATGTTACCGGAAACATTAGGAGAAGAAAATAAAGTGAACTATACAAGAAGCGGAGATAATATATACGGATATTTAAAAGATGGACATTTTCCTTTAAGAATACTTATAATTCCAAGTTTATATGAAGCTAATGAAATAGTAGATTTATTAGAAAAGAATATATTTTTTGAATCTAAAAAAGAAATCGGAGATATTTTAGAATTAGGCGAAGGAATAAGCAAAGAAAATTTAAAAATATACAGAAAAGAAAAAGATTTAATTTTGGATATGCCAACAGAAGGGGATAAAATAACCGTAGAAGGTTGGTATAGTGGAAGGAAGCTAGATAAAATACAATTTAGTGACGGTAGTGAATTATCTTCTGAAGAATTACACAAACAAGGATTAATCGTAAATGGGACAGAAAATGAGGATGTATTAGAAGGATTATTTGCAGAATCAGATAAATTGAATGGTTTAGGAGGCAATGATAAATTATATGGAATGTCAGGCGATGACATACTAACAGGTGGCGTAGGAAACGATGCTTTAGAAGGCGGAGCAGGAAATGATACCTATGTATATGCAAAAGGAGATGGGAATGATACTATCTCTGATACCGAAGGAATAGATAAACTAAAATTAACAGATATAAATTCAGAAGAGATAGAATTAAAAAGACCATTAAATAATTCTAATGACTTAAAGATAATAATAAAAGAAACAGAAGATATAATAACAATAAAAAATTATTTTAATACTAATAATAAGATAGAAAGTATAGAATTTGGAAATGACGAGATATGGAATATAGAGACTATAGAAAGTCAAACAACCAAAATATCTGGAACAGCAGGAAATGACACATTATATGGAATATCAGGAAATGATGATTTGTCAGGAAATGATGGGAATGATACTTTATATGGAGAATCAGGAGATGACACTTTATACGGAAATGCAGGCGATGACATATTAAAAGGTGACATAGGAAATGATGAATTAATAGGCGGAATAGGCAATGATAAATTATATGGGAATACAGGAGATGACATATTAACAGGTGGGACAGGAAACGATACTTTAGAAGGTGGAGTAGGAAATGATACATATGTATATGCAAAAGGAGATGGAAATGATACTATCTCTGATACCGAAGGAACAGATAAACTAAAATTAACAGATATAAATCCAGAAGAAATAGAATTAAAAAGACCATTAAATAATTCTCTTGATCTAAATATAGTAATGAAAGAAACAGAAGATATAATAACAATAAAAAATTATTTTAATACTAATAATAAGATAGAAAGTATAGAATTTGGAAATGACGAGATATGGAATGTAGAGACTATAGAAAGTCAAACAACCAAAATATCTGGAACAGAAGGAAATGACACATTATATGGAATATCAGGAAATGATGATTTGTCAGGAAATGATGGGAATGATACTTTATATGGAGAATCAGGTGATGATAAACTATACGGAAATGCAGGCGATGATATATTAAAAGGTAACATAGGAAATGATGAATTAATAGGTGGGACAGGAAATGATAAATTATATGGAATGTCAGGAGATGACATACTAACAGGTGGCATAGGAAACGATACTTTAGAAGGTGGAGCAGGAAATGACACATATACATATGCAAAAGGAGATGGAAATGACACTATTTCTGATACAGAAGGAACAGATAAAGTAAAATTAACAGATATAAATCCAGAAGAAATAGAATTAAAAAGACCATTAAATAATTCTCTTGATCTAAATATAGTAATGAAAGAAACAGAAGATATAATAACAATAAAAAATTATTTTAATACTAATAATAAGATAGAAAGTATAGAATTTGGAAATGACGAGATATGGAATGTAGAGACTATAGAAAGTCAAACAACCAAAATATCTGGAACAGAAGGAAATGACACATTATATGGAATATCAGGAAATGATGATTTGTCAGGAAATGATGGGAATGATACTTTATATGGAGAATCAGGAGATGATACTTTATACGGAAATGTAGGCGATGACATATTAAAAGGTAACATAGGAAATGATGAATTAATAGGTGGAACAGGCAATGATAAATTATATGGGAATGCAGGCGATGACATATTAACAGGTGGGACAGAAAACGATAATTTAGAAGGTGGAGCAGGAAATGACACATATACGTATGCAAAAGGAGATGGAAACGATACAATTTATGATACCGAAGGAACTGATAAACTAAAATTAACAGATATAAATCCAGAAGAAATAGAATTAAAAAGACCATTAAATAATTCTACTGACTTAAATATATTAATAAAAGAAACAGAGGATATCATAACAATAAAAAATTATTTTAATACTAATAATAAGATAGAAAGTATAGAATTTGGAAATAATGAGATATGGAATGTAGAGACTATAGAAAGTCAAACAACCAAAATATCTGGAACAGAAGAAAATGACACATTATATGGAATATCAGGAAATGATGATTTGTCAGGAAATGATGGGAATGATACTTTATATGGAAATGCAGGTGATGATAAACTATACGGAAATGCAGGAGATGACATACTAAAAGGTGACATAGGAAATGATGAATTAGTGGGCGGAGCAGGAAATGATGAATTGTCAGGTGGAGTGGGTTCAAATAAATATATCTATAATATGGGAGATGGATCAGATAAAATAAAAGTAAATGGAAGTAATATAGATTTTAATTTGATTGGATTAGCTAATGAAAATTGGAACTGGAAAGCAATTCAAGACTGGAATGGTCAACATTGGAGTGATGGAGGACGAGATGCCTTTGATGGCTTTGGGAATACATCAATAACTATAAATGGGAAAACTATATCTAATATTAATTTAGGTTCAAAAGATGGGGTTCCTGTTAATCATGAAGTCGGTGGAGTGGAATTCAGCTCAAAAGTTCAATACATAAGTGATAATATATTAGAAATAAAATTAAATTCAATAGGAGATTATACTGGAGAAATAGCAGTAACAACAGGTGGAAATTTAGGTTCAGATGGAAATGAAGAGTATAATACTGGTGTAATAAATCTTGGAGGGACAGAATATACATATGCTCATTCGAAGGATCGAAGCAGAAATGATCCAAATATATTTCTCCTAATGTTACCAGAAACATTAGGAGAAGAAAATAAAGTGAACTATACAAGAAGCGGAGATAATATATACGGATATTTAAAAGATGGACATTTTCCTTTAAGAATGCTTATAATTCCAAGTTTATATGAAGCTAATGAAATAGTAGATTTATTAGAAGAGAATATATATATTGAATCTAAAAAAGAAATCGGAGATATTTTAGAATTAGGCGAAGGAATAAGCAAAGAAAATTTAAAAATATACAGAAAAGAAAAAGATCTAATTTTGGATATGCCAACAGAAGGGGATAAAATAACTGTAGAAGGTTGGTATAGTGGAAGGAAGCTAGATAAAATACAATTTAGTGATGGTAGTGAATTATCTGCTGAAGAGTTACACAAACAAGGATTAATCGTAAATGGGACAGAAAATGAGGATGTATTAGAAGGGCTATTTGCAGAATCAGATAAATTGAATGGTTTAGGAGGCAATGATAAATTATATGGAATGTCAGGAAATGACATACTAACAGGTGGCATAGGAAATGATAATTTATTAGGCGGAGCAGGAGAGGATACATATGTCTATGCAAAAGGAGATGGGAATGACACTATCTCTGATACAGAAGGAACAGATAAACTAAAATTAACAGATATAAATCCAGAAGAAATAGAATTAAAAAGACCATTAAATAATTCTCTTGATCTAAATATAGTAATAAAAGAAACAGAAGATATAATAACAATAAAAAATTATTTTAATATTAATAACAAGATAGAAAGTATAGAATTCGGAAATAATGAGGTATGGAATGTAGAAACTATAGAAAGTCAAGCAATAAAAGTAGATGGAACAGAAGCAGATGATACGCTATATGGAATATCAGGAAATGATGAATTAGTGGGCGGAGCAGGAAATGACAAGTTGTATGGAAATATAGGAGATGACATATTATCAGGTGGCATAGGAAATGATACTTTAGAAGGTGGAGCAGGTTCTGATACATATGTATATGCAAAAGGAGATGGAAATGACGCTATTTCTGATACAGAAGGAACAGATAAGATAAAATTAACAGATATAAATCCAGAAGAAATAGAATTAAAAAGACCATTAAATAATTCTAATGACTTAAAGATAATAATAAAAGAAACAGAAGATATAATAACAATAAAAAATTATTTTAATACTAATAATAAGATAGAAAGTATAGAATTTGGAAATGATAAGATATGGAATGCGTCTGATATAGAAAGTCAAGCAACAAAAGTAGATGGGACAGAAACAGCTGATACACTATATGGAATATCAGGGAATGATGAATTATCAGGAAATGATGGGAATGATACTTTATATGGCGAATCAGGTGATGATAAACTATACGGAAATACAGGCGATGACATATTAAAAGGTGACATAGGAAACGATGAATTAGTGGGCGAAGCAGGTTCTGACAAGTTGTATGGAAATATAGGAGACGACATATTATCAGGTGGCATAGGAAATGATACTTTAGAAGGTGGAGCAGGAAATGACACATATGTATATGCAAAAGGAGATGGAAATGACGCTATTTCTGATACAGAAGGAACAGATAAGATAAAATTAACAGATATAAATCCAGAAGAAATAGAATTAAAAAGACCATTAAATAATTCTAATGACTTAAAGATAATAATAAAAGAAACAGAAGATATAATAACAATAAAAAATTATTTTAATACTAATAATAAGATAGAAAGTATAGAATTTGGAAATAATGAGATATGGAATGTGTCTGATATAGAAAGTCAATCAACAAAAGGAGATGGAACAGAAACAGCTGATACACTATATGGAATATCAGGGAATGATGAATTATCAGGAAATGATGGGAATGATACTTTATATGGCGAATCAGGTGATGATAAACTATACGGAAATACAGGCGATGACATATTAAAAGGTGACATAGGAAACGATGAATTAGTGGGCGGAGCAGGTTCTGACAAGTTGTATGGAAATATAGGAGACGACATATTATCAGGTGGCATAGGAAATGATACTTTAGAAGGCGGAGATGGAAATGATACCTATGTATATGCAAAAGGAGATGGAAATGACACTATTTCTGATACAGAAGGAACAGATAAGATAAAATTAACAGATATAAATCCAGAAGAGATAGAATTAAAAAGACCATTAAATAATTCTCTTGATCTAAATATAGTAATGAAAGAAACAGAAGATATAATAACAATAAAAAATTATTTTAATACTAATAATAAGATAGAAAGTATAGAATTTGGAAATGATGAGATATGGAATGTGTCTGATATAGAAAGTCAAGCAACAAAAGTAGAAGGGACAGAAAGTAATGACACGCTATATGGAATATCAGGAAATGATAATTTGTCAGGAAATGACGGAAATGATACTTTATATGGAGAATCAGGTGATGATAAACTATATGGAAATGCAGGCGATGACATACTAAAAGGTAACATAGGAAATGATGAATTAGTGGGCGGAGCAGGTTCTGACAAGTTGTATGGAAATATAGGAGACGACATATTAACAGGTGGGACAGGAAACGATACTTTAGAAGGTGGCTCAGGCAATGATACATATGTATATGCAAAAGGAGATGGGAATGATACTATCTCTGATACCGAAGGAATAGATAAACTAAAATTAACAGATATAAATTCAGAAGAGATAGAATTAAAAAGAACATTAAATAATTCTAATGACTTAAAGATAATAATAAAAGAAACAAAGGATATAATAACAATAAAAAATTATTTTAATACTAATAATAAGATAGAAAATATAGAGTTTGGCAATGATGAGATATGGAATGTTTCAGATATAGAAAGTCAAACAACAAAAGTAGAAGGTACAGAAGGTAATGACACATTATATGGAATATCAGGCAATGATGAATTGTCAGGAAATGATGGTAATGATACTTTATATGGAAACGCGGGAGATGATAAACTATATGGAAACAAAGGAGATGATAGCCTAACAGGAGGACTAGGGAATGATATATTAGAAGGTGGCACAGGAAATGATAATTTACATGGAAACGAAGGAGATGATAGCCTAACAGGAGGACTAGGGAAAGATACTTTAGAAGGTGGATCAGGCAATGATAATTTGTATGGAGATATAGGAGATGATATTTTATCAGGAGGATTAGGGAAAGACACTTTAGAAGGTGGATCAGGCAATGATAATTTGTATGGAGATATAGGAGATGACATATTATCAGGGAATGAAGGAATAGATATAATATATGGTGGATTAGGTAATGATATATTAAAAGGTAATGCAGGAAATGACACTCTATATGGAAATGCAGGTGATGATACTTTAACAGGAAATACAGGTATTGACAAATTGTTTGGTGGAGTAGGAAATGATACATATGTTTATAGTAAAGGAGATGGAGTAGATACAATTTATGATGAAGGAGGTGAATTAGATAAAATATTATTGAAAGATATTCTACCAGAAGAAATAGAGCTGTTTTCTACAAATGAAAATTTGGAAATAAGGATAAAAAATAGTGATAATAAAATAGTAATAAAAAACTATTTTAGAGGTAATGGATATTTAGAGAGTAAAGACTATGATATGGATAAATATAAAATAGAAAATATAGAATTTTCTAATGGAGTAATTTGGGAAAACTTGGATATTGGTAAAAATTTAGTAAATATATTTGATGGGACAAAAGAAGAGGATTATACAATAGGTCATAATTTAGGGAAAAATATAATAAATGGTTATGAAGGTGATGACGGATTATATGGTCGTGGAGTAGATGGGAATATAATAACAGGTGGTTTAGGAGATGATGAATTACATGGTAGTTCGGCAAAAGATACTTATATATTTAATAAAGGAGATGGAAGCGACACAATTTTTGAAACTGGAGGGGATTCAGATACAATAAAATTTGGTGAAAATATAAAACCGGAAGATATAGAAATAGTAAGAGTTCAAAATGATGTTATGTTAAAAATAAAAGGAACAGAAGAGAGCATAAAAATATGGGACTTTTTTAATTATATGGTAACTGCTATAAATGTTGAAAATGGAAAAATAGAAAATATAGAGTTTTCTGATGGAACACTTTGGAACAAAGCGATTATAAAAGAAAAATATGAAAATATTTATGGAACGGATTCTAATGATGAAGTAAGAGGATTTGATGATCAAAATGATATTTTACATGGTTTTGCTGGTGATGATAAGTTATATTCTTTTGGAGGAGATGATACCCTTTTAGGAAATGAAGGAAATGATCTATTAATTTCTGGAACAGGAAATGATCTGTTAGATGGCGGAATAGGAAACGACCAATTACAAGGTGGAGTAGGAAATGACACGTATATATTTGGCAAAGGTTATGGAGAAGATGTAATATTTGAAGAATCAGGAGTAGATTCTATAAAATTTATAGACAATATAAAAGCAGAAGATATTATAGCAAGAAAAAATGGAGATAGTTTGATAGTATCAATACTAGGTACAGAAGATAGGATAATAGTTAATAACTACTTTAAGGATTCTAATAATAAAATAGAACAAATAGAATTCTCAGATGGAACTAAATGGAATCAATCAACAATAGAAGAAAAATCGAGAGAAATCATAGGTACTTCAAAAGCAGAAACACTATTTGGAAGTGATCAAGATGATACTTTAGATGGAAAAGCAGGAAATGATCACCTTCAAGGAAGTAGCGGAAATGACACGTATATATTTGGCAAAGGCTATGGAGAAGATGTAATATTTGAAGAATCAGGAGTAGATTCCATAAAATTTACAGACAATATAAAAGCAGGAGATATTATAGTAAGAAAAAATGGAGATAGTTTGATAGTATCAATAGTAGGTACAGAAGATAGGATAATAGTTAATAATTACTTTAAAGATTCTAACAACAAAATAGAACAAATAGAATTTTCAGATGGAACTAAATGGAATCAATCAACAATAGAAGAAAAATCGAGAGAAATCATAGGTACTTCAAAAGCAGAAACACTATTTGGAAGCGATCAAGATGATATTTTAGATGGAAAAGCAGGAAATGATCAATTGCAAGGAAGTACAGGAAATGATACTTATATATTTGGTAAAGGTTATGGAGAAGATGTAATATTTGATATAGACTCTACAGAAGGGAATAAAGATATCATATCTTTATTAGATGGAATATCTGAATCAAATCTTCAATTGAGTAAAAATGGAGACTATTTAATAGGAACAATAGATGGAACTTCAGATAGATTTATCGTAGGAGACTATTTTAAAGATGATTCACATAAAATAGAAGAAATAAAGTTTTCAAATGGAACTATATGGGATAAATTAAAAATAGATGAATTAACAGGAAATAGTTCAACAAATACAAACGATACAACAAACAATGATAATTCAACAGAAAATACAGATAATAGCAGTACTAATGATAGTTCAAATGATGCTGAAACTGTTAAAAATGATAAATTTGAATTAAATTATAATTCTGATAATGTAGAATTAAAATTTTCAAGATATAATTTAGATATAACAGTAAAAGTATTTGAAAAAGATGGTTCGATTACTGCAAATATGGGATATAGTGGAACTCAAGAAAATTATAATAGCTTTATAAATAATGGAGATCAAAACAAGTTGTCTAATCATGTAAATAGTTTATTACAAGATATAGTTAATATGAGTAGTCAAAATAATATGGATTATTTAAAAGCTATAATACAATTTAAAGATGAATTTGAAAAAACAGTTGTTAAAGATTTTGAGTTTAAAATAGCAGGAGAAAGTAGTTCGAGCGATTTACCTTTAACTGACGATAAAAGCAATTCTGATGAAAATATTGTGATTTCTGAAACTGCTATTAATGAGGCGAAAGGGAAAGATAACTATAAAATAGTTTTAAATAGTGACTCATTTGAGATTGACTTTAAAAGACAAGAGTTAAATATAAAAGTTTCTATTTTACCAAGCGGAAATTCTATAACTGCTAAAATAGGTTATAGTGGAACTCAAGAATCTTATAATAATTTTGTTAGTTCAAATGGACAAAATAAATTAAGTGCTCAAATAAATACACTGTTTCAGAAAATAATTAATAATAGTTCAGAAAAAAATATGCCATGGTTTGAAGCCTTAAAGACAGATATTGATAATATGAGAAAAATCAATATAGAAAGTTTTGGTTTTGGAGACGGCTCAACAAATAATGATGATATGATGGTAGGGACTGTTTCAAAATCTAATATTTTATATGGTGGAATAGGAAATGATGTTATTTACGGAAAAGAATTAAATGACACACTAGATGGCGGAACAGGAAATGACACCTTAAAAGGTGGCTTAGGAGATGACACATATATCTTTGGACAAAGCTATGGACAAGATACAATAAAAGATGATGGTGGAAACGACACATTAAAATTAGATATAAACCCATTAGATTTAATAATAGAAAATTCAAATAATGATTTACTAATAAAAAAATATAATGGAAATGAACAGCTTATAATCCAAGATTGGAATTTAGGTTCAGATAATCAAATAGAAAATATAGAAACAGATACAGAAGTATTAACAAATCAAAATTTAGAAAAATTAATACAAGCAATGTCAACACTAGAAACAGATGAAGGAATGAGCTGGACAAAATTAAAAGAAGAAGAGAGTCAAAAAGTAGAAACAATATTAACACAATATTGGCAACATAAAAATTAATAAGGAACGGCTTAAAAATAACCTTCCGATTTTGTTATAAAATACGCAATGGTTCAAGCGTTTTTATGGCAAAATATAAGAAACTTATTTTTTAAACGTTCCTAAAAGTTGTTAAAATTACTAACCTCTACAATGTTCCAATTCATTTGTAGGGGTTAATATCTTGCTTCCAATGATGAAATTCAAACAAACAAAGAGAGGTATGAAAATTAGATGAATGAAGAGAAAGAAAAAAAAGACACTGGCTTATTAAGCTTAATGATGATGGCAAAATATCATAATTTAAATACAAATCCAGAACAATTAAAACACGCATTTGCAATATCAAAAGATGGAATGCAGGTGCTTGATATATTAAAAGCTGCAAAAGGGATAGGATTAAAAGCAAAATTATATAAAATGAGTTATAAACAAATAAGAGATATAAAATTACCTGCAATATTACATTTAAAAGATGGAAAATTTGTAATAGCAGGGAAATTTGAAAAAGATAATATATTAATTTTAAATCCAGAAGAGGGAACACCCAAAATGTTATCTAAAGAGGAGTTAGAAAACATTTGGAATGGCGAGATAATATTATTAAAGCCAAAAGGATTTAAAATAAAAGAAGAAGTATTTAATATAAAATGGTTTATTCCAACAGTATGGAAATATAGAAAATCATTAAGTGAAGTATTAACCGCTTCACTTTCAATACAGATAATAGGATTAGCAACTCCGATAGTTATGCAGGTAATAATAGATAAAGTTTTAAATCATAAACTATTAAGTGCATTAGATGTATTTATAATAGGCTTATTTATAGTAACAATTTTTGAAACTATATTAAAAATAGCTAAAAATTATGTATTTACTCATACTACTAATAAAATAGATGTAATATTAGGAGCTAGATTATATTCTCATTTGTTAAAATTACCATTAAGATATTTTGAAGTAAGAAGAATAGGAAATACAGTAGCTAGAGTAAGAGAAGTAGAAAATATAAGGCAATTTTTAACAGGAGCTCCATTGTCTTCTATATTAGATGTGATGTTTATATTTGTATATTTTATAGTAATGTTTTTTTATAGTTCAACATTAAGCTGGGTAATATTAGGTAGTTTTCCATTTTTTATAGTACTATCAATAGTAGTAACTCCAATATTTAAAAGTAGATTAGACGAAAAATTTAAAACAGGAGCAGAAGTACAATCATATTTAGTAGAATCAGTATCTGGAGTAAATACAATAAAATCATTTGCATTAGAACCAGAATTTCAAAAAAGATGGGAAAACGTGTCTGCAGAATATACAAAATCAGGATTTAAGGTATCCTTATTAAGTGGAGTAGCAGGGGCATTAGGACAGTTTATTCAAAAGAGTACAGATCTATTAGTATTGTGGTTAGGTGCAAAGTTAGTAATAGAAAACAAAATAACAATAGGGCAATTAATAGCATTTAGAATGTTATCAAGCAGAGTAAGTGGACCTGTATTGAGATTAGTACAAATGTGGCAGGAATTTCAACAAATAGGAATATCAATAAATAAATTAGGAGATATATTTAATACAAAGCCAGAACCAAGTATAGACCCTTCAAAGATGATGCTACCTAAATTAAAAGGAGATATAAAATTTGAAGGAGTGAGATTTCGTTATAGAGCAGATGCACCAGAGGTAATAAGAGATGTAAAATTTGAAATCCCAGCAGGGAAAACAATAGGAATAGTAGGAAGAAGTGGTTCTGGAAAAAGTACGTTAGCAAAATTAGTACAGAGATTATACATACCAGAAGCAGGAAAAATAACAGTAGATGGAATAGATATTTCATTAGCAGATCCTGCATGGTTAAGACGACAAATAGGAGTGGTTCTGCAAGAAAGCTTCTTATTTAATGGGACAATTAGAGAAAATATAGCAATAAATAAGCCAACAGCAAGTATGGAAGAGATAATAAATGTAGCAAGAATAGCAGGAGCACATGAATTTATAGTAGATTTACCAGAAGCATATGATACACAAGTAGGAGAAAAAGGTTCTGCATTATCAGGAGGTCAAAAACAAAGAATTGCAATAGCAAGATCATTAATAACAAACCCAAAAATATTAATATTTGATGAGGCAACATCAGCTCTTGATTATGAATCTGAAAGTGCAATTCAAAAAAACTTATCTAAAATATGTGATGGAAGAACAGTACTAATAATAGCACATAGATTATCAACTTTAAAAGATGCAGATTTAATAATGGTAATGGATAGGGGAGAATTAATAGAATATGGATCACCAAAAGAGTTATTAAGCAAACAGGGGTTATATTATTATTTATATAGTCAACAATTAAAATAAAGTGGAGGCATAATTTATGTTAAGGAACAAAAAAGAAAAAAATGCAAAATATGAATTTTTATCATCAGCACTAGAGATAGTAGAAAGTCCTCCTTCGCCACTTGGGAGTTTAATAATATGGATAATATTATTATTATTAATAAGTGTAATAACATGGTCATATGTAAGCAAAACAGATGAAGTAGCAACGGCAATGGGGAAAATAGTACCAGGTGGGAAATTAAAAGTAATTCAATCTTTAGAAGAAGGAAAGATAGTAGATATATTAGTAGAAGAAGGAGCAGAAGTCAAAGAAGGACAGTTATTAGTAAAATTAAATTTAAAAACAAAAGCAGCAAATTTAGAAGCATTAAACAAGTCACTATTAATGGTAAAATTAGAAATGGATATATTAAGGAAAAAACAGGTAAGAGACATATTTAAAAATAACAAAGATATAGAAAAAGTATTGTCAAAAAGTGAGATAAATTCACAAAGAAATTATTATGAAGCAAAAGAAAAAGAATATCTGTCTAAAAGAGATGGGCTAAAGACATTAATAAAACAAAAAGATGGAGAGATATTAGTAACTAAAGCAAATTTAGAAAAATTATTGGAAAAATATAGAGCATTAAAGGAAAAAGAGGAAAATTTGAAATATCTATATGAAGTAGGAAGTATTCCAAGAATAGATTGGATAAATAAAAAAGATGAAGTATTAATAACAGAAAAAGATTTAAAAAAAGAACATGCAACAATAGATGTAATAAAAAGCCAATTAACAGAAACGAAAGATAATTTAGTAAATTTAGATAAAAGTTGGGATAAAGGAGTAAAAGAGAAAATATTAGAATTGGATAAAAAGAAAATAGAATTAGAAGCAAATTATATAAGAGCAAAAGAGAGCTATAAAAATAGGAATTTATATTCTCCGGTAGATGGGATAATAAACGAGATAGGAGTAACAACAATAGGTGAAGTAGTGACTTCTGCAAAACCAATAATAACAATAGTTCCTAAAAATACACCATTGTTAGCAGAGGTAAAAATATTAAATAAAGATATAGGATTTATAAAAAAAGGACAAGGAGTAGATATAAAATTAGATACATTTCCATTTCAGAAATATGGATCAATAAAAGGTAATATAATATATATAAGCTCAGATATAATAGAAGATAAAAAATTAGGGGCAATATATAAAGCAAAAATAAAATTACAAAAGACAACAATAAATGTAAATGGAAAAGCAATAAAGTTACTACCTGGAATGAATTTATCAGCAGATATAAAAATAGGGAAAAGAAGAGTAATAGAGTTTTTCTTATCACCATTAATGAAAGTACCAGAAAGCTTAAAATTAAGATAAGGAATGGCTTAAAAATAACATTCCCATTTTGTTATAAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCTTAAGAGGAGAAATGAAAATTGAAAAAGATAAATATTATATTTAGCATATTTTTTGTTATGTTTAATTTGTCATATAGTGTAGAATATAGTTTAAATGACATTATAGAAGAATTTTTGTCAAAAGGAGACATAACAAATATAGAAAAATTAAATTTAGATACATTAGAAAGGAAAAAGAAAAGTATAGAAAAAGAGAAAAATTCAAAAATTAAATTGTCATTAAAAAATGGGAATGAACTTTTATATAACAAAGAATTAAATATTTGGCGAAAAGATAAGAGGTTTTTACATGGAAATCTAAGTTTAGAAAGTAGTTATAGAGACTTTTATATAAAATTTGATGATCAGTATAGTAATGGAAATATAGATATATCAGGAGATACAATTTATACAAATAGATATAAAAATGAGATTTCTGAAATAAGTATAGGATATAATAAAAATATAAATGATATATTTTATAGCGAATATAAATATAACAAAAATAATATAAAGTATGAAAAAATAGATATAAAATTAAAAAAAACAAAAGAGAAATTCGAAAAAATAAAAGAATTAATACAACTTTATGTAGAGATAAAATCAAAGGAAGAGGAAAAAAGTTTATACTTCAAAATGTTTAGAGAAAATAAAGAGATGTTAAAAATAGTAAAAGGAGAGTATGAAGTAGGAAAAAAAAGAGAAGTAGATGTGGAAATAATAAATTTAGAATTGGAAAATATAAAAAACAGAATTGATATTTTAGGCGAAAAGGTAAATGTTTCTAAAGAAAAGTTATTATCATATATAAATAAAAATGGAAATAAAATAAGATTACTTCCATTAGAAAAAATAGATATAGGAGAAATTGAAGTAGAACACATAGAAAAAGAGGATATAATAAATAGGAAAAATATGTTAAAAGAGGAATTAAAATTACTAAATAGAAAAAATCAAGTTGATATAAATATATATTCAGAATATGATTTGAAAAAAAATAATTATAAATTAGGAATAAATTTTACTGGAGAGGCTTTTGGATATAATTATAAAATTGATGAAAATAGAAATAAAAATCTAGAGTTTGAAAAATTATTAAAAATAAAAGAGAAAGAGTTAATAATAAAAAAAACAGAAGAGGAAAAAAATTATATAAATTTAAAAAAAGCATTAAGGCTATCACAAAAAGATGTAGGAATAAAATTTAAAATAAATAATTTAAATAAAAAACTATTTATAAAAGGGTATGCGGGAGCATCAGATTATATAAAGTCAAAAACAAATTATATAAAAGCAGAAGTAGAGAACAAAAAGAATGAATATAAATTATCAAAATTTATGTATGAACAATATTGGATAAAGAAAGTAAATATTATGAATGAAAAATAAATAGAATAAAGAAAAAAGGAGAAATTAAAAAAAGATGAAAAAATTAAGTTGGATTGTGTATTTAATATTAATATTAACAACAGGGTGTTTTAGAGAAGAAAGTATAAACATTACTCCAAAAGGGATATTAAGTGGATATGTAGTAGATTCTACAGGAAAAGGAATAGAAAAAGCAAATGTATATATAAGTGATAAGTTAGCAGAAACTGATAAACAAGGTAAATTTTACATAGAAGATATAGATATAGGTGGTAATCCAGAATTTGTAGTCAGAGTAGAAAAGGGAAATTATTTAAGTAAATATATAACAGTAAAATATGATAATTCTACAACAAATATTCAAATAAATGGGACAAATGATATAAATGGGTATCCATTAAAAAATGTAGTTAAAAGTGTGAAAGTAGAATTAACCAGTTTGATAAAAGTAGAAGGTAAATTAAAAGAGAAATTATTAGATGAAAATTTGAAAGTACATATAAGTATCAAAGCTAAAAAAGAATATCAAGAATATTTTGATAATTTAGAATATAATAAAAATTTAGAAAATGGAGATAAATTTGAAATTGATAATATTCCAAAATTTGGATTAGATGAAAAAGGCGAATATATTATAGAAGAAATTAGAGTAGGAATATATTTAGAAGGAAGCAATACTGAAAAATATTTTATAAAATTAACAGGAGAAGATTTGACTTCTAAAGAAAAAATGGAAAATTTATCTTTAAATAAATTATATACATTACAAGGTAAATTATATAAAAATATAGATAAAAAAGAGATAATGGAAGGAGCTAAGATAGATTTATTAAAAAGTGATGGAAGTGAATACAAAAGCATTTATAGTTCAGAAATTGGTTCTTATGAATTTAACGAAGTGGAAGAGGGAGAATATAAACTAAAAGTTCAAAATATGGATATGGATAAAGATGGAAGCGAAGAATATAAATTTGAAAAGGAAAGATTAGTAAAAATAGGTGGAGATAATAATACAGAGATAAAAAAAGATTTATGGTATGATAAAATGGTTAATTATAATTTGAGTGGTAAGGTTATGATTGATGAAATTGGAATATCAAATATAAAAGTTAAACTATATAACGGTACATATTTAATAAAAGAAACTACAACTAATGAAACAGGAGAATACTCATTTAGTGATATAGAATATAAAGATATAAAAATAGTAGCAGAGCCTATAGATTTAGATGATAATGGAGTATATAATTTTATAGGAAAAGATGAAATATTTGAAGAATTAACTATTGCAAATGAGATAGGAGAAGATTTAAAAGATAAAAACTTATATTTTAAAGCAAATGAATTAGAACCAAATTATGGATTAGAAATATCAAAAGCAAATTTTTTAGAAAATGATAAAGTAAAAGCAAACTTAAATCCAGGGGATAAAATAACAATAGAATTTAATAATGAACTATCTGAAGATGCAATAGCAAAAATAAAAACAGCAGGAGAAAACATAGTTTATTTATATGAAAATGCAGATGAAATATTAACTACTTGTGTAATAAAAGATAGTAAAATTTTGGAAATAGAACCATTGGTAAATTTACAAGCAGGGGTAAATTATAAGATAAAACTAAATGAAAAATTAACAAGTAAAGAAGGAAATAAATACAATATTTATTTAGGAGTAAAAGAGTATGAAGGGGAATTAATAAAAATTCAAGAAGCGACTTTAGAATCAATAAAACCACAAATAGATTTTTATTATGGAATTTCTAAAGAGATATCAAAAGATGAAAATTTTATTTTAGATAATGATTTAATAGGGGGAGTATATACAGATATAGAAAAACAAAACTCTCCTTTAAAATTAGAAAATGGAAGTGAAGGAACAACAGATTATAGTTTAAATAAGCTAAAAATTAAATTTAAAATAGCAGAAAAATATATAGATTTAGATAAAAATGAATTAAGAGGAATTTCAAAATTTATAGTTTATGGAAAACTAAATTCTGATTATTCATATTGGAAAAATCTAAAAGAGATATCAAAAAATGAAGTATCAAAAAGTTCTATAATAAATAGAGAGATAAAAGATATTGAAATAGATTTAACACAATTAAAAGGTTATAGTAACGAAGATAGATTAGGATATGGTAAAAAAATAGATTTAGTAGTAATTCCAGTAAGTTTGAACAACCAAAAAGCAAATTTTGATAATAGTAAAATAATGATATTAGAAGACAAATATAAACCAGAAATAAAAAGTATATTGGGAATAAGTGGGGATTATGTACTAGAGCCAGGTGAAAATATAATAAAATTTAATGAAGATATAGATACAACAAAGGGATTAAATATAGCAATTAGCAATGTGAATGACAATATAAAATATGAACTAAAAGATAATGGCTATTTAAACAAGGGAACTTACTATTTCAATATATCTATGAAAAATTTAAGTCTAAAATTAAGTAAAGATTTTTTAAAGTCAGGAAAAACAGAATTGGAACAAATATTAGAAGTAGAAAACATAAAAGGAATATATCCAACTATGGAATTAGAAATAAAAGATAAAGGTATAATAGAAATAGTAGATATAATAGATACAAATAAAATAAAAGTAAAATTCAAGGATAGTTTATTTGACATAAAAAAAGAAGATTTATTTATAGCTACAGAAAATAATAAAGATATTTTTTGCAGAGAATCAGCAATAGGAGAAGTTAAAAATATTGGGACTGATTATATAAAATTAAAATTAAAAGAAAAAGCAAAATATATGATAGGTGATATATTGGCAATATATGAAGATAACAATAAAATAGGAGAGTTAGTAGTTACAAATATAAAAAAAGATACTAATAGTGATGAATATATTTATAATATCTCAGGAGCAGATATAACAAATATAAAATCGGAATTTGACAAGGGGAAAACTTTAAACAGTAAATTGAAAAATAATATGGTAATAAAGATAACTGCTTATGATACAAGTGGAAATCTTATAAATGAATGGAAGGACGAATATTTTAATGAGAATGGAGTTTGGGGTGTGAGGTAGCAGTGTTGAGATTAGATATTAAGGAATGGCTTAAAAATAACATTCCCATTTTGTTATAAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTTAACGTTCCTAATTAATATATTGGGTACTTTTAGTTTAATATATATATAATCAGACTTTTTGTTTTATCCATATAGGGGACTGTAATATTTGGATAAAAAAATTCCTTTAAGTTTCCCCATTTTTGTAGTTTAATTGATAGATTAAATTAAAAGCACTTCTCCGTCAGTTTTACTGCTAGAGAGGTGCTTTTTTAGTTTCAGAATTAGACAACTAAAAATTCCTTATTGACAAAACTAAATATATATAGTAATATATTTACCAAGTTACGCACACGTATGCGAAAAAGAGGTGAACTAAGTTGATTACAATAAAAGATATAGCTAAAGTAGCAGGAGTTAGTCACTCTACAGTATCTAGAAGTTTGAATGACAGTAATCAAATATCTGAAAAAACTAAAAATAAAATAAAAAAAATAGCAGAAGAGATGGGATTTGAATTTAATTTAAACGCGAGAAGTTTAAATACACAAAAAACTAACACATTAGGAATAATAGTACCTGAATTTTTTGGAGATATAAGAATTGAAGTTTTCTTTGGTAAAATGTTAGGATATTTATTAAGAGAGATTGAAAAAGAAGGTTATACAAGTAGAATAGAATATGCAAAAAATAGTTTAGATAAAAAAAGTAATATTCAAAAAATGATTCAAAGCAGAAGAATTGATGGATTAATAATTATACATGAAAATATATTAGAAGATGAATTTGAATTTTTGTCTGAAAAAGATTTTCCAGTTATTTTTTTACATCATAAGCCAGAACTTTTTTTTGATAAAAATATAAATTATATTGGTACTGATAATTATAAAGGTGGTTATATGGCTACGGAATATTTAATAAACAAAGGACATGAAAAAATTGCAACTTTAACTTGGGATTGTTTAGGGATAGAACAAGCAGAAAGAACTAATGGGTATATAGCAGCACTTAATTCTAATGGAATAAAAGTTAATGAAAAAATTATATTTAAAACAGATTTATCATTTGAAGAAAATTATAATATAATAGAAAAAAATATAGATATATTTAAAGAAGTTACTGCTGTATTTGCACAAACTGATTTATCAGCTTTGGCTGTTATAGAAGCTTTAAAAAATAATGGGATTTCTGTTCCAAAAGATGTATCTGTAATAGGTTATGATGATATTGAATTTGGTAAATTTTTTAAACCATATTTAACGACTATTCATCAACCAATAGAGGAGATTGTGAAAGAGAGTGTAAAAACATTAATAGATATAATAATGACTAAAAAAAATAAAAGTATAAAAAAAGTATTTGAACCATATTTAGTAGAAAGAGATACTGTAATTGAGATCTAAATATGAGTTTGAGAGATAAGTTAGAATAATAACTTTTACTGCTTTCGCAAACGTTTGCGAAAGGTGGGTAGACAATTAAAAAACATACTAATTTAAATCAATAAAAATAAGAGTCGTAGAGTTATACAATTGACTAAATATAATTTACAAATAAAGGAGAATATTATAATGAAAGAAAAATGGTGGAAAGAGGGAGTGGTATACCAAATATATCCAAGAAGTTTTAAAGATAGTAATGGAGATGGAATAGGAGATTTAAGAGGGATAATTGAAAAAATAGATTATATAGAAAATTTAGGAGTAGATATAATTTGGTTAAATCCTGTATACAAATCGCCAAATGATGATAATGGATATGATATAAGCGATTATTATAATATAATGGATGAGTTTGGAACAATGGCAGATTGGGAAGAACTGTTAGATAAACTTCATAAAAGAGGAATAAAATTAATAATGGATTTAGTTGTAAATCATACATCAGATGAACATAAGTGGTTTGTGGAATCAAGAAAATCAAAAGATAATCCATATAGAGATTATTATATTTGGAGAAAAGGGAAAGAGAATAAAGAAGATGGAAAAGAGATAGAACCAAATAACTGGCTTTCATTTTTTAGTGGTTCAGCTTGGAAGTATGATAAAACAACAGATGAATATTTTATGCATCTATTTACAAAAAAGCAACCTGATTTGAATTGGGAAAATGAAAATGTTCGAAAAGAAGTTTATAAAATGATGACATGGTGGCTTGATAAAGGGATAGATGGATTTAGAATGGATGTTATAAATTTAATATCAAAAGTAGATGGGTTACCTGATGTTCCAAAAGTTAAAGGAGAAAAATATAGTTGGGGTGGAGATTATTTCATGAATGGTCCAAAAGTTGAAGAGTGGTTTAAGGAGATGAATAAAGAAGTTTTAAGCAAATATGATATAATGACTGTAGGAGAATGTCCGGGAACGACTCCGCAAGAAGGGATTAATTTTACAGCAGAAGAAAACAGAGAATTAAATATGATATTTCAATTTGAATTAATGGGAATTGATTCAGAAATTGTAAAATGGAATACAAAACAATTTGAATTAAAAGATATAAAAAGAATAATTAAAAAATGGCAATTAGTAATAGAAAAAGGTGGTTGGAATTCAAACTATTTAATGAATCATGACCAGCCAAGAGCATTATCAAGATTTGGAGATGATAAAAATTATAGAAAAGAATCTGCTAAAATGTTGGCTACTTTTACATTGACATTGCCAGGAACTCCTTATATTTATCAAGGAGAAGAGATTGGAATGGTAAATGTAGCATTTGAAAAAATAGATGACTATAAAGATGTAGAAACTATTAATTATTACAATGAAATGGTATTTGATAAAAAAGAAAATAAAGAAAAAATAATGAAACAAATTCATCAAATGAGTAGAGATAACAGCAGGACTCCAATGCAATGGGATGATACAGAAAATGCAGGATTTACAACAGGGAATTCTTGGATAAAGCTTAATCCTAGTTATAAAGAGATAAATGTAGAAAATGATTTGAAAGATGAAAATTCTATATATAATTATTATAAAAAATTGATAAAAATTAGAAAAGAAAATAAAGAATTAATTTATGGCAAATATATAGAAATTAATGTAGAAAATGAAAAAGTTATGAGTTATATATTAGAAAAAGAGAATAGTAAAATTTTAGTAGTAATAAATTTCTTTGGAGATAATGAAACTTTAGATTTAAAGGGATATGAAAAAGAGTTATTAATATCAAATTATGAAAATAGTTTAGAAGTAGAATTAAAGCCATATGAAGCAAGAATTTATAAAATAAAATAGAGGTGATTAAAAATGACAATAGTAACAGTATTAGGATTTACAGCGGCAACATTAACATCATTATCATTTTTTCCACAGGCGATAAAAGTTATTAAAACAAGAGATACTAAAAGTATATCTTTAATTATGTATAGTATGTTTACACTTGGAGTATTTTTATGGTTGTTGTATGGTTTTTTTTCTAATAGTATGCCAGTTTTAATAGCAAATATTGTAACTTTAATACCTGCAACTGTTGTATTAATATTAAAAATAAAAGAAGGTAATAAAAATTAGAGTACTCAACCAAAACTAGGAGGAAAATTTATGTTATATAAAAAATTAGGGAAATCAGATATGAATGTTTCTGTTCTTGGATATGGAGCTTGGGCATTAGGAGAAGATGGCTGGGGCGGTATAAACTTAGATGAAGCATATAAAACAATAAATTTGGCAATAAAAAGTGGGATAAATTTTTTTGATACAGCACCAATTTATGGAATGGGAAAATCAGAAGAGAGAATTGGGGAACTATTAAAAGAGATAAGAAAAGATATTTATATTGCTACTAAATGTGGACTTTTATGGAATGAAAATAAAGAAGTTAGAATTGATAATTCAAGAGATGCTATAATGTATGATATTGAAAAAAGTTTAAAAAGATTAAAAACAGATTATATAGATTTATACCAGATTCATTGGCCAGATAATAAAACTCCTCTTAAAGAAAGTTTTACAGCATTAAATGAATTAAAAGAACAAAATATAATTAGAAATATTGGAGTTTGCAACTTTTCATTAGAACAATTAAAAGAAGGGTTGGAATATAGTGAGATAGTTTCACTACAAAATCAATATAATTTACTACAAAATAGTATTGAAGAAAAAATAATGCCTTTTTGTGAAAAAAATAAAATAAGTATTATTCCATATAGCCCATTGGCTCAAGGAATGTTATCAGGAAAAATAGATGAAAATTACCAATTAAAGCCTGGTGATATAAGAGAGCATAACCCATTGTTTAATAATAAAGATAATTTTGAAAAAGCTATAAAAAAAATAAAAGAGCTTCCAAAACCATTATCTCATACAGCAATACAATATTTAATAGATAAATCAAGCGTGGGAACAGTTATATTTAGCGTAACTAAAAGAAATCACTTAGAAGAAAATTTGAAAGCGTTAAAGAAATATATGTAATTGTAATAAATGTTTTAAATTGAGAATATTTATAAAATTCAAAAAAATAATCATTAGAAAAACATTTAATGCTTTTCTAATGATTATAATGTCTAGAGATTTTTTTAATTGTAATTTTGCTTTAATTCTCTGCTATTTGAAGTATGGTAGTAGATTTATAAATTTTCTATAATATCTAAAAATTTATCTAAAGGTTGATCGCCTAATAATTTTTCTGTTTCGTTAAATAAAATATGAGGTACTGCAGATACTCCAAATTTATTAGCTAATTCATTAAATCTAGAGCTTTCTATCATTTCAGCATCTATATTTCTGTTTTCTAATGCAAGTCTGTGTGCATTTACAACTGCTCCAGGACAATGAGGACAAGATAATGAAATGAATATTTTTATATTTACTTTTTTATTAATTTTATTTATTCTGTCTAAAATTTGAGCAGATAAAGCCTTTTCATTTCCTGAAATACTAATTAAATCTAAAACAAAAGAATTTATTTCATGTCCTGCAGGGATTCCATAATATTTAATTCCTGTGATAGATTCATCTTCGTTGGTTAAAACTATTGCAGGGTATAATTTAATACTAAACTTTTCTATTTTTTCATTATTTTCCTCATTTTCATAAATTTCCAATTTAATTTTATCAGTTGTGCTTTTTAACTCATTTAAAAAAGCTTCTGTCTCTTCTATATATTTATCAGTTTCACTAGACTTAAAAAATAATATTTTAACCTCATTTTTTAATTTATTATCAAATGCTTCTTTTAGTTGTATTAATGTTTTTTCATCAAAGATTTTCATTGTAATCGCTCTCCTTTATATTTTATTATGTAAAATATAAGTTATTTATTTATCAAATAACTATATACAGATAATGCAGCTTTTGCACCTTCTCCTGCTGCTATGATTACCTGATTATATGGAACAGAAGTAATGTCTCCAGAAGCAAATACTCCTGGTAAACTAGTTTTACAGGAACAGTCTATAGATATTTCATTTTTTGAATTTAATTTTATTTCGTCTTTAAATATTTGAGAATTAGGAATTAATCCTATTTCTACAAAAATACCATCTAATTCTATATCAAATATTTTATTAGTTTCTCTATTTTTAAATTTAGCTTTTTCAAGTTTTTTATTTCCAATAGCTTCTAATATTTGATGGTTAGTCATAATTTTTACATTAGAAAAATTATTTAATTTATCTATTAATATTTTATCTCCATTTAATTTTGGAAGATATTCTATTAAAGTAACCTCTTTTGCAATGCTAGCTAAATCTATTGCTGCTTCTATTCCAGCATTTCCTCCACCTATTACAGCAACCTTTTTATTTTTATAAAAAGGAGCATCACATGTTGTACAATAAGCAATTCCTTTTCCAGAAAATTCAGATTCACCAGGAATATTTAATTTTCTCCATTTGCTGCCAGCAGCAATTATTACAGTTTTAGCTTTGTATTTAGTACCATCAGAGACATAAATTTCTTTTATATCTTTTTTTAATTTTGTTTTTGTTACTTCAAAACCTGATTTGTATCCAATAGGGAATTGATCTATTTGATTTTTAAATTTATTAACAAGGTCTTCTCCTTTGATATACATAAACCCCATATAGTTTTCAATAGCTTCTGTTTCTAATATTTGTCCACCAAATTTATAGGTGATAATTCCAGTATCGATCCCTTTTCTCATAGCATATACAGCAGCGGTCATTGCAGAAGGACCACCCCCAATAATTAGAAGTTCATAAATTTTATTCTCATCTAAATTTTTTGTATTACCGTTATTTTCAATATCAAATCCATCTAAATTTAGATTTAAATCCATAATTTGTTCCCCCTTTTTAAGTAAGAAATGATGGTATAATTATACCTCATTTCTTATTATACCTTATAAATTTATATTTTTCCAACTAAATTTAATTCAGGTTTTAAAGTTTATAGTTTATCAAATTATTTTTCAAGCAGAAGTATATATAATTTGTTATAATTTAATAGATGAAAATTAGTTTAGTTTTGTTATTCCAAAATATAATAAATTTACAATTAAAATATAAAAGTAATTAACTCTCTTTGAAATATAACTTTTTTATGGTATAATAATGCATAAAAAAAGTTGCAATATAAAAAATTAGGAGGATACAATGAAAAAAATATTATTATTATTATCACTGTTTATTATAACTATTTCTGCTTACTCAATAACTATTATTACACCAAAAGCTCCACCGGCGATACCAATATTAAGAGCTAAAGAAAATGACTCTACAATTAATATTCAATACTATACAAATGCAAATACAGAAGTTATACCTAAAATAATCAAAGAAAAAGGAAATTTATATATTATTCCTTCAAATGTAGCTGCAAAATTATATAATAAAGGAAAAGATTTAAAAATATTAGGTATTACAAGTTTAGGTCTTGTCTATTTATTAAGTAGTGATGAAAATATAAATTCAATAAAAGATTTAAACAGTAAAGAAATTTATATTGGAGCACAGGGGTCTTCTCCTGATGTTATTGCACAATTTGCTTTTGCGAAAAATAAAGTAACTCCAATGATAAAATATGGTTCTTCTCAAGAAATAACAAAAATGTTGTTGACAAACAGAATTAAAACAGCAGTAGTTCCTGAACCACTTGCAAGTTTGGTTTTATCTAAAAATAAAAAAGTAAAAAGGGTTGTAAAGTTTACAAAAGAGTGGAAAAAAATTGATTCTAATTTAAAAGGAATACCACAAGTTGCTCTTGTTGTTCCAACTAAATATTATAATAAAAATAAAGCTAAGATAGATGAAATTTTGTTGAATTTGAAAAAAAGCAGCGATTGGGTTAACAGTCATAAAGAAGAAGCTGCTAAATTAGGGAAAGAAAAATTACAACTTTCAAAACTTTTTTCAGCAAAAATTATTTTTGACTCAATTGATTATATGAATCTTGTATTTATTTCTAAAGGAGAAAGTAAATATCTTATTCCATATTTTAATCATTTGAAAAATATAAATCCTAAAATGATTGGTGGAAAACTACCAAATGAAAAAATATACATTAAATAAATTTATAGTAATGCTAATTGTCTTGTTTATTTGGCAATTAGCCTCTTTTTTTTACAATGAAATAGTTTTACCTTCTCCTTTGAATGTGATTTATTCTTTAAGAGATATTTTAATAAAAGAAAACTTTATAACTATAATTGGATATAGTTTTATGAGGACTTTAATTGGATTACTGTTTGCAATTAGTTTTGGAACTGTTATTGGATTGTTTTCAGGTTTAAATGAAAAATTTAATTCTTATATCTCTCCAATTGTTATTTTTATTCAATCTATGCCAATTATTTCTTGGATTATACTTGCTTTAATATGGTTTGATAATAATTTTATTCCTATTTTTATATTAATAATTGCCACTATTCCAATTTTTATATTAAATATCTCTACAGCTATTTTAAATACTGATAAAAATTTAATAGAAATGGCAAATATATATAAAGTAAGTAAAAAAAAGATAATGAAAAATATATATCTTCCAACAATAAAATCTAATTTTTTTTCATCATTAAAAATTGGTTCTGGACAGGGGTTTAAAATATCAATAATGGCTGAAATAATTGCTCGTTCTCAAAATGGGATAGGGGAAAAAATGAATTGGGCTTGGATAAATATTGAAACAAGTGATATTATAGCATGGAGTTTAATTATTGTGTTTATTAGCTTCTTTTTTGAGTTTATAATAAATTTATTTTTGGAGAAAAAATTATGATTAAGATAAAAAATTTATATAAAAATTTTAATGATTTTCAACTATTTGATAATTTTAATTTAATTATTCCCAAAGGAAAAGTTACTGTTATTTTAGGACCATCAGGAAGTGGGAAGACAACTTTAATGAGAATGTTATCAAATCTGGATAAGGATTTTAAAGGTGAGATTATTAATAATAGTAATATTTTTAGTTATGTATTTCAAGAAGATAGACTATTACCAAATAAAACTGTTTTGGATAATATCGAATTTGTTTTAAATGATTCAGAAAATTATTTAGAAAAAATAGATATGACTCTTTCTATTTTAGAGATTTTAGATAAAAAAAATGAAAATATAAATAATTTAAGCGGTGGACAAAAACAAAGAGTTTCCATCGCAAGAGCTTTTATTTCTCCATCAGATTTTATTATAATGGATGAACCATTTAAGTCATTAGATTTTGAATTAAAAATAAATATTATATATGATTTTATTAAATTATTAGTGCAAGAAAAGAAAACAATACTCTTGGTTACACATGATGTTTTGGAAGCAATTTTATTGGGAGATATTATACATATTTTTTCTAAACCTCCTACAATTATAAAAAAAACCTTAAATGTAGATATTAATAAATCTGAAAGAGAGATATATTCTAATAAAATTATTGAATTAGAAAAAGAAATTTATAAATATTTATGCTCTACCAAATGAAGTATGGATTATTTTTTATTTAATAGGAAAGTATAAATTTATGCAGAAAATAAGCTACGCCGTTTTTTTGAAATATGCGATTTTTCAAGGCAAAATTTTTCAGAACCCAAAAATTTAGAAAAATATTTATGTTTTACCAGATGAAGCGTAGCTTATTTTGTTATTATAAGTTGAAATCATAACAAAAAAGTTGTATAATTAGTTTTACTAAAGAACGTTTAAAAATATGAAACGTTTCTAAACCTACAAGGAGGATACTTATGCGAAAAAATGAAGTGAAAGATTTATACCGAAATCATCAAAACTATCTAGATAAACCTGTAACTGTTGGGGGATGGATTAGAACAATTAGGACATCTAAAAATTTTGGATTTATTGAATTAAATGATGGGACTTTTTTTAATTCAATACAAATTGTATTTGAAAATGATCTTGAAAATTTTGAAGAGATATCTAAATTAACTACAGGTTCTTCTATTTTGGTTCATGGAACTTTAGTAAAATCCCCAGGGTCAAAACAGCCTTTTGAAGTGAAATCTAATGAAGTTATTATAAAAGGGGTTTCTGAACTTGAATATCCCCTTCAAAAAAAGAGACATACATTTGAATTTTTAAGAACAATTGCTCATTTAAGACCTCGTACAAATACTTTTTCTGCAGTATTTAGAGTTAGATCTTTATTAGCTCATGCTATACATACTTTTTTCCAAGAAAAAGGATTTGTGTATGTTCATGCACCTATAATAACTACAAGTGATGCAGAAGGAGCAGGAGAGATGTTTAAAGTGACAACTCTTTCTAATGAAAATCTTGCTAAAAAAGATTATTCAAAAGATTTTTTTGGAAAAGAAGCTGGATTAACTGTTAGTGGACAATTAAATGTTGAAACTTATTGTATGGCATTTGGAAAAGTTTATACATTTGGTCCAACATTTAGAGCTGAAAATTCTAATACAGGTAGACATGCTGCTGAATTTTGGATGATAGAACCAGAAATTGCTTTTGCAGATTTGAATGATGATATGGAACTAGCAGAAGAGATGACTAAATTTATTATTAATTATGTGTTAGAAAAAGCTCCTGAAGAGATGGAGTTTTTTAATAAATTTATAGATAAAGGACTTATTGAAAGATTAAAACACGTTTCATCTTCTGATTTTGCTAAAGTAACTTATACAGAAGCTATTGAAATTTTAGAAAAATCTAATAAAAAGTTTGATTTTCCTGTGAAATGGGGAAATGATTTACAAACAGAACATGAAAGATATTTAACAGAAGAACATTTTAAAAAACCTGTTTTTGTAACAGATTACCCAAAAGGGATTAAAGCATTTTATATGAAACTTAATCCTGACGAAAAAACTGTTGCAGCTATGGATTTACTTGTTCCTGGAATTGGAGAAATAATAGGAGGAAGTCAAAGAGAAGAAAATTTAGAGACTTTAAAATCTAAAATGGATGAATTAGGATTATCGCAAGAAGATTATTGGTGGTATCTTGATACTAGAAAATATGGAACAGTTGAACATGCAGGGTTTGGACTTGGGTTTGAAAGAATGGTAATGTATGTGACAGGAATGCAAAATATAAGAGATGTTGTGTCATTTCCTAGAACTCCAAAAAATGCAGATTTTTAAGAAAATAGTTAAAATTTTAGGGGCGAAATCTATTTTCGCCCTATTAATTTAATCGCGATATTAAATTTTTGATGTTTGTGACATATAATTATAAAATAAAAAAAGAGCCAATATGTGGAATTGGCTCTTTTAATTTTACATATTTTTATTTTTCAGGATACGCTTCTAATGAATGAATAACAAGATCCGATCCTTTTTCCTCTTCTGCTGCATTTAATCTAAATCCAATTGTTTTATCTATTGTATAATAAACAACAAAACCTCCTACTAATGCGATAACTATTGCAGATAAAGTTCCAATTAATTGAGATATAAATGTAACTCCTCCTAGTCCACCAAATATTTTTAATCCAAATATTCCTGCTGCAATACCGCCCCAACTTCCAATAACTCCATGTAAAATCCATACACCTAATACATCATCTATTTTAAATTTTTCAGTTTCTAAATTAAATCCAATTACAAAAATGATTGCTGCAATTGCCCCAACTATAAATGCTCCTAATGGATGATAAATATTTGAGCCAGCACAGACAGCTACAAGTCCTGCTAATGCTCCATTATGAACAAAAATCGCATCTCTTTTAGAAAATAACAGTGCAGCTAAAATTCCACCAACCATTGCAAAGAGAGAGTTTAAAGCTACTAAACCAGATATTTCTCCAATATTTAAGGCACTCATTACATTAAATCCAAACCATCCTACTGATAAAACCCAACTTCCTAATGCTAAAAATGGGACATTACTTATTGGCAATGGATAACTTTTAGTTTTATCTTTTGAATATCTGCCATTTCTATTTCCAAGTATTAATATTGCAGGTAATGCTAACCATCCTCCAAATGAATGGACCACTACTGAACCTGCATAATCTGAAAAATTAGCTCCACCTATATTTTTTATAAAATTTTGAAAAGCTTCTGCATTTTGTCCCCATATAATTGATTCGAAAAATGGATATAAAAGCCCTACAAATATTGCTCCTGCTAATACTTGAGGCCAAAATTTAGCTCTTTCTGCGATACCACCTGAAATTATAGCTGGTATACAAGCTGCAAATGTTAATAAGAAAAAGAATTTTACTAAATCATATCCCATATTTCCACTAATTAATTGATCAGCTGGTTTCAAAAAACTAATTCCTCTTGCAATTGGATATCCAATTAAAAAATATACAACAGTTGATACTGCCCAATCTGTTAAAATTTTTACAAGTGCATTTACTTGATTTTTTTGCCTAACAGAACCTACTTCTAAAAATGCAAACCCTGCATGCATTGCGAAAATCATTATTGCTCCTAAAAGTAAAAATAAAACATTAGTGCTTTTTGCTAAAACGTCTAAACTCATTTCTCACTACTCCCTTCGATTTTTATAATTGATTTACTAAATACTATTAATATATTATATATATACATTTATTATTTTTCAAATATAAAATATATATAGTACGTATATATATTTTATATGGTATGATATTTGTATGAAAAAGATATTAATTATTAAAAGCTTGACAATTTATATGTATATATATTAAACTAAATAAAGAGGAACTGTAAAAAAATGAAAATAGAAAGGGTGTGGAAAAAATGAAAAAAATTGAAGCTATAATTCGACCTACTAAATTACATGATGTGAAAGAGGCTCTTAGTGATATTGGAGTAAAAGGAATTACTTTAACTGAAGTTAGAGGATTTGGGCGACAAAAAGGACAAACAGAAATCTTTAGAGGTGCAGAATACAAGGTTGACTTTTTACCTAAAATAAAAATTGAGGTTGTAACAAGAGCTGAAAGAGTAGATGAAATTGTAAAAATTATAATGAAAGCTACTAAAACTGGAGAAATTGGTGATGGTAAAATTTTTATATCGGCGATTGAAGAAGTTGTAAGAATTCGTACTGGTGAAACTGGAAAAGATGCGATATAAGGTTTGAAATAACAAAATATAAAGAAATTATTTTTCAAATGTTTTTCAGCATTAAATATTTTAAATAAAACTAACCACTATTTGTAAGAATTTAATTTCTCGCAAAAAGTGGTTAGTTCTATTTTTTTATAAGCTGTTTCTAAAACAATATATTTATGAGTTAATATCCGTTGACACTAATATTTTCCTATGATATAATCTTATTATTGGTAGGACAGTTTTACTGAAAAAAATTATTTTTGAGATGGAGCTATAGGATAATTAGGAGGAATAACCATGTTTAATATGAAAAAAGAAAAAACAAAATCTAAAGAGCAATTTCCAAAAGAAAGAGCAAAAAATTTTCTAGAAGTAGAATATACATATACTCCAGAAGAAGCAGTAGAGGAAGCTAAAAGATGTATACAGTGTAAAAATCCAGGGTGTGTTTCTGGGTGTCCAGTAAGTGTGCCTATTCCTCAATTTATAAAAAAAGTTTCAGAAAAAGAATTTATAGAAGCATATAAAATTATAACTACTCAAAATAGAATGCCTGCAATTTGCGGTAGAGTATGTCCTCAAGAAAAACAATGTGAACAAAGATGTGTGAGAGGGAAAAATGGAGAACCTGTAGCAATTGGAAGATTAGAGAGATTTGTTGCAGATTATTATATGAAAAATGCAGAAGATGAAAAAGTTGAGATAAAAAGTAATAAAATTAAAGTGGCAGTAATTGGTTCTGGACCTGCTGGATTAACTTGTGCAGGAGAACTTGCTAAATATGGATATGATGTAACTATATTTGAGGCATTACATACTTTTGGCGGCGTATTAATATATGGAATTCCAGAATTTAGATTACCAAAAGAGATTGTAAAAAAAGAGATAAAGAAAATATTAGATTTAGGAGTAAAAGTTGAAAAAAATGTAATTGTAGGAAAATCAATTACAATAGAAGAGTTGGAAGAAGAAGGGTATAAAGCTATATTTATAGGTAGTGGAGCAGGACTTCCAAGGTTTATGAATATTGAAGGAGAAAATTTAAATGGAGTTTATTCAGCAAATGAATTTTTAACAAGAGTAAACTTAATGAAAGCATATGATAAAGAAAAATCTCATACTCCATTAAAAATGGGCAAAAATGTTGTAGTAGTAGGAGCAGGTAATGTAGCTATGGATTCTGCAAGAACAGCATTAAGATTAGGAGCAGAAAGTGTAACAATTGTATATAGAAGAGGAGAAGCAGAAATTCCTGCAAGAGCCGAAGAAGTGAAACATGCAAAAGAAGAAGGAATAATTTTTAAATTATTAACTAATCCAACTAGAATAATAGAAGATGATGGGTGGGTAAAAGAGATAGAATGTGTAGAAATGGAATTAGGAGAACCTGATAATTCAGGAAGAAGAAGACCAATTGTAAAAGTGGGCAGCGAATTTAAAATAAAAGCAGATACTGTAATTATAGCAATAGGACAACAACCTAATCCATTAATAAAACAAACAACTTCAGAATTAGAGATAAATAAAAGGGGTGGAATTATAGTAGAAGAAGAAACAATGGCAACATCTATAGATGGTGTATATGCAGGGGGAGACATAGTTACAGGGGCTGCAACAGTAATATTAGCAATGGGAGCAGGTAAAAAAGCTGCAAAAGCAATTCATGAAAAGTTACAAAAAAATAATTAAAAAACCAGATAAAAATATTGGCTTTGATACAGATTTAAAGCAGAATACCTTTAAAATATTGTTAATGATACAAGAATGTATAAAATTTGAAAAAATGTATTAAAATAGTTGAAATTTTATAAAAATTATTGTATAATTGTTTGAAAACTGTATAAATGGAGGTTGTTATGGGGAAAAATATCGAGGTAATGGTAGATGAATTAAAAAAATATTCAAAAAAACCAATTGGAATTTTTGGAGCAAGAGCTTCAGGAAAAACAATGTTTTTAACTGTGTTATATGGACTTACAGGGTTTGCAAATGAAAATGATAAATTATCTATTATTTGCAATACTGCTGAAAGTAGAAATTATTTAAAGAAGAATTATATGAATTTATTAGAGGGAAAGCTGCCATCAAGAACAGAGGTAAATGAATTTACTAAAATTAATATGAATTTATTTCACAACGGGAATAGTTATAATGTTAAAACTTTTGATTTTGCAGGAGAATTATTAAAAGATGTAGATGAAAAAGAGGTAGATCCTTCATTCTTAGAATTGCAAAACAAAATGTATGATTTTTTCAAAATGTGTAGTGGGTTATTAATATTTTTAGAACCGAGTACAGATAAAAAAGTTGGATTTGAAAGACAAATAGAGGTAGATAAATTGTTTAGTTTTTTGAAAAATGAAAATATAGATTTAAATATACCTATGGGAATTGCAATTACAAAATGGGATAAAATAAGTACTGAATTGGAAAAAAGAAATTATGAAGAAGAAGAAGAAAAAGTAAAAAAATATATAAGTGATAATAAAATATATCATAATATTTATCATCTTATTTCTGGAATTAGTGATTATACAAAAATGTTCCCAATATCAGCATTTGGAGAAGCAAGAGAAAATGATTTGCCACCAGAAGAGTTAAAACCTTTTAATGTATTTTCTCCACTAATTTGGGCATCTAATAAAAGAGACCAAGAATGGGTAAAAAAAATCAAGTTTATTTTAAATAAAAATATTAATCCTAAAGATGCAAAAGAGGTAGTTAATGAATTTGTTTTGAATATCGAAAATAAAGAGCTGAAAGTAGAAGTTGAAAAAGCATATACAAAATATTTGAACAAAAGAAGAAATAAAAAAATAGTTGCGGGATTACTTATAATTGGAACTATAGGTGGAGCTAGCGGTTATTTTCTTAAGAATAATTATGATAAACAAAGTTCATATAATAAAATTATGAATGAAACAAATAGAAAATTACAAAAAAATATGATAAATGAGTTTATAACCAAATATGGTAGTAATAATAAATATTCAGGAGATCTATTAAAATTAAAAAAAGATATATATATTAGAATTATAAAAATAGAATCTGATCTGAATACAAAACTAAATTTAATAAACAACTATATTGTAGAATATAAAGATGATAGCAATATAGAAGAATTAAAAAAATTGAAAAGAAAAACAGAAAAAGATATTTCGTCAGAAAAAAATTATAAAAATTTAGAAAATAGTTTATCGAAAGAAAAAGATAATTATAAAAAATATTTGCTTTCTAAAGATTATTCTGAAAAATATCCAGAATATAAAAAAGATGTGATTCAAAATAAAATCAAAATATTTTTAAAATTAGCTGATAAGGAAAAATATGATGAGATAGAAAAACTATATGAAAATAAAAAGTTTAATCAATTGTATAATGAAATTGAAACTTATCTGAATACAAAAGAGTATCAGGATTATAAAAAAGAGGTTTTAGAATTAAAATCAAGCTTAAGAGACAATGAACTATTTATAAAATTAAAAAATAGTATTAAAGCTTATAACTCAAATAAAAATGAAAAAAACTTAAATGGAATTTTAAGAAATTCAGAGAGTTATCTGTCTAATAGTAACTTGCTTTTGCATGAAAAAGAAGCTAAAAATATTATATCTCAGATTAATAAAATAAAAAAAGGGATAAATTCAGAATTTGAAATAGATTTAACTTTAAAAAAAGTTAAACATAAATATATTAAAACTTATGTTATAATAAATATTGATGGTAAAAAATATGAAAAATCAGCAAAATTAAATAAAAAAAATGTTTATGTAGGAAGTTTTATAAATAAATTCAGAATAGGAAAAAAAATTGATATTGATATATATTTAGATGATAAAAAGGGAGTAGAAATACAAACAAAACATTTAAAATTAAGTTTTGGAGATATTAATAAAAATATTTTAGTAAAAACAGAGAAGGGTGACGAATTAATTTTAAGATTGCAAACGAATCAAATAAAATATGAAATAGGTGGATAATATGAAACTAAAATTACTTATCATAAAAAACAGAATAAATTTTGGTTCCACAATTTATTTTTCAGAAAATGTTTCGCCATATGAAAAAAAAGTATTAGAGTCTATAAACTATAAAGATTATATTAAGGAAATTGAAAAAATAAAAATATTAAAAAAAGATGATAACTACATATATTTTTTAAGTTATACAGGTGGGAAAGATGAATTTGGAAGAGATTATATCAATACAATTTCTGCAATTTTTCCTATTAAATTAGATCAAAATGAGATGAAAATATTAAAAAAAATATTAGAATCAATTGAAGATGAGATAGAAAAAGGAAAAGATATTATAGGAGATTATGATATTATATTAAATTCAGGAAAAGATGGAGAGGTTTTTTCTAATATAAAGATTAAAAATAGGAAAAAAACATTCAGAGATACTCTTATAGGAATAAATTTACTTTTATTTATAGTTGTAATAATAGGATTTGGAGCAAATTATTCGTTAAACAGAACTAGTTATAGAAAAATGTTAAATAAAGTAAAAAAAGAATCTGATTATTATAAAAAATATATCTTATACTCTAATTTTTTGGATTCTGAATATAAGAGGTCAATTGAATTTAAAGAAAAAGCAGCAATAAAAGATTATAATGAAATAATAAAAATTTATAATTCAAATAATTATAAAAATCGCGAGATATTAAATAAAATAGAAAATTATATTAATGATAAAAAATTTGAATATCATAAGAAGGAAATATTAGGGATAAGAACTGTAATTTTAAAATCAGAGAGTAAAAAAGAGTTTAATAAAATGATTAACTTAGTAAAAGAATATAATAAAACAAAAAATTATGAAACGTTAAAAAAGATAGAAAATTTGTTATATAAGTATAAAAAATCTAATTTTAAGCTATATAAAAAAAATATTTTGTTATTAGAGAATGAAATAGAGAGGTTAAAAAAAGGAATAACATCAGAAATTGAAATATATATAAATAATAAAAGTTATATATATAATAATAAAAAATTAATATTTGTTATAAAATTAAATAATAAGGTATATAAAAAAATTAAAAAGGTAAATAATAATAAAGAAGATTATATTGGTAGTTTTTATGGAGATGTTGTTCCGAAAAGCGAAATTAATGTAAAAGTATATTTAAATAATTTATCAAAAGATAATTTAATAAATAGTGTTAACATGAAAGTAAGCGATATAAATAATAATATTAGTATTAAAAATAATGATGTTGCAGTTTTTAAAGTTAGACTTTCAATTAGAGATGATTTTTTTATTATACATTTAAAATAATAAGATGATTGACCCACATATTAGATACTCTTGATTAAAAGAAGGAGGAATTTATGATAGAAGAGATAAGAAATTCATATTTAACAGCACAAAAATTATTAAATGAGTTTATTAATGAGGAGAAAAATATAGAAAAAACTGTATTAGTATCTAAATTAATAGCAAATGCTTTTAAAAATAAAAATAAAGTTTTAATCGCAGGAAATGGAGGAAGTACAACTGATGCAATGCATTTTGCAGAAGAGTTTACTGGGAGATTTAGAAAAGATAGAAAAGCGTTACCCGCGATTAGTATATCAGATCCATCTCATCTAAGTTGTGTTGGAAATGATTATGGCTTTGATTATGTATTTTCAAGAGGAATAGAAGCTTATGGAATAGAAAGAGATGTTTTTATTGGAATATCTACAAGTGGAAACTCAAAAAATATTATAAATGCAGTAAACAAGGCAAAAGAATTAGGGATGAAAACAGTTGGATTATTAGGAAAAGATGGTGGAGCATTAAAAGGTATTTGTGATTTTGAATTTATAATACCAGGAGTTACATCAGATAGAATTCAAGAAATTCATATGATGATTTTGCATATAATTATAGAGGGGGTAGAAAGAGAACTATTTCCAGAGTTATATTAATTACATCAAAAAAATGACGAAAATAAATTTCGTCATTTTTTTGTGTTATAATTTATCCAATTAATAATATTTTTAGTTTCAAAAAACCCATTAAAAAACAAGAAATCTTTTGGAGATTTACCAAAAGCAAGTGCAGGATGATTACTTTTAAAAATAGTCCCATTAGTTATAAATTTTTCATACTTACCTGCATCATTTCCCCATAAAAAATAACTTAAATTTGGATTTTTTTTACTAATATATTGGATTAATTCTTCTACAAATGATTTCCAATATTTCATATGAGAACCGGAATAGTTTTTATTATTATCAACTTTAACGGTCAATAAACTATTTAATAATATTACTCCTTGATTATGCCAACTTTTAAATAGTTTGTTAGGAGGCATAATCTGAAAATCATTACTTTTAATTTTTAATCTAATTTCAGAAAAATTGATTAATTGATTTTCATAACTTTTGTAAATATTCTTAACTATATTTTGTAGAGACCTTTGTGGAAATGGAGAGCTCCAACTTTCCAATCCATTTACTTCAAAAGCTAATCCAGTAGCAGCATTTTCTTGAAAATAAGGATCTTTTCCTAAAATCAATACTTTACAAAATTTAATATCTTTCTCTAATGCTTTAAAAATATTTTCTTTTTTAGGAGCAAACTTTTCACTATTGGATTCTAACTTTTTTAACACTTCTAAAACATATTGGATTTTTTCATCTGAAAAAAACTCAGAGTAGCTTTTATCAATATAAAAAAAAGATAAAAAATCATTTTTATTCATAAATTAAACCTCACTTTTACTTTTTAGAGAAAATAAAATTTTAAATAATTTAATTATCCCAAATAATATAACTAACGAAAAAATTATAGAAGCTCCAGATGGAATATTTAATAAATATGAAAATATTAATCCACTCATAGTGCCAATAAATGCAAAAAATATTGATAAAATCATTATATTTCTAAAGCTATTTGAAAAAAGTGCAGAAATAGCTTGTGGTATAGTCAATAAAGATAAAACTAAGATAATTCCAACTACTCTAATATTAATAACGATCGTTAATGCAATAAGTGTTGCAATTGTATATTTAAATAGTGTAACTGGTAAACCTTTTGTTTTCATATATTCTTCGTCAAAAGATATATATAATATTTCTTTATAAAAAAACATAAAGAAAAATATAATAATAAGATTTAATAAAAGCATAGCGTTAATATCAAAAGTTGATACAGCTAAAATATTACCAAAAAGATATGCCATTAAATTTGGAGCATATCCAGGAGTTATATATATTAAAATTATTCCAAGAGCCATTCCAAAAGACCATAAAATTCCTATTGCAGAATCTTCTCTTATTTCGCCTTTTTCAGCAATATACTCAATTCCAATAGCAGAAAGAACAGCAAAAATAGCGGCAGTAATTATGGGATTTATACCTAAAAAATATCCAATTCCAATTCCGCCAAATGAAGAGTGGGTGATTCCTCCGCTAATAAAGACTTTTCTTTTAGCAACTATATATGTTCCGATTATTCCACAAGAAATGGCAGTTAATATTCCTGCAATTATTGCATTTGAGAAAAAACTATATTTTAACAAATCAATCATCTTTGTTACCTCCATGTTTTAAAATAATTCTATGTGGAACAGGTCCATGTGCTAAAACTTCCAAAGGACAGGCATAAGCATCAATCATATCTTCTGTTATTTCACTTGTTGGGTGATAATGTAAAGTTTGATTTACACACGCAATTGATTTTACATACTGAGGAATAGTTCCAAGGTCATGAGATACTAATATAATTGTCATGTTTTTATTTAATTCTCTTAGTAAATCATATAAAGTGCTACTAAATTTTTTATCAACAAAAGTATTTGGCTCATCTAAAATTAATATTTTGGGATTAGATATAATAGCTCTTGCTAAAAAAACTCTTTGTAATTGTCCACCAGAAAGAGAGCCAATAGCTCTATTTTTTAAATCTGTTATTTTAATTTCTTCCATTATCTTTTCTAATTTATTGTTATCTTCTTTAGAAATAGCTTTAAAAATACTTTTTTTAGATGATAATCCAGATAAAATAACATCTTTTACTATTATTGGGAATTTTTCATCAATTAATTTAAATTGAGGTAAATATCCAATAAAATGTTCTTTTTCATCACTATAATATTTTATTTCTCCAGAAAAAGGTTTTAAAAGACCTAAAATTACTTTTAATAATGTTGTTTTACCTCCACCGTTAGGACCAATAATTCCAATAAAATCATTTTCATATATAGATAAATTTATATTTTTTAAAGCTATTTTATGATTATCATATCCAGCAGTTATATTATTAATATCAATAACCTTACTTTTATTCATTTTTTCCTCCTAAAACTTCTTCAAAAACTTTTATTGTTTTTTTGCTATTTTCTAACCAATCTTCTGAAAGAGGATCAATTTGAATTACTTTACCATTAATAGCATCAGCAATTGTTTTTGCATCTTCTATAGGAAATTGTAGTTGTACAAAAACTACTTTTATTCTGTTTTTTTTAGAAATATTTATAATATTTTGCATATTTTTAGCAGATGGAGATTTTCCATCTATCTCTATTGGAATTTGTTTTAAATTATAATCTCTTGCAAAATAACTCCATACAGGATGATAAACTATAAATTTTTTATTAGTAATATTTTTTAGAGAATCAGTAAATAATTTATCTAAATTATCTAATTTAATAATAAAACTTTTATAATTTTGGGTATATAATTCTTTATTTTCTGGAAAATTTTCAATTAAGCTATTATATATATTTTTTATTTCTATCTTTACCTCACGTGGAGTTATCCAAATATGTGGATCAGTTGATTTTCCATTTTTTATTAAATTAATACCAACAGATGTATCTATAATTTTCATATTTTTATTGGCTGATTTTATTTTATCTATCCATGCAAATTCAAATGGAATATATCCAATTCTAAAATATATTTTAGAATTATTTAAAAGTTTCATTTGAGATGGAGTAGGATCATATGTAGCTGGGCTTTTTCCAGGTGGAATCATTACATTTACTTTAAGGGTAGAGCCAGCTATTTTTTCCACAAAATATTTTTGTGGTAGGATACTAACAGTTACTGTACTGTTTTTTGTAATAGGTTGTTTAGTTTTTTTATTTGAAAGATAATAAATTGCAAATAAAAAGCTTAAAACAATTATAAACGAAATTATTTTTTTCATAATTCTTGACCTCCATGTTTTTTTTGGTATGCAGCATAGCATTTTGAACAATATCCTTGAAAATATAAAACGTGATTAGTTATTTTATAATTAAATTTATCTTCTATCTTGCTTTCTAAATCTCCAATGATACATTGATCAAAAGCTATTATTTCGCCACATTCTTTACAAAATAAAAAATGTCCACCAGTTCCATAATAGTAAAAAGATTTTCCTTTAAAAGAAACTGAATTAATAATCTGTTTCTTTGTTAAAAATTCTAATGTTCTATACACAGTTGAGCAATCAAGTTTATCTTTAATTTTTGATTGTATAACTTTTGCGGATATGGGTTTTTTAGAAGACTTAATTATATTAAAAATTTCCTTCCTATTTTCAGTTAATTTTATCAAACTTCTTCCTCCTTTTGCAAATGATTTGCACGAATTAATTGTAATACTTTTTATAAAGAAAGTCAACTGTTTTTTAACAATAACCAAAACTTATCATTTCTATAAAAACTATATATTTTACTTATTGTAAAATATAGTATATAATATTGATATAAACTAGGGAGTGTCAAAAGTTTATGAAAACTATAGCGTGGATATTGGGTTTGTTGTTTTGCTCCCTTCTCCTAAGATAGGAGAAGGGTTGGGGATGAGGTCTGAAAAGTATTTAAAATTACGTTATTATTTTAGGAGGGATTAAATATGATTTATGGAATATTATTATCAATTTTTTTAGGAATTTTAGCAAAGGTGTTATCTTTTTTTATTCCTGGAATTGGAACTGTTGCAATTGCAATTTTTTTAGGAATTTTAGTAAGAAATTTATTCCTAAAAAATCAGATTTTTAACAAAGGGATAAACTTAACCGAGAAAAAACTTTTGCCAATTGCGATAATGCTTTTAGGAACTGAATTAAATTTTGCTGTTTTGTTGAAATTGGGATTTAAATCAATAATTTTTATAGGTTTAATGATTACAATTACAATCTCGTCAGGGTATTTTATAAGTAAATTCTTTGGATTTGATAAAAAATTTGGATTGCTTTTAGGTACAGGAAATGCAGTTTGTGGTTCATCAGCAATAGCAGCTACTGCACCTGTTTTAGAATCAGATGATGAAAGTATAGGGTTATCTGTTGCAGCAGTAAATTTAATGGGAACATTAGGAATATTTTTTATACCAGTAATAGCATCAATAGCAGGATTTGGAAATTTACAAGAAGGAACATTAATAGGAGGGACATTACAAGCTGTAGGGCAAGTTGTGGCTTCTGGATTTTCTGTAAATGATAGTGTTGGAGCTATAGCTACAGTTGTAAAAATGGGAAGAGTATTGAGTTTAGGAGTTGTTATAATTGTATTGGATTTAATAATGTCAAAAGATAAAATTAAAATAGAAGAAAAAAAATCTAAATTTAAAATCATAAGGGTTCCATATTTTATAGTAGGATTTTTTATTTTAAGTGTAATATCTTCAATAAATATATTTCCTTCATATGCAATAAGTTTTGTGAATCTGATTGGAAAATGGTTATTAATATTTTCTATGGCAGCAGTTGGACTAAAAATTAATTTTACTACATTAATAGAAAAGGGAAAAAAATTAATTTTATTAGAATTATTAATAGAATTAGTACAGGTATCATCTGCAGTTTTATTAATTAAGATATTGTTTTAGGGATCGTAAAACAATAACATGCTCAAAGTTTCTTAGAAAAAAGGGATAAACCATACCTATTTTTCTAAGAAATGAGCAAATATTTGTTAAAATTGTTTGATAAAATTTGTAGATATGTTTTTATTAAATTATAACAATAGCCGAAGAAATTAATCTTCGGCCTTTTTTTATATCTTATTTTTTTAAATTATTACTACTATTATCCTTATTATTATTCTCCTAAGAATAATTTTATATCTTCGTCAACTTCACCAATTCCAGCAATTCCAAAGTTTTCAACTAAAACTTTAGCTACATTTGCTGATAAAAATGCTGGTAATGTTGGTCCTAAATGTATATCTTTTACTCCTAAATATAAAAGTGCTAATAATACTATTACAGCTTTTTGTTCATACCATGCAATGTTATAAGTTATAGGTAATTCATTAATATCGTTTAATTCAAACACTTCTTTTAATTTTAATGCAATCACTGCTAATGAATATGAATCATTACATTGTCCTGCATCTAGCACTCTAGGGATTCCACCAATATCTCCTAATTTCAATTTATTATATCTATATTTCGCACAACCAGCTGTAAGAATAACTGTATCACCAGGTAATTTTTCAGCAAATTCAGTATAATATTCTCTTGATTTCATTCTACCATCACAACCAGCCATAACAAAGAATCTTTTTATTGCACCAGTTTTTACAGCATCTACAACTTTGTCAGCTAGTGCAAATACTTGTGCATGAGCAAATCCTCCGATAATTTTACCTGTTTCAATTTCAGTAGGTGCTTCACATTTCTTAGCTAATTCAATTATTTCTGAGAAATCCTTTTTACCATTTTCATCTGCTTCAATATGTTTCCATCCAGGGAATCCAGAAGCTCCTGTTGTAAATACTCTACCATCATATTTTGCACCAGTTTTTGGTGGAACTATACAATTTGTTGTAAATAAGACAGGTCCGTTAAATGATTCAAATTCTTCTTTTTGTTTCCACCAAGCATTTCCATAATTACCAACAAAATGTTTATATTTTTTAAATGCTGGATAATAATGACCTGGTAACATTTCACTATGAGTATATACATCAACTCCTGTTCCTTCTGTTTGTTCTAATAATTGTTCTAAATCTTTTAAGTCATGTCCACTAATTAATATTCCTGGATTAGTTCCTACACCTATATTTACTTCTGTTATTTCAGGATTTCCATAAGCTGTAGTATTGGCACCATCTAATAGAGCCATTCCTTCCACCCCATATTTACCTGTTTCTAATGTAAGAGCTACTAAATCTTCAACGCTTAAACTATCATCAAGTGTTTTAGCTAATGCTGTTTGCATAAAGTTAAAGATTTCTTCTTTTCTTTCTCCTAAGACTGAAGCATGTTCTACATATGCAGCCATACCTTTTAATCCATATGTAATCAATTCTCTTAAACTTCTGACATCTTCATTTTCTGTAGCTAATACTCCAACCTCTTTAGCTGTAGATTTTGCTTCCATCTCTTCTTTAGTATTAGCTGTAAAAGTTGCTGCATCTGGTAAATTTTCAAGTTTTACTCCTGCATCTTCACAGACTTTTTTCATTTTATCTCTTAATTCTAATCCTTTTCTTATTTGATTATAAAAAACCTCTTTATCAAAATTAGCATTTGTAATGGTATTAAATAACCCAACAAAGATGAAATCATCAACTTCAGGATCTCTTTTTCCAATAGCTTCTGCTTTTGTGCTAAAAAAAGATATACCTTTTAAAGTGTAAATTAAAAGATCCTGTAAATTTGCTAAAGAATCATCTTTTCCACAAACCCCTTTTATAGTACAACCAGTTCCTTTTGCTGCTTCTTGACATTGATAACAAAACATACTCATTCTCATAATCCTCCTTGTATTTTTATTTTAAATCTCTATATGTTATATACTAGAAAAAAAAATATTTCCTTTTTTTTCTTCGTGACAGTATCTTATCAAATTAATCAACTATTTTATGTAACGTTTGTTACGAAAATAAAAAAATATTTTAAGTCATAAAAATAGTTGCTTAGGACGTAAAAATCTCTGTTTGGGTCATAAAAGTCTCTATTTAGGTCAGAAAAGTTTCTATTTGGGACAAAACAGTGGTTTGACATTGTTTTTTTTATCTGATAAAATGATTTGATTGTATAAAATAATAAAATTAAGGGGGTATTTATTTTGGGAAAAAAGCAAAAGATGTTAAAATTTTTAAAAATATTTGTATATTTAGGAATTGGAATAGCGTTGCAAATTATTTTTTTGTTTATTATATCAGGTGGTGTTGGAATGTTATTTGAAATAACACATTCTAAACTTTTAAGTACTGATATTATTAAATTTAAAAGTTCTGTAGAAAATATTATAAAAATATCAATGCCATTAATAATAATTTCATCAGCTATATTATCTAATATATCACTTATTTTTTTAGGAAGAAAACAGCTACAATGCACTGTTTTAAATATTAGAGAATTTCTGAATATTAATAAATTATTTATTGATAAAAAACTAATTTTTATTGTTACGTTATTTGCAATGGGATTATCCTTAGTTTTAAGTGAAATAATGGGAATTGTAATAAATATTTTTAAAATAGATATAAGCTCATTAGATAAGATAAATAATATTTTAGGATCATTTTCAGGGTTGATATATGTAATTTTATTAGCACCAATTTTAGAAGAAATAATTTTTAGAGGTATAATCTTAAGAAGTTTGAAAAAAAGCTTTAAGTTTTCCACGTCAATCTATATATCTTCATTCTTTTTTGCTTTGTATCATATGAATTTTATAAAATTTATTCCTATTTTTATATTAGGATATTTTTTGGGGTATATTTATAAAAAAACAAACTCATTAGGGGTTGTAATATATTTTCATATGATATATAATTTAATTCCAGTTGCGATTACAGTATTTAGAAAATATTATAATATTAGTAGGTCATATGATTATACTTTGAATGATATTGCAGTTCTTTTATTTGGAGTTTTATTAATAACTTGGGGAGTTGGCTTAAAGAAATTGAATTATATAAAATGATTATTAAGGAGCGTTTTAAAAATAACATTTCTATTTTGTTTTAAAATACGCAACGATTTAAGCGTTTTTATAACAAAAAAGAGAAACTTATTTTTTAGACGTTATTAAGGAGAGTAGATGAGATCTGGAATTGTAGAGTTATATATAGGTAATGGGAAAGGTAAAACAAGTGCTGCAGTTGGAACGGCTATAAGAGCAGCAGGACATGGATATAATGTGATAATCTTTCAGTTTTTAAAGGGAAGAGAGTCAGGAGAGCAAACTTTGTTAAAGAATATAGAGAATATAGAGTTTATAAAGTGTAATAATAGTAAAAAATTTATAATGGAGATGGATAATATAGAAAAAGAAATATTAAAAAAAGAAGTAAATTATTATGTTAGACAGATAAAAAAAGAAACTATTATAAATAATTATGACGTAATAATTGCAGATGAGATATTAGGTTGTTTGGAAAATAAATTAATAGGTGAAGATAAGCTATTAGATATTATAGATGGTAAATCAGAAAATATAGAGCTGATTTTTACAGGTAGAAATGCTACTGAAAAAATCATAGAGAAATCAGACTTAATTACAGAGATGAAAAAGATAAAACATCCTTATGATAAAGGGATTATAGCACGAGAGGGAATTGAATATTAAAGGAAAAAAAGAGAAACTCTTAATTAATATTAAGAGTTTCTCTTTTTTTAATTTTATATGGAATGGTCTAAAACTAATTTTAGCTTTTTAATTTAAAGTTATTAAATTTATCTAAATTATTATATTTTATAATATTTTTTAATAAAACAATATATTCGCTACCTATTTCAGAATAGCTATTAAGATAATTTACAGAAGATGTAGAGCGGTCTCCATTTTTTAAAGATTTTCTAAAATTATCATAGTATTTTAATTTTATAATTTTTGTGTAATAATCTTCAATACTTTCTTTTAAATTACTGTATTTTTTTAGATATATTTTTTTACCATTTCTTGTTTGTAGTGCTTCTATTCTATTATCCTTTTTACTAAAGCTCCATATTCCAAATATATTATTAGCTTTACTAAAAAAACGAGAAGATCCCCATCCGCTTTCTAATGCAGCTTGTGCTAATACAATACTTATGTTAGGAACTACAAATTTTTTATATAATTCGTCTAAATTACTTGCTCCAAATTTCATTAAATAGTTATTAATTTTTTCTTTTTCTTTTGTAGTTAAGTTTTTATTAGGTTTAATTTTTAGATTAAATATATCAATTTTTATGTTTTCAAATTCAGATTCTACAATTAAAATATTTGGTAATAATAAATTTATAAATTGTTCTTTTTTCTCTTTAGATGAATAATTTTTAAGTGAAAAATTCTCAATTTCATAAATTATAGGTTGAACTTCATTATCTGTTATTTTATAAATATCAGATATGTTTTTCACTATTATTTTTTTTGTTACAACGGTATTGTCGCTAGATAATGAGGAATTACAATTTGTAAAAAATAACATTACAAAGATAAAAAAGGCTAACCTAAAATTTATTTTCCCTATTTCCCCTAATTTGCTGCTTACCATTAAATCACCTCTAAAATTATTTTTAAACTATTTGTAATTATATAGTATCTTTTTTAAGTATTTTTGTCAAGTATTTGAAATGATAGTGCAAAATAGTTGTATGATTTTAGTCATAGATAAATGCAGATAATTATCTCCTAATTTTTATTCATCAGTGTTACTCTGTCTTTACCCCATGGTTTAAAATTTTTTTTGTGTAACTTTGCGAGCTTTGCGTCTTTGTGCTGAAATTGTTTTCCCTACAAAGACTTGACACTATCTAAAATTTTAATGACTTGTTTTTTTTTGATTTGAATGTTATAATAAATAAATATGTAATTTGAGATAAGGTATATTAAAAAAATTTGTTAAAATTGTTTTATGAAATATGTAGATATGTTCATATTTTTTTAAAGATCCTAATTAGAAAATTTCAAGTTATTTTTGTAGGAGTATAAAAAGTATATCTTTTTAAATTTATGTTAAAATATTAAAATCGTTGCATATTTTATTATAAAATTAGAATAAATAAATTTTTAAATATTCCTTAGAAACTTTAAAAAAATAGGTTTTCTATATTTTTAAACTGTTTCTTAGCTAAAATTTAAGGAGAGTGAAGAAGTTGGTAAAAATTGGTAAAATTCAAAAAATGAAGGTTAATAATATTGAAAAAATGGGTGCTTATTTGGATTCTGGAACAGGTTATAGAGAAGATAATATACTATTACCCAAAAGTCAATTGACAAAAGATGTAAAAGAGGGCGATGAAATAGAAGTTTTTATTTATAGAGATTCTGAAGATAGATTAATTGCAACAACAAAAAAGCCATATGGACAAGTTGAAGAATTAGCATATTTAAAAGCTGTAGATGAAACAACTATAGGTGCTTTTATGGATATAGGATTAGAGAGAGATCTATTCTTGCCATTTAGAGAGCAAAAATATACTATTGAAATTGGGAAAAAATATCTTGTAAATATATATTTAGATAAAAGTGAAAGATTATGTGCTAGTACAAATATTTATCAATATTTAAAAGATAATTCACCATATGTGCAAGATGATAGGGTAATAGGAATAGTTTATGATATAAAGCCTGGAGTTGGAATTTTTGTTGCAGTAGATAAAATATATAGAGGATTAATACCTGAAAAAGAAAATTTTAAAAAATTAAAATGTGGTGAAGAGATAGAAACACGTGTAATAAGAGTTCGTGAAGATGGTAAGTTAGATTTATCAATGAGAGAAAAATCGTATATTCAAATGGATACAGATAGTGAGATGATCTTTAATGAATTAAAGAAAAATCGTGGTTTTTTAGAATTAAATGATAAAAGTTCGCCAGAAGATATAAAACGTAAATTAAATATGAGTAAAAAATCTTTTAAAAGAGCTGTTGGAAGATTATTAAAAGAAAATAAGATAATTTTTTCTAACGGTGGAATAAAATTAGTAAAATAGACAGGAAATAAAAAAGTTAAGATTAATTTTAATCTTAGCTTTTTTTATTTCCTGTCTTTAGTATTTGAAAGCTATTTTGTGTATATTTAATTATAGGGTGGCTCAACCATAAAAAATCAATATAAAACTAGTATAATTATGAAAAAAATTGATATCCAAGTTATTATTATAATTGAAAGAAAAATGTTTATATGTTATAATTATTTTGTTACTTTTAGAAAAGGATTAATAACAAATTTGAAATAAAAAGTCTATTTTTTAACGTTCCGAAACTCTTATTTGAGTAAACTATTTTGCGTATAAACATCTATTTTATAAAAAATATATATTAGAAAAGAGGAGGATTATAAAAGATGAAAAAGAAAATTCTACAACTAAGGATTGAGATTAAAGGGATAAAACCTCCTATTTGGAGAAGAATTTTAGTGGAGGATAATATTACATTTTTAGATTTACATAAGATAATTCAAATTGCATTTGATTGGAAAGGGTATCATTTATACCATTTTAGTCCTGACAATTATGATGAAGTTAGAATTCTTTCTATGGAAGATGAATTTTATGAGCCATTAGATCTATTGGATTTTTTAGACTTAGATGAATCAAAAGATTATGAAGAGTCTAAAACTAAATTAAATAAATTTCTAAAAAAAGAAAAAGATAAGATGGTTTACTGTTATGATTATGGAGATAATTGGGAACATTTAATAAAAGTGGAAAAAATTCTTGATTTTGACAAAAAAGTAAAATATCCAGTATGTATAAAAGGAAAAAGAGCAGCTCCATTAGAGGATATTGGAGGAGTATATGGTTATTATGATTTTATGGATGCTCTCCAAGATGAAAACCATGAAATGCATGATGACTATATAGAGATGGGATATAAATTTTATATGAAAGAATTTGATGCAGAAGAATTTGATTTAGATAAAATAAATGAAAAATTGAAAGATTACAAAAAATTTGGAGTTTATGAAGAAGATGATGATTATAATGATGAGGATGAATCTATATCTGATAATATGGAGAATAACAAAAAAATAATAGATTTTTCTGATGTGAAAAAATTTCAAAAAAATAAGAAAAAATGATTTGTTTTATCAATTAGAAGAAGTTAAGAAATTTATAAAAAATCATTTAAATGTAAGAGGAGAAATTAAAGGGTTACAAAGAACAGATACATATGAAATTCCATTGGATGCAATTAGGGAAGTTTTGGTAAATGCGATTGTTCATAGGGATTATACCAATATAGGAAGAGATATAAAAGTAGGAATATATGATGATATATTAAATGTAGTATCTCCAGGAGGATTTCCAAATAGTGTATCTGAAAAAGATATTTTAGAAGGAAGATCAGAAATTAGAAATAGAGTCGTGGCGAGAGTTTTTAAAGAATTGGGATATATTGAACAATGGGGAAGTGGAATAAAAAGAATAAAATCATCTTGTATAAAACATGGATTAAAAGAGCCTTCTATAAGGGAAACAGGAGATTTTGTAGATGTTGAAATTTTCAGAATAGATGAAAAAGTTGAAAACGACGGATTAGCGACGGAAAACGACGGATTAATTTTAGATTATAAAAAGATAGTTTTAAATTATATAGAAAAAAATAAAAAGATTAATACAAAAGAATTAAAACAGTTATTAAATATAAAAGATACAAAAGCAAAAAGTATATTTAAAGAATTAATGAATAAAAATTTAATTGAAAGAAAAGGAAAAGGGAGAAGTACCTATTATGTAATACGAAAAAAATAATCTTTTTAACAAATTATAAAATCATAATAGGAAAAGAATAGGGAGGAATTAAAATGGAAAAAGTTTGTGTACATTTTGCAGAAGGATTTGAAGAGATCGAAGCAATAACAATAGTTGATATACTTAGAAGAGCAGAAATAGATGTTAAAATGGTATCTATAACAAAATCAAAAATAGTAACTGGAGCACATAAAATTAAAATTACAACTGATCTTTTATTTGAAGAAGTTAATTATGATGAAGTAAGTATGATTATCTTACCTGGAGGAATGCCAGGAAGTAAAAATTTGAAAGAACATGTAGGATTAAATGAAAAAATAAAAGAATTTTATAAAAAAGGGAAAAAATTAGGAGCTATTTGTGCAGCACCAATGGTATATGGTGGATTAGGTATATTAAAAGGAGAAAAGGCTACATCTTATCCAGGATTTGAAGTTTATTTAGATGGGGCTACAATAGTTAATGAAGAAGTTGTAACTTCAAATAAGATTATAACATCTCAAGGACCAGGAACAGCAATAAAATTTGCACTAAAAATTGTGAGTGATTTAAAAGGAGAAAAATTGGCAAACAGTATAAAAGAAGGGATGATTGTAAAATAAGGGGGATTTTATGGATGATAATTTTATCAATAAGATAATAGGATTTGAAAAATATAAATTATTTGCAGTTTTAATATCAATTGTAGAATTTGAAGGTATAGACTATTTTTTATTTCAAAAAAGAGCCAAAAATATTAGGCAGGGAGGAGAAATCTCTTTTCCTGGCGGAGAATTTGATGAAAATATGGATAATGATTTAAAAGAAACTGCTTTTAGAGAAACATTTGAAGAGATGGGAGTATCGAAAGATAAAATAGAGATTATAAAAGATGTTGGATATTTAATTTCTCCATCATCTATAATAATAAAAGGGATTTTAGGAAAAATTAAAATTAAAAGTTTAGATGAGATAAATTATAATAACGAAGTAGAAGAGATTTTTATAATTCCAATTTCTAAATTTAATGAAAAAAATCTAAAACATTATTTTGTAAATGTAGAATTTAATCCACACGAAATAGAAAAAAATGGAGATAAAAAAATATTATTTAATGCAAAGGAATTAAAATTGCCAAACCGTTATCATAAAAGTTGGAGAGGAAATAAAGTTCCAATTAAAAGTTATGAAATAGATGATAGAATTATTTGGGGTATTACAGCAGATTTGATTTATGAAGTGGTATCTAAGGAATGGCTTAAAAAGAATACGAAGAAAAAAATTGAAACCACTGGATTAACACAGATTAAAGCTGATGAATAAAAAATGATAAATCAAGTGAAAAATTTCCAGAAGAGCATACTTTTTAAGAATAGTGTTAAAAAACGATTTTATCTAAATTAATTTTAAAAAATAAAATAAAAGGAGTATTATTAATGAAAAAGAAGATTATAATATTGATATTAAATTTATTATTAATATCAAATCTATTTGCTAGTGTAAAAACAAGTTATCGATATTTGCCTTTTGGAAATGGATTGGGAAATGGAGTTTATAGAGTATTTGGAAGAACGAAACTAATAAGTTTTTATGACCATATTTATAAACAATATAGTCCAAATGAGATAACTCAAAACTATGTAAAAGATGGGATAGAATGGGGGTTAAATGATAAATGGCTCTCTTATGTAAAAGTAAAAAAAGCTAATTATATTAATGGAACTGGAATTTTAGATATAAAAAAACAATATAAAGATATTGAAATAACAGAAAATTATTTTATGCCTTTTGAGACGGATAAACGAATTTTAATAGGAGTTCTCAGATTAAAAAATATAGGTAAAGATACAGAATTGTCACCATATTTAAAAGTAGATGTAAGCATGGGGAATAATTTATCTACATTAAAAGAAACAGTAAATAGAAGTGGAAATATATTTATAGAATCAAATAGTGAGAAAAAGGGATATGAATATTTCACATATTTAAGTGATTTGAATAAATTTTCATATAAATCTAAAAAGAAATATCCTAAAAATTTAAGAAGGCAAACAGTTGCACTAGATAATACTATTGAAAAAATAGCTAATAATGAAATTGGTGTATTTCAATTTAATAAAATTGTTTTAAAAAAAGGTAAATCTAAGACTATATTTGTAATAATGGGATTGGGTAAAAAAGATAAACATAAAGATTATTTGGAAGAGATATCAAAAATTAGCAAAGAAGATGGTAAAACTATTTTAAATAATGAGATTAAATTTTGGGAAAAGTGGCATAGTGTAGAAAAATATCCAAAAAAGATGAAAGAAGATGAAAAAAATCTATATAGACAATCTACAACTATTTTAAAAATGGGGCAAAGTAGAGAAAAAGGAAAAGCTTATGGACAAATTTTAGCAAGTATGCCTCCAGGTCAGTGGAATATAAGTTGGCCAAGAGATGGGGCTTATTCAATTGTAGCATTATTAAAGTCGGGGCATATTAAAGAAGCAAAAGCGTTTTTAGAGTTTATGCTTAATGCACCTGGAGGAAAATTTACTAATAAAAAATATATTGGAGTTCCATATAAAATTTCTGCTTGTAGATATTATGGAAATGGAGAAGAGTGGAGCGATTATAACAATCATGGACCAAATGTAGAATTTGATGATTTCGGATTATTTTTATGGGCTTTTACAAAATATGTAGAGACTACAGGAGATATGAAATTTAAAGACAGATATTATAATATAGTGAAAGAGCAAATTGCAGATGTTATAGTTTCGCTTATGGAAAAAGAGGGATATTTAAAAGCTGATTCTTCTATTTGGGAAAGGCATTGGGAAAAGGGTGATGTAGATGGGAAAAAACATTTTGCGTATTCTACAATTAATGGATACAATGGATTAATTAGTTTTAGTAAAATAGGTGATTTGTATGATAATATATTTTATAAAAAAGAAGCTGAAAGAATAAAAAGAGGATTTTTGAATAATTTTATTTTAAATAACGTTATAGTATCTAGTTTAGAAGAAAAAAAAGATGGGAATAATTATGCAGATGCAGCAACTGTGGAAGCTATAAATTTTAATATGGTAGATGAAAAAATAGCATTAACTACACTGGATTTTTATGAAAAGAATTTGAAAATGAAAAATAGTGTAGGATTTAAAAGAAGTGATGATGGGACTAAATATGATAGGCAAGAATGGCTTATGATAGATTATAGAATAGCAAATGCGTATATGAAATATGATAAAAAACATTCATATGAAATAATTAGATGGAGTGTAGATAATGCAAAGGCTAATTATAATTTAATTCCTGAGCTTTTGACAGAAGGAAAAAGTAAATATTATGGTGCTATTCCAATGTGTGGATTTGGAGCTGGGGCTTATATAATAACTGTTGGGAATTATTATCTTGAGAATAAAAGATAAAAGATAAATTTTTTTTTGCCACTAATTTACACCAATTGGTACAGATAGAGAATAAGATTATGAACAAGAATAAATTTTATTCAAAAAAATAATGAGATGGGGGGAACATAATGCTATATAATATAAAAAAACGTGAAAATATAGAAGAATTATGTAAACTTACAGGTAAGGAAGATATTACTAAAAATGATTGGAGTTTAACATATAGTACATATGTTGGAATTACATCAAAAATAGCAGATGAAGATTTTAATTTTGAGGAGCTAAGAATATGAGTATAGAGAAAAATCTATATAAAGAATTTGTTACAGAATTAAAATTAAAAATTAGAAATTCTCAACAAAGAGCAATATTATCAGCAAATAAAGAGTTAATTATTTTATATTGGGAGATTGGAAAGAGTATTCTAATAAGCCAAGAAAAACAAGGTTGGGGAGCAAAAATAATCAAACAGTTATCAGAGGATTTAAAGAAAGAGTTTCCTGAAATTAAAGGCTTTTCTGAAAGAAACTTGAAATATATGCGTAAATTTTCTGATACATATAGAGATTTTCAATTTGTGCAAGAGGTTATTGCACAAATTCCGTGGTATCATAATATTACATTAATGGAAAAAATAAAAGATGATAATAAAAGGAAATGGTATATAGAAAAAACTATTGAAAACGGATGGTCAAGAAATGTTCTTCTTCATCAGATAGAATATCAACTTTATGAAAGGTCTGATAGTAAAAAAGTAACAAATTTTGAAAATACTTTACCAAAAGTACAGTCAGAACTTGCAATGCAGACTTTAAAAGATCCATATATATTTGATTTTTTAAGTATTGAAAAAGATGCTCTTGAAAGAGAAATTGAAAAAGAGCTAGTAAAACATATAAGTTCATTTTTGTTAGAACTTGGAGCAGGTTTTGCGTTTGTAGGAAATCAATATCATTTAGAAATAGCTAATAGAGATTTTTACCTTGATCTATTATTTTATCATATAAAATTAAAGTGTTATGTAGTTATTGAATTAAAAACAGGAGAATTTAAGCCTGAATATGCAGGTAAGATGAACTTTTATTTATCTGCTGTTGATGACAGTTTAAAAAGTGAAGATGATAATCCTACAATTGGAATAATTTTATGTAAAGAGAAAAATAATATATTTGCTGAATATACACTTCGTGATATGAATAAACCTATGGGTATTGCAGAGTATAAGTATAATGACATTATTCCTGAAAATTTACAAACGAAACTGCCGAGTATTGAGGATTTGGAGAAGAAGTTGAGAGATGAGTTTGAGGTAGTAGAAAAATGATGTGGGAGAAGGTAGAAATTTTGGAAAAATAATTCCAGGAACAACACCTGTAACAAAAAATAAATTACAAGGAGATTAAAAAATGAAAAAAATAGTAATACTAATATTTATATTGTTGTCTATAAATATTTTTTCTCAAGAAACAATTAATAACAACAAGCTAAAATTAAAATTTAAAAATGGGATAAATATCTCATTTTATGAAACTACAAAGGGGAAATTAAGAGTAACTGCATTATCTAAAGATATGAAATTAAAAAAGAACAGATTTTTTATAAATAAAGAAAAATCTAACGTTAAAATTAAAAAAGATGGAAATAGATATATATTAGGAAAATATATAATTGAAGAAATTAAAAATGGTTATAAAGTTAATTTAGAGTCTAATAATAAACTGTTGTATAGTTCAGTTTTTTCTATTACTAAAAAAGGATTTTTAGAAATTAAAAATAGTTATGATAAAGAACTATTTCACGGAATGGGAGAAGCAAATGATAAATCATCAATTATAGCCAAACAATTTATGATATATCAAAAAGCTGAATATGGCAATCAAGCTAAATTATATATTCCATTTTATTTTACAACTGGTGGTGATGCATATTATTATAATAGCAATTCTAAAGATATTTTTAAATTTGGAAGGAGAGGCTCTGCTGTATCAAAGGTTTATTCTAAATATGGGTATTTAGATTATTATTATTTTTATGAGAATAGTCCTAAAAAAATAGTATCTGAATTTTATAAATTTTCTAAATCGAACTCTTTAATTCCTAAATGGGCTTTTGGATATTTACAGTCAAAATATGGATATAAAAATAGTGAGGAAGTTTATAATTTAATTAAAAAATTTAAAAAATATAATATACCTGTAAGTGGAGTGATATTAGATTTATACTGGTTTAAACATATGGGAGATTTAGATTGGGATAAAGATAACTGGAAAGATGTTGCTAAATTGGACAGATATTTAGAAGAAAATGGAGTTAAATTAATAACAATATCAGAACCATTTTTTACAGTTGACTCTAAAAGTTATAAAGATTTTAATAAAAATGGAGTTTTCGCAAAAGATAAATATGGAAAAACTTTAAAATTAAGTGGATGGTGGTGTTTTGGATCTGAATATGGTGGGATAATGAATCCTATTGCTAAAAACAGTTTTGACACTATTGGAAATAGATATGTACAAATGAGAAAAACAGGAATTGATGGATTTTGGACTGATTTAGGAGAACCTGAAGGAGATCCTACAGAAGCTTATTTTAATGGATATAGTGAATTTGAATTTCACAATTATTATAATAGAGAATGGTCAAAGCTTATTTATAAAAAAATGGTAAAGGTTTTTCCAAATGAAAGACCATTAATTTTAAGTAGAAGTGGATTTACAGGAAGTGCAAAATATAATGTGTCTGTATGGTCTGGTGATTCATCATCATCATATATAAATTTCAGAAAACAAATAGGAATAGGAATTAATGCTGGAATATCTGGATTTTCATATTGGGGAAGTGATGTTGGAGGATTTCTTAGTGATAGGAAAAAACCTAAAAAAGAACTGTTTATAAGATGGATGCAATTTGGAACATTTGTACCAGTATTTAGAGCACACGGCTCTTTTTCTCCAAGAGAACCTTGGATGTATGATGATGAAACAACTAAACTATTAAAATCGTATATTGATTTGAGATATCAAATGTTACCATATATTTATTCAACTGCTTATGAAACATATTTAAATGGAGTTCCAATGATGAGACCTTTGTATCTTGAATATCCTAAAGATAATTTTGCACAAAAAAGCAGTTTACAATATTTCTTTGGAGATTTTTTAATGGCAGCACCAGTAGTTAGAAGAATAAGAGAAAAAAAAGAAAAAGAGGTTTATTTGCCAAAAGGTAATTGGTATGATTTTTATGATTTAAAAAAAATTGTAGGTGGCAATAAAATAAAAGTAAAAAGAGATATAAATAAAATACCTGTATATATAAAAGAGGGAGCAATATTACCATTTAAAGATTTGATTTTATTATTTCCAGCAGAGAAAAAATCAGAATTTACGTTATATAATGATGATGGAATTAGTAATAATTATTTAAAGGGAGATTATTCAAAAATAAAAATTATTTTAAAGAAAGATAGTGTTGAGTTTGAAGGTATTAAAAAAGAGATGACATTTAATTTGAAGATAGTAAAAAATGGTGGAGTTATTAAAAAAGTAGTAGAATTGAAAAAAGGAGATAATAAAATTTTGTTTGAATAATAATTAATAAAATATTATAATAGTAGAGACAGCGTTTTTATTATAACAAATAGAAAAAAGGAGCAGATATAGAAAATGAGATAATTACTTTAAATGAATATGATATAAAAAATAAAATTTATTCAATTAGAGATAAGCGGATAATGCTTGATAGAGATTTAGCGGCATTTTATCGGACGGAAACAAGAGCTTTGAAACAGGCAGTAAGAAGGAATTTAGAGAGATTTCCTGAAGATTTTATGTTTGAATTAGAAGAAGTCGATATTGAATATTTGGTGTCACAATCTGTGATACCATCAAAAAGTTATTTTGGTGGTGCTAAACCATTTGCATTTACAGAGCAAGGGGTATCAATGCTTAGTGCTGTATTAAGAAGTCCAACTGCAATAGAAATAAGTGTAAAAATCATCAGAACCTTTGTTAATATGAAAAATTTTTTGTCAGAAAATGCACAAATATTTAAAAGACTTGATAGCCTTGAAAATTATCAAAAAACATCAGATGAAAAATTTGAAATGATTTTTAATGCTATTAAAAATAAAGGACTAAAACAGAAACAAGGTATATTTTTTAATGGAGAAATATTTGATGCATATGTTTTTATTTCTGATATTATAAAAAAATCTAAGAGCTCAATAATTCTAATAGATAATTATATAGATGAAAGTGTCCTTACTATTCTTTCGAAAAATACAGAAAATATAAAAATTGAAATATATACAAAGAATATAAGCGATAAATTGAGGCTTGATGTTAAAAAATATAATGAGCAATATAAAAATTTAAAATTAAAAAAATTCAATGATTCTCATGATAGATTTATGATAATAGATAAAAAGGAAGTTTATCATTTTGGAGCTTCTTTAAAAGATTTAGGGAAAAAATGGTTTGCTTTTTCAAAGTTTGATACTGAAATTATTAGTATTATGGGAAAGTTAAAATAAAATATAAACAGGAGGAGAAAATGAAAAAAATAGCAGTAGCATTAATATTATTATTCACAGTGATAGGGTGTAGTTCTACAAAAATCAAAGAAAATTCTAATCAAAAAACATTGATTTTGGACAAGAAGATAATTTCTAAAATTAATAAAAGCGTTTATGAAGTTTTAGTTAAAAAAGTAGAAGTAAAAGGATTTAAGTATGAAAAGGAATTGCCTGTTAAAAAATTATCATATTCAAATAGAAATGATAAATATTATTCAATAGGAACAGCATTTGCAATTGGTGAAAATAAATTTATGACAGCAGGACACGTATTAGCGTTGGATAAAAAAACATTTTTTAAGGATTTTTTTATAAGAGATAAAAATAAAAAAGTATACAAAATAGATAAAGTGTATAAATATTCTTCAAATAAAGATTTTGCTGTGTTTTCTGTAAAAGGAGATGTTAAAAATGAAGATTTTTTAACAATAAAAGAAAAGTTTAATATAAATCAACCAGTTTTTACAGTAGGAAACGCATTAGGAGATGGAATTGTTATTAGAAATGGAGTATTGACTTCAACAACTCCTGAAACTGAAAATGGAAAATGGAATTGGATAAGATTTTCTGCACCTGCATCTCCTGGAAATAGTGGAGGACCTTTAGTAGATAAAGATGGAAATATTATAGGAATAATATTAATGAAATCTAAAAATGAAAATCTAAATTATGCTTTGCCAATATTAGAAACTATGAAATTTTTTGATAATAGTTTAGTTATTCATAAAAAAATTGGTTATGGATTTTATAATTATGATAAAACTGTAAATAAATATTATGATTTTAAAGAAAAATTGCCTAAAAGCATAAATGAAATAAGGAGAGATATTACAGAAGATTATCATAAAGAATATATTGAAAATTTAGATGCGATTTATAAAAAAAATAAAAAAGATTTTTTTCCAAATGGAGAAAATTCATTAAAAATAATTTATGATGAATATACTAATAGATTCCCATATGTTTTAGCAAAGGCTGATAATGGAGAATGGAAAGCTTTTACACCTAAAAAAATAGAAAAAAATGAACTGCCTAATGAAAGCTTAATACAGTATGGACAACTTTATGATTTTAATATGATATATTTTAAAAAGCCAAATAATATTAAAGAAAAAGATATTTTGGATAATCCAACAAAAATGTTAAATTTAGCTTTAAAAGGGTTACCTTTGTATAGAAATTTTGCAGGAGAGGATATACGAATTACATCTGTAGATAAACAACCTGTTAGCTCAAATTATATTGATGCATATGGAAGAAAATGGATATTTAATACATGGGATTTAGTGTATAATGATTTGCAATTAACAACAATGATTTTGCCAACACCTTCTGGATTTGTGGGATTATCAATGATGGGAACAGTTGATGATACGTACAATTTAAAGTATGATTTTAAAATGATAAGTAATTTTGTGTTGGTATCTTATGATGGCACATTAAAAGATTGGAAAGAATTTTTAACATTAAAAGATATATTACAAAAAAATCTAGTGGGATTAAAATTAGATTATAGTAAAAAGGATAATTTGAATTTATCAACAGGAAATGTTAGTATAAAGTATCAAAATAAAATTCCAATAAAAATAGATGAAGACAGTTATTTGTTGGTTATCTCTAATTTTATAAAAAATAAAGAAAATGTAAAATTAGGAATAAAGGGAATATATGTTTCTGAAAATGAAAATAGTAATAATGCATTTTATCTACTTGAAAACTTAAGACCAGATGATAGATTGGATAAAGATTATAAAAATAGTTGGGGGAAAATAGTAGATAATAAATATCCATTTGATAATGAGGTGTATATGAATGATGGACAAACAAGGATAGTAACTACTATAAAGAACAATAAAAACAAAATTTATAGTTTGAGCTTTTATTTAGAAGGGAAACAAGATGAAAATGAAATAAAAAATATGATGAATGAGTTTAAATCAAATTTACAAATAAAAAAGGAGATGAAATGATGAATATTATTTCTATAATAATAATAATATTAGGGATCTTTCTTATTATGAAAAACAGACCAAAAAAAAGAGTTGAAAATGATTTTGGAGATTCTAAATTTGAACAAAAATGTATAAATTGCCATTACTTGATGAAAAGTATAAGACAAGGAGGAGGACCTGTTAGGATGCCATTAACTCCAATAGAAAGGCAGGAACTTTTGGATAATAGGTTTGAATTTATAGAAAAATCAAATTTACCTTGGGAACTTGGATGTTATAAAAACATCTGGAGCAGAGAAGCAACACCAGATAATTATAAAGAATTATATAAGAATATAGTAGAAAAAAAGAGAAAGAACAAATGTGATTTTGTGAAATATGAGCAAGGGAAAAACTTTGAAGATATAGGTAAAGAGGATAGTGTAAAATAATTGTAGAATTTTAGTCACAGATAAACGAAGATAATTATCCACCAATTTTTATTCATCAGTGTTAATATGGTTGTATAATATTTATTGGGAAATAAAAAAATAAATTAAAAAAGCATACAAAATCTAATATCATAAGGTTACCAATAAAATGATAAAGGAAAATAAAATATGTAATGAACACTATGATTTGTTTATTATGGATATATTAAGTAAGGCGTTTGAAAATTTAATAATAATAAATATATTTTCTCAATAGGAAATCTGTAAAATGTCAGATTTCCTATTTTTTTATTGATATTTGGGTTTTTGTATAGTAAAATTAAAAATAGGAGGCAAGTTGAATATGAATAAAAAAATTATTTTTTTAAAGTCATTTATTATAATATTTTTATTTATAAATGTAACTATATTTAGCAAAACAATTTCATTGGCTACAATAAATTTTGAGCCATATTATGGACAAAAGTTAAAAAATGGAGGAGCTGTTGCAGAGTTAATAAAAAAAGTATTTAATGAAGAAGGGTATAATGTGAAAATAAAATATGTTCCTTGGGCTAGAGCAGTAGGGTACTTAGATATGGGAGTAGTTGATGGAATATATGCAATGTGGAAAACTGAATCAAGAGATAAAAAATATTTATTGTCAGAACCATTTTTTCCCAATGAAATAGTTTTTGTTTCTATGAAAAAAAACAGTATTAAATTTGATGGAGATTATAAAAAATTAAAAAAATACAGAATTGGAGGAGTTAGGGGATATTCATATTTAGAAACTATGAAAAAGTATAAATATAACTTTGATTTAACTTCTACCGATATTCTTAATGTTAAAAAATTGTTATATGGAAGAGTGGATTTGATTATAGGCGATAAATTAGAAACACAATATATTATAAAAAAATATTTTAAAGAATTTTATGGAAAAGAAGAATATTTAAAACCTATTGTAACCATGGAAAATCAGTATTTAGCATTTTCTAAAAAGGTCAAAGATGCTAAATTAAAATTGGAAGCATTTAATAGGGGATTAAAAAAATTAAAAGAAAATGGAGAGTATGAAAAAATAAAAGAAGAGATATTACAATTATCAAAATTTATTAATGAAAAAAGAGAAGAGAAGATAGAGGTTAAGAAATAGAAATTATTTTATATGGGGGGATAAAAATGGCTAAATATGGAGTTTTATTTGTAGATGATGATGAGAATATATTAAGTTCTATTAAAACAAAGCTCACTTCACAAGAATATGAAAAATATTTTGCGAATTCTGTAGAAAAAGCTCTTGAAATTTTAACTATTACAAGTGACATATATGTTGTGGTATTGGATTTGAATATGCCAGAAGTAAATGGGCAAAAACTTTTAGAATATATTAATAAATATTATCCAGATATAGAAAAAATTGTTTTATCTGGATATAGCGATTCCGCTACAATAATGTCTGTTTTAAATAGTTATCATATTTCTGCATATATAAAAAAACCTTGGACATATAATACCGAATTTATACCAATTATAAAGAGCTGTGTACAAAGATATATTGAAAGAAAAGAGATAAAAAATAAGATAAAAAAATATAATTATGAAAAAAAATTTTTTACATCAAAAGAAAAAGTAGTTAATACAAAAATTGAAAAATTAGATGAACTTTTAAAAAAAATAGAGAAGGAGAAAGAAGATAATAAAAAATTGATAGGTTTCATAATAAATTATGCACAACCTTATATAGAAAAATCTCAAGAACTTTTTAAGTTAGATCAAGAGGAATTAATAAAAAAGTTAGATGTAGAAAAAGAGGAATTAAACAAAGAAGCAAAGTTTGTAATAAAAAATTTAGATAAAATAAAAGAGTATATTCAAATTAAAACAAAAGCACAAAGCAAAAATAAAAAAGTACTTATTGTAGATGACTCTAAAGAAAACAGGCAACTATTAGCTAATATAATACAAACATATACAAAACATAAAGTAATTGTCGCAAAAAGTGGCTATGATATTATGAAAATTATAGGTAAATTAGATTCTGAAGATATAGGGATTATACTTTTGGATATAATGATGCCGGGAATAGATGGATATCAAATTGCAGAAGCTCTAAAAAATAATAAAAAAACTAAGGAGATACCTATAGTATTTATAAGTGCTATGACAGATATAAAAGATATGGCAAAAGCATTTGAAAAAGGTGCATATGACTATATAAAAAAGCCTATTAATAAAAATGAAGTGTTAAAAAAAGTAGAGGAACATATAAGAGCGGGTAGGTGATATATTTTGGGATCTAAGAATTTAACAGAGGAGATAATAAATAATTCGAACGTTGGAATTATAGTAAGTGATGATTCTGGGAATATTACTTTTGCTAATGATAGAATCTGTAATATTTTAAAAATTAATAAAAAAGATGTCATAAATAAAAACTATAATGAATTAATAAAATTGAATGTTGAAAATATAACTATTTTTGGAAAAAACATTCAATATTTTATAATTAATTTTATAGGAGAAATAATACCTGTAAAAATTATGTATTTAAAAACAGAAAATGAAAAAAAAATAACTTTATTTGAAGAAGTGAAAATAAAAAATAACAGATTAAAAGATATTAGTTTGAAAAATAGATTGAAAAACCTATTTATAAATTTTTCTATAGAAGCTATTAGCATTGATATAAATGAATTAAAAAATTATTTGGAAAATTTTCTCAGAGAAATTATTTCTGAAATTGGGTTTGATGGTGCAGGGATCTATAATTATAAAAATTTAAATAAAATGAAAAAATATTTTTTTATTGGAGATAAAAATTGCACTTTTCCAGAAGAATATAATATAGGTACAAGGAAATGGTTGAAAAAACAGATGGAAAATATGGAAATAATCTATCTGAAAACAGAAAATCTGAATAATGTAAATAATTTTGAAGAAAAGAAATTTTTAGAGAAAATGGGGATAAAATCTTTTGTGATGATACCTATAGGTATAAAAAAAGAACCTTTAGGTTTTATTTTTTTAATTTCAAAAGAAAATATGGTATCTCAATTTTTAATTGATTTTTTTAATATTATTCAAAAAGTAGTGACTAATATTTTTTATAGAAAATCCATTGAGGAATCTCTTATTGAAGGTAGTACAAGATTAATGGAATTTATGTCAAAAATAAAAGAAATATCTTATGTAGATCTAAAAACATTTGAGAGTATAGAAGGTAAAATGAAAGAGTATCTTGCATTATGCAATAAAACACTTGAATCCGATTGTTCTATGATTATAAAGTTACAATTAAAAGATGTTGTTTTAAAGGAGAAGTTTGAGATAAACAATTATTTTCAAATAATAAAAGATGAAAAATTAAAAATAAAAGCTGATAATAAGTTGTTATTAAAAATAATTGAAGAAGATGTTTTTAACAAAGGAATAATTATGTTAGAAGAAGAAAATAAAAATATATTTGAAAATGAGGATATAAAAATATCATTTTGGGCACCGATATATTTTAATGAATCATTTGCATTAGGAGTATTAATAATTGGATTTAAAGAACAAGAAAAAATAAAATTTTATAGCGAAAACTATACTTTGCTGGAAAGTATCGCAAGAAGTATAGGAAAATCTTTTGAATTGGATATCAAAAGAAATCAATTGTTAAAATCAAAAGAGGAGGCTGAAAAAGCAAATAGAGCAAAAAGTACATTTCTTGCTACAATGAGCCATGAAATAAGAACTCCAATGAATTCTATAATAGGATTTTCAGATTTGTTATATGAAGATGAAGATGATTTAGCTAAAAAAGAACTATTAAAAATAATAAAATATTCATCTAAAAATTTATTAGAACTTATAAATGATATTTTGGACATTTCAAAGATAGAGTCAAAAAAATTGGAGCTAAATAAAGAAAATGTAATAATAAGAAAAGTTTTTAATGAAATATATCTGATTTTTTTAGATATAAAAAATAAAAAAAAGCTAAATTTTATATATGAAGTATCAGAGAATGTGCCTGATATTATTCTTACAGATGAGCTAAGAGTAAAACAAATTATTATAAATTTATTGAGTAATGCTTTTAAATTTACAGAAAAAGGAAGTGTAAAATTTTTTGCAGATTATGATTATAGTGAAGGCAATCTAATCTTCGAAGTAGAAGACAGTGGAATAGGAATAAGTAAAGAAAATATAAAGAAAATATTTAATCCTTTTGCACAAGAAGATAGCTCAACATCAAGAAAATATGGTGGGACAGGGCTTGGATTGTCAATAAGTAAAAATTTAGCGGTAATGCTTGGTGGAGATATTTATTTAGAAAGTAAAAAAGGGGAAGGAAGTAAATTTCAAGTAAAAATAAATGCACCAGAAGAAAAAGATGAAAATTTATTAGGAGAAGCATTAATAAATAGATGGAAAAAAGACCCTGAATTAGAAGAGATGTTTTATTCATTTTTAAGCACTTTAAATGAAAAAATAGAAGATTTAAAACAAAATATAAAAGATAGAAATAAAGAAAATATAGCTTTTATAAGTCATAAAACAGCAGGTACTTGTGGAAATTTGGGAATAGAAAATCTCTATATTATAATGAAAAAGATTAATAAAGAAGCTTTAAAAGATAATCCAAATTATAATTTAATTATAAAAAATATGAATGAAATAGAAAATATAATATCTATAATTCCTAAAAAATATTTAGAAAAGAAAGAAAAATATAAGGTAAATATAAGTGAAAATTTTATTGCAAACGGAGAATATAAAATTTTACTTGCAGATGATAGTGAATATAATCAACTGTTAATAAAAAAATTACTTGCTAAATTAGGATTAAATTGTGTATCAGTTGAAAATGGATTGGAAGCAATAGAAGAATTAAAGAAAAGTGATTATGATATATTACTTTTAGATAGGCAAATGCCTATTATGGATGGAGAAGAAACGCTTAAAGAATTAAATAAATATGATAAATATATAAAAATAAAAAAAATAATATTAACAGCAGATGCACAGGAAAAAGTAAAAGAAAATTTTTTTAAATTGGGGTGTTATGATTTTATATCAAAACCAATAGAGAAAGAAAAATTTTATAATGTAATAAAACGGGCAATAATCAGTGTTAAAAAAAATAAAATTATAAATATTTATAGTAAAAGAGAAAAAGAAAAGTTAAAAAAATTTATTTCAGATTTAGAAGAAAATTTATATATATTTGATCCTGATAATTTGGAATTTATAATGGAAAATATGGATAAAAATCTTATATATTATAATGAAATAAAACCAAAGCTTAAAAAAATTATAGATACTTTTGATGATGAAGGACTTGAAGAATTAATTAATAATTTAAAATCAATAATTAAGGTGGTTTAAATGGATAAAATTAAATTAAATAAAATGGATGAAGGTGTATTTGTAATAGTAACTGAAAAAATAAGTATGGATGAGCTTATATCTTTTATAGCTGAAAATGATGTTGAAAATCCTGATGTTGAAAAAATAAGTTATGCTTTTGAACATATAGGAGAGGAAGTAAAAATAGCAGAATATTATGGAGAAATATCTTTGAAGTCTCATTTTGAAATAACAGTAAGTACCAATAAAATGGAAGCCTATTTAATAGTTGGATATTCGCAAGGTGGAAAAATTCCTGATTATTCTGATATAATAGATGAGTTGCAGAATATGGGAATAATAAAAGGGATAAAAGAAAAAGCAATAAAAGATTTGATAGAAATAGAAAATTTTAACAGTAAAATTAAAATAGCAGAAGGGAAATTTCCCATAGATGGTAAAAATTCTTATACAAAATATCTAAAAGGATTGAAAAAAAATAAGACTAAAAGACCTACTATTGATATTGATGGGAAAGCAGATTTTAAAAATATAAATTTTTTAGAAACAGTATTAAAAGGGGAAGTATTAGCGAAAAAAATATCTGCCACTAAAGGGGTAGATGGATATGATATATTTGGAAATGTATTAAAAGCTAAAGATGGAAAAGATATAAAATTAAAAAAAGGAAAAAATACTATAATAACAGAAGATGGTATGCAAATTATAGCTAATGTAGATGGAATGCCAATAATAAGAGATAATAAAATTGAAGTAGAAAATGTGCTTATGGTTGAAGAAGTAGGAGTAGAAACAGGAAATATAGATTTTAATGGAAGCGTAGTAGTAAGAGGAGATGTAAAATCTGAATATATAATAAAAGCGACTGGAGAAATACAGGTATTGGGAAATGTAGAAAATGCGATACTTCAATCTAATGGGGAGATTGTTATAAAAGGGAATTGTTTTGGTAAAGAGGATTCTTTAATTAGTGCAGAAGGGGATATTTTTCTTAATTTTGCAGAAAATATAGAAATAAAAACAAAAAAAGATTTAATTATTAATGAAGGATTAATAAATTGCAAAGTGTATGCTGAAGGGAAAGTTGTAGCAATTACTAAAAGCGGTTCAATAATAGGTGGAGAAACAAGAGGTGAAGCTGGTATAGAAGTTTTAAATGCTGGTTCGAAAACAGGGGCACAAACCGAATTAAAAATTTTAGGAAAATCAAAAGTGGTTGAGAGGATAAAAGAGAAATTAAAAGATATCGATTGGGAAATAAAAGTGATAGAAAAAAATATAATTAGCTTACAATATATAAAAAAAAATGTTCCTCAATTATATGGTGATGAAAAAGAAGAACTGTTTATGAAATTAATAAAAAATAAAATGGGTTTATTAAATGATAAGAAAGTTTTGGAAATAAGATATAATGTGTATAAAGAAAAAATGGAAAGAGAGGAATTTCCAAAAATAATTGTAAGAAATAGATGTTATTTTGGAGTTAAAATAACATTAAAAGAGAGAAATTTTGAAGTAAATGAAGATATTGAGAGGATAAAATTTTTCCTAAAAGATGATAGAGTAGAGCATGAGTTTGTGTAATTTTTTTTTTGAAAATTTAAGTTGAATAAAAAAACAATTGACAAATTTTAATATTAGTGATATTTTATAGTTGTTAAGACAGATTCATTTTTAAAATTAAATATTTACCGCTAGGGGAGCAATTTTGCTGAGAGGAAAAATATTTCCGACCCTTAGAACCTGATTTCTGGATAATACCAGCGTAGGAAAGCGATAATTTTATACTTTATATTAAAAGATATTAAAAAGATTATTTGAAATATCTATAATGAAATATTCAAAAATTTTGAGATTCCATTACAAGTTTAATAGGGATAATTTTTTAAACTTTTAAATATTAATATAGTATATTTTTAACCGCATACCTATGTATGCGGTTTTTTATGTTTATGGAATGATTAATTGGTTGATACCATCTGTACCGGTTCATTTGTAAGGGCAATTTACGAATTGCCCAAATAAAGAGATTATTTTAAGCATATTAATCAATAGTCATAATTTTTTAGGAGGTGATATATTGGAAATTGTTATTAATGGCGAAAAAAGATTGTTATTAGAAGAAATATCAGTAGAAAATCTTATATTTTTATTAAAATTAAATAAAAACAGTATTTTAGTAGAATTGAATTTGGAAATAATTAAAAAGTATGAGTGGGAAAATACTATTATTAGCGAAGGGGATTCTGTTGAAATTATAACTTTTATGGGAGGAGGATAAAATGAAAGATATTTTAAAAATAGGGAATAAAGAATTTAGTAACAGATTATTTACAGGAACAGGTAAGTTTAGAGATAAAAATTTAATAAAAGGTATGTTAGAAAAAAGTGGCTCGGAAATGATTACAATAGCTTTAAGGCGAGTTAATTTATCTAATCCTGATGACAATATATTAAGTTATATTCCAAAAAATATAACAGTTTTGCCAAATACATCAGGAGCTAGGAATTATAAAGAAGCTGTTAGAATTGCAAAAATAGCAAGAGAAGCTGGATGTGGGAATTTTATAAAAATAGAGATAATACATGATAGTAAATATTTAATGCCAGATAATGAAGAAACTATAAAAGCAACTAAAATTTTAGCAGATGATGGATTTATAGTTTTACCATATATAATGGCTGACTTAATAAGCTGTAAAAAATTAGAAGATGTAGGAGCTAGCGCTGTAATGCCATTAGGTTCTCCAATTGGCTCAAATAAAGGGTTACAAACTAAAAGTTTAATAAAAATAATTATAGAAAATAGTAATGTTCCTGTAATTGTAGATGCTGGAATTGGAGCACCATCACAAGCAGCAGAAGCAATGGAGATGGGAGCAGATGCGGTACTTGTAAACACAGCAATTGCAACTGCAGAAAATCCTTTATTAATGGGAGAAGCATTTTCAATGGCGATAAAAGCTGGAAGAATGGCTTTTTTAGCAAAATTAGCTAAAGAAAATAGATATGCAGCTGCTTCTTCGCCTCTTACGGGATTTTTACATATGAATGGAAATGGGAAGATATAATTGACAATGGACAATGATTTAGGAGTGCTTAAAAATAGAATAAGAGAAGTAAAAAATAAAATAGTGCTCTTCTAAGTTAGGGGAGGATTTAGGTCAATGCTTTAAGTTAAGAAAAATATCCTATATTTTCTTATTATTTGCTAAAAATCACCCTCTCAGTCACTAGCGTGACAGCTCTCCCAGAGGGAGAGCCAAAAAGCCTCTCCTTTTAGGAGAGGTGGCAGCGAAGCTGACGGAGAGGTAGGGTTAGCGACTTTAGGTTAGGTCTAAACTAGAACAGAATAAATCAAAAATTTGGAGGGAAAATGAGTTTTTTTAATGTTTTAAAAAATTTTAATGAATTTAATTTTAATGAATATTTTGAACAAGTAACTGAAAAAATGGTGTTGGATTCTCTTGTTAAAAAAGAGCTGGATTATTACGATTTTTTAAATTTATTATCTCCAAAAGCTGAAAATAATTTGGAGATGATTGCTAAAAAAGCTCATGATATAACAGTTCAAAATTTTGGATATACAATAAATTTATATCTACCTATGTATTTATCCAATTATTGTAGTAGCGATTGTTTATATTGTGGATTTAGCAAAAACAATCATATTACAAGAAAAAAATTAACATTAGATGAAGTAGAAAAAGAAGCAATTGAGATATCCAAAACAGGAATTAAACATATTTTAATTTTGACAGGAGAATCAAAAGAGATTACTCCAATAAATTATACAATAAAAGTTGTTGAAATATTAAAAAGATATTTTTCATTTGTAGGAATAGAGATGTTTCCTATGGATGAAGATGATTATGCAAAATTATTTGAAGCTGGAGTTGATGGGTTAACTGTTTATCAAGAAGTATATAATAAAGAAATTTATGAAAAAGTACATATTTCAGGAGAAAAAAGAGATTATAATTACAGACTTGAGACTCCAGAAAGAGGAGCAAAAGCAGGATTTAGAAATATTAATATAGGAAATTTATTTGGACTTGGAGATATTAAAAGTGAAGCTTTTTTTAGCGGAATACACGCTAAATATTTAACTGATAAATATTTGGACACAGAATTTGGATTGTCACTTCCAAGAATTAACAGAGCAGAAGGAGGATTTAAACCTTTTTCACATTTAAATGATATTTCGTTTGTACAAATTATGAGTGCATATAGATTATTTTTACCTAAAGTTGAAATAAATATTTCTACAAGAGAAAAGCCAGAATTTAGAGATAATTTATTAAATATTTGTGCTACAAAATTTTCTGCTGGCTCAAAAACAGAAGTTGGGGGTTATACTTTGGCTAAAACAGAACCACAATTTGAAATTTCGGATAATAGAAATACAGAAGAGATAATAAAAAAAATAAAAGATATGGGATATCAACCAATATTAAAAAATTGGGAGATGATATGATAGGAATAGCAGGTGTAGGAGGGATTGGTTCTAATGTCGCAGTTAATTTAGTTAGAAGTGGTATAACCAAATTAAAAATAGTTGATTTTGATAAAATAGATATTTCAAATTTAAATAGACAATTTTATTTTGAAAATCAAATTGGGAAAAATAAAGTGGAGGCTTTAAAAGAAAACTTATTGAAAATAAATAATAGATTAGAAATTATAACTATAAATAAAAAAATAGTTAATGAAAATATTGAAGAGATATTTAATGATTGCAATATAATTGTAGAAGGTTTTGATAGTAAATATTATAAAGCAATGTTAGTAGAAAAATTTATTGATAATAAGGATTTAATAGTTTCTGCTTCTGGAATTGCAGACAATGATGTCGAAAATATTAAAGTAAAAAAGATTCAAAATAGTTGTTATATTGTAGGAGATTTGGAAAAAGATGTAGAAAATTATAAAACATTTTCTACAAAAGTTAATATTGTCGCTGCAATTATGGCAAATATTATATTGGAAAAAGGAGATTTTTATGAAAAAAATCTATAGAATTTTAGATGCAAACGTAAATAGAGCTTCAGAAGGAATTCGAGTAGTAGAAGATATTTGTAGATTTTATTTTGAAAATGAAACTCTTACAGAAAAGTTGAGGAATATTAGACATAATATTAGAAAAAGTTTAAAAGATATTGATATTTATATGATTGAAGAAAGAGATTCAGAACATGATATAGGTAAAAATATTACTTTAAACAGTGTTATTGATAAAAAAGATTCTGTATCTCAAATTATAACTGCAAATTTTAAAAGAGCTCTTGAGGCTGTAAGAGTTATTGAAGAGATATTAAAAACATTAGATAATATGTATTTAATAGGTAAAAAATTTGAAACTATTCGTTATGAACTTTATTATTTAGAGAAAGATGTAACACAACTAATTAACAAAAAAATTATTCCAGAAGGAATTTATGGAATAACAATGGAAGAGAGTTCTAACGGAAAAAATAATATTGAAATCGTGAAAGAGATGATAGAGAATGGGATAAAAATTATTCAATATAGAGAAAAAAGGAAATCTTTTAGAGATATGTATAAAGAAGGATTGGAATTAAGACAATTAACAAAAGAAAATGGAGTTACTTTAATAATAAATGATTATATAGAATTAGCAATGATGTTAGATGCTGATGGAGTACATATTGGGCAAGATGATTGGCCAATTGAAGAGGTTAGAAAATTAATAGGGAGTGATAAAATTATTGGCGTATCTACTCATTCAAAAGAAGATGCTATAGAAGCTGTAAAAAATGGAGCCGACTATTTAGGAGTAGGACCAATTTTTAAGACAAATACAAAAGATTATAAAACTGTTGGATTTGAATATTTAGAATTTGTAAGTGAAAATATTAAAATTCCTTTTGTAGCAATTGGAGGAATAAAAGAGAATAATTTAGAAGAAATAGTGAAAAGAGGAGCAACTAGAATAGCGCTTGTAACAGAAATAACAGGAGCTGAAAATATGAATGAAAAGATTGGGAAGTTAAATGAAATTATAAAAAAATAAAAGGAGAAATTAAAAATGAAATATACAACTCAAATGGATGCGGCGAAAAAAGGAATTATTACAAAACAGATGAAAGAGGTAGCATTTGAAGAAAATTTGGATGTAGAAATAATCAGGGAAAAATTATCAAAAGGGACAGTTGTAATACCTGCAAATAAAAACCACATATCTTTAATTGGAAAAGGGGTTGGAGATGGATTAAAAACAAAAATAAATGTAAATTTAGGAGTATCAGAAGACACTTGCAATATTGATACAGAAGTAGAAAAAGCAAAATATGCTATAAATCTGAAAGCAGATGCAATAATGGATTTAAGTACTTTTGGGAATACAGGAGAATTTAGGAAAAAACTTGTTAATGTATCTCCAGTAATGTTAGGGACAGTTCCTGTATATGATGCAGTTGCACAATTTGGAAAAACTATAAAAGATATTAGTGTAGATGATTTTTTTAGTATAGTTGAAACTCATGCAAAAGATGGTATAGATTTTTTAACTATTCATGCTGGATTAAATAGAACTTCTATTGAGAGGGTACAAAAAAATGAAAGATTAACACATATTGTGAGTAGAGGTGGTTCAGTATTATATCAATGGATGTTAGAAAATGATAAAGAGAATCCTTTTTATGAAAATTATGATAGATTGCTTGAAATTTGTAAAAAGCATGATGTAACTTTAAGTTTAGGCGATGGATTAAGGCCTGGAAGTTTAAAAGATGCAACAGATGCTCCACAAATTCAAGAATTAATCATTTTGGGAGAGCTTACAAAAGAAGCTTGGAAAGAAAACGTGCAAGTGATGATAGAAGGTCCAGGTCATGTTCCATTAAATGAGATTGCTGCAAATATGCAAATTCAAAAAAAATTATGTCATGGTGCTCCATTTTATGTGTTAGGACCAATAGTTACAGATATAGCCCCAGGATATGACCATATTACATCTGCTATTGGAGGAGCAATTGCCGCTACACATGGAGCAGACTTTTTATGTTATGTAACTCCTGCAGAACATTTGAGATTGCCTACAGTGGAAGATGTTAAAGATGGAATTATAGCTACAAGAATTGCAGCTCATGCAGCAGATATTGCAAAAGGGATAAAAGGTGCAATTAATTGGGATAATAGAATGAGTAAAGCAAGAGGGGACCTTAATTGGAATAAAATGTTTGAACTTGCAATTAATCCTGAAAAAGCTATAAAATATAGAGAATCAGATAAGCCGAAAGATAAAGAGGTTTGTACAATGTGTGGTGAATTATGCGCAATAAAAAGAAGTAAAAAAGCTTAATTGTAATTTGTATAAAATTCGTCAAGTTAAGGATTTTATAATTTTATATTGGGTTTGCAAACGGCAAAACCCTTACATTATAAAACAAATTAATACTGTAGGGGCTTGCCGTTGGCAAGCCCAGTTCTTATCTTGATGACATTGACCTTTGTGGGTACCAAAGATGAAGTATAGGTTATTTCTTTATTTTAGGAGAATATTTTATTCCATATTTAGCATATATTTTTACAAGAGTTCCATCCTCTTTCATCTTTCTTAAAATTTCGTCATATTTTTTTTTAATATTTTCCATGTTCGGATAATCCGATTTTCGTGGAAATGTATTAAAATAATCCCTCTTTTTAAGTGGCTTTTTAAGATATGTTATTTTATCAGAAAAACCACCAACATGAGCTTCATAAAGAGCTGCATTGGTATTATATGGCAATAAATCTATTCTTCCACCAAGAAGTTTTCGCATTTGAAGTTTATTTTTTACAACAGTATCAAGTGTGAGGATACCTTTTGAAGCTGCTTCCCAAAATTCTGGCGTATATGAAAACCCTTTTGTAGCCCCTATATAATAACCACGTAAATCTTCAAAACTGTTATATTTTATTTTACCTTCATTTTTTCTAAGAATAAAAAAATTCCAAGTTATAGTTACATGAGACTCTTTAGGATAATATAGATATTTATTTCTATCTTTATTATAAGAGTATGTAAAGACTATATCATATTTACCTGCTTTTGAAAGAGCAAGAAGTCTTGTTGATGAATTTACTAAAAGAATTTTATATTTGATACCCATTTTATCCATTATATAAGATATAATATCAACATCAATTCCGGTAGGTTTCCCTGTAGAATCATGAAATCTTAAAGGTGCTTCTGGGATTCCAGCTATAATGAAATCTCTGGCAAAAGATAATTGAAAAATAGAAAAACATAAGGCAGTAATAATAATGATTTTTTTTAATGAATATTTCATTTTTAACATCTCCTTTTTATATTTTATATTATACTTATTTGTGTAATTCTAAAATTAGTATATATATAATATACTGCAAATATAAATAAATCCTTTTTTTATTTATGAAGAAAGTATAAGTTTATGATACATTCAAAGAATATCTATTATTGTAATTGACAACAATAGATATTATAAGCTATACTATAACATAGTGCAAATATAAAAAATACAATGGATAAAAAGGGGGATAAAATGAAATTAAAATGGAAAATAATGTTACCAATAGTATTAATATTAACAGTTCAATATTCGGTGTTAATTTTTAAAGATATTAGTATTAATCGAGAAAAGAATAAATCAATAATAAAAAAAATAGGGGATATAAAAAGTGAAGCCTTTTTTAGTTATTTAAATAAATCTCTGGCAAAAGGAGAAATGTTTATAGATTTTGTTTTAAGTAATAAAGAGACAAAAAAAGCTTTTGCAGAAAGAGATAGAGATAAATTAGAAGAGATAAATTATAAGTTATATAATAAATTCAAAAAAAATGCAGATATAGCTCAATTTCAATTTCATCTGCCATCAAGTGTATCATTTTTAAGATTGCATAATTTAAATAAATATGGAGATGATTTGAGTTCTTTTAGAAAAACTGTAGTAGAAGCAAATAAAAAAAAGCAATTAGAAAAAGGGATTGAAGTTGGAGTTGCTGGAATTGGGATTAGATATGTAAAACCTGTTTTTTATAATGGAAATAGCATTGGAACTGTAGAATATGGTGGAAAATTAGGAGATAAATTACTTAAAGAATTTATTGAAGAGACAGATAAAAAGATAAAAGAATATGGATTAAATGTATCTATTATAGCTAAAAATTTAAAAGGTGAATATAGTGTTATCGCTTCAAATTTTGAAGATGAAATAGCTATAAATCCTAATGAGATATTATCTAAATTTACAAATAGTAGTGATGGTTATTATTTTTCCAATGGAAGAGATGCTTTTTTTTATGAAAAACTAAAAGATTTTTCTGGAGCAGTAGTAGGTTATGTTAAGTTTAAATATGATATTTCGAATATTTTGAAAAAAGGTAGAGCAGATACAAGATTTTCAATAGTTATAATTATTGTAACACTAATAAGTATAATAGTTTTTCTATTGCTATTTATAAAAATTGTGATAGAAAAGAGGTTAAATTTATTAGTTGAATTTATTAAACAAGTTGAAAAAGGAGATTTTAGAGATAAAAACAGGATAAAAGGGAAAGACGAAATAGGGAAAATGTCAGATAGTATAAATATTTTTATTAAGAAATTACAAAAAATAATTATTGATGTAAAAAGTTATTCAGGAAGAGTATCAAATGGAATAGAAGAATTTAATGATACAATGCGTCAAATAAGTAATTCTACAGAAGAAGTAAGCGAAAGCTCAACAACCACAGCTGCTTCAATAGAAGAATTATCAAGTACAACAATTGAAATACACCAAAATATTGAGAGATTATTAAAAAATACAGAAAACACCTTACAACTAGCAAAGAATGGCGGAGATGCAGTGGATTTAACAATAGATGAAATTAATAAAATAAAAAAATTGGTAGAAGTAGGAACGGAAGATGTAAAAGAGTTAGGAAATAAAACAAATGAAATAGGTGAGATTGTAGTAGTTATAAAAGAAATAGCAGCACAAACAAATTTGTTAGCATTAAATGCTGCAATAGAAGCTGCAAGAGCAGGAGAAGCGGGAAAAGGATTTGAAGTGGTAGCGGAAGAGGTTAGAAAACTCGCTGAAAAAACTACAGAATATACCAAAGAGATAAATAATAGTATAAAAGAGATACAGGATGAAACAAATGGGGTAATAACTAAAATGGAGGAAGTCAACATAGAAGTAGAAACAGGAGTAGAAACATCAAATAATACAGGAAAAGCATTGGAAGAGATTGTTATTCATACAGTAGAGGTAAGGGATATGGTCAATTCAATAGTAAACTCTACTAGAGAACAATCTATAGCTTCGGAAGATATAGCTAAACAGACAGAAGCTGTCGCACAAAATTCAGAATTAAATGGGCAAGCTATAGAAAATAGTAGTGAATCAATAGGAGAAATAGCAGAGATAGCAGAAGAATTAAATCAAATGGTGAGGAAATTTAAAGTTAATAATGATGAGAATGAAATGGGAATAAAAAAAATAGAATAAAACAGTAGTTATTGCCTATTTTAATATAAATAGGCAATTTAACTTTACAGAGGAGGTTGTAATAAGAAATGGATTTTAAATATATAAATTATGGACAAGATGAATTTGAAAATATAATTAATGAAAAGAATAGAGTATATATTACAGATTCTAATATAAATAAAACATTTTTAAAAAATTATGAGAAGAAGGAAATATTAAAAAAAAGCAATCTATTTTTTACACTAAATGAATTAAAAGAAAATATATTTTTAGATGATAAAATAACTTTAAAAGAGGAAAAGGAATTTTTGCTTTTTTATGAAATATTAAATTCAGAAGAAAAAAAAGCCTTAAATATATCAACTTATTATGATTCTATTGATATTGCAGGAGAATTTATAAATTTTTTTACAGAATTAAATGAATATAATGTTGATAAAATAGATAATTTAAATATTTGGCAAACAAAAAGATATTCTATGTTTTCAATAATAAAAAAAAGATATGAAGAAGAATTAAACAAAAGAGGATATACCCTTCCAATGTTTAAGTATAATATTAAAAATATTGATTTGAATATATTAAAAGATTATGATGAAATTTGTTTTGTAAACGTGTTAAATTTTACTCCTCTTGAAAAGGAGATAATAACTTTATTGGAAAAAAACAGGAAAAAAGTTATTATTTATAATCAAATTTATAAAGAGGATTATAATGAAAAAGAGTTAAAAATAAAAGATATAACATTTCCAAAGAAAATTGATACAGATATAAAAATCTATGAAAATAAAGAGGAGTTTTTAGAGATATTAAATAGTATTAAAATAGCTGAAAGCGGTAAATATGATATTTATGATTTGAATTTTGAAAATAGTAAATATAAAAATATATTTTTAAATGAACATATAAATTTTCAAAAAGTTATAGAATATAGTTCTACGAAAATATTTAAATATTTAGATGGACTACATACTCTTTTGAACAATTTAAAAAGAGAAGAAGGAAAATATCTATTTAGATTAAAGGATATTTTAGAAGCAGTTGAATTTAAAGAGATAAAATATAATTTTCAAATAGAAGATGATGATATTATGTTACTTAGAAATATGGCAGTTAAAGGATATAAATTTATAGATAAAAATGTAAATATTCCAAATAAAATCAAATTAATGTTATTAGAAATAGAGGAGATATCTAAATTTAAAACATTAAAAGAATTTTGTGATTATATTGAAAAAGTAGATGTCGAAAGGACAAGTGAAGAAAATAAATTACTATTTGAGGCACTTTCAGAGATAGCTGTTATTGAAAAATTAGATATTGTTTCTAGCTGGGACAATTATTTTGAAGATATAGCAGAAGGGCTTTTTAGATTAGTCTTGAAATATTTGAGATTTAAAAAGGTAAGTGAAAATATTAAATTGGATGAAGATGCAATATTAATAAAAAATTATCAAGATATTAAATTTATAAACGAAAATATGATTTTATTAAATTGTAATGATAATTTATTGCCGACAAAATATAATAAAAGTTTTTTATTAACAGAAAAACAAAGGAAAAATTTAGGATTAAAAAATTATGAAGATAATAGATTAATAGAAAAACATAAGTTTTTAAGTAGAATATCTAATTCAAATGAAACTATTATTTTTGCTATAAATAATGAAAATAAAAATGTAGATGCAAGTTCATTTGTAGAGGAGTTAATAATTAATTACAATATAAAAAAAGCAGATTCAAATATTGATGAAAATAATTATGAAGAAGTTATAAGCTCTATTTTTAAAAATGGAGATGGATTTGAGCTAATAAATAATAATTTTAAATTAAAATTAGAAAAAAACGATTTCGAAGATAATAAATTTATAATTTCACCAACTGATTTGTATGATTTGAATATGTGTAATTATAAATTTTATCTGAAAAAAATTGCAAATCTTACAGATATTAATATTGATATTGAATATAAATTGGATTCGAGAACTTTGGGAATTATTTTGCATAAATTAATGGAAGAGATAGGATTTAAAGTTTGGGGAAAGAAGATTAAAGTAGAGAAAAAAATTATAAGAGAAAATTTAAATAAGATATTAAAAGAGTATGAGCTATTTATGCCAAAAGAGTTTGAGAGATATTATACAGAAGTTTTATTTGAGAATATAATAGAATCTGTATTTAGATTTTTTGATAAGTTAAATAAAATTTTAGAAAAAGAGAGTAATATAAAATATAAAAGAGAAGAAAATACGGGAATGATAAAACTTTTTGATGAAAAAGATATAGAGGTAAGTGCAAAAGGGAGAATAGATCTGCTCGTTGAAACAGAAAACAGTAGATATTTAATTGATTATAAAACTGGTAATGGAAAGTTTCAACAATTGGATTTTTATTCGATACTGTTTTATGGTGATGCAGGGAAAGCTGAAAAATATCTATATAATGTAATGGAAAGTAGATTTATTTTAGAAAAAGAGAGAAAAAAAGATGACAAGCCTTTGACAAAATTGGATTTAGAAGAGACAATAAAAGGGATGATTCGAGAAAAAGAGTATATTAGAAAAAAGAATTTGTTTGTGTGTAATGATTGTGAATATGGCAATATATGCAGGATGAGGTGGGAAGAAAATGAATAAAATAATAAAAGCAAGTGCTGGAACTGGAAAAACTTATAGATTGTCATTAGAATATTTAATAAGATTAATAAAAGGAGAACCGTTTAATAATATTTTTGTAATGACTTTTACAAGAAAAGCTACTTTTGAAATAAGGCAGAGGATATTATTACATTTAGAAACTATAATTTCAAATTCAAAAGAGGGAAAAGATATTATTGATAATTTGAAAAAAATAGATGATAATATTAATATAGATATTGAAAATTTAAAACAAATATATAATGAGATGTTAAAAAATAAAGATAAAATTAACATTTATACAATAGATGGATTTTTAAATATGGTTTTTAAAAAAGTAATATCGCCATATATAAATTTATATAATTATGAAATTGTAAATACAGAGGAAAACAAAGAATTTACAGAAAGAGTTTTGAAAAAAATAGTTAATAATAAAGTTTATTTTAAAGAGTTTAATGATTTTTTTATGGAGAATATAGAAAGAGATATTGATGAATATATAAAAACAATTGATACAATTATATTAAATAGATGGAAATTTTTATTAGTAAATCACGAGCCTAAAGTTAAATTAGGAAATATTAATCCAATAATTATTTATGAAGAGGCTGTCAAAAAGTTAGATGAAATTTTTCAAATAAAAGGAAAAGGAGAATTTTTTGAATATTTTAAAAAAGATTTTAGATTTTATAATGAAATTGAAAATTTAGAAAAAAAAGCTGAATATATATTAAGAGATAATAAGAAATTTTTAAAAGCCAATTTTTGGAATGGAAATAAAATAAAAGGTAAAAATGTAGTAGGGTTAAAAGGAGATTTGGAAGATATATATGAAGAATTTAAGAAAAATTTAGCAATAGAGATATATAATAGAGAGGTAATTCCATATGAAAAACATATATTTAATATTGCGGATATTATATTTAAACTATATGATGAGATAAAAATAAAAGAGAAAAAATTTACACATTCTGATATAGGAAATTATACTTATAAATATTTAACAGATGAGAATTTGGGAGTAGTAAAAAATGGTAAATTTACAAATTATTTTTATGAATTAATCGGGAATGAAATAGACACAATATTTATAGATGAATTTCAAGATACAAGTATTTTACAGTGGAATATTTTAAAATTAATAATAGAAAGCAGTAAAAGTTCTATTGTAGTTGGAGATGAAAAACAATCAATATATTCTTGGCGTGGTGGAGAAAAGCGATTATTTGAAACAATGGAAAATATAATTGATGGAAATGTTGAAGTTTTGGACAAGTCATATAGAAGTGATAGTAAAATTATAAATTATATAAATAACTTTTTTGGGAAAATTAATGAAAATTTTAGATATAAGCCTATAAGTTATTATGAAAAAAATATTGGCGGATATATTGAAACTTTTGCAGGAAGTAAAATTGATGTTAAAAATGAATTAGTGGAAAAAATTAAAGAAAAACTAAATGGAAATTATAAAAATGTAGCAATTTTAGCAAGAGGAAACAGGGAGTTAAATGAAATTGCATTAATATTAGGAAACAATAAAATACCATATGTTACAGAAAGTAATTTATCAATTATAGAACATAGGACTGTAAAACCTATCTATTTTATTTTAAATTATTTTTTGAAAAATAGTTATATTGATTTGTTAAACTTCTTAAGAAGTGATATAATAAATATAGATGAAAACTATTTGAAACTATTTATAAAAAATCAAAATATTGTTGAAGATTTTATTAATGGAGTAGATGATTTAGAAAATATAAATATAAAGAAATTAGATTTTATAGATGAGAATATTATAAAATTATTAGAAGAGATAAAAAAATTAAAAAATATGGAATTTAAAGATATAAATAAAGAATTAATAGAAAAATTTGGAATATTAAATAAATATACCAGTATAAGTGATTTGAAAAATATATATTATTTTTTTGAATTAATGAAAAATTTTGACAGTTTAAAAGAGTTTATGGAATTTTTAAAAAAGAAAAGTGAAAATGAAGAATTAAAACAAATTGGAATTGAAGAGACAAATGCAATAAAATTAATGACAATACATAAATCAAAAGGGCTTGAATTTTCTACTCTATTTTTTTATTGGAAAATATCGTCAAGAGAGAAACCTGAAAAGGGACTTAAATTTTTTACAGAATTTGATTCTAAATTCCATAATGTAGAAAAATATATGTTTGTAAATTCTAAATATAAAAATATAATAGAAACTTGTGGATTTGAATTTTTTTCTAATGCTAAAAATGTATCTGATATAGAAGAGATAAATAATTTATATGTTGCATTAACAAGAGCTAGTAAAAATTTATTTATATTTGCTGATTTTGGGAATTCAAAACTTGGTAAAAATTTTAATACTATATTTAGTGAAGAGGATACGAATATATATAAAGGAGAAGGAAAATTTGTAGCAACTCCAATTGAAATTAAAGATGTAGAAGATAAAATAGTATTAGATAATAAAGAAAAATCTAAATCAAATAATAAAGATAATAATAAAACAACTATTAAAGAAGAATATAATTTTAATAAATATTTTAAAAATTTAAAAGAAGAAAGATTAGAATTAGAAAACAGTATGACACTTGAAAAAGAATTTAATAGAAAATTGGGACTTGCAATCCATTATTACTTAGAAAATATAATTTATGGCAAGGAAGATGAGAGAAAAAGGGCAAAAAAAATCACATATTCTAAATATGGAAATATGTTAGGATATGACAAGGTAGAAACTGCAATAGAAAGGGCAAATAATTTCATAAATAAAAATAAAGAATATTATGATGAAAAGTATAATGTTTTTAATGAATATGAGATAGAGTATAATAATCAAAAACATAGAATAGATAGATTGTTAATAGATGAAAAAAATAGGGAGATTTATATTTTAGATTATAAATCGGGACACGTTATGGATAAAGCACAATTAGAAAGATATAAAGATATTCTAATGGAATTAACAGAGAACAGATATGCAATAGAGACTAAGTTTTTGTCTTTGTAAAGAATTAAGTCATTCAGCACAAAGACTCAAAGTTCACTAAGGAACACGAAGAAAACATTTTTTTAGTTAATAAAAAAATAAGCTACGCTTTATACTGTACCCTATAAGATGGACATTTAAAAAAAAGTTGCATCAGATATGGTATTTTTATATAATATCTATAATGTTAATTTAATAGATTGGAGGATTTCATGAGCAACAAAATATTCACAAAAAAAGAGATTGAAATTTTATCAAAAAATAAATATGTCAAAACTATAAGTTCTAAGGCAATCACATATACATCAGAATTCAGAAGAATTTTTATTGCAGAAAGTCAAGATAAAATTTTACCTAGAGCAATATTTGAAAAATATGGATTTGACGTACAAGTATTAGGGATGAAAAGGATTCGATCAGCAGCAGCAAGATGGAGACGTGCCTATAAAGAGCAAGGAGTATTAGGGTTAGATGATAGAAGAAAAGAGAACTCTGGACGACCTTTAGAAAGAGAGCTATCTTTAGAAGAGAAATATGAAAGGCTTCAAGTAAAAAATGATTATCTTCAAGCGGAGATTGATTTGCTAAAAAAGCTAGACGTGCGAGAAAGAGAGGTGAACGGTAAATTAATTGAATTATCGCCATCAGAAAAGTTTGTTATAATCAAAGATGTAATAGAAACAAGTGGTGTAAAAAATATTATAAAATATTTATGTGAAGTTGCAGAAATTTCTAGAACAAGTTATTATAACTATTTGTCTGAAACTTCCAAAACAAATAAAAGCAATCAAGAATTAGAAGATGAAAAAGCAAGAGATTTAATCATAAAAGCATATGAATTCAAAGGTAGGCAAAAGGGAGCTAGACAGATAAAAATGACTTTAGAAAATGAATTTGCTACAATTTTTAATCTGAAAAAAATCAGAAGAATTATGAAAAAATATAGTATTGTATGTACGATTAGAAAGGCAAATCCTTATAAGAGAATAGCAAAGGCTACAAAAGAGCATACAACTATTCCAAATAAATTGAATAGGGAATTTAAACAAGAAATACCAGGGAAAATATTATTAACAGATATAACATACCTATCATATGGTAATGGTCAACGTGCGTATTTATCAACTATTAAGGATAGTTCAACAGGAGAAATACCTGCATATGTATTATCTAAAAATATTAAGTTAGAAATTGCAACAGAAACAATAAGAACTCTTATGGAAAACAAAAGCTTTAAAATTCATAAGGATGCATTAATACATTCTGATCAAGGAGTCCATTATACAAGCCCAACATTTCAAAAATTAGTTAAAAATAGTGGCTTAGATCAGTCAATGTCAAGAAGAGGTAATTGCTGGGACAATGCTCCTCAAGAATCATTTTTTGGCCACTTTAAAGATGAAGCAAATATTAAAGAATGTAATACATTTGAAGAATTAATTAATGAGATTGATGATTATATGGATTATTATAATAATTATAGATGTCAGTGGGGATTAAAAAAGATGACTCCTATAAAATATAGAAATCATCTTTTAGAAAATAAATCAGCTTAACTACTTTTTTTTAAAATGTACTTGACAAAGGGTACAGATTACTTCATCTGGTAGAACATAAATGTTTTTCAAAATTTTTGGCTTCTAAAAAATTTTGCCTTGAAAAATCGCATATTTCAAAAAAACGGCGTAGCTTATTTCTGAATAAACTTATAGTTTCCTAACAAATTAGGAAACTATAAATTTGTTCTTATATGAATTATTCTTTGTGCTCCTTTGTGTTCTCCTTTCTTAGTGCTGAATCTTTTAAGTTTTTAAAACTATTTTCAAATTATTACTAATTAATAGAAAGGAGAAAAATTATGGCAGTAATAGAATTTAATAAAGAGATTAGAGTAAATCCATATTTTGGAATAAATATTACAAATAATATAGCTAGAATATTTAAAAATTACAAAAGAGATGAATCAATAGAAATAATAAAAATTTTATTGAATATCTCAAAAAAAAGAGTTGTAGAAATAAAAGAAGCTGAGTCAACTGATGGGAACAAAGTTATAATATTGCTACTTTATGGGAGTAAATATATTTCAAAAAATATTGTAAAAGAGATTCCAGAAAATCCAGATGGAACATTTGCTTTTCCTGTATTTGAATTAGATTTCAATAACGTAGTTGATATAGAGGAAGAGCTAAGAGTACTGGGATATGATTAATTACAATTATAAATTATAGTTATACTTGTAGAATTGTAGAAAAAAATAATTTCAACACAAATATGTAAAGGACACAGAAGTTTGCAAAGAAAAATTATAATTAATTTTTTATTCGCATATATTTAGTTTATGGTATCTCTGCGTCACTTTGCGCTCTCTGTGGCTCTGCGTTGAATACCTTTTTTTACAATTATCTCACACTATCCAAAAGCACACTAGGGAGGAATATGAAAAATAAAAGTAGATATAAAAATAAACCAAAAAAGTCAAAACAAATTGAAATAACAGTTAAAGAGCCTATGGAACTTATGGATTTTATCATGAAAATGTATGAGGGGAAAAACAGAAATAAAGTAAAAAGTTTATTAAAACATGGACAAGTGGTAGTAGACGATTTAATCCAGATGAAATATAATTATAAATTAAATCCTGGGCAAAAAATAATTATTAATGGCAAAGGAATTTCAAAAGAAAAAATGAATGGCGTTAAAATAATGTTTGAAGATAATTATGTGATTGTTATAGAAAAAGAATCAGGTTTATTAACTATAGCTACAAACAAAGAAAAATTGAATACAGCAAATAGTATTCTTCGTGAACATGTAAAAGAAGCGGACCCAACAAATAAACTATTTATAGTGCATAGATTAGATAGAGATACGTCAGGAGTAATGATATTTGCGCGTAATAAAATGGTGAAAGAGACTTTTCAAAATGAGTGGAATGAACGAATATTGGAGAGAGCTTATGTTGCAATTCTTGAGGGAAATATTCCAAATGATGAAGGAACTATAGAATCATATCTTAAGGAAAACAGAGCTTTTTTGATGTATTCTACTAAGGATACTAAAGATGGAAAGAAGGCTATAACGCGTTACAAAGTGTTAAAAAGAGTTAATAATTATACTCTTGTAGAAATACATTTAGATACAGGGCGTAAAAATCAAATACGTGTACATATGCAAAATATGGGGCATAGCATAATAGGAGATAAAAAATATGAAGCAAAAACAAATCCAATTGGACGATTGGGGCTTCATGCGAAAATAATAGAATTTAAACATCCAATAACAAATAAGATAATGAGATATGAATCGCCTTTACCAAAAGAATTTAAAAAATTGATGAAGATGTAAGCAGAGAATGTATAGGATTATTTTTGATAGGGAAAATATATAAGAAATAAAATTAAATGGAAAAGAGATTGCTAAAATAGTGGTCTCTTTTTTTGTTAGGAAAGTATAAATTTATTTAGAAAATAAAAAAATATTTAAAGGAAATTTAAAAAAGAAGCGTATAATAACTATAAGAACAAAAAGGAAGTAGTAAGATGGGAGGAGTCTTTTCAATATGAAAATAGCATGGGATAAATAAACATAGAAAAATATCTTAAAACAGTTAAAGCTTTTTCAAAAAAATAATTATTCTTATTATTGTGTTGTCCAATTGTTAGGGAACGTTTAAAAAATAATTTTATTATATTTTGTCATAAAAACGCTTGAAGAATGTTTAAAAATAATTTTATATATTTTGTTATAAAAACGCTTGAACCATTGCGTATTTTAAAACAAAATGAAAAGGTTATTTTTAAATCATTCCTAAACCATTGCGTATTTTATAACAAAATCGAAAGGTTATTTTTAAGCCGTTCCTAGGTAAATTATTTAATTGATAATTTAAAGGAGGCGGGTAAAATGAAAAGGAAAATTTTGTGGAAAAGTTTATTTATGTTTTTGGGTTTAATGCTATTAGCTGTGGGGTGTTTTGAAAAGCCAGTTGAAGAAGCAGTCACATTATCTCCACCTACAAATTTACAAGTTGTTCAAAAAGATGAAACTTTTATACAATTTAGTTGGCGTGGGGTTTCGGGAGCGGAAGGCTATAAAATTTATAAGAGTTCTACAAGTTATGGAACTTTTGTACAAATAGGGAATTCTCCAGTAGTTGTATACAGGGATGAGGAATTAAATCCAGGGACAACATACTATTACAGAGTTAAAGCATATAAAGGAACTGTAGAAAGTCAATTTAGCCAAGTTTTACAAGCAACAACATCTGAAAAACCTAAAATAATAAATATTACTCCAGCTAAAGATTCAACTGGAGTATCAATTAACACAAAAGTAGTGATAACTTTTGATAAAGATATGGATTCAGGAACATTAACTAGTAATAATGTTTATTTAATGAAATCGGTAGGACTTGAAACAATAACATCAGCAATTACTTATAATAATAAAATTTTAACTTTAACACCTTCATCACCTTTAAATTATAATACAGAATATACTATATTAATTTCTTATAAAGTAAAAGATATTAACGGCAATGGCGTTGAGTCAACTCTCTCAAGTTTTACAACAGAACAAGAAACTGTAGTGAATACAGCACCAACAGCACCAACAAATCCAACTCCAGCAAATAATGCAATAGATATAACAACAAATTCAGCTATAACATGGCAAGCTTCAACAGATTCTGATGGAGACGCAATAACATATGATATTTATTTAGATGAAACAACATCTCCTGCAATAAAAGTAGCATCAGATTTATCTGTAGTAACATATTCTCCAACTTTAGGAGTGGGAAAAACATATTATTGGAAAGTAGTAGCAAAAGATGGAAAAGGTGGAGAAACATCAAGTGAAATTTGGAAATTTACAACAATTTCTCAAACAGTAACTTATAACGTAGGAGATAAAGTTTGGGAATTTAATTCAGGAACTGCAATGTATAGTAGTCCTGCAACAGGAAATAACGGAGTAATTTATATAGGCTCAAATGATGATAATTTGTATGCAATAAATCAAGATGGTACAGAAAAATGGGAGTGTAAACTTGATTATGATGCAGGAACGCCAGCAGTAGGAAGTGATGGAACTATATATGGTGGTTCTAAGAAAGAAACACTTTACGCAATAGATCCAACAGATGGCACAAAAAAATGGAGTTTTACAGAAGGTGGTGGATTTATAAATAGTGCTCCAGCAATAGGAAAAGATGGTACTATATATTTTGGGACTTCAGGGAATATATTATATGCAATAAATCCAAATGGCACAAAAAAATGGAGTTTTACAGTAGATAATAATATTCAAATATCTCCAGTAATAGCTTATGATGGAACTATATATGTTGGAAGTAGTAGTGGAACTATATATGCTGTAGATTCAGATGGTACAAAAAAATGGGAATTTACAGAAAATGGGAGCTCTGTAAATGGACTAGCTATTGGAACAGATGGGATTGTTTATGTAATAGCAATAAAAAATATATATGCAATAAATCCAGATGGAACAAAAAAATGGGAATATGAAATTAGTAGTTCTACAACAACACCAACTCAATTAGTAATAGGCAGTGATGATACTTTATATTTTGGAGCACAAATATTAGAAAGTGATTGGGTTAATAAAATTTTTGCTGTTGATAAAAATGGAAGTAAATTATGGGAAAAAACTATTGATGAGGATATACAAAATGGTCCTGCATTAGGAGATAATGGAAATATCTATTATATAACTTATGGAAAATTAGAAGTATTTGATACTAATGGAACAAAAAAATGGGAATTTGATGCAGAAGATGGAATGTATGGGAATGATTCTTCTCCATTAATATTAAATAATAGAGTCTATTTTGGAACCTCTAAAGGAAAATTATGTGCAATTTATGATAATGTAGGAGGGGTGGCAGATTCACCTTGGCCAATGGTTGGACATGATACATATCATACAGGAGTTACTCATTTAGAAACAATAACGCCATCAAATACTCCGCCAACAGCTCCAACAAATCCAACTCCAATAAATAATGCAGTAGATGTTTCAACTGCAATTGTATTAGAGTGGGATAGAAGCAGTGATTCAGATGGAGATACAGTAACATATGATGTATATTTAGATGAAACAACAAATCCTATAACAAAAGTAGCAAAAGATTTGTCAACATATTATTTGGGGATATCTTTAGATAATGGAAAAACATACTATTGGAAAGTAGTAGCAAAAGATGGAAAAGGTGGAGAAACATCAAGTGAAATTTGGAAATTTACAACAATAAATAGTACTATTAGCAAGGTAGAAACTCCAACTGCTAGTCAAACTGGAGGAGAAGTAGCGGTTGGAACAAAAGTTTCATTAAGTTGTTCAACAACTGGAACAGCTATATATTATACATTAGATGGTACTGACCCGACTAAATCAGACACAGAATATATTGGAGAAATAACAATAGATTCCGATATAACAATAAAAGCATTTGCTACAAAAGATGGTATGACAGATTCTGATATTTTAACAGTTAGTTATACAGTTACTGCAGCAACAAGTGATGGAGACAGTTTTGCAGATGCTATTCCTTTAAATGTGGAAGAAACCATAGCAAATTATTTAGGAGCTGAATCGGATGGAGTTACAGATTCTAAAGATTGGTATAAAGTAACATTAAGTAGTCCAGGCGCATTAACTATAACTGTAACAGGAACAACAAGAATAGATGTATATGATTCGAACAATACATATCAAGGAGGAGTATCAGAGGCTGAAAATCCAACTTATACGAATAACTTTACAGCAGGAACATATTATTTCCAATTAAGTTCAAGCCAAGTAGGAGCGTATGAAATAAGTGCTACTTTTGTAGCAGGTGGAACTTTTGCAAATGAAGAAGATCCAACAGGAGATTATGATAGTTCAAGCAATACATCAAGAAATGATACATTTGAAACAGCTTATGGGTTAGGATTAGGGACAGAAAATAGTAAAAAAGGCTATTTAAAATATAGAAATGATAAATGGAAAGAAGATACATCAGATTGGTATAAAGTGACATTAAGTAGTCCAGGAGCATTAACCATAACAGTAACAGGAACAACAAGAATAGATATATATGATTCGAACGATACATATCAAGGAGGAGTATCAGAAGCTGCAAATCCAACTTATACAAATAACTTTACAGCAGGAACATATTATTTCCAATTAAGTTCAAGCCAAGTAGGAGCGTATGAAATAGGTGCTACTTTTGTAGCAGGCGGAACTTTTGTAAATGAAGAAGATCCAACAGGAGATTATGATAGTTCAAGTAATACATCAAGAAATGATACATTTGAAACAGCTTATGGGTTAGGATTAGGGACAGAAAATAGTAAAAAAGGCTATTTAGAATATAGAAATGATAAATGGAAAGAAGATACATCAGATTGGTATAAAGTGACATTAAGTAGTCCAGGAGCATTAACCATAACAGTAACAGGAACAACAAGAATAGATATATATGATTCGAACGATACATATCAAGGAGGAGTATCAGAAGCTGCAAATCCAACTTATACAAATAACTTTACAACAGGAACATATTATTTCCAATTAAGTTCAAGCCAAGTAGGAGTGTATGAAATAGGTGCTACTTTTGTAGCAGGTGGAACTTTTGCAAATGAAGAAGATCCAACAGGAGATTATGATAGTTCAAGTAATACATCAAGAAATGATACATTTGAAACAGCTTATGGGTTAGGATTAGGGATAGAAAATAGTAAAAAAGGCTATTTAGAATATAGAAATGATAAATGGAAAGAAGATACATCAGATTGGTATAAAGTGACATTAAGCAGTCCAGGAGAATTAACTATAACTGTAACAGGGACAACAAGAATAGATGTATATGATTCGAATGATACATATCAAGGAGGAGTATCAGAAGCTGCAAATCCAACTTATACGGAGAATCTTACAGCAGGAACATATTATTTTCAATTGAGTTCAAGTCAAGTAGGAGCATATGAAATAAGTGCAGAATTGCCTATATTTAAAGCTGTAAATGATCCAACAACTTTAAATTCTAATATGGAATCTATTGGATTAAGTTCCGATGGTTTAGATACTTATATGTTTTTTAGAAATAGCGACTTAGAATATAATGTGCCAAATGTTTATGTTACAAAAAAAAGTGGAGACAGTGATTGGACTTTATTAGGGACAAATCCTGTAGGAACTGCATATACAGGAACATACTCTTCGCTTGAGATGACTGTATATAATAATATTCCTTATATAGCTTATTCTGATGATGAATATGGTCAAAAATGTTCTGTTAAAAAATATGATAATGGAAGTTGGAGTTATGTTGGAACAGCAGGCTTTGCAGAAGCTGCTGATTCTGCTTACAGAGGAATGGTTATTGATTCAAATGATAAAATATATGTTACTGTAGATTTGTCTTCAGGATTAACAGTATATGAATATGATGGAAGTAGTTGGACAAAAGGAGATTATCTATCAACAGAAGCTACTTCTTCAACTAAATTAAAGTTGGTAAATAATATACCTTATATAATTTATGAAGATAATGCTGCATATGGTAGCACAACTCAAAAGATAGTTATAAAAAAGAGAGGAACTGCTGGTTGGGAAAATGTGATGGAGATTACAGGAACAGGAGATATAAGAAATAATTATTTAGATTTTGTAGTTTTAAATGACGATATATATATATCATATTATAGTAAAGATGATGATAAATTGTATATAAAAAAATATTCTAGTGGGAATTTAAGCGACATAACAGGAAATTTAACAGCATATCAATATGCACAGGGTATAGGAATGGCAATATATGAAAATACAGTTTTTCTTGCATTAAGTGAAAGTGCAACATCTGGGAAGAGCTTAGCATTTTATAAATATGTAAATGATACTTGGACAAAAGTTGGAGATAGTTTTAATGAAAATAGTACTATATATAATATTAAATTAAAAAGTAATGAAAATAGTATGGAATGTTCATTGGTAACATCTGATAAGAATATAAAAGTATATAAATATTGAGATGTTGAAAAGTAAGAATCCAGTTTAAAAACTGGGTTCTTATCTTTTTATTTTTTACTAGGAAAGTACAAATTTAATTCAAAAAAATAGTTGACAAAAAAATCAAAATGTAGTACCATTTTATTAGCAACCAGTCATATAGAGTGCTGATAAAATGGAGGTGGGTGAAATGGAACAAGATAAATTTACACAAAAAAGTTTAGAAGCTTTGTCAGAAGCACAAAATTTTGCTATAAGGTATAAGCATCAGCAAATCGATGTAGAGCATTTGTTATTAGCTTTACTTGGGCAGGTAAATGGATTGATTTCAAATATTTTACGAAAAATGGGAATAGATGTATCAGGATTAATAAGTAAAGTAGAAAGTGAATTGGATAAAAGATCTAAAGTAGAAGGAGGGAATACAGAAATATATGGTTCTACTAGATTAAATAGAATTTTAGTTAATGCAGAAACATATATGAAAAAATATAATGATTCATATATTAGTGTAGAACATCTATTTTTAGCAGTAATTGATGATTTAAATTGGATAAAGGAATTTGGAGTTAATAAAAAGAATTTTGAAAATGTATTAAAAAGTGTTAGAGGTTATCAAAATGTAGATTCTAAAAATCCTGAAGGAACTTATGATGTCTTAAATAAATTTGGGAAAGATTTAGTTTCATTAGCTAGAGAAGGGAAATTAGATCCTGTAATAGGAAGAGATGAAGAGATAAGAAGGGCAATAAGAATTTTATCAAGAAGAACTAAGAATAATCCTGTATTGGTAGGAGAACCGGGAGTAGGAAAAACTGCAATAGTTGAAGGGTTAGCTCAAAGAATATTAAAAGGAGATGTTCCAGAAGGATTAAAAAATAAGACAGTTTTTTCATTAGATATGGGAGCACTTGTTGCTGGAGCAAAATATAGAGGAGAATTTGAAGAGAGATTAAAAGCTGTTTTAAAAGAGATAGAGGAAAGCAATGGAGATATAATTTTATTTATAGATGAGATTCATACAATAGTTGGTGCAGGAAAAACTGAAGGGGCTATGGATGCAGGGAATTTATTAAAACCAATGTTAGCTAGAGGAGAAATAAAAGTTATTGGAGCCACAACTATTGATGAATATAGAAAATATATAGAAAAAGATTCAGCTTTAGAAAGAAGATTTCAACCTGTTATGGTAAATGAGCCAACAGTTGAGGATACAATATCCATATTAAGAGGATTAAAAGAGAGATTTGAGGTACATCACGGTATTAGGATTTCTGATAATGCTCTTGTTCTAGCCGCTGTATTAAGTCATAGATATATAAGTGATAGACATTTACCAGATAAAGCTATTGATCTAATAGATGAGGCTGGAGCTATGTTAAGAGTAGAGATTGATAGTATGCCATATGAATTAGACGAAATTTCAAGAAGGATTATGCAACTTGAAATAGAAAAAGAAGCATTAAAAAAAGAGAAAGATAAAGTTTCAAAAGAGAGATTGCTTAAATTAAAAAAAGAGTTATCAGAATTAAAAGTAAGAAGAGATGAATTAAAGAGTAAATGGGACCTTGAGAAACAGGGAATAGTTAAAGTTAAAGAGATTAAAGAAGAGATTGAAAAGGTAAATTATCAAATAGAGGAAGCTGAAAGACAATATGATTTGAATAAAGTTGCAGAACTTAAATATGGTACATTAACAGAATTGGAAAATAGATTAAAAGATGAAGAAGCTAGACTTGAAAAAGAGAAAGAGAATCAAGAAAATAAATTACTAAAAGAGGAAGTAACAGGAGAAGAGATTGCACAAATTATCTCTAAATGGACAGGTATTCCATTATCAAAATTAATGGAAGGAGAAAAAGAGAAGATATTATCCCTTGAAAAAAGATTGAATACTCAAGTAATTGGACAAAGTGAGGCTATAAAATATGTGGCAGATGCAATAGTAAGAGCAAGAGCAGGATTAAAAGATCCAAAGCGTCCAATAGGGTCATTTATATTTTTAGGACCTACGGGAGTTGGGAAAACTCATTTAGCGAAGAGCTTGGCATATGACCTGTTTGATAGTGAGGATAATATAATTAGGATTGATATGTCTGAATATATGGATAAATTTAGCGTAACACGTTTAATAGGAGCACCTCCAGGATATGTTGGATATGAAGAGGGTGGTCAATTAACAGAAGCTGTAAGGAGAAAGCCCTATTCTGTAATACTATTTGATGAAATAGAAAAAGCCCATCATGATATATTTAATATTTTATTACAACTTCTTGATGATGGAAGATTAACAGATGGGAAAGGTAAAGTTGTAGATTTTAAAAATACAATAATAATAATGACTTCAAATTTAGGAAGTGGATATATAGCTGAGTCTGCTGAAATTACAGAAAATATAAAAGAAAAAGTTTTTGACACATTGAGGGGATATTTTAAACCAGAATTTTTAAATAGAATAGATGAGATTGCTCTATTTAAGATGTTGGACAGAGAGAGTATAAAAGAGATTGTAAAATTATTGCTAGTTGAAATAAATAATAGATTAGAAGAAAGATATATAAAATTGGAATATACAGAGAAAGCTTTAGATTTAATTGCTGAAAATGGATATGATCCTATTTATGGAGCAAGGCCGTTAAAAAGATATTTACAAAAAGGAATAGAGACAAATTTAGGTAAAATGATTTTAAGGGGTGAAATAAAAGAGAATTCTGTTGTTAAGTTAGATGTTGAAGATGGAGAGTTGGTTTATAGGAAATAATTTTGTGATAAAGAGCCAGAATGGGGGACTGTTCTGGCTCTTTATATTTTTTATTTATTAGGAAAGTATAAATTTATTCAGAAAATAAGCTACGCCGTTTTTTTTAATATGTTATTTTTAAGCCATTCCTAAATAAAAAGAGGAAATCCAAAAATAAGCAGTAAATATATATAGAGGTGATAAAAATGAAAAAGATAGTGTTTTTATTTTTAATATTTTCTAATCTAATCTTTGCAGAAGAACTTGTTTTAAAAGAGATGCAAATAATCCCACCAAAACTTCAAGTAAGAGAGAATATCTCAAACGTCGAACATATATTTATAATAAAAAATAGAAAAGGAAAATATTATATTGAAGTTTTTTATAAAAAAGGAAAGTCAATATATAAAAAAACAATACCAGTAGAAAAAAAGATAGTTTCAGAAATTTTTCTTAATAAAGAATATTCAGATAATTTAAGTTACGAAACTGAAAAAGATAAAAATATTATCGTTTATGGGACGACATTATATTCAGCTTCCACAGCATTTTTATTAATTATTGATACCAATAGAGAAAAGGTAGCTTTTGCAACTTCTGCAGTTGCAGGATGGGGTTCTTATATTTATTTAAATAAATTAGCAGATAGAGGAACTTTTTACAAACGCGATTTTATAAATATGTCTCTTGCAGGATTGTCAACTACAATTGAATTATATGATATTTTAAGAGGAACATATGGAGAATTAAATAAAGAAAGAGTAAAATTTATGATTGGAACAGGATATGCTGCTTATCTTTATACAAAAAAAATATCAGATAAATATAAAATAAATAGAACTGCTTTTTCTATAGGAACAGAATGGATGTTTATTTCGAGATTTCAAAATAGTTTTTTAGTAAATGAAAAACAGCTTAGTGAAAGAAACTATTATAGGATTAATGCTGTTGTTAATCCTATAGTTTTTTATTCTGGTTTGCAATATGGAATGAAATATAGGCTTTCAATGGGAGCATATGGAATTTTAGATAATTATTCATTATCTTTAAGAAATATACTTTTAGAAATACCTGTAGATGCACGAGTAAAAGCTGGAATTAGCTCAATTGGAGCAGTCACTCCATATATATTAGGCAAAAATATAGAAGAAAAAATAAAATTTAGAAAAAATGATTGGTTTTTAGCAAAAGCCTCACAAGGACTTGGTTGGCTTACGGGGTTAGCAATTACAGGCCTTTTTGAGGATAAAATGGAAGAAGGACAAGCTAGAACGTTCTTAAATGTATCAACTTCACTTGGTGTTATTGGGGCAACCTATTATACAACAAAACTTTTTGAAAATAGAAATGAAAAAATAGGTTCAGAAAAATTAGATTTGTCAGATTATATTGATATTAATCCAATAGGCATTTTAAGTGCAATGAATAAATTAGAAGGTAATTGGCCAATTTTTACAATACATTTTTAATAATTGGTTGATTGATCTGCCTTTTGTTATATACTTTTCAAATCACGATTAAGGTGCTAGGTACTTTTAGTTTGATATATACACATCTGAACTGTAACAATCCCTTAATATTTTTTATAATTTTTTTGACTTGTTTATTGTTTTGTGATATACTTTTTCTTCGCTTTTGTATAACTAGGAACGGCTTAAAAATAACCTTATGATTTTGTTATAAAATACGCAACGATTTAAGCGTTTTTATAACAAAATACAAGAAACTTATTTTTTAAACGTTCCTAATGTGTTATGCACATTAAAATAAATTTTTTAAGGAGAGTATATGTTTTTTGATGTTTTAAAGAAAAAATTAAATGCGAAAGATGAAATTCTTTCAGGATTAACAGTTGCATTAGCATTAATTCCAGAAGCTATTGCATTTTCATTTGTAGCAGGAGTTTCACCTTTGGTTGGACTTTATGCTGCGTTTATTATGGGACTTATTACTGCTGTTTTTGGTGGACGACCAGGTATGATTTCAGGAGCTACTGGCTCTATGGCAGTGGTATTTGTGGCTTTAGTTAGTACATATGGGACACAATATCTATTTGCAACAGTGATATTAGTTGGTATAATTCAAATTTTAATTGGTGTTTTTAAATTGGGTAAATTCGCAAGAATAATTCCACATCCAGTTATGTTAGGATTTGTAAATGGATTAGCCATTGTTATTTTTAGAGCACAGCTTGGACAATTTAAAGTTGATGTTAATGGTAAATCAATGTGGATGACTGGTTCAACTTTATATATAATGTTAGGATTAGTAATTTTAACTATGTTAATTATATATTTTTTGCCAAAATTAACAAAAGCAGTTCCTTCATCTTTAGCTGCTATTATAACTGTTACTTTAATTAGTCTTTGGTTAAGTAAATCTGGATTTAATATCCCAAATGTAAAAGATTTTGCAAAAGGTGGAATTTCTGGGGCTTTTCCTCAATTTAGTTTACCAAAAGTACCTTTTAATTTAAAAACATTGGAGATTATCTTTCCATTTGCTTTGACAGCTGCTTTAGTTGGACTTATTGAATCTTTGCTTACATTAACTTTGATTGATGAGCTTACAGATACAAGAGGACGAAGTAATAAAGAGTGTATTGGGCAGGGTGCTGGAAATATGCTTTGCGGAGTATTTGGTGGAATGGGCGGTTGTGCTATGATTGGGCAAAGTATTATCAATGTAACCTCTGGTGGAAGAAAAAGATTATCTGGAATAGTGGCAGCTATTTCATTACTTTTATTTGTAATGTTTGGCTCTTCGTTAATTGAAATAATTCCATTAGCTGCATTAGTTGGAGTTATGTTTATGGTTGTAATAGGAACTTTTGAATGGGAGTCTTTAAAATTAGGAAATAAAATACCTTTAAAAGATGTTATTGTTATAATTATAGTTATGATAATAACAGTTGTTCATGATTTAGCTCTTGCCGTTATTGTGGGTGTTATCCTTTCAGCTTTAATATTTGCTTGGGAAAAAGGGAAACAAATATCAGCTACTATTTTTATGAGAGATGATGGAATAAAAGTATATAGATTAGACGGTCCATTGTTTTTTGCTTCTGCAACTTGTTTTAAAAATATATTTGATATAAAAAATGATCCAAAGGAGATAATGATTGATTTTAAAAACTCACACATTATGGATCATTCAGCTATAGAAGCTATAAATTCAATAACAAAAAAATATAAAGAAAACAATAAAAAGCTTCATTTGAAACATTTGAGCCCTGATTGTTTACAATTATTAAATAACGCAGAAGAAATTATTGATGTAAATATTTTAGAAGATCCTAAATATTACATTGCAGATGATACTTTAGCATAAAAGAAGAGACTACTGAAAAAGTGGTCTCTTTTTTGGATTGGGTAGAGATAGGTTAAAATGATAGGGATTGTATGAAAATCTTATCGTCCATAAAAACAAATATTCGGCGGCCATCCTAATCGCCTACAGTAAAATATTGGGCAAAAAACCAAAAAATATGGTATAATATTTAGAAATTGTTGCTTTGAGGAGGGATTTAATTTATGAAAAGTAATTTTGAATTTTTGATTGCAGATTGGCCAACTTTAGCCAATTTAGGAGAGTTTGCAGAAAAGAATTTATTTATTGATTCAAATACAACATTGATAAAATTAAGAGTTTTAGCAGAAAATATAGCAAAATTAATAATTAAGGAAGAAAATTTAATTGATCCTGAAAGCAATAATCAAATTGATAGATTAAAATTGTTAAAAAGAGAAGATTTACTAGAAAGAGAAATTGAAGAAATTTTTCATAGTTTAAGAATAATAGGAAACAAAGCTACTCACGAAGGATATTCTTCATTTGATGATGCAGATACTTATTTATCAATGGCTGTTAAATTGTCTGCTTGGTTTAAGGAAGTTTATGGAAGTGATTTAACTTTTGATTCTGAAACAACAATTTATAAAACACCTGAAAAATTTGAATTAACTTCTGATTATGAAAAACTAAAAAAGGAAAATGAAAAATTATCAAAAGAATTTAATGAATTAAAAGCAGTAAACAGATCAATTAGAAATAAAGAAGAAAAGAAGATCATCTCAATTAAAGCTGTACAGAAAATTAAATTTGATGAAAAAGAAACAAGAAAAATTATTGATGAACAATTAAAGAGTGTAGGGTGGGAAGCTGATAGTGGAAATTTAAGATTTTCAAAAGGAACAAGACCAGAAAAAGGAAGAAACATAGCTATTGCAGAGTGGCCAACATCGAAGATGAGAGTTGACTATGCACTATTTATTGGCTTGGAGTTTGTAGGAGTAATAGAAGCCAAAAAGAAATCAACTGATGTAATATCAGTTTTAAATGAATCAAAAATCTACTCTGAAAAAGCAAGAATTATAGATAATGAAAAATTTGTAAAAGGAGCACCTTTTAATAAATATAATATTCCTTTTATGTTTGCAGCTAATGGAAGAGAATATAATAAAACAATTGAAGAAAAATCGGGCATCTGGTTTTTAAATGGAAGAAAACCTACTAATCACCCAAAAGCATTAAAAAATTGGTATTCTCCACGTGATATTGAGGAATTATTAAGTAAAAATATTGATGACGGAAACAAGAAACTTGAAGAGGAACCTTTTAATTATTTGAAATCAAAAGAAGGTTTAGGATTAAGATATTATCAAGTAGAAGCAATACAAGAGGTAGAAAAAGCAATTGTAGAAGGAAAAGATAAAATATTGCTTACAATGGCAACTGGCACAGGAAAAACAAGAACTGCAATAGCTTTAATTTATAGATTACTAAAAAGTGGAAGATTTAAAAGGATATTATTTCTAGTAGATAGAGCAAGTTTAGGGAATCAGGCAGGAGATAGCTTCAAAGAAGCTAAAATGGAAGATTTACAAACTTTTGCACAAATTTATGATGTAAAAGAAATAAAAGATAAAGAGCTTGAAGATACAACAAAAGTACATATTGCAACAATTCAAGGATTAGTAAGAAGAATTATATATAGTAATGATAATGAATTAAAACCAAGTGTGGGTCAATATGATTGTATAATTATTGATGAAGCACATAGAGGTTATATTTTAGATAAAGAGATGGAAGAAGAGGAAGTGAATTTTAAAAATCAAAATGATTATGTAAGTAAATATAGAACAGCTATAGAGTATTTTGAGGCAGTTAAAATTGGATTGACTGCAACTCCCGCATTGCATACTGTAGACATATTTGGACATAGTGTTTATGAGTACAGTTATAGACAAGCAGTAATAGATGGAAACTTAGTTGACCACGAACCACCTGTAATTATTGAAACAGAGTTAAATACAAATGGTATGGTTTGGCAAGTTGGAGAGGAAGTATCTGTTTATAATAGAAAAGAAGGGAAAGTTGAAAAAGAAAGACTAGATGATGAATTAAAAATAGAAATAGAAGGTTTTAATAGAAGAGTAATAACAAAAAATTTTAATAGAACTGTTATAAAAGAATTAGTAAAATATTTAAACCCAGAATCAGAAGAAAAAACATTAATATTTGCAGCAACAGATGAACACGCTGATATGATAGTAAAAATATTGAAAGAAGAATTTGAAGAATTAGGTTGGGAAATATATGATAATTCTATTCAAAAAATAACTGGGTATCTTGGAAAAGGACAAGAAGAAGCTATCAAAAGATTTAAAAATGAAAAATTGCCTAATATTGTTGTAACTGTGGATTTACTTACTACAGGAATTAACGTACCTGAAATATGTAACTTGGTATTTATAAGAAGAGTAAAATCAAGGATTTTGTATGAACAAATGATAGGGAGAGCAACAAGATTATGTGATAAAATAGGGAAAACTCATTTTAAAATATTTGATACAGTTGGAGTATATGATTCGTTAAAAGATTATACAGATATGAAGCCGATAGTACAAAATCCTAATCAAAATTTTGAGAAAATGATAGGTGAAATAGAGTTAATAGAAAAAAAAGAACATTTAAATAAAAAGAGAGAAGAAATCATTGCAAAAATACAAAGAAAAAAGAAATTAATTGAAAAACAGGAGTTAGAAGAATATTTTAAATTGAAATCAGGAAATAAAACACCAGAAGAATATATTGAAGAAATAAAAAAGATGCCAGTAGAAGATGCAACTAAAAAATTAATGGATGATATTGAACTATTTAGATATTTAGACACAGTAAAATATTTACCTCAAAAACAATATATTTCGAATCATAAAGATGCAATAATTGAAGTGAAAAGAGGATATGGGAAAAAAAATAAAAAGCCAGATGATTATTTGGAATCTTTTAAAAAGTTTATAATTGAAAACAGTGATAAAATTGAAGCTCTGAAATTATTAAAAACAGCACCAACTAAAATAACTAGGCAACAATTAAGAGGGCTTAAATTAATACTTACAGAAAAAGATTTTTCAGAAACATATTTGAACTCTGCATATAAGGATTTAAAAAATGAAGAAATATTAGCAGATATAATAAGTTTCATAAAAAACGCTATTGATAATGAACCGTTAATAAATCATGAGGATAGAATTAAACTTGCAGTAAATAAAATCAGACAAAAAAAACAGTGGAACGCTTTACAAAAGAAATGGTTAGATATAATAGAAAAACAGTTGTTAGTTGAAAATATAATGCAAAAAGAAGATTTTGATAAATCAGCATTTAAAAATCAAGGTGGATTTAAAAAGATAGATAAAATATTTAATGGAGAATTAGAAAGTATAATAGATGAATTAAACAAATATTTATTTAATATTTCAGCATAGGAGGATTTTATGGGAACTGTAGAAATAGTACAAAAATTATGGAATTTATGTAATGTTTTGCGAGATGATGGGATTACTTATCATCAATATGTTACTGAACTTACTTATATACTTTTTTTGAAGATGATGAAAGAAACAGGGCAAGAAGAAATTGAAAGAAAAAATGGTGATATAGAAGTTAAAATACCGGAAGGTTATAGATGGGAAAATATCACAAAAGAATCAGGAATTGAGTTGATGAAAAAGTATAAAAGTATACTTAGTTACTTGGGAGAGCATGGAGAAGGTAAAATTAAATATATTTACAATAAGGCAAATACAAATATTGAAGAACCGAGAAACCTTGAAAAAATAATAAGAGAAATTGATAAACTTGATTGGTATAATGCAAAAGAAGAAGGGTTAGGAAATCTGTATGAAGGTTTATTACAAAAAAATGCTGAAGAGAAAAAATCAGGTGCAGGGCAATATTTCACACCAAGAGTTTTAATTGATGTAATGGTAGAAATAACAAAGCCTGAGATTGGAGACAAATGTAATGATCCCGCTGCTGGAACTTTTGGATTTATGATTGCTGCTGATAAATTCTTAAAAGAAAAGACAAGTGATTATTTAGAATTAGATGAAAAAAAACAAGAATTTCAAATAAAAGAAGCATTTTCAGGTTGTGAACTTGTAAGCGATACTCATAGATTAGCTCTTATGAATGCAATGTTGCATGATATTGATGGCAATTTATTATTTGGGGATACATTATCTAGTCTTGGAAAAAGTATGAAAGGTTATGATGTTGTTTTAACAAATCCTCCCTTTGGAACAAAAAAAGGTGGAGAACGACCAAGAAGAGATGATTTACCTTTTATTACTTCAAATAAACAGTTAAACTTTTTACAACATATTTATCGTTCTTTAAATACTAATGGAAAAGCTAGAGCAGCGGTTGTATTACCTGATAATGTTTTATTCCAAGATGGTGATGGAATGGAAATAAGAAAGAATTTATTAAATAAATGCAATCTTCATACAATATTAAGATTACCAACTGGAATATTTTATGCACAAGGTGTAAAAACAAATGTTTTATTCTTAACAAGAGGTGTAAATGATAAAGATAATACAAAAGAGGTTTGGTATTATGATTTAAGAACTAATATGCCTAACTTTGGGAAAACTAATCCATTAAAAAGAGAACATTTTAAAGATTTTGAAGAAACATTTATTAATCATAAAAGTGATAAATGGACAAAATATACAATAGATGAGATTAAAAATAAAAATTATAATCTTGATTTAGGATTGCAAAAAGATGAAAATCAAATTGACCATGAGGACTTACCAAATCCAATCGAAAGTGCAGAAGAAGCAATAGTAAAACTTGAACAGGCAGCAGATTTACTTCAAAGTGTTATTAAAGAACTTCGTTTAAGTGGAGTAGAACTATAATGGGAACTATAATTGATAATATAGATTATAAAAACTGGATAAGTAATTTAAAACTAAAGTTTAGAAATTCACAGATAAAAGCAAGTATTTCTGTAAACAGAGAGCTTTTAAATTTTTATTGGGAATTAGGAGAAGATATTACCAATATGCAGTTAAAGTATAAATGGGGAAGTAATTTTTTAAAAAATTTGAGTAGTGATTTAAAAAGAGAATTCCCTGAAATAAAAGGTTTTTCAGAAAGAAATCTCAAATATATAAGGCAATGGTATTTGTTTTGGAATAAAGATGAAATTGGGCAACAAGTTGTTGCCCAATTAAAAACGATACCTTGGGGAAGTAATATTGTGATAATTTCAAAATGTAATAATATAGAAGAAGCAACCTTTTATTTGAATAATATATTGGAAAATGGATGGAGTAGAAGTGTTTTACTTCATCATATTAAGAGCAATTTATATAAGAGGGAAGGAAAAGCAATTACAAATTTTAAAGAGACACTACCTGAAATTTATTCTGATTTAGCCAATGAAACATTAAAAGATCCTTATAAATTTGATTTTCTTAATATAAGTAAAAAATATAGTGAAAGAGAACTTGAAAATGCTCTTGTGAAAAATATTATGAAATTTTTACTTGAGCTTGGGAAAGGATTTGCATTTATTGGGAATCAATATCATTTAGAATTGAGTGGAAAGGATTATTATCTTGATTTGCTGTTTTACCATATAAAATTAAGATGTTATGTAGTAATTGAATTGAAAGTGGGAGAGTTTAAACCTGAATATGCAGGTAAAGTAAATTTTTATTTAACTCTTGTTGATGAAAAATTAAAAAATGAAACTGATAATCCTAGTATTGGAATTATTTTGTGTACTTCAAAAGATAAAATCACAGCAGAATATTCATTGAGAGAGATGATAAAACCAATAGGGGTAAGTGAATATGAGGTAATAGAAAAATTACCGAATGAGTTTAAAGATATTCTGCCTACAATAGAAGAATTTGAAGAAGAGTTTAAAAAGATAGAGTTGGCAGAAAAGGAGACAGAGTATGGCGAAGAAGAATAAAGAGAAAAAAAGTATAGATGAATTATTGAAAGAGGCATTGATCCCAGAAGAAGAGCAGCCTTATGAGTTGCCTGGAAATTGGGCGTGGGTGAGATTAGGAAATATTATTAATTTAATTTCTGGGCAAGACGTTTCAAAAAAATTGTGTAATGAGAATAAAATAGGTATTCCGTATATAATGGGTGCAAGTAATATGGAAAATGATAATTTACTTATTGAAAGATGGATAGAAAAGCCAAAGATTATTGCAAATAAAGGAGATATTATATTAAGTGTAAAAGGTACAGTAGGTAAATTATTAATTTTAAAAGAAGAAAAAGCAAATTTGAGTCGTCAAGTAATGGGAATAAAATTAAAAAATGATATAGATAATATATTTATATATAGATTTTTTCAAAGTTATATTGAAGAGTTAAAAACTAGAGCCAAAGGTTTAATTCCTGGAATAAATCGAGATGATATTTTGGAAATAAAATTTCAGCTTCCGCCGTTAGCTGAACAAAAAAGAATAGTTGCAAAACTTGAAGATATGCTTTCAAAAATAAAACAAGCAAAAGAACTAATTACAGAAGCAAAAGAAACTTTTGAACTTCGTAGAGCAAGTATTTTACATAAAGCTTTTACAGGAGAATTGACTAAAAAATGGAGAGAAGAGAATGAAACTGAATCAGTTGATAAACTTCTTAAAAAGATAAATGAAGAAAAATTAAAAAAATGGGAAGAAAAATATAAAATAGCAGAAAAAGAAGGAAAAAGAAAACCTAAAAAGCCTGAAATTAAATCTGTTGAAGAGATGAAGGTCTATGGAAGTGATCAGCCTTATGAATTGCCTGATGGGTGGTGTTGGGTTATGTTGGGGGATATTACAGAATTTAAGAACGGTTACGCATTTAAAAGTAAATTTTTTACACAAGAAGGGTTACAGGTAATAAGGATGGGGAATTTATATCAAAATTCACTTAATTTGGATAGGAATCCTGTTTTTATGCCTTTATCTTTAGATGAAAAAATAGTTAATAAAACAAAATTGAAAGAAAATGATATACTATTAACTTTAACTGGAACAAAATACAAAAAAGATTACGGTTATGCCATAAAAATTAATAATTTAGGTGAAAGAATGTTATTACTTAATCAAAGAATTCTTGGAATAACTACAATTGATGAAATAAACACTTTTATATTTAGATATTTATATTCAAATATTTTTAGGGATAAGTTTTTTAGTTTTGAAACCGGTGGAGTTAATCAAGGAAACGTAAGTTCAACAGCAACGGCAACCATAGGAGTTCCGTTTCCATCACTTAAAGAACAAACAGAAATTATTCGACAGCTTGAACAATTCTTTAGAACAGAAGAAGAAGCAAAAGACCTTCTTGAAATGGAAGAACAAATTGATTTACTTGAAAAATCAATTCTATCAAAAGCATTTAGAGGAGAATTAGGGACAAATAATCCTGATGATGAACCTGCTATTGAGTTGTTGAAGAGAGTATTGCAGGAGATGTCTTGTGAGAATTAAAAGTTTATTGAAAAATTTACGAAAAGATGCAATTGAATCTTTTATTGATGAAATTCCAAACGCAGAAGAAACAGAAATATTAATCAATGGATTAAAAATAAAGTAAACGGTAAATTTGAACCATTTTGTAATGCAATAGTAGGATTTTTAAAAACTTTTATACCGCAAACATGACTAGCCCACCGTCCTAGTGGGATTCTGTTTTAATGGGCGGTTAAATCTAATGAAGTTTGTTCTAAATAAGTTGTTTAAAATTTCATTTAGGCGAAAAAATTAGTAGGAAGATAAAAGATATCAAAATTTTAACATTTGATGAACTATTCGACAGAGCTAATTTTATAATTAATCAAAAATAATAGGAGGTCCAATGAATATTTTCGAAGCATTAAGTCAAGGAAATGGTCAAATATCAGAAACTAATATTACATCATTTTTAAGTTTTTTATTGAACGAAACAAATGATTTCGGAAATGCATTTTTAATTCTTTTTTTAGAAAATTTAAAAGATATAGAGAAGTATGTAGATATAAGTGGAGATACTTTTAGGAAAAAAATTCAAAAATTTAATAAATACTATACTTTTTCAGCAATTCCAGAAGTAAAAATTCAGTCCAATAAAAAATTACGAATAGTTGATATAGTATTATCAATATCCAATAAGGCAGATGAGGAAGATATTATATATATTTTAATTGAAAATAAAATAAAAAAATCAGCTATTAAAAAGGAACAATGTTTAGAACAAATAGAAGTATTTAAAAATTGTGAAGATTTTCAGAAAAATGTTCCAATTTTTTCTGTACTAATTACCCCACCAGAAAAAGCTTATGAGAAAATATATAATAATACTTCAAAAGAACACCATAATAGCTTTTGGTTAAGTTGGACTGATAATTCTATTAATTTGATTTCGATAGAAACTATGATCAGGCAATTGATTGTTTTAGAGAATAATTTAGAAATTGCTCCAATTAACAATATTTCAAAATATATTTTAAAGTCATTTGTCGAGTATATTGCCAATGAGCTATCAGAGAAAAATAAAAAATTTAATTTTAGTATACTAGGAGCAAATGTAGTTGAATATGCTTATTTTATTTTAAATTCAAAAACATATATTTTAAAGAGATTTAATAATAAAATGATAAGAATTTATGATGAAGATAATAATTTATTAGATGAGCAAGTAAAACCAATTTTGAGAAAAATTATTAAAAGCTATAACCTAAATATAAGTCTTGATAATAAAGTTACCCAAAGATTAGGCCGAGAGGTAATAAGAGGCTTAAATAAAATAAATTAAGTTTATTTGTTTGGAGTTATTTAACAAAAGGAAATCCAGCATACACATTAGTGCAGGTTGCCATAAATGATATAATTATACTTTTTGCATTTACACCAATTGTAGCAGTTTTACTTGGAATCAGTAATATAAAAGTTCCTTATGCAACACTATTTTTATCAGTTATACTGTTTGTTATTGTCCCATTTTCAGCAGGTTTTATAACAAGAACAACAGTTATAAAAAATAGAGGATTAGAATATTTTGAAAAAAGTTTTTTGCCTAAATTTAATAATATAACAATAACAGGTCTTTTACTTACTTTGGTAATTATATTTTCATTTCAAGGAGATATAATAATTAAAAATCCAACACATATACTATTAATTGCAATACCTCTTACTATATAAACTTTTTTAATCTTTTTATTTGCATATTTATGGGCTAAATTATGGAAATTACCTCACAATATTGCTGCACCTGCAGGGATGATAGGAACAAGTAATTTCTTTAAATTGGCAGTTGCGGTTGCAATATCTTTATTTGGATTAAATTCTGGAGCGACTCTTGCTACAGTAGTTGGAGTTTTAGTAGAAGTTCCTGTAATGTTGACTTTAGTTAAAGTTGCGAATAAAACTATTGGATGGTTTTATGAAGATGTTTTAGAAGGATATGGATTTGAAAAATAAAGGATATACAAAATATAAAAAAATTGGTTTAACCTTTATTTCAGGTATAATTGAATATAAGATAAGAAAAAGTACACTTTTTTTAAAAGCTAGTTTTATGAAAAAAAGAATAATATGGATATACAAATGCCTGTATTGAATGGAATAGAGGCAACAAAAATAATAAGAGAAAATAAAAAATATAACAAAATAATAATAATAGGAGTTAGTGCTTTTGCATTGGAAAAAGAGATAAATGAAGCAATACAATTTGGAATGGATGATTATATTGTAAAACCGTTTAAAAAATAGGATTTAGTAGAAAAAATAAAATATTGGGCAAATTAGAAACAAAAGTGTGATTAATTTAATTAGAATTAAAGAAGTATAAAATAAAAGCGATAATTGTACTAATAAAATGCTATAATTTAACTATAATTATACTACAGTTAAATTATTCTTAGAAGTAGAAATAGAAAAAGATAAAACAAGTATGAATTGTAATAAATTATTATGATGTAATAAGTAAAAAAGAGTATAAAGAAATTGATGACAAGTTTATTATAAAATTAAAACCATATGAATATTTATGGTCAAAGAACGTTTAAAAATAAGATTTTTATATTTTAGAATAAAATAAGTTAGAATAAAATAAAAAAATTATTTTTAAGCTATTCCTAAAAAAGATTAAGATTTGGAGGAGGAGCATTAGCTTTTTTAAATTCAGAATTAAAATCAGGAATAGATATTATATTTGATAAACTTAGCATAGAAGAAAAAATAAAAAATGCTAATGTGATAATAACAGGCGAAGTTAGTAAAGTATAAATTTATTCAGAAAATAAGCTACGCCGTTTTTTGAAATATGCAATTTTTCAAGGCGAAATTTTTCAGAAGCCAAAAATTTAGAAAAATATTTATACTCTACCAGATGAAGCGTAGCTTATTTTTTTAGTTGTCATTTATTAATTTTATAGTTTCTCTGAAAAAGACAGATTGATTAATTTTTTTGTTCAAATGATTTATCATAATTGTTCTTTGAATAACTTTTAATTCATATAAGCTAATCTCTTTATCTATTAATTCGTTGCAAACAGCTACTCCTAACAATTTATCTTCAAAATAAATGTTAATTTGAGATACTGATAATGGATTATATTCAATTGATATATTTTGATTATTATATTCACTTAATACTGGAGAAAAATATATCAAATTATTAAATCTTACTCTACTGTCTATAACTTTTCGCGTACTTGGTGATTTTACTAATAAAAAATTTAACTCTTTTTCACTTTCAGATTCTCTAAAATTTTTAATATTCTTTTCCCATTTATCATAAAATTTGTTATTGTTCAAATCTGTGATATATTTTTCAACAGATTCTTTTAATGAATTATAATCAAAAAAATCATATTTTTTAGATATTTTTTTTATATGATTTTCTAATTTTGTAAAAAAACTTTGGAAAGAACTTTCTTCATTTGTTACGATTTTAATTTTAATAGGTAAATTTTTTTCCAAATCATATAATTCAATTTTTGGTGTTATTTTTATATTATTAATAAGAAAAGTTTTAGGAATTCCATATATATTTTTATTAGTAAAATTTTTCTTTAAAATAGCTTTTCTAAAAATCAACTTTATTAATTCTAAGTCAGCTTTTTTAAAAGATATAGAAAAAGTAACTATAGCGTGTGAAAAAGAATCAAAAATTATATTTATATATGGAGTTAAATATTCATCTGTTAATTCATCTAAAACCATTATATCGAGCGAAACAGAAAAAAATTCAAATCTATCATTGGAGTGAGTAACCGATGAAAGATCAGCATATTTTTTTACAAATGGATCTAAATTATTTACAATTCTATAAACTGTATCATATGAAATATTTTTTTGATTTTTTGAAGTTAAAAACTCTACTGCGTTTTCATAAATATTTAAAATATTTTGATTAGGATTTTGAAAATACAGCTTTTTTATATAGTTAATTCCTTCATCGTTTAAACTTCTATGTTTGTTTTTATCAGATCTATTTGCTTTTTTTAATCCATCTTTTCCATTTTTTTTATAATTATTGACCCATCTTTTTAACGTGCTATATGGTATTCCATTTTGCTCACTAATCTCTTTTAATTTTTTCTTTTTTTCGAGAAAAGGCTTAATAATTTCAAATTTATTTTCTAAATCGATTTTTTTACCCATAGCCCAATTCCTTTCAATAGTATTATATAATATATATTATATAATACTATAACGAAAAAGTAAAGAAGAAAAAAAGGCTCATTTTTTTTCAAAAAAGGTTGACAAAAGAACTCAAAAGTGGTATAAACTTATCAATGGATATATTTTAATCTACATTCGGTTAAAATTAAAGCGCTTGCCTAGTGCACGAGGCAAGTAAAGTCGTACTTGTGCAGGACAATAAAAGTATAACATTTTTTAAGGAGGATTATTATGAAAAAAAGAACAGTAGAAATTACAAACGAAACAGGTTTACATACCAGACCGGGAAATAAATTTGTGAAATTAGCGAAAAGTTTTGAAAGTGAAATATTGGTGTCTAATGAAAGTGGAAAAGAGGTCAAAGGAACATCTTTATTAAAACTTTTGTCACTAGGAATGAAAAAAGGCTCTTTGATAACTATAGTTGCAAATGGAAAAGATGAAGATAAGGCTGTGGAAGAATTAACAGATTTATTAGGGAATTTAACTGATTAAAAAAAGGAGGACAAATGGAAACAAAGATAGTTGAAGGAATAGGTGCATCTCCCGGAATAGCAATTGGAGAAGTTTTTATTAATGATAATTTAGAACCTATTATTAATCTTTCTAAAATTGAAGAGGATGATATTGAAAGAGAAATAGAAAATTTAAAAAAAGCTCAATTAGAAACAAAAAAGCAACTTTTGGAAATTAAGGAAAAAACTAAAATAAATTTTGGGGAAGAAAAGGCAGAAATATTTGAAGGGCATATAACTTTATTAGAGGATGAAGAATTTTTTGATGAAGTTGTGGAAAAAATAACAGATGATAGAATAACAGCTTCAAATTCGTTAGAGCAAACAATGAAAGAATATATTGAGATAATAGGAAATCTTGATGATGAATATTTAAGAGAAAGAGTTGCTGATCTATATGACATTTCAAAAAGATGGCTTCTCAATATTAATGGCGGCGAATCATTAGAAACAAAAATAGAAGATGAAAATATAATAATTGTATCTAAAGATTTAACTCCATCTGACACTGCTCAGCTTGATTTATCAAAAGTAAATGGATTTATAACTGAAATTGGTGGGCAAACTTCTCACTCGTCTATTATGGCAAGGTCTTTGGGATTGCCTGCTGTTGTGGGAGTAACTGGAATTATTGAAGAGATAAAAACTGGAGATTTGGTAATATTAGATGCAATTAACGGGAAAATATTTATTAATCCAAATGATGAAAGATTAGAAGAATATAAGGAAAAAGAGAAAATATTTTTAGAAGAAAAAGAAAAAATATTACAATTAAAAGATAAAAGTGCAACAACAAAAGATGGATACAAAGTTGATTTGTGGGCCAATATAGGAAATCCTTCAGATGTAAAAGCTGCAGGTGAAAATGGAGCAGAAGGTGTCGGATTATATAGAACAGAATTTTTATTTATGAATAGTAAAGAGCTTCCAACAGAAGAGGAACAATTTAAAGCATATAAAATTGTAGCAGAAGAGATGAAAGGAAAACCTGTAACAATAAGAACTATGGATATTGGCGGAGATAAGGAATTGCCATATTTAGAATTGCCAAAAGAGATGAATCCGTTTCTTGGTTGGAGAGCTATACGAATATCATTAGAAAAAAGAGATGTGTTTAAAACACAATTAAGGGCAATTCTTAGAGCCAGTGCATTTGGAAATATAAAAATAATGTATCCAATGATAATATCTATTGGAGAAGTAAGAAAAGCAAATACTATATTGGAAGAGTGCAAAAATGAACTTGTTGCAGAAAATATTGAATTTGATAAAAATATAAAAACTGGAATTATGGTAGAAACTCCAGCTGTAGTATTAAAAGCGTATGAAATAGCTAAAGAAGTGGATTTCTTTTCCATTGGAACTAATGATTTGACACAATATTTATTAGCAGTGGATAGAGGGAATGAAAAAATAAGTTATCTTTACTCTACTTTTAATCCAGCAGTATTAAAAGCAATATCTATAATAATAAATGATGCTCATAGAGCAGGAATAACCGTAAGTATGTGTGGGGAATTTGCAGGGGATGAAAGGGCAAGTGCCATATTAATTGGATTGGGATTGGATGCGTTCTCTATGAGTGCGGGATCTATATTAAAAGTTAAAAGAAATATAATGAGCTTAAAAAAAGAAAGCTGCGAAAAGATAGCCAATGAAGTATTGCTATTAGATACTGATGATGAAGTTGTGGAATATGTAGAAAAAAATCTTAAATTAATATAGAGAAGGGAGAAAAAAATGGGATTTTTTAATAGAATGTTAGGGAAAACAAAAGAGATAGAAATATATTCTCCAGTAGATGGGGAGATAATAAATTTATCTAATGTTCCAGATGAAGCGTTTGCATCAGGAGCTATAGGGGATGGAATTGCAATCAATCCAAGTGGAAAAGTGATTTGTGCTCCATGTAATGCAGAAGAAGTTTCAATATTTGAAACAAATCATGCTGTTTCTTTTGAAACTAAAGGCGGATTAGAGCTTATTGTTCATTTTGGAGTTGATACTGTAAAATTGAAAGGAAAAGGATTTGAAAGAGTTGGAACTGATGGAGAAAGTGTTAAAAAAGGGGATGAATTAGTTAAATATGATATTGATTTTTTGAGAGAAAACGCTGAGTCGGTATTAACACCAGTAATTATATCTAATATGGAATTGGTGGATTCTATAGAAAAAAGTACAGGGAAAGTTAAAATAGGGGATTTAATAATGAAAATTAAATTAAAAAATAGTTAAGTTGCTATGTATTTTAAAGCAAAGTGAAATGTTATTTTTAAGATATTCTTAAATAAAAATTAGGAGGGAAAAATATGAATTCGTTTAGTAAAGTTCAACAATTAGGGAAAGCTTTGATGTTACCAGTGGCAGTATTGCCAATAGCAGCAATTTTATTGAGATTTGGTGTGTTGTGGCATATGAGTTTTATGCAAGCTGGGGGAGATGCAATATTTAGTAATTTAGCATTGATTTTTGGAATAGGTGTAGCTGTAGGATTAGCAAAGGATAATGCGGGAGCGGCAGGATTAGCAGGAGCAGTTGGTCATTTAGTGTTGGTAGCAGGAACAAAAGCTATAAATCCAGATATAAATATGGGGGTCTTGTCAGGTATAATTGGTGGTATTGTAGGAGCTGCTATGTATAATAAATATCATAAAATTCAACTTCCAGAATGGTTAGGATTTTTTGGTGGAAGAAGATTTGTTCCCATCGCTACTTCGCTTGTAACGTTAGCAATAGCATATGTATTTGGATATGTTTGGCCAATAATTCAAAGTGGAATTGATTTTGTTGGAAATTGGATGATGACTTCTGGACCAGTTGGATTATTTACTTTTGGATTTTTAAACAGACTATTAATACCGTTAGGACTGCATCATATATTGAATAGTATAGCTTGGTTTGTATTTGGAAGTTTTGATTATATTAAAGAAGGAGCAAAACTTGTAGCTCATGGAGACTTAAATAGATTCTTTGCAGGAGATCCACATGCAGGTATATTTATGGCAGGATTTTATCCAATTATGATGTTTGGGTTACCAGCAGCGGCAGCAGCAATGTATACAGCAGCAAAAAAAGAAAATAAAAAAGCAGTTGCAGGTATGCTTTTTAGTGTGGCTTTTACTGCGTTTTTAACAGGAATAACAGAACCAATAGAATTTATGTTTATGTTTTTAGCACCAGTATTATATTTTATCCATGCTGTATTAACTGGAGTATCAATGGCAATTGTGGGAAGTATGGGAATATTACATGGATTTGGATTTTCTGCAGGACTTATAGATTTTCTCGTTAATATGGGACTTGCAACAAAAGGATGGTTATTGATTCCAATAGGATTAGTGTTTGCTGTAGTTTATTATTTCTTGTTCTTAGGTTTTATATTGAAATTTAATATCCCAACTCCTGGAAGAGAAGGAGATGAAGATATGATAGATAATGGAGTGGCCGATACCTCTGAATTAGCAGCTAAAGTTTTGGAAGCTTTAGGAGGAGGACACAATCTTACTTCTGTAGACTCTTGCATTACAAGATTGAGACTTGAAGTTAAAAATAGAGATATTATAGATGAAAAAGCCTTGAAGGATTTAGGAGCAAAAGGAGTTTTAAAACCAGGTCAAACAAGTGTACAAGTTATATTTGGGGCAAAAGCAGAAATAATCGCACAAGAAATAAGAAGTTTAATATAAAAAATTAGAATTGTTAAACATAGTTTATTCATTTTAAGACTCGCCTCCCAAAGGATAGTTTTTTGAAATTGTGTTGCTATATGTAGCTTTAGAGATTTAAATACTACATATAGTGACATCAAAAAATAATATTAAAAAACAGAAAAGTAATTTGAATATTTATAAAGTTTATTAATGGAAGCTCCCTTGTTGATTTTAGCAGGGGAGCTTTTGTTATGGAGATAAAAATGAAAAGTCGGCGGAGCATCGATAAGTTAATAAACTTTAATTTGTTTCAATTTAAATTAAAAATAAGCTATAACTTCTTATAAGGAATAAATTAATTATATTAGTTTAAACTACCATATATAAAGCTATATAGATAATTTTTCGGTTAAAAATCATCCAAATAATTAAATTTAGTTAAATTAGTGTTGACATTTTGCGCAAAATATGGTATTACTTATATCAAGAAATTAATTTAAGTAACTTTAATTATAGTTGCGTGATGTAGGGATGTATGTTTGTCTTTTGTAAGGGCAATTCACGAATTGCCCCTATTAGGGTAAGAATATAGCAAAAAATAAAATAAAAATTTAAGGAGGTACAAAATGAAAGGATTAAAATTTGTTGTAATTGGTGGTGGAAGTAGTTATACTCCAGAGCTTGTAGAAGGAATTATAAAAAAAAGAGATACTCTTCCAGTAAGTGAACTTATATTAGTAGACATTGAAGAGGGAAGAGAGAAAGTTGAAATAAATTATAATTTAGTAAAGAGAATGTTTAAAAAAGAGAAGATGCAAACAAAAATTAGTTTTACGTTAGATAGAAAAGAAGCTTTAAAAGGAGCAGATTTTGTTTTATCTCAATTTAGAGTTGGAAGATTAGAAGCTAGAGCTAGAGATGAAAGAATTCCATTAGAAAGAGGATTTGTGGGACAAGAGACAACAGGAGCTGGAGGATTTGCAAAAGCATTAAGAACAATTCCAGTAATATTAGATATTTGTAAAGATATAGAAGAAGTGGCAAAAGATGCTTGGCTTATAAATTTTACAAATCCTGCTGGAATAATAACAGAAGCTGTAAACAAATATAGTAATGTAAAAGTTATTGGATTATGTAATGTACCTATTAATATGAAATATGATGCAGCAGAAGAATTAGGAGTCTCTGCAGAGAAAATAAGAACGGAAATTATGGGATTAAACCATTTGAGTTTTGTAACAAAAGTAATGTTAAATGGTGAAAATAAAATTAATGAGATATTAAAAGGAAGTAAACTTGACGGAAAAGATACTATGAAAAATATAGAAAAAATAGATGATTTTGAAGAGTATAATAAAAAAATAGGGTTAATTTCATCTCCATATTTACAATATTTTTTCTTTCCAGATAAAATGATAGAGAAAGAATTAAAAAATATAAAAGATGGTAAAGGGACAAGAGCAGTACAAGTTATGAAAATAGAAAAAACATTATTTGAAAAATATAAAGATGTTAAATTAGATATTAAGCCAAAAGAATTAGAAGAAAGAGGAGGAGCAAGATATTCAGAAATTGCAATAAATTTAATTGATAGTATTTATAATAATTTAAATAATGAATATGTTGTGAATGTAGTTAATAATGGTTCAATTGTAGATCTGCCAGAAAATGTAGTAGTGGAAGTAAACTGTATAGTTAATAATGAAGGAGCAAGACCTTTACATATGGGACATTTACCAAAATCTGTAAAAGGATTAATTCAACAAGTAAAATCATATGAAGAATACACAATAGAAGCAGCAGTTGAAGGAAATAGAGAAAAGGCATTAATAGCACTTATTAATAATCCTTTAGTAAGAAATGTGGATAAAGCAGAGGAGTTATTAGAAGAAATATTAAATCAAAATAAAAAGTATCTTTCTAATTTTTTTAAGGAGGACTAGAATGTCAAAACGATATTTAATAATAAATAATGATGATTTTGGAATGTTTCATGCTGTGAATAGAACAACTAAAGAACTTTTAGTGAATAAACTGATATCTTCAGCTACAGTTATGATGCCTTGCCCATGGGTAATGGAAGTAGTTCATTTCTTGAAAGAAAATAAAAATATAGATGTAGGAGTTCATCTTACTCTTACAAGTGAATGGGAAGATTATAGATGGGGACCAACATTACCAAAAGATAAAGTTCCATCTCTTGTGGATGAAGAGGGATATTTTTATAAAACAGTTGAAGAAGTTGTGGAATATGCAGATTATGATGAAATTAAAATGGAATTAAATAATCAGATATTATTGGCAATGAAAAATGGAATTAACTTTACACATATTGATAATCATATGTTTACTTTATTTGGAAAAAATTTCCATAAAATAGCATTTGAACTTAGTCAAAAATATAAAGTTCCATTTAGATTTGCTAAAGTTATAGATGAAAATTTATGTGGTGAATTCTCAGAAGATGAATTAAATTTATATTATTATTATGCTAATTTATCAGAAGAAAATGGGATAAAAGTTCCTGATAGATTAGCAACTTCTGGGTATTTTATGGAAGAGGGAGAAACTTATGAAATGTTTAAACAAGAATTTATTGATTTTTTAAAAAGTGTAGATTATGGAGTTACTGAATATTTTTTTCATCCTATAAAAGATGATGAAGAGGCAAAAGCTGCTAATCCATATTGGGAAAAAAGATATTGGGAGTATCAAATTATAAAAGAAGATGAAGTTTGGGAAGTTATAAAAGAAAGAGAAATAGAACTTATTTCTTGGAGGCCATTAAAAGAAAAATTAATTTAGGAGGATTAAAAATGTATATTGCAGGATTTGATGGAGGAGGGACGAAAACTCACTGTATAATTGGAGATGAAAATGGAAATATATTAGCAACTGGAAATGGTGGACCAGCAAACTATCAAACAGCAGGGGTAAAAAGAGCAAAAAAATCAATAGAAGAAGCATTAGAAGAAGCTTTATTAGAAATAGGAATATCTAAAAATGATATTGATTTATATATGTTTGGATTAGCTGGAGCTGATCAAGAACAGGATTTTGAAATAATCCATAAATTTATAAAAGAGATAGTTGGAGATAAAAAATATAAAATTTATCATGATTCTTGGATCGGGTTAAGAAGTGGAAGCGAAGATTACAGTGGAATTGTAGCAATTTGTGGAACTGGTTCTGGATTTTCTGGCAGAAGAAAAGATGGAAAAGAGATTATATTAAGAAATTTAGATTATCAATTAGGAAATAGTGGTGGTGGAAATGAATTGGCTGAAAAAGCTATACATTTTGCATTCCGTTCAGAAGAAGGTACTTTTGATAAGACAGAACTGGAGAATGTAATACCAAAACTATTTTCAGTTAAAGATATGGAAGAAGTAGCAGAAATAATTAGGAATGAAGATATTAGTGAAAAAGTATTAAAAAAAATACCAATAGAAGTTTTTAAATTGGCAAATAGAGGGGATAGGATATCTCAAGAACTGTTAATATCAATGGGAGAAACTTTAGGAAGATATTCTGCATCTATTATAAAAAAATTAGAGCAGGAAAATGAAGAAATAAATATAATTTTAATAGGAAGTATTTATAAAGGAGAATCACCTTTATTAATTGATTCTATGAAACAAAGTGTAAGAAGATTTGTACCAAAAGCAAAATTAATAAGACCAGATAAAGATCCTGTGTATGGAGCTTATTTTTTAGGAGTAGATATAATTAATAAAAAGATAAAACTATAAATATTTTTTGAAATATGGAGGTGATTTATATTGAAGTTAATTACTTAGGAATGGCTTAAAAATAACATTCCCATTTTGCTTTAAAATACGCAATGTTTTAAGCGTTTTTATAACAAAATATGAGAACATTATTTTTTAAACGTTCCTTAATCTAATAAATTAAAAAAATGAGAAAAATTAGGAAAGATACAAAATTGTATCATAAAATTAAAAGGGAGGTATTGAGATGAAATTGAGAAAACATCTAGTATTGGTTATAATGGGGTTATTTCTAGTAGGATTAGTTTCGAATGCAGGGGTATTTGATTTTATATTTAAGAAAGGAAATAAAAAAGAGAGTAAACAAGTTGAAACTGCCAAAAAAGCAGTAGAGCTTACAATGTGGGTAACACCAGATGCAGAACATGAGGCAGATTTAAAAAATATAATAAAGAAATTTGAAGATAAAACTGGAATGAAAGTAAAAATTACAGTTTTAGGTTGGGATATTGTATGGGATAAATTAACTACAGCAGCTACAAGTGGAATAGGACCAGATGTAGTGGAAATTGGCGGAACATGGGTATCAAGTATTGCTGCTATGGGAGTGTTAGAAGATTTATCAAAATATTATAAAGATGACATGGAAAAAGATTATTTACCAGCAACTTTAAAATATAGTAGTACCGTTGGCGTGCCTGGAAAAATGATAAGTTTACCATGGGTTACAGATGGATACTTATGGTATTATAGAAAAGATTTATATGAAAAAGCTGGCTTAGATCCTAAAAAAGTATTTGATACATGGGATTCATTTAGTGCAGCAATGAAAAAATTAGATGCTATGAATTTTAAAACGGATAAGGGAGAAAAAATACCAGCATTTGCTCATGGTGGAAAAAATGATTGGAATATTATACATATGATGGGTGGATTTATTTGGCAAAATGGTGGAAATTATATAAGCGCAGATGGAAAAAAATCTTTAATTGCAGATCCAAAATCAGTAGAAGCAATTAAATATTTTACAAATTTTGCAAGAACAGGAATCGTTCCAAAGAAATATTTAGAAAAAGATCCTTCAGAGATAGAAGCTATTTATGGAGAAGGTGGAATAGCTACAATATTAACTGGACCTTGGTTTGCTGCTCAAATGGATAAAACTTTATCTGGACTATATGATACAGAAACTGATGATAAAACATCTCTTGCTAAATCAAAATTTGTATATAAAAATACAGATGTAGCAGAACCTTTAGCAGGTTCTGCAGGAAGATACACTTTTTCTGGAACTAATAATTTAGCAGTATTTAATTTTTCTAAACATAAAAAAGAAGCAGCTGGATTAGTAAAATATTTAACTGATGATGAAGGAGCGCAAATAGCATATGCAAAAGCAACAGGTTTATTCCCTGTATCAGTTGCAGCTGTTAATTCACCATTTGTAACAGAAAATCATTATAGAAGTGCTGTAAAATATGCGTTTGATCATGATTATGTAAAAGTTTATCCATCAGTTCCAGCTTGGGGACCAATTGAAACAGTTTTAACTAAAAACTTGGGACTTATTTGGGACTTAGTATCAGGAGTTGATGGCAAATATACAGATGAAAAACTTATGAAAGTAATTGATGAAACAAAAAGAGAAATGAATCTTGTAATCTCTCAAACTGGAACAGAATAAAAAAAGAAACTTCTAAAGAAAAATAATGGGGCTGTTTTTACAGCCTCATTATTAAAAAAGAAAGGAGAATAAGTAATGAAGGTAAATAATATATTCAAAAAATATAGATTTGCATATCTGTTAATATTGCCATCTATAATATCTTTGGTTGCAATACAGGTGATTCCATCTATACAGGGATTATATATATCAATGCTAAGATTAAATCAATTTACATTTAAAGATTTTTTAAGAGCACCTTTTGTAGGATTAAAAAATTATTATACAATTTTATTTGATCCAAATAGTATGATTCGAGTTGGATTATTGGGAGCTCTTAGAAATAGTGCAATATTTACAGTAGTTGTAATTTCTGGAACTATTGTAGTAGGAATGGGACTAGCAATGGTATTAAATCAGAAATTTAAAGGACGAGGTGTAGCAAGAACTCTTTTATTATTACCTTGGATAGTGCCAACATATATAGTTGGACTTTTAGCTTCATTTATGTATGGCTATGATGGAATAATTAATAGAATTTTATTTAATACATTACATTTATTACCACATCCAATATATTGGAAAGTTGGACCAATGACATTACTTAGCATTATTTTAATAACTATTTGGAGATTTTTTCCAATGACTATGTTAATGTATTTGGCTGCGTTACAAGGGATATCAAAAGATTATTATGAAGCAGCAGAAATTGACGGGGCTTCAGGATTTCAAAAATTTAGATATATAACTTTACCATTTTTAAAACCTGTAACAGCTATGATGGTTTTATATGGAATGATTCAACACATTTATTCATTTAATATAGCTGCAATGATGTTTGGAATGGGATCAGGTTATCCAGGTAAATGGGGAGATTTACTAATGACAAATCTAATGAGAAATTCATTTAGTTTATGGCAGTATGGACCAGGAGGAGCGGCTTCAGTTGTGTTAATGGTCATGGTATTAGCATTAGTTGGTATGTGGCTTAAAATATTTAAAGATGCTATTACAGCAGAGTAGGAGGTAATAATGAACTATCGTTTAAAGAAAAAATTAAAAAGATATGCTTCTTTAGCAGTGTTATGGTTAGTTGTAGGAATAGTTGTATTCCCAATAATATATATGGTTGTATTAGCAGGAAGTTATAGTAATAGTATAAGAACTGGAACAGAATTTTCTACAGTAAGTTTATCAAGATATATAAAGAATTTTATTGATATGCAAAAAAATGTTGATTTTATGAATTATTTTAAAAATAGTGTAATAGTAATATCAAGTACAACAATTATATCGTTGGTGTTATCTATTTTATCAGGATATTCTTTAGCAAGATTTAAGTTTCCTGGTTCAAATGGTTTTGGATTAACAATGTTAGCAACTCAACTTATACCCCCAACATTAATATTAATTCCAATGTATTTGGTATTTATAACAATTCAAAGAACTTTTGGAGTGCAGGTTATTGATACTTATATGGGACTTATTATCCCTTATGTCGCGATATTTACTCCTATGAGTATATGGGTAATACGAGGGTTTTTTGCAAATTTACCTGTAGAATTAGAAGAAGCTGCAAGGATTGACGGTTGTAGTAGATTTCAAGCATTTAGATTGATAATGTTACCATTAGCAGTTCCTGGAATAATTGCAACAGGTATATTTATATTTTTAACAGCTTGGGATGAGCTTATGTTGGCTAGCATATTAACTACCTCGCCTAGAGTACAAACAATACCAGTAGGAATAAGATTATTTATTGGAAGAATACAAAATAGATTTGATTTAACAATGATGGCAGCACTTGTAACGACAATACCAGTTGCAATATTATTCTTTGCATTACAAAAATATTTTGTTCAAGGGATGACAGCAGGAGCAGTAAAAGGATAAATAAAGAATGTATTCTTAAATTATACTGATTAAATATTATTTTTATATCTCCCCTTTATAGGGGAGATATAAAAATAATAGCTCGAAATGGAGGGAGAAATGGGGGGAAAAGAGTATAGAAGTAAAAATAAAAGTTTTAAAAACATTTTTATGATTAGATTAATATCAATGGTGTTGTTTATTACATTAACTATGTCATTTATTGTTGTAAATATAGTTAATAAATATATAGAAGAATCTGTTTATAATACGAATAATAGTATTGTAAATGGAGTGTCTAGCACTTTTGATACTTTTATAAAAAATACCGAGATATTAGTAAAATTATTGGCAAATAATCCTAATATATCTAAATTTAATCTAATTGGTTCTTCTGAATTATTAGTTCAATATACAAATAAAAACCCTTTAATATCTAATATAGTAATTTATAAAATGGATGGAAAAAAGAAATTAAAAGAAAAAATGAGAATAAACGGTTCTTTAAAAAATGATTTTACAGAAAAAACAATTAATAAATTATATAATGAAAAGAAAGATAATATTGAGATATTAAAATCAAAAGATACAAATAAATTAATGCTATTAATGATATCTCCTATTTATAAAATGAATTTTCTAGGAAAAATCACTAAAAAAGAGGGCGGTGCATTAGTAGCTGTAATAAGTGTAGAAAAATTAAAAGAGATGTTATTAAAAAGAGAAATTTTGAAAAATAAAGATTTTTATATAGTAAATGAATATGGAAAATTGATAATGTCAAATAAAAGAGCTGCAAAAGAATTTGAAGATTTAACAAAATGGAATAAAAGATTTAAAGTGACAAGTAAAAATGGTGGAATAATAAAATATTCATTGGAGAATATAAAAAAAATAGCATTTTCTAAATATAACAAAGAATATAAAATTGGATTTATTATTGAAGAAGCAGAAAAAGTTGCATTTAGAGAAAGAGATAGAGTTATAACTATTTTTATAATAATAATTATTTTAAGTTTACTATTAGTTATCATCCTATCAGATAGATTAGCAAAAGATGTAATAAATCCTTTAACTGAATTAACTCATCAAATAGAAGTTGTAAAAACTGGAGATTTTGATATATCAATTAGTGATAAAAATTTAAAAAGAGAAGATGAATTTGGAATACTATCTAATGGATTTAAGGATATGATTGAAAATTTAAAGAAAGTTTTAGGAGATATAAACATAAGTTCTAAAACTTTTAATGAAAATTCAGATAAGTTAAATGTTACAATAGAAAAGAATCAAGCTTCTATAAAAGAGATAAACAAAATAGCTAAAACATTATTAGAGAGTTCGGAAATAAATAACAAAGAGATAATAAAGGGTGTTAAATCAATAAAAAAAATGTCAAGCAGCTCAGAAGAAATTGCTATTTCATCAATGGAATTAAAAGACAAAATTTCTGAAACAACAAAATTTGCAAAAAATGGATATGCTATGATGGGAAAAACAGTTGAATTATTAGATACTACTTATAATTCTTTTGAATTGGCAGCTGGTAAAATGGATTCGCTAAAAGATTCAATTGAAAATATTGGAGGTATAATAGATTCAATAAAAAATATTTCTGATCAAACAAATTTATTAGCATTAAATGCTGCAATAGAAGCTGCAAGAGCAGGTGAGGCTGGAAAAGGGTTTGCAGTAGTTGCAAATGAAGTAAAAAAACTAGCGAATCAATCAAATAATTCTGCAGAAGAGATAACAAATATTATTTCTAAAATTAAAAATATTGTAATGGATACAATAAACATTTTTGAAAAAAATTATAAAGAGTTAGATGAAGTAAAAGAAAATAGTGAAAAAACAAAATTACAGATAGAAAAAATAAATAATTTTTCTGAACTATCTTTTGAATCAGTTCAAAAAAGTGCTGAATTAACTGAAATAGGAGTAAGCCTTTCAAAAGATATGCTAGAATTATTATCGACATTAAAATTATCAATAGAAGAGAGTTCTAAATTTTCAAAAGTTATAGATAAAAATATAGGATATCAAGAAAAAGATAACTTAGAGATAAAAGCTATAGCTGTAAATATGAAAAATATATCATTATTTTTAAATAAAACGTTATTAAAATTTGAAGAAGAAAAAAAAGAAGTAATAGAGAAAGAATAGGAGGTAAAAATGGCAAAAGTAATATTAAAAGATATGGAAAAAACATATCCAAATGGATTTAAAGCAGTACATGGACACAATTTGGAAATAAAAGATGGAGAATTTATGGTATTTGTAGGACCATCAGGTTGTGCAAAATCAACAACATTAAGAATGATAGCAGGACTAGAAGAGATAACAGGAGGAACAGTAGCAATAGGAGATACAATAGTAAATGAGTTGCCGCCAAAAGATAGAGGAATAGCAATGGTATTCCAAAATTATGCCTTGTATCCACATATGAATGTATATGATAATATGGCATTTGGATTAAAATTAGCCAAAACACCAAAAGAAGAGATAGACAAAAGAGTAAAAAATGCAGCAGAAATATTAGGAATAACAGATCTATTAGATAGAAAACCAAAAGAGATGTCAGGAGGACAAAGACAAAGAGTAGCGGTGGGAAGAGCAATAGTAAGAGATCCGAAAGTGTTTTTATTTGATGAACCGTTGTCAAATTTGGATGCTCAATTAAGGGTTCATATGAGAGTAGAGATAACAAAATTACATAAAAAATTGGGAACAACAATGATATATGTAACTCATGATCAAGTAGAAGCAATGACAATGGGAGATAGAATATGTGTAATGGAATTAGGGGTAATAAAACAAGTAGACACTCCATTAAATTTATATAATAAACCAGAAAATAAATTTGTAGCAGGATTTATAGGAAGTCCATCAATGAATATAGTAGAAGCAAAACTAGAAAAAGAAGGAGAGACAACATATGTAGTAACAGAACATATGAAATTAAGATTGCCAAAAGAAAAAGCAGATAAAGTACAAAAATATGTAGGGAAAGAAGTATGGTTTGGAATAAGACCAGAACATATAGGAAGTCATGAAACACATCCAAATGAAAAAGATAATTATGTAAATTCAGAAATATATGTAGTGGAACAAATGGGAAATGAAGTATTTGTATATTTCACACCGGGAAAAAATCAATATATAGCAAGATTAGGAAGTGAAGGAGTAACAGTAAAATCAGGAGAAAAATATGAAATATGGTTTGATACAACTAAATGTCATATATTTGATAAAGAGACAGAAGAAAATATAAGTTTATAAAGATATGTAGGGGCGAACCTATGTGTTCGCCTAGAATTATGGGTTGGGAATTAAATGATGTTAGATTTTGGGAAACTTGTAGGGGCAATTCATGAATTGCCCTTACGATTGCCCTTACGATTCCTACAATGGACCTTATAAAGAACCTTTATAATAATAACTATTATTATTTGTAAAATATAAAAAGCAGGGCGAACACATAGGTTCGCCCCTACAGAAGGATGTTGCAATATAATTTTAATGGATTATGATTTGTAGGAGAGATAGATTCTCACTCAACAGATAAAAATATAAAATTATATAAAGTTAATTACAAATAAGGAGCATAAAATGGATGCTAAAATAAATGTAGAGAAGATAAAAAAATTTATAAAAATAAAGAAAAATAGTATATGGGAAGAAAAAGATTTGATAACATTATGTCTACTAACAATGAAAAAAGATAACATGACAAAGGAAAAATTAAATTATAAGGATATAAAAAATCAAGTTAAATTATTATTGAAAATAATGAATGAATTAGAAAAGGAGATATCATGAGATTAATAATAAACGAATCTGTAGGAGAATGGGCAGCAATATATGTTGCCAAAAAAATAAATTTGCATAAATCAGAAAAGCTATTTGTATTGGGATTGCCAACAGGAAGCACACCAATAAAAATGTATAATAAATTAATAGAATTAAATAAAAAAGGAAAAGTTAGTTTTAAAAATGTGGTAACATTTAATATGGATGAATATGTAAATTTACCAGAAAATCATCCAGAAAGTTATCATACATTTATGAAAGAGAATTTTTTTAACCATATAGATATAAAAGAAGAAAATATAAATATATTAAATGGAAATGCTAAAGATTTAGATGAAGAATGTGCAGAGTATGAGAAAAAAATAGAAAGTTATGGAGGAATAGACCTATTTATAGGTGGAGTAGGAGAAGATGGACATATAGCATTTAATGAACCAGGATCATCACTAAGTTCAAAAACAAGAACAAAAGAATTAACAGAAGATACAAGAATAGTAAACTCTAGATTTTTTGGAAGAAAAATAGAAAATGTTCCAAAAGTAGCATTAACAGTAGGGGTAGGAACAATACTTGGAGCAAGAGAAGTGTTGATAATGGCAACAGGCTATAAAAAATCATTAGCAGTTTATAATGGAGTAGAAGGAAGTGTAAATCACATGTGGACAATATCTGCCTTGCAACTACATAGATATGGAATATTAGTGTGTGATGAAAAAGCAACAATGGAATTAAAGGTAAAAACAGTAAATTATTTTAAAGATATTGAAAAAGAGTTTTTAGATGTTGATAATTTAGAAAAAGAGCTTTAGAAACAGATTAAAAATATATAAAATTTATTTTTTAATTTTCCCTTATAAGTTATCTCTAATTAAACTTTCTTAACAAAAGTAAAAAAATGTGATAAACTATAAAAGGTTTATAATACATAGGAATGGTTTAAAAATATAAGAAACTTATTTTTTTAACATTCTATAGGAGATGATAAAATGCGTGTAGTTGGAAATCAAAATTATGTTAAAGAAAGAAATAAAAAACTTATTATAGAACTTTTAAGAACAAATGGTCCATTATCAAGAGCAGATATAAAGAAATTTATAAATTTAAGTGCACCATCAATTTCTACTAATGTTGAAAGATTGGTAGATGAGAATTTATTAATAAAAGCAGGAAAATCAAGCTCTATGGGTGGCAGAAAAGTAACTTTTTATGATGTTAATTATAATTATGGATATATAGTAGTTATAGATTTGTCATTAGATGAAATTTATATAGGAATATCTAATCTAAAAAGTGAAATGATTGATAAATTGAAAATAAGAGTTACATCTAAAAAATATGAAAATGTTTTAGGAGAATTAATTCAATCAATTGAAAATATGCTATTGAATAACAAAATATCGGAAGATGATATAGTGAATGTTAGTATATCAACTCCAGGAGTTTTAAAAGAAAATAATGAATTAGAATATGTAGATAAAAAAGAATGGTTTTATAAAAAACCACTTTTTAAAGATTTAGAAGAAAAATTTAATAAAAAAATCATAATAGAAAATGATGTAAATTTAGATGTTATAGCAGAATATGAAAAAGGATTGGGAAATTCATTTTCATATTTAACATATATAAAAATTGATAAAGGGTTAGGAGCAGGGATAATATTAAATAACAATCTTTTGAAAGGAAAATCTGGAGAAGTAGGAGAAATTGGATTTTCAATAATAAGAAATGGCAATGGAGAGTTAATTAGTTTAGAAGATGAATTGAATATAGAAAAGATATATTCTGATATAAAAAAAGATTTAGAAAATGGAGAAAATACAATTATTAGAGAATTAGTAAGTGGAAATAGTGACAAAATAAATTTGGATATTTTAGGAAAAGCGGCATCTTTAGGCGATGAGTATTCTAATAAAAAAATAAAATATTTAGCAGAAGAGCTAGGTATTTTCATATCAAATATAGTATCAATATTAGGTATAGAAGTCATAATAATTGGTGGATTAATAAAAGTATTAGGAAAAATATTTTTAGATGAAATCAGACTTTTTATAAAAAATTATATTCCTTTTGATACTTTGGTTACTTATTCAGGATTTGATGATGAGATAGGATTAATAGGGGCATCTGAAAATGGAATAAAACTGTTTTTTGAAGACTTTTTCAGAAGTAAAGTTTCTTAAAGCAATAGTTTGAAAAAAATGGGAAAATCATCTATTTTTTAAGCTGTCTCTAATAATATTTGCTATATAGGGAGGTTATATTTATGAAAAAAAGGGTGTTAATAATAATTAGTTTAATAAATTTAATTTTAATGGTAGGTTGTAATAATATAAATATTAATTCAGAGAAAAGTAATTTAAAAAAAATAGATCTTGCAAATATAAAAATAATAAAACCAAATTTAAAATCAGATGAAAATTTAAACAAAGATGTAATAAATTTTTATAAAGAATGGGAATCAAAGTATATAAAAAAAGTAAGAGGTGTATTTCCAGAACAAACATATTTAGATTATGGAGTAGAAGCGAGAGAAGATTCTGATGCTTTGCAAGATTGGTTTAAACCATTTAACGTAGTAGCAACTTCAGAGTCTCAAGGGTATGCAATGATTATTACGGCTTCTATGGCAAACATCGATAAAGATAATAAAGACAATTTCCAAAAAAAATTCAATGCACTTTATAGATTTTTTAGAGCTCATCCAAGTAAATACAATAGAGATTTAATGTGCCTGCAAGAGTTAGGTATTGGCTTAGAAAAAAATGGATCAATTGTAGAAGGAGAAGTTTTGGATATAGAAAATACAACTGACGGACCTTATTCATCAATAGAGGGAGATATGGATATAGCATATTCATTATTAATAGCTAATGAAATATGGGGAAGCGATGGAGAAATAGATTATAGATCAGAGGGATTGAAAGTAATAAAAGCTATAATGAACAGTGAAATAAACAGAAAGGAGCATATTCCATTAATGGGAGATTGGGTTTTAAAATATGCCAGCGGAAGAAATCCAGTAGATAAAAAAGAGGGGATAAAACATTTAACAATTGTAAAATCTTCAAATTTAATTCTAAATTATTTTGATACATTTTCAAAAGTAGATTTAGAAAATAGAGAAGAGTGGTTAAATGTCTTAAATAAATCAGAAAATATAATAAATTATAATACTACTAATTGGGGAAGTAAAACAGGATTAGTTGCTGATTATTTACAAAAAAATATTAGTGGGTATTATATCCCAGTAAAAGGAGCGGTTGTAGAAGGCGATGAAAATGAAGGAGATTATAATTGGAATGCTTGCCGTGATCCGTGGAGATTTTCAGTTGATACAATCTATAGTAATAATAGAACTGTATTATTAGGTTTAGTAAAATTAAACAGATGGATTAGGGAAAAAACAGGAAATATTCCAGAAGAAATTAGACCTGGATACTATATACGAGATGGAAAAGCAGGAGAAATTATTGGTGATCGATATGGATGGGGAGAAGATATATCATTTACAGCACCATTTTTAATTAGTGCTTGTATCGGTCAAGAAAACCAAAAATGGCTAAATGATCTGTGGTCTCATTTATTAGAGATTCCTATTGACGATGAAGTATATTTTGGGAATGTTTTAAAAATGCAAGCTTTAATAATTGCATCTGGAAATTGGATTAACATTCAATAAAAGCGTTTAATTTTTATAATTGGAGGGAATAAAGATGAGAAGAATAATGATAAAAAAATTACTATTTTTAGTAATATTAATTTCAGTAATAGGGTGTGCTAATACAAAAATAAAAACTATACAAAACACCTCTTCAAAAGATGTGAAAATAATAAAACCAAATTTAAAATCAGATAAAGCCTTAAAAAGAGATATAGTAACATTTTATAAAAGTTGGAAAGAACAATATCTAAAAATAGTTCCGAATAAAAATCCAGAACAAATATATTTAGATTATGGAGTAGAAGCAAGAAAAGATCCAGATGCTTTATCCGATTGGTTTGATCCAGCAAATGCTGTAACTACATCTGAATCTCAAGGGTATGCAATGATTATTACGGCTTCTATGGCAAACATTGATAAAAATAATATAAATAATTATAAAGAGCAATTCAATGCACTTTATAGATTTTTTAGAGCACATCCGAGTAGATTTAGTAACGACTTAATGTGTTGGCAAGAGGTTGGGATTGGGCTAGAAAAAAAAGGAGATACAGTAACTGGAGAAGTAACAGATGTAAAAAATATAGAAGAAGGAGCAGACTCTGCAATAGATGGAGATATGGATATAGCTTACTCTTTATTAATAGCAGATAAAATATGGGGAAGTAATGGAGAGATCAATTATAAAGAAGAAGCATTAAAAGTGATAAAGGCTATAATGAAAAATGAAGTGAATAAAAAGGAACACATTCTTTTGCTAGGAGATTGGGTCTTAAATTCTATTAAAAATGGAGAAATCAAAGAAAATAAGAAATATTTAACAATAACAAGATCTTCTGATTTTATTCTAGATCATTTAAGAGCGTTTTCTAATATAGACAAAGAAAATAGTAAAGAATGGACAAATATTTTAGAAAAAACAGAAGCTATAATAAATTATAATGTAAATAAATGGAGTAAAAACACAGGATTAGTAGCTGATTTTCTACAAAAAGATGAAAATGGGAATTATACTCCAGCTATTGGAAATGTTTTAGAAGGAGATAATGATGGAGATTATAATTGGAATGCTTGTCGTGATCCGTGGAGATTTTCAGTAGATGTAATCTATAACAAATCACAAAAGATAACTTCATCCATAAAAATATTAAATAATTGGGTCAAAAAAAATAGTATGGAAGATCCAGAAAAAATATATCCAGGTTATTACATAAGAAATGGCGAGGTAGGAAAAGTAATTGATGACAGAAATACTTGGGGCGAAGATTTATCGTTCACTGCACCATTTTTAGTAAGTGGATGCGTAGGAGAAAATAACCAAGAGTGGATAAATAAATTATGGGAAAATATTATAGATACAAAAATTGGAGATTCAGAATATTTTGGAAATGCTATAAAAATGCAAGCTTTAATAATTGCTTCAGGCAATTTGGTAAATGTTATAGGAGAATAAAATTAATAGACCCATAAAAAGATATTTTTTTATGGGTCTATTAATATATGAATTTTATTAATGTTATGTCTTCATCAGGAAAAGAAAAACAGCTAAAAATATAATTTAAGCTGTTTTTCTTTTTATTATTTTTTTAATTTATTCATAATTCCATAAAGATATATATCTGTAATATAATCTGAATAATTCTCATAAAATTCATCATTAAAATCTGTATTAGTTACTACTTCAAGCATAGGTTTAAACATAAAATGTGAAAAATATATTCCCGTAAATGCAGGAATAGCAATTTCTAAATTTAATTTTTCATTTTTTATAGTACTTAGATTTTCAAAAAGTGTACCATAAAGAAGTTTCATAATTTTCATAACTTTTTCTTTTTTAATCTCTTTAATATCATCATGTTCATATGGAAATTCAAAAATAGATATTTTAAACATATCTTCATTTCCCTTAATTAATTTTATTGTAGCTCTTCCAGCTTTTCTTATCCTTGTTTCAAAATTATCATTTTTATCTATTGCAGCAGATATTTCTGTATATAATTTGTCATAAAATATAGTTATAATCTCTTTTAATATTCCAACTTTAGAGTTATAATAATAATTTACCATTGATATATTTATACCAGCTTCCTTTACAAGTTCTCGAACTCCTGTAGCTGAAAACCCCTTTTTAGCAAAAAGTTTTATAGATACTTGTAATAACTTTTCTTTTGCAGACAACTCTTTTTCCATTATTTCTACCTCCAAGTATTTTTTATAAATTTAAATATATTATAACACTATACATATATATTTTACAAATATTATATCATAATTTTTATAGCTTGACAAACGTTCGTTTAAATGATAAAATTTTATTAAATATTTATATTTAACCAGTGTGGAGTTAAATATGAATTACAAAAAAAAGGAGGAGTTTTATGAAAGAAAAAAAAATTTACATTGGAACAGATTCTGTAATGAATTCAATGCTTAGTTCTATACAGGAGGGGATAATAAAACATCAAAGTAATTTTTTTAAAGTTCAAAAATTTACAGAGGATTTAGTACATAATAGAACTTATGTCAATTGTATGTTTCCATCATTTCCTGGAAGAGCTTGGGATAGATTTTTTGAAGGAACATATAGGGTATCTAAAGGAGAGAATGTTCCTTTATGGATGGATATTGTTGTAACTGGAAGATGTCATTGTAATTGTTGGCATTGCTTTAGATCAAGTTATAAAGATAATGGGGATCTTGAAATTGAAGTTATTAAAAGAACAATTGATGAAGCGTATGAAGCAGGAACAACAGTTATTGGAATTACTGGTGGCGAGCCAATGCTTAGAGATGATATACTAGATATATTAAAATTAATTCCTGATGGAATGGAGGGATTATTTTATACAACTGGTTATAAAATAGATAATAGTTTTGCAAAAAAATTATCAAAAACAAATGTTACGAGATGTTTAATAAGTTTAGATCATTATGATGAAAAGATTGTAAATACAATGAGAGGATATCCAAAAGCATATGAAATGACAATGACAGCTATAAAAGCATTAAAAGAAGCAAATATCTATACAGGAGTAACTTTATGTGTGACAGATGATTTATGTGATCGTGAAGTATTTTATAAATATATAAATTTTGTAAGAGAACTTGGTGCTGATGAAATAAGAGTAATATTACCAATTCCACAAGGAAATCTTGAAGGTAAAAATTATAAAAGGCTTTATATTAATGCAATGAAATGGACTCGAGAAATTCATGAAAAATCATTAAAAAATCCAAATTACCCAAATATTCTACTTTTTTCTCAATTGGAAAGTCATAATTTTATAGGATGTGGAGCAGGTTATACTTATGTAACTATAAATAATGATGGAGCATTGACTCCATGTGTATGTGTTCCTTTAACGTTTGGAAATGTTAAAGAAGATGGATTTATAAGTGCCTATTCTAAAATTAATTCTTTATTTAAAGGGACAGGAAAAACTTGTTATGGTAAACGTGTAAGTAAAGCAATGAAAGAGGAGATAAAGGATGGAATGTTGGCGCCTTACAATGAAGAAGTTTCAAAAAAAATAGCGAATAAATGTATTGTTAATGATGGAATTGCTAAATTTTATGATAATTTAAAAAATTATGAAGTAAAAGAAAATGATGCTTAAAAATGTTGAAAAAATAGGAGGAGATTACAGTGAATGGTACAAAAATATCAGGAATAGGAACATATATTCATTCTGTTGTTTCAAATAATGATTATATAAATATATTTGGTAAAAAAGCAAGATTTATAGATAAAAAAATTCCTCACAAAACAAGGTATAGTGCAATAAATATTTTAGATGGAAGCGTTGAAATAAGAAATAGTGAAATGGCATATCACGCCTCTATTGAAGCGATGGAAATGGCTAAAGTTAAAAATGATGAAATAGATATGATTATATATTCTACATCTACTCCAGACTATATCCTTCCACCTAATTATGTAATATTACAAGAAAAATTAGGTATAAAAAAATGTATGGGAATAGATATTCGTTCAGGATGCTCTGGATTTGGTAATGCAATTATTACTGCAAAACAATATATTGCTACAGGCATGGCAAAAAAAATTTTAGTTGTTGGAGCAGATCTAACATCTTCAAGATTATCCTTTTTATTTAAAAATCTAAAAGAATTTCCATTAAAAGCTTTATATAATTTAATGCTATTTGGAGATGCCGCTGGAGCCGTTGTTGTTGAAAAATCAGAAATAGATAATTTTTTTGGAACAATAATGGGCTCTTCACGCCCAAATTCACCATTTGGTTCTTTAATTGAGGTAGGTGGGTCAGTAAATCCTTATCCGAATGGTAATTTTAAGAATGAGGATATCCCAATACATCAAAATGCTTTAGCAACGGAACAATTAATTCCAGGGGTTATGATTGAAGCAGTAGAAGAATTTTTGGGAAAATCAAATAGTAAAATTGAAGATTTTAATTACTACATACTCCCAATAGATTCTCCAAGAATGGCATCAAAAGTAATAGAATATTTTAATCTTGATAGTGATAAAATAATTAGTGTCGGAGCAGAAGGAGGAAGTCTTGTTAATGCAGCAGTGCCACTTGCTTTAAAAAAAGCATATGATTTGGGGAAATTAAAAAAAGGTAATAAAATAATGATATATGCTGCTGAAAATACTAGGTGGCAATATGCTGTAATGGGATATAATTGCAATTTTTAAAGGAGTAAAATAAAGTTTATTTATAATAAAATATAGTAAAAATTTAAAAATATATAACATATGATGGGTGGTAAAAAAAATTGCTAAAATTTGAGATGACGGATAATTTTTAATTGCTTTATAAAATTTCAAATAAAAAACAAATTGTTATGTAAGTAGTTAAATATGATAAAATTATATGGAAATTCATTTGGTAAAGAAGAGACTTATTATTATTTAGCAACGATGTATGAAGAAGAAATAATTATTAATGATATTCGAATAAGAATTAAACCTATGAAAATTTATAGCGTAGATATTTCTTCTAAAAAAGAAATCGAAATTAATATTTTGAATAATAAGAGCCAACTATTTATGTTCGAAATAAATAAAAAATAATAAAGGAGATGTTATAGTGAAAAATAATATAATTTTAGGGCATTTAATGACATTGATGACAATATTTATTTGGGGTGTAACGTTTGTTTCAACAAAAGTTTTATTGGTTCATTTAACGCCAATAGAAATATTATTCTACAGATTTTTAGTTGCATATATTTTATTATTAGTGATTTATCCTAAAATAAAAAAGGTGAATTCGGCAAAGGAAGAAATATTATTTTTTTTCTTGGGTTTTTTTGGTATATTTATGTACTTTTTACTTGAAAATATTGCGTTAAAGTACACATTGGCATCTAATGTAGGATTATTTATGTCAACAATACCCATAATTACATCTTTAATAGTTGTATTTGGGACAAAAGATGAAAAATTCAGGAAAGAATTGATATATGGTTTTCTTATTGCTATAATAGGGGTATTTTTAATAATATTTAATGGAAAATTTATTTTAAAGCTGAATCCTATAGGTGATATTTTAGCATTAATTGCCGCTCTTTCCTTCTCCATTTACTCAAATTTATTGAAAAAGATAAATAATAAATACAACTATTTATTTATAACTAGAAAAATATTTTTTTATGGGATTATATGTATGATACCGATTATATTCTTAAAACATGAACAATTTTCACCGAATAAGCTTTTAATTCCAGAGGTATTTTGGAATATTGTATTTTTGGGGGTAGCGGCATCGACTCTTTGTTTTGTTATGTGGAATAAAGCTGTTAGTATTATAGGGGCAATCAAAGCAAGTAATTATATATATCTTGTTCCAATAATTACCATAGGGACATCAGTTCTTATTATAAATGAAACAATAACAATATTTATAATTTTAGGTGGAATATTGACTTTAAGCGGAGTATATATTTCTGAAAAGGGATTTAAAATTATTAAGATAAAAAAATAGTTTCTTCGCACGACAATGTGCAGAAGCCATCATTTCGAGAAACGTTGCGCTGACTCTTATGAGGTGGTACTGAACCGTTAGACTGGTATCATCTAACAGATTTAGCTAAAATAAATATAGCAATATATTCAGAAAAAGTATTAAAAGAAGGAAGAGTGTAATACATTTTATATTTGAAAGCATATTTTCTTACATACAAAAGGAAATATGCTTTTATCACATAAAAAAACTTGACAAACGTTCGTTTGATTTTGTATAATTGTTTCAGAGAAACTATTTTTAAATAATTCTAAAAAATCAGAGGAGGTCGAAATATGTTGAAAAAAATTATGTTTTGTTTTTTATTTTGTATTACTTTATCAAATTATATTTTTGCAGAGGATAGTTTATTTGATTCTGCAATGGAAATGTCTGATAATTCAGGAGGCAAAAAGTTATCCTATACTATAAATGGTAATTTAAAATCTGCAATTTATAGTAATGATTCATTAGATGATTTTTCAAATTCATATTCACAATTGTCATTAAAGTTTAATATGAAAAAAGGAGAGTTTGGAGATGGATATGCAAACATAATTATAGACAATAAAAGTATTATATTAAGAGAGGCTTATTTAAATTATTATTTTAAAAATTTAGATTTTAGAATTGGGAAACAGATTATATCTTGGGGAAGATCAGACGGGATAAATCCTACAGATAATATTACTCCTAAAGATTTAAATATACTATCTTCTGAATCTGATGATCAAAAATTAGCTAATTTTATGTTGAAATCAAAAATTTCATTAAATAATATTAGAATTATAGGATTATTTATTCCTAAATATAGTTCGTCACCAAATTTAAAAACAGGAGAAGATATTTTAGAAGGGGATTATAAAAATTATGAAACAAAGGCATTGAAAGTTAATTTTGAATTTCCAGTAGTAGATACATCGATATCTTATGTTAATGGATATTCATTAAACAGAGGGATAGCAGTGGATAGTTCTAAAACTACTCCAACACCAATTTTAATTCCATATAAAGAAGAGGTTTATGGAGCTGATTTTTCTACAACGATAAAATCATATAGAATATCTGGAGAATGTGCATATAAAAATTATTTAGAAAATGAGAAATATTATATCCCATATTCAGAATTGGAGTATACATTAAGTGTAGATAAAACTTTTTTAAAAAGCATTTCTACGATATTTCAATATTATGAAAAATATATAGATGAGTACAAGGATCTTAAAATAACTCCGTATTATGATGTTGAAATGAGAAATAGATTAATTTCTAAACAGACGGCAAAGATTCAAAACTCTTTATTATATAAAATAGATTGGAGTTTAATGTATGAACAATTACATATAGAAAACGTCGGTAGTTATAATTTAACAACAAAAGAGAGTATCTTTAAAACAAAAATTTCATATAATATTACAGATGATTTTATTGCAATATTAGGGAATGATAGTTATTTTGGAGATAAAGGGACTTTAATAGATTTGATAAAAGATGATCTAAATAGAAATTATTTAGAATTAAAAATATCATTTTAAAATTTAAAAGGAGTGATGAAAATGTTTGAAAAATTAGCACAAATAGCATTGAAATTTAGGGTAATTGTAATTTTAGTTTTTGTTGGAATAACAATATTTTTTGCTATTCAAATTCCAAAAGCAAAAATTGATACTGATTTAAAAAGTGAATTGCCAAGCAATATGCCATCAAGGATAAGAATGGACCAAATTGAAAAAATGTTTAAAGGAACAGAATTTGTAATGATAACATTTACAGCAAAAGATTCTATATTTAATAAAAATACATTAAAAAGGGTAATAAAAATATCTAAAAATCTTGAAAAAGTTGTTCAAGTAGAAAAAGTTACAAGTTTATATACATATAAAGATTTAAAGGCGGAGGATGGAAGTTTAATTGTTGAACCATTATTAAAAAAAGTTCCGAGAGGTAATAATGGAATGTTAAAATTAAAGGATAGAATAAAAAACAATGATATGATTTATAAAAATATAGTTTCAAGCGATTTTAAATCAACAGCAATAATAGCAATATTAAAACCAAATTCAGATGATGAAAAGATATTAAGTAGTATAGATAAAATATTAAAAAAATATCCAGGTAATGAAAAAATAGAGATTGGAGGAGTTCCAGTTTCACGAGCAGTAACATCAGAGTATATGAAAACCGATATGAGAAAGTTTCTTCCAGCAGGACTTTTGATAATGCTTATATTTTTATTTTTCTGTTTTAGATCTATTAGTGGAGTTTTGCTTCCATTTATTATTGTTGTTATGTCAATAATTGTTTCAGTTGGAATAATACCTATTTTAGGTTGGAAAATACAATTTGTAACAATAATTTTACCAGTTATATTAATTGCAGTTGCAAATGATTATGGAATTCATGTAATTGCAAAATATCAGGAAAATTTAATAGAGTATCCTAAAAAAGATCAAAATAGTTTGATTAAAAATATAGTTGAAAGTTTAGGAGGTCCAGTTATAGCCACAGGAATTACAACTATTGCAGGGTTGATGTCTCTTATGACTCATATAATTATTCCAGCAAAACAATTAGGAATACTTGCTTCTGTTGGTGTTGGATTTTCACTTTTAGCAAGTATAACCTTTTTGCCAGCAGTATTATCATTTTTACCAAAACCAGAATTAAAAACTAAAGATAGAAAAAAGCATTTTCTTGATAAAATTTTAGAAAATTTAAGTAAATTTATTAAGAATAATTTTGTTTCAATATTAATTGGAGCAATTGCTATAACACTTATAATAGGTGTGGGAATTGCAAAACTTGTAGTAGATACAAATCCAGTAAATTATTTTAGTAAAGATACACCAATAGTAAAAGCATATAAATTAATAAATAAAGAATTTGGCGGTTCTACTAATTTATCGATAGTGGCTGAAGGAGATATCAAAGATCCTGTTATAATGAAAAAAATAGATGATTTAGAAAATATGCTATCAAAAAGAAAATCAATAGGACAAGTAATGTCTATTTCAAAAGTTATAAAACAGATGAATAAAGTTTTGCATAATGGAGATGAGAATTTTTATAAAATTCCAAATAGCAGAGATACAATTGCACAATATTTTTTATTATATAGTATGAGTGGCGATAGTGAAGATTTAGAAAAACTTGTGGATTTTGATTATAAACATGCGCTTATAAATGCGAGAATATCAACTACAAGTGTAAATACATTTAAAAAAGAGCTAAAATATATAAAAGCCTATATTGCAAAAGATCCAAATACTCCATTTAAAATAATGGGAGGATATGCTGATATTATTTCTGAGCTTATGGATGCAATAGTAAGTGGGCAAGTAATTAGTATCTTATTATCACTTCTTCTTGTAGCGGTAATAGTTGGAGTTCTTTTTAAATCTTTTTATGCAGCACTATTTTCAGTATTACCATTGTCTTTTGCAATAACAATCCTGTTTGGGTTAATGGGATACTTTAATATAGAATTAAATATTATAACAGCGATGCTTACATCAATAATGATAGGAGTTGGAATAGATTATACAATCCATTTTTTATGGCGTTATAGAAATGAAAGATTTAATGGGAAAAATTCAGAAGATGCATTATATAAAACGATTACAACTACAGGAAGAGGAATTGTATTTAATGCTTTATCTGTAATTGTAGGATTTGTAGTTTTAATGTTGTCAAAATTTTTACCAGTACAATTTTTTGGATTTCTTGTAGTTGTATCAATAAGTACTTGTCTTTTAGTTGCAATGGTACTTTTGCCTGCAATATGTATTTTATTCAAACCTAAATTTTTGGAACCTAGTATTGATGAAGAAAAATTAGATATTACAATCCCTTCAAAAGAGGCTTTTGAAAATATATAATAATAAGAAGAACTAGATATTTAATTTTATATCTAGTTCTAAAAAGTATCTTTAAAACTAAATATAGGTAGTTGCAAAATATCCTTGAAAAATATAGTCAAAAGAGGATTGTTAAAGAAACTTCCTTAACGTGGGGTTTGTGGGGCAACGCCCCAAAAACACTATCCTCCCTACACGCCGAAGGTGTGGAGGGTTTATAAAATTGTCTATACAGCTTAAAAGCAATAAAATCAAGGGGTGCAGAGTTCTGCAACTGACTATTAAAACTAAATATAAAAGGAGCGATAAAAATGATGAAAATAAAGAAAAGCATACTAATTTTATTTTTTATAGTTATAAATTTAACAATGTTAGCAGAAACACCAATTGAAATTATTAACAAATCAAGGGATGTTATAAAGTTAAATGGAGTTGAGATGATAATCTCTTTAATCACAAAAGATAGAAATAATAATGTAAGAAAACAAAAAATAGCATCTATTTCTAAATTATATTCTGATAATACAGAAAAAAAAATAATGAGATTTTTATATCCTACAGATGTAAAGGGAACAGGCTTTTTATCTTATGATTATGAGAAAAAAGATGATTTAATGTGGCTATATCTTCCTTCGCTTAGAAAGTCAAGAAAAATAGCTGCATCTGAACGTTCAAAAAGTTTTATGGGGTCAGAGTTTTCATATTCAGATATAACTTCTTTTAAAATAGAGGATTTTAAATATTCAATTTTAGGGGAAGAAAATATAAATGGAGAAAAATGTTGGAAATTAGAGCAAAAATCAAAAAATGATGACATAGCTGATGACTATGGTTTTTTTAAGAAAATAGTATATATCTCTAAGAGAAATTATATGGTAATGAAAACTGAATCTTATGACGAAGATGATGAGCTATGTAAAGTAATGGAAGCATTAGGTATAAAAAAAATAGATGTTAAAAGGAATCGTTATAGAGCTACACATTTAATAATTAAAAATTTAGATAATGGTCGTAGTTCAGAAATGATAATTGAAAAGATAAAGTTAAGAGAAAATATAAAGGATAGTTATTTTACAACAAGATTTTTAGAAAGAAATTAAATCAGCTTAACTACTTTTTTTAAATTCTTGACATAGAGACAGATTAAGCGTAGCCTATTTTTTTATTGAATTTTGTAAATAGATATGATATAATATTATGTCAAGATAAGTTGTTGTTTTTAATAAATTTAGTTGCGAGTTAATTGACTTGCAACTGTTTTATTTTTTTGATTTGTTAGGAAAGTATAAATTTATAAAAAATTTTAATATATGGAGGAAAAGAATGTTAAATGTTATTAATGTTAGTTTGAGATTTGGAGCTAGAAAATTATTCGAAGATGTAAATATTAAATTTATGCCAGGAAATTGTTATGGTGTAATAGGAGCAAATGGTGCAGGAAAATCAACTTTTCTAAAGATTTTATCTGGAGAAATTGAATCTGATACTGGACAAATAATTACTGATCCAGGAGAAAGAATTGCCGTTTTAAAACAAGATCATTTTGAATTTGACGAAGAAAAAGTTTTACAAACAGTAATTATTGGTCATACTGAATTATGTGAAATATCAGCAAAAAAAGATGCAATATATTCTAAACCAGATTTTTCAGAAGAAGATGGAATGATTGCAGCAGAATTAGAAGAAAGATTTGATGAGTTAAATGGATGGGATGCAGAATCAAATGCAGCAACAATATTAACCGGACTTGGAATCCCAAGAGAGTTACACGACAAAAAAATGAAAGAGTTGACTGGTTCTGAAAAAGTAAAAGTTTTATTAGCACAAGCTATTTTTGGAAATCCAGATATATTGCTATTAGATGAACCAACAAATCATTTGGACATAAAATCTATAAGCTGGTTAGAAAATTTCTTATTAGATTTTAAAAATACATTAATTGTAGTTTCGCATGATAGACATTTTTTAAATAAAATTTGTACACATATGGCAGATATTGATTATGGTAAAATAAAATTATATGTTGGAAATTATGATTTTTGGTATAAATCTAGTCAATTAGCATTGCAATTAGCTAAAAATCAAAATAAGAAAAAGGAAGAAAAAGCAAAAGAATTAAGAGAGTTTATCGCAAGATTTAGTTCTAATGCATCAAAAGCAAAACAAGCTACATCTAGAAAAAAACAATTGGAAAAATTAACTTTAGAGGATATACAACCATCAAGTAGAAAATTTCCTTACGTAGGATTTACTCAAGATAGGGAAGCTGGAAATAATTTGCTTAAAGTTGAAAATTTATCTAAAACTATTGATGGAGTTAAAGTGTTAAATAATGTAAGTTTTACTATTGAGACAAATGATAAAGTTATTTTCTTAAGTGAAAATGAAATAGCTAAAACAACTTTATTTAAAATATTAGCAGGAGAATTAGAACCAGACGAAGGAAGTTATACTTGGGGAGTTACAACTTCTAGATCATATTTCCCTAAAGATAATTCTAAATATTTTGAAGATAAAGATTTAAATTTATTGGATTGGCTTAGACAATTTTCTGGTAATGAGCAAACAGAAACATTTTTACGTAGCTTCTTAGGAAGAATGTTATTTACTGGAGATGAAGTTAAAAAGAAAGTAAATGTTTTATCTGGAGGAGAAAAAGTTAGATGTATGTTAGCTAAAATGATGATAAAAAATGCAAATGTCTTATTATTAGATGAGCCAAATAATCATTTAGATCTAGAATCAATTACAGCTTTAAATAATGGATTGATCGCTTTTCCTGGAACGATTTTATTAATTGGACATGATCATCAATTTATAGAAACTATTTGTAATAGAGTTATTGAAATTAAAAAAGAAGGGGTTACTAATCAAGAAATAGAATTTGATGAGTATCTTAATAAAAAATAATAATAGTAGATTATATTTTTAAAACATAACATACATTATCGGACGTAATATGTTTGGAAAGTTATAAATAAAAAAATCTCTGGAGATTAATTTTTCCAGAGATTTTTTTATTTATTAGTAAAGTATAAATTTATTCAGAAAATAAGCTACGCTGTTTTTTTAATATGCGATTTTTCAAGGCAAAATTTTTCAGAAACCAAAAATTCAGAAAAATATTTATGCTCTACGAGATGAAGTGTAGCTCATTTTTTTGTTTTATTTTTTCTTCTTTCCTCAAATGCTTTTTTTTCAGCCATCAATTCTTTTATTAAATCAGAAAATTTCCATTTTTTAGAAGTTTCTGTTACTGCTGCAAATAACGGTCTATTTAAATTTAAAGTTTTAAATTCTTGTACAAAATTATGCAACTCACTATCAGATACAGCATTAAAAATAATTGCCTTTTCTTCAATGCCTTTGTCAACATCATTATTATTTTTGATTTCATTGACTAAATCTTCTAATGTTAAAGTTACTTCTTGTGATTCAATTTTTAAAATTTTGTCTATTCCTATTTTTTTAGTATATGAAGATATTTTTTCAAATTCATTGTCATTATATCCATAAACTAATATACAATTTTTACCTTCTGGTCTTTCTGTAATTTCATCATTTATTCTTTCGAATGACATTTTATATTCCTCCATCCATTTTTTTCTAAAGCCATATAACTCCTATAATTATTATATCATAAGATTATATTTATAACAACTTCATTTTAAATAAATATAAATAACAAGGAAATGAAAAAGACTTCCTAACATAACAAAAATATGCCATACTGCATGATGAAATTTAAAAAGTGAAAAAATAAAAAATATTGTTCCAACAGTATATGATATTCCTCCTGCTACAAGCAAATAAATTCCAATTGGATCAAGAGAAGCTGCTAACGGTTTTATAGATAAAACTATAGCCCATCCCATTAAAATATAAATAAGAGTAGCAAATGCCACAAATTTATCTATCCAAATACTTTTAAATATAATCCCTAAAATTGCAAGTCCCCATTGAACAATAAGTATTGTCCAACCTATTTTACCTCTTAATATTGTAAGGCAAAATGGAGTATAGGTTCCTGCAATTAATATATATATAGACAAATGATCAAATCTTTGGAAAACTCTTTTAGTAGTTCCTCTTGGGAAAGCATGATATAAGGTTGACATTGTATACAATATAATAAGACTCGTGCCAAATATAGTATAACTAACTATATGCCAACTATCGCCTATATGTATGGATTTAATTATAAGTAAAACTAAAGCTAATATTGAGATTATTGCTCCAATTCCGTGAAGAACAGAACTGGCTATCTCTTCTCCTAATGTAAATTTTTCTGCTATTTTCATCTGTTTCTCCCGCCTTTCTAAAATTTTTAATAATTAAAATTATTTAAAATCAACACTATTATTTAATATGACCAGTAAATTTATTCAGAAAATAAAATATTACGCTCTTTAATATATAATTATGATATTTTATACTGTAATTTTGAATTTTATTATATTTTTTATTCTAACCATTTTTTTTCTATTTTTTCTAAAACCCCCTCTTTTTTCATCTCATCCAAAGTTTTTTGCCAAGAACTAATTGTTTCATCGGGAGTATCTTTTGAAAATGCAATATAAGCTGAAACAGTTGTAAATGTATATAATTTTTTTACATCATTTAAAGAGTATCCAGCTTTTTCTACAATTGATTTTATAGTCGTATTAGTAAAAATCATTACATCGTATCTACCACCCATCAGTTTTTTTGTATTAAGAATATTATTAACTGCTGAATCTAAATTGTTAAAGCCTCTTTTTTTTAATAATTGTTCTTCAAAAGAGTCTCTAAAAACACCAATCCTTTTTAGTTTCTTTGCATCATTTATTGAATTAATTATAATTTTAGAATTTTTTTTCCCATAAAAGCTTACTTCCATTTTATAGATTGGACCAACCCATTTGAAAAGATTTTCTCTTTCTTTTATTCTTGCCACAGAAAAAAGTACATAATTTGGGTGATGTAAAGTCATTCTATATCCACGAACCCAAGGCCAAACTTTTATATTATCTGGAATATTTTTTCGTTTAAGCATTTCTCTAACGATTTCCACAGCCAACCCTGCAGGTTTTCCATTTTTTAAAAAACTTATAGGAGGATAATTCTCCTCAGCAATAAAATTTAAATTACTTTCTGAACTTGAAATAATAGTTAGGGTAAAAAAAAGAATTAAGAATATATAGCTTTTTTTCATAGAAAATTTCATTTAAATCATCTCCTTTTTTTATTTTAATATATCTACTTATTGGCAATACAACATCTATAACAATTAAAATGTTATTTTCATATTAAAATCAATTCCATAACTTCCAACTTCTGATTTTGCCATTCCATATTCTGTATCATCTTCTCCAATTAATAAATACGGAGATATTGAAATTCCAATATTATCATCATATAGATAATTTAAAACTCCGCCTAAAATATTACTATAGTCATCTAAATTTAAAAAATCAAATCCGCTTAAAGATGTCTGCTCGTTCAAATCATATTTTAAAGATGGTACAAAATAATGATGTGCTAAATTTTTCCCGTAAGCTGCCAAAATATAGGTATACATCTCTTTTTTATTTTCGCCAAATCCATTATAATAATATTCTATATTTACATATAATTTATCAAAATAATTGTCCATTCCAACTACCATTTTCATTTTAGATTGATCTGTATAGTAAGCACTTTCACTCCAAATTCCATAATCTAATTTTGGAATGCTTCCTGCTATAGTTCCACCTAAAATTAAGTCTTTCTTTTCTGAAATATCTTTACTTTTTTTTATGATAACTCCTTCAACAGAAAAATCTTTAATAAAAGTTTTATACTTAATTCCAACCTCATCATTTTCCATACTATTATCTTTTTTTATAGCATAAATAGCTTGTAAATTGCTATTTTCATTATTATAATATGTCATAATGATACTATCTCTTCCATCTTTTAAATAATTTGTATCAAATGCTGCTCCAATTGGTTTTGAATTAAATATGTCAATTGGATTAAAATTATATCCTACTCCCCATCCTATTCTATTCCTTCCAATTTCCAATACAAATTTATCAAAATCAAATTTTATTTTTGCCATATCAATTTTATTTATATTATCTCCAAAACTATATTCTCCATCTAAAGTGTAGTTTTTTTCTCCTTCAAAATTAAATAAAACTTTCCCTTTAACTTCACTTTGATTACCTGCTTTTTCTGTATAAGAATTATGTAAATTTAATTCAGTTGTAAAATCAGCTGCATTAATTATTATTAAACTCATAAAAAAAATCAAGGTTATTATATTTTTTTTCATTAGATTTCATCTCCTAATAATTATAATTATAATATAAATTTAAAATTTATATTATTTTAAAAATAATTCTAAATTTACTGCTTTATATTGTGTTGTTTCTTTTTTATTTAACAGTATTGCATTTTGAGGGCAGAATGCAATACATCTCATACAACTTTCACAACCATCTACTTTTATTGGATATTCTCCTTTGTTAAATCTTATACTATTTGTTGGACAAAGTTTTGCACATAGCCCACATTTTATACATTTGTCATTATTTATAGATACTGTTTTTTGTATAGAATTCCATATAAATTGTCTGTTGTTAATATATTTAACAACATCAGATACCCCTGGAACTCTACCCCAATTGCTTTTTTCCTCAACTAAATCTTTCGCAAAATCTTTTGCTTTCTTTAAACTTTTTTCCACTTTTTTTCTATTTACTTCCTCTTCTTTTGGTTTTGAATAATTCGAAGGCATAATAAACTCTTTCGCACCAATACATTCATATCCTTTTTTTGATAAAATATTTTTTAATGGGCCAACAACTCCTCCTGAAAATCCAGCTAGAGTATCTATCATAAATATTTTTGTATTTTTTGATTCTAAATTAGGTAATCTATCTATAAAATTCCATACTAATGGATAAGTTGCTTGTACTGCCACAGGAAAAGCTAAGCCTATAATTTTATCTGTATCTATATTTTTCGGATTGCTTTTCTCAATTTTAAATAAATTTACTTTTATATTAAATTTTTCCAACTCTTCTTTTAATTCATTTGTTATCAAATACGTATTTCCTGTCCCTGAAAACCAATATATATCTATATCTTTTTTTAGCACAATAGCCACTTCCTTTATATATATTTTTTATTTCTAAATAAAGTATAAATTTATTCAGAAAATAAGCTATATCATTTTTTTAATATGCGATTTTTCAAGACAAAATTTTTAAACTTTACCAGATAAAACGTAACTTATTTTTTTATTTACTAGGAAAGTATAAATTTGTCTAGAAAATAAGCTACGCCATTTTTTTGAAATATGCGATTTTTCAAAGCGAAATTTTTCAGAAGCCAAAAATTTTGAAAAACATTTATGTTCTACCAGATGAAGCGTAGCTTATTTTTTTATTATCTTTTTAAATTCCTTTCAGAAAATATAGAATCTTTAATTTTTATACCTAATTTTATACTAGATTCATCTGTAATCATTTCAGTAGATTTTCCTGTTAAAATATCTCTCATTTCTATATGTAAAGGAATCATTATTTTATCAATCTTTTTAATATCACTGCTTATTAGCTCCTTATATTTAATTTCATTATCATTATAATACTCTATTTTTTCATCAATATACTTATCTTTTAAAATATATGCAATTAAGTATTTAAACTTTTTATCTTTAATAGGGACCATTTTTATTACATAATATTTATTAGTAGTTTTTTGTAATTCACTTTTAAAATCATTTACAAAATCAATTGTCATATCTTCATAACTAAAACTACTTCCCATCATACTTCCTTTTTTAGCACTTTTTGATAATAATCTTACCCTATTAGTTCTTTTATTATAATACCAAATATTATCTCCAGAACTTAGAATAGCTGTTCCTTTTAATCTACTTGGATATGTAAATCTCATTAATTGTCTATCTTTATCTCCTTTTTTTAAGTAACTTTTAAACTTCATTTCAGAAAGTTTTTTATTTCCCTTTTTTATTATCATGGTAGCGTCCATTTGTGATGTAGAATATTCTGTATTGTTTTTTACTTTTTGTAAAATATCTTTTGCATTTTGAGCTATTCCCAAATTAAAAATAAAAATAGTTAATAAAACTATAACTGTTTTTTTCATTTTTGCTCTCCTCCCTTAATTGTTTTTTGATCGAATATAGCCAATACACTCACCAAGAAAAATATTGTAAAGAAGTATGCAAGGACAACTCCTAAAGTAAGTAAAAGTCCAAATGTTATAAATCCTCTATATTTTGCAAGCATTAAAGTTCCAAATGCCGCAGCAGTTGTAATAGTTGTCAATAAAATTGCTTTTCCTGTGCTCTTTAATGCAATATAAAGATTATTTTCTATTCTATATCTATTAATTATATGAATTCCATCATCCACTCCAATTCCTATAATTAATGGGAGTGCAATTATATTTACTACGTTAAATTTAACACCAACCATTCCCATTATCCCCATCATACTAAATATTGTTAAAATCATAGGCAAAATAGCCATTGTAGCATATTTTATACTTCTAAAATCAATTAAGATTATAAAATATATTACAAATACTGAAAGTAATAAAATTCTTTTTCCTTCGCTCCCTGATATATCTATAACTTTTAAATATACTAATGCTGTACCAGAAACATTTTTCCCTAATGTTTTAAGCTCCGCAATGTGTCCTTTTTGAAAATCACTATTCCATATATCTCCTTTTGGATAAAGAGTTGTCATTATTTCTCCATTTTTACCAATGTAATTTTCTCTTATATCTTCTGGTAAATTTTTAATAGTAATAATATTTTTGTCATTCATATTTTCTATAATGTTTTTCCATTCAGCAATAAATTTATTTTGAAATTTTTGAAGATTCCCTTTATATTTTGCTAAATTATCTGCGAAATCTATTAATATATTACTTTTTGTAATTTCATCACATTTATTAACAAGTTTAGTTTCTCCACCCATATATGCGAGATCTGAAATTTCTATTAAATTATCATTTAATCTATATAATTCATCTTTAAGTGTTACTATATTTAATTTGTCTATCTTTTTCCCCATTAATATTTTTTTTATTTCTGCTATTTTTTTCATTCTTTTTAATTGAAGTTTTTTATCAGGTATGTAGAATGCAATACTATCAATTTGACCAACAGTAGACATATTATCAGCTTTCTCTTTTATTATCCTTGCCTCTTTTAGATTTTTACTTATAGCAATTGAATTATCTGAGGTAAATCCAAACTTATCTATTATTTTTTTATTTAATGCTATACTTTCTAATCCTTTAGCTTCAATATTCATCATATTTTTTTCAAACGAAACTTTAGGTATATTCATCCCTAAAATAACAAGTATAACTAAAACTACAGCTAAAACTCGTTTTGGTCTGTGAATTACTATTTTTTCTAATCTATCAAATACTCTCAAATCAGTTTTTATAAGTTTTACTTTTTTATCACCCATTTTTAAAAGTAATGTTGGTAATAAAAAAACAGCAGTAATTAAAGTAAAAACAATCCCGCTTCCTAATACTACACCAAATTCCCTAAATCCAGGAAAACTGCTTATTGAAAAAACATAAAATCCAAATGCCGTTGTAATAGAACCTGCTATAATTCCCTTCATTCCTTTTTTAAAAATTGCCTTTACAGCTTCTTTTGTAGATTTTCCATCATCTTTTTCTTCTAAAAATATGGAAATTATATGTATTGAATAATCTATACCTAGTCCAATAAGTATTGCTCCCATCATTGCAGTCATAATATTTAAATGACCAAAGACAATATATGTAAATCCCATGGCTAAAATTATTCCTATTGATAAAGGAACTATTACTAATAAAGAATATCGAATATATCTAAATGCGGCTAAAAATATAATTATCATCAAAATTATTGAAACAGTTGTAGAAATTGTCATATCTCTATTGCTTACAACCATCTCATCTCGACTAATTACTTGAGTTCCCGTTAGAGAAACTTTAACATTATATTTTTTTGCATTATCTTTTAAATATTTTTCTGCACTATTGACTAAATTAACCATTCCCATTATATCAGTACTATTAACAGCTGATTTTATAAGGAAAATCCCCATTTTTCTATCTGGAGAAATTGTATATTTTTTACCTATTAAAAATTGCTTAGCAAAATTTGTTTTAACATCTCCATTTTTCATTGCAGCAGCAAAATCTTGAATTGTATTTAAAAAAGATAACATTTGTGTTTTGTCTTTTGACATCTTTTGAGAATCTCCTGAATTAATATAACTTTCTTCAAAATTATTATTTATTCCAGCTATAAAATCTTGTAAATTTGAAGCTGTCAACATATCTTGCATATTTTCAAGGTCGTTTTGTTTTACTAATAATAAACTATTTGATTTGAGAAAATCGCTATTTAATTCATATTCAACTTTTTTTATATTTTTAATTTTTTTTAAATTTGGAGCAATATCTCTTATATAATTTTCTATATCTTTTTCATTTCCTTCTACTCCAACAGCAATATTGTCTGTACTGGTGAAATTTTTTAATGCTTTATTGTAGATTTGAACTAATTTTTCATTTTTAGGTAACAGATCCATCATCTGCATTCTAACTTCTAGCTTACTGGTTAAATATAAAGAAATAACAGTTGCTAAAATAAAGATAAAAATTACAAGTTTACTTCTTTTTTCAATAAATTTAAATATTTTATTAAACATTATAAATCCCCTCCATATTTTATTTTTTTAGAGATTGTAAAATAATAACATACTTAAAGTTTCTTAGAAAAAAGAATGACCTGTATCTATTTTCTAAGAAACAAAGAACGTTTAAAAAATAATGTTCTCATATTTTGTTATAAAAACGCTTAAAGCATTGCGTATTTTAAAGCAAAATTGGAATGTTATTTTTAAGCCACTCCTAAGTAATTAATTATTTAACCATCTCTGAGCCATTTTAATTATGCAATTTAAAATGACCTGTGTCAAGTTAAAACTTATTTTGAACTGCAATTTTAAAAAGTCCGACCGGTTGGTATGTTAAGTGTATCATAAAGAAAGCCCTTCGTCAAGAGCTTTCTTTATGATATGCTTAACATATTTTTAAGCCGTTCCTTAATGATTCTAAATTATTAAGTCTTCTAGAAAACTATTCCATAATTTTTCACAATCTAAGCTTATTCCAAAACCTTTATAAATCATTAATCCATCTAAAAAGACAAAAACTTTTTCTGATAAAGTTTTAATATTTTTTTCTCTTAACGAAACTCCAATATTTTTTAAATGTAAAAAAAGATTTTCTATCATAGGCATAAATTCATTATAAATTTCAGTTAATATCCCTTTTATATTTTCATCTCGTAAAGCCTGTATCATAAATTCATTTTGAAATTTAAAATAATTTTCATCTTGTGCATCAATAAGCGAAAACATTTTTCCAATATTTTTTAATTTGTCCATATAATTATCTATTGTTATTGTTGAGCTATTAAAAATATTTATAAAATCAAAAGATTGAAAAATATATTCTACAACTTTTATAAATAACTCTTCTTTGCTTTTAAAATAGTGGTATAATCCACCTTTTGAAATTCCTGCTTCTTTTACTATATTATTAATACTTGTTTTATCATATCCATTTTCAGCAATTAATTTATAGGCTGTATTTATTATTTTTAAGTATGTTTTTGAATAATTCATAAATTTTCACCTTTCTGGATTTTTTTGCTTTCTCTATTTAATAATTTAACTAGCTCCACATTATAGCATATTTCATAAATTTAAATCTATTTGCTAACCCATAAAGCTGTGCCATAAGCTAATACTTCTACACTTCCAACAGAATTCTTATTATTTGCACTTTTACTTATAGTGCTTGTTTGAATTCTCATATTAATTATTATATTAGCCCCTTTTGCCTGCTCTTTCATTCTTATAATGGCTTCTCTTCTCCCTCTGTCTATTAATGATTCATAACTTGTAACCTCTCCACCAAATAGATTTATTAATATTGCAACAATTCTTTTGAAATAATCTATTGAAATTACTACACTTCCAGTTACTAATTCACTCTTTAAAATTTTATCTTCTTTTAATACTTTTTTTACTGTTACTACAGGTAAATTTAAAAGATTTTTTTCTTTCTCTTTTATTCTATTATAATGATTTTTTTCTGCACTTTTTCCAGCAAAATATCCCAAAATAAGTAATCCTAAGAATATTAATAAATTAGTCATGATATTTCACCTACTCTTCTACTTTTACTGCTGTTCCATAGACATATAATTCAGATGCACCTTGAGCTACAGAGGAAGTGGCATATCTTACATTAACTATTGCATTAGCTCCATAATTTTTAGCTTCTTGTATCATTCTGTTTGTAGCTTCATTTCTTGATTCTTGCAAAAGTTCTGTATACCCTTTTAATTCTCCACCAACAATATTTTTAAAAGTTGCCATTATATCTCTTCCTACATTCTTTGCTCTTACTGTGCTCCCTGATACCATTCCATAAAATTCTACAATTTCTTTTCCAGGTATTGTTTCTATATTTGATAAATACATTATTGCCCCCTTTTAATTTATTTTTTCAAAATAAATTTTTCTATTAATTAGTAAGATATAAATTTATTCAGAAAATAAGCTACGCCGTTTTTTTTAATATGCGATTTTTCAAGACAAAATTTTTCAGAAACCAAAAATTTAGAAAAACATTTATACTTTACCAGATTAAAGCGTAGCTTATTTTTCTATTAATTTAGATATTTTTTCTAATACTTCTGGAAGATTTTCTTTACAAATTGCCCAAACGACATCATAATTTACTCCAAAATAGTGATGAATAAGTCTATCTCTTGTTTTTGCCATCATTGACCATTCTATAGAGTTATCCATTTCCATTATTTTTTTATCAATCATTTTAGCAGCTTCTCCAATTATTTCAATATTTCTTGTAACTGCATCTTGTGTTTTAATATCTTTATAAAATTCATCAATATCAATATTTTTAGTATATATGATAATTCGTTGAATGGCTTCTTTTATATCCATCAACAAATCTATCTGATTACGTTTAGACATAAATAATACTCCTTTTTATTGTTTGCTCAACATCTTTTACTCTGATTCCATTCAATCCTATTTCAGTTATTATATCCACTTTTTTTTCAAGTTCCTTTTCCAAAAAATCAATTAATTCAAAATATTTAAACCCAATCGGTTTCTTTAATTTTATCAATATATCTATATCGCTATTTTCATTATAATTTCCAGTTGCATATGAACCAAATATCCCAATTTTTGATATACCATATTTATTCCCTAAAACATTATAATCTTCTCTTAATTTTGATAATATATCTTCTTTAGTCATTTAGCTCCTCCCTTTTATTTTTTCAAAATAAATTTTTCTATTAATTTTGCAACTCCATCATTCATACTTGTATCTGTGATATAATCAGCTATTTCTTTTATCTCTTCATGTGCATTCCCCATAGCTACACCTAATCCAGCAGTTTTAATCATAGTGCTATCGTTAAAACTATCTCCCACCGCTATTATTTCATCAATATTTATATTTAATTTATTAGCTAATTTTTTCAAAGTTTCTCCCTTATCAATCCCTTTATCCATAAATTCTAAAAAATATGGTTTTGATATTGTCATATTTAATTTATCTGATAATTTAGGATGTAACTTTTCAGATACTTTTTTTAAATATGTAGGGTCTTCAAGCATTAAAACTTTTATAACATTCCCTTTTATACTTTTTTTAAAATCAGTTATTGTTTTTATTTTCATTCCAGTTATATTAGCTTCTATTTCAGTGTATTCATTGTTTTGCTCTGTTATTATATCATCTGACAAATATGTATGTATAAACATATTTTCTTTTTTGCTTATTTCATATAATTCATGAGCAACCTCTTTTTTTAAACTTTGTTCAAATATAATTTCATCTTTATGACAATCTATAATTCTAGCTCCATTAAAGGATAATATATAACTTTTATATTTATCAAGTTCTAACTCTTTTGCATAATCTTTCATAGCAAAATCAGGTCTTCCAGATGCTAATACAACTTTCACACCTTTTTCTTGTGTTTCTTTTATAGCTTTTTTTGTTCTTTCTGATATAGTATGATCTTTTCTTAATAAAGTATCATCCATATCCATAACTAACATTTTATATTTCATTTTATTTCATTCTCCTTTTATTTTTTTGAATACATTATTTGTGAAAACTATACTCTATCATATCATTTTAGTTGATTTTTTTCAATACTTCTAATATTTGAAAATTTATTTTTAATATATTCCTAAATTAATACCATTTATTCTCAACCATTTTCTTTTTATCTTATAATCAGGAATAGATTTGCTTACTAAATCCCAAAATTTTTTTGAATGATTATGATGTATCAAATGGCTTAATTCATGTATAACTACATAATCAATTATTTCTAAAGGAGTCATTATTATTTTCCAATTAAAATTTATATCTCCATTTGTAGAACAACTTCCCCAATATGTTTTTGAGTTTTTTATTGTTATTGATCTATAATAAAGATTATTTTTACTACTATGAATTTTCATTCTTTCTTCTAATTTTTCCATTGCCTTTTGCATATACCATTTATATAATTCTTTTTTTATATATTCTTTATCAGATTCCAGTTTATTATTTATTTTAATCTTTAATTTATCTTCTAATAGTTCTATTTTTGTATTCTTTAAATCTTCACATTTTAAAATTTCTAATTTGTAATTTTTTCCTAAATATAAAAATAGTTCTCCATTTACATACTTTTTTTCTTTTTGTAAATGTATATTATCATTTATTATCTCAAGTTTTTTTAATATCCACTTTCCTTTGGATAATATTATCTTTTCAATATCTTCATATTTTGCATTCAAAGGAGCAGACACAATAATTTTCCCATCTCTTTTTATAGAAATTGATAAATTTTTCTTTTTTTTCTTTATTAATTTAAAGTTTATTATTTCATTTTCATATCTTACTTTGTGCATAGCAAATTCCTACTTTAATTTTATTTTGTTTATTTTTTTCTATGATGAATATTGGACTAAATTTATTCCTCTTTAGAAATATTAAAAATAGCACTATACATATTTCTTCTAATATTTGGATTTTTCTTTTCTAAATTTTTAATTAATTCTTTTGTTTCAACTCTTTTTGAATCTAGTTTTACCGAAGAAAATTTGCAATCAATATTTATAATAGGAAGTTTTGCCTTTCTCGCATATTTAATTATTGTATCTTCTTCCACAAATGATAGTGGCCTAATTATTTCATAACCATATTGTTCAGATCTATATATTGGTTTCATTTGATTCATATTTCCTTGATAAAACATATTCATAAAAAATGTTTCTATTATATCATCCAGATGATGTCCAAGTGCGAGTTTATTAGCACCTAATTCTTTCATCATTGTATATAATACTCCACGCCTAATTCTTGAACATAAAAAACATGGATTTTTTACTTTCTTATCCTCAAATACAATTTTATCAATAGTTGTTGATTTTACAATTAACTTAAGACCAATTTCTGAAATATATTTTTTTATTTTTTCAACTTCTAAGCTTATCTTTTCAGTTTTACTTATGAATATAGGTATAATTTCAAAATCAAATCCTGCTATTAGCTTAACTCTTATAAGAGTATTTAACATTACTAAACTGTCTTTCCCACCTGATATACCTACTACTATTTTATCACCTGGATTTATCATATTATATCTATGCATAGCTTTGCCAGCTTTATTCCATAATGTTTTATTAAATCCTTTTATCTCAATTTCTTTTAATATTTCTCTTTTCTCCATTTTTTCTCCTTGATTATTCACTTGTGTATCCCATTACATATTTTAAATTAACATTTCTAAGAGAATTAAATATACTTTTTTTTATATTTGGATTAGTTTTTTCTAATCCTTTTAATAATGTCTTAATTTCTAATCTTTTTGAATCTTCTCTTACTGTGTATAATTTACAACTAGAAGCCATAACTTTTATTTCATTTTTATTTATAAAATTTATTATTTCTTCCTCTTTTACATATGCCAAAGGCCTTATTATTTCAAAATTTCCAGAGGTTGATTCTACTTTTGGCAACATAGTTTTTATTGAGCCTGCATAAAACATATTTATCAATGCTGTTTCAATAATATCATCAAAATGATGCCCAAGAGCAAGTTTATTACAACCTAATTCTTCTGCCTTTTTATAAAGAATACCTCTTCTCATCTTTCCACATAAAGAACAAGGATTTTTCTCTTTTCTTTCGTCAAATATAACTTTCCAGATATTCGTTTCATATTGTTTATAATCAATATCTAAAGTTTTTATATAGTTTTTTACATTTAATAAATCTTCTTCTTTATAACCAGGGTCCAAAGTTATTCCAACAAAATCAAAATCTAAAGAACGATCTTTTTTCAATTCTTTAAATAAATTTATTAATATAAGACTATCTTTCCCTCCAGAAATTCCAACTGCTATTTTATCTCCAGGCTCAATCATATTAAATTCTTTAATAGCCTTTATAAAGTTTTTCCATATTTTTTTATTTGTTTTTCTCATATGTCCTCCAAGTAATGCAATTTTCTAATGTTTTTAGAATATAAATATTTTCCTAAATTTTTGGCTTTTGAAAAATTTCGCTTTGAAAAATCGAATATTTCAAAAAACGATGTATCTTATTTTTTGAATAAATTTATATAACCAAATACTCTTTCATCATCTCTTCAATTTTAACCAAATCTAATGCCTCAATTTCCACTATTTCCCCATTGCATTTCATAGAAATTGGTGTTTTCCCTTTTACCTTTGAATACCTAGAAAATAAACTTTCAGCAAATAATTTTTCATCATCTGAAAATTCTCCAAATCCCAAAATTACAGGACCAGGTATCCCATTGTCTAAAATATAAAGGCTAGCTTCATCTTTATATTCCTCTATTTTTAAATTTTCTTCCTCTTTTCTACCTACAAATATATATTTTCCTTTATCTAATCTAAAAAATCTTCCTATTTTACATAAATAAAACAGAAAATCATTATCAAATTGTTCATCATCTTTTAATATTCTAATTCTTCTCCCATAGTTAGGTTCTGTTAGTAAACACCCTCCACCAGGCATTTCATATTCTACAATTCCTAATTCATCAGCAAGTTCTAATTGTCTTTTTCTTCCTCTCCCTTGGATATCCATAAGTTTGTTTCTATCTATCCATCCATTTTTTTCTGGAATAGTTTCATCAATCGCTTTTGCGCATAATGGTCTTACTACATATCCTGCCATTCCTGACAAATTTTCTACTCTATTTAATGCAGATCTATTTTGAGACATAGGTCTTTGACCCAAAACTTCTCCTGTTATTATAAAGTTAGCCCCATATTTATCTAATAATTCTGAAGCTGTTTTTAACATAAGAGCATGACAATCTATACATGGGTTCATATTTTTACCATATCCGCTTGGTGGATTTTTAACTATCTCTTTATGAATATCTTTAAAATCAATATATTCAAGCTGAACTCCTAATTGTTTTGCCATAGCATCTGCTTTCGGATTTTTACCTCCAAAAAAATGAGATACAAAATTTAAAGCTATTACCTCTATCCCTTGATTTGTTACAAGTTTAACTGCTAATGTGCTATCTAATCCTCCTGAAAAAAGTGCTAATGCTTTCAATTGTTTTTCCTCCTTAAGTTCTAATCGTAATTTTTTAATTCTAGTTTTTCAAAATCTTTTAATGCTCTTTCCAAATTTCTTCATTTATTCAACTATTTCTTTAACTCTTCCGACATCTCCACTCGTTAATCTTACTTTTATTCCATGAGGATGTGTCGCCGATTTAGTTAAAATATCTTGAACTTTTCCATCTGTTAAAATTCCACTCCTTTGATCTTTTTTCAAGACTATTTTCACCATAATTCCTTTTTTTATGGTGACTCTTTTAGTTCCATCCATAACATTTCCCTCCAATTTTATCTCTTACAATTCTTTATCTATTTTATCATCTTTCAGCTTTATTTTCAAGAAGAGTTTATGATAAAAAAATAAGCTACGCTTCATATGGTAAAATATAAATGTTTTTCTAAATTTTTGGCTTCTAAAAAATTTCTCTTTTGCCTCATTTTTATCTCCAAAATTTAATCAAGATTGGGTTTGAGTTATCACAATTAGTGACAAATCAAACCCAATCTGATTTTATTTCTTTTTATTTCTTTCTTTTTTTGCTATCTATAATACTCTTTTTACTTTTGTTACTATTCTTTCTATTTTTATTAATTATTTTTTTCTTTTTATTTGTTTTATCTCTGCTATTTTTATTTTCTTTGACATTTTTTCCATTCCTATCTTCAAAGAAATTTTTAGTATTAACATTAATTCTTTTATTATATTTAAGCTTTGGCAAACTATTTTCAGCTTTTACATCTGGAATATGCTCTAATTCCATTTTAGGGATTTCCATTTTTATATCTCTTTCAATGATTTTTAACAATTCCTTATCTTTTGGTGTAACAAAAAGATAAGTTTTTCCATTTTTACCAGCTCTTCCAGTCCTTCCTATTCTATGAATATATCCTTCTCCATTTTCAGGAATATCATAATTATATACATGAGTGACACCTGTTATATCAATACCTCTCGAAGCTACATCTGTTGCCACCAAATATTGTATTTCTGCATTTTTAAAAGATTTCATTATTTTTTCACGTTTTGATTGAGGTATATCACTATGTAATTTTTGACAATTATATCCTCTTTTATAAAGTTCATCTTCTAATTTGTCTACTCTTAATTTTGTTCTACAGAAAATTATAGCCAAAAAAGGATTTTCCTTATTTAACATTTGACAAAGAGCATCTTGCTTTCTTCTATCTGTTGTTTCTATTAAATATTGATCAATATTTTTGAGTAGAACTTCTCTTTTTTCAATCATTACAATTTGAGGTTCTTTTGTAATTTTATATGCAAGTTTTTTTACTTGTGAACTTATAGTTGCAGAAAAACAAAGAGTTTGTCTTTCTTTTGCTGAAGCATTAACTATAAATTCAATTTCATTTTTGAATCCCATATGAAGTATTAGATCCGCTTCATCTATTATAAGAGTATTAATTTTACTCAAATTAACAGTTTTTCTCTTTAAATGATCTATTAATCTTCCTGGAGTTGCTATAATTAAATCTACACTTTTATTTAATTTATTCATCTGCACATTTATATCTCTTCCACCATAAGCAGCAAGAATATTAAATTTATTATTTACATTAAGTTTTTCAGCTTCTTGTGTAATCTGAATTGCAAGTTCTCTTGTTGGTGTAACAATCAACGTTTGTATATTTTGGCTATTTTCATTCATTTTATCAAATATCGGAAGTAAAAATGCTAAAGTTTTTCCTGTCCCTGTCTCTGCCTCTGCTATTATATCCATCCCATCATGGATAAGTGTTATCGTTTCTTCTTGAATTGGAGTTGGTTTTTTTATACCATTAGAAATAAGTATATCTACAAGTGTGTCGCTAACCCCAAGTTCTTTAAATTTATTCATTATCTCTCCTTTTTTTAGTCCTACCGTATTTATTCTTAGGAATGGATTAAAAATAACATTCCCCTTTTTAAAATACGTACTAGTAAATTTTCTTTCATTATACCATATTTAGTACAAATAAAATATCTTTTTTCATATTTTAGGGAATAGATAAATATTCAAAGATATATTATGATATTTTAAAACTTGTAGCTAGATAATTCCAAAAATACTGGGATTAAAATTCTTATAAAGAAAGCGTAATTTATTTTCTGAATAAATTTTTACTTCACTATTAAAGAACAAAATAAGCTACGCTTCATCTCATAAAGTAATCTGTACCCTTTGTCAAGTACATTTTAAAAAAAAGTAGTTAAGCTGATTTATTTTCTAAAAGATGATTTCTATATTTTATAGGAGTCATCTTTTTTAATCCCCACTGACATCTATAATTATTATAATAATCCATATAATCATCAATCTCATTAATTAATTCTTCAAATGTATTACATTCTTTAATATTTGCTTCATCTTTAAAGTGGCCAAAAAATGATTCTTGAGGAGCATTGTCCCAGCAATTACCTCTTCTTGACATTGACTGATCTAAGCCACTATTTTTAACTAATTTTTGAAATGTTGGGCTTGTATAATGGACTCCTTGATCAGAATGTATTAATGCATCCTTATGAATTTTAAAGCTTTTGTTTTCCATAAGAGTTCTTATTGTTTCTGTTGCAATTTCTAACTTAATATTTTTAGATAATACATATGCAGGTATTTCTCCTGTTGAACTATCCTTAATAGTTGATAAATACGCACGTTGACCATTACCATATGATAGGTATGTTATATCTGTTAATAATATTTTCCCTGGTATTTCTTGTTTAAATTCCCTATTCAATTTATTTGGAATAGTTGTATGCTCTTTTGTAGCCTTTGCTATTCTCTTATAAGGATTTGCCTTTCTAATCGTACATACAATACTATATTTTTTCATAATTCTTCTGATTTTTTTCAGATTAAAAATTGTAGCAAATTCATTTTCTAAAGTCATTTTTATCTGTCTAGCTCCCTTTTGCCTACCTTTGAATTCATATGCTTTTATGATTAAATCTCTTGCTTTTTCATCTTCTAATTCTTGATTGCTTTTATTTGTTTTGGAAGTTTCAGACAAATAGTTATAATAACTTGTTCTAGAAATTTCTGCAACTTCACATAAATATTTTATAATATTTTTTACACCACTTGTTTCTATTACATCTTTGATTATAACAAACTTTTCTGATGGCGATAATTCAATTAATTTACCGTTCACCTCTCTTTCTCGCACGTCTAGCTTTTTTAGCAAATCAATCTCCGCTTGAAGATAATCATTTTTTACTTGAAGCCTTTCATATTTCTCTTCTAAAGATAGCTCTCTTTCTAAAGGTCGTCCAGAGTTCTCTTTTCTTCTATCATCTAACCCTAATACTCCTTGCTCTTTATAGGCACGTCTCCATCTTGCTGCTGCTGATCGAATCCTTTTCATCCCTAATACTTGTACGTCAAATCCATATTTTTCAAATATTGCTCTAGGTAAAATTTTATCTTGACTTTCTGCAATAAAAATTCTTCTGAATTCTGATGTATATGTGATTGCCTTAGAACTTATAGTTTTGACATATTTATTTTTTGATAAAATTTCAATCTCTTTTTTTGTGAATATTTTGTTGCTCATGAAATCCTCCAATCTATTAAATTAACATTATAGATATTATATAAAAATACCATATCTGATGCAACTTTTTTTTAAATGTCCATCTTATAGGGTACAGTATAAAGTGTAAATATTTTTCTAAATTTTGGGATTCTGAAAAATTTCGCCTTGAAAAATCACATATTTCAAAAAAATGACGTAGCTTATTTAATAGGTAATTTATACTTTCCTATTAAATAAAGAATAGTGCATATTTTGCTTTTTATCTCCATTCTATTATTATTCTTAATTTTTATCTACTTTCTTGACCATCTATGTATTTCATAGCTCTATCAAATATACTATCCTTTCCATTATTATATTTATCAATAATTTTTATATCTGGCTCAATTCCATTATCATTGCTATTTCCAGCTTTATCTGTTATCAAAGTCCCGCTTGACAATCCCACTAATGATGAATCTGGAAGAGAATATATTTCAGACGGTGAACCACCACCGCCTGTTTTTTCTCCAATAACTATCCCCAAATTGTTATTTTTTACAATATTAACCATATAATTTGAGGCACTAAAACTCAATCTATTAGTAAGAAGAATTAACTTAACTTTATATCTTTTTTTACTATTATTTTTAATATCTATAGGTTTTCCCATATTATAAAGTTCATATTTATCTCCTGCAAAATAATTGATAATATGAAATACATTTGATAACAATCCACCACCATTCCATCTCATATCCAAAATAACATATTTTTTTCCATTTAGTTTATTTAATTCCTTATCAATTTTAATAGGTGGATCAATCCAATTGGGAATATAAATATATGCTGTCTTATTGTCAATCTCTTTTAATATAAATTCATCAAATTTTTTATCTGGTTTCGTTTTATAAAAGTTCATTATTTCTTCATATGCCTTTGCACTATTTTCTGTTCTATTTGTCCCATTAATAACAAAATTTGATTTTCCAAAATTAATAAATCGTGTATGCCCATCATCCATATTTGTTAAAATAGTATTAAATATATCATAAAATTCAGCATTACTTTTCGTATTAATAAGTTTTGACATATTATCATTCCTCATTTTGTCAAAATCTATATTTTTATCTTTCGATACTGTATACCTTTTTTTACACAAATTTATAAAATATAAAAACACCTTTCTTTTCATCTCTTTATCCATTTTCTCTCTAGATAATTTATTAATTTTATAATTTTCTGCCCAACTTTTTATAAAATATTCTCCATCATAATTAGTTATTTGCAAATTACCGTTAAACAAAAAATAAGATATCATATATATTGGAAAATAAATTTTACTATTTTTTTTAATATATCCAGCATCAAAATCGTTTAAATTTAAACTTTCTTTTTCAAATATTTTTTCAGATGCTCTAACTACTTTAAATTCTGCTTTTACATCTTTTTTATATTGTTTTAAAACTTCTCCGCTACTTATTCCTTCTGCAACTGTAATTTCATCTCTTTTATTATAAAAATTTTTAATAGTTAATCCATTTTTATCAAATAGCGTGGCTTTATTTTCATTAATATCAAATTCCAATTTAAAATTTCCATCTTTTTTAGATATCTTTATAAAATCTTTTTCTGCCTTGTAATTTAGATCCCCAAAAAATTCACTCAACATATCTTTTAATGCTCCCATTTCGATATAGTCAATTCCATCTTCGGTTATGACTTCATAAGTTTTTTCAACAGGTTTATTTTGGCTATAATGTTCAAGTTTAAATTTTCTATAATTTGGCATTAATGGAATAACCTTTATCATTTTCCCTCTACTTTTCTTTCCACTTTTTAAAATTAATCTTACTTTATACATTACATAACTATTTTCTTTCTGTTTTATACTTGCTCTGTTTAATTTAGGACTTATTTCTGCTACTTTTTTATATCTCGAACCATCTAAAGAGTTTTTTAAAATTTCTATTTTTTCAACGTTTTTTTTATTTTGTAATTTCCAATTTAACTTTATTACTTGTGGAACATCTGTTTTAGCTGTTAAATTTTCAATATCATCTATTTTTAATTTGTCTTGCTTTTTCTCTACAACCTTTACATTAATTTTTGAAACATTTCCTTTTTTTACAACAATACTTTTTTGACATCCTATAAAAAGTAATGGTATAACTGCTACTATCATTAATCTTTTCATCTTTTTACATCCTCCCTGTTTAGTTTTAATTTTTTTAATAAACCACCTCGTCACAATTAGCGGGAAATTTAACCCAAATCACAATCAAAATTCTGCAACAATTTTCATATAATTTATATTATCATCTTTAATTGTAGTAAGAATATTAAATTTATACATTACCCCCTTATTTTCAAAATATATTGAAGGTAAATCAGCACTTACCACATCATTAACAACTTCATATTGATGCAATTCATCTAATTTATAATTTATAGTTTTCATCATTTCTGCATATTCGTTAATATCCATTTTTTTATTTGAATTAGTATCATAAAAATAGATTACTGCATAATTCATATCTTTTTTTGATGTTTTTATTGTTGCTACAGTTGTTTCATTTGGAATTATATTTTTATAATAAATTATATTTCTTAAATCGTTAAACAACTCTTTACTGTCTTTATATTCATAAATTGGTTTTTTTAATTCACTTATAGCAATCATTCCATTTTTTGCATTCATCTTTCTTGATAATCCTTTATCTTCCCAAACAATATTTACACTTGTTTTAATATAATCTCGTTTTGATTTTTTTAATTCAAATTCTTTTTGATCTTTTTCATTTCCAATTAGCCATATAAATCCTTCTCTCAAAGTATCTCCCCATTGCGACCAATTATGAGCATAATTATGTTGTACAAATTTAACTCCTTTTACTGTTTTATTCTTTTTTAATTCATTGTAAATCCATTTATTACTTTCTGAAAATATTTCCATTATTCCAGTTGATAAAAAAACTTTTAATGGAAATTTCTTTTTATCTATATCCAAAGCAAAAGCTTCTCCTGAAATATTTTCAAAATCACCATGATCTCCTTTAAAATATCCACATTCATTATATGCTCCTGATTGTGAAAGAAAATATCCAAACATATCAGCATGTTTATACGCTATATATGCAGATATATTGGCTCCTGCCGAAGCTCCAACAAGAATTCTATCTTCTTTTGATCTACCTACAGAATAATTTTGTTCTACATATGGAACAATTATATTTACAAATTCGTCTACATATTTTATATTGTCTTTTGAAGAATATTCTTTAGCTCTTTCTACAGCATCTATAAATACACCTACTATTGGTTCAATTTCTTTATTCTCAATCATATAGTCTAAAATATTTTTAACATCTCCATACTCCAAATACCCCGATCCATCTTGAAAATATGCCACTTTATATTTTTTGTTTTTTGAGTATTCTGGTGGTAGATAAACCACCATAGCCCTTTTTATCTCTTTTGATTTTACCTCTTCTGTTTTTCCATGTGCTATTTTTTTATTATATTTTCTCTCTATTTTAGGAGCCCTATTGTCCATTTTAAATATAGAGTTACTACCTCCCATTCCATTAGACTGCTTTTCCGTATTTAAAGGATCCATTATCCAACCAGAGTCATTTATAATAAATTTATATTCTACTCTAGCCTTAATATCTAATTTAATTTGTGCCAAAAATAAATTAGTCCCTTTTACTCTTTTGAAATTATATCCTGGTTCTCCCCAATCATTAATATCTCCAACTAATGTAACTTTATGAACATTTCCATAATATACAAATGTAATCTTATTACCCTCAATAATTGGAAATTTTGTTTTTTGAACTATATCTTTAAAATAAAATTTTATAAAATCTTTTCTATACTCTATTTTCTCCTTTAAAAGTCCTCTATAAAATTCATCAAATGAACTTATTTGTTTATTATATTCTTTATTACTTACATTTTGATTTTTTGATAACTTTACTTTTTTCACATTATTTGCAGTACATCCTGCCATTAAAGCTACAATAATAATTATGCTAAAAACTTTTTTCAAATTCATACTATTAAACCTCCCCATATATTTGAGTACTCTTTAATCAATCTTTTATTACAACTATTGAATTATCCGGCATAACAAAAAAATCTGATTTAGGATCAATACTTGTTTTTAAATCTTTCATTTCATAATCTAATCTAAATTTCCCCTTTTTTCCCTTTTTCTCATAGTCAATTTCCAATGCACTATAGCTTGAATCAAGTTCCCAATCTTTTGCTTTTTCTTTAAAAATTTGATTAATTCGCTTCATATATTTATTGATATTCTCTAAATCATTTTTATCTTTTATTCTTTTATATTCAGGTATTTCATATATTTTTAATTTATCTATTTTATTTACTACAACATCTCCAACTAAAAATATGACTTTTCCATCTTTAAATCTAAATTTTGTTGATAACTCTTTTTCAACATTATATGGATTTCCATAAGTTATGAAAAAAGAATTAGGCAATACCTGTTTTAAATATTTATTTAAAATATCATATAACTCATAACTGCTATTTGCTTTTTTCACTTTCTCTAAATATTCTTTATTTATATTTTTTAATTTAATTTTATTTTTTTCTCTCTCTGCTATTTTTTCTGAAATTAATTTTTTCAAATATATAAAATCAAATTCTTTTAATTTATCCGTTTGAGCTCTATAATTATCAGAAAATTGCTCATTATTTATTATTCTAAACAGTTTATCATTTTCCAAAAGATTACTTACTTTTGTATTATAAATTTTCATCTTTTTATTAAAAAAATAATCTCCAATAAAAATCATCGGTATATATTTCTTTCCCTCTCCTGATACTATTTTCAAATTATAATCCCCTAAATTCAGTACTTTTTTTTCTCTATTTTTTATAATAGATTTTTTTGTATCAATCTCAAATTCTACTATTCCATTATTTTCAAAATATATAATCCCATTATTTATATTATATTCTAAATTTACAAATTTTAATTTTAATATTTTATACAAATCCTTCAAAGAGATATAATCTATACTATTCATTCTTCTTATATTTAAATTTTTTATTACTTTATACCCATTTTTAACTTCTCTTATAAGCAATTTAGATATAATTATTAAATTTTCTCCTTTTTCTTTCGTTTTTATATCAGAGTCATAATTAATTGTTAGTTCGCTTGAAACGTCTTTATATTTTCCTTTTATTGTTATAGCTTTTTCTCCATTAAATAAAAAATATCCATCTTTTGAAATTTCAGCTTTCTTCCCATCGACAATTGAATATTGAATGTTTTTTATTGCACTATATTCCAAACCGTTATTATATTGTATCATTGGAACTATTTTAAAATACTCTCCAATTCCACTTAAAACTCCAATTTCTAATTTTAATTTTTTAATTTTTTTATCTTCATTTCCAAAGAAATAAATTAATTGTTTTTTTAGTCTTCTACCCCAACTTATAGGATCATGCTTTCCTTCTATATCTTCGTAAAAAACAATATCTTTTTCATATTTATATCCTTTATTCAGCAAAATATTCAAAGCATATCTCCCGCCACAGTAGAAATAATCAGCATTATTTTCTTTTAACCCTTCATCAAGCCAAATTTTCAAATCTTTTTTACTATTTTGTCTCAAGAAATTCAGATTATCAATAACACCATGATACGACATTGAGCCAACGTAATAAAATTTATCAGGATAAGCAAATGCCGTTCTAATTGACATCCCTGCTCCAGCAGAAGATCCAATAATAGCTCTATTATATTTATTTGAAATAGTCCTATATTTACTATCAATAAATGGAATTATCTTTTTTATTACAAATTCTATATCTGGAAATCTTTCACTCCCACCAGAAATTCCAACTGCAATTATTTTTTTTATCTTATTATCTGCTTCTAATTTATTTATTATTTTATCGCCATTCCATCCTTTATCATCAAAAATACTATCTCCATCATAAAAATAAGCAACAGGATATTTTTCATCAGAAACATCATATCCATCTGGTAAATAAATATATACTTTGTAATCTCTTATTTTTTCAACAAGTACATTTTTTTTCCTAATATATACACTTATTTTTTTCCCTTTACTTTTTTTATCATCTCTATTTACAAGAACTATCTTAAAATTATATTCCACAAGTGGAATTCCATTTTTATATTTATAACTATGAACTGTTTTTTTTAATGTATCAATTTTCCGATACCGCCTTTCACTATCAAGCTTTAAATAGATTTCAACTTCTTTTACTCTTTTAAAATTTGCAATTTTCCATGATAGATTTATCTCTTTTCCTGTTATCTTTGTAGATAAATTTTCAACATTTAACTTAAAATATCTTGATACTTTTTTTTTAGTTGTATTCGTACAACCAATTAAGGATATTAGAACTAATAATGATAACAATGCTTTTTTCATGTTTCCTCCCTTATTTATTTTTTGGTAGTGTCAAAAATAATTTCAACACAAAGACGCAAAGCACACAAAGAAAAAAATTATTTAAAACCACAGGTTGGATACTGATAAATAAAAATTGGCAGTTGTTATAAAATACGCAGTGATTTAAATATTTTATAACACAATATGAGAGAATTGCTTTTTAAATGTTCCTAAAAATTTAATTTTTTTGTTTTTTTGCAAAAATTACTTTGATTTTAAAAATTCTACTATGATTTGTGTGATTTTACATAAAAATGTATATAAAGTAAAAGAATTTCAAAAAAATACTATTCTTGCCTTAATCATTATATAAAGTTTTTTAATTAAAGTCAATCATAATTTGTGTTCTATATAGTAACTTATACAACTAAAATGGAATTTGAGACGTTTTAATAGAACTATTTTAATTACAATTATATACTATGATGCAACACGCACAAACAGTATATAATTTAACTAGCACAATTAAAAAAGCCCACAAACAGCTTTAACACTAGCCATTTATGAGCTTTTCCTTAATCTCCAACTTCTAAAACTATCTCTTGTATATCTCTAACCATCTCTACGTTATAACTACTTTTTTTACTCCAATTTCTATTGCTCTATTTTTTAATTTTTCCATATAACTATCTGTAGCCATATCTACATTAATCAAATTTAATCTAACTCCATTTTTTCTAAATTTTATCAATTTATATTGAATTTCTGTTCCTGATAGAATTTCACTTACATTTACTACGCTATTTTCATTATCCAATATTTCAGGAACCACAACAGTTCTTATCTCATAAATTTTATCCAACTTTATAAGATATTCTAAATTTTTCTTTATTATATTATTATCTTTTCCTGTTAATTTTATATGTTCACTGCTATCCCAAGCTTTTATATCCAACATAAATTTATCTGTATTTTTAACCAATTCTGGCAAATTTTCAAAATCTAAAAATCCATTTGTATCTACAAAACAAGTTAATCCATATTTATGTACTTCTTTAAAAACTTCTACAATAAATTGATGATTTAGCGTACATTCCCCTCCGCTAAATGTAATTCCAGAAATAAAATTTTTATATTCTAAAATTATTTTCATAACCTCTTTAACACTATATTTTTTTACTTTAGGAGTAGAACTGTTTGGACACACTTTTATACAAGTGTCGCAATTTATACATTTATCACTATCCCATATAACTCGCCCATTTGATATTTCCAGAGCATCTGCAGGACAGCCAGTTACACATTTCCCACAATTATTACAAATATTAATTGTTTCAGGGTTATGGCAATACAAACAATTCAAATTACAACCTTGTAAAAAAACTGCAGTTCTATTTCCAGGACCATCTACATTGGAAAATGGAATTATTTTATTTACTAACGCTTCAGACATTTTTACTTCCATTTTCATATTCATCTTTTCCTCTTAATTTTCTATTTAATACACCTGAATTATCTCGACCTCCTTGACCTAAAACAGTTGTATCCCTTAAAACTGCAACTCCTTTATCCAATTTATTCATTTCTGATTTCTTTACAAGATATCCAGTAATTCTAATCACATCTGCACAATCTTCATACAAAGAAAAATATCTTAATCCTGTTTTAAATCCTCCATTTATAATATCCAATATAGCTTTAGGATTTCGTTTTGCCATTTCATCAAATTTAAAAATATCACCTATTCCAGATGGAAAATATTTGTGAAAAGGTGCTGATTGAACAATATGTTCATAAATATCAGGCTCTTCTCCTATTGGGATTCTACATCCTGGACTATCTCCAGAATCACTGTCAATCCCAACTTGTGCATGTAATAAATAATGCCCATTTGATATTTCACAATATCTGTTTGTATGTTCATTTACTAATTCTGATAATTTTTTTATTATCTCTTCTCCTAGTTTATCTGCTTTTTTACTATGTCCAAATCTATCATTAGAATTTTCTAAGCTAAGCAATTCGTTCACACATTCCGCTAATCCAACTATTCCAAACATTCCAGTAAATTTATCTCTCGAAACTAACCCCTCTTTTACCAAAAAATTACTTTTGAAAAAAGCTGATTCTTCAACTATAAAATTTGTCTTTTTATCCATAAATCTAGTTATTCTATCTACAAATTCAGGCAATAAATTATCAAAGAAATCTTCCTTACTTTTAGCCTCTAATGCCAATTTTGATAATTTTCCTCTTACAAGCGTATAACTTCCGCCACCAATATATAGACCATTATAACAACTTGCTATAGCATAATCTCCATTAAAATCTTTTCTAAAAATTTCATCATTTGCAAAGCTGGGTTTTGCCACTGCAAGTGCTGTTTTTATTGATTGAATTGCAAATTTTTCACTTGTTTTATCTTTATCATATTTTATAGTAATATTAGGAATTGGATTTTGCAACTCTTTAGAAACTTCTAAAATTAATTTCCCAGCTTTTGTTTCTAATGGACCAATATCTGCATGACAAAACGAATCTGTAATTGTTTTATCAATATGGTTTAAAAATAATTTTATAGCTTCTTTTGCTACATCCTCTTTTTCATCTTTTACGAATGGCTCTAACAGTGTATCTATATTCCCTAAATAAACGGGAACCATTGTAACTGATGGAACATGTTTATATAATATTAACAAATTATTTACAGCTTCCCATATATCTTTTGGTTTAGATAATTCTAAAAATTGAGATCCTTGCTCCATAAATTTTTGATAATCTGGAACTACATATCTTGGCTTATATGGAGCATTCCCCTCAGCTAAATCGCAAATTATATCTTTATCCATCCATTTTTTTATTTTATCATCTAAATGTAATACGTCAACCATATTTTCTGCTGCTCTCGCCAATGAATATACACGTTGCTCAAATGTTAAATGCTCATCCTTTATTATATCTAATATCTTTTCCATAAAATATTCCCCCTAAAAAAATCTTTTAATTTCACTCTAAATATAGTATACTTTATTTATAAAATAAATAAAATGACATATGTCACAATAAGGAGCTTTTTTATGAAAATTTTATCTAACCCAAAATCACTAAAAAAATATATTGATAAACATCTATTAAACACACATTTTACCGATTTTAATATTAATTATTTTGAATTACATAAATTTGAAAAAAATGAGTATATATGTGTCGCCGGCCAAAAATTAAATTACTTATATTTTTTAATTGAAGGCTCTGCTAATGTTTTCTTGACCCTAAAAGATGGAAGACAGATATTAATATCATATTTAATCCCATTTCACGTAATAGGAGATGTCGAATTAAAAAGATTTGGAATTTCTAGACTTGATGTTGTTGCTTCACAAGAATGCTTAGCAATAGCATTACCTTTTGAAATTATTAATAGTAAATTAGGTAAAGATTTTAAATTTTGGCAATATGCAGTTGAAACTATTTCTGAAAAATTAGAGAGTACAACTGAAACATTAATCATCAGTTCTCTTTATCCTTTTAAAATAAAATTTGCACATCATCTTTTAAATTCTACAACAAAAGATGATATTGTTAATTTTGATTCTCTTACTTCTTTAGCTGTTTTTTTAGGTGTAAGTTATAGACAATTATTAAGAGTTGTTCATGAATTTGAAAATGATGGAATTATAAAAAAACATAAAAGTTCTTTTCAAATAGAAAATTTTGATAAATTAGAAATTTTGCTTGTGGATTTTTAATTTTTTATTTAATAGGAAAAAATTTTTTTCATAGAATAAGTTACTATTCAAAATTTTTTATCAAAAATATAAAAAATTATTTTTCAAATGTTCCTAAACACTAAAGAAGAGCCGGGAATTCCCGACTCTTCTTTTTGTTACAAATATTTCAGAGGGCGTTTTAATAGTGCTTTAATCTGTTCGCCTTACTTTTAATTTTCAATTTCTTTATTGCTCCAATCCTAGTTACTTTAAAACTTAACTCTAATTATAATCTTTTTCTTTAACTTATTTCTCTTAATTCTAATCTCAAATTCCATTCTTCACTCTTAATTCTTTGCTCTTAACTTTTAACTCTTAACTTTTAATTCTATTCTCGATTTCCACTCTTACTTCCCAACCTTAATTCTCAATCTCACTTCTTAATTCTTAATTCTTAATTCTTATACTCTGGAGCATTAATCTAAATCCAATCTAAACATAATCTAAATCTAAATCTAATCTTTCCCGCCCTCTATTAATAATATACTTCATAAATTTGCAAAAATCAACCTTTTTTTTATTTTCTTTAATTTATTTTATATTTCTAAATAATTTTAGTAATATTAATCCTAAATTCGCACCCAAAGTAAACTTTTTTACATTTTTATTATTTTTAATATACTATCTAATTTTTCCATTTCAACTATCATTTTTTCAAAATCTATAAATTTGGGAACCATTAAATTAAATATTGTTTTTCTTTCTGTCTCTTCTCCATTATAAATTTCGCTAAGAGGTTTTTTTCCTCTGATTTTTACTTTTCTTATATTCAAAAAATCTTTAATTTGTTTTTCTACATTTTCATTAATTAAATATACTACCACTATTCTATGTCTAACTCTCTTTTCAATGTAATATAGTTCAATTCTTTTTAAAATAAAAACTAATATTGTCATTAAAACAGCTGTCCCTAATGCAAGATAAAAATATCCCAACCCAACTGCAATACCAAGACACGCAGTAAGCCATAATGTTGCTGCTGTGGTTATCCCTTTTATACTCCCCTTTTTTTGAATTATTGTTCCTGCACCCAAAAATCCAACTCCGCTTATAACCTGCGCAATTAATCTACCAACATCAAGTTTTACTCCTTGAGCCAAAGCCGGATGATTTATTAATAAATTTATTGTTTCATAACTTAATTTCACCTGTATAATAGATATTACAGCTGCTCCGACACATAAAAGAGTATGTGTAATAAATCCTGCTGGTTTATTATTAATTTCTCTTTCTAACCCTATTATTCCACCTGTTAATACAGCAGCTAAAATTCTTATAAATATTTGACTTAATTCTAAATGTTCCATAATTTCTCCTATAAAACGTGAATAGATCTAGATTCAAATGAAAAAGATATTGTTTCTTCTTTTTCATATATTTTCTGATTAATTGGATTATTATACGATATTTCTATCCTTTTGTCAAAAAATTCTATTTCATATTCATGATGAGCCCCCATAAATATTGTCTTTTTGACTATTCCAGAGAAATCTTTTCCTGAAATATCTATTGCTTCAGGTCTTATAACTAAATTCACTATTTCGTTTTCACTATAATTTTTATCACTTTCTATAGCATATTCAACTCCATATATATCTATAATTAAATATTTCCCATCTCTATTTTTTACTTTTCCACTAATTATATTTGCTTTTCCTATAAAATTAGCTACAAATTCATTTTTAGGTCTTTGATAGATTTCTAATGGAGTTCCAACTTGTTCTATATTCCCCTCATTCATTATAACTATTTTATCAGACAATCCCATAGCTTCCGATTGATCATGAGTAACATATATAGATGTTATCCCAACTTTTTGTTGTATTTTTCTAATCTCATCTCTCATATGAATTCTTAATTTAGCATCTAAATTTGATAATGGTTCATCAAATAAAAGAACTCCTGGTTCCATAACTATTCCTCTTGCTAAAGCTACACGTTGTTGTTGTCCTCCTGACATTTGAGATGGAACTCTTTTGGAAAAGTCATCCATTTGCATTAGTTTTAATGTTTTCTCTACTCTTTCCTTAACTTCATTTGGAGGTAATTTTTGCAACTTCAAACCATAAGCAATATTTTCATATACATTCATATGTGGAAATAGTGCATAATTTTGAAAAACCATAGCTGTATCTCTTTTATCTGGAGTTAATCTTGCTACATCTTCATCTCCTATTTCTATTTGACCAGTTGTTGGCGACTCAAATCCTGCAAGCATTCTAAGTGTAGTTGTTTTTCCACATCCAGAAGGACCTAATAAACAAACAAATTCTCCAGGATTTATGTCCAAATTTATATTTTTAACTGCATGCACCTTTTTATTTTCTCCAGTTATAAATGTTTTTGTTAAATTTTTAATTGCCACTCTTTTACTGTTTTTCATTTTATCATCTCCTATACTTCTGAAATTTCATCTATTCCAATTTTTTTAAATAATAACTTCATTATCATTATAAACACACTTACAATTATTACAAGTATTGTACAATATGCTGATGCTACCCCTAATCTACCCAAATCAATTTGACTCATGATAGCAGGTGTTAACAAATTATATCTTGCTGATATCAAAAATATTATTGTACTTATTAAAGTCATGCTTCTTACGAAAGCATAAATTAGTCCACTAAAAAATGCTGGTTTTATCATTGGTAAAGTAATCGATGTAAATACTTTGTGACTGTTTGCTCCCAATACACTTGCAGCTTCTTCAATTGATGGATCTATTTGCTGTAACGCTGCAATTGCCGACCTTATTCCTACTGGCATATTTCTAATTATAAATGCAATTAATATAATCATTGCAGTTCCTGTAAGCACTAATGGTTTTTTATTATAAGTAATAACATACCCCAGACCTATAATAGTTCCTGGAATTGCTAATGCTACCATTGTCATAAATTCTATAAAATTTTTCCCAATAAACTTTTTTCTAACAATTAAAAATCCTATTATCATAGCAATTATTCCTGTTATTGGAGTAGCTATTAAAGCTAAATATGTTGTATCTAATATTGGTTTTAATCCAAGAGCAAACACATATTTAAAATGACTTAATGATAAAGAATAATTTACTCCCCATAATTTTACAAAAGCAACTATTGGTATAAGAGCATACATCATTCCTACAATTAAAGTTATTATAAATAATATTGCTGTCATCGAATATGTTATTTTTTTTCCTGTTATTTTTTCTCTAGCTTTAGAGACCTTTCCAGTTACTGTTACATATGATCTTTTGCTTATATAATATTTTTGGAATGCAAATATCCCAACTGATAAAGATAATAATATAATTGATAACGCTGTAGCAGCCCCCATATCAAAGCTCCCTATACCCTGCAAATATATTTGAACAGCTGCAGTAGTATAATTACCTCCTATAACCATTGGATTCCCAAAATCTGCTATAGCTTGTATAAAGACTATTAAAAATGCATTAGCTAACCCAGGAACCATAAGTGGAAGTGTAATTGTTTTAAAAACTTGCCATCTCGACGCTCCAAGATCTCTAGCTGCTTCTTCTACAGAAGGATCTATTTTTTCCAAAAGCCCAACCAACATCAGATATGCCACAGGAAAAAATGTTAATGTCTGAACCAATACCAATCCTGTAAATCCATAAATTTCATTTTCTATTCCAAAAATTCCATGTGTTATAAGCCCTATTCTTCCAAATAACAATATTGCTGATAATGCTATAACAAATGGAGGTGATATTATTGGTAATATTGCTATTGAATCAAATATTTTTTTCCCAGGCACATCTATATAAGTTATTACATATGCAAATAAAAATCCTATTCCAGTTGCAAGCGTTCCAGTAACCATTCCTAATTTTACTGTATTCCAAATAACTTGAAGAGAATTTGCTTGATTCAAAACATCCTTATAATGATATAATGTCAATTTCCCATTTTGTAAAAGCGATGATTTTAATATATTAAAAAGTGGAAGCAATATAAAAAAACCTACAACTAATAAAGAAAAAATTATTGTTATCATTAATACTGGATCATCATATATTTTCCTTATATTTATTATTTCATTTTTTATTTTTAAAGAAAAATTATTTTCCCTTTTCTTTTTTAAATTTATTGTTTTTTCTACCATTTGTCCCTCCTAATGAGCCGTAAAAAAAGCTATATTCCCTCTCTCAAAACATAAATATTTTTCTGAATTTTTAGCTTCTAAAAAATTTCGCATTGAAAAATTGCATAATTTCTTTTCTAAGGAACATTAAAAAATAAGTTCCATATTTAAACTAGCAAAAAGAAATATATCTCTCTTTTCACTAGTTTTTTTATAATATTTTTCCTAATTATTTTAAATTTATTATAATTATTTAGTTGGAATTGTTGTTCTAGTCTCTCTACTAAATTTATCTATAAGTCTTTTTCTATTTGCTCCAGCCCATTGTATATCATAATCTATAAGTTTTGCTCTTTTTAATTGCAATGCTTCTTTTGGTGGTGTTGCATTTTTATTTGTAAGAAATTGATATGAACCTACAGTTTGTCCAATCTCTTGAGCTTGTTTTGATAATGCCCAATCTACAAATTTCTTAGCAGCTGCTTGATTTGGAGAATTTTTAACAATTCCTACAGCTCCTATTTCATATCCTGTTCCTTCTTTTGGTGTAGTAAAAATCAGATCTTTGTATCCTTCTTTTTGATATCTTATTCCATCATGAAGAAAACCTATTGCTATTGGAGCTTCCCCTAATCCTACCATTCTTCCTGGTGCAGATCCTGATTTAGTATATTGTCTTACTTGTTGATTAAATTTCTTTAAATATTCCATCCCTTTTTCTTCACCTTTTAATTGAATGATTGTTGCTACAAAATTATATGCTGTACTTGATGAACCTGGATGTGCAATTACTATATTATTCTTAAATTCTGGTTTCAAAAGATCATCCCATGTTTGAGGTAACTCTAATCCTTTTTCAGCCAACCATTTTTTATTCCCTTCTATCCCAAGATATCCACTATATATTCCAGTCCAAGCTCCATTTTTATCCTTAAAATTACTTATTATCTCTTTTCTCATTGGTGATAAATAATGTGTTAATAAATTTTCTTGATCAGCTTCTATAAAAGTAAGAGCTCCTCCACCAAACCATACATCAGCAATTGGATTTTCTTTTTCTGCTCTTATTCTAGCTAATATTTCTCCACCACTCATTCTCACCATATTAGTTTTTATACCAGTCTCTTTTTCAAATTGTTTTGTTGCCTTCAATGCATAATCTTCCATCATTCCTGCATAAACTGTAAGTGTTTCTTGCTTTTTATTTTTGAACAAAAAGTCAAACACTCCTCCTTGTGCTACAATTCCTGCTACGAACATTAAAATCATTCCCATTACTAGATTCTTTTTCATTTTCGTACCTCCTTAGTTTTTATTAATAAGATTATACTTTATATTTCTAAGAATAAAAATCCCAAAAAAGAATTCTTTTGTCCGAAATAATGAACAAAAAAAGAGCGTTTTTAAAAAGCGCTCTTTTTTGCATTGAAAACCCTTTGAAATTGTCAAGTTTACACTTCGTATATTTTAAATTTAAATAAATTTATGATTAATTTTTAATCTAAAGAACGTTTATAAAATAATTTTATCATTTTTTGTTATAAAAACGCTTGAATCATTGCGTATTTTAAAACAAAAAGATAAGGTTGTTTTTAAAGCGTTCCTAAATCATTGCGTATTTTATAACAAAATCCGGATATTATTTTTAAGCCATTCCCAAACTATAACTTTTTGAATTTTCTCTCCATTCTAGACACCAATTTATCCATTTTTCTCAACCTTCTACTTAATTCCCTTGCTAAATTCATCAAAATTATTACATACTCTTTTAAATTTTCTTTATAAAGTTTATACATATATTTTTTCTCCAAAACAAAAACTTCTGTATCTTCTTCAGCAATAACATCTGTAGCTCTACTCATCATATCAATTATGCTCATTTCTCCAAATCCATCACCTTGCGCTAAAAAAGCAAGCCTTTCTCCTTTTGAAGATATCCTAACTTTTCCTTTCTCTATAAAAAACAGTTCATCTGCTGGGTTTCCTTCCACACAAATAATATCTCCCTTTTTATATTTTCTTTTTTTGCTTGAGCTTTCAATGAAATCAAGTGTTTCTTGTTTTAATCCATGAAATATTTTCATATCTTTCATAACTTCACCTCCACCAAATATAAGGTAGTATTAAATAACCTACCATTCAAAACAGGACTATTCAATGTTTTATAAGTCAATCACCCTATGGTCATTCTTAACAAATTCTAATGGCGAACATTTTATATATTTTTTAAATACAGAAGAAAAATATTTATAGTTACTAAATCCAACTAATTCTGCTATTTCATACACTTTATAATCGCCTGAAAACAATAACTCCAATGCTTTTTGTATCCTATATTTATTTAAAAAATTATTAAGTGTATGTCCTGTTTCTTCTTTAAATTTTCTGCTAAGATAACTTGGACTAATATATAATTTATCCGACATTTCGTCAATTGTTATTTTTGAATTATAATTTTTAAAAATATACTCGATTGTTTCTTTTGTATATTTCGATTGCACATTACCCGAATGGATATAATAATCAATATCTATTATTTGAATTTGGTCAATATCTTTTATTTGACCTTTTATCTCCTGATATATTTTTTTATCTTGTATATGCAATTTTACTTTTTCAATTATCTCTTCTAATTTTTCTTCATCAATTGGTTTTAATAAATAATCAAATACATTCAACTTTATTGCCTCTTTTGCATATTTAAATTCTGCATAACTTGAAATTATTATAGATTCAAAATCATATATTTCATTTAATTCTTTTATCATTTCCAGACCATTTTTTTTCGGCATTTTTATATCCGTTATAATAATATCAGGTTTTAACTCTTTTATTTTCGAAACTCCCTCTTCTCCGTTTTCCGCTTCTCCAATTACAATACATCCCATAGATAACCAATCAACTGTGTAAATCAACCCTTTTCTTATTATATCTTCATCTTCCACTACCACTATTTTAATCATACTCATTTTGATTTCCCACCTTTTCTATAATAATTGGTAATTTTATCATTACTTCTACCCCTTCATTTTTTATATTATTTATAACAATACCATATTCTACGCCATATATCAGCTTTATTCTTCTTTGCGCATTGTACATCCCTATATGATTAGTGTTATTATCAACTTTTTTCAGTAAATTCTTTATCTCTTTTAATTTTTCATCGCTTATACAATTTCCACTATCAATAATTTTTAAAATCAAATAGTCATTTTCAATAAAACACATTAATTTTATTTTTAGATAATTATTTTTATCAAACCCATATTTAATGCTATTTTCCACTAATGGTTGTAATATTAATTTCGGAATAATACATTTTTCCACTCTATCTTCTATACTTATTTCATAATCTAATTTTTTATCAAAACGAATTTTTTGAATCACCATATAATCTTTAATATATTTTATATCTTCTATTAAACAAATATTTTCTCGTTCATAATTTATGCTATATCTTAACAAATTAGCCATACTAACTACTATTTTAATTGCTTTTTTAGGTTCTATTTTTATCATATACTTTAATATCTCTAAAGTGTTAAATAAAAAATGCGGATTAAATTGGGATTCAAGCTGTTTTATCTCTACCATTTTATTTCTTTTAACTTGCTCTTTATTCGTTTTTATAACTTCATCTAACCTAATTATCATCTCATTATAATAATCTCCCAACAACTCAAATTCATCATTTGTCTTTATATTCACAAATGTATCCAAATTACCACTTTGAACTTTTTTTATTGCATATAAAAGCTCATCCACAGATTTACTTTTGTTTACTGAAATTTTTTTAGATATGAGCCAGAATAATAATGTCAAAAAAACAAAACTAACAATTAAAAACATCAATCCAATTATATAAAATTTATTTATAAGTCCCATTGGAGTTAATGTGTATATAGATAATTTCCCTTTTAATATATCTGTTTTATAAACATAATAATCATCTCTATCAATTCGTATATACTCATTATTAATTTTCGATATAATTAATTTTCCAATTTCATTTATCATAAAATTATTGGTTGTTGCAATTACATTTTTAAAATTATCCGTTACTGCAAACAGATCAACTTTATCATTATATATAATATTATTCAAATCTTTTTCTAACAATTCAAAAAGAATATATCCTATAATTTTATTGCTTTTATTTTTTATAGTTTTTCCTAAAGAATATACTTTTTTATTATCTCTATTTATTTGATATTGATTTCTCATTAACATAATTTTATCCGAATTAATCTTTATTTCCTCTAATAGGTCATAATTTTTATTATTCTCTTTTATTTTTTGCCAAGCATTTGTAATAATTATATTCCCATTTTTATCAAAAATATAAAATATGCTTTTAATTTTTCTTTCATTCACAAACTTATAAAGCCCCTCATATATTTTAGCTTTATTTTTGTTCCCATTTATTATCTCTTTTATATCTATATTATTTGTCAAAAAATTTATCTCTTTTTTATAATCATTAAGTTCTTTTTCTATTATTTGAGATACATGATTATTATTTTTTCTATTCCTTTCTTTTATCATTTTTTTATTATAAAAAATCAAAATATTATAAAAAAAGATGGAAAAAAGTAACGATGGAATCAACGCATATAATATAAATGTTTTTCTAAGTTCATCTTTAAAAAATTTTCTTTTTTTTAGATTCATTTTTTTCTCCTATTCTTTTAAATATCCTTTATATTTATCCAAGATTCTATTTTTATTTTCAACTACCCAAATTAAATCATCATCCACCACTTTAATTTCAGAAATTAATTTTAATCCTTTTGATATTTTAACATCTTTTCTCACCGATCTGCGATTTAAGTCTTTCGCTATAAATGTTTGTACTTCTTTTGAAGTTAAAAAATCTATAAATTTTTTAGCATTTTCTAAATTTTTACTCCCTTTGATTATCGCAACTCCATCAGGTCTTATAATTGTTCCTTCTACAGGATATACAATTTTTATTGGTGCTCCATTTTTTACATAATTAGCCGCTGCTTCTTCAAATGTGCATCCTACAGTATATTTTCCATTCACAACCCCTTTATAAACTTCAGATGATCTTTTTAATTCTTTTCCATCTATATTTTTTATTAATTTTTTAATATAAGACCATCCTTTTTTATTATCTCCTCCCATTACATATAATTGATTTATTAAATGCTCAAATGACGATGATGACTTAAAAGGGTACGCGCTTGCTATTTTTCCTTTTAACTTCGGATTTAACAAATCTTTAAAACCATCAATTTTAACATCTCCTACTAAATTTTCATTAACCATTAATACGCTTGGAACAGCTGTAAATCTTGTTATTCTTCCACTTTTATTTTTATATTTCTCCGATATATATTTTTCATTTACAGATATATATTTTTCAAAATAATCAACTTCAGGCAACAAAGTAGATAACGACCCTCCCCATATAATATCTCCATAAAATTTTTCATCTTCTATTCTATTTAAAAGTTCTCCACTTCCTTTTGAGATAATTTTCACTCTAACTCCTTGCTCAGACTCAAATTTATTTATTAACGGTTCAATAAAAGAAAGAGGGTGCGGTGAGTATACTATTAAACTATTTATAACATCTATTTCTTTTTCTGGTTTTTCAAAATTTATCACAATAAATAATACCATACTTAAAAAGCTCAAAATTATAATTATAAATTTTTTCATTTTCAAATCCCCCTTTTTCTTTTTTCTCTATTCATTATACCTTATATAATGCGATAATCAAATATCTATTTTTAATTTTACAAAAAATAATCTTCCCTTCATATAATGAAGTAGAATACTTTCCTAATAAAAAAAAAGAGAGCAAATTATTAAAATTTGCTCTCTTAACCCTTAGAAATATTTTAAAAATAGTAAAATTATTTTTAATCCATTCGTCAGTATAATTCTTATTGATTTACCTCTTCTAGTACAACTATACTCCATGGATTTACTCCATAGCTATTACTAATAGTTACTGAATTCCAAGAATCCCATATATTATTATATTGTTCTGCCCAACTTGCTGTATCTATTACTCTTACCCATTTTTTACCATATGATGCACTTGGTACATTAAAATTAACCCAACCTGACCACATATTTGTAAGCACTAAGAAATCATCATCTCCTATTGCACTTCCATCAATTCTTGTTGAAACACATCTATCATCACTCCCCAAATAAGAGCCATCAGCCTTTGTAAATGAATATGTAACATCATTTCCACTATCTAAATAAAAATCTGCATATTTATCTTGTCTTAATGCTGAATGATATTTTCTAATTTTTGTTAATTTACTTACAAATTCAAACAGATCATTTTTTCCATCTTGATAATCAGTTCCATAATTATTATGATAACTTCCAGTTGTTAAAGCTACAGCATCTGGAGAATCTGTATTTATCATATTATAATTATTCCAAGTTGCAACACTGTCTACATTATATGGATTGTTATTTCCATTTTGAGTTCTACCAAATTCATCTCCCCAAACTGTCATTGGAATTCCTCTTGAAAACATTTGTGTTACAAAGAAATTTCTAACTCTTGTTCTTCTTAAAGATTGATCTCCATTACTATCCCAAGAATTAGTAGTATCATTTCCTCCATCAGTTGGTCCAAATGGCCAAGATACATTCAAATTATTTTTAGTATTGTAACTTACTAAATCCATTAATGTAAATCCATCATGCGCATCTATAAAGTTCACTGATTTTTGTGGTCCTCCTTGATCATTAAAATCATTCCAGTCTCCATTAATCATTGACGTAAAATCACTTGTATTTCCGTCACCTTTTAAGAATTTTCTTATTGCATCTCTGTATCTTCCATTCCATTCTCCCCATTTATTTGGAAAATTACCCACTTGATAAGTTCCTGTATCCCAAGCTTCTGCTATCATTTCTACATTATAAGCATCTGTCATCAAAGCTATATCTGTTAATAATGTAGCGTTCGAATTAAAATAATAATTAGGCGCTGCATCTCTTCCTAATACTGGTGCTAAGTCAAATCTAAATCCATCTACACCCATTTTTGTCGTCCAATATGTCAAAGAATCCTCTATTAAATTTCTCACTACATTTTTTGAAGAATCAAAATTATTTCCACATCCTGTTGATTGCCAGTAATATTGATTATCTGTAGTTAAAGCATAATATGAAGAATTATCCAATCCTCTAAAAGATGTTAATTCAGCGGTGTCTTTATCTGACCAAACCCCACCTTCTCCAGTATGATTATAAACTACATCTAAATAAACTTCTAACCCAGCATCATGAAAGGCTTTTACCATATTCTTAAACTCTTTTGTTGGTCCTCCTGGGTTTTTATCATAAGAATATCTTCTATCTGGAGCAAAATATCCATATGTCATATATCCCCAATAATTTCCACCTGCTTGACTAGCTGAATTCCCATCATTATCTGTTTCTTGCACAGGCAATAATTCTATTGTCGTATATCCCAAATCCTTCAAATAATTAGCCATATATCCAGCACCTTTGTATGTTCCTCTATAAGCATTAGGAACACTTTTAACATCACTAAATCCAGAAATTCCACTTAGTATACTAGATAAATTTACAGATGATGAGTGTTCTGTAAACCCTCTCAAATGTGTTTCATAAATTATTGCATCTTTTTGAGCTATTCCAGGTTTCACACCAAAGCTTGTGTTATCTTCTAATAAAATAGATTTTGGAGCATATTTCCCTGTATCTATATCTCTTCTCGGAAGATTACCATATAGTGTACTTCCGCTTGCAAATATTTCAGCAGTATTTCCATTTAATGCAGTAGGATTACTTTTATCATGACTTAATTCTTTTGTATATGGATCATATAAAACTTTATTTGGATTAAATCTATTCCCGTTAGAATCTACATCTGATATAAATCCAGCTTCACTATTCCCTCTACTCCAACTACTGCTATATGGCCAATTTGGACCCCACGCTCTAAAAGCATAATAAACTCCATTTGGCAAAGTAGCAACTTTTGCTCTCCAAATATTATCACTATTTTTCTTCATATCATATGTATACGATGCATCTACTCCATAAGAGCTAGTATAAATTTCCAATACCATTTTTGTTGCATCTTTTGAATAAACGGCAAATGTAGCATCACTTCCTATCCCGTTTACAAAATTAGAACCTAACCCCCACGATTGAGTTCCCCAAGTTGATTCATCTACTGCACTATATGCAGTTAATCCACTAGTAGCTCTAGTAGTATAATTCGTAGCAATATTTTCTTTAGAATTGTTTTCTTTAACAACCTCTTTTTGTAAACAGCCTGCAAACGACATTGTTAAAGCTACCAACACTAGTAATAATCTCCCACTTCTTCTCATTTTTCATCCCTCCATTTTTTTATAATAACACTAGGCAATGCAACTTTTCCCACACTTATCAATAGACTTAATCCTTCACCTCCTAAAAATTATAAATTCTAGTAAAAATATTCTCAGTAGTTTTCATCCTCAATCAGAACATTTCATCCTCTGTGTGTGTCCTAATAGTATGTTAAACTGTATTCAAAAACATTAAGGCTTTTTTTAATACAGTAACAGTATACCTCTTTTTAGCAAAAATGTCAACAGTTTTGATTGAATTTTAATCAATCAATGATTATTTTATACTCTTGGAAATAAAAAACGATACAACCATAATGAATTAATCTGCGCTTGATTCATTATAGTTGTATCGTCCCAATTTTTATTTCTCTATTTAATAGATATAATAACCTTTCAAACATCGATAATCCTAATTCAGCTACACCATCTACTTTGATAATTCTAATTTTTCATAATTTTTCATTGAAGAACATAATCTAATTCAGTTTCTTGTTTCCCTTTTATTTTTATGATTAATTTATCTGGAACTCCAATTATAGTTTCTCCTGATTTTGATATCCAGCCTTGTTTTACGCATAATTTTTTAGGAGAATATGAAGTTAAAACTCTCACTTTCATATCTTTTATCTCTACAGTTACTCCCCCTATAGGAGTTGGAACCTTAAAAATTTTTTGTTTATTTTTTAGTTTATATATATATTCTAATTTATTATTCACGTAAATTTCTATTTTATCCGGCTTACTATTTTTATCAAATTTTAATATAGTCATCCCCATAAATATAAATATTACACATACTATCATATAAATTAGTATATCCCCTTTTCTAAAATATTTCATAACTTCATCACCTTTTTTTATAATTACAACTATCAAAACCAACAGACAAGATCAATTTTCCCACAACAAGAACGTAACAAACGTTACTCAATAATATCACTTATTTATATCTATTGTCAATTTATACTTTACTAACAAATAAAAAGACGTTATCGATTTTATTCAACAACGCCTTTTTATATAATAAAATTTCTACTTTTCCATTTCTCCTAAAGCTCTTTTTCTAATTTATCAACATCTAAAAACTCTTTTTCAATATCCTTAAAATAATTTACTGTTTTTACTTTTAATTCCATTGTTGCTTTTTCATCACACACTAATATCCCATATCTATGCAATTGCAATGCAGATATTGTCCACATGTGATTTACACTTCCTTCTACTCCATTATAAACTGCTAATGATTTTTTATAGCCTGTTGCCATTATCAACACTTCTTTTGAGCCAAGTATTGTCCCTACCCCTACTGTTAATGCTACTTTTGGAACATTTTCTATTTTTCCTCCAAAAAACCTAGAGTTTACTATTCTTGTATCTTCTGTTAATTCTTTTGTTCTTGTTTTTGAACTTAGTGATGATCCCGGTTCATTAAATGCTATATGACCATCTTCTCCTACTCCGCCTATAAATAGGTCTATTCCCCCATAACTTTCTATTTTCTTCTCATACTCTGCACATTCTTCATCTAAATCTTTAGCATTTCCATTTAATATATTTATATTTTCTTCTTTTATATCTATATGGTTAAAAAAATTCTCTTTCATAAATGTATGATAACTTTCTGGATGATTTTCTGATAAATTTACATATTCATCCATATTAAATGTTACCACATTTTTAAAACTAACTTTTCCTTTTTTATTTAATTCTATTAATTTATTATACATTTTTATTGGAGTACTTCCTGTTGGCAATCCTAATACAAATGGTTTTTCCGATTTATGCAAATTTATTTTTTTAGCAACATATATTGCTGCCCATTCTCCTACAGATTCACTTATTATTAATCTCATGATATCTCCTTTTCTAATTCACTCATTATTTTTACTAATAATTTAACTTGATTTTTTATATCCTTATAATTTAACTCTTTCTTTGTTATATTATCTTTTTTCATTGTTAATAAACATAATGTTATCAAATCTTTTTCTTCCCATATACTATTTTTCTTTATTTTTATAAATTTTTTTATTCTTTCTGTATTTATTTTGGTATCCATTTTATGCTCCTTATTTGTAATTAACTTTATATGATTTTATATTTTTATCTGTTGAGTGAGATCTATCTCTCCTACAAATCATAATCCATTAAAATTATATTGCAACATCCTTCTGTAGGGGCGAACCTATGTGTTCGCCCTGCTTTTTATATTTTACAAATAATAATAGTTATTATTATTAAGGTTATTTATAAGGTCCATTATAGGAACAATTGTAAGGGCAATCGTAAGGGCAATTCATGAATTGCCCCTACAAGTTTCCTAAAATCTAACATCATTTAATTCCCAACCCATAATTCTGGGCGAACACATAGGTTCGCCCCTACGTATCTTTACAAACTTATATTTTCTTCTGTCTCTTTGTCAAATATATGACATTTAGTTGTATCAAACCACAATTCATATTTTTGTCCTGATTTTACTGTTACTCCTTCACTTCCTAATCTTGCTATATATTGATTTTTTCCTGGTGTGAAATATACAAATACTTCATTTCCCATTTGTTCTACTACATATATTTCTGATTTTACATAATTATCTTTTTCGTTTGGATGCGTTTCATGACTCCCTATATGTTCTGGTCTTATTCCAAACCATACCTCTTTTCCTACATATTTTTGTACTTTATCTGCTTTTTCTTTTGGTAATCTTAATTTCATATGTTCTGTTACTACATATGTTGTATCTCCATCTTTTTCTAATTTTGCTTCTACTATATTCATTGATGGACTGCCTATAAATCCTGCTACAAATTTATTTTCTGGTTTATTATATAAATTTAATGGAGTGTCTACTTGTTTTATTACTCCTAATTCCATTACACATATTCTATCTCCCATTGTCATCGCTTCTACTTGGTCATGAGTTACATATATCATTGTTGTTTTTAATCTCTTATGCAATTTTGTTATCTCTACTCTCATGTGTACTCTTAATTGAGCATCCAAATTTGACAATGGTTCATCAAATAAAAACACTTTCGGATCTCTTACTATTGCTCTTCCCACCGCTACTCTTTGTCTTTGTCCTCCTGACATCTCTTTTGGTTTCCTATCTAATAGATCTGTTATCCCCAATATTTCTGCTGCATTTTTTACTCTTTTGTCTATCTCTTCTTTTGGTGTTTTTGCTAATTTAAGACCAAATGCCATATTATCATATACATTCATATGTGGATACAAGGCATAATTTTGAAACACCATTGCTATTCCTCTATCTTTTGGCGGCAACTCATTTACTATTGTATCTCCTATTGCTACTGTTCCTCCTGTTATCTCTTCTAATCCTGCTATCATTCTAAGTGTTGTTGATTTTGCACAACCAGATGGCCCTACAAATACCATAAATTCTCCATCTTTTATTTCCAAATTGTGTCCATGCACCGCTTTGAATCCATTTGGATATGTTTTTTCCATATCTTTTAATATTACTTTTGCCAATTTATATGCCTCCCTTTTTAAGAATTAATTTCATTAATTAATTTCATTATCGAACCATTCCTAAATTATTTCTTACAATATTTTATTTCTCCACCAACAATTGTACAATATACATTTATATTATCATCAAATATCACTATATCTGCATCTTTATTTATATCTAAACTTCCTTTGCTTTTTTCTAATCCTATTACTTTTGCAGGATTTATAGTTGCTAGTTTTACAGAAGTTACAATGTCTGCATCAGAATATTTTTTTATATTTCTAACTGCTTTATTCAAAGTCAAAATACTTCCTGCTAAAGTCCCATCTTTTAATCTAGCTGATGTTTCATCTACAATTACTTCTTGTCCGCCCAAGTCATAAATTCCAGATTTTAAGCAAGCAGCTCTCATTGCATCGGTTATTAATACTATTTTATCACTCCCTTTTTCCTTTAATACGAAATTAAATAAATTTTTATTAACATGTATTGTATCTGCAATAATCTCGCAAGTAACATCTGTTTGGAATGCTGCTCCTAATACTCCAGGCTCTCTATGATGAAGTGGCGGCATTGCATTAAAAGTATGTGTAATATGAGAAGCTCCACTATTTATCGCATTCATAGTTTCATCATAATTTGCATTTGTGTGTCCAATTGACAATACAATATTACTCTTTTCTTTTATCTCTTTTGTAAACTCTAAATTATTATCTTCTTCAGGTGCATATGTAATTATCTTAATTATATCTACATAATTTTTAATAAATTTATAACTAGGTTTTATTATATACTCTGGTGCTTGAGCTCCTGCTTTTTTAGGGCTTATAAATGGTCCTTCTAAATGTGTCCCTAATATTTTAGCTCCTTCTACTAAATCTTTATTTTCTTTTATGTTATCCAAAGCTTTATATATTGATTTTGCATCCATTGTCATTGTAGTGGCTAAAAATCCAGTTACCCCATTTTTAACTAACTCTTTACTTATTACATTTAAAGAATCAAAATCGCCGTCCATAACATCTTTTCCAGCTGTCCCGTGAATGTGTACATCAATAAAACCAGGCGACACATACATTCCTTTAGCATCTATTTTATCAATATTATTAAAAATAATATCAAGCTTATCAGCATCAACTATTTGAACTATTTTATCTTTAAATACTAAAGCTTTATTACTCAATATTCTATTATTTAAAATTATTTTTCCGTTAATTATAGCCTGCATTACTCCTCCTTATTCATAAATGTTTTCCTTGTAATAATGTTATTATGTTTTTCTAAAAAAGTTTTAGCTGATTGTAAATCACATCTATTTTCTATCATAATAATCGCTAATTTAGGATTATTTTCTGCTTTCAATAATATTCTTTCAGCTTCTTTCTTATTAATCTCTGTTGCTAAAGCAACAATACTAATAAGTCTATTTTGCAATTTTTTATTTATAGGTTGTACATTGATCATTAAATTTCCATACACTTTTCCTAGCCTTATCATCACACCAGTTGATATCATATTCAATATCATTTTTTGAGCAGTTCCACTTTTTAATCTCGTAGACCCCATTATAACTTCTGCTCCAACTTCCACACTAATATCTACATCTACAATATTTCTTATTTTTCCTGTTTTTTTACAACAAATTCCAACTGTACTTATCCCATTAGATTTTGCATACTTTAACGCCGATATTACATAAGGTGTATTCCCACTTGCAGATATTCCAACAATAACATCTTTTTTTGTTACACCATATTTTTTCAGATCACTTATAGCTAACTCTTCATTATCTTCTGTTTGTTCTAACCAACCACTAATAGCATCTTTTCCCCCTGAAATAATGCCTTGAACCATTTTATCATCTACCCCAAATGTAGGCGGACATTCTGACGCATCAATTACCCCTAACTTTCCGCTTGTTCCACTTCCTACATAAAACAGTTTCCCACCAGAGCTTAATTTTTCTGTTATCAAATCTATTGACTTAGCAATATTATGTTTTTCATATTCTACGGCAAATGCTATCTTTTTATCTTCATTATTCATTTTTTCTACTATTTCCAGAGAATTCATACTGTCAATATTAATAGTTTCTCTATTTATATCTTCACTCACTTTATTCAACTCCTTGTTACAAAATTAAATTATTTTTTCAAATTGAATATTTTTATTTTAGTATTACTTCATAATTATATTTATCACTTCTGTTTATTGTTTTTGTATATTCTATTATTCGTCCATCTTCTAAATAAGTTTTTCTATTAAATAAAAGACCCAATTCTCCTTCTTCTACTTCTAAAATTTCCGCATTTTCACCTTCTATTTTAATTGGTTTTATGCTTTGTTTTGCATATTCTGGAATATAATCATATTTTTCCTTAAATATTTTATACAAAGAGTTCCCTTCTAATTCTTCTTTTGTTAAATTTGGACAATATTCTTTTGGTATCCATGCTGTTTCAATAGCATATGGGACTCCTTCTACTATTCTTACTCTTTTTAAAACAATAGCTTCTTTTAATTCTGGCACCATTCCCATACTTTTTTTGAATTTTTCTTCTAATTGTTCTGTCTTAAAATCTAATATTTTTGTTTCTATACTCAGCCCTTTTAATTTCATCTCTTCAGTAAACCCTCTCATTTGCAACAGTTGACGAAACTCTTTCGGCTTTGACACAAAAGTTCCTTTTCCTTGTTCTCTGTATAGCAACCCTTCATCAACAAGAGATAGAACCGCTTTATTTATAGTCATTCTACTTACTTCAAGTTGGTCACACAGTTCTCTTTCAGATGGAATCATATCCCCTACTTTTAATTCTTCGTTTTCAATCATATTTTTTATTATCTCTTTTACTTGATAATATAAAGGGATAATACTGCTTTTAATTATTTTTTTCATAACATATACCTCCAAGTTTTGTTGTATATACAATATATCATATTTTGAATATGACAGGAAGCTTTTTTTAAAGAGGAGAAACAATTAGCTTCCTGCCACAAACATTTATATCTTAACTGGGAGGATGAAATTAAATTCAAACTTTTCTGTTATAGCTTTTGCTAAACTTTTCATTGTAATATCATCTTGAGAATATGCTGCAATAGCTGTTATATCTTTAGAAAACAGTTTCAATTCATATGGATCTCTTAATGTTATCGCAATTGTATCTATTTTACTAGAAATATTATTTATAAATTCAATTTGATTTTTAAACCTCATTCCATTTAAAATTCCTTGAATTAATATATCTGATTTCTCAATTTTTTTCAAAATATCACTATCTCCCAATAAATTTTCATTTAATTTATAAGTTATTATATCTACATTTTTAATTTTTTCTTTCAAATATACTCCAAATTTATTAATTTTATTTCCACTTGTATCTGCTTCTGTCATATTAATTGATTCAGGTAAAAGTAATAACAGTTTTAAATTTTTTTTAATTGGTAACAATTTTTTGTTATCACTATATAAAGTTAATGCTTTTTCGCTAATATCTTTTATTACCTCTTCAGTTTTCTTTCGTGGACTCTTTTTATTTATTTTTAGTTTTTTTGCTTTAGATTTTAATTTTAAAATTCTTTCAACCGATTGATTAATTCTTTCTTCTGAAATAATCCCTAATTTCACAGCTTCTTTTATTCCTTCTACTGCTTTAATTTGTGCCTCTTTTGTCCCATTTACTAACGCCATATCTCCACCTGCTAATAAAAACTTCACAACAGCTTCTTCTATTGGATATTTTTTTAAAATTGCTCCCATCTCCATATCATCGCTTATTATAACTCCATTATATTTAAGTTCATTCCTCAAAATATCCGTAATTATAATCTTTGACATACTAGCTGGAATTTTGTTTTTTTCTATATTTTTATAAATCACATGAGAAACCATTATAGTATCTATTCCATTTTCTATTAATTTTATAAATGGTTTTATCTCAATATCTCTTATCTCTTTTTCCGAAAAACTATTTTCTGCTAATCCAATATGTGAATCCGCAGTTGTATTCCCATGCCCTGGAAAATGTTTAGCTGAATTTAATACTCCGCCATCATTTAATCCTTTTGCAAATTTTATGCAAAATTTAGATACTTTCTCAGGATTATCTCCAAAAGATCGAACTCCAATCACAGGATTATTCTTTTGTAAATTCAAATCTGCCACTGGAGCAAATGCCATATCTATTCCTAAATTTGATAATTCATATCCTATAACATTCCCTTCATCATAAGCTAATTTAACATCTGTTGTAGCTCCTAACGCCATTGTACTTGGAAATTGAGATAATAAATTTTCAAATACAGAAAGAGTTCCGCCTTCTTGATCAGCTCCAAAAATTGGTTCTTTTATACTGTTTTCCTCACAAAATCTTTTTACATCTGATATAAATTTAGTTACTTGTGGCAAATTTTCAATATTTTCACCGCTAAATCTATAGCCCCCTAATCTATATTTCATTATAAACTCTTTCATCTCTTTGTTAAGTTCATTTCCTTTTAATTGTCCTAAAATTAATTGACCAATTTTTTCATCTAAACTCATATTATTCATACTTTTCAACTCCATTCAATATTTCCTATCCTTTTACAGCTCCAGCTGTAAGACCACTTACAATTTGTCTTTGTAATATTAAATATACAATTAATACAGGAACTACCGTTAATACAACCGCAGTTGCTTGAAGTCCATAATCTGTCCCATATTGCGAACTTACTTCATTAAGCAAAACACATATAGGTCTTACTTTTTTAGAAGACACAAATACTAATGACGAAAACAGATCATTATACGACCACAAGAATGAAAATATCCCAACTGTTGCAAATGCCGGTTTTGACATAGGAACAATTATTTTTGAAAAAATTTGCCATCTGTTACACCCATCTAAAATAGCTGCCTCTTCCAATTCTTTTGGCAATGAAGCCATATATGCCGATAATACCAATGTAGCAAACACTAAATTTCCTGCTGTTTGTGGAAATATTAATGCAAAATATGTATCAACTAAATGTAATTTTATTAAAATTTCATAAACTGGAACAACCGTAACAAATCCAGGTATTAATAACCCTATTGCTAGTGCTCCTTGAATAATAGTTCTTCCTCTAAATTCAAATCTTGATATTGCATAAGCTGCCATTCCCCCAAATAGCATTACTAAAACAACAACACTTCCTGACATTATAAAGCTATTCATATAACTTCTTCCCATATCTACTTTTGTAAGTGCATTTAAATAATTTACTGGGTTAAACTTTCCCGCTATTGCAAAAGGCTTATTTATTATTTCATTAGAAGCTTTAAATGAGTTATTAAATATCCACAATAGAGGAAGAATTGTTGTAGATGCCCATACACTTAAAACTATATAAATTATCAGTTTAGATAATTTAAAATTAGTAATCTGTTTTTGAATCCTCTCAAATACCGTATTATTTACCATATCTTCCCTCCTCTAGGAATATTTAAAAAATTTTTAAATATTCTCTAGTATGTTATATCTTCGCTTTTTAAAAATTTATTTGTAAAAAATGTTAACGCAAAACCTAATACAACTATTAAAACTGCAATTGATGACCCATATCCAAATAATCTTCTTTGAAATGTAATATCATACATATATGTTCCTAATACTTGCGATGAATCAAAAGGTCCACCTTGAGTTATTATCCATACGAAATCAAATACTTTTAATGTCCCTGTAATAGCTAACATTATCGATACTTTTATATCTCCAAATATTAACGGAAGTGTTATTTTAGTTATTCTATGATATGCATTAGCTCCTTCTAAATGAGCTGCTTCATAAAAAGTAGTAGGTATTTTAGTTATTGCAGTTAATATAATTACAAAGTAGAATCCTACATATTGCCAAACAGTTGGTATTATTACCATTAATAATGATGTCTTTTCTGTAAGCCACACTACTTTTCCTATTCCAAATATTGCTAAAAATGAATTTAATAATCCACCATCATATCCATAAAATAGATTAAACATTAGTCCCAAAGCTGCTGCTGATACAACAACAGGAAATAGATATACTGTTTTGAAAAAGTTTTGTCCTGCTCTAATCATATCTACCAGCATTGCCAAGAGTACTCCAATCCCTACTTGTACAAATACTGAAGCTAGCATAAAGATTAATGTATTTATTATCGATTTGCTAATTGCAGGATCTTTAAACATTTTTATATAATTTCCAAATCCAATAAATCTAGGGCTTATGTTATTTAAGCTATAAAACATACTTTTATAAAATGTTCTAACTAATGGATAGAATAAAAAGACTATCATCATAAATGCAGCTGGAAAAAGGAATAGAAAAATTGCTTTTTTATCTCCTTTTATTTTAAACACATCCTTTCTTAATATCTGAAAAAACCTTAATATTATTTATATATCTCTAGTATTTTGCTAAACCTTCCATTGTCATTCATATCCGTAAGGGCAATTCATGAATTGCCCCTACAACCAAACATAAATTGATTTATTAAAACTCTTACCTTTTTTATTTTCCTTTTGCTTCTAACTCTACATTTCTTGCTGTTTCTAATACTGCTCTTGAATCTTTTCTTCCTACTGATATATATGGAACTCCTCTAACAATTTCCATAAATGCAGGTCTTGATATTTGTGCATCAATTGGTAATGACATATGTTCTGCTTTTGCAACCATTGCATTTCCTGAAGCTTTTGCTGGTGATAATCCTTCTATTTTTACATTAGCTGCTGGAACTCCTCCATTTGCTGTTGCCATTTTTTTAATCATAGCTGGAGTTGTTAAATATTTTAATAATTTTAAAACTATATCTTTTTTATTTGGATCGTTATAAGCTCTTTTACTCAAATAATATCCTGAAGTAAATCCTGCTATTATATCTGAATTAACTCCTTTTGTTCCTGGTATTGCTGGTACAGGTAACACTTTTGTATGATCTTGATCAGGTAATCCTCCTACAAACCAAGAACCTTCTATTGTCATTCCTGCTTTTCCTTGTTTATATAAATTTTGTGCTGCTTCCCATCCAGTTGTTAAACTATCTTTTGGGAAAGCTCCCATTGCATATAAAGTTTTAATTTCATCAAGCCCTTGTACCCAAAAATTATTTATTCCATTAACTAATCCTGAATCGTGTCCTTTTGCCCCTGCTGCTTTCAAAATAAAATATTCAATAGCATAATGAGGTGTTTTTCCTAATCCAATTGCTAAAGGAACCTCTCCATTTTCTTTTAAAACTTTTACTGCTTTTATAAATTTATCCCAATCTGTAGGTAATTCTAAATTATACTTTTCAAATAATTGTGTGTTGACCATTAATCCTTCATAAAAACCTGTAACTGGTATCGCATAAATATTGCCATTTGGTTCTTTTACTTGTTCTTTTACGCTATCTAAAATTCCATTCCCCCATTTTGTATCTGCACTTAATAAATCATTTAATGGAACCACTCTTCCTGATTTTATTAATGGAGCTCCCATTCCACCAGTAAAGTAAAATGTTAAATCAGCTTCATTTCCTGCTGCAAAATCATTTTCTATTTTTGTTTTAAATGCGTCATCGCCTGTAGCTGACTCATCTAAAATTTTTACATTATTTGCTGCTTCAAAATCTTTTAAAGCTGCTTGATAAACTTTAGCCGCTGGGTCTGTTCCACCAAACATTGTTGCTATTCTTATCTCAGGTACTTTCTTTTCCGCTTTTTTCTTAAATAAAAAGTCAAATACTCCACCTTGTGCTACTACCCCTGCAACAAACATTAAAACCATTACCATCACTACATTTTTCTTAATAGCTTTCATAATTTTCCTCCTTTTTTTGTATAATTCCTCAAGTTTTGCTTATTATACTCTACGCCTCCTTTATATAAATTTTGAGGAATAATTTTTAAAAAATTTTAAATTTTAAATTTTTTAACTTCACTATTTAATTCTCCCATTAATTCACTTAAATCTATAGCAAAATCTTTTATTTGAACAGCTGATTCTGATTCTTCATTAGTAGCAGCTGATACCTCATTTATGCTTACACTTATATTTTCTGATACATCACTAATCTCTTTTATTTTTGAGACTACATCTTCTTTTCTTTCATATACCGTTACTATAAGACTATTTATTTCATCTATTTCATCTATTATTTCATTTGTAGTTTTTATTATATTTTTAAGTGCCACATCTGATTCCTTTACAGAATTAGTTTGAGCTTCATAATTAACTAATGCAATTTTAATTAAATTTATCATTCCTTCCATTTCACTACTAATTTTATTAGCAGTGTTTGAAATTAAACTATTTGCATTTTTTGTTTCATTAGACAAATCTCTTATCTCTTTAGCAACAACTGCAAATCCTTTACCTGCTTCTCCAGCTCTAGCTGCCTCTATTGCAGCATTTAAAGACAATAGATTAGTTTGTTCACTTATTTTATCTATTAATTTTGTCATATTTAATATCTCTTTAGTATTTTTACTTAATTCTAATATGCTTTTTTCTATCTCTCCTGTTATTTTTAAACTTTCATCTGATTTACTACTCAAATCTTCCATTATTTTAATAGATTGATTCCCTACATTTTTAGCTTTAATTGTATTTCCTGTAGCTTTAGCTATATTTTTATTAACATCATCTATTTGTCTTGAAAGTATATTTATACTTTCTGTCCCTTGTTTAGATAATTTAGTTTGAGATTTAGTCCCTTCTGCTATATTTTTTATTGATACAGAAATCTGTTCTGTAGAACTTGCTGATTGTTCTGATAGCTTTCTAAGCAATCCTGAATCTTCAACTACGTTATCTACAACTATATTAGTATTTTCAATTAAATCTCTTACATTTTCAATCATTTTATTAAATCCATCTGATAACTCACCTAATTCATTTTTACTTTTTATTTCTGATTTTATTTGCATATTTCCATTTTTAACTTTTTCCATTAAATTTAATATTTTTTTTAATGGAACAGTAAAACTTTTTGAAATTGCATTTAAAATAATTAAAGCTAATAATATAAACATAACTCCTAAAATAATATTCATATTTCTCACTTTATAAATATCTTTTATCAAATTCTTTTTTGGAATTTCTACAACTACTTTCCAATTATTTGATAATTTAGAATAAACAGTTAAATAATCCTTTGAATCTTCTATTCCAAAATCATTTTTCAAAATATTTTTTAATTTGATTTTTTTATTATTCGTCATAATAATTTTATTATTTTTATCTAAAATCTTAAATATAGCTCCATCTCCCAAATCCATTTTTTTAAATATATCTGAAAAATATTCTAAGTCAAATCTCAAAACAAGAATCCCCATAAATTTATTTAATGATGGATTAACTAATGCTTTTAAATAATATAATGATTTATTATTATCTTCCGCATACCAAACTTCCGATGATTTCGCTTTTACTAATTCATCTTTAAATTTATTAAACTGTCCTTTCTCATTCGATAAATTATATTCATGACTTTCATCTTTTAATATTGAGACACCGTTTAACTCTTTATTTGAATACATTATATCTTGTAATGATTGTCCAACTATATTTTGCGACTCTAATTCATCTAATTGATCTATATACTTATCTTTTGATAACACTTTTTGTAATTTTTTATCTAACATAACTGACGTTGTTAAATCTTCTATTTTTTTTATTTTGAAATTTATATTTTCTCCAAGTTGTTTTGTCATTTGTAATGTGAAAAAACCTACTTTTGCATTTATAGATTCTTTTGCAGATTTGTACGAAGTAACACCTATTAATATTACAGGTAATACTCCAACTAAAATAAAAAATATTAATAGCTTCTTTCTAATACTTAGATTTCCAAAAAAACCTATTTGATTTTTTTCTTTTCTTTTTAATTTCTTTTTTAATTTAATACTTTTTTCACTCTTCCCCATTTCAAACCTCCTTTGCAAATGCATTAACTCTATGTTGATATGTGGTCTATACCAATAGTATACCTCGCATGTGTTTATTTGTCAACCTTTTTTTGATTATTTTTTAATCTTTTTTTAGAATGCTCGCTCGTGGCTTGCAATATCAATATCAAGAAGAGATAATTACTGGGACAATACTACACTTTAATCATTTTTTAGCCACTTTAAATATGAAATGAATATTAAAGAATATAATATATTTGAAGAATTAATTGAAATAAAAAAATAAGCTACGCTTCATCTGGTAAAGCATAAATATTTTTCTAGATTTTTGGCTTCTGAAAAATTTTGCCTTGAAAAATCACATATTTCAAAAAAACGGCGTAGCTTATTTTCTGTATAAATTTATACTTTCCTAACATATTAAAAAAGATGACTCCTATAAAATATAGCAATCATCTTTTAGAAAATAGATCATCTTAACTTTAAAACACTTAACATATGGATCAGATTAAAGTGTGCATTTTTAGCTTCTTAAAAATCAAATTTTTCTAACAAGCACCTTAAAATAATAATCCACCTCTTCTTCCTCACTATATCTTTTCAAATTCTCAATCTCTTCCCATTCATCTTTTTTTATCTCTGGGAAAAAAGTATCTCCTGAATATTCTTTATTAATATAAGTTAAATATATCTTTTCTGCAAATTTTATAAAATAGGAGTATAAATTTCCGCCACCTATTATATAAATATCTTTTGTCTTACTCATTTCCAATATTTCATTAAACGAGTGAATAATTATACAGCCATACTTTTTATAATTCTTATCTCTAGTTAATATTATATTTTCTCTTTGGGGTAATTTTCTGCCTATACTTTCATATGTTATTCTCCCCATAACAACTGTTTTATTTAATGTAATCTCTTTAAATTTTTTTAAATCCTCTTTTATATCCCAAGGCATTTTTCCATTTTTTCCTATAATTTTATTTTTAGACATTGCAGCAACTAAAATCAGACTCATATTTTTTACCTCATTCAAAATAATTTTTTATCTCTTTTTCTAAATTTTCATTTATCTCTTTTTTATCTATATTTATTGTTACTCTTATTGCTTTTAATCCTGAAATACCTTGCAGGTCATCTAATTCTAAAACTTCAACATCCCCTTTATTCAAATATTTCTTTGCACTTAAATAATCTATATATTCTAAATACTCTTTCTTTTCTGAATCTTGTGAATAAACTATCGCTATTTTTCCAATTTGAGTTAATCTTTCATTAGTCCCTTTTATTACAGCTTTATCCAATCTTTTTTTTATAATTTCATATCTTATATTATAAGAACCTTCCACTTTAAATCTTTTTTCGTCAATATCAAAATATATTGTAATTGGCATATCTTGAACAATTATCAAATTAGTAATATCCATTGGAATTGGTAATTTGTTTTTTATATTATCCACCATTTTAGCACTATTTATTATAACTATTAACTGCCATAATCTTAAATTTTTAAGATAAATTTTGCTAAATTCTCCTTTTTCTGCCAAACTTTTCCCTATATATATTGAATGGTCTATTCCATCTGTTATCTGTTTATCAAAATAATGCGGAAACATTCTTTGTGCGTCATTTTGTGATTTTTCCAAATATCCAGATAAAAGTTTATTTAATTTTGATATACTTACATCAAAATTTCTCCTATTTTTCGATAAATCTCCTTTTTCCAATAGTTTATTATAATTTTTTATCTTATTTTTTATTTTTTCGCTTATTTCTAAATTATTATTAAAAAAAGGTTCTACCTCTTTTTTTATAAATTTTTCTATTTTTAATTCATCTCCAGAAGATAGTTTTTCTTCCATTGATTTTTCAAAATTATCTATTTCATACGTTTTTTCATCAGCAATTGGTATCTTTTTTTCTAAATATATTTCATTTAATATCTCTTTACACAAATTCAGTTGATATGTTAAATCATCTTTTATAGATTTATTCCTATTATAAGAAGAACCTCTAATATCACATTCCCCAAATAGCGGATATACATTTTCAAAAAATATATTTTTTATCTCTTTTTCTTCTTCATTATTACTTTCTAAATAGTTTATAGCACTCTCTTTAAATTTCCACTCTATAGATGGATGAATAGAAGTGTATTTTGTTTTAATAAGCGTTGTAACATTATTTTCAAATTTTTCCAACGCATCTTTCACAGCTATTTCAAATATATAAATAAGTTCTTCTAACCTTTTTACATTAATCCAATTTAATTTCCCAACTTGACTAGACCCTAATTCTAAAAATCCTAAAATTTTCTTATTATAAAATAAAGGAGTAATATAAATATTTCTTAATCCCATTTCTTTTAATTGATCTATTATTTCCCCTTTTTCTTTAGATTCGTTAATATCATTGATTAATAGTTCTTCTCCACTAAAAACAGATTGCGCAATTTTATTTTTCATCATTGTTTCTTTTTTATAATGAGAAGAACTTTCATATATACAACTTGTTTTACTATATCTTTCTGGATTTAAAATTAAAATTTTCTCATCCCTTATAGCTCCTACTCCAATCTTCAAATCTGAAACATCTAAAAATTGACCCAATAATTTTTCTATCTCTTTTATATATTCTATTGAAAACATTTTGCTAGTATTTAATAACTCTTTTTTTATTTCGCCCAATAACATTTGGTTTGTAATATCTCTTCCAGTCATTATTGTAAATCCATATAGTTCAAAATTTTCAGGTGGTATTATTTCTTGTAATACCTCTAAATTTCTTAAATTCTCCATAATTCTATTTCTTTCTTGTTTATTTAACTCTTTTAATTCTCCACGTTTTCTTATTTCCATATATTTTAAATCTAATTTCATTTGAAAATATTTCATTTTACCAGTTTTAATATCTTTTTTCTTATTTATATGAAAATCATCTATTTTAAAATCAAAATTATAAAATTTATTTAATATTAATATATATGTATGTATTTCTCTAAATTTAAAATTTTCTTCTTCTTCTTCAGTTTCTGTTTTTTTAAATATTTCATCACATAATCTGTTCATATAAAAGAATTTAAAATCAAGAGGATATGATGCTGCAAAAATTCCATTTTCATCTTTATATAATTGAAAAACTGTTTTCATTATCATTTCTATTATATCTTTATATTTTTCTAATATTTCTCTACCTATTATTTCCCCTTTTAGCTCATCTGGAATCATCTCTATTTCTTGATTTGCCATTTTACTATATTCAGGATGTTCTTTTATAAAATCTTTTCCTGTATCTTTCCAACCTTTTAATAACAAATCTAAACTTAAGGTTCTTTTAAATCTTTTTTTCATAGTTTTATTCTCCTTTCGTATATTCTATATATTAAGTATACGATAATATTTATTGTTTGTAAAGAAACTTACTTAATGATATACTATTTTTGTAAGGAAAAGGAGTTTAACATAAAAGTTTCAACAGATACATTTAAAAATTGTGAATCAGGGTATAAATTAATAGAAAATAATATTGAAAATATTTTAAGATTAGAAGTGAATGCTAAACAAATTGATAAGATATTAAATAATTTACAACAAATAGTAGAACAGAATTTACAGAAAATATTTCTGAATTAAATGAAGGAGTAAAAAGATGTAAAAGAAAATATAATTTTTCATTAGAAGTTAAGAAAAATGATTGAAAAACAGGATAAAGCTAATATCATTTCATTTACATTTTTAATAGTATCAAGTATAAGTAATCCTATTATTGTCTCTAGCTAAATCCACTCACCCTCATGGCTGTTCAACTCTAAAGAAGTAAAATCTCAAACTCCTACCTTGTTGGCAGTTTCTCTTAGATAAGAGAAACCTATTGTATGGGATATTGGAATAAAAACATTGAAAACAGATAGCATTGAACAGCCCTAACCCTATACTTCACCCTAATTTTCATTTTTTAATTTTAATATTACTTCTTCGCTTAAACCTGTTTTTTCAGATATTGTTTTCACATCTAATATATCCAATAAACTTTTAGCAATCTCTATTTTTCCTTTTTCTATTCCCTTTTTTTCTGCTTTTTTTATTGCAGCATCTTCATCTCTTAACCATTTTAATCTTGCTTCATAGCTTTCTCTTTCTTCATCATTTAGTGACATCTCGTCTAATAACTCTACTGCCTTCTTTATTGTCAATACTTCTTCTAATTCCTTTGGCAACTTATTTTTTGCATATTTCTCTGCTTTTTTCAAAAAGTTTACCCATCTATCCAACATTGTACTATATTTTTCATTATATTTTTCTAACTCTATAAAATGTATCTCCAAATGGTCTATAAACTCTTTTTTACTCTCTAAATTTATTATTTTATATATATTATGATAATTTTCTTCATCTAAACATCTAAAATTTAATATATTTATACTTATTGTCTTTTTTAAATTATCATAGTTTATTCCTGAATGTAACTGCCCTGAATATACTCTTGACCAATAATACAAAGCTCGTTTATCATAATATTCTTGGTCTATTACCTGCCCTTGTTGGTATTTCCGGTGTAACGTGGAAATATCCTTCGGGTAGCACATTTCTATATTATACCAATTTCCTCTTTGGTCTTTTGCTTTTATATCTAATACTGATAATTTATCATGTTTAAAATTCTTTTCATTATAAGGATTTTGTAATTCTAAACTTGTTACTCTATCCTCTTCTGATACTACTGAATTTATAAAATCTTGTAATAGATCTTTATTTTCTTCGCTTCCAAATAGTTTTTTAAATACAAAATCTACTCTTGGATTTATTCTACACATTTTTAACCCCTCCTCATTCAACTATTAATTAATTTAATTATATCATATTTTAAGAGTTATTTAAATTGTTTTTAAAGGAAAATTCATTTCCTTAACTTCTCTACTTACCATTAAATTAATTTTGCGTAATTGAGGATAGGGGAGAGTTTGAGAGGGTAAGGAACTAAGTTCCTTACCCTCTCAAGATATCCTTGCACTAATCTTCATTTTTTAATTTTAAAATTATTTCTTCACTTAAACCTGTTTTTTCAGATATTGTTTTTACATCTAATATATCCAGTAAACTTTTTGCAATCTCTATTTTCCCTTTTTCTATTCCTTTTTTTACTCCTTCTTTTATTCCTTCTTCTCTTCCTTCTTCTCTCCCTTCTTCTCTTCCCTTTTTTTCTGCTTTTTTTATTGCAGCATCTTCATCTCTTAACCATTTTAATCTTGCTTCATAGCTTTCTCTTTCTTCATCATTTAATGACATCTCATCTAATAACTCTACTGCCTTCTTTATTGTCAATACTTCTTCTAATTCCTTTGGCAACTTATTTTTTGCATATTTCTCTGCTTTTTTCAAAAAGTTTACCCATCTATCCAACATTGTACTATATTTTTCATTATATTTTTCTAACTCTATAAAATGTATCTCCAAATGGTCTATAAACTCTTTTTTACTCTCTAAATTTATTATTTTATATATATTATGATAATTTTCTTCATCTAAACATCTAAAATTTAATATATTTATGCTTATTGTCTTTTTTAAATTATCATAGTTTATTCCTGAATGTAACTGCCCTGAATATACTCTTGACCAATAATACAAAGCTCGTTTATCATAATATTCTTGGTCTATTACCTGCATCTCTATATTATACCAATTTCCTCTTTGGTCTTTTGCTTTTATATCTAATACTGATAATTTATCATGTTTAAAATTCTTTTCATTATAAGGATTTTGTAATTCTAAACTTGTTACTCTATCCTCTTCTGATACTACTGAATTTATAAAATCTTGTAATAGATCTTTGTTTTCTTCACTTCCAAATAGTTTTTTAAATACAAAATCTACTCTTGGATTTATTCTACACATTTTTAACCCCTCCTCATTCAACTATTAATTAATTTAATTATATCATATTTTAATAGTTATTTAAATTGTTTTTAAAGGAAAATTCATTTCCTTAACTTCTCCACTTACCATTAAATTAATTTTGCGTAATTGAGGATAGGGGAGAGTTTGAGAGGGTAAGGAACTAAGTTCCTTACCCTCTCAAGATATCCTTGCCCAAGTGCTATATATCCACGCTCCCTCCCCACATCAAACGTTTAGTGGGGAGGAAACAAAGGTGGGGCACTCCTCAAAAGCAGGAGCGAGCACATAATACCACATTATCGGATGCTCTAAGGAGAGCGCAGTCTCGACGACTGCGTCGGATAATGTTTATTATGTCGCGAGCGGATAGGGTGAAGCTTGGGAGATGATTTTTAATCACAACTAAACCTAATTATGATCTAAATATTTTAACATCTTCAAGCTCATAATTGTTTAAATATACTTTTCGTAAAAAAATAACCTACAACATATGCAATAAAAATTACAAAAATTAGATAAATCGTTACAAGCAAATACCATGCAATGGTCTCTAATCTAATTTCTTTTCCATAACTTATTAAAAACATAGCAATTACATCTGGAATGACAGTTATTAATATTATTTTAACTAATCCATTTCCAAATAATATATCATTTTTAAATAGCACTTTCATTATCGGATAACTAAAACCAACAAAACCATAAATCAACTCCATAACATGCGTTGTACTGTCAAACGGCTTGAAATAAGTATATATTAAAATTGTAATTATTATACTTATATACGTTAAATCTATTTTTGTTATCATAAAATTACATCTCCTTAATATTTTCATTTACCAAGTTTAGCATAATATTCGTTATATGAATTTTCATCTTGTCGTCCATTAGAATCATATTTATAATCAAAAGTATCTCGCCAATCCGTTCCTGAATTCGATTTTCTAAAATTATCATATTGTTTATTTGGAATTGTTCCTCCTAAAAGCTTAGGATAAGATACTTCCAAGCCTCCAGCTCCAGCTACTTCTCCTGCTAAATCTGCACAATTTTCAGCCAAATTGCCTCCAAACCAAGGGTCAGAAATAAGATCATATGGTTTATTATAATTTTTATCTCCATATGTTTTCATCACGTCATCTTGTTTTTGTGAAGTTTTCACTCTATATCCACGATCATATCGCTGTCCTATTTCACTTGATTTAAAATCACTTAATTTTTTATATTCAATTCTATCATTTTTTTCACCAGTAATTTTACTTGGACCAAAACCATTTTTACAATAATAAACCCATCCTGTTTTATCATTTCCAACTAATACAGCGTTATGCCCTTGAGGTCCACCCAAAAGTTTTATATTTACCGATTGACTATCATTTAGCAATACAACATCATGCCCCGACGGATCGACATACCTCACCGGATTCCCTAAACAATAACGATACTAAATTTCTATTTTTCTCTAGCCCTTTATTTCCAACATCATTTTAACATATATATTTGTATTTGTAAACTTACAAAAACATTACTATTCTATTACTAATAGCATTGTAATGTTTTTGTAATATTACTTTTCATACACTAAATGGATTTCATATACAAAAAAGCTAATAACACGAGCTTATTGCCCGATATTATTAGCTTTTTCTGTCTTTTCTCCTAATAAATACTTTATTTCTCTTTCAAACCCATATTTTTGAAAAAATTCTATTAATGCTACCTCAAATATATTCTTTTGAGTTATATTAAATGCTCTACTATATTCTCTTGCCATTTCATTTAAACTACTTATTATTTGTATTGATTTTATTGTATTTATTCCTGGTATCCTATATTTTTTTATCACTTTACCCGAATTTAAATTCAATGCTTCTTCCAAGTTCCCATAATTTTTTGACAGTAGCTCTAGTAATTCTATATATTTATCTAAATTTTTCAATTCCTCTAAATTCCTATTTAAATATTCTTCTTTTTTTACAAAATTACTTTCCTTCGATGACCATAAATAACCTTTCATTTTCATAAAATTTGACATATCTTTATAATTATCAAAATCAAGTTTTTTTGCAACCTCTTTTGGATCTGCATTTTCATCTTGAAAATACATTAAAACCCGTTTTGCTCTAAAACTATCATCTACCTTTATCTTTGAGACTTCTCTTTTTTTCCCTTTTACATATCTTTTCCCTTCTTTTTCCCAATAATAACCTTTACTTCTTACAAAATTTTTAAACGAATTATAATTCTTATATCCCATTTTTTCTGATAATTCTTCACGTCCTACCCCTTTTTTTAACTGTTCAAATATATATCTTAATTTTTCTTCAGAGTTCAATCTCACACCTCCTAAAGTTCATTTACTGCTTTTCTCATATCTTCATTACTTGCGTTTAAATAAATCATTGTTGTATTTATGTTTGAATGCCCTAATAATTTCTGAATTATTTTTATATTTACATTTTTACTAACTAGCGAACTAGCAAATGAATGTCTGAAAGTATGACTTGTTATTTTTCTACCAAAAAATCCAGCTTTTTTTACTGCTTTTCTTAATGTTATCACTACATAATAATTTGATAGTTTCCCTGTATATTTTGTACTAAAAAACCTTGTTGTTTCAACTTCTGGTATGTTATTTTCTTTATATTCCAATAGTATTTTTTTTAACTTTTTTGACATTGGAATATATCTACTTCCTCCACCTTTTCCATTTCTAATATATATTAATTCTTTCTTAAAATTTATATCTCGTTTTTCTAAAAATAAGCATTCATTTAATCTTAATCCAGTATAATACAACGTTTTGAAATATGTTTTCAACAAAGGTTTTTCAATACATCCAATCAATTTTTCAACTTCTTCCTGTGTTAAATATACTGTACCCTATAAGATGGACATTTAAAAAAAAGTTGCATCAGATATGGTATTTTTATATAATATCTATAATGTTAATTTAATAGATTGGAGGATTTCATGAGCAACAAAATATTCACAAAAAAAGAGATTGAAATTTTATCAAAAAATAAATATGTCAAAACTATAAGTTCTAAGGCAATCACATATACATCAGAATTCAGAAGAATTTTTATTGCAGAAAGTCAAGATAAAATTTTACCTAGAGCAATATTTGAAAAATATGGATTTGACGTACAAGTATTAGGGATGAAAAGGATTCGATCAGCAGCAGCAAGATGGAGACGTGCCTATAAAGAGCAAGGAGTATTAGGGTTAGATGATAGAAGAAAAGAGAACTCTGGACGACCTTTAGAAAGAGAGCTATCTTTAGAAGAGAAATATGAAAGGCTTCAAGTAAAAAATGATTATCTTCAAGCGGAGATTGATTTGCTAAAAAAGCTAGACGTGCGAGAAAGAGAGGTGAACGGTAAATTAATTGAATTATCGCCATCAGAAAAGTTTGTTATAATCAAAGATGTAATAGAAACAAGTGGTGTAAAAAATATTATAAAATATTTATGTGAAGTTGCAGAAATTTCTAGAACAAGTTATTATAACTATTTGTCTGAAACTTCCAAAACAAATAAAAGCAATCAAGAATTAGAAGATGAAAAAGCAAGAGATTTAATCATAAAAGCATATGAATTCAAAGGTAGGCAAAAGGGAGCTAGACAGATAAAAATGACTTTAGAAAATGAATTTGCTACAATTTTTAATCTGAAAAAAATCAGAAGAATTATGAAAAAATATAGTATTGTATGTACGATTAGAAAGGCAAATCCTTATAAGAGAATAGCAAAGGCTACAAAAGAGCATACAACTATTCCAAATAAATTGAATAGGGAATTTAAACAAGAAATACCAGGGAAAATATTATTAACAGATATAACATACCTATCATATGGTAATGGTCAACGTGCGTATTTATCAACTATTAAGGATAGTTCAACAGGAGAAATACCTGCATATGTATTATCTAAAAATATTAAGTTAGAAATTGCAACAGAAACAATAAGAACTCTTATGGAAAACAAAAGCTTTAAAATTCATAAGGATGCATTAATACATTCTGATCAAGGAGTCCATTATACAAGCCCAACATTTCAAAAATTAGTTAAAAATAGTGGCTTAGATCAGTCAATGTCAAGAAGAGGTAATTGCTGGGACAATGCTCCTCAAGAATCATTTTTTGGCCACTTTAAAGATGAAGCAAATATTAAAGAATGTAATACATTTGAAGAATTAATTAATGAGATTGATGATTATATGGATTATTATAATAATTATAGATGTCAGTGGGGATTAAAAAAGATGACTCCTATAAAATATAGAAATCATCTTTTAGAAAATAAATCAGCTTAACTACTTTTTTTTTAAATGTACTTGACAAAGGGTACAGATTAAAATATTCTCTCTGTTTATTTATTCTTTTTATTTTCGGAACTGCTTTTGATAGATCTTCTTTTATCAATTCATTAGAATAAAGGTATTTAAAAAAACTATTTAATCTAATTTGATAAGTTGATAATGTTGAACTTTCTAATTTTTTCTCTACTGATTTTTTAAAAAAACTTTCCACATCAGATTTTTTTATATCTTCTACATAAATTTTTGAATTTTTTTCCTCTTCAAGGTAATTTTTAAAATATCTCAATATTACATAATGCCCTTTAATTGTTGCTTTGCTTCTCATTCCTGCTGTAAGTACATATTTCCATTTCTCTATTGCTTCCACAAATAACATAATTCCCTCTCTTCCAATAAAGACAAAAAACACAAAAAAAGCCAATAATCTGCCAAAATTTTTCATTTTGGCAGTAGCTTTTTACATCATTTTATGGTATAATTTTTTGACTATTTAGGTGGTGAGCCTACTGTTTTATAGTCTTGGTCTTAATCAGTTGCTTCTGATTTAAGACCTTTTTTATTATATCCATTTTGATGGATTGAGCTTAATATCTCTATTATTTTTTCTTCTTTCATACTTGCAAATATTGTTGGTCTATTCTTTAAAAATTTTATTCCTTTAAGTTGTTCCAACTCTTCCAATGCTGTTTTTTCTATGTCAAGCCTCTCTTTTTCAGGCATATTATTGTAAAATTTTAAAGTTTCTTCTCTTAATTTTGCTTTTAATTCTGCTGCTGCTTTTTGTTTGTCTAATTCCAATTTCTCTTTTTCTAATCTTTCTTTTTCCGCTGCTGCTTTTACTCTCATTGGTTCTGCATAATCTTCTTTTATTGCTTTTCTTAAATAATTGTAATATTCTTTATATTTATGACTATTTGTATAATTTAAATTTGATTCTACATGCTCTAATCCATATTCTTTTATTAATTTTTTCAATTCTTTTTCTTGTTTTAATGTTAATTTTTCTTTAGCTGGTATTTTCTTTATTAATTCTTCAAATTCCAATGTCTTTTGAATTTTAATTTTCCCTTTTGGCTCTTCTTCAAATATTTCTACTTCATTTCCTGGGAATATTCCATTTCCCTCGCTTACTGAAAATCCTTCTTTTGCTTCACCCCAGAATTTTATATGCCCCATTTTTTTACCATTTCTTATTAATTCATATTTCGTTATATTTATATCTGTTGTTTCATTTATCTCTTTTATTGCTGGTTCTATTACTTTTCTTCTTAAATCGTGTATTTTATTATATGCTCCTGTTATACCTAGCATAAATTTAAATGTTTCCAATTCCATCTTGGGTATTTGTACTTTTATATAGTCTTTGCAAAATTCATAAATTGGCAATGAATGTTTTCTACTCATTCCTTTTTGAAAGTCTAAATTTAATGGACTAAACATTTTTGGATGGTACAAATTTTTTCTCACTGTATCTGGAAAGATAAATTCTATATTAAAATCTTTATCTGTTTCTACTTCTGCTAATACTGCTACTGCTCTTCTACTCATAAATTTTTCATTTTCCAATATATTTATTGTTATTCCTATTTCCACTAATGATTCTAAATTCTTTAAAAGTTCATTATTGTTTATTCTTTTGTCTGTCATTAGACTTTTTACTTCTTTGTATGTCGATTTGAATATTTTCCTGTCAAAATCTTCATCCATTTGTTGTTTTGCTATATACAGCAACGCATTAAATGCTTTTTTCTGATTTAGACCCATCTTTGATGAACTTTGAATTAAAATCCTGCTTTTTTTCAAAATAGCCATTTTTTCACCTCTTTTCTTAACGACCTTTTTTAAATTAGTCGTTTTATCGTATTTATACATTGTGTAATAAAATTATACACCGTTTTTTTCGAAATTGCAAGTACTTTTTTGGGCGACTATACATCTACATCCCCTTTTCCAAATTTCTTGCAGAAAGAGTCGTCTTTTACCTGCAGAAACTGTCGTTAGTTGTGCAGAAGAAGTCGCTTTTTGCTGCAGAAAAGGTCGTCTTTTAACGCAGAATCTGTCGTCTTTTGTGCAGAAACTGTCGTTAGTTAGGAGCTACAACCCTTTATTGGCAGTACTTCCAGCTACCTTAAACTTTATTAAACATATATTAAACAAAACCTACAACAGGTGAAATTTAAATTTTTTTTAATATTTTTTTATTTTTGGTTGTATTTTTTTGAAAAATTTATATAATGAAAAGAAAAACCAGAAGAGGAAATTAATCCTCCTCTGGCTCATAATCTGGACAATCTTCTGGTGAACAGAAATATTTACAATTATCTTGAATAAGTATGCAACCTAATGCTCCATCATCGCATATATCAAAATACTTACAGCTTTTAATCTCTTTCATCTTTTCCACCTCCTTTTTTCTTTACAAGCCTCACGAGTAAAGGAAGGAAGTCAAAAGCAGAGTTTGAAATTTTTTTAAGCATTAAAAAAATTTCAAAAAGCTTTTTACTTCCTAACGGCTCGTGATACAATCGAAAGAAAAGGAGTGGAAAACACAAAAAAAAAGAAAAATCCCAGCTTTTTATCCTGCTGGGATTTTTTTCATTATTCAATTTGCTTTTAATTTCTTTTAAAATGTACTTTAAATCAATTCTAAGGCTTCTTTTATGTTTTTTAGTATGTTAGGGGCTGCCTTTACTTTTAAAACCTCATATACGGAAAATTCATTTCCTTAACTTCTCCACTTACCATTAAATTAATTTTGCGTAATTGAGGATAGGGGAGAGTTTGAGAGGGTAAGGAACTAAGTTCCTTTTCTCCCTCTCAAGATATCCTTGCCCAAGTGCTATATATCCACGCTCCCTCCCCACATCAATCGTTTAGTGGGGAGGAATCAAAGGTGGGGCACTCCTCAAAAGCAGGAGTGAGCACATAATACCACATTATCGGATGCTCTAAGGAGAGCGCAGTCTCGACGACTGCGTCGGATAATGTTTATTATGTCGCGAGCGGATAGGTCGGGCTTGGGAGTTTTGTTTATTTTTATCAGCAATATACAAAATTAATAATTCTATATATATTGTCATAATTTTATCTTCATAAAATTCATTTTAAAAATAATTTAATTATAAAATATCCCAAAGTGTATGAAATTGCAAGTATCCCACTTATAAAAATTAACAAGAAAAAAGATATAGCAGCCGTTTCTGCATCTGGAATTTTACTTATTAACATACTAATTAAAATTGGAGAAATAACAATTATAATTAATTTTATCAAGCCCATCTCAAAACTAATAATATTTTTCATCAAAATTCTAATCACAGAATAGCTAAAACCAATTATTGCAAAATATATTGCCAATAGTAATGTAGAAGCTAATGGTTTAATATCAGTATACACTATAAAAGAAATTATTATGCCTATATACATTAAATCTATTTTTGTTATCATAAAATTACATCTCCTTAATATTTTTATTTACCAAGTTTAGCATAATATTCGTTATATGAATTTTCATCTTGTCGTCCATTAGAATCATATTTATAATCAAAAGTATCTCGCCAATCTGTTCCTGGATTCGATTTTCTAAAATTATCATATTGTTTATTTGGAATTGTTCCTCCTAAAAGCTTAGGATAAGATACTTCCAAGCCTCCAGCTCCAGCTACTTCTCCTGCTAAATCTGCACAATTTTCAGCCAAATTGCCTCCAAACCAAGGGTCAGAAATAAGATCATATGGTTTATTATAATTTTTATCTCCATATGTTTTCATCACGTCATCTTGTTTTTGTGAAGTTTTCACTCTATATCCACGATCATATCGCTGTCCTATTTCACTTGATTTAAAATCACTTAATTTTTTATATTCAATTCTATCATTTTTTTCACCAGTAATTTTACTTGGACCAAAACCATTTTTACAATAATAAACCCATCCTGTTTTATCATTTCCAACTAATACAGCGTTATGCCCTTGAGGTCCACCCAAAAGTTTTATATTTACCGATTGACTATCATTTAGCAATACAACATCATGCCCCGACGGATCGACATACCTCAACGGATTCCCTAAACAATAACGATACTAAATTTCTATTTTTCTCTAGCCCTTTATTTCCAACATCATTTTAACATATATCTTTGTATTTGTAAACTTACAAAAACATTACTATTCTATTACTAATAGCATTGTAATGTTTTTGTAATATTACTTTTCATACATTAACTGAATTTCATATATAAAAAAGCTAATAATACGAGCTTATACCCCGATATTATTAGCTTTTTCTGTCTTTTCTCCTAATAAATACTTTATTTCTCTTTCAAACCCATATTTTTGAAAAAATTCTATTAATGCTACCTCAAATATATTCTTTTGAGTTATATTAAACGCTCTACTATATTCTCTTGCCATTTCATTTAAACTACTTATTATTTGTATTGATTTTATTGTATTTATTCCTGGTATCCTATATTTTTTTATCACTTTACCCGAATTTAAATTCAATGCTTCTTCCAAGTTCCCATAATTTTTTGACAGTAGCTCTAGTAATTCTATATATTTATCTAAATTTTTCAATTCCTCTAAATTCCTATTTAAATATTCTTCTTTTTTTACAAAATTACTTTCCTTCGATGACCATAAATAACCTTTCATTTTCATAAAATTTGACATATCTTTATAATTATCAAAATCAAGTTTTTTTGCAACCTCTTTTGGATCTGCGTTTTCATCTTGAAAATACATTAAAACCCGTTTTGCTCTAAAACTATCATCTACTTTTATCTTTGGGGCTTCTCTTTTTTTCCCTTTTACATATCTTTTCCCTTCTTTTTCCCAATAATAACCTTTACTTCTTACAAAATTTTTAAATGAATTATAATTTTTATATCCCATTTTTTCTGATAATTCTTCACGTTCTATCCCTTTTTTTAACTGTTCAAATATATATCTTAATTTTTCTTCAGAGTTCAATCTCACACCTCCTAAAGTTCATTTACTGCTTTTCTCATATCTTCATTACTTGCGTTTAAATAAATCATTGTTGTATTTATGTTTGAATGCCCTAATAGTTTCTGAATTATTTTTATATTTACATTTTTACTAACTAGCGAACTAGCAAATGAATGTCTGAAAGTATGACTTGTTATTTTTCTACCAAAAAATCCAGCTTTTTTTACTGCTTTTCTTAATGTTATCGCTACATAATAATTTGATAGTTTCCCTGTATATTTTGTACTAAAAAACCTTGTTGTTTCAACTTCTGGTATGTTATTTTCTTTATATTCCAATAGTATTTTTTTTAACTTTTTTGACATTGGAATATATCTACTTCCTCCACCTTTTCCATTTCTAATATATATTAATTCTTTCTTAAAATTTATATCTCGTTTTTCTAAAAATAAGCATTCATTTAATCTTAATCCAGTATAATACAACGTTTTGAAATATGTTTTCAACAAAGGTTTTTCAATACATCCAATCAATTTTTCAACTTCTTCCTGTGTTAAATATTCTCTCTGTTTATTTATTCTTTTTATTTTCGGAACTGCTTTTGATAGATCTTCTTTTATCAATTCATTAGAATAAAGGTATTTAAAAAAACTATTTAATCTAATTTGATAAGTTGATAATGTTGAACTTTCTAATTTTTTCTCTACTAATTTTTTAAAAAAACTTTCCATATCAGATTTTTTTATATCTTCTACATAAATTTTTGAATTTTTTTCCTCTTCAAGGTAATTTTTAAAATATCTCAATATTACACAATTCCCTTTAATTGTTGCTTTGCTTCTCATTCCTGCTGTAAGTACATATTTCCATTTCTCTATTGCTTCCACAAATAACATAATTCCCTCTCTTCCAATAAAGACAAAAAACACAAAAAAAGCCAATAATCTGCCAAAATTTTTCATTTTGGCAGTAGCTTTTTACATCATTTTATGGTATAATTTTTTGACTATTTAGGTGGTGAGCCTACTGTTTTATAGTCTTGGTCTTAATCAGTTGCTTCTGATTTAAGACCTTTTTTATTATATCCATTTTGATGGATTGAGCTTAATATCTCTATTATTTTTTCTTCTTTCATACTTGCAAATATTGTTGGTCTATTCTTTAAAAATTTTATTCCTTTAAGTTGTTCCAACTCTTCCAATGCTGTTTTTTCTATGTCAAGCCTCTCTTTTTCAGGCATATTATTGTAAAATTTTAAAGTTTCTTCTCTTAATTTTGCTTTTAATTCTGCTGCTGCTTTTTGTTTGTCTAATTCCAATTTCTCTTTTTCTAATCTTTCTTTTTCCGCTGCTGCTTTTACTCTCATTGGTTCTGCATAATCTTCTTTTATTGCTTTTCTTAAATAATTGTAATATTCTTTATATTTATGACTATTTGTATAATTTAAATTTGATTCTACATGCTCTAATCCATATTCTTTTATTAATTTTTTCAATTCTTTTTCTTGTTTTAATGTTAATTTTTCTTTAGCTGGCATTTTCTTTATTAATTCTTCAAATTCCAATGTCTTTTGAATTTTAATTTTCCCTTTTGGCTCTTCTTCAAATATTTCTACTTCATTTCCTGGGAATATTCCATTTCCCTCACTTACTGAAAATCCTTCTTTTGCTTCACCCCAGAATTTTATATGCCCCATTTTTTTACCATTTCTTATTAATTCATATTTCGTTATATTTATATCTGTTGTTTCATTTATCTCTTTTATTGCTGGTTCTATCACTTTTCTTCTTAAATCGTGTATTTTATTATATGCTCCTGTTATTCCCAACATAAATTTAAACGTTTCCAATTCCATCTTGGGTATTTGTACTTTTATATAGTCTTTGCAAAATTCATAAATTGGCAATGAATGTTTTCTACTCATTCCTTTTTGGAAATCTAAATTTAATGGACTAAACATTTTTGGATGGTACAAATTTTTTCTCACTGTATCTGGAAAGATAAATTCTATATTAAAATCTTTATCTGTTTCTACTTCTGCTAATACTGCAACTGCTCTTCTACTCATAAATTTTTCATTTTCCAATATATTTATTGTTATTCCTATTTCTACTAATGATTCCAAATTCTTTAGTAGTTCATTATTGTTTATTCTTTTGTCTGTCATTAGACTTTTTACTTCTTTGTATGTCGATTTGAATATTTTCCTGTCAAAATCTTCATCCATTTGTTGTTTTGCTATATACAGCAACGCATTAAATGCTTTTTTCTGATTTAGACCCATCTTTGATGAACTTTGAATTAAAATCCTGCTTTTTTTCAAAATAGCCATTTTTTCACCTCTTTTCTTAACGACCTTTTTTAAATTAGTCGTTTTATCATATTTATACATTGTGTAATAAAATTATACACCGTTTTTTTCGAAATTGCAAGTACTTTTTTTGGCGACTATACATCTACATTCACTTTACCAAATTTCTTGCAGAAAGAGTCGTCTTTTTCCTGCAGAAAGTGTCGTTAGTTGTGCAGAAGAAGTCGCTTTTTGCTGCAGAAAAGGTCGTCTTTTAACGCAGAATCTGTCGTCTTTTGTGCAGAAAGTGTCGTTAGTTAGGAGATATATCCCTTTATTTACAAGGCTTTCAGCTACCTTAAACTTTATTAAACATATATTAAACAAAACCTACAACAGGTGAAATTTAAATTTTTTTATTTTTTTTAATATTTTTTTATTTTTGTTGTTTTTTTTGAAAAATTTATAAATGAAAGGAAAAACCAGAAGAGGAAATTAATCCTCCTCTGGCTCATAATCTGGACAATCTTCTGGTGAAATGAAATATTTACAATTATCTTGAATAAGTATGCAACCTAATGCTCCATCATCGCATATATCAAAATACTTACAAGGTCTAATCTCTTCCATCTTTTCCACCTCCTTTTTTCTTTACAAGCCTCACGAGTAAAGGAAGGAAGTCAAAAGCAGAGTTTGAAATTTTTTTAAGCATTAAAAAAATTTCAAAAAGCTTTTTACTTCCTAACGGCTCGTGATACAATCGAAAGAAAAGGAGTGGAAAACACAAAAAAAGAAAAATCCCAGCTTTTTATCCTGCTGGGATTTTTTCATTATTCAATTTGCTTTGAACATTCCAAAATACCCATTTGCGAAACTCATTTTTTTAAAAAATTAGTGTCGCTGTGCTCATATTTTTTGACAAATATAATTATAAATGGTATTATATAATTATAGAATTCAATAATTATATAACGAGGTGATAAAAATGAATAGAAAAAGTATAGTTATGGACAAAGAATTATGGGAGCATTTAAAAATTTTTAAAGAATTACATAAAAAAAGTATAAGTTTTATTATCAGAGAGGCTGTAAAAAAATATTTAGAAGAAAAAACAAAAAATGATTTAGCTTATAAAATGCGAGTATTAACTCCTTATGTAGATGATAAAGAACAAGAAGAAATAAAAAATATATTATCAAATTTAACTAAAGAAGATTTAGAAACAGGTGAAATAATTGAAATATAAATTAAAATTATCTAAAAAAGCAGTCAAATTTTTAAATAAACATTCAAATGAAAAGGAAAAAATTATAAATATTTTTAAAGAAATAATGCCTAATTACGAAAAAGCTTTAAAAAAATATGATATAAAACAATTAAAAGGAACTCTTGAGGAAACATACAGATTAAGAATTGGAAAATATAGAGTTATTTATAAAATATATAATGATATTTTAGTTGTATATGTTTTAGCTATAGGAAGTAGAGGAGATATTTATAAAAATTTAAAATAAAACCATTTTTTTACTTTATAAAAGAAAAATCCCAGCTTTTTATCCTGCTGGGATTTTTTTCATTATTCAATTTGCTTTTAATTTCTTTTAAAATGTACTTTAAATTCATTCTAAGGCTTCTTTTTTGTTTTTTAGTATTTAGGAACTGCCTTTGCTTTTAAAAACTCATATACGGAAAATTCATTGCCTTAACTTCTCCACTTACCATTAAATTAATTTTGCGTAATTGAGGATAGGGGAGAGTTTGAGAGGGTAAGGAACTAAGTTCCTTTTCTCCCTCTCAAGATATCCTTGCCCAAGTGCTATATATCCACGCTCCCTCCCCACATCAAACGTTTAGTGGGGAGGAATCAAAGGTGGGGTACTCCTCAAAAGCAGGAGCGAGCACATAATACCACATTATCGGATGCTCTAAGGAGAGCGCAGTCTCGACGGCTGCGTCGGATAATGTTTATTATGTCGCGAGCGGATAGGTGGGGCAAAAGGTAGTAGCTTTTTATTGGTCGGAACATTTTTAATCATTCATAATATTTTGCTGTTTCCAGTATTTCAGCAAAAATATTCCAAGGAACATTTTTAGGAATTTCTAATTTATTATTTATATAATAATTATCCATTGCTTCAATTGCCGCTTGAAATGCTTCTAAATAATTTTCAAGTGTGTCATTCTCCCACTCCTCTTTATTTTCTTTAAAATCCATTCTTAATTGTCTGACAAATTCAATAAAATCTTTTTTATTTCTTATCTTTTCTACTTCTATTTCTATCATAAATTATTCACCCCTAACTTTAATATCTAAGCCATCATTTATTGGTTTAAATTTTCTTTTTATTTCTCTTTCTATTTTTAAATCATTTGTATTAACACGCTTAACATTTATATCAAGTCCAGCATCTTTAAAAGCTTTAAGCCTTCTATTATCTAACGAATATATTTTACCATCTTTCTCAAAAACTCTTATAGCTGGAATATCATCTGGATTTATAGAACCATTTTTTAATCCTGCAATTAAATCCTCAATTTTCCCACCATTCTTAAAAGTATTTTTAATACTATTTTGACTAAATCGAATTAAACTCGGATCTAATTTTTTAATTATATTTCCAACCTTTTTCAAAGTAGAACCAGCTAACGGAAGAGCTAATCCAGCTACTCCAAAAGCTCGATCAGTAGGTTCTCCCCACATGTCTTTACCAGTAGATGCCGTCTTACTATCATTATACGATTCTACCCATGGAAGATTTTCAACTAACATTTTAAATCCAGCAGTTACAGTATTTAAATAATGCTGCCCCATCATTGCAATTCCTTCTCCAAAATGCCCAGACGGATCAACATACCTCAAAGGATTCCCTAAACAATAACGATACTAAATTTCTATTTTTCTCTAGCCCTTTATTTCCAACATCATTTTAACATATATATTTGTATTTGTAAACTTACAAAAACATTACTATTCTATTACTAATAGCATTGTAATGTTTTTGTAATATTACTTTTCATACACTAAATGGATTTCATATACAAAAAAGCTAATAACACGAGCTTATTGCCCGATATTATTAGCTTTTTCTGTCTTTTCTCCTAATAAATACTTTATTTCTCTTTCAAACCCATATTTTTGAAAAAATTCTATTAATGCTACCTCAAATATATTCTTTTGAGTTATATTAAATGCTCTACTATATTCTCTTGCCATTTCATTTAAACTGCTTATTATTTGTACTGATTTTATTGTATTTATTCCTGGTATCCTATATTTTTTTATCACTTTACCCGAATTTAAATTTAATGCTTCTTCCAGGTTCCCATAATTTTTTGACAGTAGCTCTAGTAATTCTATATATTTATCTAAATTTTTCAATTCCTCTAAATTCCTATTTAAATATTCTTCTTTTTTTACAAAATTACTTTCCTTCGATGACCATAAATAACCTTTCATTTTCATAAAATTTGACATATCTTTATAATTATCAAAATCAAGTTTTTTTGCAACCTCTTTTGGATCTGCGTTTTCATCTTGAAAATACATTAAAACCCGTTTTACTCTAAAACTATCATCTACTTTTATCTTTGGGGCTTCTCTTTTTTTCCCTTTTACATATCTTTTCCCTTCTTTTTCCCAATAATAACCTTTACTTCTTACAAAATTTTTAAATGAATTATAATTTTTATATCCCATTTTTTCTGATAATTCTTCACGTTCTATCCCTTTTTTTAACTGTTCAAATATATATCTTAATTTTTCTTCAGAGTTCAATCTCACACCTCCTAAAGTTCATTTACTGCTTTTCTCATATCTTCATTACTTGCGTTTAAATAAATCATTGTTGTATTTATGTTTGAATGCCCTAATAGTTTCTGAATTATTTTTATATTTACATTTTTACTAACTAGCGAACTAGCAAATGAATGTCTGAAAGTATGACTTGTTATTTTTCTACCAAAAAATCCAGCTTTTTTTACTGCTTTTCTTAATGTTATCGCTACATAATAATTTGATAGTTTCCCTGTATATTTTGTACTAAAAAACCTTGTTGTTTCAACTTCTGGTATGTTATTTTCTTTATATTCCAATAGTATTTTTTTTAACTTTTTTGACATTGGAATATATCTACTTCCTCCACCTTTTCCATTTCTAATATATATTAATTCTTTCTTAAAATTTATATCTCGTTTTTCTAAAAATAAGCATTCATTTAATCTTAATCCAGTATAATACAACGTTTTGAAATATGTTTTCAACAAAGGTTTTTCAATACATCCAATCAATTTTTCAACTTCTTCCTGTGTTAAATATTCTCTCTGTTTATTTATTCTTTTTATTTTCGGAACTGCTTTTGATAGATCTTCTTTTATCAATTCATTAGAATAAAGGTATTTAAAAAAACTATTTAATCTAATTTGATAAGTTGATAATGTTGAACTTTCTAATTTTTTCTCTACTAATTTTTTAAAAAAACTTTCCATATCAGATTTTTTTATATCTTCTACATAAATTTTTGAATTTTTTTCCTCTTCAAGGTAATTTTTAAAATATCTCAATATTACACAATTCCCTTTAATTGTTGCTTTGCTTCTCATTCCTGCTGTAAGTACATATTTCCATTTCTCTATTGCTTCCACAAATAACATAATTTCCTCTCTTCCAATAAAGACAAAAAAAACAAAAAAAGCCAATAATCTGCCAAAATTTTTCATTTTGGCAGTAGCTTTTTACATCATTTTATGGTATAATTTTTTGACTATTTAGGTGTCGAGCCTACTGTTTCATAGTCTTGGTCTTAATCAGTTTCAGCTGGTTTAAGACCTTTTTTATTATATCCATTTTGATGTTCGCCTCTCAATATCTCTATTATTTTTTCTTCTTTCATACTTGCAAATATTGTTGGTCTATTCTTTAAAAATTTTATTCCTTTCAGTTGTTCCAGCTCTTCTAATGCTGTTTTTTCTATGTCAAGCCTCTCTTTTTCAGGCATATTATTGTAAAATTTTAAAGTTTCTTCTCTTAATTTTGCTTTTAATTCTGCTGCTGCTTTTTGTTTGTCTAATTCCAATTTCTCTTTTTCTAATCTTTCTTTTTCCGCTGCTGCTTTTACTCTCATTGGTTCTGCATAATCTTCTTTTATTGCTTTTCTTAAATAATTGTAATATTCTTTATATTTATGACTATTTGTATAATTTAAATTTGATTCTACATGCTCCAATCCATATTCTTTTATTAATTTTTTTAATTCTTTTTCTTGTTTTAATGTTAATTTTTCTTTAGCTGGCATTTTCTTTATTAATTCTTCAAATTCCAATGTCTTTTGAATTTTAATTTTCCCTTTTGGATCTTCTTCAAATATTTCTACTTCATTTCCTGGGAATATTCCATTTCCCTCACTTACTGAAAATCCTTCTTTTGCTTCACCCCAGAATTTTATATGCCCCATTTTTTTACCATTTCTTATTAATTCATATTTCGTTATATTTATATCTGTTGTTTCATTTATCTCTTTTATTGCTGGTTCTATCACTTTTCTTCTTAAATCGTGTATTTTATTATATGCTCCTGTTATTCCCAACATAAATTTAAACGTTTCCAATTCCATCTTGGGTATTTGTACTTTTATATAGTCTTTGCAAAATTCATAAATTGGCAATGAATGTTTTCTACTCATTCCTTTTTGGAAATCTAAATTTAATGGACTAAACATTTTTGGATGGTACAAATTTTTTCTCACTGTATCTGGAAAGATAAATTCTATATTAAAATCTTTATCTGTTTCTACTTCTGCTAATACTGCAACTGCTCTTCTACTCATAAATTTTTCATTTTCCAATATATTTATTGTTATTCCTATTTCTACTAATGATTCCAAATTCTTTAGTAGTTCATTATTGTTTATTCTTTTGTCTGTCATTAGACTTTTTACTTCTTTGTATGTCGATTTGAATATTTTCCTGTCAAAATCTTCATCCATTTGTTGTTTTGCTATATACAGCAACGCATTAAATGCTTTTTTCTGATTTAGACCCATCTTTGATGAACTTTGAATTAAAATCCTGCTTTTTTTCAAAATAGCCATTTTTTCACCTCTTTTCTTAACGACCTTTTTTAAATTAGTCGTTTTATCATATTTATACATTGTGTAATAAAATTATACACCGTTTTTTTCGAAATTGCAAGTACTTTTTTTGGCGACTATACATCTACATTCACTTTTCCAAATTTCTTGCAGAAAGAGTCGTCTTTTACCTGCAGAAACTGTCGTTAGTTGTGCAGAAGAAGTCGCTTTTTGCTGCAGAAAAGGTCGTCTTTTAACGCAGAATCTGTCGTCTTTTGTGCAGAAAGTGTCGTTAGTTAGGAGATATATCCCTTTATTTACAGGGCTTCCAGCTACCTTAAACCTTATTAAACATATATTAAACAAAACCTACAACAGGTGAAATTTAAATTTTTTTTATTTTTTTTAATATTTTTTTATTTCTGTTGTATTTTTTTGAAAAATTTATAAATGAAAAGAAAAACCAGAAGAGGAAATTAATCCTCCTCTGGCTCATAATCTGGACAATCTTCTGGTGAACAGAAATATTTACAATTATCTTGAATAAGTATGCAACCTAATGCTCCATCATCGCATATATCAAAATACTTACAAGGTCTAATCTCTTCCATCTTTTCCACCTCCTTTTTTCTTTACAAGCCTCACGAGTAAAGGAAGGAAGTCAAAAGCAGAGTTTGAAATTTTTTTAAGCATTAAAAAAATTTCAAAAAGCTTTTTACTTCCTAACGGCTCGTGATACAATCGAAAGAAAAGGAGTGGAAAACACAAAAAAAGAAAAATCCCAGCTTTTTATCCTGCTGGGATTTTTTCATTATTCAATTTGCTTTGAACATTCCAAAATACCCATTTGCGAAACTCATTTTTTTAAAAAATTAGTGTCGCTGTGCTCATATTTTTTGACAAATATAATTATAAATGGTATTATATAATTATAGAATTCAATAATTATATAACGAGGTGATAAAAATGAATAGAAAAAGTATAGTTATGGACAAAGAATTATGGGAGCATTTAAAAATTTTTAAAGAATTACATAAAAAAAGTATAAGTTTTATTATCAGAGAGGCTGTAAAAAAATATTTAGAAGAAAAAACAAAAAATGATTTAGCTTATAAAATGCGAGTATTAACTCCTTATGTAGATGATAAAGAACAAGAAGAAATAAAAAATATATTATCAAATTTAACTAAAGAAGATTTAGAAACAGGTGAAATAATTGAAATATAAATTAAAATTATCTAAAAAAGCAGTCAAATTTTTAAATAAACATTCAAATGAAAAGAAAAAAATTATAAATATTTTTAAAGAAATAATGCCTAATTACGAAAAAGCTTTAAAAAAATATGATATAAAACAATTAAAAGGAACTCTTGAGGAAACATACAGATTAAGAATTGGAAAATATAGAGTTATTTATAAAATATATAATGATATTTTAGTTGTATATGTTTTAGCTATAGGAAGTAGAGGAGATATTTATAAAAATTTAAAATAAAACCATTTTTTTACTTTATAAAAGAAAAATCCCAGCTTTTTATCCTGCTGGGATTTTTTTCATTATTCAATTTGCTTTTAATTTCTTTTAAAATGTACTTTAAATTCATTCTAAGGCTTCTTTTTTGTTTTTTAGTATTTAGGAACTGCCTTTGCTTTTAAAACCTCATATACGGAAAATTCATTTCCTTAACTTCTCCACTTACCATTAAATTAATTTTGCGTAATTGAGGATAGGGGAGAGTTTGAGAGGGTAAGGAACTAAGTTCCTTTTCTCCCTCTCAAGATATCCTTGCCCAAGTACCATATATCCACGCTCCCTCCCCACATCAAACGTTTAGTGGGGAGGAATCAAAGGTGGGGCACTCCTCAAAAGCAGGAGCGAGCACATAATACCACATTATCGGATGCTCTAAGGAGAGCGCAGTCTCGACGGCTGCGTCGGATAATGTTTATTATGTAGCGAGCGGATAGGTGAGGCTTGGGAATATTATTTGGGCTATTTTAAATTATACTTTCCTCTATACAAGTTTTTACTACTTTTCTAATAGTACCTTCTCCAAAATCTCCACCAATAGAATATGTGATTTTTAAAATTTTTTTTGTTTTTTCTAATAATTTATTATCATCTATATCGATTTTTAATTCTTCTTTTAATATTGCTTTAGTTAGATTTATGTCATTCTTATTATACATTATTTCACCTCTTTTAGTTTTATTTCAATATTTCTATATCATCTAAATGAATTGACATATTTGTAATTGCTTGAGTTGCTCCGCCTTCCCCAAACTTTGGAAAATCTTTTGTAAGTGGTTCTAAATAATTAGTTGTATTCCATTTCCCATACGGAATTCTTATATCATCTAATAATTGTAAAGTATCAAACGAAGCCCTAATAGAAGCATCATGAGGTACTTGTAATTTTCCAGGAGAAGGAATATCATATTTTTCAAAACTAAAATATGTCCCGTTTGTATTAGAAGGTATTTTCATACTATTTTGCATTTCCTCTAAATATGTCGCATCTTTAGATACATACCTATATCCAGTAGAAGGAATAACATCTCCATTTGATTTTACATAAAAATCAGCTTTTGGCTTTGTTATATTTTTCAACTCAGCATTATAGGATTTAGCTCTATCAAAAGCTCCTGCATTTTCCATTCCCATTCCTAATGCAAATGCAGAAAACTCTCCAAAATTATAAGCTCCTGAATTAAAATTAACACTACTATTTGTTCCCATTAATTCTCTAATATGATATGTCAATCCAAAGGAAAGCGTATCTCCCATTCCTGCACTAAAATCTGCAAATGTATAAATTATATCTGCAGCATCATGCCCCGACGGATCGACATACCTAATAGGATTCCCTTTTGAGTAGCCATATAAGTTCAAACTAAGCGGCTCCTTAATATCGCCCTTGTACGTATCACGACTTATAAATCGTCTTATCTCCGGGCTATAATATCTTGCTCTTAGATACTGCAATCCACTCTCTTCATCTGTATATTCTCCTGAATATCTAAATGGATTTTTTATGTCTTCTTCTATTTTAAGCTCTTTCCCATACTTATCATATTCATAATTATTTTTTATTGTTCCTGACGAATCAAATAGTTTTAGTGTATCTCCATGACTATTTTTCAAATAACCATAGTTTTTCCCATTTATTTCTCTTCCTATTATTCCTCTTAATCCAAATAAATTTCTTTTTATTTCTCCATTTGATATGTCATTTATAATTTTATTATTTGAATAATAAAATTTTGTTTCTAATCCATTTACTGCTTTTGACTTCCTTTGATTTGTTGGATAATATTTATATATTCCCGTTATCCCTCTTTTTATATCATTATATTTTGTAAGCCTATTTTCTATATTATATTTATAAGCTTCTGTTTTTTCTCCATTTATTGACTTATTTAGCAGATTTCCATTATCATCATATTCAAATGAATTTTTTTCTTTTTTACATTCCCATATATTATTATTTGATTTTACTCCTTTCCATTTTGTTATATTTATCAACTCATCATCTTCGTTATAATTATACCACAAACCGCCTGTTTCATTCCAGTTATTATTAACTTTTACTTTATATTTTTCCATACTTATATTTCCCGAAGTTGTATATGTATAGCCCCTATCAATACTATCATTCCCATTATTAATTTTTAAGTTTCTAATAAGTCTATTCACTCCATCATACATATATATGTTTTTTTGATTAGATATATTATTGATTTCAGTTGTTAAATTTCCTACTTTATCATAATCATAAGTATAATCTAAACTCTTCTTTTCATTTAAAGTCCCTTGTAAAGTCATTAAATTTCCAATATCATATGTATATTCTTCAGAATATATAGTTTTTTTATCTTTTTTTTCTTCTAACTTTTCTAATTTATTATTCATGTAATATTGATATTCTATTTTTTCATCCGTTTCATTATTATCATATATTTTCCATAATCTATTTCTAGTATCATATATATATTTATAATATTTATTGGTTATATCAGTAACTTTTTTTATGTTTCCATTTTTATTGTACTCATACTTTACGCTTTTTCCATCTGGATATACTAACTCTTTTAAGCTACCATCATTATAATATTTATAATTTAATGATTCTTTCTCTAATGAGTTAATAACCTCTTTTATTGAACCATCATCATAATATTTATATTCTTTTATTTTATTATCTTCTTCTATTTTATTTTTATAAACATATTGCAATCTATTATAACTATCATATGTATAATAGAATTCTTGTAATTTCTTGTCTTTTTTATAGATTATATTCCCCAAATAATCGTACTTATAAATATTTGTTTTACCTTTTATTTCTATATTATATAAATCACCTTCATCTATTTTCCCTTGTTCTGCTTTATTTATACCTTTCAAAACTTCTGAATTTAGTTTTCCTATTTCTTTTATTAATTCTCCTCTTTTATTATATTGCTTTACTATACTCCCCCTTGGAGTTAATATTTTAATTATATTTCCAAGTAAATCATAATAGTATTTTATATATATTTTTTCTGTTGGAATTTCTACTTTTATTAATCTTTCTAACGAATCATAATAATATATAGTTTTAACATCTCTAGCATTTATTATCGTTTTTATTTTTCTAAATCCAGTTATCCAATCTATTTTTTCTTTATTTGATATATGTTCATTTGAAGATAATTTTTTTATTATATCTTCTGCATTATTTACTTTTGTTAATAATTCTTTAAATGATATTTTCTTCCCACTAAATGTACATTGAAATTGCAAATTATCATTAGGGGGTCTTTTTTTCATACTCATAACCTTCCGGTTCTTTGTGTCCACTAGCTTAGCTAGTGGTTTTCTTTTTTTATTAATAAAAAAACTGGAGATTAAATTCCAGTTTTCTTATCCTCATAAATTAAATTCTTTCTCCTCATAATCTATGATTAACTACTCTAAATAGTTTGCAGTATTCCATAATAAATTATATCAACTCATTATATTTCCGAGCTAATTTTAATAAGGCACTCCCTAATTCAGAGTATATATCCCAAGAATCCACTATGTTTCTTGTATATGATGGCAAAAATAACTTTGGTGACATCTTTGTTTTCATCTTTTCAAGCTCTGCTAGTATTCTTTCCAATTCATTTTGAGAAGGAATTAACTCTGAACTATTATCTTCTCTTTTTATTTTTAATATTTCTTTATTTATCCTAATTTCTAATTCATCAATCATATTAATAACTTTCATTTTCTTTTTTTCTACGGCATTATTAAATTTTGTCTTTGTACCCACCATTGCATTTCACCTCCTGTATATTGCAACCCATAATTTAATTGAGATGCTGCTTTGCCTGTTATTATTTGAGTTCCTGCTTGCACTTGCCATTGTTGTAATCCTGTCATAAGATTCCAATTTGGAGGAAGAGCTAAACCATATCTATTTGTTAAATTTGTAAAAGTAGGAAATAAATATGATCCTGATTTATAAGCTTTTTCCCCAAAATCATGAAACCTCAATCCATAAGTAGCTGTATCTGCAGTTTTCATATTAATTGTTCCTTCTTTAAAAGATTGCAATATATTAATTCTTTGTTCTCTGCCAACTCCAATATTTTGTAGATATTTTGAAGCTTGTTTTACCCCTGCGTAGGAATCCTTAGTTATTAATTCACCACTTTCTGCTGCTACTGTAGGTAATAAAAACATTTGAGCAGCATATCCCCCAAGTAAAGTTAATGCCGTTTTATCATAAGTATCTCTTGTCCACATCGAAGATAAAAACAACGGCATTAAATACAAGCTATTATCTGTATCAATATATTTATTTGCCCAATATTCACTAGCATATTCTCCTGCTTTTGTCCCCAAAAATCCATATTCTGCACTATTTCCGGTCGGATCCACATAACTAATCGGATTCCCTTTTGAGTAGCCATATAAGTTCAAACTAAGCGGCTCCTTAATATCTCCATTATATGTATCACGACTTATAAATCGTCTTATCTCCGGGCTATAATATCTAGCTCTTAGATACTGCAATCCACTCTCTTCATCTGTATATTCTCCTGAATATCTAAATGGATTTGTTATGTCTTCTTCTATTTTAAGCTCTTTCCCATACTTATCATATTCATAATTATTTTTTATTGTTCCTGACGAATCAAATAGTTTTAGTGTATCTCCATGACTATTTTTCAAATAACTATAGTTTTTCCCATTTATTTCTCTTCCTATTATTCCTCTTAATCCAAATAAATTTCTTTTTATTTCTCCATTTGATATGTCATTTATAATTTTATTATTTGAATAATAAAATTTTGTTTCTAATCCATTTACTGCTTTTGACTTCCTTTGATTTGTTGGATAATATTTATATATTCCCGTTATTCCTCTTTTTATATCATTATATTTTGTAAGCCTATTTTCTATATTATATTCATAAGCTTCTGTTTTTTCTCCATTTATTGACTTATTTCGCAGATTTCCATTATCGTCATATTCAAATGAATTTTTTTCTTTTTTACATTCCCATATATTATTATTTGATTTTACTCCTTTCCATTTTGTTATATTTATCAACTCATCATCTTCGTTATAATTATACCACAAACCGCCTGTTTCATTCCAGTTATTATTAACTTTTACTTTATATTTTTCCATACTTATATTTCCCGAAGTTGTATATGTATAGCCCCTATCAATACTATCATTCCCATTATTAATTTTTAAGTTTCTAATAAGTCTATTCACTCCATCATACATATATATGTTTTTTTGATTAGATATATTATTGATTTCAGTTGTTAAATTTCCTACTTTATCATAATCATAAGTATAATCTAAACTCTTCTTTTCATTTAAAGTCCCTTGTAAAGTCATTAAATTTCCAATATCATATGTATATTCTTCAGAATATATAGTTTTTTTATCTTTTTTTTCTTCTAACTTTTCTAATTTATTATTCATGTAATATTGATATTCTATTTTTTCATCCGTTTCATTATTATCATATATTTTCCATAATCTATTTCTAGTATCATATATATATTTATAATATTTATTGGTTATATCAGTAACTTTTTTTATGTTTCCATTTTTATTGTACTCATACTTTACGCTTTTTCCATCTGGATATACTAACTCTTTTAAGCTACCATCATTATAATATTTATAATTTAATGATTCTTTCTCTAATGAGTTAATAACCTCTTTTATTGAACCATCATCATAATATTTATATTCTTTTATTTTATTATCTTCTTCTATTTTATTTTTATAAACATATTGCAATCTATTATAACTATCATATGTATAATAGAATTCTTGTAATTTCTTGTCTTTTTTATAGATTATATTCCCCAAATAATCGTACTTATAAATATTTGTTTTACCTTTTATTTCTATATTATATAAATCACCTTCATCTATTTTCCCTTGTTCTGCTTTATTTATACCTTTCAAAACTTCTGAATTTAGTTTTCCTATTTCTTTTATTAATTCTCCTCTTTTATTATATTGCTTTACTATACTCCCCTTTGGAGTTAATATTTTGATTATATTTCCAAGTAAATCATAATAGTATTTTATATATATTTTTTCTGTTGGAATTTCTACTTTTATTAATCTTTCTAACGAATCATAATAATATATAGTTTTAACATCTCTAGCATTTATTATCGTTTTTATTTTTCTAAATCCAGCTATCCAATCTATTTTTTCTTTATTTGATATATGTTCATTTGAAGATAATTTTTTTATTATATCTTCTGCATTATTTACTTTTGTTAATAATTCTTCAAATGATATTTTCTTCCCACTAAATGTACATTGAAATTGCAAATTATCATTATTATCGTAAACATTCCAATTATGATTTCCTTCTTCATCTATATTCACTTTTACCCTGTTAAACTTATATTGGCTATCCAAATATTTTATTCTTTTTTCTGGAATAATTCCATTATTTGTTTTGGGATATATTATTTTTGTATTCCTATTTAGTTCGTCGTATTTATAGATAATTTTGTTATCTTCTGCATCTGACTCTGAATTTAATCTTCCTATTTCATCATATTCATATCCTTTTATTTTATTCCATTCGTTATTCTTATATTCCAAAATTTCTTTTATATTATCATATATATCATATTTTAACTTTACTTTATATATTCCATCATTAGCATATTCTGCTTTCTTTTCCATTATTATTTCTCTTTGTGTATCATCATATTTTATCTCTTTGTCAAAAATCTTATCACCTGAATTATAAATATATCTTAATCTATCTAATTCATCATATTGTTTATATATCTTACTATTATCTCCAGAATTATTTGATAATTGTTCTAATAGAATTAAATTTCCTGTTTCTTTTCTATAGTTAGAAACACTCTTTATTATATTCTCTTTGCCTGTATAATCTTTTTCATAGATATTTTTTGTTATACTATACCCATTATATGTTTGATTCCAAGGAGTTACTATATTTACATTATCATTATATTCATATCTTTCTTTATAATTACTTTCTTTTCCAGCAACATATCTATCAAAATCCCATTTGCTAATCTCTTTTAATCTTCCATCGTCATAATAATTATATTTTTCATAAATATTATTCGGATTATTATCTGCATCAAAATTATGTATGATTTTTAGTCCTATGTTCTTTTTGTTTTCTGTAAGCTCAAAGTCCATCTGTTTATTAATTACTAAATCTTTACTATCATCTGCTTTTTCTATATCATATGATCCACTATAGCCTACTTTTATAGATTTAGGCAGTTCCCAGAAATGATTCCCTTCTGATGTACTGTAATATTCAAATTTATCAACTCTATCATAATAATCCAATTCATCCATATGAACAGATTTTTTTTTATTTCCATTATCATAATATCTATAATATTGGATTTCTGAATTGTTTTGTTTGCCTAAATAAAAATTTGATTTTGTTACTTTTGTTGGATATACATCTTTGAAATAATCTTCATACCATATACACTGTATTTTTTCAATATCACTTCCTTGTCCATTTTTATCTTTATCTATCCATTTTATTTCATTTGTTTTTAGTCTTTTCCAATTATATAAATATGTAGTTTTTAAATTCGTTTTTGAATTTGTTTCTGTTGTTGTAAACCAATATTTTTCTTTATCATAATTATCATAGTTATAATTCTCCTCTTTCATTCCAGCCAATAAATATCCGCCATTTTTAAATTGAGAATCATAATTGTAAATTAATTTAAATTCAAATTCATTTTTTTTGAATTTGTCATCACTCTTATATATTATTTTATTTTTTAATCTATAATATATTTTTCGAGCATGAAGCTCAAAATGATCTTCAACATAAAAGAATGGTGGTGGACATAATGAATAAATAACATCATGTCGTCTCCCATATTTTTCTTCAAACTGCTCATATTCTAATTTTATTATTTTACCACTATTTTCTGTTATTTTATTTAAATATGAAAAAGAAATCTCTTTTTTATCATCTGGTACATTTGTTTCATTTCCTTTTAGTAATCCTAACAATTTTTGGTATTGTTCTCTCTTAATCTCATCTTTTATTGAATACTTAAGGTAATCAAAACTTGTTTTTCTATTTTTTTGATCTACTCTTGTTAAAATTTCCCCCTTTCTTTTAATATATTCTATATTTTTATTTGTTGGCAATTCAATAGTTACTTTATTGTTTTTATTGGTAATTATAATTTTATTTTTATAAGTATCTTCTATTATTATTTTATTAGTTTTGTAAATAAAAATAATTTTATCCTTAAACCTATTCTCTATAAAATTTAATTTCCCTGTATTATCAAAAACATAAGTTATTCCTGTTATCATATTCATTAAATAATATTTATTTCCTTCTTTTTTTAATTTTATATTATTTAATTTATGATCTTTTAATTTATTATTATCAATTTCAATTCTACTACCATTAGATAACATTAATATATCTTTTTTATTTTTATTATTTCCAAATTTTGAATATCCTAATATAATTTCTGGAAAACATATTCTCCAACCAGAACCTATCTTAAATTTTCCTTCTATATCATAAAAACTTGTACTATATATTGTTTCAATTTTTAAATTCAAATTATTTTTTCCAGGTAAATTTAAATCAGTTATTTTATAGTTAAAGTCTCCTGTAACTAAATTAATATCTGCTTTATTTTTGTACTTAGTTAGCGTGTTAGCGACAGAATTTAAAAAATTATCATCATTACTTACATTTTCTGCACTTCCTCTTGTAATTATTTCTTTTTTTATATTTCCATTTTCAATTATGTATTTTCCACTTTCTGTTATCTCATAATTTTTATCATAATCTCCTTTATTGTTTGTAAATTTTAAAATTAAAGGTTCTTCAAATTTTATTTCTATTTTATTATATATTTTTCCATATAATATACTTTTTTCTAATTTTATTGGTGGAACTTTATCACTATCTACTTTCATATATACGTTTTCCCAATCACTTAAATAATAAATTGTTGCTTTTTTACTTAATTCTACTGTGGGACTACTTTCTAACGCCACATTTTTTGACATTTCAATTCTTTTGACTATGTTTTCTTTTTTTATTTCCGAACTTTTTACAAGATATTTCCCTACCTCATTCCCCATATCCAACAACAAATTCTTTTCTTTTAAATTATCTATAATGTTATCATTATCTATATCATATTTATATCTATTCTCAAAAATATAATTATTATCTTGACCTATTCCTAAATAATTTAAACTTCCATTATACTCATTGTTATATGGATATTTTATTATTGGTTTTTGTTTACTAAGCAACCCTATTATATCCAATTTATAAGTTTTTTGTAATTTGCCATTAATATAAACTTCAAATTCTAATGGATTTTTTCCATTAATTTCCTTAATATTTCCATTGTTTTCTGTTATTTCTCTATAAGTAACTCCTAAAATTTTCACTATATACATCTCATTTTTTGCCTTATATGCCTTAAATTCTTTTTCATAACTTGGTCCTGTACTATTTATAAATTTTATGCTTATATCTTTTTTTGCATCTGTCAAAAATCCTAATTCCAAATTATATCCTATTTTTTTATGTATATAATTTTTATCTTCACCTGGTTCTACCTTATAATCAATAACTTCTTTCCAGCCATCCACTTTTTCTAATTTAACATTATCATTTACAGAAAATTCTTCTGCATATGTTTTTTGTGTGAATGTTAATAAATTAAATATTTCAGAAAAAATCTTTGATATATTTTTAATATTAATTGTCTTTATATAATACTCTCCAGGCATTAATAAAATATTTCTACTTCTATAGTTCCCATTGACTTCATCTTTTTTTATTGAAATTTCTTTTAATAAATTATAATCTTTATCTAATAATTGAGCTTTATTAAATATTTCTTTTCCTAAGTTAATATAATATAGATCTTTATTTAATATTTTCACTTTAAATATATTATCTGATATTTTTTCTAATAATATTGTATTTTTAAATTTATTTATCTCTTCTAATTGAATTGATTTTTTTACTTTACTTTTTATAGAATAAAAATTTTCATATTTATTTTTACTTATATCAATCTTTTCTATATTAAAATTTTTATCAAGTTTATATACTCCTGGTAAGTCTATATAATAGTTAGAGCTTTTATTATTTTCTATATTATTTGTATTTTCAAAATAAAAATTTATACTTGTAGTATATGGGAAAATAGTATACTTATATCCTTGTTTTAATTTACTATCTACTATTTTTTTCTTTTCCCAGCCTCTATTATCACTATTATAATTTATTACATTATATTTCTCTGTTTGAAAATATAGAGCTATAAATTTTTCTTTACTTGAAACTACCTTTGTTACAAATTCAAGATTTTTATTTTCAAGTTTATAAACTCCTGCACTATTTATTTTATAACTTGCAGTTTCATAACCTATTTTAAATTCCATATAGTTTGCTGGAATTGTTATCTCTTTATATCCTTCATATATTAAACTCGAATGCATTAAAATCAATTTTTCTATCCATTTTTTCCCATCTAAACTATATTTTATATATACATTATTTTTATTACTTTTATAATGTATTTGTATTAATGAACTTGTCATTTGAGAAACAATCCCATTTTCTATTATATATTCTCCTGAATTATTTATATAATATTCTTCGTTCTTACCTACTCCATCAGTTATTTTAAATTGAGATTTATTTCCTTTTACAATTGTATAATCATACCCACCATATAAATAACTCTTTATCATCTCTTTCTTAGGCAGCCATCCATTTGTTCCTCTTTCTTGAATAAATAATTGTTTCTGATTCGCTTTATAATGTATCTTTATACAGTTATCTGTTTTTCCAAAAGATATTAAACTTAAAACTAAAATCCCTAATACTATTATTATTTTTTTCATTTTAACATTTCCCTCCTATTTTCTTACTATTATTTTATACCATCTATTTTCACTTACATCATTATCTATATAATAATTATCAGTTGTACTTCCTAATATTTTATAATCTATTCCATTTGTACTCATATATATATAATATCCAGTACTTTCATCTATATTTTCCCATTCTAATTTTATATTTGATTTTTCAAAATTAACATTATCCATTTGACTTATCCTGAAATTTAACTTCTTAGACAATGTCTTTACACTTTTTTCAATATATTCACTACTAATATTTCCATATACTGCTCTAATTCTAACGTTATAGTTTGTATTTAACTTTAGATTATCTATTAGAATATTCTCTTTTTTCACTGTTTTTTTATTTTTATATTCTGTACTATTTGATTCTCTCCATTCTATTTCATACTTTGTACCCTCTGGATATATACTTTTTTTCCATGATAAGTATATTGAATTTCCATCTACTCCATCATCTTTAAAGTTAATTGGCTTTTCAAGTTCAAGATTAAAAGTAACTTCTTTTTCTTTTAATAATTCTTTATTTTTATTATACGCTTGTACTTTTACTTTATATTCTTTGTTGTCTCTAATTTCACTCATATAAAATCCATATCCTGTAACGCCTTTATTTGTAGTTTGCTTTATTATTTTTCCATTATTTTCTATGGTAATTTTATACTCATCTGCTTCATTTAATTTATTCCATTCAATCTCTATCGTTGGATATGTTTTATCTTTTACTACTAACGAATTTAATCCATTCAATGCTGTCGCCTCTATAGTTATTTCATTACTTTTTACTCCATCAATCATCACATATAATTTATGTGTACCTGGATATACTGTCCTATAATATAATTGAGGTAGTTCTATATTTATTGTTTTCCCTGAAGGTAAAATATCATATATCTTAACCCTACTTTTTATCTCTTCATAAGGTATCGTCTTATCTACATATACAGGAACTCCTGGAGCAACTTGTTCTTTTTCCCAACTATATACATCGAAAGATATATATTCTACTTCTAATCCATCTGCTTTTACCTTCCCATCTGCCTTATCAGACAGCTTAATATGATGTATTGGAGCTATTTGATTTCCTGTAATTACTTTTAAATATGCTCCTTTTTCTACTTTAAACTCTCCTTTAATTCTCACTGTTTCTCCTGCTTTTAACAAAACTTCTCCATTTGGTTTGCTTATTTTTCCTGAATTTATGGTAATTGTCTCATCAGCTTTATAATATTTTCTTGTATCGTCCAATAGATTTACTAATAATAACTTTCTTTTTAATAAAGTCAACCTTTCCGATAGAGGTAATGGAGTTAATATTTCAAAATTAACTTGCGAAAATACCGTCCATGACATACTGATAAAAATAATTAACCTAAAATATTTTCCTTTATTCATTTTTATATCTCCTTATTTATATATTTTTTTAATACTCAAATGTATCTAATCTTTTCTCCAACTCTAAAATTATTTTATAATTATTTATTTGGGCATTTCCATAAATTGGATTATTCTTTATATTTAAATATTTTAAAGAATTTAATTCTAACATAACTCTCAAATCAGTTATTAAATTATTATCTGCATATAAATTTTCTAAATTTGTCATATTATGCAAATAACTAATCTCTTTTATTTTATTATAACTACACTTTAAGTTCCTTAAATTCATTAAATTTACTATTGGAAACAAATTATCAATTTTATTGTTACTTATTATTAATTCTTCTAAATTTTTTAAATCATCTAATCCATCTAATTTTATTATTTCGTTAAATTTTAAATCTAATATTTTTAATGCAGTTAATTTATCCAATTTTGATATATCTTTTAATTGATTGCCAGACAAATATAATTTTTCCAATTTTGTTAAATTTTCAATACTAGAAATATCTTCTAACAAATTCCCTTCTAAATTTAATTCTTTCAAATTTACCATATCAGCTAAAGGTAAAATATTTTTTATACTATTTTCACTTAAATCTAATTTTTCTAAATGTTTTAAATTCCCTAAAAAACTTATATCTTCTATGTCATCTCCTATTAAATATAATTCTTTTAAGTTATTTAATTTTTTTATAAATTCAAAATCTTTGTTTTCCAAATATGGCAAATATAATTTTTCTAATTTTTTCAAATTCCCTGCTTTTTCTATATTATTAATTTTATTATGCATAATATCTAACTCTTTTAAATTTTTAATATACTTATCTACATTAAAGTTCTCTATATCATCTTTTTCTAAGTTTAATCTTTCTAAATTCTTAATATTTTTTAAAAATGAAAAATCTGATATTCTACAGTTTTCAATAGTTAAATCGTTCAAATAATCAAGTTTAGGAATTATAAATTTTATTAACGTTTTATTTTCTACACTTTCTATATATAATGTTTTTAAATTTGTAAAATATTTTAATTCCTCTATTAAATCAAACTTGTATATAAGTAAATTTTTAATCTGTTTTAAATCTTCATAATAAATATTTCTATTTTCAGGAATATCTAGTTTTGCCTTAATTACATTTTCAAAATGTTTATTATAAAAAAATATATAAGTTTTAACAGTGGATAATCCTTTATCATCAAATGCTATTATTTTTAATTCTATTGTTTTATCTCCCAAATTATAGCTATGATTTAAATTCAACATCAAAAAATTTTCATCTATTTCTTCATCTATTTCTCCATCATTCTCCCAATCAATTTGAAACTTTTTTATTTTACCATCTATATCTAAAATATTTCCTAATAAATTTATAATATTATTTTCTCTTTTTCCAAGCATATTTAAGACTGGTGGTTTATCAAATTCAACTTCTATACTCTTACTTCTTATCTCTTCTACTTCACATTCTAAAATATATTTTCCGCTTTTATCTGTTGAAAAAAAATTGTTCTCAATTTTTTGCCCATTAACATAATAATTAATGTGATAATTTGTTAATATATCTCCATATTTATTTTTAACTATCCCTGTTAATATTACCTTGTCAACTCCATTAGCTTTTATTAATTTTTTGTTTATAATTAATTCTACTTTATCTATTTTTAGTTTTTCATTTAAAAAACATCCGCTTAGAAATAATATTAAAAATAATATTATTAATTTATTTTTAATATTATTAATCTTCTCCATATTTAACATAATATCCTATATTTTTAGTATAATATTTATTTAACATATCTAAATCTTTTGACTCACTTCCAATCCAAGCAACAAACATCTCACTTTGAATCCAATTATTATTATAATCTTCCAAAGGGATATTTTCCCACCAATTTTCTCCCTTTTTATAAGGAATTACATAATATACCACTAATGAATCTTCAGTAAATACTCCTTTTCTCTCTAATTTTGAAATTGAATCATTTAAATTTTTAGTATATATTATCTTTGTAGTTTCTTCACAATAATTTATATATTGATTTTTTGATTGCTTTCTCACATCTATATTCTCTACAAGAGTATAATATGGAGCAGCCATATATCTTTTAGGCCATTTTTCTTCATTTAACAAAATTACTCCCTTATATACCAAATATCCATCTGGGACTATCTCACTACCATCATTATTTAAATTTGGAAATCCTCTATGTACCCATTTTATACCATCAGATAAACTATTTTTTAAATTTGTTTTAAATACTGTTTTTTTCGTTTTAGATATATTCCTAGTTATTTTTATTTCATATCCCATATTTTCTAAATTTTCTCTATATATTTGTTTTCTTATTTTCTCATCTGCCCAAGGAATAATTTTATTATACTCCGTTGTATACCTACTTGCTGCAATAGCATAACATAATCCTTTTTCAGAATTTTTATAATCCATTATTGGGGGAATATACTCTCCATTTTTAGTAAAATCTGGAAAATAATTTTCATCATAAACAATATCTGGCTTACTATCTATATTCCTTTTTATTTTTTTCTTAGAATCAATATTTCTAGTAAAGATAATTTTTCCATAAATTAAAATTTCTCTCTCACGTTCACTTATTTTTCCTGTTTTTATTACTTTTGATTTTATTTTATTTCTTTCTTCTACTTTATTATAAGAATATTGTTTTATACATCCATTTAAAACTAATACAGTTATCAATAACATAAATCCTATTTTATTCTTCATTTTTTCTCCTTTTCTATTTATTTTTTAATTTTGCTATCTCATTTTTCATATCTTCATTCTCTTTCTTAAGCTCTATCATATACAAAGTAAGCTCCTCTACCTTTTGCAATAACTTTGCCTGCATATCTCCTACACTTACACCTTTGCTTTTCACCTCTTTTTCACTTGGAATATCTGGTAAATGTTTATTTGATTTTACAAATTTTGCTACTTCTTCAAGTGGTCTTAATTTGTAATTATTTTCAAATACATAATCTGCCCATACATTTTGTGTTACTACTAATTCTGACGTATGCAAAGTCCCGTTTATACTTGCAGAACCTTCTACTTGCAATTTTTGTCCTGTGTCATTTGATTTGCCTATTAATACATTCCCTCCTCGTCCATTTATTATTGTTCTATTTTTACTATACCAATTTATATATGTAGAAAAATTTCCGTTCTTTGCATCTAAATGTAAATTACCATTTGTTGCTGCTACCGATGCGTAAGATGTTACTCTTCCATTACCTCCCACTTGAAGATATTCGCCCCATGAAGAATTAGGTCCATATAATGTATATCTATCTTTATATAAATGAAGTGCTGCTTTTGGATTTGCTGTTCCTATTCCTACATTTCCATTAAAAGAAGCATTACCACTATAACTCATCCCATTAGAATTAACATAAGAATCAACTGATGTTTTAGGCTTATGATAAGTGATCCAATCTTTATGATGCCCTTCTTCTTGTGGATAACCATTTTCATCAAGATATACTTTTGGCACATTAATCATATCATTGTTACTTCTGTAACGATATGTTGTCCCACCACCTCTTAACCATATTAATATACATGAACTGCTATTATTTCCAGTTACATCTTTCCAACCAGCTACAAATCTATTCCCACTATTTCTTATATCAGCATCAATAAATGCTGATCCATGTCCCCAATTTGTAGTATGAAATCTAAATTTTGCAATTATTGTCCCTCTCCATGATGAATTTACATGTGTATCTGCCCTTGTTATCTCTAATTCTGTTGCTCCATTGGTCCAATTTGTATTTCTCCATAATACGGGATAAAATTTATCAAAATCCCCTCCTACATTAAATACTCTAATTTCTGGTGTAGTTAATGTAGTCCCTGTAAGATCTGCTCCAAATGATATTATGCTTGAAATAACTATTAAAATTACTAAAACTATTTTTCGCACTCCTAAATCTCCTCCATTTTACTTTTTTTCTAACTTATTAATTTTTTCCTTCATTTTATTTTGATTTTTTCTTAAATCTTCATTCTCTTTCTTAAGCTCTATCACATACAAAGTAAGCTCCTCTACCTTTTGCAATAACTTTGCCTGCATATCTCCTACACTTACTCCTTTACTCTTTACCTCTTTTTCACTTGGAATATCTGGCAAATGTTTATTCTCTTTTACATAATTTGATACTTCTTCTAATGGCTTTAATTTATAACTTTTTTCAAATACATTATCGTACCATTTATCTTGAGTTACCACTATCTCTCTAGCTCCAATAGTCCCTTCTACTGCAAGTTTATAATTATTCTTATTTGAAGTTGTCCCTATTAATACGTTTCCACCTTTTTGACTTTGAATACTAATTGGTTTCCCTGCATTACTATATATTTCATTATAGGTCTTTTTATTTGATAAAATTAAAGTATTTGTCCAGTCTTTATCGGTTATTCCAATTCCAGAGTCTCCATTCAAAACTCTAAAATATTGTCCGCCATTTTCTCCTTTTACATTAAAAATATCTACATTTACTTTATCTGTATTGATTAAAACCTTCCCTTGTATATCTAATTTTGCTCTTGGGTTTGATGTGCCTATTCCTACATTCCCCTTCAATCTATTATTTACAATATCTTCTGCACTTGGCATCCAACTTTTCCCATTATTTATCAATCTAGCATAAGGTAAAGCTAAATATATTTCTATTGGTCCATCATTGCCTACAGCTTCAAATCCTAGCGAGCATTGATTCCCTCCTAACCTTGTTGTTTCGCTAATAGTAGTATTAAATTCCCATTTATACCATCCTTGCGCTCCCTTATCTGTTGTTGTTTTATATATTGTTGTTCCTCTCCTTATACTTCCACTTCCATTATCATATCCCGCATCTGTTCCAAAACAAACATAATCTCCCTTGACTATTTTTATCCAAACTGAAAAATGAATTTTTCCTCCATTTACAACTGGGCCAACATAGGGCAATCTAACTATCTGATAACCTCTTGCATCTTTTGATACATTCCCAGTTACTTTTAATATGTGCCCATCACCTCTTCCATTCCACCCGTCTCCTAAACCACCTCTTGATATTCTAGGTCCTTTGTAGTATCTCCTAAACCAATATGGAGTAGTTTTTGTAGCACTTTCTACATCTTTAGTTGCATTCGCTGGACTGGTGGCTACATATGGTCCTTCAAATGCTTTCGTATATGGATGTACTGCCTCTATTGTCATTCCTGTCGTAGAATATCCTTTCGGTGTTTTCCCATCACTATTTAATTCATTCATAAATCCATTATTTATTAAGTTATATGGAACTGTTTCATTTGCCATTATGATATTCGCAAAGTTTAATAATATAATTATATACATTATTATTTTTTTCATTCTTACCTCCATCTATTTTTTTACTTCTAACTTTTCTAATTTTTTTTCAAGAATTTCATTTTTTTCATTCAATAAATTAATTTTCTTATCTTGCTCTATCATATACAAAGTAAGCTCCTCTACCTTTTGCAATAACTTTGCCTGCATATCTCCTACACTTACTCCTTTACTCTTTACCTCTTTTTCACTTGGAACATCTGGTAAATGTTTATTTACTTTTACAAATTTTGCTACTTCTTCAAGTGGTCTTAATTTGTAATTATTTTCAAATACATAATCTGCCCATACATTTTGTATTACTACTAATTCTGACGTATGTAGAGTTCCATTTATGCTTACAGAACCTTCTACTTGCAATTTTTGTCCTGTATCATTTGCTTTGCCTATTAATACATTCCCATTTATACTTGCAGAGCCTTTTATTATTTCATTCCCATATATGTTCTCTGTTTCTGTAAAAAATTCTTTTTCTTCTGTTATTTGTTCTCCTGGTTTCACTGATATTTTTTTCCCATTTGGCCAAGTTGCATTTCCTCCCAATACAGGTTTTAATAACTCTCCATCACTCACATAAGCCCATCCTGTAAATTCTATGGCATATAGTGTAGACCTAATATTTGCTCTTAAAGCAATATATTTATCTCCTTTATATCTAACTGTAACTAATTTCCAATCCTCAAATCTTGACTTTACAAAACCTCTATTTGTATTATAAGCTGTTGCTGTATTAACTTCAATTAACACCTTTCTATTCCATGAATGTTTATCCCCTCTAATAGCGGATATTTTTCCCATAACATAATAATTATTCATTAATTTCCCATCATATGCTTTATGTAATAATATATAAAAATTAGATGGATCTCCAAAAGAATGGGAATTATTAGCTATTTTATAATTTACATAATAATTTTTATATCCTTTTACCTGAAGGGTTCCATTTATAGTATCTCCAAATATAAATAAAGTATTTATAAGTAACAATATAATGACCAAAATTTTTATCATAGTTTTTATTCTCCTTATTTTTTTTCAAGTTTATTTATTCGTTCTTTTAAATATTCATTTTCTTTCTTAAGCTCTATCATATACAACGTAAGCTCCTCTACCTTTTGCAATAACTTTGCCTGCATATCTCCTACACTTACTCCTTTACTCTTTACCTCTTTTTCACTTGGTATATCTGGTAAGCGTTTATTTACTTTTACAAATTTCGCTACTTCATTCAATGTTCTCAACTTATAATTATCCTCAAATACATAATCTGCCCATGGAGTTTCACTTAATCTTAGGTCTGTTGCTGCTATTGTTTGTGTAACTATTATTTCATTTGTTGTTAGTGTCCCTTTTATCTTTGCATTGCCATTTACATCTAATTTAGCACTTGGAGTAGTTGTTCCTATTCCTACATTTCCAACATTATCTGTAGCATATATCGTATTAATTGAAAAATTCATCTTTTTTTTATTACTCTTGTTATAATCTTTTATTTCAACTGTTTTTAAACCTGTTGAATCAGCATAAAATGCCTCTATTGTAAAAAATGGATATGGCTCATTATTATTTGTAACAACAACATCATAGCTATTTCCATTATCATATATTTCTAAATTAAAATATCTATATCCTCCGCCTCCATGTATTTCTCTATTAACCTTCAACCCCTCCCTAGAAGAAATATAGTATGTAGTTTCTCCAAGCGTAGTATTTATCCAACTTCCTCCAAATACTTTTATCATAAGTTTTTGATAATCACTAGAAGAACTATATGGAAGATTTCCTACAAATTTTGAATTTGTATTTGAAGTGCCATAACCTATAAATGTTGTTCCCACTTTCACTGGTTCTGTTGCAAAACAAACTACTGATAAAATAAAACTTATAAATATAACAATTTTTTTCATGTTTTATATTATCTCCTTTCTAAATTTTTTATTTTATTTTTCAACATATTAATTTCTTTAGTTTGTTCTATATTTTTCTTATCTTGCTCTATCATATACAAAGTAAGCTCCTCTATCTTCTGCAATAACTTCGCCTGCATATCTCCTACACTTACTCCTTTACTTTTCACCTCTTTTTCACTTGGTATATCTGGTAAGTGTTTATTTACTTTTACAAATTTCGCTACTTCATTCAATGTTCTCAACTTATAATTATCCTCAAATACAAAATCTGCCCATGGAGTTTCACTTAATCTTAGGTCTGTTGCTGCTATTGTTTGTGTAACTATTATTTCATTTGTTGTTAGTGTCCCTTTTATCTTTGCGTTTCCATTTACATCTAATTTAGCACTTGGAGTAGTTGTTCCTATTCCGACTTCTCCGCTTCTTTTTATAAATAATCTGCTTCTCCAACCATTGTAATTTCCTTCTATACTATATCCTCCATCCATTCCAGCATCACTTCGCATTCCTACATTCCAACCATATCCATTATCTTTAGTTTTAAACATATGTCTTGCAAAGGCTCCAGCTCCATCAGCTTCTAATAATACATCTACTGAACCTTTCTTCTTGATATGTAATATCCTTTTAGGCCTTTCTACTCCAATTCCAACTTTACTATCCATCAATGTTAATCCACTTTCTTGGTCTCTTACATTTGATAACCTTATAAATCTACTGTGATATAAAAATAATTTCTTAGAATAACCATCATCCCCAGTTATATACGAATCTCCCGCTAAATTTGAATTATCTTTAAAAATTAATTTCTTATATTCCCCATTTAATTTTATATTTCCATTTACTTCTAATTTTTCACTAGGATTAGATGTCCCTATCCCTACATTTCCATTCTCTCTTAAGGTTAAAACATTCAAGCTTTTCATAGTAACTGACTCAGAAAATATGAAATCAAATCTTTTCCCATATTCATTTCCATAAGTAGTTAATCTCCAAGTATGTGTATCTCCCCTTGGTGTAAAATCTAATGGAGTTATTTTAGAGCGAGTCAAGTCCAATTCATTATTAATTACCAAATTTTCCATAACCTCCCCACCAAAACTTACAATCCCAACCATAACCATAATAATCCCTATCAATACTTTTCTCATCTCTAACCTCTCCTTAATTATTTTTTCTCTATTACTCACTTTATTGTGCTTTTTTAATAAGCTCACTCATATCTCTTGCCATTTTTATAGTTTCTCCATCTTCTACTATTCTTGGTGTAATATAAATTAATAATTCTGTTTGGTTGCTATCTCTACTTTTTGTTTTAAATAACTCGCCTAATAAAGGGATATCTTTTAATATTGGAATTCCTGACTCTTTTTCTGTTATTACATTTTGCTCTAACCCGCCAATTACTATGGTTTCTCCATCTTTTACTCTTACTGTTGTTTTGGCTTCTCTTTTACTTACTGTTGGTGGTCCTTCTGCTGGTGCTGCTCCTCCTATATTGCTTATTGTTGGATTTAACTTTAAACTTATATCTCCTGTTGAATTTATCCATGGAGTTACATCTAGTGTTACTCCAGCATTTACACTTTTATAATCTATCTTTTCTTTGCCTTCGTTATCTAAAGTTACAACTTTATAATACTGAACTGTTCCTACATTTATTACTGCCTTTTCTCCGTTTATTGTTGTTATACTTGGCTTGGCTTTAATTTTTGCTAATCCTTGTTGTATTAACAATTGTAATTTTGTATAAAATACATCGTTTAATTTTGTTGCATTTTCATATGTAAACTCTCCTGAATTTGTATCAAATACATTTAATTTTTTTCCCCTTGTTGTTACCCCCTCTAATTGTAATCCTAGTTTCTGTGTATTATTTTTATTTTTTGATATTTCTACTATTAATGCTTCAATTTTTATTTGTGGTACTTTTTCATCTAATTTTTTTATATATGATTTCAATTTTGACATATCTTTATCCGTCCCTGAAAACAGAAGAGCATTCTGATTTGAAATAACTTTTATATTTGCAACTGAAAAATCATTTGGAAGTAAAGATGGCACTTTCTCAGCCTGAATAAATTTCAATTTTATTAATTCTGTTGAATTAAATATATCATTCCCTACTCCCATGCTATTTTTTCTCGTAATTATATAAATCTTATTTTCTATTTTATATGTATAATTAGCTCCCTCTAGTAAAATGTTTATAACTTCATTTAAATTAGCATTTTCTAATTTTAATGATATCGACTCAACTCCCGAAGTTAATATCATCATATTTAAACCTGCTATTGTTGATATTTTTTTTAATATTTTTATTACATTTTCATTTTCTGCATCTATAGACACTTTCCCCTTATTATATGATATTTTTAGTTTACTTGGTATTCTTGCTCTGCTTATTCCAGATGTAATTTTATAAATCCCTCTATCTTTCATAATAGAATATCCATTAGTTTCAAATAATACAACTAATCCTGAATCTATATCCACATCTCTTACTCTGCCTGATATATTTCCTTTTACATTATTATCTACAACAATATTCAATCCTGCTTTTTCTGTAAGTTCTTTTGCTACCTCTCGTATATCAACATCATATATGCTATAACTTAGTTTATTCCCGTTAATACTTATTTCTGCCATATTTTTTGGAATAACTTTCCTTTTTACATAAAAAGTATTATCTGTTATTTTTATAATCTCATAATTATATACTTTTTCTAATATACTTAATGTATTCTTTAGAGTAACATTTTCAAGATTAAGTGATATCTTACCATGTATTTCAGGACTTGATATTATATTCATTCCACTTTGTTTTGTAAGTAATACAAATACATCTTTTGCTTCTGCTCCTAAAACGCTTATATTTATCAGTTTTTCTTGTGCAAATACAATGTTTGTATACATAATAATCATAAAAATAATAAACATTAACTTTTTCATCTTTTGCCTCCTTTAATATATGCTATTAAGATTATGTTTGTCATTAAAATATCTGTTTTTTTCTTTATCTCAAGAGCTTCAATGTACATTTTTTTTTCATATGAAAATGTTTCTAAAAATGTTATTGTATTTTCATATTCTCCTTCAAGCAAAATATGAAATGAAATTTTAGTTATACCTACCTTTTTAATTTCTTCAATATTAATACTTTTATTTTTTATTTTTAAATTATCTTTTATACTTTCTTTATTTATTTTATCCATAATATTAAATTGAACATTTTTAATATTATCATTAAATATTTTTTTTGAAATATCTACCTCGTCATTTTCAATATTTTCCTTTTGCTTTTTATAGCTTATATAATTTCCTATATCATTTCTAACTAATTTAGATTCAGCTAAAGTTTTTTCTATTTTCATTCCTAATCTCCTGTTTTCATCAATCAATGGCAATAAATACCACTTTACATATGAAACAGAAATTATTATAATTATTGTTATTAACATCATTATCTTTTCTCTTTTTTGCAATTTACTCAACTAATTCACCTTCTATTCTAAATCTCTCTTTTTGCTTTTCTGTTATTATACTTCCTCTAAATTTTAATTTTAAAAATTTTTTCGACTGTTCAAGTTTTTTTAAAAATTCAGAAGCATTTTTGCTCTTTCCTGATATTCCCTGTAGCTTGTTCTTTTGAAATGTAATTCTGTCTATTTCAGTTGTAGAATCAGAAACATCCGCTATCACCGCTAACCATTTTATATAACTTTTACTCTCAAATACTGATACTAACTCTTTTAATTTTTCTACTTCTTTTGTTTTACTTTTAAGATATTTTTTCATTTCCATAATATTGCCTTCAGGTTTTTTTAGTTTTTCATTTATGCTTTTAAGTTTTAACAAACTGTTTTTATAGTTTTGATTCATATATATGAGTTTTGTATTATACATAATGAATATTATAGTTACCATAAAAATAGATGCATATTTAAAAATAATTCTACTTTTATTTATATCTTTTACTGATATTAAAAAATTTAATTTATTCAATTTTTTTCCTGCTTTTTTTCTTAATTTATCAATTTTTTCATAACTATCAAGATTATACACATCTCCATCTGATTCAAATAACTCCCTTTTATCTTCTGTTTTGTATAATTCTATATCTTTTTCTTTATATACATATTTATTTTCTAATCTATAAATAAGTCTCTTTTCATTTGTAAATAAAATTTCTGTTAATGGATATATCCCTCCTATATTTACTCTTTTATCAAATTTCATTTTAAACTTTCTTTTTTCTACTATAAATATCTTTAAATTCAAATTATTATCTTTTTTAGATATAGTGTATTTATAATTTACATCTTCTCTTGGAAATAGTAGATTATTTAAAACATTCATCTCTATCATATTATTTATTCTACTTTTTAATTTCTTTAATATGGTTATTTGTTTATATATCACATAATCAGGTGTTATAAACCACTGTATATTGACTTTTTTATAATTTTCACTTAGATACCTATTTAATTCTTCAATTCCTTCAAATGTTTTTTTCTCATTATTACTAAAAAAACAAATATGAATATCTCTAAAAGATATCACGTAACAATTTTCAATCATACCGTTTCTCCTCAAATTTTATCATTTTATAAATCTCTCATTAAATAGATTGATATATTTTTTGTTATTATTTTATTGGATTTTTTAAAAAATCTTATAGTAATTACTTTTGGCATTTTCTTCTCTTTAAGGAAGTCCCATTCACTCTTCCATTCACCATTTAAACCTATATAGATAAATTCCACTCTTGCGTACTCTTCTTCCTCTGTTAAATCAAATTCCTTTTTATTCTCTTTAATAATTAGTTTATAACCATTAAAAAATATCTTAATATGCTTTTCTTCATTTTTTAATATCCTATCAAATTCCATCTCATTATATTTACCTTTAAAATCCATAGTTGAATTAATATTTCGCAAGTTATATTTTAATATCTCTACTATTTTATCTTCTGTCCCTATTAATTTTTCTGTTTTCATATTTAAACTTTTATTTATTATAGATAGAAAAGCAATTGCAGAATAGATTACAAGACTGGATATAGAAATAGCTATAAGTAATTCTATTAATGTAAATCCTTTCTCAATTTTCATTTTTCTTTGCTTCCTCTTGGTTAAAAATTGCAGATAATATATCATGTTTTTCAATTCCTTTTATTTTATAATTTGCTCTAAATGTTCTTTTAATCAGATTATTTTCTATTCTTTCTTCTGTTATATTCCAATTAATTTCTATTCTATTAATATCATCTACACCATTTAAACCATAACTTATTTTATCATTTATCTCTTCTAGCTTGTTCGCCCCTAATTTGTGTACTTTAGATTTCACTATATAATTTATATTGTTATTAGATAACTTTATCGTAAGTGAAATAAATGACGGAACTGACATTGCTAAAATTGCTGCTGCAACAAGAACTTCTATAAGGGTAAATCCTCTATTATTCGACATTTACTTCACCTGTTTCTTCCTGAATCTCTATATTTAGTGTTCCATATGAAGTTTTTATTTCTACATTTTCACCTAACACTTTTCCATATTTATTAAATATTATTTTATTACTTCCATTATCTGATTCGTTGTTAAAATTCATATTATTTTCATCCCATTTAACTGATATAATCTTTTTTTCAGATATAAGTTCTCTTATATCTTTTATTTCTATATCTTTTTTTTCAATAATTGCTTTATCTTTAAAGTATTGAAATTTCTCTTCTACCCCTTTTAATATAAGTTTTCTATTCATTGATTTATCATATCTTTGCATATTATTTATTGTAATTGTCAATATCAACGAAAGAATAACTACTACTATTATCATTTCTATAAAAGTAAAACCTTTTTCTTTTTTACCAGTTTGTAATATCATCGCTATCTTTTCCGCCTTCTATTCCATCTTCTCCATTAGACCAAATATCATATTTTTCAGGATTGTTATATCCGGGACTCCTATATTCAAATTTATTTCCCCAAGCATCTTTTGGTATCTCTTTCTTTTCAAGGTAAGGACCATTCCAATTTCCAGCTATAGGATATGTTATTGGCTTTTCTGTTAATGCCCTTAATCCTTGTTCTGTAGTAGGATAATTCTTATTATCTAACCAATAATTATCAAGTGCCATTTGTATTATTTTAATCTGATTCTTCGTTGTAACTTTTTCAGCTTGTGATACTCGATTAAAAAGATTTGGCCCTATAGTTGCTGCTAAAAATCCTATTATCACAACTACTATTATAATTTCTATCAATGTAAATCCATTTTCTTTTTTCTTATTCATTAAAAACTCCTCTCACAAAATATAATAAACTTCTTTTTTAAAGACACTTAGGAACGTTTAAAAAATAATCTTCTCATATTTTGTTATAAAAACGCTTAAAACATTGCGTATTTTAAAGCAAAATGGGAATGTTATTTTTAAGCCATTCCTTATTATAATTTTTCTATACCTGCTAAATTAATTATTGGTATCAGCATTGCATAAATTAATACTCCAAATATAATTCCTATAATTATTATTACCAGTGGTTCAAATACTTTTGAAAATATTGCTATATTACTCTTTAATTCATCATTCAATGTATCTGATAAATCTGCAAAAGACAGACCTAAATCCCCACTATTTTCTCCTACTTTTAAAAGTTGAAAAAATAGATTATCATATAAAAAATTCCCATTTAATGATTCTGATAATTTATTACCATTTACAACTTTTGTTATTATCTTTTCAACTTCATTTTTTAAATATTGATTTTTTGTAAGTGTTTTTGATATTTCTAGAGATTTTATAAGCGAAACTTTACTATTTAATAATCCACTCATCATTGATGAAAAGTTATACAGAAAAAATTTTCTATAACTTTTATTAACAAAAGGTATTATTAATAGATATTTATATACTTTTCGCTTTAGAAATTCTGAATTAAAAAAAATATAACTTAAAACAATAAATATCATGCTAACCGCAAAAATACTTATTATATTCTTTTCAAATAAGTTCACTAAATCAATAATCACACTTGTAATTTTAGGAAGTTTTTGCCCATAATTATCATATATCTGCTTAAATCTTGGAAGTACATACCCAAACATTACTGCCACTGATATTATTCCAACAAAAATTAAAATAACCGGATAAGTCAATGTTGATATTATGAATTTCCTGAAATTCATTTTTTCATAAATTGTTTTTTTTAGTTCTTCAAAAACAGCCTTTATAAATCCTCCTTCTTCTCCAGCTTTTATCATACTTATATATCTTTGATCAAAATATCCAGGATATGAAGATAATGCTATTGAAAAGCTTTCACCTTTTCTTACTTTTTCATATATAGCATCATAAACTTTTCTGGCATATTTATTCTTTGTGAGATTTGTTGCTGTTTCTAATGATTCTCCCAGATTCATACCTGATTTTAATAGTGTATTCATATTTTTTGTAAATATATATATATCTTTTAGACTTGCTCTTTTAGAAAAGATTGTTGCTATTTCCTCTTTTATTTCATATATTGTTATCTCTTTTCTATTTAAATCATTTAAAGCTTGCTGCTCATTTGTAGATTCCACTGTTCCTTCTACTTTTTCTCCTTTTTTATTATATCCTTTATACTTGTATAAAGACATTTTACCTCCTAACCACTTGTAACTCTTATCACTTCTTCTATTGTTGTTATGCCATCTTCTATTTTCTTTTCTCCATCTTCAAAAATTGTTCTCATACCATTTTTCTTTGATTCTTTTATAATATCCTGTAATTCTCTTTTTTCTGAAATCATTCTTTTTATATCATCTGTTATATTCATTACTTCAAATAGTCCTAATCTTCCTACATATCCAATATCATTACATGTTATACATCTTTTATGGCTCTCATCTTTTAGTTTCTTCTCTTCTTTACAATCTGGACATATTTTTCTAACAAGTCTTTGTGCAATAATTCCTTTTAAAGATGCTGCAAGCAAGTAATCTTCTACTCCAAGATCTTTTAATCTCATTATCGAACTCGGTGCATCATTTGTATGTAATGTTGCCAATACAAGATGACCAGTTAAAGCTGCCTGAACTGCTATCTTCGCTGTTTCAGTATCTCTTATTTCTCCTATCATTATAATATCTGGATCCTGTCTCAATATCGATCGCAAGCCATTTGCAAATGTAAAATTTATTTCTGGCTTTACTTGCATCTGGTTCACTCCACTTATCTGATATTCTATTGGATCTTCTATTGTTATTATTTTTTTTTCTGAAGCATTTAGATAGTTTAAAGTTGCATAAAGTGTCGTTGTTTTCCCACTTCCTGTGGGTCCCGTGACTAGTATAATTCCCGTTGTATTCTTTAATATCTCATAATATTTTTTTAAATTATAGGTATCAAATCCTATATTTTCAAGCTTTAATAAACTTTTTTTCTTATCAAGTATTCTCAATGTTATATTTTCACCATTTATTATTGGTGCTATGGCTACTCTTATGTCCACTTCTCTTGAAAAAATTTTTATCCTTATTCTTCCATCCTGCGGGATTCTTCTTTCTGCTATATCAAGTGATGCCATTATTTTTATTCTTGTTACTAATGCTGGTGCTATATACAATGGTAAAATGCCTATATTTATCAGTACTCCATCCACTCTATATCTTACCACAACTCCTTGTTCAAAAGGTTCTATATGAATATCGCTTGAGTCCCTTTTTACTGCATTTGCTATAATCATATTTACTAGATTAATTATTGGAGCTTCATTTGCCATCTCTTCTATATCTTCTACATTTTTTATATTCTCATTTTCTAAAAAACTTTTAAATCCTGTTATATCTACTTCTCCAAGTATATCTGATTTCCATTCTTCTTTTTCATAATCCAATTTAATAAATTCTTCATTTTCAAGTTTTTCTATTTTCACTTTTTTTCCTAAAAACACCTCTATTTCATGAATAACTTGTGCATTATGATTAAGCTTCGAAAAAAAAATTATACTATTTTTATCTTTTTCCTTTATTATTAAATTGTATTTTTTTATAATTTTTTCTATATTCCTCATTAATTCCCTACCCTTTTTTTAAATTTTATCGTCTTAAAAAAATTTTCATTCTTAACTATAATCGAATCTAAATTTATCTGTGACAACTTCCATTTCCCATATACAATATCCCCTTCTTTAAAAATTTTATTCTCATCATGAATTATTATAAGTACTTTATTATTTTCCTTTTCATTTATTATTCCTACTAATTTTACGCCGTTTAACTCAGGAGCCCTTATAAAACTCTTCTCTTTTAATCCTTTTTCGTCTTTTTTTTTAGATAAACTAAATAATTTTTTACTGTGTAATTTTACAATATATTTCCCAATATCTTCCTGCTTTTTATCCATATATTTGTTTTTATTTTTATTCTCAATGGTTTTTTGCTTTCTTTTATCTTTTTCATACTTCATCAAAGAAATTCTGTTTTCTAATTCTTCACCTTTTATAATATCTATTCCACTGTTTTTTGTCTCTGACCACATATCATATGAAACATACACTCCACATAAAATTAACGCATATAATAATACCTTAAACTGCACACAAAACCCCCTCTTTAAACATAATTTTATCAATCAAAAACTAATTAAAAAAAAGTATATCATTATTTTTATTTTTTTTCAATAGTTTCTTGACATTCTTTTCATAATATTGTATCTTTTAAAGAAAATCTATAGGAGAAATTTCATTATGAATACAAAAAACAGAGGTTTTATATTAATTTTTATTTTATGGATAATATCAATTATATCTTTAATCACAAGCTATCTGATTACTAATTATTCTTTTAATAGAAAAAACTCTTTTAACTATATTAATCATACTGATTCAGATATGGCTATAATATCTGGATTCAATAAAGCTATCTCAATTTTAAAAAATGATGAAACAAAATATGATTTTAAATCTGATAATTGGAATAATCTTTTTTCAGATAAATTAAATAACTTTGTATATCATGTAAAAATCTCTGATGTTGGAAGCTTGTTAAATATCAATTTTTATTCTAGAAGTGATATTAACAAAAACAGTTCCAAGTATATTCCTAATATGATACTAAATTCCAATGGTAGCGACTCTAAATATTTTGATGTATATAGTAAATTTAATTTTTATCTTTACAGCATCAAAACTCTTGAGAAAAAACTTACTTATGATAAATTTAATTTTGAAGAAATAAATAATATTATTACAACTTTTGATGAGAATTTTAAAATAAAAAGTTTTAATATAAACGTTACTAATGTTATTAATTCTCTTAATTTAACAGCCGAAAAAAAAGAACTATTTACTAATTATTTTATGACTGTTGGTTCCTTAAATATAAACATTCTTACTAAAGAACAATTGAATTTTATTTTTAATATATGCAAATCAAAAGAATTTAGAAATTATAAATCAGATATCATTGAATATATGAACAATAACTCAATTGACAAAATTAGTTCTATATTTGATAATAATATTGTTCCTAAAAATTTAGAACATGTTTTTAGAAATATCTTTAATACTTCTTCAAATATATTTTCTATTAAAATATCTAACAACAATAATAAAATCTTAGCAAGAATTGTTGTTAAACGAAATTTTAAAGAAAAAAAAGAAAGCACATTTTCTGTGCTTTCTTGGAATGAATATTTTGATTAAGTAGTTGATTAAAAAACCAATTCTATCAAAATTATATATCCATCTTTTCTTTCTATTACAAATATTTTATTAGGAGCATTTGCTAAATGAATTATATCTTTATATCCTGTCCTTGATATATTAAATATTTTACAGCTTTATAACTTCCAATTATATTATTAGAGTTAATATAAATTATATTTTTTCATCTTCTTTTTGATCAATTATAACAATTTTATATCATTTTTTAGAAAGCAGGTTTGTTTCTTCAACTTTTTGATATTCTTCTTCTGTAACTACAAAAAAACAAAACATTATATTCAATTTCATCTGCACACTCAACTACTAAGGAATGGCTTAAAAATAACCTTCCCATTTTGTTTTAAAATACGCAATAATTTAAGCATTTTTATAACAAAATATAAGAAACTTATTTTTTAAACGTTCCTAAAGCTATAAAATTAGAAAAACAAGATAAATCTACTATTCTTCCGTTTACATTTTTAATAGTATCAAGTATAAATAATCCTATTATTTTTTCTCCAACTAAAGCCATTCACCTTAATACAAAAACAAAAGAATGGGAAAATAGTCAGGAAATAGCTTATTATTTTTCAACTGAAATTTGTTCAGCAAAATTATTATGTGAAAGAATTAGAGGTCATTGGAGAATAGAAAACTGTAATCATTATGTTAGAGATGAGACTTTAAAAGAAGACAAATCAAGAATAAGAATTAATGCAAATATTATGTTAAAATTAAGAAGCTTTGTTTTAAATATTTTAAGAATAAATAATATTAAAAATATTAGCAAAGAATTATGGAATAATGTATTAAATGTAGATAGAATATTTAAATATGTTGGCTTATATTAATAAGCAAGTTTGTTTCAAATGTAGCATTGAACGGCCCTGCTTTTTAACCACACTTTCCCCTATTTTCCAATCAACTCCAACCAAATAACCCCCGCCATATATTGCTTCATCATCTATTACCTATACCAAACGTTTTCCTGCTAAAGCTCTTGCTAAAGAGTTTGGAACATATCCATATTTGTTTATTACTTCCATTACTTTTTATTTTGTTTCTAGCGGAACATTAGAATATCCATTTACAACTCTAGAAACTGTACTCCTTGATACTCCTGCTATTTTAGCTATATCTTTACTTTTCATTTGTACCTCCTAAAATTCTCAAATTATAATATTTTTAATATATTTTATCATTTTCTACTAAAATAGCAAGACCCTTTTTTTAATTTCTCTCTTTTGTAGAACTTCTTTATGAAATTTAACACTACTAATTTATAAAAATTATAAAAAACTATGCCCGCTTATGCAATGGACATAGTTTTTTAATAAATCCTTTTCTTCTTAATTTTTATTTTAAACCCTTCTCTAAGGAATTTGATTCCCATTAGCAGCTTCTAATATTTCAAACCATTCTTGTCTGCTTAATTTAATTTCCAAAGCATACATTGCAGCTCTTATTCTATCCCATTTGCTACTTCCAACTATTGGAACTATTTTTGCTGGATGCATTAATAGCCAAGAATACATTACTACATCTATTCCAGATATATTATGTTCTTTTGCTATTTTCTCCAATGTTTTTCTAACTCTAACTACTTTTTCACTATTTCCTTTAAAAATTTCTCCACCTGCAAGCGGCGACCAAGCTAATGGTGTTATCCTTTTTTCAAAACAATTTTCAATAGTTCCATTATAAAACTGTTCAACTTGTAATGCTGATATCTCCACTTGATTTACTGTTATTGGAAAATCTAAATAACTTTGCAGCATATTCACTTGTGATGGCAAAAAATTAGAAACTCCAAATTCTCTAACTTTCCCAGCTTTTTTTAATTCAAGAAAAGCTTCTGCTACCTCTTCTGGATTCATAAACGGATCTGGCCTATGAATTAATAAAATATCAATATAATTGGTTCTAAAATTTCTTAAAGATTTTTTTACTGATTCTATAATATGTTTTTTACTTGTGTCATAATGATTAATCCAATTATTAGGTCTATTATCTGCCTTTAGTTGTATCCCGCATTTTGTTATAATCTCTATTTTATCTCTTATTCTTGGATCCATAGAGATAATATCTCCAAATTTTCTTTCTACACTGTATCCACCATAAATATCAGCATGATCGAATGTAGTTATTCCACTGTCAATATCTTTTTTTATTAAGCTCAAAACTTCTTCTTTACTTAAATCCCAATCATTTAATCTCCAATATCCATGTATAATCCTAGAAATTGACAAATCCTCACTTATTTTCACTCTTTTCATTTTGCGCCTCCCTATTTTTAGTTTATTTATATTCTTAATTACTAAACTCAAATCAACTAACTCATCGCAAGTAGCTGGTAAGTTAAACACAAATCATGATTAAATTTAAATTAGTTTTTTTAGAAAATCAACAAACAAAATGCCAACGAAAAATATGAATTTATTCTTTTAATTTATTTTACCAGATATAATCTAATAAAACAAGCAGATAATTTTTATCTGCTTGTTTTTGAATCATATTCAAAAGATAATAAGCTTTATTCTACTCTAACTTTATTTGACTTAAATATTATAGACCCATCAGCTAAAAATAAAATATCATTATTTTCCCCAATTTTTCCTTTTTTATCTGTAATTAATCTTGAAACTCTATCAGTTATTAACATCTTCCTCATTTTTTTCAAAAATTTTTCTTTATTATGATCTTTCAAATAATCTTTATAAACTTTCATTTCATATATATCTGTATTGCCAAGCTTTAAAACTGTTCTTCCAAGAGCTCTAATTACCATTTTCCCTTTTACTAATCCAAACATATATTCCTGCCCCTTAGAAAAAGGTTCTTTATATTTTGTAATTGAAAAATTTCCATCTTTTATATCTATTATTTTATTAATAATTTCAAAAAAATCATTAGAACTTTTAGAATTTATAACTTCTCTTTCATATTTTTTTATAAATTCAGAATCTATCCCACTATTTTGACTTTTTAATAAATTAATAATTGTTCTGTATATTGATAATTTTGATTTTTCAGTTAAATTATTTTGAGTTATATTTCCATAGTTATTCAATATATCTCTAGTAATCTCAACATTAGTCTCTTTTATTAATTTATAATTTAAAATATAAGGTAATCTATCAATTATAAATAAAATATTATGCTTTAACAATTCATTTTGAACAATAAATAAAGGTATAAATGTTTTATCTGTTGTCTTTTCATATGATATTCCATAATTATTAAAGTTTATATCTCTATTTTTAATCTTTAGTCTATTTTGTTCTATATCTGTTTTAAAAACTATTTTATCTCTAACTTTTCCAATTAAATTTACTCCATCTTTTTTGTATTTAATTTCAGAAAATAATAATTCATTAAATAAAACAGATGCTGATTCAAAACTAATATAATCAACGCCTTCAAATTTTCTAATATCTAAGTTTTCAACATGAACTCCATTGTGAAAAATTTTTGTTTTAATTCCTTTTCCTGCTCTATCTTTTATTTTATTATAATCAACCTCTATATCATTAATTTTTTCATTATAAGTTATTCTTATTTTCACTCTATCTTTATTTCCAAAACTAAAATTTCCTTTTGAATCAATTTTAGCTCCTCCACCATCTCCGACTATTTCATACTTAGCTAAATTATATAAACTATATTTTAATCCATTATCTATATCTACCATTGGATTTATCAAACACCAATGACTTCCTCCCTCTAAAAATTCAAATTGTGTTTTCATTTGTTTTATTTTATTTTGTTTCTCTCCAAAAAATAAAACAAACGGATATTCTATTATTTTACTCCATTCAATCTCATCATGATTACTATCTTTTGATTCATAATAAATTATATCTTTTCCTAATTTATATCCTTTATCTAAAAATTCATCTAACATATTTCTATCGCCTTTAGTATAAAAATCTGATCCCATTTCAGCTGTTCCTACACTTAACCATATTTTCAAATCTTTTTTAGAACTGTTTTTTATTAAATCTGCATTCCATTTAAATGGCGGCAAAGAAAGTAATCCAATCATAGAAAACATATTTTCATAACGGTATCCCATTCTTAAAGAAAAAGTTGCTCCTCCAGAAGAGCCCATAACTCCCCTATTTTCTCTATTTGCTAAAGTTTTATAATGTTTATCTACATAAGGGACTATATTTTTCACAAAGACATTATCATCAGGAAATCTTCCAGGGGCTCCATTAGATACCAAAGCCACTACAATTAAATCTTTAATTTTCTTTTCTTTCTTTAATTTATCCAAAGCTTCGTCAACTTTCCATTCGCCTTTTACCAAATTAGAGGCTGTTTTATTATAAAACATATTTTGTCCATCACCCATATATATTACAGGATATCTCTTATTAGAACTGTTGTAATTATCTGGCAAATATATTTGTAATCTCCAATCACTAAGAAAAGACATATCGTCTAAAATCACATTTTTAAGATTAGCAGCTTTATTTACTTTTCTTCCTCTACTTATTTTCCCATCTTTTGAAATTAATTGGACTTTAAAACTCAACATAAAAAGAGGATGTATAGATATTTCTATCTCTTTAGAATCTGCTGGTAATAGAATAGTTTTCCATATTTTTGCTACATCTTGCTTATATGAGACTTTTATATTTTTTATATCTTTTGTGTCTTTTAAATCCCACACTAACTTTACTTTTCTATTTTCCGAAATTGCTTTTAAATTTGTAATATTTTTTGCAAAATAATCAACTTTTTTAACCTTCTTCTTATTTACTTTATTCATATTTCGATTATTAATCTTTTTAGGGGTATTTGCACATCCAACAAACATTAATACACTAATTAATAAAATTACAACTTTTTTCATAATAAATTTCTCCTCCTAAAATATTTTGTTTTTTGAAAAATTTCGCCTTAAAAAATCGCATACTTAAAAAAATAGCATAGATTATTTTCAAAATAATTTTATATTTTCCTACTTGCTAAAAATATACTTTTAAATAAATTTAATTTCATAAACGAGCTATCTCTTATCTTTTTATAAGATGTATTATAATTTTTAAAATTATTATTTTTATCTCTTATACTTAATATATTATTTTGAATATCAATTATAAATATTTTTTTATTATTTGTAATCCCTTCTATAGAATTATCTTTTTCTATATATTTTATATTAGGATAAGTAACTTCTTTTACTAATTTTAATGCAGATTTAAAATTAATATAATCCATATTATCAACTCTTCTTATATCCAAATATAGCCCTTTTATTGTAAATTTTCCATTTTTATTTTTAAATTTAATCGTGGTATAAATTCCCTTTTCCAATTTTTCCTTAAATTCATTATAATCAATTTCTATTTTACTAATTTTATCTTTATACGTTATTTCTACATTAGTTTTATCTCTGTTTCCAAAAATAAAATTACCTTTTGAATTAACTTCACCTCCTTTTCCATTTTCTATAATTTTATATTTAGCTGAATTATACAAACTATACTTTAATCCATTGTCCAAGGTTATTTGTGGATTTAATAGCAGCCAATGACTTTTTGAATTTATAAGTTCAAGCTGTATTCCCATCTTCTTTATTTTTTTAGCTTTTTTTCCTTTGAAAAATATAAAAGGATATTCTATAATATCTCCCCATGCTTTTTCGTTATGCCTTCCATCTTTTAATTCATAATAAACAATATCTTTACCTAATTTATATCCTTTTTTTAAAAACATATCTAAAGCTCTTCTATCAAATTTCAAATAAGAATCTGATTCCATCTCATCTGTTCCTACGCTTAACCATATTTTCAAATTTTTCTTAGGTGAATTTTTTATAAGATCTATATTACTTTCAAAACATGGCAAAGATAACAGCCCTATCATTGAAAAAAGATTATTATATTTATACCCAATTTCTAAAGAATAGGAAGCACCTCCAGAAGAACCCATAATAGCTCTATTTTCTCTATTTGCTATAGTTCTATAATTATTATCTATGTATGGCAATATTTCATCTACAAATAAATTTTCATCTGGAAATCTTTCTCTTGTATTATAAGGAACAATAGCTACCACTATCAAATCTTCTATCTTTTTTTCTACTTTTAATCTTTCTAACATTTCATCAACTTTCCATTCTGCTTTTATTGGACTTAATGAAGTTACAGTAGAAAAAATATTATTTCCATCTCCTAAATATACTACAGGATATCTTTTTTTTGAATTATTGTAATTATCAGGTAAATATATTTGAGCTCTCCAATTATGGATTGTTGATATATTATCTAAAATAACATTTTTAGCATTAGCTGCTTTTTTTATAATTTTTCCTTTGCTTATTCTATTTTGTTTAGAAATCAACTGTACCCTAAATTTCATCATAGTAAGTGAAGGCACTTTTATCTCTATCATATTTTTTAAACCTATGTTTTGTTGATGCTGCCAATGTTTTTTATTTTCTTCTTTATATGAAATTTTAATGTTTTTAAGATTTTTAAGATTTTTTAAATTCCAACTTAACTTTACTTTTCCATCTTCTGATATTGCTTTTAAATTAAAAACTTCTTCTTTGAAAAATCTCACATCTTTTTTTAGATTAGTTCTTTTTAAATCATATTTTTTTATTTTATGAGATTTTACTTTTTTAGAGTTATTTGCACATCCCAAAAACATTAATATACCAATCAATAAAATTACAATTTTTTTCATAATAAATTTCTCCTCCTAAAATATTTTTTAATTAATTCTTTTTAATAATAAACATCTATTATTTTCTTAGACGAAATCAAATAATTATTTTTTAACGAATTTATAGATTGTTCTCATTCAATTTTTTATATCTTTTTTTAATACAATTTCAATATTATACTAACACATTTTTATTTAGTTTTCAACTGTTTTTAATTTTTAAAAAAAGAAAACAGCCTATTTTAAAATAGGCTGTTTTCTTTTTTAACTATACAATTTAAGAGTTTAAAAAAATCCAAAAATTTTAAAAATCTATATTTTAAAAGGAATTATTGCTAATATTACTCCAACAATCAACATCCACATTATATTCTGAATAAAATATGGATATGCCATTAATATTATTCCAATAACCAAAAACATAGAATTATAACTTTTTTTTCCATACATAAAATATCCTAAACCTATTGTACTTATAATAAAACTAATTAGCAATGTCATTTTTTTCTCCTTCAAAAATTAATTCGTTTATGATATTTTTATCTTTATAATATCTATTATCATAAACTCAATTTATTCATCTCTTTAGCTGTCATTATTACCATTTGTAATCTATTTTCTATATTTGCAAAACTTGTATCGGGATCATAATCAAGAGATAAAATCTGTATATCAGGAAACATTTTTTTTAATGATTTTGTCATTCCTCTTCCTGTAATATGGTTTGGAATACATCCAAAAGGCTGTACTATTATAAATGTTTTAACTCCATTTCTAGCATGTTCAATTATCTCAGCAGGAATTAACCAACCTTCTCCAGTAGTATATGTTTTATCTATAATTCCATCTATATTTTCAGCTAATTCATGAACATTTTTTTTATATTCATAAAATTTAAACTTTTTTAATCTTTTTTCTACTTTATTAACCACTCTTTGATATATCTTATCTGTAACATCAGCTAATAAAAAATTCCTAACAGGTTTTTCTATTTGTGAATTTTTAATTCCCTCTTTTATTTTTATCATATCTCGTCTAAAAAAATCTATAAATGAAGGAAAAATAGTTTCCATTCCATTTGCTTCAAGATATCCTTCAATATTTTCATTTGCAGATGGATGATAATTCATTAAAATTTCTCCAATTACAAATACTTTTGGTTTTGGTTTTTGTTCAATTAACTCTATGTTATTAAATGCCTCAATAGCTTCTTCAACTATTTTGGGTGAATTTTTATAATTTTTTTTCATAACTTCCACTATTTTATCTACATATTTTTCAAAAATTTGATTAGTTTCACCTCTATTTTTTTCATATGGTCTTATTCTTCTTTTCATATATTCCAAAGCATCAGTTGTAACAAGTCCATATAACATACCTAATTGAAACCACAATCCTAATTTAATCCCAGGCTGAATTCCTTTGTTATCTTCTCCAGTTGTAATAATCGAAACATCTTTATATCCTGCTTCATCTAATGCTTTCCTTGCAAGTGTTAAATATTGACCTGCACGACAATCATTACAATTTTTAGCTATTCCAAATGTAACCTCTTTTGGATTTTTGTCTTCCATTACTGCTAACATCTCTCCAATGTTTATTTGAGCTGGATAACATATATCATTATGTACATATTTTTTTCCTAAAGCTTTTGCCCTATCTCCTGCAATTGGCAATGGCTGTACATTATATCCTTTTTCACTTAAAACAGCCGAAACAACTTTTGCAAATGTTTCTGATAAAATTGGAACATAAATAGTTCTTTTTCCCTTATCTTTTTTTGAAAAAATTGAATTACCAAAAGGCTCTTTTAATTTTCTTAATGTTATTTTTTCCTGTTTTTCTCTTCTTGATTTTATTGTTTCTATAAATGAATTAATTCTTATAGTCATAGGACCTTTTACTTCACTTTCATCTAGCTTCATTATTAAAGGCTGTTTTTGAGAAATATCATTCATTAATCTAATTACTTCATCACTGTTAATTGCTTCATGACCACATCCAAAACTAACCACTTCTACAAATTCTAAATTTTTATTTTTTGCTGTATATATTGCTCCTGTAAAAAGCCTTGTGTGAAAAGGATTTACTGTATCAGGTCTTACTTTACTTAAATCAACATCATTAAGACCAGGCAAAGAATCCAATGTTAATACAGGAATATTTAAATTTACAAAAAAAGATGATATATTGTGGTTTATTAATTCATCACTATGATACGGCCTTGATGCTATAACAACTCCAAATCTGTTTTCTTTTTCTAACTGTTCCAGAACTTTTTTCCCTTCTTCTAACATCTTATTTTTAAAAATATTCTGAGCTATATCTCCCTCTAAAATTGCATTTTCTACAACATCTTTTTTTAATCCAAAACTTTCATTTATAAATTTTATTAATTGTTTATCTCTTAGATTTATAGTTGTCCATCTAAACATTGGAGTATCAAAAATAACTCCGCTTTTTTCTGGTTCATCATTCTCTTTTATAACCAAAGGATACCCTTGAATAACTGCACACATATTTACTGCTTCTTTATGTTTTTCATTTTCAGGCGGTATATCCATCATCATTGGCATAAATATTCTATCAACTTTTTTATCTATTAAATTTTTTATATGACCATGTACTATTTTTGCAGGAAAACAAACTGTATCTGATGGAATATTTTTTAATCCATCTTCAAATATTTTATAACTGCTTTTATCAGAAACAATAACTTCAAATCCCAATGATGTATAAAATGATTTCCAAAATGGCAAACTATTCCAAAATTCAAGTACTCTTGGAATTCCAATTTTAATATTTTTTTTAGGACTTAATTCTTTTGGAGCATAATTCTCAAAAAGAATTTTATTCCTATATTTCAGTAAATCAGGAACAGATTCTTTTTTTCTCATAATGTTTTTTAATTCTTTTAAAGTTGACTCATCTTTCAAATCGCCTATAACTTCTCCTCGTTCACATCTATTTCCAGTTACAAATGTAGTTTTATCATTAAATTCAACTATTGTTCGACTACAATTATTCGTACATAATTTACATATACTTCCTGATATCTTTTTATAATTAAAAGTTTCTAAATTTTCAAATCCTATAAAAGAAGTTGTCTTTTTATTCTTCATATTTTTTTTAGTAAGCAAAGCTACTCCAATTGCTCCCATCTCTCCTGAATGAGGAGGTCTCACAACTTTTATTCCTGTATATTGTTCCATTGCTCTTAATACAGCATCATTTTTAAAAGTCCCACCTTGAGCAAGAATGGTATTTCCAAGACTATTAAAATTAGAAACTCTTACAACTTTTGTGAATACATTTTCTATTACAGACCTACAAAGCCCAGCCATAATATCCTCTACAGAACGTCCATTTTTTTGTTCAGTAATTATAGAACTATTCATAAATACAGTACATCTAGAACCTAATTTTGAAGGATTTTTCGATTTAAATGCCAATTTTGAAATCTCTTCTACAGGAATTTTTAATGCTTTTGAGTAAGTTTCAATAAAAGAACCACAACCTGCAGAACAAGCTTCATTTAATACAATACCTGTAACAATTTTATTTTTTATGTTAATGGCTTTCATATCTTGCCCACCAATATCAAGAATAAACGATACATCAGGTGCATATTTAAAAGCTGCTTCTGCATGAGCTACTGTTTCAACTATATGATAATCCGCTTTAAATGCTTTGGCAAAAAGAAGTTCTCCATATCCAGTAGTTCCAACTCCTTTTACTGTTAAATTAACCCCCATTTTATCATAATAATCTTTTATTTCTAAAAGACCATTTTTCACAACATCAATTGGTTCTCCTGCGTTATTTGAATAAAATTTATTAATAATATTTTCATCTTCATCTATTAATACAAACTTACTTGTAGTAGAGCCTGCATCTATTCCAATATAAATATTTATATTTTCACCTTTATTATATTGCTTTGGCTCAAATTTTTCTACTTTATGTCTTTTGAAAAATTCTTCTTCTTCTTTTGTAGATTCAAAAAAATTCTCATTTTTTTCCACTTTATATTTATAATTTTTTTTATATTCTGAAAGTTTCTTTATAATCTCTGATAAATTATGAATTTCTTTTTTATCTTCAAATATTGTACCTATTGATAACGCTGCCCCTGCTGCTACAATAATTTCAGGATTTTCAGGGATTATAATTTCATTTTCATTTAATCCAAGTCTTTCTTTAAATACAGATATTAATTCAGTGTTAAATGTAAGTGGACCACCTTCAAAAATTACAGGTTTTACTATTTCTGCTCCTTGTGCTAATCCACCTATTGTTTGTTTTGCTATTGCATGAAAAGATGATAAAGCTATATCACTTTTTGGTACTCCTTGATTTAATAACGGTTGAATATCTGTTTTAGCAAATACTCCACATCTGCCAGAAATATCATAAAGAGTAGTTGATTTTTTTGCCAAATCATTAAATTCTTCAACTCCTACATTTAATATTTCAGCAATTTGGTCTATAAATGCACCTGTCCCACCTGCACAACTTCCATTCATTCTCATATCTGATGCAATTAATTTATCAGTTTTTTCATCATGATGAAAAAATATAACTTTCGCATCTTGCCCTCCAAGCTCTATTGCTGTCCTTGCATTTGGATAATAATTACCAATAGCTATAGCATTTGCCACTACTTCTTGCACAAAAAACAGACCTGTATAATCTGCAATAAAACTTCCACCACTTCCACATACTGCTATTTCAAAATTGCTGTTTTTATATTTTTTATCTATTTCTTTTAAAAGTTCTAAAATAGTTTCTGACTGTTTTGCATTATGTCTTAAATATTTAGAATAAACTATTTTTTTTGTAATTGGATCTAATACAACAGTTTTTACAGTTGTAGATCCTACATCTATTCCTAACCAATAATTATTCATTTTACCTCCAAAAATTAAAAATATTCTTTTAAAATTTTCATTAAATTTTCTTCAAATAACTGATCATCTTTTCTCTCTCTTTTTTTAGGACCTTTTGTCCTTTTTCCTGCATTCCTCATTTTTTGTCCCATATGTCGTTGAAACATTAAAGATTCAATATTAAATTTAGTATACCGCATCCCTTTTGGATGAATTACTGCATAAACTTTTTCAATTAGTATTGTAGCTAATCCATAATCTTGTGTTATGATTATATCCTCATTTTTAGATATTTTAACTATTTCCAAATCCACAGAATCTTTTCCTTTATCAACCTTTATTACTTTAAAATCTCCAGTTAATTCATGTGCATTATCAATTACCATTATTAACTCTAATTCATATTTTTTAGCTAATTGTTCACAAATTAATTTTGCATTTTTAGGTGTCGCATCTGCATCAATTATTATTCTCATCTTTTTCTCCTTTAAGAATCAGATCTGTTAATGCTATCTGTTTTCAATATTTTTTTATTATATTTAATCACAACCTGACTTAAAATGTCAATTATTTTTGCTATAATATTATTATTATAATTTTTCACTAGATAAAAAATAAGCTACGCTTCATTTGTTAAAACATAAATGTTTTTCAAAATTTTTGGTTTCTGAAAACTTTTTCTTTGAAAAATCGCATATTTCAAAAAAACGGCGTAGCTTATTTCCCAAATAAATTTATACTTTCATATTAAATTAAAAAAATATTTGACAGACAAAATATAAAAATGTATACTTTAAATCTAAACATATAAAAAAATCAAATATCCAAAAATATAAAAGGAGATAATTATGTATCCATTAAAATTCGAAAAAGTGTTTAAAGAAAAAGTTTGGGGTGGAAGAAATTTTGAATCTATATTAAATATTAAATTAAAATCAAATAAAAAAATTGGGGAATCTTGGGAAGTTTCAACTCATAAAAATGGAATATCTATTGTTTCAAGTGGAATCTACAAAGGAAAAACTCTACAAGAATTGATTAATCAATATGGAGAATCTATTGTTGGAAAAAAAGTATATACAAAATTTAAAAATAAATTTCCGCTTTTAATAAAATACCTAGATATAAATGATAAACTCTCTGTACAAGTTCATCCAAATGACAAATATGCTTTGGAAAATGAAGGAGAATTCGGAAAATCTGAATGTTGGTATGTTATTGATGCTTCTAAAGATGCAAAATTAATATTAGGAATAAAAGAAAATATTTCAAAAGAAATATTTCATAAGAAAGTCCAAAAAAACGATTTTTCAGAATTATTTAATGAAATACCTGTAAAAAAGGGTGATTTTATAAATATCTCTCCAGGACTTGTTCACGCTTCAACAGAAGGTTCTATTTTAATTTGTGAGATACAACAAAATTCAGATACTACTTATAGAATTTATGATTTTGACAGAGTTGTAGATGGTAAGCTAAGACCACTACATATAGATAAAGCTTTAGAAGTTATTAATTTTGGATTAAAGCCTGAAATAACTGAAGAAAAATATAGAGAAAATATAAAAATCAATGAAACAAACATTCAAAATCTAATAAGAAATGAATATTTTAACGTAGATAAATTAGACATAAAAAACAAGTATTCTTATAATTTAAAAGATAGTTTTTCTATTTTATCAATTATTGATGGCGCAGGACAATTAATTTATAATTCTGAAATATATAATATAAAAAAAGGAGAAACTTATTTTATTCCTGCTAACCTTAATATAGAAATAAACGGAAATTTAACAATTTTAAAAAGTTTTTTATAATTTTATATTTTTTTGAAAATAAAACAGAGGGAATATATATTCCCCCTGTTTTATTTTCATCTATTAATCTTTTTCTAACATTATATATCTGCTTGCATTTTTACCTTCTATATAAAATAATATTCCATCACCTTTTTTAGTTTTTTTATATTTTCCCATTATTTGATTAACGTTAGTTATTGTATTATTATTTACCTCTACAATTATATCTCCTGGTCTAACTCCATAACTATAAGCTTGTGAGTCATATGAAACTTCTAAAACTATTACCCCTTTTGTATTTTTATCTAAATTAAATTGTTTTATCACATTGTTATCTATATTTTTTATTTTCATTCCCATTAATTCTTGTTCTTCAGATGCTAATCCATTTCCATTATTAGCTTTTTTTCCAAGTTTTACTCTAATATTTATTTTTTTTCTATTTCTTAATATTCTTAAATCAACTTTTGTTCCAGGTGCAGCTGCTCCAATTTTATTTCTCAAATCATTGTAATCTTTTACTTTTTCTCCATTAATTTGTAAAACTATATCCCCTCTTTTTAATCCTGCTTTTTCAGCTGGCGTTCCTTTTAATACCTCACCAATTAATGCTCCTTTTGTATCTTTTAATCCAAATTTTTCAGCCATTTTATCATTAAGAGGTTGAATAGAAACTCCAAGCCATCCTCTCTCTACTTTTCCATTTTTTATCAATGAATTCTTTATTGGTTTTACCATATCTATAGGAATTGCAAATCCTATTCCCATATTCCCACCGCTTTTAGAAAGAATTGCTGTATTTATACCAATAACATTTCCATTAATATCTACTAATGGACCTCCGCTATTTCCTGGATTAATCGAAGCATCTGTTTGAATAAAATTTTCATAATTTTCTATTCCCATTCCAGAACGTCCTTTTGCACTTATGATTCCAACTGTCATTGTATTATTCAATCCAAATGGGTTTCCTATTGCAATTGCCCATTGCCCAACTTCCAATTTTGATGAATTACCTAAAGTTAAATATTTAAATTTTTTATTTGACTTTATTTTTAATATTGCAATATCTGTATCTTTGTCTGTTCCTATTAGTTTAGCAGAATAAGTTGATTTGTCATTTAAAGTAACTTTTATTTTATCTGCTCCATCAACTACATGATTATTTGTAACAATATATCCATCCTCTGAAATGATAAATCCTGACCCTAATGCAGTTTGCTTTCTTTTAATCTCTCTTGGTTCTCTTCTTTGATTATTTCTACCAAAAAATTGATCATTAAATAAATCTTCAAATGGATCATAATATCTTTGTTTTATAACTTTTTCAGTACTAATATTTACCACTGCTGGCATAACTTTCTTTGATACTTCTGTAAATGCTTTCTGATCGTCAAATACATTTGCAAAACTTGAAATTGATAAAATTGTAAAAACTAACATAAAACTCATAACTTTTTTCATGATAATCGCCTCCATATTTTTTTATTTTTTTAGATCATAATAGAAAAATAAGCTACGCTTTAATCTGGTAAAAGATAAACGTTTTTCTAAATACTTATTTTTTATGATCTCTTTATTTATAAGGTAAATAAACAAACTATAAACTATATGTTAGGGAGGGGAAGCCACTATGAAGGCTTCCTCTAAAAGGAGGTAAAATACGTTAAAATAGGGTGTTTTTTAACGTATATAAAACTCAAAAAAATGCTCTTATATAAAATATTAATTTATATTCTTTTTTTTCTTTTTTTTATCCTCTTTTCAATAACATTATACTATATGATTATTAAATTAAAATTAAATTAAAATTAAAATTTTTTAATCTATTCCTAAATTAAAATAGAAGAGCCGGGATTTCCCGACTCTTCTATTTTAATGTGTTATTCTCGAGGGCTTATTTGCAGTTAATTGGTCTGCTTGCCTTACTTTTCGTCTCTATCTTTTTATACCAGTGAGCACTAATCTGGTCGTCTCTGCCCTCTATTAATAATATACTTCATAAAACTACAAAAATCAACCTTTTTTTTAATTTCTTTCAGCTTTTTTTAATTTTTTATCTTCATACATTCTATTATCTGCAATTTCTATTATTTTATAAGCACTCATCTCTCTGTTTTCATCTAATGATGCAATACCATAACTAAGACTTACTTTAAAGTCAAATTTACCACTTCTATTTTTCCTTTCTTTATTTTCCAAGACTCTATTCCAAAATTTTTCGCTATCCACTAAATCACAATTTACTAATATCACTAGAAATTCATCTCCGCCCAATCTACAAACTATATCTGATTCTCTACTGCTTTCTTTTAAAATATCTGCTGTAATTTTTATTAATTTATCTCCATTTTTATGCCCTAAAGAATCATTAATTTTTTTTAAGCCATTTACATCAATAAATATAACAATTAGATTATTATTATTTCTTTTGGCCATTTGTAGATTTTTTTCTAACATTTCTATTCCGATTCTACGATTATATAATCCAGTAAGCTCATCAAAAGTAGCATATCTTTTTATCTCATTTTCAATTAGTTTTTTTTCAGTTATATCTGTTCCTACAAGTAAAACTCTATATTTGTCCCCTTCTTCTATTAAAAGAAAATTTGAAGGTTTTATAATTAAATATTTTATATCTCCATTTTTAGCTTTTAACATTACCTCTGTTTCTTTTGACCCTGTTCCTAAAAAAATATTATCTATTATATTTTTTATTTTTATATTATTTTCTTCATCAAAAGAAGATAATATACTTTCACCTACTATTTCCTCTCTATTATATCCAATAATCTTTTCTGCCGCTTTATTCACTTCTCTTATACAATAATTTTCATCAACCATAATATGGATTACTGTACTTTCTTCAAAAAGTGCTCTATATTTTTCATTTCCTAACAAAATTTCCATATTCATATTTTGTATTTCTAAAATCATTTTGTTAATTGAATCAGCCAATACTTTAAATTCTCCTGATCCTTTTATTCTTATTTTTTCTTTAAATTTATCTAATGGTAAATTCTCCAATTGTTTTTTTAAACTTTCTATCTCTTTTATTGCAGAATGATAAACATTCATTCCTACTATAATAAAAAATATAATATAAATTACTACACTAAACAATATAGATATTTTTAAAATTTTAAGAATAATTACTCCAATCCATCTTTTACTTTTAATTCTTAAATTAATTTTATTTTTTCCAAAAGATCCTACTGTTTTTTCCGCCAATATATATTTATTATTTGGATTTAATATTAAATTTTTTAACTTTTTATTGGAAATTAAAAATTTAACTTCTACTCCGGCTCTTTCAGAAATATTTTTATAATGTTTAGAATCCAAAGAAAAACCCATCATTAAATATCCATTGAAAGGTTTTTCTTCATTAGTATCAAAAACTTTGCTATATGACACCATTACAACTTTATTATTGTTTATTCCAAGAAATTTTTTATTTTTGTTATCATCTATTTCTTTTATAAAATTATTTTTAAAAGGAATAATTTTATTTGTTTTATAATCATATTTTGCAGAATAAATTTCTTTTTTGTTTTTATTTAAAATAGTTATAAATTCTACACCTGTATTTGTAAAAGTTGTATCATTAATATTAGATTTTATATATTCAATATTTTGATTTTGTATAAATTGATAAGTATCATCCCAAATTGACCAATCAAGCACAAGCTTTTGAATATTTGATAACTCTTCATTTATATTTTTTTCTGCTCTATTAAATTGCTCTTTAACATAATTACTCTCTATTTTTAAAAGTTTTGGTTTTAAAAAATAATTTGTTCCTATTGCCTGAATAATAATGACTACTAAAAAAGTTAAAAATAATCCTAGAAAAATTTTATTTCTTAATTTCATTTTTTTTAGCTCCTTTTTTGTTTTTAGATCCTTTTTTGCCTTATCAATTTATTATACTATATATATGACTATTTTCCTTTATTTTTTAGTATTATAAAAAACAAACTATATTTTATTCCGTAAATAGCGTAGCTTATTTTCTGAATAAATTTATACTTTTCTAACATAAAAAAAAAGCTCTATAGATTTTATTTTCTATAGAGCTTTTTATTATTACTTTATTTCTTTCACATCATATCCTGCTTCATCAATAGCATCAATTATAATTTTATCTGCTATATCTATATTAATATCTATCACTGCTTTCCCAATTTCTACATTGTCTATTTTTACTCCATCTAGTTCACTAAGAGCCTCTTTTACATGCGTTACACAATGCCCACAACTCATCCCATCAATTAATATTGTCTTTTTCATTTTTATCCTCCCTATTCTTCTATTTTTTATTTGAAGGTTTAAATCCCCTCAATCTCAAAGCATTAATCACAACTGAAACTGAACTAAATGCCATTGCTGCTCCTGCTATCATTGGATTTAATTTTGGACCTCCAAAAGCATATAAAACCCCTGCTGCAATTGGTATTCCAAAAGTATTATATCCAAATGCCCAAAAAAGATTTTGTTTTATATTTCTAATTGTTGCTTTACTAAGTTCAATTGCTGTTGCTACATCATTTATATTACTTCTCATTAAAATTATATCAGCTGATTCAATAGCTACATCTGTTCCATTTCCTATAGCTATTCCAATGTTAGCTTGAGCTAATGCTGGAGCATCATTAATTCCATCTCCAACCATTGCTACGATTTTATTTTCACTTTGCAATTTTTTTATTTCATTAGATTTATCATTTGGCAATACTTCTGATAAAACAATATTAATTCCCAATTTTTTAGCAATTGCTGTTGCTGTTCTTTTATTATCTCCTGTTATCATAGCTATATCTAAATTTAATTCTTTTAATCTTTTTATAGCACTATAGCTTGATTCTTTTATTGTGTCTGCTACTGCAATTATTCCTTCTAATCTATTATTTACAGATATATACATTGGAGTTTTTCCTTCATTTGATAATTTTAAACTTATATTATCATTCTTCAAATCTATTTTATTATCTTCTAACAACTTTTTGTTTCCAATTAATATCTCTTTTTCATCTATTATAGTTTTTATTCCATGCCCTGGTTCAGCTAAAAATTTATCTACTTTTTTTAATATTATTTTTCTTTCCTCGGCTAGATTTACAATTGCTTCTCCTAATGGATGTTCAGATTTTTTTTCAGAAGATGCTGCTAAATTTAAAATTTCTTCTTCTGAAATTTCTCCTAATTTTATAACATCCGTTACTTTAGGTTTTCCTTCTGTAAGAGTTCCTGTTTTATCAAATACTATTGTATCAATTTTTAATGCTGTTTCTAATGCTTCTCCATTTTTAATTAATATCCCATATTCTGCTCCTTTTCCGGTCCCTACCATTATTGCTGTTGGCGTTGCAAGGCCTAATGCACATGGACAAGCTATTACCAATACCGCAATAGTTATTGTCAACGAAAAAACAAATGTAGCTCCTGTCAAATACCAAATCAATCCTGATATAATCGCAATTGAAATTACAATTGGTACAAAATACCCTGCCACAATATCAGCTAATTTAGCAATAGGTGCTTTTGAACCTTGTGCCTCTTCTACTAATTTTATAATTTGAGATAACACTGTATCTTTTCCAACTTTTGTTACTTTAAATTTAACAGATCCATTTTTATTAATAGAACCTCCGATTACTTTATCCCCAATTTTTTTCTCTACAGGAATACTTTCTCCAGTCAACATTGATTCATCTATATATGTATCTCCTTCTATTATCATCCCATCTACCGGTATCTTTTCTCCTGGCTTTACTATTACTATATCTCCTTCTTCTACTTCTTCAATTGGAATATCTATCTCTTTCCCATCTTGAAATACTAAAGCAGTTTTAGGCTGCAATCCAACCAGTTTTTTTATGGCATCAGACGTTTTACCTTTTGAAACTATTTCTAAATATTTACCTAAAAGTATAAAGGATATTATTATTCCTGCTGTTTCAAAATACAAATCTTTTGTAAAAGATAATTTTCCAAAATAGATTTGTATAATTGCATATACTCCATATAAAAATGCTGCTCCTGTTCCAAGTGCCACTAAAGAATCCATATTTGGTGATAATGTAAATAAATTTCTAAATCCTGCTGTATAAAATTTATATCCTGCTATCAACACTGGAATTACTAAAAACAGTTGTGCAAAAGCAAAATTTAACGGGTGACTACCAGGAGTTATTATTTCTGGCAAATAAAATCCAAACATATGTCCCATTGCTATATATAATAATGGTATTGAAAAAACAGAGGAAACAATAAATTTTATAAGAAAAATTTTTCTCTCTTTTTCATGTCTCTTTTTTTCAAAATCTACATCATTTTCTTTTTCAATTTTTAAAGGTATATATCCAGCTTTTTTTATTATATTTTTTATTTCTGAAACTCTTGTTTTAGAAGCATCATATTTTATAAATGCTTTTTCATTTGCAAAATTCACACTAATATTCACTACTCCATCTATTTTAGAAACTTTTTTCTCAATAGTTTTTGAGCACGCAGTGCACGTCATCCCTTCTATTGGTATAATTATCTCTTTTTCCTCTTTTTTTTCTTCTAAATCATATCCAGCTTTTTTTACAATTTCTTTTATTCTTTCAGTTTCTATTAAATTTTCATCAAATTTTACAACCAATTTTTCATTTGCAAAATTCACACCAGCAGCTTCTACTCCAACTGTTTTTAAAAGTCTTCTTTCTATTGTTTTTGCACAAGCTGTGCAGGTCATACCAATTACCTCAAATTCTTTTTTTTTAGTTTCCATTTTTATCTACATCCTCTCTTTTTCCCTTTACTTCCGTTTTCATTTCCCTCTTCTTTATTCATATTACAACAATCTAATTTTTCTGTCCCTAAGTTTTTATTATTCTCACTTCCTAAATATTTCAATAAATTTAATACTTTTCTATTTATAATCTCTTTAATTTTCATATAGCCCCCCTCCCTATATTTATAGTATACTATTTTTTATATAAAAAATCAACAATTATTTTTCTTGTTTTTTTCTTTCTTATAATATATAATAATTCATTGAGGTGAACTTTATGAAAATTAAATCTAAATTTTTTATACTTAATACTATTTTTTTACTTATTTTTATTTTTTTGATCTATTTTTTTTATTGCTATCAAAAAAATAAAATTTATAATAAAACTTTAAATACACTAAAAAAAGATAATAATGTTATTAATGAATTAATCCAAGGTAGTCTTGATGTTTCTATAAAAAGTTACTTAAGAGGTATTGCCGAAAAAAATAGAGATATTACAGTTAAATTATATAATAATTTTAAAAATAATATTATTACAGAACAAGAAGCTAAAAAAAGGTTATTTGAACTTTTCTTTTCTCAAAAAATTGCAGATTCTGGATATATTTATATTGTTAATTCCAAAGGAGATTTAGTTTATCATCCTTCTAAATTTTTTAATCATAAAAATTTAAAAAATTATGATTTTATAAAAAGACAAATTAATCATAAAAATGGATTTATAAAATATAAATTTGCAAGTTATGACTATCAAAGACCAGAAAATAAAGTTTTATATATGGCCTATTTTAAACCTTGGGATTGGATTATTTCAGTTTCTGCTAAAAGAAATGAACTAAAATCTCTTATAAATATTAACGATTTTAGAAATCAGATTTTAGCTCTTAAATTTGGAAAAACTGGATATTCTTATGTTATAGATTCTAAAGGAAATCTTATTATTCATCCCTATTTACAAGGAACAAATATCCTTAACGCCAAAGATGAAAAAAACCATTACTTTATAAAAGAAGTGGTTAAAAATAAAAATGGAATTATTAAATATCCTTGGAAAAATAAAAAAAATAAAAAAACTTCGTATAAATTAGTAGTTTACTCCTATATTCCATCTATGGACTGGATTATAGCTTCTGGAGGATATTTTAATGAATTTAATGATGAATTAAACTCCTTTCAATTGTTAATACTTTTGATAATAACTATATATATATTAAATATTATTATTATTAATTTACTTTTAAATAGAATTATGTTTAGACCTCTTAAAGAATTTTTAAATAAAATAAAAAACATTAATATTTCAAAAAAATATTTACCACTTAAAATTCATTCTAAAAGTGAAATTGGATTATTAAGTGTAGAGTTTAATCGAATGATAATTCGAATAAAAAATCATACTAAAAATTTAGAATCTTTGGTTTTAGAAAAAACGAAAGATTTACACAGAGCAAATTCAAATTTAAAAAAGATTAACCAACAATTAAATGAAAAAAATAATGTTTTATTTAAAACAGCTACCACTGATAAATTAACAGGAATATATAATCGTTCCTACCTAATAAACGCTTTCGAAAAAGAGTTTGCTAAATGCAAAAGACACAATATAAATTTATCATGTATTATGATTGATATTGATTTTTTTAAAAATGTAAATGATACTTATGGACATTTAACAGGAGATTTTGTTTTAGAAAATACAGCAAAAAATATACACGATAGTTTAAGAAAAGAGGATATTTTTGGAAGATATGGTGGAGAAGAATTTTTAGTAATATTACCAAATACATCTATTGAACAAGCTGAAAATGTAGCTGAAAAAATAAGAAAGAATATTGAAAGAACTAAATACAGTAATAATAATAATTCTTTAAATGTAACTTTAAGCCTTGGTGTTTCAAATATTTTTATTGATAATCCTAAAAATATTGATAATATGATATTAAATTCTGATATTGCTTTATATGAATCTAAAAATAGTGGTAGAAATAAAACTACTGTTTATACAAAGAAAGAAGAGGTATGATAACCATATCTCTTCTTTCTTTTAATTATTTTATCTCTAAAAAATAAATTTGTTATAAAAACAGTTAAAGAACTGCGTGTTTTAAAACCGCTTCTAATCCAATCCTATTTTACATTTATGATCTTTTTCTTGTTCCTCTTCTTTAAACATTGTCTGTTTTCTCATTAATCCATCAAAATCAACTAAAAATCCATCAAAATCTGGTCCATCTACACATGCAAATTTTGTTTCTTCTCCTATTTTTACTCTGCATCCTCCACACATTCCAGTTCCGTCAATCATAATTGGATTTAAAGATACAGATGTTGGAATATTTAATTTTTTTGTTATTTCCACTACTGCTTTCATCATAATTACTGGTCCAATTGTTATTATTTCATCATATTTTTCACCATTTTTTATTAATTCATTTAATACATCAGTTACAAATCCTTTAGTTCCTTCACTACCATCATTTGTTGCAAAATAAATATTTTCACTAATTTTTCTAAATTCATCTTCTAATATAATATTTTCTTTACTTCTGCCACCTATAATTATATCTGTTTTTACTCCTAATTCATTTAATTTTCTAATTTGAGGATATAGTGGAGCTGCTCCAACGCCACCTGCTATTCCTAAAACTCTATTTTTCTTTTCTAATTTAGTAGCTTTCCCAAGTGGTCCTGCTACATCACTTATAAAATCGCCTTTATTTTTTTCACTTAATAATTTTGTAGTATATCCTACAACTTGATAAATTAATGTTACTGTTTTATCTTCTCTATTATAATCAGCAATTGTAAGAGGAATCCTTTCTCCATCTTCTTCTACTCTTATTATTACAAATTGACCAGGTTCACATTTTCTTGCTACAAAAGGTGCTTCTACTACTATTTTTTCTACTACACTATTCAATATCTCTTTTTCTATTATTTTATGCATATTATCCATCTCCTATTTTAACTTTTAAACTATTATATCATATATTATATCTTATTTAAACTATTTTTAATATTTAAGAATACCTTGAAAAATTTTAATCATTTAGTGCTTTGACCACAAAAAATATTTAGTTTTCTTTTCATCTACTATATATTGTGTTCGAACGTTGCAACGAAACTATATATAGTAGATAAAAATTTAGAAAACTACTTTTTATGTTCTAATCATTTAGTGCTTTTTAGATTTCTCTTAGTTTTTTATACTTTTTCCTCTCATATAATCTATATTTACTTTTAACTTACCATTCACGTCATATCCTACTTCTGTTAATTTTGTTTTATTTAATTTCAAATTTATAGTTCCAATTTTATAATTGTTTAAATATACTTGTATCTCCCCCTTACCCATTATAAATTCAAAAATATTCCAATCATTTATGTTTACCGCCTCTGTTTTAGTCCAGTCTAAAATAGTGCTTGTTTTATCTCCTTCATCTTCAAATATAGTAACTTCTCCTAAATTATCTATTTCAAAATAAGCCTGTCTTTTATTGCTTAATCCAAAATATATTCCGAAACCTTCATCTGTGTTTCCTTTTTCATATCTAATACTAGTTTCTCCTAAATAAGTTTTATCATCTTTAAAGTCAAATTTCTTATAGATTTGAAAAGAAGAATCTTCATCTTTATGATCAATATTATAATAACCATTTGCTACTTTTACTTCTATTTCTTTGTTTTTTTCTTCATACCATTTGTACTTATTATTATCAAATTCATCATTAATATTAAAATTCTTTACCTCAGATAATTCATTTGATTTCAAAGCTGGAAGGTTTTTACATCCTAAAATAGTTGTTGCCAAAACTAATACTGTTAAAAATTTCATTCTTTTTTTCATTCACTTCATCTCCTATTTTATTTTTTTATTTAACCTGAAAGTATAAATGTATTCAGAAAATAAGTTATGCTTTTTTTGAAATATACGATTTTTAAAAGTGAGATTTTTCAGAAGCCAAAAATTCAGAAAAACATTTATGCTTTATCAGATTAAAAACGTAGCTTGTTTTTTATTTACTAGGAAAGTATAAATTTGTCTAGAAAATAAGCTACGCCATTTTTTTGAAATATGCGATTTTTCAAAGCAAAATTTTTCAGAAGCCAAAAATTTTGAAAAACATTTATGTTCTACCAGATGAAGCGTAGCTTATTTTTTTATTTAAAAAATATTTTCAAATTTTATCAATTTCCCCTGCAAACATTTTTTTTACAATTTCTGTATATTCTCCATTTTCTTTATTTATATATAATGGTTGTTCTATTATAATTCCCTCTTTTGAATTTTTTTTACCTTCTATCAAAACAATTTTAGAATTTTTATTTTTTGTAGTATAACAAAACTTTATCCTTTTGGGTTCTATTTTGTTTTTTTTCATTATATTTAATATTTCATAAAATCTTTCAGCTCTATGAACAATTGCAAAATAGCCCATATTTCTTAATAATTTCCCTGAAATAAAGATAATTTCTTCAAGAGTTATAGCTATTTCGTGTCTTGCTATACTTAATTGGTCTAAATTATTTATATCTGAATTTTTGAAAAATGGAGGGTTAGAAATTACTGCATCTTGACTTTGTTCTTTTAGATGTTTTTTCCAGTTTTTCATATCATCGTGTATTATTTCTATTCTGTTTTCCAAATTGTTTATATTTATATTTTTTTTTGCTAATTCATAAGAATCTTTTAATATTTCTATTCCTGTTATTTTTGCACTTGTTCTTTTAGATAATAGTAAAGATACTGCTCCATTCCCAAATCCTAATTCTGTTATATTTTTAAGTTTTCTATTGATTGTTAAAAAATTTGCTAAAAGCACTGAGTCAATAGAAAAATTAAAATGATCATTTTTTTGAAATATTTTCATATTAGGTATATCTAAAAAATCTATTAAAACTTCTTCCCCATTTTTTTTCATTAAAAGTCCTTTCTTTTTTCTGTTTATAAAAAGTGTCGCGGCGACACTTTTTATAAACACTAATAATATTTAATTGTATTTTCTAAAACGATAGTATAGTTGAAGTTTTATTATTAAATAATATTTTTTCATATAATTTTCAATAGTATATCATATATTTTTAATAAATAAAATATGTTTTTTTAATTTTAATTAATATTTACACTTGTTTTAGAAAGTATAATTGATATATTTTACTAAGAATTCTTTCATCTAATATCTATATATAAGTATAATTTTATTTTGAAAATATGTTACACTGTTTTTTTAGTATATGATTTTTCAGAAATTAAAGATTTAGAAAAATATTTATGTTTTATCAGATAAATATTAGTTTATTTTTTTGTCTATTAGGAAAGTATAAACTTAATCAGAAAATAAGCTACACTTTTGGGGAAAAATATGCAATTTTTTAAATCTGAATTTTTAATTATGATTATTATAATTGATTTTTTTCTAAAATAAGAATATAGCTATTAATATAAAGAATCATATAGATGATGTTATAATGTATAATGTATAATGTAGTGAAAGTTAGAATTTTTTTTATTTTATATTTTGCTTGCAATTTTTCAATGGTTGAGCTATAATTAGTTAATTAATTTTCTAAAATCTTGGTATAGTTATATTATAAGCTTTATTTTATAACGGTTTTAGAGTTTCTAATATGAGTGTAATGGTTTGAATCTATTAATTAAACTAACATAATTTTTTTTTATTAGTTTGTTTTTCTAAAATATTAGTAATGTCTAAAAAAGCTTTTATTTTAAGGGGATATATAAATTCTAAAATAAGAGTAATGTTTTTATAAACCTTTAAATATACTCTCATATTAGAAAATTAATAATATTTAATTTTCTAATATGAGAGTATATTTTTTATGAAGAGGCTATTTTATTAGGTTTGTTATCTTAAATTAGTTTTTCTAAAATGAAGATACTGATATTTTTATTGTTTTTTTATATAATAGAAAAATATAAATTTATTAAAAAAATAAGCTATTCTATCTTTGTAACACCTGATTTTTCAAAGGAAAATTTTTAAGCAATTAAAAATTTAGAAAAACGTTTATGCTTTACTATAAGAAGTGTAGCTTATTTTTTAAACAAATTTATTTGAAATTTAATTTTCTAAAATGATTATACAGTTTTTATAACCGTTATTTTTTAAGGATTTTAAAAATTCTAAAATAAAGATACTGTTGTTTAGTTTTATAAAACATAGTGGTTTTGCCATAATTTTTTTATAAAAAAATTTCTAAAATTATTGTAATGGGGTGTTTTAA